Merge branch \'klp-modular-dev\' of /usr/local/google/game/mirror/googleplex-android_googlesource_com/platform/packages/apps/Nfc into klp-modular-dev am: e83149922a am: 19108b5825 am: 63280fe6e9 am: f96895a212 am: 740e072600 am: 7390f09a40
am: 755d0a2d63

* commit '755d0a2d63e447a4d6d48be72627e446513b26b9':
diff --git a/AndroidManifest.xml b/AndroidManifest.xml
index 9941c53..eea72fd 100755
--- a/AndroidManifest.xml
+++ b/AndroidManifest.xml
@@ -52,6 +52,7 @@
     <uses-permission android:name="android.permission.LOCAL_MAC_ADDRESS" />
     <uses-permission android:name="com.android.permission.WHITELIST_BLUETOOTH_DEVICE" />
     <uses-permission android:name="android.permission.DISPATCH_NFC_MESSAGE" />
+    <uses-permission android:name="android.permission.OVERRIDE_WIFI_CONFIG" />
     <application android:name=".NfcApplication"
                  android:icon="@drawable/icon"
                  android:label="@string/app_name"
diff --git a/nci/jni/Android.mk b/nci/jni/Android.mk
index ed4d3c4..1e33ca6 100644
--- a/nci/jni/Android.mk
+++ b/nci/jni/Android.mk
@@ -4,8 +4,7 @@
 
 LOCAL_PATH := $(call my-dir)
 include $(CLEAR_VARS)
-LOCAL_ADDITIONAL_DEPENDENCIES := $(LOCAL_PATH)/Android.mk
-
+include $(call all-makefiles-under,$(LOCAL_PATH))
 
 ifneq ($(NCI_VERSION),)
 LOCAL_CFLAGS += -DNCI_VERSION=$(NCI_VERSION) -O0 -g
@@ -13,14 +12,7 @@
 
 LOCAL_CFLAGS += -Wall -Wextra
 
-define all-cpp-files-under
-$(patsubst ./%,%, \
-  $(shell cd $(LOCAL_PATH) ; \
-          find $(1) -name "*.cpp" -and -not -name ".*") \
- )
-endef
-
-LOCAL_SRC_FILES:= $(call all-cpp-files-under, .)
+LOCAL_SRC_FILES := $(call all-subdir-cpp-files) $(call all-subdir-c-files)
 
 LOCAL_C_INCLUDES += \
     external/libxml2/include \
@@ -48,6 +40,5 @@
 LOCAL_STATIC_LIBRARIES := libxml2
 
 LOCAL_MODULE := libnfc_nci_jni
-LOCAL_MODULE_TAGS := optional
 
 include $(BUILD_SHARED_LIBRARY)
diff --git a/nci/jni/NativeNfcManager.cpp b/nci/jni/NativeNfcManager.cpp
index 36e89c0..bf9be83 100755
--- a/nci/jni/NativeNfcManager.cpp
+++ b/nci/jni/NativeNfcManager.cpp
@@ -39,6 +39,7 @@
     #include "nfa_ee_api.h"
     #include "nfc_brcm_defs.h"
     #include "ce_api.h"
+    #include "phNxpExtns.h"
 }
 
 extern const UINT8 nfca_version_string [];
@@ -59,6 +60,7 @@
     extern void nativeNfcTag_formatStatus (bool is_ok);
     extern void nativeNfcTag_resetPresenceCheck ();
     extern void nativeNfcTag_doReadCompleted (tNFA_STATUS status);
+    extern void nativeNfcTag_setRfInterface (tNFA_INTF_TYPE rfInterface);
     extern void nativeNfcTag_abortWaits ();
     extern void nativeLlcpConnectionlessSocket_abortWait ();
     extern void nativeNfcTag_registerNdefTypeHandler ();
@@ -95,6 +97,7 @@
     void                    doStartupConfig ();
     void                    startStopPolling (bool isStartPolling);
     void                    startRfDiscovery (bool isStart);
+    bool                    isDiscoveryStarted ();
 }
 
 
@@ -296,6 +299,16 @@
 
     case NFA_ACTIVATED_EVT: // NFC link/protocol activated
         ALOGD("%s: NFA_ACTIVATED_EVT: gIsSelectingRfInterface=%d, sIsDisabling=%d", __FUNCTION__, gIsSelectingRfInterface, sIsDisabling);
+        if((eventData->activated.activate_ntf.protocol != NFA_PROTOCOL_NFC_DEP) && (!isListenMode (eventData->activated)))
+        {
+            nativeNfcTag_setRfInterface ((tNFA_INTF_TYPE) eventData->activated.activate_ntf.intf_param.type);
+        }
+        if (EXTNS_GetConnectFlag () == TRUE)
+        {
+            NfcTag::getInstance().setActivationState ();
+            nativeNfcTag_doConnectStatus (true);
+            break;
+        }
         NfcTag::getInstance().setActive(true);
         if (sIsDisabling || !sIsNfaEnabled)
             break;
@@ -361,8 +374,13 @@
         }
         else if (gIsTagDeactivating)
         {
-            NfcTag::getInstance().setActive(false);
-            nativeNfcTag_doDeactivateStatus(0);
+            NfcTag::getInstance ().setActive (false);
+            nativeNfcTag_doDeactivateStatus (0);
+        }
+        else if (EXTNS_GetDeactivateFlag () == TRUE)
+        {
+            NfcTag::getInstance().setActive (false);
+            nativeNfcTag_doDeactivateStatus (0);
         }
 
         // If RF is activated for what we think is a Secure Element transaction
@@ -705,6 +723,7 @@
 
             if (!sIsDisabling && sIsNfaEnabled)
             {
+                EXTNS_Close ();
                 NFA_Disable(FALSE);
                 sIsDisabling = true;
             }
@@ -860,6 +879,7 @@
                 NFA_P2pSetTraceLevel (num);
                 sNfaEnableEvent.wait(); //wait for NFA command to finish
             }
+            EXTNS_Init (nfaDeviceManagementCallback, nfaConnectionCallback);
         }
 
         if (stat == NFA_STATUS_OK)
@@ -904,7 +924,10 @@
         ALOGE ("%s: fail nfa enable; error=0x%X", __FUNCTION__, stat);
 
         if (sIsNfaEnabled)
+        {
+            EXTNS_Close ();
             stat = NFA_Disable (FALSE /* ungraceful */);
+        }
 
         theInstance.Finalize();
     }
@@ -1217,6 +1240,7 @@
     ALOGD ("%s: enter", __FUNCTION__);
 
     sIsDisabling = true;
+
     pn544InteropAbortNow ();
     RoutingManager::getInstance().onNfccShutdown();
     PowerSwitch::getInstance ().initialize (PowerSwitch::UNKNOWN_LEVEL);
@@ -1224,6 +1248,7 @@
     if (sIsNfaEnabled)
     {
         SyncEventGuard guard (sNfaDisableEvent);
+        EXTNS_Close ();
         tNFA_STATUS stat = NFA_Disable (TRUE /* graceful */);
         if (stat == NFA_STATUS_OK)
         {
@@ -1244,6 +1269,7 @@
     sDiscoveryEnabled = false;
     sPollingEnabled = false;
     sIsDisabling = false;
+    sP2pEnabled = false;
     gActivated = false;
 
     {
@@ -1727,6 +1753,21 @@
 
 /*******************************************************************************
 **
+** Function:        isDiscoveryStarted
+**
+** Description:     Indicates whether the discovery is started.
+**
+** Returns:         True if discovery is started
+**
+*******************************************************************************/
+bool isDiscoveryStarted ()
+{
+    return sRfEnabled;
+}
+
+
+/*******************************************************************************
+**
 ** Function:        doStartupConfig
 **
 ** Description:     Configure the NFC controller.
diff --git a/nci/jni/NativeNfcTag.cpp b/nci/jni/NativeNfcTag.cpp
index 844e9cf..a25c3d7 100755
--- a/nci/jni/NativeNfcTag.cpp
+++ b/nci/jni/NativeNfcTag.cpp
@@ -36,8 +36,10 @@
 {
     #include "nfa_api.h"
     #include "nfa_rw_api.h"
+    #include "nfc_brcm_defs.h"
     #include "ndef_utils.h"
     #include "rw_api.h"
+    #include "phNxpExtns.h"
 }
 namespace android
 {
@@ -115,7 +117,7 @@
 static tNFA_STATUS  sMakeReadonlyStatus = NFA_STATUS_FAILED;
 static jboolean     sMakeReadonlyWaitingForComplete = JNI_FALSE;
 static int          sCurrentConnectedTargetType = TARGET_TYPE_UNKNOWN;
-
+static int          sCurrentConnectedTargetProtocol = NFC_PROTOCOL_UNKNOWN;
 static int reSelect (tNFA_INTF_TYPE rfInterface, bool fSwitchIfNeeded);
 static bool switchRfInterface(tNFA_INTF_TYPE rfInterface);
 
@@ -155,6 +157,7 @@
     sem_post (&sMakeReadonlySem);
     sCurrentRfInterface = NFA_INTERFACE_ISO_DEP;
     sCurrentConnectedTargetType = TARGET_TYPE_UNKNOWN;
+    sCurrentConnectedTargetProtocol = NFC_PROTOCOL_UNKNOWN;
 }
 
 /*******************************************************************************
@@ -189,6 +192,21 @@
 
 /*******************************************************************************
 **
+** Function:        nativeNfcTag_setRfInterface
+**
+** Description:     Set rf interface.
+**
+** Returns:         void
+**
+*******************************************************************************/
+void nativeNfcTag_setRfInterface (tNFA_INTF_TYPE rfInterface)
+{
+    sCurrentRfInterface = rfInterface;
+}
+
+
+/*******************************************************************************
+**
 ** Function:        ndefHandlerCallback
 **
 ** Description:     Receive NDEF-message related events from stack.
@@ -257,7 +275,14 @@
         {
             SyncEventGuard g (sReadEvent);
             sIsReadingNdefMessage = true;
-            status = NFA_RwReadNDef ();
+            if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+            {
+                status = EXTNS_MfcReadNDef ();
+            }
+            else
+            {
+                status = NFA_RwReadNDef ();
+            }
             sReadEvent.wait (); //wait for NFA_READ_CPLT_EVT
         }
         sIsReadingNdefMessage = false;
@@ -372,7 +397,37 @@
             ALOGD ("%s: try format", __FUNCTION__);
             sem_init (&sFormatSem, 0, 0);
             sFormatOk = false;
-            status = NFA_RwFormatTag ();
+            if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+            {
+                static uint8_t mfc_key1[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
+                static uint8_t mfc_key2[6] = {0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7};
+
+                status = EXTNS_MfcFormatTag (mfc_key1, sizeof(mfc_key1));
+                if (status != NFA_STATUS_OK)
+                {
+                    ALOGE ("%s: can't format mifare classic tag", __FUNCTION__);
+                    sem_destroy (&sFormatSem);
+                    goto TheEnd;
+                }
+
+                if (sFormatOk == false) //if format operation failed
+                {
+                    sem_wait (&sFormatSem);
+                    sem_destroy (&sFormatSem);
+                    sem_init (&sFormatSem, 0, 0);
+                    status = EXTNS_MfcFormatTag (mfc_key2, sizeof(mfc_key2));
+                    if (status != NFA_STATUS_OK)
+                    {
+                        ALOGE ("%s: can't format mifare classic tag", __FUNCTION__);
+                        sem_destroy (&sFormatSem);
+                        goto TheEnd;
+                    }
+                }
+            }
+            else
+            {
+                status = NFA_RwFormatTag ();
+            }
             sem_wait (&sFormatSem);
             sem_destroy (&sFormatSem);
             if (sFormatOk == false) //if format operation failed
@@ -387,12 +442,26 @@
         NDEF_MsgInit (buffer, maxBufferSize, &curDataSize);
         status = NDEF_MsgAddRec (buffer, maxBufferSize, &curDataSize, NDEF_TNF_EMPTY, NULL, 0, NULL, 0, NULL, 0);
         ALOGD ("%s: create empty ndef msg; status=%u; size=%lu", __FUNCTION__, status, curDataSize);
-        status = NFA_RwWriteNDef (buffer, curDataSize);
+        if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+        {
+            status = EXTNS_MfcWriteNDef (buffer, curDataSize);
+        }
+        else
+        {
+            status = NFA_RwWriteNDef (buffer, curDataSize);
+        }
     }
     else
     {
         ALOGD ("%s: NFA_RwWriteNDef", __FUNCTION__);
-        status = NFA_RwWriteNDef (p_data, bytes.size());
+        if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+        {
+            status = EXTNS_MfcWriteNDef (p_data, bytes.size());
+        }
+        else
+        {
+            status = NFA_RwWriteNDef (p_data, bytes.size());
+        }
     }
 
     if (status != NFA_STATUS_OK)
@@ -435,6 +504,13 @@
 *******************************************************************************/
 void nativeNfcTag_doConnectStatus (jboolean isConnectOk)
 {
+    if (EXTNS_GetConnectFlag () == TRUE)
+    {
+        EXTNS_MfcActivated ();
+        EXTNS_SetConnectFlag (FALSE);
+        return;
+    }
+
     if (sConnectWaitingForComplete != JNI_FALSE)
     {
         sConnectWaitingForComplete = JNI_FALSE;
@@ -456,6 +532,13 @@
 *******************************************************************************/
 void nativeNfcTag_doDeactivateStatus (int status)
 {
+    if (EXTNS_GetDeactivateFlag () == TRUE)
+    {
+        EXTNS_MfcDisconnect ();
+        EXTNS_SetDeactivateFlag (FALSE);
+        return;
+    }
+
     sGotDeactivate = (status == 0);
 
     SyncEventGuard g (sReconnectEvent);
@@ -497,16 +580,18 @@
     }
 
     sCurrentConnectedTargetType = natTag.mTechList[i];
-    if (natTag.mTechLibNfcTypes[i] != NFC_PROTOCOL_ISO_DEP)
+    sCurrentConnectedTargetProtocol = natTag.mTechLibNfcTypes[i];
+
+    if (sCurrentConnectedTargetProtocol != NFC_PROTOCOL_ISO_DEP)
     {
-        ALOGD ("%s() Nfc type = %d, do nothing for non ISO_DEP", __FUNCTION__, natTag.mTechLibNfcTypes[i]);
+        ALOGD ("%s() Nfc type = %d, do nothing for non ISO_DEP", __FUNCTION__, sCurrentConnectedTargetProtocol);
         retCode = NFCSTATUS_SUCCESS;
         goto TheEnd;
     }
 
-    if (natTag.mTechList[i] == TARGET_TYPE_ISO14443_3A || natTag.mTechList[i] == TARGET_TYPE_ISO14443_3B)
+    if (sCurrentConnectedTargetType == TARGET_TYPE_ISO14443_3A || sCurrentConnectedTargetType == TARGET_TYPE_ISO14443_3B)
     {
-        ALOGD ("%s: switching to tech: %d need to switch rf intf to frame", __FUNCTION__, natTag.mTechList[i]);
+        ALOGD ("%s: switching to tech: %d need to switch rf intf to frame", __FUNCTION__, sCurrentConnectedTargetType);
         retCode = switchRfInterface(NFA_INTERFACE_FRAME) ? NFA_STATUS_OK : NFA_STATUS_FAILED;
     }
     else
@@ -519,6 +604,7 @@
     return retCode;
 }
 
+
 /*******************************************************************************
 **
 ** Function:        reSelect
@@ -650,7 +736,7 @@
 {
     NfcTag& natTag = NfcTag::getInstance ();
 
-    if (natTag.mTechLibNfcTypes[0] != NFC_PROTOCOL_ISO_DEP)
+    if (sCurrentConnectedTargetProtocol != NFC_PROTOCOL_ISO_DEP)
     {
         ALOGD ("%s: protocol: %d not ISO_DEP, do nothing", __FUNCTION__, natTag.mTechLibNfcTypes[0]);
         return true;
@@ -687,17 +773,19 @@
     }
 
     // special case for Kovio
-    if (NfcTag::getInstance ().mTechList [0] == TARGET_TYPE_KOVIO_BARCODE)
+    if (sCurrentConnectedTargetProtocol == TARGET_TYPE_KOVIO_BARCODE)
     {
         ALOGD ("%s: fake out reconnect for Kovio", __FUNCTION__);
         goto TheEnd;
     }
 
      // this is only supported for type 2 or 4 (ISO_DEP) tags
-    if (natTag.mTechLibNfcTypes[0] == NFA_PROTOCOL_ISO_DEP)
-        retCode = reSelect(NFA_INTERFACE_ISO_DEP, false);
-    else if (natTag.mTechLibNfcTypes[0] == NFA_PROTOCOL_T2T)
-        retCode = reSelect(NFA_INTERFACE_FRAME, false);
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_ISO_DEP)
+        retCode = reSelect (NFA_INTERFACE_ISO_DEP, false);
+    else if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_T2T)
+        retCode = reSelect (NFA_INTERFACE_FRAME, false);
+    else if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+        retCode = reSelect (NFA_INTERFACE_MIFARE, false);
 
 TheEnd:
     ALOGD ("%s: exit 0x%X", __FUNCTION__, retCode);
@@ -774,6 +862,16 @@
 {
     SyncEventGuard g (sTransceiveEvent);
     ALOGD ("%s: data len=%d", __FUNCTION__, bufLen);
+
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+       if (EXTNS_GetCallBackFlag () == FALSE)
+       {
+           EXTNS_MfcCallBack (buf, bufLen);
+           return;
+       }
+    }
+
     if (!sWaitingForTransceive)
     {
         ALOGE ("%s: drop data", __FUNCTION__);
@@ -814,13 +912,15 @@
 ** Returns:         Response from tag.
 **
 *******************************************************************************/
-static jbyteArray nativeNfcTag_doTransceive (JNIEnv* e, jobject, jbyteArray data, jboolean raw, jintArray statusTargetLost)
+static jbyteArray nativeNfcTag_doTransceive (JNIEnv* e, jobject o, jbyteArray data, jboolean raw, jintArray statusTargetLost)
 {
     int timeout = NfcTag::getInstance ().getTransceiveTimeout (sCurrentConnectedTargetType);
     ALOGD ("%s: enter; raw=%u; timeout = %d", __FUNCTION__, raw, timeout);
+
     bool waitOk = false;
     bool isNack = false;
     jint *targetLost = NULL;
+    tNFA_STATUS status;
 
     if (NfcTag::getInstance ().getActivationState () != NfcTag::Active)
     {
@@ -859,8 +959,17 @@
             sWaitingForTransceive = true;
             sRxDataStatus = NFA_STATUS_OK;
             sRxDataBuffer.clear ();
-            tNFA_STATUS status = NFA_SendRawFrame (buf, bufLen,
-                    NFA_DM_DEFAULT_PRESENCE_CHECK_START_DELAY);
+
+            if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+            {
+                status = EXTNS_MfcTransceive (buf, bufLen);
+            }
+            else
+            {
+                status = NFA_SendRawFrame (buf, bufLen,
+                        NFA_DM_DEFAULT_PRESENCE_CHECK_START_DELAY);
+            }
+
             if (status != NFA_STATUS_OK)
             {
                 ALOGE ("%s: fail send; error=%d", __FUNCTION__, status);
@@ -904,6 +1013,28 @@
                 nativeNfcTag_doReconnect (NULL, NULL);
                 ALOGD ("%s: reconnect finish", __FUNCTION__);
             }
+            else if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+            {
+                uint32_t transDataLen = sRxDataBuffer.size ();
+                uint8_t *transData = (uint8_t *) sRxDataBuffer.data ();
+                if (EXTNS_CheckMfcResponse (&transData, &transDataLen) == NFCSTATUS_FAILED)
+                {
+                    nativeNfcTag_doReconnect (e, o);
+                }
+                else
+                {
+                    if (transDataLen != 0)
+                    {
+                        result.reset (e->NewByteArray (transDataLen));
+                    }
+                    if (result.get () != NULL)
+                    {
+                        e->SetByteArrayRegion (result.get (), 0, transDataLen, (const jbyte *) transData);
+                    }
+                    else
+                        ALOGE ("%s: Failed to allocate java byte array", __FUNCTION__);
+                }
+            }
             else
             {
                 // marshall data to java for return
@@ -949,28 +1080,30 @@
 
     // For NFA, libnfcType is mapped to the protocol value received
     // in the NFA_ACTIVATED_EVT and NFA_DISC_RESULT_EVT event.
-    switch (libnfcType) {
-    case NFA_PROTOCOL_T1T:
+    if (NFA_PROTOCOL_T1T == libnfcType)
+    {
         ndefType = NDEF_TYPE1_TAG;
-        break;
-    case NFA_PROTOCOL_T2T:
-        ndefType = NDEF_TYPE2_TAG;;
-        break;
-    case NFA_PROTOCOL_T3T:
+    }
+    else if (NFA_PROTOCOL_T2T == libnfcType)
+    {
+        ndefType = NDEF_TYPE2_TAG;
+    }
+    else if (NFA_PROTOCOL_T3T == libnfcType)
+    {
         ndefType = NDEF_TYPE3_TAG;
-        break;
-    case NFA_PROTOCOL_ISO_DEP:
+    }
+    else if (NFA_PROTOCOL_ISO_DEP == libnfcType)
+    {
         ndefType = NDEF_TYPE4_TAG;
-        break;
-    case NFA_PROTOCOL_ISO15693:
+    }
+    else if (NFA_PROTOCOL_MIFARE == libnfcType)
+    {
+        ndefType = NDEF_MIFARE_CLASSIC_TAG;
+    }
+    else
+    {
+        /* NFA_PROTOCOL_ISO15693, NFA_PROTOCOL_INVALID and others */
         ndefType = NDEF_UNKNOWN_TYPE;
-        break;
-    case NFA_PROTOCOL_INVALID:
-        ndefType = NDEF_UNKNOWN_TYPE;
-        break;
-    default:
-        ndefType = NDEF_UNKNOWN_TYPE;
-        break;
     }
     ALOGD ("%s: exit; ndef type=%d", __FUNCTION__, ndefType);
     return ndefType;
@@ -1066,7 +1199,7 @@
 ** Returns:         Status code; 0 is success.
 **
 *******************************************************************************/
-static jint nativeNfcTag_doCheckNdef (JNIEnv* e, jobject, jintArray ndefInfo)
+static jint nativeNfcTag_doCheckNdef (JNIEnv* e, jobject o, jintArray ndefInfo)
 {
     tNFA_STATUS status = NFA_STATUS_FAILED;
     jint* ndef = NULL;
@@ -1074,7 +1207,7 @@
     ALOGD ("%s: enter", __FUNCTION__);
 
     // special case for Kovio
-    if (NfcTag::getInstance ().mTechList [0] == TARGET_TYPE_KOVIO_BARCODE)
+    if (sCurrentConnectedTargetProtocol == TARGET_TYPE_KOVIO_BARCODE)
     {
         ALOGD ("%s: Kovio tag, no NDEF", __FUNCTION__);
         ndef = e->GetIntArrayElements (ndefInfo, 0);
@@ -1083,6 +1216,10 @@
         e->ReleaseIntArrayElements (ndefInfo, ndef, 0);
         return NFA_STATUS_FAILED;
     }
+    else if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        nativeNfcTag_doReconnect (e, o);
+    }
 
     /* Create the write semaphore */
     if (sem_init (&sCheckNdefSem, 0, 0) == -1)
@@ -1099,7 +1236,15 @@
 
     ALOGD ("%s: try NFA_RwDetectNDef", __FUNCTION__);
     sCheckNdefWaitingForComplete = JNI_TRUE;
-    status = NFA_RwDetectNDef ();
+
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        status = EXTNS_MfcCheckNDef ();
+    }
+    else
+    {
+        status = NFA_RwDetectNDef ();
+    }
 
     if (status != NFA_STATUS_OK)
     {
@@ -1155,6 +1300,12 @@
         status = sCheckNdefStatus;
     }
 
+    /* Reconnect Mifare Classic Tag for furture use */
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        nativeNfcTag_doReconnect (e, o);
+    }
+
 TheEnd:
     /* Destroy semaphore */
     if (sem_destroy (&sCheckNdefSem))
@@ -1220,7 +1371,7 @@
     // Special case for Kovio.  The deactivation would have already occurred
     // but was ignored so that normal tag opertions could complete.  Now we
     // want to process as if the deactivate just happened.
-    if (NfcTag::getInstance ().mTechList [0] == TARGET_TYPE_KOVIO_BARCODE)
+    if (sCurrentConnectedTargetProtocol == TARGET_TYPE_KOVIO_BARCODE)
     {
         ALOGD ("%s: Kovio, force deactivate handling", __FUNCTION__);
         tNFA_DEACTIVATED deactivated = {NFA_DEACTIVATE_TYPE_IDLE};
@@ -1258,6 +1409,14 @@
         ALOGD ("%s: tag already deactivated", __FUNCTION__);
         return JNI_FALSE;
     }
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        status = EXTNS_MfcPresenceCheck ();
+        if (status == NFCSTATUS_SUCCESS)
+        {
+            return (NFCSTATUS_SUCCESS == EXTNS_GetPresenceCheckStatus ()) ? JNI_TRUE : JNI_FALSE;
+        }
+    }
 
     {
         SyncEventGuard guard (sPresenceCheckEvent);
@@ -1290,30 +1449,65 @@
 ** Returns:         True if formattable.
 **
 *******************************************************************************/
-static jboolean nativeNfcTag_doIsNdefFormatable (JNIEnv*,
-        jobject, jint /*libNfcType*/, jbyteArray, jbyteArray,
+static jboolean nativeNfcTag_doIsNdefFormatable (JNIEnv* e,
+        jobject o, jint /*libNfcType*/, jbyteArray, jbyteArray,
         jbyteArray)
 {
     jboolean isFormattable = JNI_FALSE;
-
-    switch (NfcTag::getInstance().getProtocol())
+    tNFC_PROTOCOL protocol = NfcTag::getInstance().getProtocol();
+    if (NFA_PROTOCOL_T1T == protocol || NFA_PROTOCOL_ISO15693 == protocol
+        || NFA_PROTOCOL_MIFARE == protocol)
     {
-    case NFA_PROTOCOL_T1T:
-    case NFA_PROTOCOL_ISO15693:
         isFormattable = JNI_TRUE;
-        break;
-
-    case NFA_PROTOCOL_T3T:
+    }
+    else if (NFA_PROTOCOL_T3T == protocol)
+    {
         isFormattable = NfcTag::getInstance().isFelicaLite() ? JNI_TRUE : JNI_FALSE;
-        break;
-
-    case NFA_PROTOCOL_T2T:
+    }
+    else if (NFA_PROTOCOL_T2T == protocol)
+    {
         isFormattable = ( NfcTag::getInstance().isMifareUltralight() |
                           NfcTag::getInstance().isInfineonMyDMove() |
                           NfcTag::getInstance().isKovioType2Tag() )
                         ? JNI_TRUE : JNI_FALSE;
-        break;
     }
+    else if (NFA_PROTOCOL_ISO_DEP == protocol)
+    {
+        /**
+         * Determines whether this is a formatable IsoDep tag - currectly only NXP DESFire
+         * is supported.
+         */
+        uint8_t cmd[] = {0x90, 0x60, 0x00, 0x00, 0x00};
+
+        if (NfcTag::getInstance ().isMifareDESFire ())
+        {
+            /* Identifies as DESfire, use get version cmd to be sure */
+            jbyteArray versionCmd = e->NewByteArray (5);
+            e->SetByteArrayRegion (versionCmd, 0, 5, (jbyte*) cmd);
+            jbyteArray respBytes = nativeNfcTag_doTransceive(e, o, versionCmd, JNI_TRUE, NULL);
+            if (respBytes != NULL)
+            {
+                // Check whether the response matches a typical DESfire
+                // response.
+                // libNFC even does more advanced checking than we do
+                // here, and will only format DESfire's with a certain
+                // major/minor sw version and NXP as a manufacturer.
+                // We don't want to do such checking here, to avoid
+                // having to change code in multiple places.
+                // A succesful (wrapped) DESFire getVersion command returns
+                // 9 bytes, with byte 7 0x91 and byte 8 having status
+                // code 0xAF (these values are fixed and well-known).
+                int respLength = e->GetArrayLength (respBytes);
+                uint8_t* resp = (uint8_t*) e->GetByteArrayElements (respBytes, NULL);
+                if (respLength == 9 && resp[7] == 0x91 && resp[8] == 0xAF)
+                {
+                    isFormattable = JNI_TRUE;
+                }
+                e->ReleaseByteArrayElements (respBytes, (jbyte *) resp, JNI_ABORT);
+            }
+        }
+    }
+
     ALOGD("%s: is formattable=%u", __FUNCTION__, isFormattable);
     return isFormattable;
 }
@@ -1344,6 +1538,53 @@
 
 /*******************************************************************************
 **
+** Function:        nativeNfcTag_makeMifareNdefFormat
+**
+** Description:     Format a mifare classic tag so it can store NDEF message.
+**                  e: JVM environment.
+**                  o: Java object.
+**                  key: Key to acces tag.
+**                  keySize: size of Key.
+**
+** Returns:         True if ok.
+**
+*******************************************************************************/
+static jboolean nativeNfcTag_makeMifareNdefFormat (JNIEnv *e, jobject o, uint8_t *key, uint32_t keySize)
+{
+    ALOGD ("%s: enter", __FUNCTION__);
+    tNFA_STATUS status = NFA_STATUS_OK;
+
+    status = nativeNfcTag_doReconnect (e, o);
+    if (status != NFA_STATUS_OK)
+    {
+        ALOGD ("%s: reconnect error, status=%u", __FUNCTION__, status);
+        return JNI_FALSE;
+    }
+
+    sem_init (&sFormatSem, 0, 0);
+    sFormatOk = false;
+
+    status = EXTNS_MfcFormatTag (key, keySize);
+
+    if (status == NFA_STATUS_OK)
+    {
+        ALOGD ("%s: wait for completion", __FUNCTION__);
+        sem_wait (&sFormatSem);
+        status = sFormatOk ? NFA_STATUS_OK : NFA_STATUS_FAILED;
+    }
+    else
+    {
+        ALOGE ("%s: error status=%u", __FUNCTION__, status);
+    }
+
+    sem_destroy (&sFormatSem);
+    ALOGD ("%s: exit", __FUNCTION__);
+    return (status == NFA_STATUS_OK) ? JNI_TRUE : JNI_FALSE;
+}
+
+
+/*******************************************************************************
+**
 ** Function:        nativeNfcTag_doNdefFormat
 **
 ** Description:     Format a tag so it can store NDEF message.
@@ -1354,7 +1595,7 @@
 ** Returns:         True if ok.
 **
 *******************************************************************************/
-static jboolean nativeNfcTag_doNdefFormat (JNIEnv*, jobject, jbyteArray)
+static jboolean nativeNfcTag_doNdefFormat (JNIEnv *e, jobject o, jbyteArray)
 {
     ALOGD ("%s: enter", __FUNCTION__);
     tNFA_STATUS status = NFA_STATUS_OK;
@@ -1366,6 +1607,20 @@
         return JNI_FALSE;
     }
 
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        static uint8_t mfc_key1[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
+        static uint8_t mfc_key2[6] = {0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7};
+        jboolean result;
+
+        result = nativeNfcTag_makeMifareNdefFormat (e, o, mfc_key1, sizeof(mfc_key1));
+        if (result == JNI_FALSE)
+        {
+            result = nativeNfcTag_makeMifareNdefFormat (e, o, mfc_key2, sizeof(mfc_key2));
+        }
+        return result;
+    }
+
     sem_init (&sFormatSem, 0, 0);
     sFormatOk = false;
     status = NFA_RwFormatTag ();
@@ -1379,6 +1634,11 @@
         ALOGE ("%s: error status=%u", __FUNCTION__, status);
     sem_destroy (&sFormatSem);
 
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_ISO_DEP)
+    {
+        int retCode = NFCSTATUS_SUCCESS;
+        retCode = nativeNfcTag_doReconnect (e, o);
+    }
     ALOGD ("%s: exit", __FUNCTION__);
     return (status == NFA_STATUS_OK) ? JNI_TRUE : JNI_FALSE;
 }
@@ -1409,6 +1669,66 @@
 
 /*******************************************************************************
 **
+** Function:        nativeNfcTag_makeMifareReadonly
+**
+** Description:     Make the mifare classic tag read-only.
+**                  e: JVM environment.
+**                  o: Java object.
+**                  key: Key to access the tag.
+**                  keySize: size of Key.
+**
+** Returns:         True if ok.
+**
+*******************************************************************************/
+static jboolean nativeNfcTag_makeMifareReadonly (JNIEnv *e, jobject o, uint8_t *key, int32_t keySize)
+{
+    jboolean result = JNI_FALSE;
+    tNFA_STATUS status = NFA_STATUS_OK;
+
+    sMakeReadonlyStatus = NFA_STATUS_FAILED;
+
+    ALOGD ("%s", __FUNCTION__);
+
+    /* Create the make_readonly semaphore */
+    if (sem_init (&sMakeReadonlySem, 0, 0) == -1)
+    {
+        ALOGE ("%s: Make readonly semaphore creation failed (errno=0x%08x)", __FUNCTION__, errno);
+        return JNI_FALSE;
+    }
+
+    sMakeReadonlyWaitingForComplete = JNI_TRUE;
+
+    status = nativeNfcTag_doReconnect (e, o);
+    if (status != NFA_STATUS_OK)
+    {
+        goto TheEnd;
+    }
+
+    status = EXTNS_MfcSetReadOnly (key, keySize);
+    if (status != NFA_STATUS_OK)
+    {
+        goto TheEnd;
+    }
+    sem_wait (&sMakeReadonlySem);
+
+    if (sMakeReadonlyStatus == NFA_STATUS_OK)
+    {
+        result = JNI_TRUE;
+    }
+
+TheEnd:
+    /* Destroy semaphore */
+    if (sem_destroy (&sMakeReadonlySem))
+    {
+        ALOGE ("%s: Failed to destroy read_only semaphore (errno=0x%08x)", __FUNCTION__, errno);
+    }
+    sMakeReadonlyWaitingForComplete = JNI_FALSE;
+    return result;
+}
+
+
+/*******************************************************************************
+**
 ** Function:        nativeNfcTag_doMakeReadonly
 **
 ** Description:     Make the tag read-only.
@@ -1419,13 +1739,25 @@
 ** Returns:         True if ok.
 **
 *******************************************************************************/
-static jboolean nativeNfcTag_doMakeReadonly (JNIEnv*, jobject, jbyteArray)
+static jboolean nativeNfcTag_doMakeReadonly (JNIEnv *e, jobject o, jbyteArray)
 {
     jboolean result = JNI_FALSE;
     tNFA_STATUS status;
 
     ALOGD ("%s", __FUNCTION__);
 
+    if (sCurrentConnectedTargetProtocol == NFA_PROTOCOL_MIFARE)
+    {
+        static uint8_t mfc_key1[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
+        static uint8_t mfc_key2[6] = {0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7};
+        result = nativeNfcTag_makeMifareReadonly (e, o, mfc_key1, sizeof(mfc_key1));
+        if (result == JNI_FALSE)
+        {
+            result = nativeNfcTag_makeMifareReadonly (e, o, mfc_key2, sizeof(mfc_key2));
+        }
+        return result;
+    }
+
     /* Create the make_readonly semaphore */
     if (sem_init (&sMakeReadonlySem, 0, 0) == -1)
     {
@@ -1492,6 +1824,7 @@
     ALOGD ("%s", __FUNCTION__);
     sNdefTypeHandlerHandle = NFA_HANDLE_INVALID;
     NFA_RegisterNDefTypeHandler (TRUE, NFA_TNF_DEFAULT, (UINT8 *) "", 0, ndefHandlerCallback);
+    EXTNS_MfcRegisterNDefTypeHandler (ndefHandlerCallback);
 }
 
 
diff --git a/nci/jni/NfcTag.cpp b/nci/jni/NfcTag.cpp
index 0cc4b42..c4e343b 100755
--- a/nci/jni/NfcTag.cpp
+++ b/nci/jni/NfcTag.cpp
@@ -27,6 +27,8 @@
 extern "C"
 {
     #include "rw_int.h"
+    #include "nfc_brcm_defs.h"
+    #include "phNxpExtns.h"
 }
 
 
@@ -308,13 +310,12 @@
     //save the stack's data structure for interpretation later
     memcpy (&(mTechParams[mNumTechList]), &(rfDetail.rf_tech_param), sizeof(rfDetail.rf_tech_param));
 
-    switch (rfDetail.protocol)
+    if (NFC_PROTOCOL_T1T == rfDetail.protocol)
     {
-    case NFC_PROTOCOL_T1T:
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A; //is TagTechnology.NFC_A by Java API
-        break;
-
-    case NFC_PROTOCOL_T2T:
+    }
+    else if (NFC_PROTOCOL_T2T == rfDetail.protocol)
+    {
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A;  //is TagTechnology.NFC_A by Java API
         // could be MifFare UL or Classic or Kovio
         {
@@ -337,27 +338,26 @@
                 }
             }
         }
-        break;
+    }
+    else if (NFC_PROTOCOL_T3T == rfDetail.protocol)
+    {
+        UINT8 xx = 0;
 
-    case NFC_PROTOCOL_T3T:
+        mTechList [mNumTechList] = TARGET_TYPE_FELICA;
+
+        //see if it is Felica Lite.
+        while (xx < activationData.params.t3t.num_system_codes)
         {
-            UINT8 xx = 0;
-
-            mTechList [mNumTechList] = TARGET_TYPE_FELICA;
-
-            //see if it is Felica Lite.
-            while (xx < activationData.params.t3t.num_system_codes)
+            if (activationData.params.t3t.p_system_codes[xx++] == T3T_SYSTEM_CODE_FELICA_LITE)
             {
-                if (activationData.params.t3t.p_system_codes[xx++] == T3T_SYSTEM_CODE_FELICA_LITE)
-                {
-                    mIsFelicaLite = true;
-                    break;
-                }
+                mIsFelicaLite = true;
+                break;
             }
         }
-        break;
-
-    case NFC_PROTOCOL_ISO_DEP: //type-4 tag uses technology ISO-DEP and technology A or B
+    }
+    else if (NFC_PROTOCOL_ISO_DEP == rfDetail.protocol)
+    {
+        //type-4 tag uses technology ISO-DEP and technology A or B
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_4; //is TagTechnology.ISO_DEP by Java API
         if ( (rfDetail.rf_tech_param.mode == NFC_DISCOVERY_TYPE_POLL_A) ||
                 (rfDetail.rf_tech_param.mode == NFC_DISCOVERY_TYPE_POLL_A_ACTIVE) ||
@@ -383,21 +383,33 @@
             //save the stack's data structure for interpretation later
             memcpy (&(mTechParams[mNumTechList]), &(rfDetail.rf_tech_param), sizeof(rfDetail.rf_tech_param));
         }
-        break;
-
-    case NFC_PROTOCOL_15693: //is TagTechnology.NFC_V by Java API
+    }
+    else if (NFC_PROTOCOL_15693 == rfDetail.protocol)
+    {
+        //is TagTechnology.NFC_V by Java API
         mTechList [mNumTechList] = TARGET_TYPE_ISO15693;
-        break;
-
-    case NFC_PROTOCOL_KOVIO:
+    }
+    else if (NFC_PROTOCOL_KOVIO == rfDetail.protocol)
+    {
         ALOGD ("%s: Kovio", fn);
         mTechList [mNumTechList] = TARGET_TYPE_KOVIO_BARCODE;
-        break;
-
-    default:
+    }
+    else if (NFC_PROTOCOL_MIFARE == rfDetail.protocol)
+    {
+        ALOGD ("%s: Mifare Classic", fn);
+        EXTNS_MfcInit (activationData);
+        mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A;  //is TagTechnology.NFC_A by Java API
+        mNumTechList++;
+        mTechHandles [mNumTechList] = rfDetail.rf_disc_id;
+        mTechLibNfcTypes [mNumTechList] = rfDetail.protocol;
+        //save the stack's data structure for interpretation later
+        memcpy (&(mTechParams[mNumTechList]), &(rfDetail.rf_tech_param), sizeof(rfDetail.rf_tech_param));
+        mTechList [mNumTechList] = TARGET_TYPE_MIFARE_CLASSIC; //is TagTechnology.MIFARE_CLASSIC by Java API
+    }
+    else
+    {
         ALOGE ("%s: unknown protocol ????", fn);
         mTechList [mNumTechList] = TARGET_TYPE_UNKNOWN;
-        break;
     }
 
     mNumTechList++;
@@ -438,13 +450,12 @@
     //save the stack's data structure for interpretation later
     memcpy (&(mTechParams[mNumTechList]), &(discovery_ntf.rf_tech_param), sizeof(discovery_ntf.rf_tech_param));
 
-    switch (discovery_ntf.protocol)
+    if (NFC_PROTOCOL_T1T == discovery_ntf.protocol)
     {
-    case NFC_PROTOCOL_T1T:
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A; //is TagTechnology.NFC_A by Java API
-        break;
-
-    case NFC_PROTOCOL_T2T:
+    }
+    else if (NFC_PROTOCOL_T2T == discovery_ntf.protocol)
+    {
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A;  //is TagTechnology.NFC_A by Java API
         //type-2 tags are identical to Mifare Ultralight, so Ultralight is also discovered
         if ((discovery_ntf.rf_tech_param.param.pa.sel_rsp == 0) &&
@@ -459,13 +470,14 @@
 
         //save the stack's data structure for interpretation later
         memcpy (&(mTechParams[mNumTechList]), &(discovery_ntf.rf_tech_param), sizeof(discovery_ntf.rf_tech_param));
-        break;
-
-    case NFC_PROTOCOL_T3T:
+    }
+    else if (NFC_PROTOCOL_T3T == discovery_ntf.protocol)
+    {
         mTechList [mNumTechList] = TARGET_TYPE_FELICA;
-        break;
-
-    case NFC_PROTOCOL_ISO_DEP: //type-4 tag uses technology ISO-DEP and technology A or B
+    }
+    else if (NFC_PROTOCOL_ISO_DEP == discovery_ntf.protocol)
+    {
+        //type-4 tag uses technology ISO-DEP and technology A or B
         mTechList [mNumTechList] = TARGET_TYPE_ISO14443_4; //is TagTechnology.ISO_DEP by Java API
         if ( (discovery_ntf.rf_tech_param.mode == NFC_DISCOVERY_TYPE_POLL_A) ||
                 (discovery_ntf.rf_tech_param.mode == NFC_DISCOVERY_TYPE_POLL_A_ACTIVE) ||
@@ -497,16 +509,29 @@
                 memcpy (&(mTechParams[mNumTechList]), &(discovery_ntf.rf_tech_param), sizeof(discovery_ntf.rf_tech_param));
             }
         }
-        break;
-
-    case NFC_PROTOCOL_15693: //is TagTechnology.NFC_V by Java API
+    }
+    else if (NFC_PROTOCOL_15693 == discovery_ntf.protocol)
+    {
+        //is TagTechnology.NFC_V by Java API
         mTechList [mNumTechList] = TARGET_TYPE_ISO15693;
-        break;
-
-    default:
+    }
+    else if (NFC_PROTOCOL_MIFARE == discovery_ntf.protocol)
+    {
+        mTechList [mNumTechList] = TARGET_TYPE_MIFARE_CLASSIC;
+        if (mNumTechList < (MAX_NUM_TECHNOLOGY-1))
+        {
+            mNumTechList++;
+            mTechHandles [mNumTechList] = discovery_ntf.rf_disc_id;
+            mTechLibNfcTypes [mNumTechList] = discovery_ntf.protocol;
+            mTechList [mNumTechList] = TARGET_TYPE_ISO14443_3A;
+            //save the stack's data structure for interpretation later
+            memcpy (&(mTechParams[mNumTechList]), &(discovery_ntf.rf_tech_param), sizeof(discovery_ntf.rf_tech_param));
+        }
+    }
+    else
+    {
         ALOGE ("%s: unknown protocol ????", fn);
         mTechList [mNumTechList] = TARGET_TYPE_UNKNOWN;
-        break;
     }
 
     mNumTechList++;
@@ -693,21 +718,20 @@
     for (int i = 0; i < mNumTechList; i++)
     {
         ALOGD ("%s: index=%d; rf tech params mode=%u", fn, i, mTechParams [i].mode);
-        switch (mTechParams [i].mode)
+        if (NFC_DISCOVERY_TYPE_POLL_A == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_POLL_A_ACTIVE == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_A == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE == mTechParams [i].mode)
         {
-        case NFC_DISCOVERY_TYPE_POLL_A:
-        case NFC_DISCOVERY_TYPE_POLL_A_ACTIVE:
-        case NFC_DISCOVERY_TYPE_LISTEN_A:
-        case NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE:
             ALOGD ("%s: tech A", fn);
             pollBytes.reset(e->NewByteArray(2));
             e->SetByteArrayRegion(pollBytes.get(), 0, 2, (jbyte*) mTechParams [i].param.pa.sens_res);
-            break;
-
-        case NFC_DISCOVERY_TYPE_POLL_B:
-        case NFC_DISCOVERY_TYPE_POLL_B_PRIME:
-        case NFC_DISCOVERY_TYPE_LISTEN_B:
-        case NFC_DISCOVERY_TYPE_LISTEN_B_PRIME:
+        }
+        else if (NFC_DISCOVERY_TYPE_POLL_B == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_POLL_B_PRIME == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_B == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_B_PRIME == mTechParams [i].mode)
+        {
             if (mTechList [i] == TARGET_TYPE_ISO14443_3B) //is TagTechnology.NFC_B by Java API
             {
                 /*****************
@@ -725,61 +749,56 @@
             {
                 pollBytes.reset(e->NewByteArray(0));
             }
-            break;
+        }
+        else if (NFC_DISCOVERY_TYPE_POLL_F == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_POLL_F_ACTIVE == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_F == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_F_ACTIVE == mTechParams [i].mode)
+        {
+            /****************
+            see NFC Forum Type 3 Tag Operation Specification; sections 2.3.2, 2.3.1.2;
+            see NFC Forum Digital Protocol Specification; sections 6.6.2;
+            PMm: manufacture parameter; 8 bytes;
+            System Code: 2 bytes;
+            ****************/
+            ALOGD ("%s: tech F", fn);
+            UINT8 result [10]; //return result to NFC service
+            memset (result, 0, sizeof(result));
+            len =  10;
 
-        case NFC_DISCOVERY_TYPE_POLL_F:
-        case NFC_DISCOVERY_TYPE_POLL_F_ACTIVE:
-        case NFC_DISCOVERY_TYPE_LISTEN_F:
-        case NFC_DISCOVERY_TYPE_LISTEN_F_ACTIVE:
+            /****
+            for (int ii = 0; ii < mTechParams [i].param.pf.sensf_res_len; ii++)
             {
-                /****************
-                see NFC Forum Type 3 Tag Operation Specification; sections 2.3.2, 2.3.1.2;
-                see NFC Forum Digital Protocol Specification; sections 6.6.2;
-                PMm: manufacture parameter; 8 bytes;
-                System Code: 2 bytes;
-                ****************/
-                ALOGD ("%s: tech F", fn);
-                UINT8 result [10]; //return result to NFC service
-                memset (result, 0, sizeof(result));
-                len =  10;
-
-                /****
-                for (int ii = 0; ii < mTechParams [i].param.pf.sensf_res_len; ii++)
-                {
-                    ALOGD ("%s: tech F, sendf_res[%d]=%d (0x%x)",
-                          fn, ii, mTechParams [i].param.pf.sensf_res[ii],mTechParams [i].param.pf.sensf_res[ii]);
-                }
-                ***/
-                memcpy (result, mTechParams [i].param.pf.sensf_res + 8, 8); //copy PMm
-                if (activationData.params.t3t.num_system_codes > 0) //copy the first System Code
-                {
-                    UINT16 systemCode = *(activationData.params.t3t.p_system_codes);
-                    result [8] = (UINT8) (systemCode >> 8);
-                    result [9] = (UINT8) systemCode;
-                    ALOGD ("%s: tech F; sys code=0x%X 0x%X", fn, result [8], result [9]);
-                }
-                pollBytes.reset(e->NewByteArray(len));
-                e->SetByteArrayRegion(pollBytes.get(), 0, len, (jbyte*) result);
+                ALOGD ("%s: tech F, sendf_res[%d]=%d (0x%x)",
+                      fn, ii, mTechParams [i].param.pf.sensf_res[ii],mTechParams [i].param.pf.sensf_res[ii]);
             }
-            break;
-
-        case NFC_DISCOVERY_TYPE_POLL_ISO15693:
-        case NFC_DISCOVERY_TYPE_LISTEN_ISO15693:
+            ***/
+            memcpy (result, mTechParams [i].param.pf.sensf_res + 8, 8); //copy PMm
+            if (activationData.params.t3t.num_system_codes > 0) //copy the first System Code
             {
-                ALOGD ("%s: tech iso 15693", fn);
-                //iso 15693 response flags: 1 octet
-                //iso 15693 Data Structure Format Identifier (DSF ID): 1 octet
-                //used by public API: NfcV.getDsfId(), NfcV.getResponseFlags();
-                uint8_t data [2]= {activationData.params.i93.afi, activationData.params.i93.dsfid};
-                pollBytes.reset(e->NewByteArray(2));
-                e->SetByteArrayRegion(pollBytes.get(), 0, 2, (jbyte *) data);
+                UINT16 systemCode = *(activationData.params.t3t.p_system_codes);
+                result [8] = (UINT8) (systemCode >> 8);
+                result [9] = (UINT8) systemCode;
+                ALOGD ("%s: tech F; sys code=0x%X 0x%X", fn, result [8], result [9]);
             }
-            break;
-
-        default:
+            pollBytes.reset(e->NewByteArray(len));
+            e->SetByteArrayRegion(pollBytes.get(), 0, len, (jbyte*) result);
+        }
+        else if (NFC_DISCOVERY_TYPE_POLL_ISO15693 == mTechParams [i].mode
+              || NFC_DISCOVERY_TYPE_LISTEN_ISO15693 == mTechParams [i].mode)
+        {
+            ALOGD ("%s: tech iso 15693", fn);
+            //iso 15693 response flags: 1 octet
+            //iso 15693 Data Structure Format Identifier (DSF ID): 1 octet
+            //used by public API: NfcV.getDsfId(), NfcV.getResponseFlags();
+            uint8_t data [2]= {activationData.params.i93.afi, activationData.params.i93.dsfid};
+            pollBytes.reset(e->NewByteArray(2));
+            e->SetByteArrayRegion(pollBytes.get(), 0, 2, (jbyte *) data);
+        }
+        else
+        {
             ALOGE ("%s: tech unknown ????", fn);
             pollBytes.reset(e->NewByteArray(0));
-            break;
         } //switch: every type of technology
         e->SetObjectArrayElement(techPollBytes.get(), i, pollBytes.get());
     } //for: every technology in the array
@@ -813,107 +832,105 @@
     for (int i = 0; i < mNumTechList; i++)
     {
         ALOGD ("%s: index=%d", fn, i);
-        switch (mTechLibNfcTypes[i])
+        if (NFC_PROTOCOL_T1T == mTechLibNfcTypes[i] || NFC_PROTOCOL_T2T == mTechLibNfcTypes[i])
         {
-        case NFC_PROTOCOL_T1T:
-        case NFC_PROTOCOL_T2T:
+            if (mTechLibNfcTypes[i] == NFC_PROTOCOL_T1T)
+                ALOGD ("%s: T1T; tech A", fn);
+            else if (mTechLibNfcTypes[i] == NFC_PROTOCOL_T2T)
+                ALOGD ("%s: T2T; tech A", fn);
+            actBytes.reset(e->NewByteArray(1));
+            e->SetByteArrayRegion(actBytes.get(), 0, 1, (jbyte*) &mTechParams [i].param.pa.sel_rsp);
+        }
+        else if (NFC_PROTOCOL_T3T == mTechLibNfcTypes[i])
+        {
+            //felica
+            ALOGD ("%s: T3T; felica; tech F", fn);
+            //really, there is no data
+            actBytes.reset(e->NewByteArray(0));
+        }
+        else if (NFC_PROTOCOL_MIFARE == mTechLibNfcTypes[i])
+        {
+                ALOGD ("%s: Mifare Classic; tech A", fn);
+                actBytes.reset (e->NewByteArray(1));
+                e->SetByteArrayRegion (actBytes.get(), 0, 1,
+                        (jbyte*) &mTechParams [i].param.pa.sel_rsp);
+        }
+        else if (NFC_PROTOCOL_ISO_DEP == mTechLibNfcTypes[i])
+        {
+            //t4t
+            if (mTechList [i] == TARGET_TYPE_ISO14443_4) //is TagTechnology.ISO_DEP by Java API
             {
-                if (mTechLibNfcTypes[i] == NFC_PROTOCOL_T1T)
-                    ALOGD ("%s: T1T; tech A", fn);
-                else if (mTechLibNfcTypes[i] == NFC_PROTOCOL_T2T)
-                    ALOGD ("%s: T2T; tech A", fn);
+                if ( (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_A) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_A_ACTIVE) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE) )
+                {
+                    //see NFC Forum Digital Protocol specification, section 11.6.2, "RATS Response"; search for "historical bytes";
+                    //copy historical bytes into Java object;
+                    //the public API, IsoDep.getHistoricalBytes(), returns this data;
+                    if (activationData.activate_ntf.intf_param.type == NFC_INTERFACE_ISO_DEP)
+                    {
+                        tNFC_INTF_PA_ISO_DEP& pa_iso = activationData.activate_ntf.intf_param.intf_param.pa_iso;
+                        ALOGD ("%s: T4T; ISO_DEP for tech A; copy historical bytes; len=%u", fn, pa_iso.his_byte_len);
+                        actBytes.reset(e->NewByteArray(pa_iso.his_byte_len));
+                        if (pa_iso.his_byte_len > 0)
+                            e->SetByteArrayRegion(actBytes.get(), 0, pa_iso.his_byte_len, (jbyte*) (pa_iso.his_byte));
+                    }
+                    else
+                    {
+                        ALOGE ("%s: T4T; ISO_DEP for tech A; wrong interface=%u", fn, activationData.activate_ntf.intf_param.type);
+                        actBytes.reset(e->NewByteArray(0));
+                    }
+                }
+                else if ( (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_B) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_B_PRIME) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_B) ||
+                        (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_B_PRIME) )
+                {
+                    //see NFC Forum Digital Protocol specification, section 12.6.2, "ATTRIB Response";
+                    //copy higher-layer response bytes into Java object;
+                    //the public API, IsoDep.getHiLayerResponse(), returns this data;
+                    if (activationData.activate_ntf.intf_param.type == NFC_INTERFACE_ISO_DEP)
+                    {
+                        tNFC_INTF_PB_ISO_DEP& pb_iso = activationData.activate_ntf.intf_param.intf_param.pb_iso;
+                        ALOGD ("%s: T4T; ISO_DEP for tech B; copy response bytes; len=%u", fn, pb_iso.hi_info_len);
+                        actBytes.reset(e->NewByteArray(pb_iso.hi_info_len));
+                        if (pb_iso.hi_info_len > 0)
+                            e->SetByteArrayRegion(actBytes.get(), 0, pb_iso.hi_info_len, (jbyte*) (pb_iso.hi_info));
+                    }
+                    else
+                    {
+                        ALOGE ("%s: T4T; ISO_DEP for tech B; wrong interface=%u", fn, activationData.activate_ntf.intf_param.type);
+                        actBytes.reset(e->NewByteArray(0));
+                    }
+                }
+            }
+            else if (mTechList [i] == TARGET_TYPE_ISO14443_3A) //is TagTechnology.NFC_A by Java API
+            {
+                ALOGD ("%s: T4T; tech A", fn);
                 actBytes.reset(e->NewByteArray(1));
                 e->SetByteArrayRegion(actBytes.get(), 0, 1, (jbyte*) &mTechParams [i].param.pa.sel_rsp);
             }
-            break;
-
-        case NFC_PROTOCOL_T3T: //felica
+            else
             {
-                ALOGD ("%s: T3T; felica; tech F", fn);
-                //really, there is no data
                 actBytes.reset(e->NewByteArray(0));
             }
-            break;
-
-        case NFC_PROTOCOL_ISO_DEP: //t4t
-            {
-                if (mTechList [i] == TARGET_TYPE_ISO14443_4) //is TagTechnology.ISO_DEP by Java API
-                {
-                    if ( (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_A) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_A_ACTIVE) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE) )
-                    {
-                        //see NFC Forum Digital Protocol specification, section 11.6.2, "RATS Response"; search for "historical bytes";
-                        //copy historical bytes into Java object;
-                        //the public API, IsoDep.getHistoricalBytes(), returns this data;
-                        if (activationData.activate_ntf.intf_param.type == NFC_INTERFACE_ISO_DEP)
-                        {
-                            tNFC_INTF_PA_ISO_DEP& pa_iso = activationData.activate_ntf.intf_param.intf_param.pa_iso;
-                            ALOGD ("%s: T4T; ISO_DEP for tech A; copy historical bytes; len=%u", fn, pa_iso.his_byte_len);
-                            actBytes.reset(e->NewByteArray(pa_iso.his_byte_len));
-                            if (pa_iso.his_byte_len > 0)
-                                e->SetByteArrayRegion(actBytes.get(), 0, pa_iso.his_byte_len, (jbyte*) (pa_iso.his_byte));
-                        }
-                        else
-                        {
-                            ALOGE ("%s: T4T; ISO_DEP for tech A; wrong interface=%u", fn, activationData.activate_ntf.intf_param.type);
-                            actBytes.reset(e->NewByteArray(0));
-                        }
-                    }
-                    else if ( (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_B) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_B_PRIME) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_B) ||
-                            (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_B_PRIME) )
-                    {
-                        //see NFC Forum Digital Protocol specification, section 12.6.2, "ATTRIB Response";
-                        //copy higher-layer response bytes into Java object;
-                        //the public API, IsoDep.getHiLayerResponse(), returns this data;
-                        if (activationData.activate_ntf.intf_param.type == NFC_INTERFACE_ISO_DEP)
-                        {
-                            tNFC_INTF_PB_ISO_DEP& pb_iso = activationData.activate_ntf.intf_param.intf_param.pb_iso;
-                            ALOGD ("%s: T4T; ISO_DEP for tech B; copy response bytes; len=%u", fn, pb_iso.hi_info_len);
-                            actBytes.reset(e->NewByteArray(pb_iso.hi_info_len));
-                            if (pb_iso.hi_info_len > 0)
-                                e->SetByteArrayRegion(actBytes.get(), 0, pb_iso.hi_info_len, (jbyte*) (pb_iso.hi_info));
-                        }
-                        else
-                        {
-                            ALOGE ("%s: T4T; ISO_DEP for tech B; wrong interface=%u", fn, activationData.activate_ntf.intf_param.type);
-                            actBytes.reset(e->NewByteArray(0));
-                        }
-                    }
-                }
-                else if (mTechList [i] == TARGET_TYPE_ISO14443_3A) //is TagTechnology.NFC_A by Java API
-                {
-                    ALOGD ("%s: T4T; tech A", fn);
-                    actBytes.reset(e->NewByteArray(1));
-                    e->SetByteArrayRegion(actBytes.get(), 0, 1, (jbyte*) &mTechParams [i].param.pa.sel_rsp);
-                }
-                else
-                {
-                    actBytes.reset(e->NewByteArray(0));
-                }
-            } //case NFC_PROTOCOL_ISO_DEP: //t4t
-            break;
-
-        case NFC_PROTOCOL_15693:
-            {
-                ALOGD ("%s: tech iso 15693", fn);
-                //iso 15693 response flags: 1 octet
-                //iso 15693 Data Structure Format Identifier (DSF ID): 1 octet
-                //used by public API: NfcV.getDsfId(), NfcV.getResponseFlags();
-                uint8_t data [2]= {activationData.params.i93.afi, activationData.params.i93.dsfid};
-                actBytes.reset(e->NewByteArray(2));
-                e->SetByteArrayRegion(actBytes.get(), 0, 2, (jbyte *) data);
-            }
-            break;
-
-        default:
+        } //case NFC_PROTOCOL_ISO_DEP: //t4t
+        else if (NFC_PROTOCOL_15693 == mTechLibNfcTypes[i])
+        {
+            ALOGD ("%s: tech iso 15693", fn);
+            //iso 15693 response flags: 1 octet
+            //iso 15693 Data Structure Format Identifier (DSF ID): 1 octet
+            //used by public API: NfcV.getDsfId(), NfcV.getResponseFlags();
+            uint8_t data [2]= {activationData.params.i93.afi, activationData.params.i93.dsfid};
+            actBytes.reset(e->NewByteArray(2));
+            e->SetByteArrayRegion(actBytes.get(), 0, 2, (jbyte *) data);
+        }
+        else
+        {
             ALOGD ("%s: tech unknown ????", fn);
             actBytes.reset(e->NewByteArray(0));
-            break;
-        }//switch
+        }
         e->SetObjectArrayElement(techActBytes.get(), i, actBytes.get());
     } //for: every technology in the array
     jfieldID f = e->GetFieldID (tag_cls, "mTechActBytes", "[[B");
@@ -942,20 +959,19 @@
     int len = 0;
     ScopedLocalRef<jbyteArray> uid(e, NULL);
 
-    switch (mTechParams [0].mode)
+    if (NFC_DISCOVERY_TYPE_POLL_KOVIO == mTechParams [0].mode)
     {
-    case NFC_DISCOVERY_TYPE_POLL_KOVIO:
         ALOGD ("%s: Kovio", fn);
         len = mTechParams [0].param.pk.uid_len;
         uid.reset(e->NewByteArray(len));
         e->SetByteArrayRegion(uid.get(), 0, len,
                 (jbyte*) &mTechParams [0].param.pk.uid);
-        break;
-
-    case NFC_DISCOVERY_TYPE_POLL_A:
-    case NFC_DISCOVERY_TYPE_POLL_A_ACTIVE:
-    case NFC_DISCOVERY_TYPE_LISTEN_A:
-    case NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE:
+    }
+    else if (NFC_DISCOVERY_TYPE_POLL_A == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_POLL_A_ACTIVE == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_A == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE == mTechParams [0].mode)
+    {
         ALOGD ("%s: tech A", fn);
         len = mTechParams [0].param.pa.nfcid1_len;
         uid.reset(e->NewByteArray(len));
@@ -967,44 +983,41 @@
         //section 4.7.2 SDD_RES Response, Requirements 20).
         mIsDynamicTagId = (mTechParams [0].param.pa.nfcid1_len == 4) &&
                 (mTechParams [0].param.pa.nfcid1 [0] == 0x08);
-        break;
-
-    case NFC_DISCOVERY_TYPE_POLL_B:
-    case NFC_DISCOVERY_TYPE_POLL_B_PRIME:
-    case NFC_DISCOVERY_TYPE_LISTEN_B:
-    case NFC_DISCOVERY_TYPE_LISTEN_B_PRIME:
+    }
+    else if (NFC_DISCOVERY_TYPE_POLL_B == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_POLL_B_PRIME == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_B == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_B_PRIME == mTechParams [0].mode)
+    {
         ALOGD ("%s: tech B", fn);
         uid.reset(e->NewByteArray(NFC_NFCID0_MAX_LEN));
         e->SetByteArrayRegion(uid.get(), 0, NFC_NFCID0_MAX_LEN,
                 (jbyte*) &mTechParams [0].param.pb.nfcid0);
-        break;
-
-    case NFC_DISCOVERY_TYPE_POLL_F:
-    case NFC_DISCOVERY_TYPE_POLL_F_ACTIVE:
-    case NFC_DISCOVERY_TYPE_LISTEN_F:
-    case NFC_DISCOVERY_TYPE_LISTEN_F_ACTIVE:
+    }
+    else if (NFC_DISCOVERY_TYPE_POLL_F == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_POLL_F_ACTIVE == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_F == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_F_ACTIVE == mTechParams [0].mode)
+    {
         uid.reset(e->NewByteArray(NFC_NFCID2_LEN));
         e->SetByteArrayRegion(uid.get(), 0, NFC_NFCID2_LEN,
                 (jbyte*) &mTechParams [0].param.pf.nfcid2);
         ALOGD ("%s: tech F", fn);
-        break;
-
-    case NFC_DISCOVERY_TYPE_POLL_ISO15693:
-    case NFC_DISCOVERY_TYPE_LISTEN_ISO15693:
-        {
+    }
+    else if (NFC_DISCOVERY_TYPE_POLL_ISO15693 == mTechParams [0].mode
+          || NFC_DISCOVERY_TYPE_LISTEN_ISO15693 == mTechParams [0].mode)
+    {
             ALOGD ("%s: tech iso 15693", fn);
             jbyte data [I93_UID_BYTE_LEN];  //8 bytes
             for (int i=0; i<I93_UID_BYTE_LEN; ++i) //reverse the ID
                 data[i] = activationData.params.i93.uid [I93_UID_BYTE_LEN - i - 1];
             uid.reset(e->NewByteArray(I93_UID_BYTE_LEN));
             e->SetByteArrayRegion(uid.get(), 0, I93_UID_BYTE_LEN, data);
-        }
-        break;
-
-    default:
+    }
+    else
+    {
         ALOGE ("%s: tech unknown ????", fn);
         uid.reset(e->NewByteArray(0));
-        break;
     }
     jfieldID f = e->GetFieldID(tag_cls, "mUid", "[B");
     e->SetObjectField(tag, f, uid.get());
@@ -1103,7 +1116,7 @@
 {
     static const char fn [] = "NfcTag::resetTechnologies";
     ALOGD ("%s", fn);
-   	mNumTechList = 0;
+    mNumTechList = 0;
     memset (mTechList, 0, sizeof(mTechList));
     memset (mTechHandles, 0, sizeof(mTechHandles));
     memset (mTechLibNfcTypes, 0, sizeof(mTechLibNfcTypes));
@@ -1146,6 +1159,10 @@
         {
             rf_intf = NFA_INTERFACE_ISO_DEP;
         }
+        else if (mTechLibNfcTypes [foundIdx] == NFA_PROTOCOL_MIFARE)
+        {
+            rf_intf = NFA_INTERFACE_MIFARE;
+        }
         else
             rf_intf = NFA_INTERFACE_FRAME;
 
@@ -1256,6 +1273,42 @@
 
 /*******************************************************************************
 **
+** Function:        isMifareDESFire
+**
+** Description:     Whether the currently activated tag is Mifare DESFire.
+**
+** Returns:         True if tag is Mifare DESFire.
+**
+*******************************************************************************/
+bool NfcTag::isMifareDESFire ()
+{
+    static const char fn [] = "NfcTag::isMifareDESFire";
+    bool retval = false;
+
+    for (int i =0; i < mNumTechList; i++)
+    {
+        if ( (mTechParams[i].mode == NFC_DISCOVERY_TYPE_POLL_A) ||
+             (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A) ||
+             (mTechParams[i].mode == NFC_DISCOVERY_TYPE_LISTEN_A_ACTIVE) )
+        {
+            /* DESfire has one sak byte and 2 ATQA bytes */
+            if ( (mTechParams[i].param.pa.sens_res[0] == 0x44) &&
+                 (mTechParams[i].param.pa.sens_res[1] == 0x03) &&
+                 (mTechParams[i].param.pa.sel_rsp == 0x20) )
+            {
+                retval = true;
+            }
+            break;
+        }
+    }
+
+    ALOGD ("%s: return=%u", fn, retval);
+    return retval;
+}
+
+
+/*******************************************************************************
+**
 ** Function:        isFelicaLite
 **
 ** Description:     Whether the currently activated tag is Felica Lite.
@@ -1429,7 +1482,7 @@
 {
     mTechnologyTimeoutsTable [TARGET_TYPE_ISO14443_3A] = 618; //NfcA
     mTechnologyTimeoutsTable [TARGET_TYPE_ISO14443_3B] = 1000; //NfcB
-    mTechnologyTimeoutsTable [TARGET_TYPE_ISO14443_4] = 309; //ISO-DEP
+    mTechnologyTimeoutsTable [TARGET_TYPE_ISO14443_4] = 618; //ISO-DEP
     mTechnologyTimeoutsTable [TARGET_TYPE_FELICA] = 255; //Felica
     mTechnologyTimeoutsTable [TARGET_TYPE_ISO15693] = 1000;//NfcV
     mTechnologyTimeoutsTable [TARGET_TYPE_NDEF] = 1000;
diff --git a/nci/jni/NfcTag.h b/nci/jni/NfcTag.h
index d3e399f..df7ce0c 100755
--- a/nci/jni/NfcTag.h
+++ b/nci/jni/NfcTag.h
@@ -222,6 +222,18 @@
 
     /*******************************************************************************
     **
+    ** Function:        isMifareDESFire
+    **
+    ** Description:     Whether the currently activated tag is Mifare DESFire.
+    **
+    ** Returns:         True if tag is Mifare DESFire.
+    **
+    *******************************************************************************/
+    bool isMifareDESFire ();
+
+
+    /*******************************************************************************
+    **
     ** Function:        isFelicaLite
     **
     ** Description:     Whether the currently activated tag is Felica Lite.
diff --git a/nci/jni/PeerToPeer.cpp b/nci/jni/PeerToPeer.cpp
index 17d252c..da4cf30 100644
--- a/nci/jni/PeerToPeer.cpp
+++ b/nci/jni/PeerToPeer.cpp
@@ -40,6 +40,8 @@
 {
     extern void nativeNfcTag_registerNdefTypeHandler ();
     extern void nativeNfcTag_deregisterNdefTypeHandler ();
+    extern void startRfDiscovery (bool isStart);
+    extern bool isDiscoveryStarted ();
 }
 
 
@@ -475,6 +477,7 @@
     ALOGD ("%s: enter; JNI handle: %u", fn, jniHandle);
     tNFA_STATUS     nfaStat = NFA_STATUS_FAILED;
     sp<P2pServer>   pSrv = NULL;
+    bool            isPollingTempStopped = false;
 
     mMutex.lock();
     if ((pSrv = findServerLocked (jniHandle)) == NULL)
@@ -484,6 +487,11 @@
         return (false);
     }
     mMutex.unlock();
+    if (isDiscoveryStarted ())
+    {
+        isPollingTempStopped = true;
+        startRfDiscovery (false);
+    }
 
     {
         // Server does not call NFA_P2pDisconnect(), so unblock the accept()
@@ -499,6 +507,11 @@
 
     removeServer (jniHandle);
 
+    if (isPollingTempStopped)
+    {
+        startRfDiscovery (true);
+    }
+
     ALOGD ("%s: exit", fn);
     return true;
 }
diff --git a/nci/jni/extns/Android.mk b/nci/jni/extns/Android.mk
new file mode 100755
index 0000000..2363da0
--- /dev/null
+++ b/nci/jni/extns/Android.mk
@@ -0,0 +1,2 @@
+EXTNS_PATH := $(call my-dir)
+include $(call all-makefiles-under,$(EXTNS_PATH))
diff --git a/nci/jni/extns/pn54x/Android.mk b/nci/jni/extns/pn54x/Android.mk
new file mode 100755
index 0000000..c484509
--- /dev/null
+++ b/nci/jni/extns/pn54x/Android.mk
@@ -0,0 +1,10 @@
+EXTN_PN54X_PATH:= $(call my-dir)
+
+LOCAL_C_INCLUDES += \
+    $(EXTN_PN54X_PATH)/inc \
+    $(EXTN_PN54X_PATH)/src/common \
+    $(EXTN_PN54X_PATH)/src/log \
+    $(EXTN_PN54X_PATH)/src/mifare \
+    $(EXTN_PN54X_PATH)/src/utils
+
+LOCAL_CFLAGS += -DNXP_UICC_ENABLE
diff --git a/nci/jni/extns/pn54x/inc/phNxpExtns.h b/nci/jni/extns/pn54x/inc/phNxpExtns.h
new file mode 100755
index 0000000..62809d4
--- /dev/null
+++ b/nci/jni/extns/pn54x/inc/phNxpExtns.h
@@ -0,0 +1,71 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef _PHNXPEXTNS_H_
+#define _PHNXPEXTNS_H_
+
+#include <nfa_api.h>
+#include <sys/types.h>
+#include <errno.h>
+#include <phNfcStatus.h>
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+NFCSTATUS EXTNS_Init (tNFA_DM_CBACK        *p_dm_cback,
+                     tNFA_CONN_CBACK      *p_conn_cback);
+void EXTNS_Close (void);
+NFCSTATUS EXTNS_MfcInit (tNFA_ACTIVATED activationData);
+NFCSTATUS EXTNS_MfcCheckNDef (void);
+NFCSTATUS EXTNS_MfcReadNDef (void);
+NFCSTATUS EXTNS_MfcPresenceCheck (void);
+NFCSTATUS EXTNS_MfcWriteNDef (uint8_t *pBuf, uint32_t len);
+NFCSTATUS EXTNS_MfcFormatTag (uint8_t *key, uint8_t len);
+NFCSTATUS EXTNS_MfcDisconnect (void);
+NFCSTATUS EXTNS_MfcActivated (void);
+NFCSTATUS EXTNS_MfcTransceive (uint8_t *p_data, uint32_t len);
+NFCSTATUS EXTNS_MfcRegisterNDefTypeHandler (tNFA_NDEF_CBACK *ndefHandlerCallback);
+NFCSTATUS EXTNS_MfcCallBack (uint8_t *buf, uint32_t buflen);
+NFCSTATUS EXTNS_MfcSetReadOnly (uint8_t *key, uint8_t len);
+void EXTNS_SetConnectFlag (bool_t flagval);
+bool_t EXTNS_GetConnectFlag (void);
+void EXTNS_SetDeactivateFlag (bool_t flagval);
+bool_t EXTNS_GetDeactivateFlag (void);
+void EXTNS_SetCallBackFlag (bool_t flagval);
+bool_t EXTNS_GetCallBackFlag (void);
+NFCSTATUS EXTNS_CheckMfcResponse (uint8_t** sTransceiveData, uint32_t *sTransceiveDataLen);
+void MfcPresenceCheckResult (NFCSTATUS status);
+void MfcResetPresenceCheckStatus (void);
+NFCSTATUS EXTNS_GetPresenceCheckStatus (void);
+#ifdef __cplusplus
+}
+#endif
+
+/*
+ * Events from JNI for NXP Extensions
+ */
+#define PH_NXPEXTNS_MIFARE_CHECK_NDEF        0x01   /* MIFARE Check Ndef */
+#define PH_NXPEXTNS_MIFARE_READ_NDEF         0x02   /* MIFARE Read Ndef */
+#define PH_NXPEXTNS_MIFARE_WRITE_NDEF        0x03   /* MIFARE Write Ndef */
+#define PH_NXPEXTNS_MIFARE_FORMAT_NDEF       0x04   /* MIFARE Format */
+#define PH_NXPEXTNS_DISCONNECT               0x05   /* Target Disconnect */
+#define PH_NXPEXTNS_ACTIVATED                0x06   /* Target Activated */
+#define PH_NXPEXTNS_MIFARE_TRANSCEIVE        0x07   /* MIFARE Raw Transceive */
+#define PH_NXPEXTNS_MIFARE_READ_ONLY         0x08   /* MIFARE Read Only */
+#define PH_NXPEXTNS_MIFARE_PRESENCE_CHECK    0x09   /* MIFARE Presence Check */
+#define PH_NXPEXTNS_RX_DATA                  0xF1   /* Receive Data */
+
+#endif /* _PHNXPEXTNS_H_ */
diff --git a/nci/jni/extns/pn54x/inc/phNxpExtns_Custom.h b/nci/jni/extns/pn54x/inc/phNxpExtns_Custom.h
new file mode 100755
index 0000000..a9d10c8
--- /dev/null
+++ b/nci/jni/extns/pn54x/inc/phNxpExtns_Custom.h
@@ -0,0 +1,264 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef _PHNXPEXTNS_CUSTOM_H_
+#define _PHNXPEXTNS_CUSTOM_H_
+
+#include <nfa_api.h>
+#include <sys/types.h>
+#include <errno.h>
+#include <phNfcStatus.h>
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+/*
+ * TLV structure
+ * For simple TLV, type[0] == 0x00
+ * For extended TLV, type[0] == 0xA0
+ */
+typedef struct {
+    uint8_t type[2];
+    uint8_t len;
+    uint8_t *val;
+} tlv_t;
+
+typedef enum {
+    passive_106 = 0x01,
+    passive_212 = 0x02,
+    passive_424 = 0x04,
+    active_106 = 0x10,
+    active_212 = 0x20,
+    active_424 = 0x40,
+} p2p_speed_t;
+
+typedef enum {
+    NO_SE,
+    UICC,
+    eSE,
+} SE_t;
+
+typedef enum {
+    ReaderMode = 0x01,
+    P2PMode = 0x02,
+    CEMode = 0x04,
+} PollMode_t;
+
+/*******************************************************************************
+ **
+ ** Function         phNxpExtns_get_version
+ **
+ ** Description      Function to get the HW, FW and SW versions.
+ **
+ ** Returns          NFCSTATUS_SUCCESS if successful,otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function will use phNxpNciHal_get_version from HAL.
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_get_version (uint32_t *hw_ver, uint32_t *fw_ver, uint32_t *sw_ver);
+
+/*******************************************************************************
+ **
+ ** Function         phNxpNciHal_read_tlv
+ **
+ ** Description      Function to read simple TLV and extended TLV.
+ **                  Memory for TLV and fields are allocated and freed by calling
+ **                  function. Input is type and len. Response is provied in *val.
+ **
+ ** Returns          NFCSTATUS_SUCCESS if successful,otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function will use NFA_GetConfig for simple TLV.
+ **       For extended TLV, it will use NFA_SendRawFrame.
+ *******************************************************************************/
+
+NFCSTATUS phNxpNciHal_read_tlv (tlv_t *tlv);
+
+/*******************************************************************************
+ **
+ ** Function         phNxpNciHal_write_tlv
+ **
+ ** Description      Function to write simple TLV and extended TLV.
+ **                  Memory for TLV and fields are allocated and freed by calling
+ **                  function. Input is type, len, *val.
+ **
+ ** Returns          NFCSTATUS_SUCCESS if successful,otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function will use NFA_SetConfig for simple TLV.
+ **       For extended TLV, it will use NFA_SendRawFrame.
+ *******************************************************************************/
+
+NFCSTATUS phNxpNciHal_write_tlv (tlv_t *tlv);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_select_poll_tech
+ **
+ ** Description     This function selects the polling technology for starting
+ **                 polling loop. This function does not start polling loop.
+ **                 It is just a setting for polling technology.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function is using NFA_EnablePolling function.
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_select_poll_tech (tNFA_TECHNOLOGY_MASK tech_mask);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_select_ce_listen_tech
+ **
+ ** Description     This function set the listen tech for card emulation.
+ **                 This function does not include routing.
+ **                 This function does not start polling loop.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function is using NFA_CeConfigureUiccListenTech.
+ **       Not sure which handle to use, from UICC or eSE.
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_select_ce_listen_tech (tNFA_TECHNOLOGY_MASK tech_mask);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_select_p2p_poll_speed
+ **
+ ** Description     This function will select the P2P polling speed.
+ **                 phNxpExtns_select_poll_tech overwrite the settings of poll if
+ **                 reader mode is enabled.
+ **                 There is only one active poll phase but device can use one
+ **                 active speed and can move to higher speed if target supports.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function will use NFA_EnablePolling and NFA_SetConfig
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_select_p2p_poll_speed (p2p_speed_t p2p_initiator_speed);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_select_p2p_listen_speed
+ **
+ ** Description     This function will select the listen mode
+ **                 This function does not include routing.
+ **                 This function does not start polling loop.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function will use NFA_SetP2pListenTech and NFA_SetConfig
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_select_p2p_listen_speed (p2p_speed_t p2p_target_speed);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_select_se
+ **
+ ** Description     This function will set the routing of the traffic to selected
+ **                 SE. This function also does not start polling loop.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE:
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_select_se (SE_t se);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_set_poll_mode
+ **
+ ** Description     This function selects which mode to enable for polling loop.
+ **                 This function do not start polling loop.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE:
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_set_poll_mode (PollMode_t poll_mode);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_start_poll
+ **
+ ** Description     This function starts polling loop based on the configuration
+ **                 of the previous calls. If no configuration done through other
+ **                 function call then it uses the default configuration from
+ **                 configuration files.
+ **                 This function internally stops the polling loop if it is
+ **                 already running.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE: Internally this function uses NFA_StartRfDiscovery.
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_start_poll (void);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_stop_poll
+ **
+ ** Description     This function stops the polling loop if it is running.
+ **
+ ** Returns          NFCSTATUS_SUCCESS if operation successful,
+ **                  otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE:Internally this function uses NFA_StopRfDiscovery.
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_stop_poll (void);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_enable_Felica_CLT
+ **
+ ** Description     This function enables or disable Felica CLT feature.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE:
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_enable_Felica_CLT (bool enable);
+
+/*******************************************************************************
+ **
+ ** Function        phNxpExtns_enable_Mifare_CLT
+ **
+ ** Description     This function enables or disable Mifare CLT feature.
+ **
+ ** Returns         NFCSTATUS_SUCCESS if operation successful,
+ **                 otherwise NFCSTATUS_FAILED.
+ **
+ ** NOTE:
+ *******************************************************************************/
+
+NFCSTATUS phNxpExtns_enable_Mifare_CLT (bool enable);
+
+#endif /* _PHNXPEXTNS_CUSTOM_H_ */
diff --git a/nci/jni/extns/pn54x/src/common/phNciNfcTypes.h b/nci/jni/extns/pn54x/src/common/phNciNfcTypes.h
new file mode 100755
index 0000000..fad6866
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/common/phNciNfcTypes.h
@@ -0,0 +1,268 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NCI Interface
+ */
+
+#ifndef PHNCINFCTYPES_H
+#define PHNCINFCTYPES_H
+
+/*
+ ################################################################################
+ ***************************** Header File Inclusion ****************************
+ ################################################################################
+ */
+#include <phNfcStatus.h>
+
+/*
+ ################################################################################
+ ****************************** Macro Definitions *******************************
+ ################################################################################
+ */
+#define PH_NCINFCTYPES_MAX_UID_LENGTH           (0x0AU)
+/* Maximum length of ATR_RES (General Bytes) length expected */
+#define PH_NCINFCTYPES_MAX_ATR_LENGTH           (0x30U)
+#define PH_NCINFCTYPES_ATQA_LENGTH              (0x02U)    /* ATQA length */
+#define PH_NCINFCTYPES_MAX_HIST_BYTES           (0x0FU)    /* Max Historical bytes returned by Type A tag */
+
+/*
+ * Enum definition contains supported RF Protocols
+ */
+typedef enum
+{
+    phNciNfc_e_RfProtocolsUnknownProtocol = 0x00,  /* Protocol is not known */
+    phNciNfc_e_RfProtocolsT1tProtocol     = 0x01,  /* Type 1 Tag protocol */
+    phNciNfc_e_RfProtocolsT2tProtocol     = 0x02,  /* Type 2 Tag protocol */
+    phNciNfc_e_RfProtocolsT3tProtocol     = 0x03,  /* Type 3 Tag protocol */
+    phNciNfc_e_RfProtocolsIsoDepProtocol  = 0x04,  /* ISO DEP protocol */
+    phNciNfc_e_RfProtocolsNfcDepProtocol  = 0x05,  /* NFC DEP protocol */
+    phNciNfc_e_RfProtocols15693Protocol   = 0x06,  /* 15693 protocol */
+    phNciNfc_e_RfProtocolsMifCProtocol    = 0x80,  /* Mifare Classic protocol */
+    phNciNfc_e_RfProtocolsHidProtocol     = 0x81,  /* Hid protocol */
+    phNciNfc_e_RfProtocolsEpcGen2Protocol = 0x82,  /* EpcGen2 protocol */
+    phNciNfc_e_RfProtocolsKovioProtocol   = 0x83   /* Kovio protocol */
+} phNciNfc_RfProtocols_t;
+
+/*
+ * Supported RF Interfaces
+ */
+typedef enum
+{
+    phNciNfc_e_RfInterfacesNfceeDirect_RF = 0x00,   /* Nfcee Direct RF Interface */
+    phNciNfc_e_RfInterfacesFrame_RF =       0x01,   /* Frame RF Interface */
+    phNciNfc_e_RfInterfacesISODEP_RF =      0x02,   /* ISO DEP RF Interface */
+    phNciNfc_e_RfInterfacesNFCDEP_RF =      0x03,   /* NFC DEP RF Interface */
+    phNciNfc_e_RfInterfacesTagCmd_RF =      0x80,   /* Tag-Cmd RF Interface (Nxp prop) */
+    phNciNfc_e_RfInterfacesHID_RF =         0x81    /* Hid RF Interface (Nxp prop) */
+} phNciNfc_RfInterfaces_t;
+
+/*
+ * Enum definition contains RF technology modes supported.
+ * This information is a part of RF_DISCOVER_NTF or RF_INTF_ACTIVATED_NTF.
+ */
+typedef enum
+{
+    phNciNfc_NFCA_Poll                 = 0x00,  /* Nfc A Technology in Poll Mode */
+    phNciNfc_NFCB_Poll                 = 0x01,  /* Nfc B Technology in Poll Mode */
+    phNciNfc_NFCF_Poll                 = 0x02,  /* Nfc F Technology in Poll Mode */
+    phNciNfc_NFCA_Active_Poll          = 0x03,  /* Nfc A Technology in Active Poll Mode */
+    phNciNfc_NFCF_Active_Poll          = 0x05,  /* Nfc F Technology in Active Poll Mode */
+    phNciNfc_NFCISO15693_Poll          = 0x06, /* Nfc ISO15693 Technology in Poll Mode */
+    phNciNfc_NxpProp_NFCHID_Poll       = 0x70,      /* Nfc Hid Technology in Poll Mode */
+    phNciNfc_NxpProp_NFCEPFGEN2_Poll   = 0x71,  /* Nfc EpcGen2 Technology in Poll Mode */
+    phNciNfc_NxpProp_NFCKOVIO_Poll     = 0x72,    /* Nfc Kovio Technology in Poll Mode */
+    phNciNfc_NFCA_Listen               = 0x80,/* Nfc A Technology in Listen Mode */
+    phNciNfc_NFCB_Listen               = 0x81,/* Nfc B Technology in Listen Mode */
+    phNciNfc_NFCF_Listen               = 0x82,/* Nfc F Technology in Listen Mode */
+    phNciNfc_NFCA_Active_Listen        = 0x83,/* Nfc A Technology in Active Listen Mode */
+    phNciNfc_NFCF_Active_Listen        = 0x85,  /* Nfc F Technology in Active Listen Mode */
+    phNciNfc_NFCISO15693_Active_Listen = 0x86   /* Nfc ISO15693 Technology in Listen Mode */
+} phNciNfc_RfTechMode_t;
+
+/*
+ * This is used to identify the exact device type
+ */
+typedef enum
+{
+    phNciNfc_eUnknown_DevType        = 0x00U,
+
+    /* Generic PICC Type */
+    phNciNfc_ePICC_DevType,
+    /* Specific PICC Devices */
+    /* This PICC type explains that the card is compliant to the
+     * ISO 14443-1 and 2A specification. This type can be used for the
+     * cards that is supporting these specifications
+     */
+    phNciNfc_eISO14443_A_PICC,
+    /* This PICC type explains that the card is compliant to the
+     * ISO 14443-4A specification
+     */
+    phNciNfc_eISO14443_4A_PICC,
+    /* This PICC type explains that the card is compliant to the
+     * ISO 14443-3A specification
+     */
+    phNciNfc_eISO14443_3A_PICC,
+    /* This PICC type explains that the card is Mifare UL/1k/4k and
+     * also it is compliant to ISO 14443-3A. There can also be other
+     * ISO 14443-3A cards, so the phNciNfc_eISO14443_3A_PICC is also used for
+     * PICC detection
+     */
+    phNciNfc_eMifareUL_PICC,
+    phNciNfc_eMifare1k_PICC,
+    phNciNfc_eMifare4k_PICC,
+    phNciNfc_eMifareMini_PICC,
+    /* This PICC type explains that the card is compliant to the
+     * ISO 14443-1, 2 and 3B specification
+     */
+    phNciNfc_eISO14443_B_PICC,
+    /* This PICC type explains that the card is compliant to the
+     * ISO 14443-4B specification
+     */
+    phNciNfc_eISO14443_4B_PICC,
+    /* This PICC type explains that the card is B-Prime type */
+    phNciNfc_eISO14443_BPrime_PICC,
+    phNciNfc_eFelica_PICC,
+    phNciNfc_eJewel_PICC,
+    /* This PICC type explains that the card is ISO15693 type */
+    phNciNfc_eISO15693_PICC,
+    /* This PICC type explains that the card is EpcGen2 type */
+    phNciNfc_eEpcGen_PICC,
+
+    /* NFC-IP1 Device Types */
+    phNciNfc_eNfcIP1_Target,
+    phNciNfc_eNfcIP1_Initiator,
+
+    /* Other Sources */
+    phNciNfc_eInvalid_DevType
+
+}phNciNfc_RFDevType_t;
+
+/*
+ * RATS Response Params structure
+ */
+typedef struct phNciNfc_RATSResp {
+    uint8_t   bFormatByte;                 /* Format Byte */
+    uint8_t   bIByteTA;                    /* Interface Byte TA(1) */
+    uint8_t   bIByteTB;                    /* Interface Byte TB(1) */
+    uint8_t   bIByteTC;                    /* Interface Byte TC(1) */
+    uint8_t   bHistByte[PH_NCINFCTYPES_MAX_HIST_BYTES];   /* Historical Bytes - Max size 15 */
+} phNciNfc_RATSResp_t;
+
+/*
+ * The Reader A structure includes the available information
+ * related to the discovered ISO14443A remote device. This information
+ * is updated for every device discovery.
+ */
+typedef struct phNciNfc_Iso14443AInfo
+{
+    uint8_t         Uid[PH_NCINFCTYPES_MAX_UID_LENGTH]; /* UID information of the TYPE A
+                                                        Tag Discovered NFCID1 -
+                                                        Considering max size of NFCID1*/
+    uint8_t         UidLength;                          /* UID information length, shall not be greater
+                                                        than PHNCINFC_MAX_UID_LENGTH i.e., 10 */
+    uint8_t         AppData[PH_NCINFCTYPES_MAX_ATR_LENGTH]; /* Application data information of the
+                                                        tag discovered (= Historical bytes for
+                                                        type A) */
+    uint8_t         AppDataLength;                      /* Application data length */
+    uint8_t         Sak;                                /* SAK information of the TYPE ATag Discovered
+                                                        Mapped to SEL_RES Response*/
+    uint8_t         AtqA[PH_NCINFCTYPES_ATQA_LENGTH];        /* ATQA information of the TYPE A
+                                                        Tag Discovered */
+    uint8_t         MaxDataRate;                        /* Maximum data rate supported by the TYPE A
+                                                        Tag Discovered */
+    uint8_t         Fwi_Sfgt;                           /* Frame waiting time and start up frame guard
+                                                        time as defined in ISO/IEC 14443-4[7] for type A */
+    uint8_t         bSensResResp[2];                    /* SENS_RES Response */
+    uint8_t         bSelResRespLen;                     /* SEL_RES Response Length */
+    uint8_t         bRatsRespLen;                       /* Length of RATS Response */
+    phNciNfc_RATSResp_t   tRatsResp;                    /* RATS Response Info */
+} phNciNfc_Iso14443AInfo_t;
+
+/*
+ * The Remote Device Information Union includes the available Remote Device Information
+ * structures. Following the device detected, the corresponding data structure is used.
+ */
+typedef union phNciNfc_RemoteDevInfo
+{
+    phNciNfc_Iso14443AInfo_t          Iso14443A_Info;/* Type A tag Info */
+} phNciNfc_RemoteDevInfo_t;
+
+/* Contains Details of Discovered Target */
+typedef struct phNciNfc_RemoteDevInformation
+{
+    uint8_t                    SessionOpened;      /* Flag indicating the validity of the handle of the remote device. */
+    phNciNfc_RFDevType_t       RemDevType;         /* Remote device type which says that remote
+                                                    is Reader A or Reader B or NFCIP or Felica or
+                                                    Reader B Prime or Jewel*/
+    uint8_t bRfDiscId;                              /* ID of the Tag */
+    phNciNfc_RfInterfaces_t    eRfIf;               /* RF Interface */
+    phNciNfc_RfProtocols_t eRFProtocol;             /* RF protocol of the target */
+    phNciNfc_RfTechMode_t eRFTechMode;              /* RF Technology mode of the discovered/activated target */
+    uint8_t bMaxPayLoadSize;                        /* Max data payload size*/
+    uint8_t bInitialCredit;                         /* Initial credit*/
+    uint8_t bTechSpecificParamLen;                  /* Technology Specific parameter length, for Debugging purpose only*/
+    phNciNfc_RfTechMode_t eDataXchgRFTechMode;      /* Data Exchange RF Technology mode of the activated target */
+    uint8_t   bTransBitRate;                        /* Transmit Bit Rate */
+    uint8_t   bRecvBitRate;                         /* Receive Bit Rate */
+    phNciNfc_RemoteDevInfo_t tRemoteDevInfo;        /* Structure object to #phNciNfc_RemoteDevInfo_t*/
+} phNciNfc_RemoteDevInformation_t, *pphNciNfc_RemoteDevInformation_t;/* Pointer to Remote Dev Info*/
+
+/*
+ * Structure contains buffer where payload of the received data packet
+ * shall be stored and length of the payload stored in the buffer.
+ */
+typedef struct phNciNfc_Data
+{
+    uint8_t *pBuff;     /* Buffer to store received data packet's payload */
+    uint16_t wLen;      /* Length of the payload */
+} phNciNfc_Data_t, *pphNciNfc_Data_t;
+
+
+/*
+ * Type 2 tag command list supported by NCI stack
+ * It includes command lists applicable to Mifare family cards also
+ */
+typedef enum phNciNfc_T2TCmdList
+{
+    phNciNfc_eT2TRaw    = 0x00,   /* Performs Raw communication over T2T Tag*/
+    phNciNfc_eT2TWriteN,   /* Write Multiple blocks to T2T tag*/
+    phNciNfc_eT2TreadN,   /* Read Multiple blocks to T2T tag*/
+    phNciNfc_eT2TSectorSel,   /* Sector Select for MifareStd Cards*/
+    phNciNfc_eT2TAuth,   /* Sector Select for MifareStd Cards*/
+    phNciNfc_eT2TProxCheck,/* Proxy Check command for MF+*/
+    phNciNfc_eT2TInvalidCmd /* Invalid Command*/
+} phNciNfc_T2TCmdList_t;    /* Type2 Tag and Mifare specicific command list*/
+
+/* All command list for tag operation supported by NCI stack */
+typedef union phNciNfc_TagCmdList
+{
+    phNciNfc_T2TCmdList_t T2TCmd; /* T2T Specific command*/
+} phNciNfc_TagCmdList_t; /* Tag specific command */
+
+/* Transceive info */
+typedef struct phNciNfc_TransceiveInfo
+{
+    phNciNfc_TagCmdList_t   uCmd;     /* Technology Specific commands */
+    uint8_t                 bAddr;    /* Start address to perform operation,Valid for T1T T2T T3T and some Propriatery tags */
+    uint8_t                 bNumBlock;/* Number of blocks */
+    uint16_t                wTimeout; /* Timeout value to be used during transceive */
+    phNciNfc_Data_t         tSendData;/* Buffer information for sending data */
+    phNciNfc_Data_t         tRecvData;/* Buffer information for receiving data */
+    /* Details for Felica To be Added if Check and Update supported */
+} phNciNfc_TransceiveInfo_t, *pphNciNfc_TransceiveInfo_t; /* pointer to struct #phNciNfc_TransceiveInfo_t */
+
+#endif                          /* end of #ifndef PHNCINFCTYPES_H */
diff --git a/nci/jni/extns/pn54x/src/common/phNfcCompId.h b/nci/jni/extns/pn54x/src/common/phNfcCompId.h
new file mode 100755
index 0000000..e41f1c6
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/common/phNfcCompId.h
@@ -0,0 +1,59 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NFC Component ID Values - Used for Function Return Codes
+ */
+
+#ifndef PHNFCCOMPID_H
+#define PHNFCCOMPID_H
+
+/*
+ *  Component IDs
+ *
+ *  IDs for all NFC components. Combined with the Status Code they build the value (status)
+ *  returned by each function.
+ *
+ *  ID Number Spaces:
+ *  - 01..1F: HAL
+ *  - 20..3F: NFC-MW (Local Device)
+ *  - 40..5F: NFC-MW (Remote Device)
+ *  .
+ *
+ *         The value CID_NFC_NONE does not exist for Component IDs. Do not use this value except
+ *         for NFCSTATUS_SUCCESS. The enumeration function uses CID_NFC_NONE
+ *         to mark unassigned "References".
+ */
+#define CID_NFC_NONE                    0x00    /* Unassigned or doesn't apply (see #NFCSTATUS_SUCCESS) */
+#define CID_NFC_TML                     0x01    /* Transport Mapping Layer */
+#define CID_NFC_LLC                     0x07    /* Logical Link Control Layer */
+#define CID_NFC_NCI                     0x08    /* NFC Controller(NFCC) Interface Layer */
+#define CID_NFC_DNLD                    0x09    /* Firmware Download Management Layer */
+#define CID_NFC_HAL                     0x10    /* Hardware Abstraction Layer */
+#define CID_NFC_OSAL                    CID_NFC_NONE  /* Operating System Abstraction Layer*/
+#define CID_FRI_NFC_OVR_HAL             0x20    /* NFC-Device, HAL-based */
+#define CID_FRI_NFC_NDEF_RECORD         0x22    /* NDEF Record Tools Library. */
+#define CID_FRI_NFC_NDEF_MAP            0x23    /* NDEF Mapping. */
+#define CID_FRI_NFC_NDEF_REGISTRY       0x24    /* NDEF_REGISTRY. */
+#define CID_FRI_NFC_AUTO_DEV_DIS        0x25    /* Automatic Device Discovery. */
+#define CID_FRI_NFC_NDEF_SMTCRDFMT      0x26    /* Smart Card Formatting */
+#define CID_NFC_LIB                     0x30    /* NFC Library Layer*/
+#define CID_MAX_VALUE                   0xF0    /* The maximum CID value that is defined. */
+#define CID_FRI_NFC_LLCP                0x40    /* Logical Link Control Protocol */
+#define CID_FRI_NFC_LLCP_TRANSPORT      0x50
+#define CID_FRI_NFC_LLCP_MAC            0x60
+
+#endif /* PHNFCCOMPID_H */
diff --git a/nci/jni/extns/pn54x/src/common/phNfcStatus.h b/nci/jni/extns/pn54x/src/common/phNfcStatus.h
new file mode 100755
index 0000000..ccd955f
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/common/phNfcStatus.h
@@ -0,0 +1,367 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NFC Status Values - Function Return Codes
+ */
+
+#ifndef PHNFCSTATUS_H
+#define PHNFCSTATUS_H
+
+#include <phNfcTypes.h>
+
+/* Internally required by PHNFCSTVAL. */
+#define PHNFCSTSHL8                          (8U)
+/* Required by PHNFCSTVAL. */
+#define PHNFCSTBLOWER                        ((NFCSTATUS)(0x00FFU))
+
+/*
+ *  NFC Status Composition Macro
+ *
+ *  This is the macro which must be used to compose status values.
+ *
+ *  phNfcCompID Component ID, as defined in phNfcCompId.h .
+ *  phNfcStatus Status values, as defined in phNfcStatus.h .
+ *
+ *  The macro is not required for the NFCSTATUS_SUCCESS value.
+ *  This is the only return value to be used directly.
+ *  For all other values it shall be used in assignment and conditional statements, e.g.:
+ *     NFCSTATUS status = PHNFCSTVAL(phNfcCompID, phNfcStatus); ...
+ *     if (status == PHNFCSTVAL(phNfcCompID, phNfcStatus)) ...
+ */
+#define PHNFCSTVAL(phNfcCompID, phNfcStatus)                                  \
+            ( ((phNfcStatus) == (NFCSTATUS_SUCCESS)) ? (NFCSTATUS_SUCCESS) :  \
+                ( (((NFCSTATUS)(phNfcStatus)) & (PHNFCSTBLOWER)) |            \
+                    (((uint16_t)(phNfcCompID)) << (PHNFCSTSHL8)) ) )
+
+/*
+ * PHNFCSTATUS
+ * Get grp_retval from Status Code
+ */
+#define PHNFCSTATUS(phNfcStatus)  ((phNfcStatus) & 0x00FFU)
+#define PHNFCCID(phNfcStatus)  (((phNfcStatus) & 0xFF00U)>>8)
+
+/*
+ *  Status Codes
+ *
+ *  Generic Status codes for the NFC components. Combined with the Component ID
+ *  they build the value (status) returned by each function.
+ *  Example:
+ *      grp_comp_id "Component ID" -  e.g. 0x10, plus
+ *      status code as listed in this file - e.g. 0x03
+ *      result in a status value of 0x0003.
+ */
+
+/*
+ * The function indicates successful completion
+ */
+#define NFCSTATUS_SUCCESS                                     (0x0000)
+
+/*
+ *  The function indicates successful completion
+ */
+#define NFCSTATUS_OK                                (NFCSTATUS_SUCCESS)
+
+/*
+ * At least one parameter could not be properly interpreted
+ */
+#define NFCSTATUS_INVALID_PARAMETER                           (0x0001)
+
+/*
+ * The buffer provided by the caller is too small
+ */
+#define NFCSTATUS_BUFFER_TOO_SMALL                            (0x0003)
+
+/*
+ * Device specifier/handle value is invalid for the operation
+ */
+#define NFCSTATUS_INVALID_DEVICE                              (0x0006)
+
+/*
+ * The function executed successfully but could have returned
+ * more information than space provided by the caller
+ */
+#define NFCSTATUS_MORE_INFORMATION                            (0x0008)
+
+/*
+ * No response from the remote device received: Time-out
+ */
+#define NFCSTATUS_RF_TIMEOUT                                  (0x0009)
+
+/*
+ * RF Error during data transaction with the remote device
+ */
+#define NFCSTATUS_RF_ERROR                                    (0x000A)
+
+/*
+ * Not enough resources Memory, Timer etc(e.g. allocation failed.)
+ */
+#define NFCSTATUS_INSUFFICIENT_RESOURCES                      (0x000C)
+
+/*
+ * A non-blocking function returns this immediately to indicate
+ * that an internal operation is in progress
+ */
+#define NFCSTATUS_PENDING                                     (0x000D)
+
+/*
+ * A board communication error occurred
+ * (e.g. Configuration went wrong)
+ */
+#define NFCSTATUS_BOARD_COMMUNICATION_ERROR                   (0x000F)
+
+/*
+ * Invalid State of the particular state machine
+ */
+#define NFCSTATUS_INVALID_STATE                               (0x0011)
+
+
+/*
+ * This Layer is Not initialized, hence initialization required.
+ */
+#define NFCSTATUS_NOT_INITIALISED                             (0x0031)
+
+
+/*
+ * The Layer is already initialized, hence initialization repeated.
+ */
+#define NFCSTATUS_ALREADY_INITIALISED                         (0x0032)
+
+
+/*
+ * Feature not supported
+ */
+#define NFCSTATUS_FEATURE_NOT_SUPPORTED                       (0x0033)
+
+/*  The Unregistration command has failed because the user wants to unregister on
+ * an element for which he was not registered
+ */
+#define NFCSTATUS_NOT_REGISTERED                              (0x0034)
+
+
+/* The Registration command has failed because the user wants to register on
+ * an element for which he is already registered
+ */
+#define NFCSTATUS_ALREADY_REGISTERED                          (0x0035)
+
+/*  Single Tag with Multiple
+    Protocol support detected */
+#define NFCSTATUS_MULTIPLE_PROTOCOLS                          (0x0036)
+
+/*
+ * Feature not supported
+ */
+#define NFCSTATUS_MULTIPLE_TAGS                               (0x0037)
+
+/*
+ * A DESELECT event has occurred
+ */
+#define NFCSTATUS_DESELECTED                                  (0x0038)
+
+/*
+ * A RELEASE event has occurred
+ */
+#define NFCSTATUS_RELEASED                                    (0x0039)
+
+/*
+ * The operation is currently not possible or not allowed
+ */
+#define NFCSTATUS_NOT_ALLOWED                                 (0x003A)
+
+/*
+ *  The system is busy with the previous operation.
+ */
+#define NFCSTATUS_BUSY                                        (0x006F)
+
+
+/* NDEF Mapping error codes */
+
+/* The remote device (type) is not valid for this request. */
+#define NFCSTATUS_INVALID_REMOTE_DEVICE                       (0x001D)
+
+/* Read operation failed */
+#define NFCSTATUS_READ_FAILED                                 (0x0014)
+
+/*
+ * Write operation failed
+ */
+#define NFCSTATUS_WRITE_FAILED                                (0x0015)
+
+/* Non Ndef Compliant */
+#define NFCSTATUS_NO_NDEF_SUPPORT                             (0x0016)
+
+/* Could not proceed further with the write operation: reached card EOF*/
+#define NFCSTATUS_EOF_NDEF_CONTAINER_REACHED                  (0x001A)
+
+/* Incorrect number of bytes received from the card*/
+#define NFCSTATUS_INVALID_RECEIVE_LENGTH                      (0x001B)
+
+/* The data format/composition is not understood/correct. */
+#define NFCSTATUS_INVALID_FORMAT                              (0x001C)
+
+
+/* There is not sufficient storage available. */
+#define NFCSTATUS_INSUFFICIENT_STORAGE                        (0x001F)
+
+/* The Ndef Format procedure has failed. */
+#define NFCSTATUS_FORMAT_ERROR                                (0x0023)
+
+/* The NCI Cedit error */
+#define NFCSTATUS_CREDIT_TIMEOUT                              (0x0024)
+
+/*
+ * Response Time out for the control message(NFCC not responded)
+ */
+#define NFCSTATUS_RESPONSE_TIMEOUT                            (0x0025)
+
+/*
+ * Device is already connected
+ */
+#define NFCSTATUS_ALREADY_CONNECTED                           (0x0026)
+
+/*
+ * Device is already connected
+ */
+#define NFCSTATUS_ANOTHER_DEVICE_CONNECTED                    (0x0027)
+
+/*
+ * Single Target Detected and Activated
+ */
+#define NFCSTATUS_SINGLE_TAG_ACTIVATED                        (0x0028)
+
+/*
+ * Single Target Detected
+ */
+#define NFCSTATUS_SINGLE_TAG_DISCOVERED                       (0x0029)
+
+/*
+ * Secure element Detected and Activated
+ */
+#define NFCSTATUS_SECURE_ELEMENT_ACTIVATED                    (0x0028)
+
+/*
+ * Unknown error Status Codes
+ */
+#define NFCSTATUS_UNKNOWN_ERROR                               (0x00FE)
+
+/*
+ * Status code for failure
+ */
+#define NFCSTATUS_FAILED                                      (0x00FF)
+
+/*
+ * The function/command has been aborted
+ */
+#define NFCSTATUS_CMD_ABORTED                                 (0x0002)
+
+/*
+ * No target found after poll
+ */
+#define NFCSTATUS_NO_TARGET_FOUND                             (0x000A)
+
+/* Attempt to disconnect a not connected remote device. */
+#define NFCSTATUS_NO_DEVICE_CONNECTED                         (0x000B)
+
+/* External RF field detected. */
+#define NFCSTATUS_EXTERNAL_RF_DETECTED                        (0x000E)
+
+/* Message is not allowed by the state machine
+ * (e.g. configuration went wrong)
+ */
+#define NFCSTATUS_MSG_NOT_ALLOWED_BY_FSM                      (0x0010)
+
+/*
+ * No access has been granted
+ */
+#define NFCSTATUS_ACCESS_DENIED                               (0x001E)
+
+/* No registry node matches the specified input data. */
+#define NFCSTATUS_NODE_NOT_FOUND                              (0x0017)
+
+/* The current module is busy ; one might retry later */
+#define NFCSTATUS_SMX_BAD_STATE                               (0x00F0)
+
+
+/* The Abort mechanism has failed for unexpected reason: user can try again*/
+#define NFCSTATUS_ABORT_FAILED                                (0x00F2)
+
+
+/* The Registration command has failed because the user wants to register as target
+ * on a operating mode not supported
+ */
+#define NFCSTATUS_REG_OPMODE_NOT_SUPPORTED                    (0x00F5)
+
+/*
+ * Shutdown in progress, cannot handle the request at this time.
+ */
+#define NFCSTATUS_SHUTDOWN                  (0x0091)
+
+/*
+ * Target is no more in RF field
+ */
+#define NFCSTATUS_TARGET_LOST               (0x0092)
+
+/*
+ * Request is rejected
+ */
+#define NFCSTATUS_REJECTED                  (0x0093)
+
+/*
+ * Target is not connected
+ */
+#define NFCSTATUS_TARGET_NOT_CONNECTED      (0x0094)
+
+/*
+ * Invalid handle for the operation
+ */
+#define NFCSTATUS_INVALID_HANDLE            (0x0095)
+
+/*
+ * Process aborted
+ */
+#define NFCSTATUS_ABORTED                   (0x0096)
+
+/*
+ * Requested command is not supported
+ */
+#define NFCSTATUS_COMMAND_NOT_SUPPORTED     (0x0097)
+
+/*
+ * Tag is not NDEF compliant
+ */
+#define NFCSTATUS_NON_NDEF_COMPLIANT        (0x0098)
+
+/*
+ * Not enough memory available to complete the requested operation
+ */
+#define NFCSTATUS_NOT_ENOUGH_MEMORY         (0x001F)
+
+/*
+ * Indicates incoming connection
+ */
+#define NFCSTATUS_INCOMING_CONNECTION        (0x0045)
+
+/*
+ * Indicates Connection was successful
+ */
+#define NFCSTATUS_CONNECTION_SUCCESS         (0x0046)
+
+/*
+ * Indicates Connection failed
+ */
+#define NFCSTATUS_CONNECTION_FAILED          (0x0047)
+
+#endif /* PHNFCSTATUS_H */
diff --git a/nci/jni/extns/pn54x/src/common/phNfcTypes.h b/nci/jni/extns/pn54x/src/common/phNfcTypes.h
new file mode 100755
index 0000000..08a17f9
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/common/phNfcTypes.h
@@ -0,0 +1,297 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef PHNFCTYPES_H
+#define PHNFCTYPES_H
+
+#include <stdint.h>
+#include <string.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <unistd.h>
+
+#ifndef TRUE
+#define TRUE            (0x01)            /* Logical True Value */
+#endif
+#ifndef FALSE
+#define FALSE           (0x00)            /* Logical False Value */
+#endif
+typedef uint8_t         utf8_t;       /* UTF8 Character String */
+typedef uint8_t         bool_t;       /* boolean data type */
+typedef uint16_t        NFCSTATUS;        /* Return values */
+#define STATIC static
+
+#define PHNFC_MAX_UID_LENGTH            0x0AU  /* Maximum UID length expected */
+#define PHNFC_MAX_ATR_LENGTH            0x30U  /* Maximum ATR_RES (General Bytes) length expected */
+#define PHNFC_NFCID_LENGTH              0x0AU  /* Maximum length of NFCID 1.3*/
+#define PHNFC_ATQA_LENGTH               0x02U  /* ATQA length */
+
+/*
+ * NFC Data structure
+ */
+typedef struct phNfc_sData
+{
+    uint8_t             *buffer; /* Buffer to store data */
+    uint32_t            length;  /* Buffer length */
+} phNfc_sData_t;
+
+/*
+ * Possible Hardware Configuration exposed to upper layer.
+ * Typically this should be port name (Ex:"COM1","COM2") to which PN547 is connected.
+ */
+typedef enum
+{
+    ENUM_LINK_TYPE_COM1,
+    ENUM_LINK_TYPE_COM2,
+    ENUM_LINK_TYPE_COM3,
+    ENUM_LINK_TYPE_COM4,
+    ENUM_LINK_TYPE_COM5,
+    ENUM_LINK_TYPE_COM6,
+    ENUM_LINK_TYPE_COM7,
+    ENUM_LINK_TYPE_COM8,
+    ENUM_LINK_TYPE_I2C,
+    ENUM_LINK_TYPE_SPI,
+    ENUM_LINK_TYPE_USB,
+    ENUM_LINK_TYPE_TCP,
+    ENUM_LINK_TYPE_NB
+} phLibNfc_eConfigLinkType;
+
+/*
+ * Deferred message. This message type will be posted to the client application thread
+ * to notify that a deferred call must be invoked.
+ */
+#define PH_LIBNFC_DEFERREDCALL_MSG        (0x311)
+
+/*
+ * Deferred call declaration.
+ * This type of API is called from ClientApplication ( main thread) to notify
+ * specific callback.
+ */
+typedef void (*pphLibNfc_DeferredCallback_t) (void*);
+
+/*
+ * Deferred parameter declaration.
+ * This type of data is passed as parameter from ClientApplication (main thread) to the
+ * callback.
+ */
+typedef void *pphLibNfc_DeferredParameter_t;
+
+/*
+ * Possible Hardware Configuration exposed to upper layer.
+ * Typically this should be at least the communication link (Ex:"COM1","COM2")
+ * the controller is connected to.
+ */
+typedef struct phLibNfc_sConfig
+{
+    uint8_t *pLogFile; /* Log File Name*/
+    /* Hardware communication link to the controller */
+    phLibNfc_eConfigLinkType  nLinkType;
+    /* The client ID (thread ID or message queue ID) */
+    unsigned int nClientId;
+} phLibNfc_sConfig_t, *pphLibNfc_sConfig_t;
+
+/*
+ * NFC Message structure contains message specific details like
+ * message type, message specific data block details, etc.
+ */
+typedef struct phLibNfc_Message
+{
+    uint32_t eMsgType;   /* Type of the message to be posted*/
+    void   * pMsgData;   /* Pointer to message specific data block in case any*/
+    uint32_t Size;       /* Size of the datablock*/
+} phLibNfc_Message_t, *pphLibNfc_Message_t;
+
+/*
+ * Deferred message specific info declaration.
+ * This type of information is packed as message data when PH_LIBNFC_DEFERREDCALL_MSG
+ * type message is posted to message handler thread.
+ */
+typedef struct phLibNfc_DeferredCall
+{
+    pphLibNfc_DeferredCallback_t pCallback;/* pointer to Deferred callback */
+    pphLibNfc_DeferredParameter_t pParameter;/* pointer to Deferred parameter */
+} phLibNfc_DeferredCall_t;
+
+/*
+ * Definitions for supported protocol
+ */
+typedef struct phNfc_sSupProtocol
+{
+    unsigned int MifareUL    : 1;  /* Protocol Mifare Ultra Light or any NFC Forum Type-2 tags */
+    unsigned int MifareStd   : 1;  /* Protocol Mifare Standard. */
+    unsigned int ISO14443_4A : 1;  /* Protocol ISO14443-4 Type A.  */
+    unsigned int ISO14443_4B : 1;  /* Protocol ISO14443-4 Type B.  */
+    unsigned int ISO15693    : 1;  /* Protocol ISO15693 HiTag.  */
+    unsigned int Felica      : 1;  /* Protocol Felica. */
+    unsigned int NFC         : 1;  /* Protocol NFC. */
+    unsigned int Jewel       : 1;  /* Protocol Innovision Jewel Tag. or Any T1T*/
+    unsigned int Desfire     : 1;  /*TRUE indicates specified feature (mapping
+                                   or formatting)for DESFire tag supported else not supported.*/
+    unsigned int Kovio       : 1;   /* Protocol Kovio Tag*/
+    unsigned int HID         : 1;   /* Protocol HID(Picopass) Tag*/
+    unsigned int Bprime      : 1;   /* Protocol BPrime Tag*/
+    unsigned int EPCGEN2     : 1;   /* Protocol EPCGEN2 Tag*/
+} phNfc_sSupProtocol_t;
+
+/*
+ *  Enumerated MIFARE Commands
+ */
+
+typedef enum phNfc_eMifareCmdList
+{
+    phNfc_eMifareRaw        = 0x00U,     /* This command performs raw transcations */
+    phNfc_eMifareAuthentA   = 0x60U,     /* This command performs an authentication with KEY A for a sector. */
+    phNfc_eMifareAuthentB   = 0x61U,     /* This command performs an authentication with KEY B for a sector. */
+    phNfc_eMifareRead16     = 0x30U,     /* Read 16 Bytes from a Mifare Standard block */
+    phNfc_eMifareRead       = 0x30U,     /* Read Mifare Standard */
+    phNfc_eMifareWrite16    = 0xA0U,     /* Write 16 Bytes to a Mifare Standard block */
+    phNfc_eMifareWrite4     = 0xA2U,     /* Write 4 bytes. */
+    phNfc_eMifareInc        = 0xC1U,     /* Increment */
+    phNfc_eMifareDec        = 0xC0U,     /* Decrement */
+    phNfc_eMifareTransfer   = 0xB0U,     /* Transfer */
+    phNfc_eMifareRestore    = 0xC2U,     /* Restore.   */
+    phNfc_eMifareReadSector = 0x38U,     /* Read Sector.   */
+    phNfc_eMifareWriteSector= 0xA8U,     /* Write Sector.   */
+    /* Above commands could be used for preparing raw command but below one can not be */
+    phNfc_eMifareReadN      = 0x01,      /* Proprietary Command */
+    phNfc_eMifareWriteN     = 0x02,      /* Proprietary Command */
+    phNfc_eMifareSectorSel  = 0x03,      /* Proprietary Command */
+    phNfc_eMifareAuth       = 0x04,      /* Proprietary Command */
+    phNfc_eMifareProxCheck  = 0x05,      /* Proprietary Command */
+    phNfc_eMifareInvalidCmd = 0xFFU      /* Invalid Command */
+} phNfc_eMifareCmdList_t;
+
+/*
+ * Information about ISO14443A
+ */
+typedef struct phNfc_sIso14443AInfo
+{
+    uint8_t         Uid[PHNFC_MAX_UID_LENGTH];      /* UID information of the TYPE A
+                                                     * Tag Discovered */
+    uint8_t         UidLength;                      /* UID information length */
+    uint8_t         AppData[PHNFC_MAX_ATR_LENGTH];  /* Application data information of the
+                              1                      * tag discovered (= Historical bytes for
+                                                     * type A) */
+    uint8_t         AppDataLength;                  /* Application data length */
+    uint8_t         Sak;                            /* SAK information of the TYPE A
+                                                     * Tag Discovered */
+    uint8_t         AtqA[PHNFC_ATQA_LENGTH];        /* ATQA informationof the TYPE A
+                                                     * Tag Discovered */
+    uint8_t         MaxDataRate;                    /* Maximum data rate supported
+                                                     * by the tag Discovered */
+    uint8_t         Fwi_Sfgt;                       /* Frame waiting time and start up
+                                                     * frame guard */
+} phNfc_sIso14443AInfo_t;
+
+/* Remote device information structure */
+typedef union phNfc_uRemoteDevInfo
+{
+    phNfc_sIso14443AInfo_t Iso14443A_Info;/* ISO1443A Remote device info */
+} phNfc_uRemoteDevInfo_t;
+
+/*
+*
+*  The RF Device Type List is used to identify the type of
+*  remote device that is discovered and connected.
+*
+*/
+
+typedef enum phNfc_eRFDevType
+{
+    phNfc_eUnknown_DevType        = 0x00U,
+    phNfc_eISO14443_A_PCD,
+    phNfc_eISO14443_B_PCD,
+    phNfc_eISO14443_BPrime_PCD,
+    phNfc_eFelica_PCD,
+    phNfc_eJewel_PCD,
+    phNfc_eISO15693_PCD,
+    phNfc_eEpcGen2_PCD,
+    phNfc_ePCD_DevType,
+    phNfc_ePICC_DevType,
+    phNfc_eISO14443_A_PICC,
+    phNfc_eISO14443_4A_PICC,
+    phNfc_eISO14443_3A_PICC,
+    phNfc_eMifare_PICC,
+    phNfc_eISO14443_B_PICC,
+    phNfc_eISO14443_4B_PICC,
+    phNfc_eISO14443_BPrime_PICC,
+    phNfc_eFelica_PICC,
+    phNfc_eJewel_PICC,
+    phNfc_eISO15693_PICC,
+    phNfc_eEpcGen2_PICC,
+    phNfc_eNfcIP1_Target,
+    phNfc_eNfcIP1_Initiator,
+    phNfc_eInvalid_DevType
+} phNfc_eRFDevType_t;
+
+/*
+ * The Remote Device Type List is used to identify the type of
+ * remote device that is discovered/connected
+ */
+typedef phNfc_eRFDevType_t phNfc_eRemDevType_t;
+typedef phNfc_eRemDevType_t phHal_eRemDevType_t;
+
+/*
+ *   Union for each available type of Commands.
+ */
+
+typedef union phNfc_uCommand
+{
+    phNfc_eMifareCmdList_t MfCmd;  /* Mifare command structure.  */
+} phNfc_uCmdList_t;
+
+/*
+ *  The Remote Device Information Structure holds information about one single Remote
+ *  Device detected.
+ */
+typedef struct phNfc_sRemoteDevInformation
+{
+    uint8_t                    SessionOpened;       /* Flag indicating the validity of
+                                                     * the handle of the remote device.
+                                                     * 1 = Device is not activer (Only discovered), 2 = Device is active and ready for use*/
+    phNfc_eRemDevType_t        RemDevType;          /* Remote device type */
+    phNfc_uRemoteDevInfo_t     RemoteDevInfo;       /* Union of available Remote Device */
+} phNfc_sRemoteDevInformation_t;
+
+
+/*
+ * Transceive Information Data Structure for sending commands/response to the remote device
+ */
+
+typedef struct phNfc_sTransceiveInfo
+{
+    phNfc_uCmdList_t                cmd;        /* Command for transceive */
+    uint8_t                         addr;       /* Start Block Number */
+    uint8_t                         NumBlock;   /* Number of Blocks to perform operation */
+    /* For Felica only*/
+    uint16_t *ServiceCodeList;                  /* 2 Byte service Code List */
+    uint16_t *Blocklist;                        /* 2 Byte Block list */
+    phNfc_sData_t                   sSendData; /* Send data */
+    phNfc_sData_t                   sRecvData; /* Recv data */
+    /* For EPC-GEN */
+    uint32_t                        dwWordPtr;   /* Word address for the memory write */
+    uint8_t                         bWordPtrLen; /* Specifies the length of word pointer
+                                                 00: 8  bits
+                                                 01: 16 bits
+                                                 10: 24 bits
+                                                 11: 32 bits
+                                                 */
+    uint8_t                         bWordCount;   /* Number of words to be read or written */
+} phNfc_sTransceiveInfo_t;
+
+#define UNUSED(X) (void)X;
+
+#endif /* PHNFCTYPES_H */
diff --git a/nci/jni/extns/pn54x/src/common/phNfcTypes_Mapping.h b/nci/jni/extns/pn54x/src/common/phNfcTypes_Mapping.h
new file mode 100755
index 0000000..9a1a525
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/common/phNfcTypes_Mapping.h
@@ -0,0 +1,48 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef PHNFCTYPES_MAPPING_H_
+#define PHNFCTYPES_MAPPING_H_
+
+
+typedef phNfc_sData_t phHal_sData_t;
+typedef phNfc_sSupProtocol_t phHal_sSupProtocol_t;
+#define phHal_eMifareRaw phNfc_eMifareRaw
+#define phHal_eMifareAuthentA phNfc_eMifareAuthentA
+#define phHal_eMifareAuthentB phNfc_eMifareAuthentB
+#define phHal_eMifareRead16 phNfc_eMifareRead16
+#define phHal_eMifareRead phNfc_eMifareRead
+#define phHal_eMifareWrite16 phNfc_eMifareWrite16
+#define phHal_eMifareWrite4 phNfc_eMifareWrite4
+#define phHal_eMifareInc phNfc_eMifareInc
+#define phHal_eMifareDec phNfc_eMifareDec
+#define phHal_eMifareTransfer phNfc_eMifareTransfer
+#define phHal_eMifareRestore phNfc_eMifareRestore
+#define phHal_eMifareReadSector phNfc_eMifareReadSector
+#define phHal_eMifareWriteSector phNfc_eMifareWriteSector
+#define phHal_eMifareReadN phNfc_eMifareReadN
+#define phHal_eMifareWriteN phNfc_eMifareWriteN
+#define phHal_eMifareSectorSel phNfc_eMifareSectorSel
+#define phHal_eMifareAuth phNfc_eMifareAuth
+#define phHal_eMifareProxCheck phNfc_eMifareProxCheck
+#define phHal_eMifareInvalidCmd phNfc_eMifareInvalidCmd
+
+typedef phNfc_eMifareCmdList_t phHal_eMifareCmdList_t;
+
+typedef phNfc_uCmdList_t phHal_uCmdList_t;
+typedef phNfc_sRemoteDevInformation_t phHal_sRemoteDevInformation_t;
+typedef phNfc_sRemoteDevInformation_t phLibNfc_sRemoteDevInformation_t;
+#endif /* PHNFCTYPES_MAPPING_H_ */
diff --git a/nci/jni/extns/pn54x/src/log/phNxpLog.c b/nci/jni/extns/pn54x/src/log/phNxpLog.c
new file mode 100755
index 0000000..fb3e8ad
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/log/phNxpLog.c
@@ -0,0 +1,268 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#include <string.h>
+#if !defined (NXPLOG__H_INCLUDED)
+#    include "phNxpLog.h"
+#    include "phNxpConfig.h"
+#endif
+#include <cutils/properties.h>
+
+const char * NXPLOG_ITEM_EXTNS   = "NxpExtns";
+const char * NXPLOG_ITEM_NCIHAL  = "NxpHal";
+const char * NXPLOG_ITEM_NCIX    = "NxpNciX";
+const char * NXPLOG_ITEM_NCIR    = "NxpNciR";
+const char * NXPLOG_ITEM_FWDNLD  = "NxpFwDnld";
+const char * NXPLOG_ITEM_TML     = "NxpTml";
+
+#ifdef NXP_HCI_REQ
+const char * NXPLOG_ITEM_HCPX    = "NxpHcpX";
+const char * NXPLOG_ITEM_HCPR    = "NxpHcpR";
+#endif /*NXP_HCI_REQ*/
+
+/* global log level structure */
+nci_log_level_t gLog_level;
+
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetGlobalLogLevel
+ *
+ * Description      Sets the global log level for all modules.
+ *                  This value is set by Android property nfc.nxp_log_level_global.
+ *                  If value can be overridden by module log level.
+ *
+ * Returns          The value of global log level
+ *
+ ******************************************************************************/
+static uint8_t phNxpLog_SetGlobalLogLevel (void)
+{
+    uint8_t level = NXPLOG_DEFAULT_LOGLEVEL;
+    unsigned long num = 0;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+
+    int len = property_get (PROP_NAME_NXPLOG_GLOBAL_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        level = (unsigned char) num;
+    }
+    memset(&gLog_level, level, sizeof(nci_log_level_t));
+    return level;
+}
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetHALLogLevel
+ *
+ * Description      Sets the HAL layer log level.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phNxpLog_SetHALLogLevel (uint8_t level)
+{
+    unsigned long num = 0;
+    int len;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+
+    if (GetNxpNumValue (NAME_NXPLOG_HAL_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.hal_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;;
+    }
+
+    len = property_get (PROP_NAME_NXPLOG_HAL_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        gLog_level.hal_log_level = (unsigned char) num;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetExtnsLogLevel
+ *
+ * Description      Sets the Extensions layer log level.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phNxpLog_SetExtnsLogLevel (uint8_t level)
+{
+    unsigned long num = 0;
+    int len;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+    if (GetNxpNumValue (NAME_NXPLOG_EXTNS_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.extns_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;;
+    }
+
+    len = property_get (PROP_NAME_NXPLOG_EXTNS_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        gLog_level.extns_log_level = (unsigned char) num;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetTmlLogLevel
+ *
+ * Description      Sets the TML layer log level.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phNxpLog_SetTmlLogLevel (uint8_t level)
+{
+    unsigned long num = 0;
+    int len;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+    if (GetNxpNumValue (NAME_NXPLOG_TML_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.tml_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;;
+    }
+
+    len = property_get (PROP_NAME_NXPLOG_TML_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        gLog_level.tml_log_level = (unsigned char) num;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetDnldLogLevel
+ *
+ * Description      Sets the FW download layer log level.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phNxpLog_SetDnldLogLevel (uint8_t level)
+{
+    unsigned long num = 0;
+    int len;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+    if (GetNxpNumValue (NAME_NXPLOG_FWDNLD_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.dnld_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;;
+    }
+
+    len = property_get (PROP_NAME_NXPLOG_FWDNLD_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        gLog_level.dnld_log_level = (unsigned char) num;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+ *
+ * Function         phNxpLog_SetNciTxLogLevel
+ *
+ * Description      Sets the NCI transaction layer log level.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phNxpLog_SetNciTxLogLevel (uint8_t level)
+{
+    unsigned long num = 0;
+    int len;
+    char valueStr [PROPERTY_VALUE_MAX] = {0};
+    if (GetNxpNumValue (NAME_NXPLOG_NCIX_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.ncix_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;
+    }
+    if (GetNxpNumValue (NAME_NXPLOG_NCIR_LOGLEVEL, &num, sizeof(num)))
+    {
+        gLog_level.ncir_log_level = (level > (unsigned char) num) ? level : (unsigned char) num;;
+    }
+
+    len = property_get (PROP_NAME_NXPLOG_NCI_LOGLEVEL, valueStr, "");
+    if (len > 0)
+    {
+        /* let Android property override .conf variable */
+        sscanf (valueStr, "%lu", &num);
+        gLog_level.ncix_log_level = (unsigned char) num;
+        gLog_level.ncir_log_level = (unsigned char) num;
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phNxpLog_InitializeLogLevel
+ *
+ * Description      Initialize and get log level of module from libnfc-nxp.conf or
+ *                  Android runtime properties.
+ *                  The Android property nfc.nxp_global_log_level is to
+ *                  define log level for all modules. Modules log level will override global level.
+ *                  The Android property will override the level
+ *                  in libnfc-nxp.conf
+ *
+ *                  Android property names:
+ *                      nfc.nxp_log_level_global    * defines log level for all modules
+ *                      nfc.nxp_log_level_extns     * extensions module log
+ *                      nfc.nxp_log_level_hal       * Hal module log
+ *                      nfc.nxp_log_level_dnld      * firmware download module log
+ *                      nfc.nxp_log_level_tml       * TML module log
+ *                      nfc.nxp_log_level_nci       * NCI transaction log
+ *
+ *                  Log Level values:
+ *                      NXPLOG_LOG_SILENT_LOGLEVEL  0        * No trace to show
+ *                      NXPLOG_LOG_ERROR_LOGLEVEL   1        * Show Error trace only
+ *                      NXPLOG_LOG_WARN_LOGLEVEL    2        * Show Warning trace and Error trace
+ *                      NXPLOG_LOG_DEBUG_LOGLEVEL   3        * Show all traces
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+void phNxpLog_InitializeLogLevel(void)
+{
+    uint8_t level = phNxpLog_SetGlobalLogLevel ();
+    phNxpLog_SetHALLogLevel (level);
+    phNxpLog_SetExtnsLogLevel (level);
+    phNxpLog_SetTmlLogLevel (level);
+    phNxpLog_SetDnldLogLevel (level);
+    phNxpLog_SetNciTxLogLevel (level);
+
+    ALOGD ("%s: global =%u, Fwdnld =%u, extns =%u, \
+                hal =%u, tml =%u, ncir =%u, \
+                ncix =%u", \
+                __FUNCTION__, gLog_level.global_log_level, gLog_level.dnld_log_level,
+                    gLog_level.extns_log_level, gLog_level.hal_log_level, gLog_level.tml_log_level,
+                    gLog_level.ncir_log_level, gLog_level.ncix_log_level);
+
+    return;
+}
diff --git a/nci/jni/extns/pn54x/src/log/phNxpLog.h b/nci/jni/extns/pn54x/src/log/phNxpLog.h
new file mode 100755
index 0000000..af91d3d
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/log/phNxpLog.h
@@ -0,0 +1,248 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#if !defined (NXPLOG__H_INCLUDED)
+#define NXPLOG__H_INCLUDED
+
+#include <cutils/log.h>
+
+typedef struct nci_log_level
+{
+    uint8_t global_log_level;
+    uint8_t extns_log_level;
+    uint8_t hal_log_level;
+    uint8_t dnld_log_level;
+    uint8_t tml_log_level;
+    uint8_t ncix_log_level;
+    uint8_t ncir_log_level;
+} nci_log_level_t;
+
+/* global log level Ref */
+extern nci_log_level_t gLog_level;
+
+/* define log module included when compile */
+#define ENABLE_EXTNS_TRACES   TRUE
+#define ENABLE_HAL_TRACES     TRUE
+#define ENABLE_TML_TRACES     TRUE
+#define ENABLE_FWDNLD_TRACES  TRUE
+#define ENABLE_NCIX_TRACES    TRUE
+#define ENABLE_NCIR_TRACES    TRUE
+
+#define ENABLE_HCPX_TRACES    FALSE
+#define ENABLE_HCPR_TRACES    FALSE
+
+/* ####################### Set the log module name in .conf file ########################## */
+#define NAME_NXPLOG_EXTNS_LOGLEVEL          "NXPLOG_EXTNS_LOGLEVEL"
+#define NAME_NXPLOG_HAL_LOGLEVEL            "NXPLOG_NCIHAL_LOGLEVEL"
+#define NAME_NXPLOG_NCIX_LOGLEVEL           "NXPLOG_NCIX_LOGLEVEL"
+#define NAME_NXPLOG_NCIR_LOGLEVEL           "NXPLOG_NCIR_LOGLEVEL"
+#define NAME_NXPLOG_FWDNLD_LOGLEVEL         "NXPLOG_FWDNLD_LOGLEVEL"
+#define NAME_NXPLOG_TML_LOGLEVEL            "NXPLOG_TML_LOGLEVEL"
+
+/* ####################### Set the log module name by Android property ########################## */
+#define PROP_NAME_NXPLOG_GLOBAL_LOGLEVEL       "nfc.nxp_log_level_global"
+#define PROP_NAME_NXPLOG_EXTNS_LOGLEVEL        "nfc.nxp_log_level_extns"
+#define PROP_NAME_NXPLOG_HAL_LOGLEVEL          "nfc.nxp_log_level_hal"
+#define PROP_NAME_NXPLOG_NCI_LOGLEVEL          "nfc.nxp_log_level_nci"
+#define PROP_NAME_NXPLOG_FWDNLD_LOGLEVEL       "nfc.nxp_log_level_dnld"
+#define PROP_NAME_NXPLOG_TML_LOGLEVEL          "nfc.nxp_log_level_tml"
+
+/* ####################### Set the logging level for EVERY COMPONENT here ######################## :START: */
+#define NXPLOG_LOG_SILENT_LOGLEVEL             0x00
+#define NXPLOG_LOG_ERROR_LOGLEVEL              0x01
+#define NXPLOG_LOG_WARN_LOGLEVEL               0x02
+#define NXPLOG_LOG_DEBUG_LOGLEVEL              0x03
+/* ####################### Set the default logging level for EVERY COMPONENT here ########################## :END: */
+
+
+/* The Default log level for all the modules. */
+#define NXPLOG_DEFAULT_LOGLEVEL                NXPLOG_LOG_ERROR_LOGLEVEL
+
+
+/* ################################################################################################################ */
+/* ############################################### Component Names ################################################ */
+/* ################################################################################################################ */
+
+extern const char * NXPLOG_ITEM_EXTNS;   /* Android logging tag for NxpExtns  */
+extern const char * NXPLOG_ITEM_NCIHAL;  /* Android logging tag for NxpNciHal */
+extern const char * NXPLOG_ITEM_NCIX;    /* Android logging tag for NxpNciX   */
+extern const char * NXPLOG_ITEM_NCIR;    /* Android logging tag for NxpNciR   */
+extern const char * NXPLOG_ITEM_FWDNLD;  /* Android logging tag for NxpFwDnld */
+extern const char * NXPLOG_ITEM_TML;     /* Android logging tag for NxpTml    */
+
+#ifdef NXP_HCI_REQ
+extern const char * NXPLOG_ITEM_HCPX;    /* Android logging tag for NxpHcpX   */
+extern const char * NXPLOG_ITEM_HCPR;    /* Android logging tag for NxpHcpR   */
+#endif /*NXP_HCI_REQ*/
+
+/* ######################################## Defines used for Logging data ######################################### */
+#ifdef NXP_VRBS_REQ
+#define NXPLOG_FUNC_ENTRY(COMP) \
+    LOG_PRI( ANDROID_LOG_VERBOSE, (COMP), "+:%s", (__FUNCTION__))
+#define NXPLOG_FUNC_EXIT(COMP) \
+    LOG_PRI(ANDROID_LOG_VERBOSE, (COMP), "-:%s", (__FUNCTION__))
+#endif /*NXP_VRBS_REQ*/
+
+/* ################################################################################################################ */
+/* ######################################## Logging APIs of actual modules ######################################## */
+/* ################################################################################################################ */
+/* Logging APIs used by NxpExtns module */
+#if (ENABLE_EXTNS_TRACES == TRUE )
+#define NXPLOG_EXTNS_D(...)  {if (gLog_level.extns_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_EXTNS, __VA_ARGS__);}
+#define NXPLOG_EXTNS_W(...)  {if (gLog_level.extns_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_EXTNS, __VA_ARGS__);}
+#define NXPLOG_EXTNS_E(...)  {if (gLog_level.extns_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_EXTNS, __VA_ARGS__);}
+#else
+#define NXPLOG_EXTNS_D(...)
+#define NXPLOG_EXTNS_W(...)
+#define NXPLOG_EXTNS_E(...)
+#endif /* Logging APIs used by NxpExtns module */
+
+/* Logging APIs used by NxpNciHal module */
+#if (ENABLE_HAL_TRACES == TRUE )
+#define NXPLOG_NCIHAL_D(...)  {if (gLog_level.hal_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_NCIHAL, __VA_ARGS__);}
+#define NXPLOG_NCIHAL_W(...)  {if (gLog_level.hal_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_NCIHAL, __VA_ARGS__);}
+#define NXPLOG_NCIHAL_E(...)  {if (gLog_level.hal_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_NCIHAL, __VA_ARGS__);}
+#else
+#define NXPLOG_NCIHAL_D(...)
+#define NXPLOG_NCIHAL_W(...)
+#define NXPLOG_NCIHAL_E(...)
+#endif /* Logging APIs used by HAL module */
+
+/* Logging APIs used by NxpNciX module */
+#if (ENABLE_NCIX_TRACES == TRUE )
+#define NXPLOG_NCIX_D(...)  {if (gLog_level.ncix_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_NCIX, __VA_ARGS__);}
+#define NXPLOG_NCIX_W(...)  {if (gLog_level.ncix_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_NCIX, __VA_ARGS__);}
+#define NXPLOG_NCIX_E(...)  {if (gLog_level.ncix_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_NCIX, __VA_ARGS__);}
+#else
+#define NXPLOG_NCIX_D(...)
+#define NXPLOG_NCIX_W(...)
+#define NXPLOG_NCIX_E(...)
+#endif /* Logging APIs used by NCIx module */
+
+/* Logging APIs used by NxpNciR module */
+#if (ENABLE_NCIR_TRACES == TRUE )
+#define NXPLOG_NCIR_D(...)  {if (gLog_level.ncir_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_NCIR, __VA_ARGS__);}
+#define NXPLOG_NCIR_W(...)  {if (gLog_level.ncir_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_NCIR, __VA_ARGS__);}
+#define NXPLOG_NCIR_E(...)  {if (gLog_level.ncir_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_NCIR, __VA_ARGS__);}
+#else
+#define NXPLOG_NCIR_D(...)
+#define NXPLOG_NCIR_W(...)
+#define NXPLOG_NCIR_E(...)
+#endif /* Logging APIs used by NCIR module */
+
+/* Logging APIs used by NxpFwDnld module */
+#if (ENABLE_FWDNLD_TRACES == TRUE )
+#define NXPLOG_FWDNLD_D(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_FWDNLD_W(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_FWDNLD_E(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#else
+#define NXPLOG_FWDNLD_D(...)
+#define NXPLOG_FWDNLD_W(...)
+#define NXPLOG_FWDNLD_E(...)
+#endif /* Logging APIs used by NxpFwDnld module */
+
+/* Logging APIs used by NxpTml module */
+#if (ENABLE_TML_TRACES == TRUE )
+#define NXPLOG_TML_D(...)  {if (gLog_level.tml_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_TML, __VA_ARGS__);}
+#define NXPLOG_TML_W(...)  {if (gLog_level.tml_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_TML, __VA_ARGS__);}
+#define NXPLOG_TML_E(...)  {if (gLog_level.tml_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_TML, __VA_ARGS__);}
+#else
+#define NXPLOG_TML_D(...)
+#define NXPLOG_TML_W(...)
+#define NXPLOG_TML_E(...)
+#endif /* Logging APIs used by NxpTml module */
+
+#ifdef NXP_HCI_REQ
+/* Logging APIs used by NxpHcpX module */
+#if (ENABLE_HCPX_TRACES == TRUE )
+#define NXPLOG_HCPX_D(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_HCPX_W(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_HCPX_E(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#else
+#define NXPLOG_HCPX_D(...)
+#define NXPLOG_HCPX_W(...)
+#define NXPLOG_HCPX_E(...)
+#endif /* Logging APIs used by NxpHcpX module */
+
+/* Logging APIs used by NxpHcpR module */
+#if (ENABLE_HCPR_TRACES == TRUE )
+#define NXPLOG_HCPR_D(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_DEBUG_LOGLEVEL) LOG_PRI (ANDROID_LOG_DEBUG, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_HCPR_W(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_WARN_LOGLEVEL) LOG_PRI (ANDROID_LOG_WARN, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#define NXPLOG_HCPR_E(...)  {if (gLog_level.dnld_log_level >= NXPLOG_LOG_ERROR_LOGLEVEL) LOG_PRI (ANDROID_LOG_ERROR, NXPLOG_ITEM_FWDNLD, __VA_ARGS__);}
+#else
+#define NXPLOG_HCPR_D(...)
+#define NXPLOG_HCPR_W(...)
+#define NXPLOG_HCPR_E(...)
+#endif /* Logging APIs used by NxpHcpR module */
+#endif /* NXP_HCI_REQ */
+
+#ifdef NXP_VRBS_REQ
+#if (ENABLE_EXTNS_TRACES == TRUE )
+#define NXPLOG_EXTNS_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_EXTNS)
+#define NXPLOG_EXTNS_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_EXTNS)
+#else
+#define NXPLOG_EXTNS_ENTRY()
+#define NXPLOG_EXTNS_EXIT()
+#endif
+
+#if (ENABLE_HAL_TRACES == TRUE )
+#define NXPLOG_NCIHAL_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_NCIHAL)
+#define NXPLOG_NCIHAL_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_NCIHAL)
+#else
+#define NXPLOG_NCIHAL_ENTRY()
+#define NXPLOG_NCIHAL_EXIT()
+#endif
+
+#if (ENABLE_NCIX_TRACES == TRUE )
+#define NXPLOG_NCIX_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_NCIX)
+#define NXPLOG_NCIX_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_NCIX)
+#else
+#define NXPLOG_NCIX_ENTRY()
+#define NXPLOG_NCIX_EXIT()
+#endif
+
+#if (ENABLE_NCIR_TRACES == TRUE )
+#define NXPLOG_NCIR_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_NCIR)
+#define NXPLOG_NCIR_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_NCIR)
+#else
+#define NXPLOG_NCIR_ENTRY()
+#define NXPLOG_NCIR_EXIT()
+#endif
+
+#ifdef NXP_HCI_REQ
+
+#if (ENABLE_HCPX_TRACES == TRUE )
+#define NXPLOG_HCPX_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_HCPX)
+#define NXPLOG_HCPX_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_HCPX)
+#else
+#define NXPLOG_HCPX_ENTRY()
+#define NXPLOG_HCPX_EXIT()
+#endif
+
+#if (ENABLE_HCPR_TRACES == TRUE )
+#define NXPLOG_HCPR_ENTRY() NXPLOG_FUNC_ENTRY (NXPLOG_ITEM_HCPR)
+#define NXPLOG_HCPR_EXIT()  NXPLOG_FUNC_EXIT (NXPLOG_ITEM_HCPR)
+#else
+#define NXPLOG_HCPR_ENTRY()
+#define NXPLOG_HCPR_EXIT()
+#endif
+#endif /* NXP_HCI_REQ */
+
+#endif /* NXP_VRBS_REQ */
+
+void phNxpLog_InitializeLogLevel (void);
+
+#endif /* NXPLOG__H_INCLUDED */
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc.h b/nci/jni/extns/pn54x/src/mifare/phFriNfc.h
new file mode 100755
index 0000000..8aba23b
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc.h
@@ -0,0 +1,85 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NFC FRI Main Header.
+ */
+
+#ifndef PHFRINFC_H
+#define PHFRINFC_H
+#include <phNfcTypes.h>
+
+#define LOCK_BITS_CHECK_ENABLE
+
+#define NFCSTATUS_INVALID_DEVICE_REQUEST                        (0x10F5)
+
+/*
+ * Completion Routine
+ *
+ * NFC-FRI components that work in an overlapped style need to provide a function that is compatible
+ * to this definition.
+ * It is mandatory to define such a routine for components that interact with other components up or
+ * down the stack. Moreover, such components shall provide a function within their API to enable the
+ * setting of the Completion Routine address and parameters.
+ *
+ *      First Parameter: Context
+ *      Set to the address of the called instance (component instance context structure). For instance,
+ *      a component that needs to give control to a component up the stack needs to call the completion
+ *      routine of the upper component. The value to assign to this parameter is the address of
+ *      the context structure instance of the called component. Such a structure usually contains all
+ *      variables, data or state information a component member needs for operation. The address of the
+ *      upper instance must be known by the lower (completing) instance. The mechanism to ensure that this
+ *      information is present involves the structure phFriNfc_CplRt_t . See its documentation for
+ *      further information.
+ *
+ *      Second Parameter: Status Value
+ *      The lower layer hands over the completion status via this parameter. The completion
+ *      routine that has been called needs to process the status in a way that is comparable to what
+ *      a regular function return value would require.
+ *
+ *       The prototype of the component's Process(ing) functions has to be compatible to this
+ *       function pointer declaration for components interacting with others. In other cases, where
+ *       there is no interaction or asynchronous processing the definition of the Process(ing)
+ *       function can be arbitrary, if present at all.
+ */
+typedef void (*pphFriNfc_Cr_t) (void*, NFCSTATUS);
+
+/*
+ * Completion Routine structure
+ *
+ * This structure finds itself within each component that requires to report completion
+ * to an upper (calling) component.
+ * Depending on the actual implementation (static or dynamic completion information) the stack
+ * Initialization or the calling component needs to inform the initialized or called component
+ * about the completion path. This information is submitted via this structure.
+ */
+typedef struct phFriNfc_CplRt
+{
+    pphFriNfc_Cr_t    CompletionRoutine; /* Address of the upper Layer's Process(ing) function to call upon completion.
+                                          *   The stack initializer (or depending on the implementation: the calling component)
+                                          *   needs to set this member to the address of the function that needs to be within
+                                          *   the completion path: A calling component would give its own processing function
+                                          *   address to the lower layer.
+                                          */
+    void             *Context;           /* Instance address (context) parameter.
+                                          *   The stack initializer (or depending on the implementation: the calling component)
+                                          *   needs to set this member to the address of the component context structure instance
+                                          *   within the completion path: A calling component would give its own instance address
+                                          *   to the lower layer.
+                                          */
+} phFriNfc_CplRt_t;
+
+#endif /* __PHFRINFC_H__ */
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.c b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.c
new file mode 100755
index 0000000..7018e81
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.c
@@ -0,0 +1,1385 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * Mifare Standard Format implementation
+ */
+
+#include <phFriNfc_MifStdFormat.h>
+#include <phNxpExtns_MifareStd.h>
+#include <phNfcCompId.h>
+#include <phNxpLog.h>
+
+/* Function prototype declarations */
+static void phFriNfc_MfStd_H_FillSendBuf(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, uint16_t BlockNo);
+static NFCSTATUS phFriNfc_MfStd_H_Transceive(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_CallDisCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, NFCSTATUS Status);
+static NFCSTATUS phFriNfc_MfStd_H_CallCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProRdSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProWrSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_WrRdAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static uint32_t phFriNfc_MfStd_H_ChkAcsBit(uint16_t BlockNo, const uint8_t *RecvBuf, const uint8_t AcsBits1[], const uint8_t AcsBits2[]);
+static void phFriNfc_MfStd_H_ChangeAuthSt(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static void phFriNfc_MfStd_H_NdefComplSect(uint8_t CardTypes, uint8_t Sector[]);
+static NFCSTATUS phFriNfc_MfStd_H_ProWrMADBlk(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProErrAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ErrWrSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ErrRdSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static NFCSTATUS phFriNfc_MfStd_H_ProUpdMADBlk(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static void phFriNfc_MfStd_H_StrNdefData(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static void phFriNfc_MfStd_H_BlkNoToWrTLV(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+static int phFriNfc_MfStd_MemCompare(void *s1, void *s2, unsigned int n );
+
+/*
+ * Enum definition contains format states
+ */
+typedef enum Mfc_format_state{
+    MFC_FORMAT_INIT = 0x00,
+    MFC_FORMAT_NFC_KEY,
+    MFC_FORMAT_DEF_KEY,
+    MFC_FORMAT_INVALID
+}MFC_FORMAT_STATE;
+
+/* format key status */
+static MFC_FORMAT_STATE  FormatKeyState = MFC_FORMAT_INIT;
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_Reset
+**
+** Description      Resets the component instance to the initial state and initializes the
+**                  internal variables.
+**
+** Returns          none
+**
+*******************************************************************************/
+void phFriNfc_MfStd_Reset(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    uint8_t NfcForSectArray[] = PH_FRINFC_SMTCRDFMT_NFCFORUMSECT_KEYA_ACS_BIT,
+    MADSectArray[] = PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_1K;
+
+    /* Authentication state */
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = PH_FRINFC_MFSTD_FMT_VAL_1;
+
+    /* Set default key for A or B */
+    memset(NdefSmtCrdFmt->AddInfo.MfStdInfo.Default_KeyA_OR_B,
+                PH_FRINFC_MFSTD_FMT_DEFAULT_KEY, /* 0xFF */
+                PH_FRINFC_MFSTD_FMT_VAL_6);
+
+    /* MAD sector key A */
+    memcpy(NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSect_KeyA,
+                MADSectArray, /*PH_FRINFC_MFSTD_FMT_VAL_0, */
+                PH_FRINFC_MFSTD_FMT_VAL_6);
+
+    /* Copy access bits for MAD sectors */
+    memcpy(NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSect_AccessBits,
+                &MADSectArray[PH_FRINFC_MFSTD_FMT_VAL_6],
+                PH_FRINFC_MFSTD_FMT_VAL_3);
+
+    /* NFC forum sector key A */
+    (void)memcpy(NdefSmtCrdFmt->AddInfo.MfStdInfo.NFCForumSect_KeyA,
+                NfcForSectArray, /*PH_FRINFC_MFSTD_FMT_VAL_0, */
+                PH_FRINFC_MFSTD_FMT_VAL_6);
+
+    /* Copy access bits for NFC forum sectors */
+    (void)memcpy(NdefSmtCrdFmt->AddInfo.MfStdInfo.NFCForumSect_AccessBits,
+                &NfcForSectArray[PH_FRINFC_MFSTD_FMT_VAL_6],
+                PH_FRINFC_MFSTD_FMT_VAL_3);
+
+    /* Sector compliant array initialised to 0 */
+    memset(NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl,
+                PH_FRINFC_MFSTD_FMT_VAL_0, /* 0x00 */
+                PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K);
+
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag = (uint8_t)PH_FRINFC_MFSTD_FMT_VAL_0;
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = (uint8_t)PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK;
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_Format
+**
+** Description      The function initiates and formats the Smart Card.After this formation, remote
+**                  card would be properly initialized and Ndef Compliant.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+NFCSTATUS phFriNfc_MfStd_Format( phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, const uint8_t *ScrtKeyB )
+{
+    NFCSTATUS    Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT,
+                                                NFCSTATUS_INVALID_PARAMETER);
+    uint8_t      index = PH_FRINFC_MFSTD_FMT_VAL_0;
+
+    if(ScrtKeyB != NULL)
+    {
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk =
+            PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK;
+        /* Store Key B in the context */
+        while(index < PH_FRINFC_MFSTD_FMT_VAL_6)
+        {
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.ScrtKeyB[index] = ScrtKeyB[index];
+            index++;
+        }
+        /* Set the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* Initialize current block to the first sector trailer */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = PH_FRINFC_MFSTD_FMT_VAL_3;
+        /* Set the authenticate state */
+        if( MFC_FORMAT_DEF_KEY == FormatKeyState)
+        {
+            FormatKeyState = MFC_FORMAT_INIT;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY;
+        }
+        else
+        {
+            FormatKeyState = MFC_FORMAT_NFC_KEY;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY; /* Key Chnage for some cards */
+        }
+        /* Start authentication */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_Process
+**
+** Description      Completion Routine: This function is called by the lower layer (OVR HAL)
+**                  when an I/O operation has finished. The internal state machine decides
+**                  whether to call into the lower device again or to complete the process
+**                  by calling into the upper layer's completion routine, stored within this
+**                  component's context (phFriNfc_sNdefSmtCrdFmt_t).
+**
+** Returns          none
+**
+*******************************************************************************/
+void phFriNfc_MfStd_Process(void *Context, NFCSTATUS Status)
+{
+    phFriNfc_sNdefSmtCrdFmt_t  *NdefSmtCrdFmt = (phFriNfc_sNdefSmtCrdFmt_t *)Context;
+    /* Copy the formatting status */
+    NdefSmtCrdFmt->FmtProcStatus = Status;
+
+    if(Status == NFCSTATUS_SUCCESS)
+    {
+        switch(NdefSmtCrdFmt->State)
+        {
+        case PH_FRINFC_MFSTD_FMT_AUTH_SECT:
+            Status = phFriNfc_MfStd_H_ProAuth(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_DIS_CON:
+            Status = phFriNfc_MfStd_H_CallCon(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_CON:
+            if( MFC_FORMAT_DEF_KEY == FormatKeyState)
+            {
+                /* retry the format with other key */
+                Mfc_FormatNdef(current_key,6);
+                return;
+            }
+            Status = phFriNfc_MfStd_H_ProCon(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_RD_SECT_TR:
+            Status = phFriNfc_MfStd_H_ProRdSectTr(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_SECT_TR:
+            Status = phFriNfc_MfStd_H_ProWrSectTr(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_MAD_BLK:
+            Status = phFriNfc_MfStd_H_ProWrMADBlk(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_TLV:
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_UPD_MAD_BLK:
+            Status = phFriNfc_MfStd_H_ProUpdMADBlk(NdefSmtCrdFmt);
+            break;
+
+        default:
+            Status = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT,
+                                NFCSTATUS_INVALID_DEVICE_REQUEST);
+            break;
+        }
+    }
+    else
+    {
+        switch(NdefSmtCrdFmt->State)
+        {
+        case PH_FRINFC_MFSTD_FMT_AUTH_SECT:
+            if(MFC_FORMAT_NFC_KEY == FormatKeyState)
+            {
+                FormatKeyState = MFC_FORMAT_DEF_KEY;
+            }
+            Status = phFriNfc_MfStd_H_ProErrAuth(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_SECT_TR:
+            Status = phFriNfc_MfStd_H_ErrWrSectTr(NdefSmtCrdFmt);
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_RD_SECT_TR:
+            Status = phFriNfc_MfStd_H_ErrRdSectTr(NdefSmtCrdFmt);
+            break;
+
+        default:
+            Status = NdefSmtCrdFmt->FmtProcStatus;
+            break;
+        }
+    }
+
+    /* Status is not success then call completion routine */
+    if(Status != NFCSTATUS_PENDING)
+    {
+        phFriNfc_SmtCrdFmt_HCrHandler(NdefSmtCrdFmt, Status);
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_FillSendBuf
+**
+** Description      This function fills the send buffer for transceive function
+**
+** Returns          none
+**
+*******************************************************************************/
+static void phFriNfc_MfStd_H_FillSendBuf(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, uint16_t BlockNo)
+{
+//    void        *mem = NULL;                                                    /*commented to eliminate unused variable warning*/
+    uint8_t     MADSectTr1k[] = PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_1K, /* MAD key A,
+                                                                            Access bits and GPB of MAD sector */
+                MADSectTr2k[] = PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_2K, /* MAD key A,
+                                                                            Access bits and GPB of MAD sector */
+                MADSectTr4k[] = PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_4K, /* MAD key A,
+                                                                                    Access bits and GPB of MAD sector */
+                NFCSectTr[] = PH_FRINFC_SMTCRDFMT_NFCFORUMSECT_KEYA_ACS_BIT, /* NFC forum key A,
+                                                                             Access bits and GPB of NFC sector */
+                NDEFMsgTLV[16] = {0x03, 0x00, 0xFE, 0x00, 0x00, 0x00, /* NDEF message TLV (INITIALISED state) */
+                                  0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
+                                  0x00, 0x00, 0x00, 0x00},
+                MADBlk[16] = {0x0F, 0x00, 0x03, 0xE1, 0x03, 0xE1,
+                              0x03, 0xE1, 0x03, 0xE1,
+                              0x03, 0xE1, 0x03, 0xE1, 0x03, 0xE1};
+    /* Block number in send buffer */
+    NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_0] = (uint8_t)BlockNo;
+    /* Initialize send receive length */
+    *NdefSmtCrdFmt->SendRecvLength = PH_FRINFC_MFSTD_FMT_MAX_RECV_LENGTH;
+
+    /* Depending on the different state, fill the send buffer */
+    switch(NdefSmtCrdFmt->State)
+    {
+        case PH_FRINFC_MFSTD_FMT_AUTH_SECT:
+            /* Depending on the authentication state, fill the send buffer */
+            switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState)
+            {
+                case PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY:
+                case PH_FRINFC_MFSTD_FMT_AUTH_KEYB:
+                    /* Fill send buffer with the default key */
+                    PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_DEF(mem);
+                break;
+
+                case PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY:
+                    /* Fill send buffer with NFC forum sector key */
+                    PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_NFCSECT_KEYA(mem);
+                break;
+
+                case PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB:
+                    /* Fill send buffer with NFC forum sector key */
+                    PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_SCRT_KEY(mem);
+                    break;
+
+                case PH_FRINFC_MFSTD_FMT_AUTH_MAD_KEY:
+                default:
+                    /* Fill send buffer with MAD sector key */
+                    PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_MADSECT_KEYA(mem);
+                break;
+            }
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_RD_SECT_TR:
+            NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareRead;
+
+            /* Send length is always one for read operation */
+            NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_VAL_1;
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_SECT_TR:
+            /* Fill send buffer for writing sector trailer */
+            NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareWrite16;
+            /* Copy the relevant sector trailer value in the buffer */
+            switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock)
+            {
+            case PH_FRINFC_MFSTD_FMT_VAL_3:
+                if (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD)
+                {
+                    memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                                MADSectTr1k,
+                                sizeof(MADSectTr1k));
+                }
+                else if (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)
+                {
+                    memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                                 MADSectTr2k,
+                                 sizeof(MADSectTr2k));
+                }
+                else
+                {
+                    memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                                MADSectTr4k,
+                                sizeof(MADSectTr4k));
+                }
+                break;
+            case 67:
+                (void)memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                            MADSectTr4k,
+                            sizeof(MADSectTr4k));
+                break;
+            default:
+                (void)memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                            NFCSectTr,
+                            sizeof(NFCSectTr));
+                break;
+            }
+            memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_11],
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.ScrtKeyB,
+                sizeof(NdefSmtCrdFmt->AddInfo.MfStdInfo.ScrtKeyB));
+
+            /* Send length is always 17 for write operation */
+            NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH;
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_TLV:
+            /* Fill send buffer for writing TLV */
+            NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareWrite16;
+            /* Copy the NDEF message TLV */
+            memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                        NDEFMsgTLV, sizeof(NDEFMsgTLV));
+            /* Send length is always 17 for write operation */
+            NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH;
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_WR_MAD_BLK:
+            /* Fill send buffer for writing MAD block */
+            NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareWrite16;
+            if((BlockNo == PH_FRINFC_MFSTD_FMT_VAL_2) ||
+                (BlockNo == 65) || (BlockNo == 66))
+            {
+                /* MAD block number 2, 65 and 66 has 0x03, 0xE1 in the
+                 * first two bytes
+                 */
+                MADBlk[PH_FRINFC_MFSTD_FMT_VAL_0] = 0x03;
+                MADBlk[PH_FRINFC_MFSTD_FMT_VAL_1] = 0xE1;
+            }
+            /* Copy the MAD Block values */
+            memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                            MADBlk, sizeof(MADBlk));
+            /* Send length is always 17 for write operation */
+            NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH;
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_UPD_MAD_BLK:
+        default:
+            /* Fill send buffer for writing MAD block */
+            NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareWrite16;
+            NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH;
+            switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk)
+            {
+            case PH_FRINFC_MFSTD_FMT_MAD_BLK_1:
+                memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk,
+                            (PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH - PH_FRINFC_MFSTD_FMT_VAL_1));
+                break;
+
+            case PH_FRINFC_MFSTD_FMT_MAD_BLK_2:
+                memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                    &NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[16],
+                    (PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH - PH_FRINFC_MFSTD_FMT_VAL_1));
+                break;
+
+            case PH_FRINFC_MFSTD_FMT_MAD_BLK_64:
+                memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                    &NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[32],
+                    (PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH - PH_FRINFC_MFSTD_FMT_VAL_1));
+                break;
+
+            case PH_FRINFC_MFSTD_FMT_MAD_BLK_65:
+                memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                    &NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[48],
+                    (PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH - PH_FRINFC_MFSTD_FMT_VAL_1));
+                break;
+
+            case PH_FRINFC_MFSTD_FMT_MAD_BLK_66:
+            default:
+                memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],
+                    &NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[64],
+                    (PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH - PH_FRINFC_MFSTD_FMT_VAL_1));
+                break;
+            }
+            break;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_Transceive
+**
+** Description      This function authenticates a block or a sector from the card.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_Transceive(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /*set the completion routines for the card operations*/
+    NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.CompletionRoutine = phFriNfc_NdefSmtCrd_Process;
+    NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.Context = NdefSmtCrdFmt;
+
+    *NdefSmtCrdFmt->SendRecvLength = PH_FRINFC_SMTCRDFMT_MAX_SEND_RECV_BUF_SIZE;
+
+    /* Call the Overlapped HAL Transceive function */
+    Result = phFriNfc_ExtnsTransceive(NdefSmtCrdFmt->pTransceiveInfo,
+                          NdefSmtCrdFmt->Cmd,
+                          NdefSmtCrdFmt->SendRecvBuf,
+                          NdefSmtCrdFmt->SendLength,
+                          NdefSmtCrdFmt->SendRecvLength);
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_CallDisCon
+**
+** Description      This function calls disconnect.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_CallDisCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, NFCSTATUS Status)
+{
+    NFCSTATUS   Result = Status;
+
+    /*Set Ndef State*/
+    NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_DIS_CON;
+
+    Result = phNxNciExtns_MifareStd_Reconnect();
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_CallCon
+**
+** Description      This function calls reconnect.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_CallCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    /*Set Ndef State*/
+    NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_CON;
+
+    Result = phNxNciExtns_MifareStd_Reconnect();
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProCon
+**
+** Description      This function shall process the poll call.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProCon(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     Buffer[1] = {PH_FRINFC_MFSTD_FMT_NDEF_COMPL};
+    uint8_t     index = PH_FRINFC_MFSTD_FMT_VAL_1;
+    uint32_t    memcompare = PH_FRINFC_MFSTD_FMT_VAL_1;
+
+    phFriNfc_MfStd_H_ChangeAuthSt(NdefSmtCrdFmt);
+    if(PH_FRINFC_MFSTD_FMT_CUR_BLK_CHK)
+    {
+        PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD();
+    }
+    else
+    {
+        /* Set the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* Start authentication */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProAuth
+**
+** Description      This function shall process the authenticate call.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /* Depending on the authentication key check the  */
+    switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState)
+    {
+        case PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY:
+            if((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock ==
+                PH_FRINFC_MFSTD_FMT_VAL_3) &&
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag ==
+                PH_FRINFC_MFSTD_FMT_VAL_0))
+            {
+                /* Authenticate with default key for block 3 is successful,
+                 * so fill the MAD block of sector 0
+                 */
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                                    PH_FRINFC_MFSTD_FMT_VAL_1;
+                /* Write the MAD block */
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_MAD_BLK;
+            }
+            else if((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock == 67)
+                && (NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag ==
+                PH_FRINFC_MFSTD_FMT_VAL_0))
+            {
+                /* Authenticate with default key for block 3 is successful,
+                 * so fill the MAD block of sector 64
+                 */
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = 64;
+                /* Write the MAD block */
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_MAD_BLK;
+            }
+            else
+            {
+                /* Not a MAD sector */
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag =
+                                        PH_FRINFC_MFSTD_FMT_VAL_0;
+                /* Write the MAD block */
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_SECT_TR;
+            }
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_AUTH_KEYB:
+            if((NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_1) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_2) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_64) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_65) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_66))
+            {
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                            NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk;
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_UPD_MAD_BLK;
+            }
+            else
+            {
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk =
+                                PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK;
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_SECT_TR;
+            }
+
+        break;
+
+        case PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB:
+            if((NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_1) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_2) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_64) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_65) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_66))
+            {
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                    NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk;
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_UPD_MAD_BLK;
+            }
+            else
+            {
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk =
+                    PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK;
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_SECT_TR;
+            }
+            break;
+
+        case PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY:
+        case PH_FRINFC_MFSTD_FMT_AUTH_MAD_KEY:
+        default:
+            if((NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_66) ||
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk ==
+                PH_FRINFC_MFSTD_FMT_MAD_BLK_2))
+            {
+                /* Updating the MAD block is complete */
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk =
+                                PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK;
+                /* If Mifare 4k card, write the TLV */
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_TLV;
+            }
+            else
+            {
+                /* Depending on the sector trailer, check the access bit */
+                NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_RD_SECT_TR;
+            }
+        break;
+    }
+    /* Call read, write or authenticate */
+    Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ErrWrSectTr
+**
+** Description      This function shall process the error status of the writing sector trailer.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ErrWrSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt )
+{
+    NFCSTATUS   Result = NdefSmtCrdFmt->FmtProcStatus;
+    /* If default key A is used for authentication and if write fails, then try to
+     * authenticate using key B
+     */
+    if(NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState ==
+        PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY)
+    {
+        /* Change the state to authentication */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* internal authenticate state = key B */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = PH_FRINFC_MFSTD_FMT_AUTH_KEYB;
+        /* Now call authenticate */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    else
+    {
+        Result = phFriNfc_MfStd_H_ProWrSectTr(NdefSmtCrdFmt);
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProRdSectTr
+**
+** Description      This function shall process the read access bit call.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProRdSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     Buffer[1] = {PH_FRINFC_MFSTD_FMT_NDEF_COMPL},
+                index = PH_FRINFC_MFSTD_FMT_VAL_1,
+                SectIndex = PH_FRINFC_MFSTD_FMT_VAL_0;
+    uint32_t    memcompare = PH_FRINFC_MFSTD_FMT_VAL_1;
+
+    /* Calculate sector index */
+    SectIndex = (uint8_t)PH_FRINFC_MFSTD_FMT_SECT_INDEX_CALC;
+
+    /* Depending on the sector trailer, check the access bit */
+    memcompare = phFriNfc_MfStd_H_ChkAcsBit(NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock,
+                                            NdefSmtCrdFmt->SendRecvBuf,
+                                            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSect_AccessBits,
+                                            NdefSmtCrdFmt->AddInfo.MfStdInfo.NFCForumSect_AccessBits);
+
+    /* Check the sector for ndef compliance */
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] = (uint8_t)
+                ((memcompare != PH_FRINFC_MFSTD_FMT_VAL_0)?
+                PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL:
+                PH_FRINFC_MFSTD_FMT_NDEF_COMPL);
+
+    /* Increment the current block */
+    PH_FRINFC_MFSTD_FMT_CUR_BLK_INC();
+    SectIndex++;
+    if(PH_FRINFC_MFSTD_FMT_CUR_BLK_CHK)
+    {
+       PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD();
+    }
+    else
+    {
+        /* Set the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* Set the authenticate state */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState =
+                            PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY;
+        /* Start authentication */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProWrSectTr
+**
+** Description      This function shall process the write access bit call.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProWrSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     Buffer[1] = {PH_FRINFC_MFSTD_FMT_NDEF_COMPL},
+                index = PH_FRINFC_MFSTD_FMT_VAL_1,
+                SectIndex = PH_FRINFC_MFSTD_FMT_VAL_0;
+    uint32_t    memcompare = PH_FRINFC_MFSTD_FMT_VAL_1;
+
+    /* Calculate sector index */
+    SectIndex = (uint8_t)PH_FRINFC_MFSTD_FMT_SECT_INDEX_CALC;
+
+    /* Sector is ndef compliance */
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] = (uint8_t)
+                    ((NdefSmtCrdFmt->FmtProcStatus != NFCSTATUS_SUCCESS)?
+                        PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL:
+                        PH_FRINFC_MFSTD_FMT_NDEF_COMPL);
+
+    /* Increment the current block */
+    PH_FRINFC_MFSTD_FMT_CUR_BLK_INC();
+    SectIndex++;
+    if(PH_FRINFC_MFSTD_FMT_CUR_BLK_CHK)
+    {
+        PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD();
+    }
+    else
+    {
+        /* Set the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* Set the authenticate state */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState =
+                            PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY;
+        /* Start authentication */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ChkAcsBit
+**
+** Description      This function checks access bits of each sector trailer.
+**
+** Returns          compare value
+**
+*******************************************************************************/
+static uint32_t phFriNfc_MfStd_H_ChkAcsBit(uint16_t                 BlockNo,
+                                           const uint8_t            *RecvBuf,
+                                           const uint8_t            AcsBits1[],
+                                           const uint8_t            AcsBits2[])
+{
+    uint32_t    mem = PH_FRINFC_MFSTD_FMT_VAL_0;
+
+    /* Compare the access bits read from the sector trailer */
+    mem = (uint32_t)(((BlockNo == PH_FRINFC_MFSTD_FMT_VAL_3) ||
+                    (BlockNo == 67))?
+                    phFriNfc_MfStd_MemCompare((void*)&RecvBuf[PH_FRINFC_MFSTD_FMT_VAL_6],
+                            (void*)AcsBits1,
+                            PH_FRINFC_MFSTD_FMT_VAL_3):
+                    phFriNfc_MfStd_MemCompare((void*)&RecvBuf[PH_FRINFC_MFSTD_FMT_VAL_6],
+                            (void*)AcsBits2,
+                            PH_FRINFC_MFSTD_FMT_VAL_3));
+
+    return mem;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_WrRdAuth
+**
+** Description      This function writes sector trailer using the block number.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_WrRdAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    /* Fill send buffer and send length */
+    phFriNfc_MfStd_H_FillSendBuf(NdefSmtCrdFmt,
+                                 NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock);
+    /* Call ovrhal transceive */
+    Result = phFriNfc_MfStd_H_Transceive(NdefSmtCrdFmt);
+
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ChangeAuthSt
+**
+** Description      This function changes authentication state and change the block number if required.
+**
+** Returns          none
+**
+*******************************************************************************/
+static void phFriNfc_MfStd_H_ChangeAuthSt(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    uint8_t     SectIndex = PH_FRINFC_MFSTD_FMT_VAL_0;
+
+    if( NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState ==
+        PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB)
+    {
+        /* Calculate sector index */
+        SectIndex = (uint8_t)PH_FRINFC_MFSTD_FMT_SECT_INDEX_CALC;
+
+        /* Check the sector for ndef compliance */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] =
+                    PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL;
+
+        PH_FRINFC_MFSTD_FMT_CUR_BLK_INC();
+    }
+    PH_FRINFC_MFSTD_FMT_NXT_AUTH_STATE();
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_NdefComplSect
+**
+** Description      This function finds contiguous ndef compliant blocks.
+**
+** Returns          none
+**
+*******************************************************************************/
+ static void phFriNfc_MfStd_H_NdefComplSect(uint8_t CardTypes, uint8_t Sector[])
+{
+    uint8_t     count = PH_FRINFC_MFSTD_FMT_VAL_0,
+                NdefComplSectMax = PH_FRINFC_MFSTD_FMT_VAL_0,
+                NdefComplSectTemp = PH_FRINFC_MFSTD_FMT_VAL_1,
+                SectIndex = PH_FRINFC_MFSTD_FMT_VAL_0,
+                MaxCont = PH_FRINFC_MFSTD_FMT_VAL_0,
+                MaxSect = PH_FRINFC_MFSTD_FMT_VAL_0;
+
+    /* Get the maximum sector depending on the sector */
+    MaxSect = ((CardTypes == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD)?
+                PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K:
+                ((CardTypes == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)?
+                  PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_2K:
+                  PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K));
+    /* Sector index */
+    NdefComplSectTemp = SectIndex = PH_FRINFC_MFSTD_FMT_VAL_1;
+    /* Check the sector index depending on the card type */
+    while(((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K) &&
+        (CardTypes == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD)) ||
+        ((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K) &&
+        (CardTypes == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD))||
+        ((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_2K) &&
+        (CardTypes == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)))
+    {
+        if (Sector[SectIndex] ==
+            PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL)
+        {
+            if (MaxCont > count)
+            {
+                /* Store the maximum contiguous */
+                NdefComplSectMax = NdefComplSectTemp;
+                count = MaxCont;
+            }
+            MaxCont = PH_FRINFC_MFSTD_FMT_VAL_0;
+            /* Increment the sector index */
+            PH_FRINFC_MFSTD_FMT_INCR_SECT;
+            /* Get the next compliant sector */
+            NdefComplSectTemp = SectIndex;
+        }
+        else
+        {
+            /* Increment the sector index */
+            PH_FRINFC_MFSTD_FMT_INCR_SECT;
+        }
+        MaxCont ++;
+
+    }
+    if (MaxCont > count)
+    {
+        /* Store the maximum contiguous */
+        NdefComplSectMax = NdefComplSectTemp;
+        count = MaxCont;
+    }
+    /* Set the sector value has non ndef compliant which are not present with
+     * contiguous ndef compliant sectors
+     */
+    if((((count < (MaxSect - PH_FRINFC_MFSTD_FMT_VAL_1)) && (CardTypes
+        == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD)) ||
+        ((count < (MaxSect - PH_FRINFC_MFSTD_FMT_VAL_2)) && (CardTypes
+        == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD)) ||
+        ((count < (MaxSect - PH_FRINFC_MFSTD_FMT_VAL_2)) && (CardTypes
+        == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)))&&
+        ((NdefComplSectMax > PH_FRINFC_MFSTD_FMT_VAL_0) &&
+        (NdefComplSectMax < (MaxSect - PH_FRINFC_MFSTD_FMT_VAL_2))))
+    {
+        memset(&Sector[PH_FRINFC_MFSTD_FMT_VAL_1],
+            PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL,
+            (NdefComplSectMax - PH_FRINFC_MFSTD_FMT_VAL_1));
+
+
+        memset(&Sector[(NdefComplSectMax + count)],
+            PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL,
+            (MaxSect - (NdefComplSectMax + count)));
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProWrMADBlk
+**
+** Description      This function writes the finds MAD block values.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProWrMADBlk(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock)
+    {
+    case PH_FRINFC_MFSTD_FMT_VAL_1:
+        /* MAD blocks, still not completed */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_MAD_BLK;
+        /* MAD block number 2 */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                            PH_FRINFC_MFSTD_FMT_VAL_2;
+        break;
+
+    case PH_FRINFC_MFSTD_FMT_VAL_2:
+        /* Now write to MAD block is completed */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag =
+                                        PH_FRINFC_MFSTD_FMT_VAL_1;
+        /* Now write the sector trailer, so change the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_SECT_TR;
+        /* MAD block number 3 = Sector trailer */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                            PH_FRINFC_MFSTD_FMT_VAL_3;
+        break;
+
+    case 64:
+        /* MAD blocks, still not completed */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_MAD_BLK;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = 65;
+        break;
+
+    case 65:
+        /* MAD blocks, still not completed */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_MAD_BLK;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = 66;
+        break;
+
+    case 66:
+    default:
+        /* Now write to MAD block is completed */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.WrMADBlkFlag =
+                                        PH_FRINFC_MFSTD_FMT_VAL_1;
+        /* Now write the sector trailer, so change the state */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_WR_SECT_TR;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = 67;
+        break;
+
+    }
+    /* Write the block */
+    Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProErrAuth
+**
+** Description      This function shall process the error status of the authentication.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProErrAuth(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt )
+{
+    NFCSTATUS   Result = NdefSmtCrdFmt->FmtProcStatus;
+    uint8_t     Buffer[1] = {PH_FRINFC_MFSTD_FMT_NDEF_COMPL},
+                index = PH_FRINFC_MFSTD_FMT_VAL_1;
+    uint32_t    memcompare = PH_FRINFC_MFSTD_FMT_VAL_1;
+
+    if ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock == 67) &&
+        (NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState ==
+                    PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB))
+    {
+        /* Error in the MAD sector 16, so the remaining sector
+         * information can't be updated
+         */
+        memset(&NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[16],
+                    PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL,
+                    (PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K - 16));
+        PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD();
+    }
+    else if(((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >
+        PH_FRINFC_MFSTD_FMT_VAL_3) &&
+        (NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState !=
+        PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB)) ||
+        ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock ==
+        PH_FRINFC_MFSTD_FMT_VAL_3) &&
+        (NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState <
+        PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB)))
+    {
+        /* Authenticate failed, so disconnect, poll and connect */
+        Result = phFriNfc_MfStd_H_CallDisCon(NdefSmtCrdFmt,
+                                             Result);
+    }
+    else
+    {
+        if (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock ==
+            PH_FRINFC_MFSTD_FMT_VAL_3)
+        {
+            memset(NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl,
+                        PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL,
+                        PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K);
+        }
+    }
+
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ProUpdMADBlk
+**
+** Description      This function shall process the error status of the writing sector trailer.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ProUpdMADBlk(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk)
+    {
+    case PH_FRINFC_MFSTD_FMT_MAD_BLK_1:
+        /* Write the next MAD Block */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = (uint8_t)
+                                PH_FRINFC_MFSTD_FMT_MAD_BLK_2;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                                PH_FRINFC_MFSTD_FMT_MAD_BLK_2;
+        break;
+
+    case PH_FRINFC_MFSTD_FMT_MAD_BLK_2:
+    case PH_FRINFC_MFSTD_FMT_MAD_BLK_66:
+        if((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD) ||
+           (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock ==
+           PH_FRINFC_MFSTD_FMT_MAD_BLK_66))
+        {
+            /* Get the block from where the TLV has to be written */
+            phFriNfc_MfStd_H_BlkNoToWrTLV(NdefSmtCrdFmt);
+
+            NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState =
+                                    PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY;
+        }
+        else
+        {
+            /* Write the next MAD Block */
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = (uint8_t)
+                            PH_FRINFC_MFSTD_FMT_MAD_BLK_64;
+                NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                            PH_FRINFC_MFSTD_FMT_MAD_BLK_64;
+            NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState =
+                                PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB;
+        }
+        break;
+
+    case PH_FRINFC_MFSTD_FMT_MAD_BLK_64:
+        /* Write the next MAD Block */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = (uint8_t)
+                                PH_FRINFC_MFSTD_FMT_MAD_BLK_65;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                                PH_FRINFC_MFSTD_FMT_MAD_BLK_65;
+        break;
+
+    case PH_FRINFC_MFSTD_FMT_MAD_BLK_65:
+    default:
+        /* Write the next MAD Block */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = (uint8_t)
+                                    PH_FRINFC_MFSTD_FMT_MAD_BLK_66;
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock =
+                                    PH_FRINFC_MFSTD_FMT_MAD_BLK_66;
+        break;
+    }
+    Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_StrNdefData
+**
+** Description      This function shall store ndef compliant in the MAD array
+**                  which will be later used for updating the MAD sector.
+**
+** Returns          none
+**
+*******************************************************************************/
+static void phFriNfc_MfStd_H_StrNdefData(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt )
+{
+    uint8_t     SectIndex = PH_FRINFC_MFSTD_FMT_VAL_1,
+                index = PH_FRINFC_MFSTD_FMT_VAL_0;
+
+    memset(NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk,
+                0x00,
+                PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K);
+
+    /* Zeroth sector of the Mifare card is MAD sector, CRC is 0x14 */
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[PH_FRINFC_MFSTD_FMT_VAL_0] = 0x14;
+    /* Info byte is 0x01, because the NDEF application is written and as per the MAD spec,
+     * the value for miscellaneous application is 0x01
+     */
+    NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[PH_FRINFC_MFSTD_FMT_VAL_1] = 0x01;
+
+    if((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD) ||
+       (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD))
+    {
+        /* If 4k card then sector number 16 is MAD sector, CRC is 0xE8 */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[32] = 0xE8;
+        /* Info byte is 0x01, because the NDEF application is written and
+         * as per the MAD spec,
+         * the value for miscellaneous application is 0x01
+         */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[33] = 0x01;
+    }
+    /* NDEF information has to be updated from */
+    index = PH_FRINFC_MFSTD_FMT_VAL_2;
+    /* Depending on the card type, check the sector index */
+    while (((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K) &&
+        (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD)) ||
+        ((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K) &&
+        (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD)) ||
+        ((SectIndex < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_2K) &&
+        (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)))
+    {
+        /* Is the sector ndef compliant? */
+        if(NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] ==
+            PH_FRINFC_MFSTD_FMT_NDEF_COMPL)
+        {
+            /* Ndef compliant sector, update the MAD sector array
+             * in the context with values 0x03 and 0xE1
+             * 0x03 and 0xE1 is NDEF information in MAD sector
+             */
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[index] =
+                                        PH_FRINFC_MFSTD_FMT_NDEF_INFO1;
+            index++;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[index] =
+                                        PH_FRINFC_MFSTD_FMT_NDEF_INFO2;
+            index++;
+        }
+        else
+        {
+            /* Not a Ndef compliant sector, update the MAD sector array
+             * in the context with values 0x00 and 0x00
+             * 0x00 and 0x00 is NDEF information in MAD sector
+             */
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[index] = 0x00;
+            index++;
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSectBlk[index] = 0x00;
+            index++;
+        }
+        /* Go to next sector */
+        SectIndex++;
+        /* is the sector, a MAD sector 16? */
+        if(SectIndex == PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K)
+        {
+            /* MAD sector number 16, so skip this sector */
+            SectIndex = SectIndex + PH_FRINFC_MFSTD_FMT_VAL_1;
+            index = index + PH_FRINFC_MFSTD_FMT_VAL_2;
+        }
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_BlkNoToWrTLV
+**
+** Description      This function shall find the ndef compliant
+**                  and calculate the block number to write the NDEF TLV.
+**
+** Returns          none
+**
+*******************************************************************************/
+static void phFriNfc_MfStd_H_BlkNoToWrTLV(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt )
+{
+    uint8_t     SectIndex = (uint8_t)PH_FRINFC_MFSTD_FMT_VAL_1;
+    while (((SectIndex < (uint8_t)PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K) &&
+        (NdefSmtCrdFmt->CardType == (uint8_t)PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD)) ||
+        ((SectIndex < (uint8_t)PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K) &&
+        (NdefSmtCrdFmt->CardType == (uint8_t)PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD)) ||
+        ((SectIndex < (uint8_t)PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_2K) &&
+        (NdefSmtCrdFmt->CardType == (uint8_t)PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD)))
+    {
+        if (NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] ==
+            (uint8_t)PH_FRINFC_MFSTD_FMT_NDEF_COMPL)
+        {
+            /* Get the first NFC forum sector's block */
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = (uint16_t)
+                                          (((SectIndex & 0xE0) >= 32)?
+                                        (128 + ((SectIndex % 32) * 16)):
+                                        (SectIndex * (uint8_t)PH_FRINFC_MFSTD_FMT_VAL_4));
+            /* Break out of the loop */
+            SectIndex += (uint8_t)PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K;
+        }
+        SectIndex++;
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_H_ErrRdSectTr
+**
+** Description      This function shall process the error status of the reading sector trailer.
+**
+** Returns          NFCSTATUS_PENDING if successful
+**                  Other values if an error has occurred
+**
+*******************************************************************************/
+static NFCSTATUS phFriNfc_MfStd_H_ErrRdSectTr(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt )
+{
+    NFCSTATUS   Result = NdefSmtCrdFmt->FmtProcStatus;
+    uint8_t     Buffer[1] = {PH_FRINFC_MFSTD_FMT_NDEF_COMPL},
+                index = PH_FRINFC_MFSTD_FMT_VAL_1,
+                SectIndex = PH_FRINFC_MFSTD_FMT_VAL_0;
+    uint32_t    memcompare = PH_FRINFC_MFSTD_FMT_VAL_1;
+    /* If default key A is used for authentication and if write fails, then try to
+     * authenticate using key B
+     */
+    if(NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState ==
+        PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY)
+    {
+        /* Change the state to authentication */
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+        /* internal authenticate state = key B */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = PH_FRINFC_MFSTD_FMT_AUTH_KEYB;
+        /* Now call authenticate */
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+    }
+    else
+    {
+        /* Calculate sector index */
+        SectIndex = (uint8_t)PH_FRINFC_MFSTD_FMT_SECT_INDEX_CALC;
+
+        /* Sector is ndef compliance */
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[SectIndex] = (uint8_t)
+                            ((NdefSmtCrdFmt->FmtProcStatus != NFCSTATUS_SUCCESS)?
+                            PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL:
+                            PH_FRINFC_MFSTD_FMT_NDEF_COMPL);
+
+        /* Increment the current block */
+        PH_FRINFC_MFSTD_FMT_CUR_BLK_INC();
+        SectIndex++;
+        if(PH_FRINFC_MFSTD_FMT_CUR_BLK_CHK)
+        {
+            PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD();
+        }
+        else
+        {
+            /* Set the state */
+            NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT;
+            /* Set the authenticate state */
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState =
+                PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY;
+            /* Start authentication */
+            Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt);
+        }
+    }
+    return Result;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_MfStd_MemCompare
+**
+** Description      This function shall process memory comparison.
+**
+** Returns          0 if memory is same
+**                  Not 0 if different
+**
+*******************************************************************************/
+static int phFriNfc_MfStd_MemCompare(void *s1, void *s2, unsigned int n )
+{
+    int8_t   diff = 0;
+    int8_t *char_1  =(int8_t *)s1;
+    int8_t *char_2  =(int8_t *)s2;
+    if(NULL == s1 || NULL == s2)
+    {
+        NXPLOG_EXTNS_E("NULL pointer passed to memcompare");
+    }
+    else
+    {
+        for(;((n>0)&&(diff==0));n--,char_1++,char_2++)
+        {
+            diff = *char_1 - *char_2;
+        }
+    }
+    return (int)diff;
+}
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.h b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.h
new file mode 100755
index 0000000..ac58453
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifStdFormat.h
@@ -0,0 +1,340 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * Mifare Standard Format implementation
+ */
+
+#ifndef PHFRINFC_MIFSTDFORMAT_H
+#define PHFRINFC_MIFSTDFORMAT_H
+
+#include <phFriNfc.h>
+#include <phNfcStatus.h>
+#include <phNfcTypes.h>
+#include <phFriNfc_SmtCrdFmt.h>
+
+/********************* Definitions and structures *****************************/
+
+/*
+ * Mifare standard -progress states
+ */
+#define PH_FRINFC_MFSTD_FMT_RESET_INIT          0   /* Reset state */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SECT           1   /* Sector authentication is in progress */
+#define PH_FRINFC_MFSTD_FMT_DIS_CON             2   /* Disconnect is in progress */
+#define PH_FRINFC_MFSTD_FMT_CON                 3   /* Connect is in progress */
+#define PH_FRINFC_MFSTD_FMT_POLL                4   /* Poll is in progress */
+#define PH_FRINFC_MFSTD_FMT_RD_SECT_TR          5   /* Read sector trailer is in progress */
+#define PH_FRINFC_MFSTD_FMT_WR_SECT_TR          6   /* Write sector trailer is in progress */
+#define PH_FRINFC_MFSTD_FMT_WR_TLV              7   /* Write sector trailer is in progress */
+#define PH_FRINFC_MFSTD_FMT_WR_MAD_BLK          8   /* Write MAD is in progress */
+#define PH_FRINFC_MFSTD_FMT_UPD_MAD_BLK         9   /* Write MAD is in progress */
+
+/*
+ * Mifare standard -Authenticate states
+ */
+#define PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY        0   /* Trying to authenticate with the default key */
+#define PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY        1   /* Trying to authenticate with the MAD key */
+#define PH_FRINFC_MFSTD_FMT_AUTH_MAD_KEY        2   /* Trying to authenticate with the NFC forum key */
+#define PH_FRINFC_MFSTD_FMT_AUTH_KEYB           3   /* Trying to authenticate with key B */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB      4   /* Trying to authenticate with secret key B */
+
+/*
+ * Mifare standard - Update MAD block flag
+ */
+#define PH_FRINFC_MFSTD_FMT_NOT_A_MAD_BLK       0   /* Not a MAD block */
+#define PH_FRINFC_MFSTD_FMT_MAD_BLK_1           1   /* MAD block number 1 */
+#define PH_FRINFC_MFSTD_FMT_MAD_BLK_2           2   /* MAD block number 2 */
+#define PH_FRINFC_MFSTD_FMT_MAD_BLK_64          64  /* MAD block number 64 (only used for Mifare 4k card) */
+#define PH_FRINFC_MFSTD_FMT_MAD_BLK_65          65  /* MAD block number 65 (only used for Mifare 4k card) */
+#define PH_FRINFC_MFSTD_FMT_MAD_BLK_66          66  /* MAD block number 66 (only used for Mifare 4k card) */
+
+/*
+ * Mifare standard - Update MAD block flag
+*/
+#define  PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_1K        {0xA0,0xA1,0xA2,0xA3,0xA4,0xA5,0x78,0x77,0x88,0xC1}
+#define  PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_2K        {0xA0,0xA1,0xA2,0xA3,0xA4,0xA5,0x78,0x77,0x88,0xC1}
+#define  PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA_ACS_BIT_4K        {0xA0,0xA1,0xA2,0xA3,0xA4,0xA5,0x78,0x77,0x88,0xC2}
+#define  PH_FRINFC_SMTCRDFMT_NFCFORUMSECT_KEYA_ACS_BIT           {0xD3,0xF7,0xD3,0xF7,0xD3,0xF7,0x7F,0x07,0x88,0x40}
+
+/*
+ * Mifare standard - Key and access bit constants
+ */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_KEYA0      0xD3    /* NFC forum sector key A */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_KEYA1      0xF7    /* NFC forum sector key A */
+
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA0      0xA0    /* MAD sector key A */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA1      0xA1    /* MAD sector key A */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA2      0xA2    /* MAD sector key A */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA3      0xA3    /* MAD sector key A */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA4      0xA4    /* MAD sector key A */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_KEYA5      0xA5    /* MAD sector key A */
+
+#define PH_FRINFC_MFSTD_FMT_DEFAULT_KEY         0xFF    /* Default key A or B */
+
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_ACS6       0x78    /* MAD sector access bits 6 */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_ACS7       0x77    /* MAD sector access bits 7 */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_ACS8       0x88    /* MAD sector access bits 8 */
+#define PH_FRINFC_MFSTD_FMT_MAD_SECT_GPB        0xC1    /* MAD sector GPB */
+
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RW6    0x7F    /* NFC forum sector access bits 6 for read write */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RW7    0x07    /* NFC forum sector access bits 7 for read write */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RW8    0x88    /* NFC forum sector access bits 8 for read write */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_GPB_RW     0x40    /* NFC forum sector GPB for read write */
+
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RO6    0x07    /* NFC forum sector access bits 6 for read only */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RO7    0x8F    /* NFC forum sector access bits 7 for read only */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_ACS_RO8    0x0F    /* NFC forum sector access bits 8 for read only */
+#define PH_FRINFC_MFSTD_FMT_NFC_SECT_GPB_R0     0x43    /* NFC forum sector GPB for read only */
+
+/*
+ * Enum definition contains Mifare standard values
+ */
+typedef enum{
+PH_FRINFC_MFSTD_FMT_VAL_0,
+PH_FRINFC_MFSTD_FMT_VAL_1,
+PH_FRINFC_MFSTD_FMT_VAL_2,
+PH_FRINFC_MFSTD_FMT_VAL_3,
+PH_FRINFC_MFSTD_FMT_VAL_4,
+PH_FRINFC_MFSTD_FMT_VAL_5,
+PH_FRINFC_MFSTD_FMT_VAL_6,
+PH_FRINFC_MFSTD_FMT_VAL_7,
+PH_FRINFC_MFSTD_FMT_VAL_8,
+PH_FRINFC_MFSTD_FMT_VAL_9,
+PH_FRINFC_MFSTD_FMT_VAL_10,
+PH_FRINFC_MFSTD_FMT_VAL_11
+}phFriNfc_MfStdVal;
+
+/*
+ * Mifare standard - NDEF information constants
+ */
+#define PH_FRINFC_MFSTD_FMT_NON_NDEF_COMPL    0       /* Sector is not ndef compliant */
+#define PH_FRINFC_MFSTD_FMT_NDEF_COMPL        1       /* Sector is ndef compliant */
+#define PH_FRINFC_MFSTD_FMT_NDEF_INFO1        0x03    /* If sector is ndef compliant, then one of the MAD
+                                                        sector byte is 0x03 */
+#define PH_FRINFC_MFSTD_FMT_NDEF_INFO2        0xE1    /* If sector is ndef compliant, then one of the MAD
+                                                        sector byte is 0xE1 */
+
+/*
+ * Mifare standard - constants
+ */
+#define PH_FRINFC_MFSTD_FMT_MAX_RECV_LENGTH     252 /* Maximum receive length */
+#define PH_FRINFC_MFSTD_FMT_WR_SEND_LENGTH      17  /* Send length for write */
+#define PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K     16  /* Maximum sector index for Mifare 1k = 16 */
+#define PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_2K     32  /* Maximum sector index for Mifare 2k = 32 */
+#define PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K     40  /* Maximum sector index for Mifare 4k = 40 */
+#define PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_1K       64  /* Maximum Number of Blocks for Mifare 1k = 64 */
+#define PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_2K       128 /* Maximum Number of Blocks for Mifare 2k = 128 */
+#define PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_4K       256 /* Maximum Number of Blocks for Mifare 4k = 256*/
+
+/*
+ * Copy default keyA to send buffer
+ */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_DEF(mem)\
+do\
+{\
+    memset(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],\
+                PH_FRINFC_MFSTD_FMT_DEFAULT_KEY,\
+                PH_FRINFC_MFSTD_FMT_VAL_6);\
+    NdefSmtCrdFmt->Cmd.MfCmd = ((NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState == \
+            PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY)? \
+            phHal_eMifareAuthentA: \
+            phHal_eMifareAuthentB); \
+    NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_VAL_7; \
+}while(0)
+
+/*
+ * NFC forum sector keyA to send buffer
+ */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_NFCSECT_KEYA(mem)\
+do \
+{\
+    memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],\
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.NFCForumSect_KeyA,\
+        PH_FRINFC_MFSTD_FMT_VAL_6);\
+        NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareAuthentA;\
+        NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_VAL_7;\
+} while(0)
+
+/*
+ * Copy MAD sector keyA to send buffer
+ */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_MADSECT_KEYA(mem)\
+do \
+{\
+    memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],\
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.MADSect_KeyA,\
+        PH_FRINFC_MFSTD_FMT_VAL_6);\
+        NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareAuthentA;\
+        NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_VAL_7;\
+} while(0)
+
+/*
+ * Copy MAD sector keyB to send buffer
+ */
+#define PH_FRINFC_MFSTD_FMT_AUTH_SEND_BUF_SCRT_KEY(mem) \
+do \
+{\
+    (void)memcpy(&NdefSmtCrdFmt->SendRecvBuf[PH_FRINFC_MFSTD_FMT_VAL_1],\
+               NdefSmtCrdFmt->AddInfo.MfStdInfo.ScrtKeyB,\
+               PH_FRINFC_MFSTD_FMT_VAL_6);\
+               NdefSmtCrdFmt->Cmd.MfCmd = phHal_eMifareAuthentB;\
+               NdefSmtCrdFmt->SendLength = PH_FRINFC_MFSTD_FMT_VAL_7;\
+} while(0)
+
+/*
+ * Get the next block
+ */
+#define PH_FRINFC_MFSTD_FMT_CUR_BLK_INC() \
+                    NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock += \
+                        ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >= 127)?\
+                        16:4)
+
+/*
+ * Get the sector index
+ */
+#define PH_FRINFC_MFSTD_FMT_SECT_INDEX_CALC \
+                    ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >= 128)?\
+                    (32 + ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock - 128)/16)):\
+                    (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock/4))
+
+/*
+ * Check the sector block
+ */
+#define PH_FRINFC_MFSTD_FMT_CUR_BLK_CHK\
+                    (((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD) && \
+                    (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >= \
+                    PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_1K)) || \
+                    ((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD) && \
+                    (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >= \
+                    PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_4K)) || \
+                    ((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD) && \
+                    (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock >= \
+                    PH_FRINFC_MFSTD_FMT_MAX_BLOCKS_2K)))
+
+/*
+ * Get the next authenticate state
+ */
+#define PH_FRINFC_MFSTD_FMT_NXT_AUTH_STATE() \
+do \
+{\
+    switch(NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState)\
+    {\
+        case PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY:\
+        {\
+            NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = (uint8_t) \
+                ((((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock <= 3) || \
+                ((NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock > 63) && \
+                (NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock < 67))))? \
+                PH_FRINFC_MFSTD_FMT_AUTH_MAD_KEY: \
+                PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY);\
+        }\
+        break;\
+        case PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY:\
+        {\
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = \
+                            PH_FRINFC_MFSTD_FMT_AUTH_KEYB;\
+        }\
+        break;\
+        case PH_FRINFC_MFSTD_FMT_AUTH_MAD_KEY:\
+        {\
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = \
+                        PH_FRINFC_MFSTD_FMT_AUTH_NFC_KEY;\
+        }\
+        break;\
+        case PH_FRINFC_MFSTD_FMT_AUTH_KEYB:\
+        { \
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = \
+                        PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB;\
+        } \
+        break;\
+        case PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB:\
+        default:\
+        { \
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = \
+                        PH_FRINFC_MFSTD_FMT_AUTH_DEF_KEY;\
+        }\
+        break;\
+    }\
+} while(0)
+
+
+/*
+ * Increment the sector index
+ */
+#define PH_FRINFC_MFSTD_FMT_INCR_SECT \
+do \
+{\
+    SectIndex++;\
+    SectIndex = (uint8_t)((SectIndex == 16)?\
+                        (SectIndex + PH_FRINFC_MFSTD_FMT_VAL_1):\
+                        SectIndex);\
+} while(0)
+
+
+/*
+ * Increment the sector index
+ */
+#define PH_FRINFC_MFSTD_FMT_CHK_SECT_ARRAY \
+do \
+{\
+    while ((index < PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_4K) && \
+            (memcompare != PH_FRINFC_MFSTD_FMT_VAL_0))\
+    {\
+        /* Compare any one among the sectors is NDEF COMPLIANT */\
+        memcompare = (uint32_t)phFriNfc_MfStd_MemCompare(&Buffer[PH_FRINFC_MFSTD_FMT_VAL_0], \
+        &NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl[index],\
+        PH_FRINFC_MFSTD_FMT_VAL_1);\
+        /* increment the index */\
+        index += (uint8_t)((index == (PH_FRINFC_MFSTD_FMT_MAX_SECT_IND_1K - \
+                            PH_FRINFC_MFSTD_FMT_VAL_1))?\
+                            PH_FRINFC_MFSTD_FMT_VAL_2:\
+                            PH_FRINFC_MFSTD_FMT_VAL_1);\
+    }\
+} while(0)
+
+/*
+ * Complete the sector
+ */
+#define PH_FRINFC_MFSTD_FMT_CHK_END_OF_CARD() \
+do \
+{ \
+    phFriNfc_MfStd_H_NdefComplSect(NdefSmtCrdFmt->CardType, \
+                                NdefSmtCrdFmt->AddInfo.MfStdInfo.SectCompl); \
+    PH_FRINFC_MFSTD_FMT_CHK_SECT_ARRAY; \
+    if(memcompare == PH_FRINFC_MFSTD_FMT_VAL_0) \
+    { \
+        phFriNfc_MfStd_H_StrNdefData(NdefSmtCrdFmt); \
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.CurrentBlock = \
+                                PH_FRINFC_MFSTD_FMT_VAL_1; \
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.UpdMADBlk = \
+            PH_FRINFC_MFSTD_FMT_MAD_BLK_1; \
+        NdefSmtCrdFmt->AddInfo.MfStdInfo.AuthState = \
+            PH_FRINFC_MFSTD_FMT_AUTH_SCRT_KEYB; \
+        NdefSmtCrdFmt->State = PH_FRINFC_MFSTD_FMT_AUTH_SECT; \
+        Result = phFriNfc_MfStd_H_WrRdAuth(NdefSmtCrdFmt); \
+    } \
+    else \
+    { \
+        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT, \
+                            NFCSTATUS_FORMAT_ERROR); \
+    } \
+} while(0)
+
+void phFriNfc_MfStd_Reset(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt);
+NFCSTATUS phFriNfc_MfStd_Format(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, const uint8_t *ScrtKeyB);
+void phFriNfc_MfStd_Process(void *Context, NFCSTATUS Status);
+
+#endif /* PHFRINFC_MIFSTDFMT_H */
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.c b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.c
new file mode 100755
index 0000000..a2291fc
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.c
@@ -0,0 +1,5840 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NFC Ndef Mapping For Remote Devices.
+ *
+ */
+
+#include <phFriNfc_MifStdFormat.h>
+#include <phNfcCompId.h>
+#include <phNxpExtns_MifareStd.h>
+#include <phFriNfc_MifareStdMap.h>
+
+/**************** local methods used in this file only ************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdABlock (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_WrABlock (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_AuthSector (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd4k_H_CheckNdef (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_fillAIDarray (phFriNfc_NdefMap_t *NdefMap);
+static uint8_t phFriNfc_MifStd_H_GetSect (uint8_t BlockNumber);
+static NFCSTATUS phFriNfc_MifStd_H_BlkChk (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_RdAcsBit (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ChkAcsBit (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ChkRdWr (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_ChkNdefCmpltSects (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_RemainTLV (phFriNfc_NdefMap_t *NdefMap,
+                                         uint8_t            *Flag,
+                                         uint8_t            *Temp16Bytes);
+static NFCSTATUS phFriNfc_MifStd_H_ChkIntLen (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_IntLenWioutNdef (phFriNfc_NdefMap_t *NdefMap,
+                                            uint8_t             *Flag,
+                                            uint8_t             *TempintBytes);
+static uint8_t phFriNfc_MifStd_H_UpdateTLV (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_WriteNdefLen (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_SetNdefBlkAuth (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_RdWrReset (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_RdtoWrNdefLen (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_GetActCardLen (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ChkTLVs (phFriNfc_NdefMap_t *NdefMap,
+                                           uint8_t            *CRFlag);
+static NFCSTATUS phFriNfc_MifStd_H_GetNxtTLV (phFriNfc_NdefMap_t *NdefMap,
+                                       uint16_t             *TempLength,
+                                       uint8_t              *TL4bytesFlag);
+static NFCSTATUS phFriNfc_MifStd_H_Chk16Bytes (phFriNfc_NdefMap_t *NdefMap,
+                                       uint16_t             TempLength);
+static NFCSTATUS phFriNfc_MifStd_H_ChkRemainTLVs (phFriNfc_NdefMap_t *NdefMap,
+                                          uint8_t            *CRFlag,
+                                          uint8_t            *NDEFFlag);
+static void phFriNfc_MifStd_H_Complete (phFriNfc_NdefMap_t *NdefMap,
+                                 NFCSTATUS            Result);
+static void phFriNfc_MifStd_H_Get1kStTrail (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_Get4kStTrail (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProChkNdef (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProAuth (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_Rd16Bytes (phFriNfc_NdefMap_t *NdefMap,
+                                              uint8_t               BlockNo);
+static NFCSTATUS phFriNfc_MifStd_H_ProAcsBits (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_GPBChk (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProStatNotValid (phFriNfc_NdefMap_t *NdefMap,
+                                                   NFCSTATUS             status);
+static NFCSTATUS phFriNfc_MifStd_H_RdBeforeWr (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProBytesToWr (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_fillSendBuf (phFriNfc_NdefMap_t *NdefMap,
+                                               uint8_t                   Length);
+static NFCSTATUS phFriNfc_MifStd_H_WrTLV (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProWrTLV (phFriNfc_NdefMap_t *NdefMap);
+static uint8_t phFriNfc_MifStd_H_UpdRemTLV (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_fillTLV1 (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_fillTLV2 (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_CallWrNdefLen (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_BlkChk_1 (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_fillTLV1_1 (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd_H_fillTLV2_1 (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_RdTLV (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProRdTLV (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_WrTermTLV (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProWrABlock (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_CallConnect (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_CallDisCon (phFriNfc_NdefMap_t *NdefMap);
+static void phFriNfc_MifStd1k_H_BlkChk (phFriNfc_NdefMap_t *NdefMap,
+                                    uint8_t              SectorID,
+                                    uint8_t              *callbreak);
+static uint8_t phFriNfc_MifStd_H_GetSectorTrailerBlkNo (uint8_t SectorID);
+static NFCSTATUS phFriNfc_MifStd_H_ProSectorTrailorAcsBits (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_WrSectorTrailorBlock (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS phFriNfc_MifStd_H_ProWrSectorTrailor (phFriNfc_NdefMap_t *NdefMap);
+static NFCSTATUS   phFriNfc_MapTool_ChkSpcVer (const phFriNfc_NdefMap_t *NdefMap,
+                                        uint8_t             VersionIndex) __attribute__((unused));
+
+/* Mifare Standard Mapping - Constants */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT1        0xA0 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT2        0xA1 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT3        0xA2 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT4        0xA3 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT5        0xA4 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT6        0xA5 /* internal Authenticate Command for MAD Sector */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1       0xD3 /* internal Authenticate Command for NDEF Sectors 1 */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2       0xF7 /* internal Authenticate Command for NDEF Sectors 2 */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_NDEF_COMPVAL2        0x03 /* internal Ndef Compliant command 1 */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_NDEF_COMPVAL1        0xE1 /* internal Ndef Compliant command 2 */
+
+/* Enable access bits check for the MAD sector
+#define ENABLE_ACS_BIT_CHK_FOR_MAD */
+
+#define PH_FRINFC_NDEFMAP_MFUL_VAL0 0
+
+/******************************************************************************
+ * Function         phFriNfc_MapTool_SetCardState
+ *
+ * Description      This function sets the appropriate card state.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFriNfc_MapTool_SetCardState (phFriNfc_NdefMap_t *NdefMap,
+                                         uint32_t           Length)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    if (Length == PH_FRINFC_NDEFMAP_MFUL_VAL0)
+    {
+        /* As the NDEF LEN / TLV Len is Zero, irrespective of any state the card
+           shall be set to INITIALIZED STATE*/
+        NdefMap->CardState =(uint8_t) (((NdefMap->CardState ==
+                                PH_NDEFMAP_CARD_STATE_READ_ONLY) ||
+                                (NdefMap->CardState ==
+                                PH_NDEFMAP_CARD_STATE_INVALID))?
+                                PH_NDEFMAP_CARD_STATE_INVALID:
+                                PH_NDEFMAP_CARD_STATE_INITIALIZED);
+    }
+    else
+    {
+        switch (NdefMap->CardState)
+        {
+            case PH_NDEFMAP_CARD_STATE_INITIALIZED:
+                NdefMap->CardState =(uint8_t) ((NdefMap->CardState ==
+                    PH_NDEFMAP_CARD_STATE_INVALID)?
+                    NdefMap->CardState:
+                    PH_NDEFMAP_CARD_STATE_READ_WRITE);
+            break;
+
+            case PH_NDEFMAP_CARD_STATE_READ_ONLY:
+                NdefMap->CardState = (uint8_t) ((NdefMap->CardState ==
+                    PH_NDEFMAP_CARD_STATE_INVALID)?
+                    NdefMap->CardState:
+                    PH_NDEFMAP_CARD_STATE_READ_ONLY);
+            break;
+
+            case PH_NDEFMAP_CARD_STATE_READ_WRITE:
+                NdefMap->CardState = (uint8_t) ((NdefMap->CardState ==
+                    PH_NDEFMAP_CARD_STATE_INVALID)?
+                    NdefMap->CardState:
+                    PH_NDEFMAP_CARD_STATE_READ_WRITE);
+                    if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD ||
+                        NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD ||
+                        NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD)
+                    {
+                        if(NdefMap->StdMifareContainer.ReadOnlySectorIndex &&
+                           NdefMap->StdMifareContainer.SectorTrailerBlockNo == NdefMap->StdMifareContainer.currentBlock )
+                        {
+                            NdefMap->CardState = (uint8_t) ((NdefMap->CardState ==
+                                                            PH_NDEFMAP_CARD_STATE_INVALID)?
+                                                            NdefMap->CardState:
+                                                            PH_NDEFMAP_CARD_STATE_READ_ONLY);
+                        }
+                    }
+            break;
+
+            default:
+                NdefMap->CardState = PH_NDEFMAP_CARD_STATE_INVALID;
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_NO_NDEF_SUPPORT);
+            break;
+        }
+    }
+    Result = ((NdefMap->CardState ==
+                PH_NDEFMAP_CARD_STATE_INVALID)?
+                PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                NFCSTATUS_NO_NDEF_SUPPORT):
+                Result);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_H_Reset
+ *
+ * Description      This function resets the component instance to the initial
+ *                  state and lets the component forget about the list of
+ *                  registered items. Moreover, the lower device is set.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFriNfc_MifareStdMap_H_Reset (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   status = NFCSTATUS_SUCCESS;
+    uint8_t     index = PH_FRINFC_MIFARESTD_VAL0;
+
+    if (NdefMap == NULL)
+    {
+        status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        /* Current Block stores the present block accessed in the card */
+        NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_VAL0;
+
+        for (index = PH_FRINFC_MIFARESTD_VAL0; index < PH_FRINFC_NDEFMAP_MIFARESTD_ST15_BYTES; index++)
+        {
+            /* internal buffer to store the odd bytes of length < 15 */
+            NdefMap->StdMifareContainer.internalBuf[index] = PH_FRINFC_MIFARESTD_VAL0;
+        }
+
+        for (index = 0; index < PH_FRINFC_NDEFMAP_MIFARESTD_TOTALNO_BLK; index++)
+        {
+            /* aid buffer reset to non ndef compliant */
+            NdefMap->StdMifareContainer.aid[index] = PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+        }
+
+        /* odd bytes length stored in the internal buffer */
+        NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->CardState = PH_NDEFMAP_CARD_STATE_INITIALIZED;
+
+        /* Flag to get that last few bytes are taken from the user buffer */
+        NdefMap->StdMifareContainer.RemainingBufFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        /* Flag to find that the read/write operation has reached the end of the card.
+            Further reading/writing is not possible */
+        NdefMap->StdMifareContainer.ReadWriteCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        /* Flag to get that last few bytes are taken from the internal buffer */
+        NdefMap->StdMifareContainer.internalBufFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        /* Authentication Flag for every sector */
+        NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+
+        /* Used in Check Ndef for storing the sector ID */
+        NdefMap->StdMifareContainer.SectorIndex = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->StdMifareContainer.NdefBlocks = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->StdMifareContainer.NoOfNdefCompBlocks = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->StdMifareContainer.ReadAcsBitFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.remSizeUpdFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->TLVStruct.NoLbytesinTLV = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->TLVStruct.prevLenByteValue = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->TLVStruct.NdefTLVBlock = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->StdMifareContainer.remainingSize = PH_FRINFC_MIFARESTD_VAL0;
+
+        NdefMap->StdMifareContainer.ReadNdefFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.WrNdefFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.ChkNdefFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.aidCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.ProprforumSectFlag = PH_FRINFC_MIFARESTD_PROP_1ST_CONFIG;
+
+        NdefMap->StdMifareContainer.ReadCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.FirstReadFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.WrLength = PH_FRINFC_MIFARESTD_VAL1;
+
+        NdefMap->StdMifareContainer.ChkNdefCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.ReadOnlySectorIndex = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.TotalNoSectors = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->StdMifareContainer.SectorTrailerBlockNo = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_ChkNdef
+ *
+ * Description      The function checks whether the peer device is NDEF compliant.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFriNfc_MifareStdMap_ChkNdef ( phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+    uint8_t atq, sak;
+
+    if (NdefMap == NULL)
+    {
+        status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_CHECK_OPE;
+        NdefMap->StdMifareContainer.CRIndex = PH_FRINFC_NDEFMAP_CR_CHK_NDEF;
+
+        /* Get the Select Response and Sense Response to get
+            the exact Card Type either Mifare 1k or 4k */
+        sak = NdefMap->psRemoteDevInfo->RemoteDevInfo.Iso14443A_Info.Sak;
+        atq = NdefMap->psRemoteDevInfo->RemoteDevInfo.Iso14443A_Info.AtqA[0];
+
+        if (0x08 == (sak & 0x18))
+        {
+            /* Total Number of Blocks in Mifare 1k Card */
+            NdefMap->StdMifareContainer.NoOfNdefCompBlocks =
+                                        PH_FRINFC_NDEFMAP_MIFARESTD_1KNDEF_COMPBLOCK;
+            NdefMap->StdMifareContainer.remainingSize =
+                                                ((NdefMap->CardType == PH_FRINFC_MIFARESTD_VAL0) ?
+                                                (PH_FRINFC_NDEFMAP_MIFARESTD_1KNDEF_COMPBLOCK *
+                                                PH_FRINFC_MIFARESTD_BLOCK_BYTES) :
+                                                NdefMap->StdMifareContainer.remainingSize);
+            NdefMap->CardType = PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD;
+        }
+        else if (0x19 == (sak & 0x19))
+        {
+            /* Total Number of Blocks in Mifare 2k Card */
+            NdefMap->StdMifareContainer.NoOfNdefCompBlocks =
+                                        PH_FRINFC_NDEFMAP_MIFARESTD_2KNDEF_COMPBLOCK;
+            NdefMap->StdMifareContainer.remainingSize =
+                                            ((NdefMap->CardType == PH_FRINFC_MIFARESTD_VAL0) ?
+                                            (PH_FRINFC_NDEFMAP_MIFARESTD_2KNDEF_COMPBLOCK *
+                                            PH_FRINFC_MIFARESTD_BLOCK_BYTES) :
+                                            NdefMap->StdMifareContainer.remainingSize);
+            NdefMap->CardType = PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD;
+        }
+        else
+        {
+             /* Total Number of Blocks in Mifare 4k Card */
+            NdefMap->StdMifareContainer.NoOfNdefCompBlocks =
+                                        PH_FRINFC_NDEFMAP_MIFARESTD_4KNDEF_COMPBLOCK;
+            NdefMap->StdMifareContainer.remainingSize =
+                                            ((NdefMap->CardType == PH_FRINFC_MIFARESTD_VAL0) ?
+                                            (PH_FRINFC_NDEFMAP_MIFARESTD_4KNDEF_COMPBLOCK *
+                                            PH_FRINFC_MIFARESTD_BLOCK_BYTES) :
+                                            NdefMap->StdMifareContainer.remainingSize);
+            NdefMap->CardType = PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD;
+        }
+
+
+        /*  phFriNfc_MifareStdMap_ChkNdef should be called only
+            when currentBlock is 0 OR 64,65 and 66 (for Mifare 4k).
+            Otherwise return error */
+        /* and also Check the Authentication Flag */
+        if ((NdefMap->StdMifareContainer.currentBlock != 0) &&
+            (NdefMap->StdMifareContainer.currentBlock != 1) &&
+            (NdefMap->StdMifareContainer.currentBlock != 2) &&
+            (NdefMap->StdMifareContainer.currentBlock != 64) &&
+            (NdefMap->StdMifareContainer.currentBlock != 65) &&
+            (NdefMap->StdMifareContainer.currentBlock != 66))
+        {
+            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+        }
+        else if ( NdefMap->StdMifareContainer.AuthDone == 0)
+        {
+            /*  Block 0 contains Manufacturer information and
+                also other informaton. So go for block 1 which
+                contains AIDs. Authenticating any of the block
+                in a sector, Authenticates the whole sector */
+            if (NdefMap->StdMifareContainer.currentBlock == 0)
+            {
+                NdefMap->StdMifareContainer.currentBlock = 1;
+            }
+            status = phFriNfc_MifStd_H_AuthSector (NdefMap);
+        }
+        else
+        {
+            /**
+             * Mifare 1k, sak = 0x08 atq = 0x04
+             * Mifare 2k, sak = 0x19 atq = 0x02
+             * Mifare 4k, sak = 0x18 atq = 0x02
+             */
+            if ((NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD) ||
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD) ||
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD))
+            {
+                /* Change the state to Check Ndef Compliant */
+                NdefMap->State = PH_FRINFC_NDEFMAP_STATE_CHK_NDEF_COMP;
+                NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_CHECK_OPE;
+                NdefMap->StdMifareContainer.ChkNdefFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+                NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+                NdefMap->MapCompletionInfo.Context = NdefMap;
+
+                NdefMap->Cmd.MfCmd = phHal_eMifareRead;
+                *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+                NdefMap->SendRecvBuf [0] = NdefMap->StdMifareContainer.currentBlock;
+                NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_READ;
+
+                /* Call the Overlapped HAL Transceive function */
+                status = phFriNfc_ExtnsTransceive (NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+            }
+            else
+            {
+                /* Since we have decided temporarily not to go
+                    for any new error codes we are using
+                    NFCSTATUS_INVALID_PARAMETER even though it is not
+                    the relevant error code here TBD */
+                status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+            }
+        }
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_RdNdef
+ *
+ * Description      The function initiates the reading of NDEF information from
+ *                  a Remote Device. It performs a reset of the state and starts
+ *                  the action (state machine). A periodic call of the
+ *                  phFriNfcNdefMap_Process has to be done once the action
+ *                  has been triggered.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFriNfc_MifareStdMap_RdNdef (phFriNfc_NdefMap_t *NdefMap,
+                                        uint8_t            *PacketData,
+                                        uint32_t           *PacketDataLength,
+                                        uint8_t            Offset)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+
+    NdefMap->ApduBufferSize = *PacketDataLength;
+    NdefMap->NumOfBytesRead = PacketDataLength;
+    *NdefMap->NumOfBytesRead = 0;
+    NdefMap->ApduBuffIndex = 0;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_READ_OPE;
+    NdefMap->StdMifareContainer.CRIndex = PH_FRINFC_NDEFMAP_CR_RD_NDEF;
+
+    if ((NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INVALID)
+        || (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INITIALIZED))
+    {
+        /* Card state  is not correct */
+        status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        if ((Offset == PH_FRINFC_NDEFMAP_SEEK_BEGIN) || ( NdefMap->PrevOperation ==
+            PH_FRINFC_NDEFMAP_WRITE_OPE))
+        {
+            phFriNfc_MifStd_H_RdWrReset (NdefMap);
+            NdefMap->StdMifareContainer.ReadNdefFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        }
+        /* Offset = Current, but the read has reached the End of Card */
+        if ((Offset == PH_FRINFC_NDEFMAP_SEEK_CUR) &&
+            (NdefMap->StdMifareContainer.ReadWriteCompleteFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1))
+        {
+            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_EOF_NDEF_CONTAINER_REACHED);
+        }
+        else
+        {
+            NdefMap->Offset = (((Offset != PH_FRINFC_NDEFMAP_SEEK_BEGIN) &&
+                                (NdefMap->PrevOperation ==
+                                PH_FRINFC_NDEFMAP_WRITE_OPE)) ?
+                                PH_FRINFC_NDEFMAP_SEEK_BEGIN :
+                                Offset);
+            status = phFriNfc_MifStd_H_BlkChk (NdefMap);
+            if (status == NFCSTATUS_SUCCESS)
+            {
+                NdefMap->ApduBuffer = PacketData;
+
+                /* Read Operation in Progress */
+                NdefMap->StdMifareContainer.ReadWriteCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+                /* Check Authentication Flag */
+                status =
+                    ((NdefMap->StdMifareContainer.AuthDone == PH_FRINFC_MIFARESTD_FLAG1) ?
+                    phFriNfc_MifStd_H_RdABlock(NdefMap) :
+                    phFriNfc_MifStd_H_AuthSector(NdefMap));
+            }
+        }
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_WrNdef
+ *
+ * Description      The function initiates the writing of NDEF information to
+ *                  a Remote Device. It performs a reset of the state and starts
+ *                  the action (state machine). A periodic call of the
+ *                  phFriNfcNdefMap_Process has to be done once the action
+ *                  has been triggered.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFriNfc_MifareStdMap_WrNdef (phFriNfc_NdefMap_t    *NdefMap,
+                                        uint8_t               *PacketData,
+                                        uint32_t              *PacketDataLength,
+                                        uint8_t               Offset)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+
+    NdefMap->ApduBuffer = PacketData;
+    NdefMap->ApduBufferSize = *PacketDataLength;
+    NdefMap->ApduBuffIndex = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->WrNdefPacketLength = PacketDataLength;
+    *NdefMap->WrNdefPacketLength = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_WRITE_OPE;
+    NdefMap->StdMifareContainer.CRIndex = PH_FRINFC_NDEFMAP_CR_WR_NDEF;
+
+    if ((NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INVALID)
+        || (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_READ_ONLY))
+    {
+        /* Card state  is not correct */
+        status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        if ((Offset == PH_FRINFC_NDEFMAP_SEEK_BEGIN) ||
+            (NdefMap->PrevOperation == PH_FRINFC_NDEFMAP_READ_OPE))
+        {
+            NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.RdBeforeWrFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->StdMifareContainer.WrNdefFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->TLVStruct.NdefTLVAuthFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.FirstReadFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.remainingSize =
+                        (NdefMap->StdMifareContainer.NoOfNdefCompBlocks *
+                        PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+            NdefMap->StdMifareContainer.currentBlock =
+                                            PH_FRINFC_MIFARESTD_BLK4;
+            NdefMap->StdMifareContainer.NdefBlocks = PH_FRINFC_MIFARESTD_VAL1;
+            NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            /* This macro is added, to be compliant with the previous HAL 2.0
+                For HAL 2.0, polling is done before writing data to the mifare
+                std (if the offset is BEGIN), because if an error is reported
+                during read or write and again write is called, the PN531 state is
+                unchanged (so write will fail), to bring the PN531 to the correct
+                state, polling is done.
+                Changed on 13th Jan 2009
+            */
+            NdefMap->StdMifareContainer.PollFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.WrLength = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->StdMifareContainer.FirstWriteFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        }
+
+        if (((Offset == PH_FRINFC_NDEFMAP_SEEK_CUR) &&
+            (NdefMap->StdMifareContainer.ReadWriteCompleteFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)) || ((NdefMap->StdMifareContainer.PollFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1) && (Offset == PH_FRINFC_NDEFMAP_SEEK_CUR)))
+        {
+            /* Offset = Current, but the read has reached the End of Card */
+            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_EOF_NDEF_CONTAINER_REACHED);
+        }
+        else
+        {
+            NdefMap->Offset = (((Offset != PH_FRINFC_NDEFMAP_SEEK_BEGIN) &&
+                            (NdefMap->PrevOperation ==
+                            PH_FRINFC_NDEFMAP_READ_OPE)) ?
+                            PH_FRINFC_NDEFMAP_SEEK_BEGIN :
+                            Offset);
+            NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+            status = phFriNfc_MifStd_H_BlkChk (NdefMap);
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            if (status == NFCSTATUS_SUCCESS)
+            {
+                if (NdefMap->StdMifareContainer.PollFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    /* if poll flag is set then call disconnect because the authentication
+                        has failed so reactivation of card is required */
+                    status = phFriNfc_MifStd_H_CallDisCon (NdefMap);
+                }
+                /* Check Authentication Flag */
+                else if (NdefMap->StdMifareContainer.AuthDone == PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    status =  ((NdefMap->Offset ==
+                                PH_FRINFC_NDEFMAP_SEEK_BEGIN) ?
+                                phFriNfc_MifStd_H_RdBeforeWr (NdefMap) :
+                                phFriNfc_MifStd_H_WrABlock (NdefMap));
+                }
+                else
+                {
+                    status = phFriNfc_MifStd_H_AuthSector (NdefMap);
+                }
+            }
+        }
+    }
+
+    return status;
+}
+
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_Process
+ *
+ * Description      This function is a Completion Routine, Processing function,
+ *                  needed to avoid long blocking.
+ *                  This function as a Completion Routine in order to be able
+ *                  to notify the component that an I/O has finished and data
+ *                  are ready to be processed.
+
+ * Returns          void
+ *
+ ******************************************************************************/
+void phFriNfc_MifareStdMap_Process (void       *Context,
+                                    NFCSTATUS   Status)
+{
+    phFriNfc_NdefMap_t      *NdefMap;
+    uint8_t                 NDEFFlag = 0,
+                            CRFlag = 0,
+                            Temp16Bytes = 0,
+                            i = 0;
+
+    NdefMap = (phFriNfc_NdefMap_t *)Context;
+
+    if ((Status & PHNFCSTBLOWER) == (NFCSTATUS_SUCCESS & PHNFCSTBLOWER))
+    {
+        switch (NdefMap->State)
+        {
+            case PH_FRINFC_NDEFMAP_STATE_CHK_NDEF_COMP:
+                Status = phFriNfc_MifStd_H_ProChkNdef (NdefMap);
+                CRFlag = (uint8_t)((Status != NFCSTATUS_PENDING) ?
+                            PH_FRINFC_MIFARESTD_FLAG1 :
+                            PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_READ:
+                /* Receive Length for read shall always be equal to 16 */
+                if ((*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ) &&
+                    (NdefMap->ApduBuffIndex < (uint16_t) NdefMap->ApduBufferSize))
+                {
+                    Temp16Bytes = PH_FRINFC_MIFARESTD_VAL0;
+                    NDEFFlag = (uint8_t) PH_FRINFC_MIFARESTD_FLAG1;
+                    if (NdefMap->TLVStruct.BytesRemainLinTLV != 0)
+                    {
+                        NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                        CRFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                        /* To read the remaining length (L) in TLV */
+                        Status = phFriNfc_MifStd_H_RemainTLV (NdefMap, &NDEFFlag, &Temp16Bytes);
+                        CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                             PH_FRINFC_MIFARESTD_FLAG1 :
+                                             PH_FRINFC_MIFARESTD_FLAG0);
+                    }
+
+                    /* check the NDEFFlag is set. if this is not set, then
+                        in the above RemainTLV function all the 16 bytes has been
+                        read */
+                }
+                else
+                {
+                    Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_RECEIVE_LENGTH);
+                    CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_WRITE:
+                Status = phFriNfc_MifStd_H_ProWrABlock (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                     PH_FRINFC_MIFARESTD_FLAG1 :
+                                     PH_FRINFC_MIFARESTD_FLAG0);
+
+                /* Call Completion Routine if CR Flag is Set to 1 */
+                if (CRFlag == PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    *NdefMap->WrNdefPacketLength = NdefMap->ApduBuffIndex;
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_AUTH:
+                NdefMap->StdMifareContainer.FirstReadFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                Status = phFriNfc_MifStd_H_ProAuth (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                     PH_FRINFC_MIFARESTD_FLAG1 :
+                                     PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_RD_ACS_BIT:
+                Status = phFriNfc_MifStd_H_ProAcsBits (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                     PH_FRINFC_MIFARESTD_FLAG1 :
+                                     PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_WR_NDEF_LEN:
+                if (NdefMap->StdMifareContainer.RdAfterWrFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    Status = phFriNfc_MifStd_H_CallWrNdefLen (NdefMap);
+                    CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                PH_FRINFC_MIFARESTD_FLAG1 :
+                                PH_FRINFC_MIFARESTD_FLAG0);
+                }
+                else
+                {
+                    /* Check this */
+                    if (NdefMap->StdMifareContainer.TempBlockNo ==
+                        NdefMap->StdMifareContainer.currentBlock)
+                    {
+                        memcpy (NdefMap->StdMifareContainer.internalBuf,
+                                NdefMap->StdMifareContainer.Buffer,
+                                NdefMap->StdMifareContainer.internalLength);
+
+                    }
+                    *NdefMap->WrNdefPacketLength = NdefMap->ApduBuffIndex;
+                    NdefMap->StdMifareContainer.currentBlock =
+                                    NdefMap->StdMifareContainer.TempBlockNo;
+                    NdefMap->CardState = (uint8_t) ((NdefMap->CardState ==
+                                        PH_NDEFMAP_CARD_STATE_INITIALIZED) ?
+                                        PH_NDEFMAP_CARD_STATE_READ_WRITE :
+                                        NdefMap->CardState);
+                    CRFlag = (uint8_t) PH_FRINFC_MIFARESTD_FLAG1;
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_RD_TO_WR_NDEF_LEN:
+                CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_DEVICE_REQUEST);
+                if (*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+                {
+                    /* Size of NdefMap->SendRecvBuf is set by phLibNfc_Gen_NdefMapReset to PH_LIBNFC_GEN_MAX_BUFFER */
+                    /* We don't have to check memory here */
+                    for (i = PH_FRINFC_MIFARESTD_BYTES_READ; i > 0; i--)
+                    {
+                        NdefMap->SendRecvBuf [i] = NdefMap->SendRecvBuf [i-1];
+                    }
+                    NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_VAL0] =
+                                NdefMap->StdMifareContainer.currentBlock;
+                    Status = phFriNfc_MifStd_H_WriteNdefLen (NdefMap);
+                    CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                PH_FRINFC_MIFARESTD_FLAG1 :
+                                PH_FRINFC_MIFARESTD_FLAG0);
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_GET_ACT_CARDSIZE:
+                NDEFFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                if (NdefMap->TLVStruct.NoLbytesinTLV > PH_FRINFC_MIFARESTD_VAL0)
+                {
+                    NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    Status = phFriNfc_MifStd_H_ChkRemainTLVs (NdefMap, &CRFlag, &NDEFFlag);
+                    NdefMap->TLVStruct.NoLbytesinTLV =
+                                    PH_FRINFC_MIFARESTD_VAL0;
+                }
+                if ((NDEFFlag == PH_FRINFC_MIFARESTD_FLAG1) &&
+                    (CRFlag != PH_FRINFC_MIFARESTD_FLAG1))
+                {
+                    Status = phFriNfc_MifStd_H_ChkTLVs (NdefMap, &CRFlag);
+                }
+                if (((NdefMap->StdMifareContainer.ReadNdefFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1) ||
+                    (NdefMap->StdMifareContainer.WrNdefFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)) &&
+                    (Status != NFCSTATUS_PENDING))
+                {
+                    NdefMap->StdMifareContainer.NFCforumSectFlag =
+                                            PH_FRINFC_MIFARESTD_FLAG1;
+                    CRFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    /* if the card state has changed to initialised and
+                     read ndef is called then error is returned */
+                    if (((NdefMap->StdMifareContainer.WrNdefFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1) &&
+                        (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_READ_ONLY)) ||
+                        ((NdefMap->StdMifareContainer.ReadNdefFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1) &&
+                        (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INITIALIZED)))
+                    {
+                        Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                            NFCSTATUS_NO_NDEF_SUPPORT);
+                    }
+                    if (NdefMap->StdMifareContainer.AuthDone ==
+                        PH_FRINFC_MIFARESTD_FLAG0)
+                    {
+                        Status = phFriNfc_MifStd_H_AuthSector (NdefMap);
+                    }
+                    else
+                    {
+                        Status = ((NdefMap->StdMifareContainer.ReadNdefFlag ==
+                                    PH_FRINFC_MIFARESTD_FLAG1) ?
+                                    phFriNfc_MifStd_H_RdTLV (NdefMap) :
+                                    phFriNfc_MifStd_H_RdBeforeWr (NdefMap));
+                    }
+                    NdefMap->StdMifareContainer.ReadNdefFlag =
+                                            PH_FRINFC_MIFARESTD_FLAG0;
+                    NdefMap->StdMifareContainer.WrNdefFlag =
+                                            PH_FRINFC_MIFARESTD_FLAG0;
+                }
+
+                if (NdefMap->StdMifareContainer.ChkNdefFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                            PH_FRINFC_MIFARESTD_FLAG1 :
+                            PH_FRINFC_MIFARESTD_FLAG0);
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_RD_BEF_WR:
+                /* Read flag says that already part of TLV has been written */
+                Status = phFriNfc_MifStd_H_ProBytesToWr (NdefMap);
+                 CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_WR_TLV:
+                Status = phFriNfc_MifStd_H_ProWrTLV (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_RD_TLV:
+                Status = phFriNfc_MifStd_H_ProRdTLV (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_TERM_TLV:
+                phFriNfc_MifStd_H_SetNdefBlkAuth(NdefMap);
+                NdefMap->StdMifareContainer.currentBlock =
+                                NdefMap->TLVStruct.NdefTLVBlock;
+                Status = phFriNfc_MifStd_H_RdtoWrNdefLen (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_DISCONNECT:
+                NdefMap->StdMifareContainer.PollFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+                Status = phFriNfc_MifStd_H_CallConnect (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_CONNECT:
+                if (NdefMap->StdMifareContainer.FirstReadFlag == PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    NdefMap->StdMifareContainer.FirstReadFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    Status = phFriNfc_MifStd_H_AuthSector (NdefMap);
+                }
+                else if ((NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD ||
+                          NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+                          NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD) &&
+                         (NdefMap->StdMifareContainer.ReadOnlySectorIndex &&
+                          NdefMap->StdMifareContainer.SectorTrailerBlockNo ==  NdefMap->StdMifareContainer.currentBlock))
+                {
+                    NdefMap->StdMifareContainer.ReadOnlySectorIndex =
+                        PH_FRINFC_MIFARESTD_FLAG0;
+                    NdefMap->StdMifareContainer.SectorTrailerBlockNo =
+                        PH_FRINFC_MIFARESTD_FLAG0;
+                    NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_FLAG0;
+                    Status = NFCSTATUS_FAILED;
+                }
+                else
+                {
+                    Status = ((((NdefMap->Offset == PH_FRINFC_NDEFMAP_SEEK_CUR) &&
+                        (NdefMap->PrevOperation == PH_FRINFC_NDEFMAP_WRITE_OPE)) ||
+                        (NdefMap->StdMifareContainer.WrLength >
+                        PH_FRINFC_MIFARESTD_VAL0)) ?
+                        phFriNfc_MifStd_H_ProStatNotValid (NdefMap, Status) :
+                        phFriNfc_MifStd_H_AuthSector (NdefMap));
+                }
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_RD_SEC_ACS_BIT:
+                Status = phFriNfc_MifStd_H_ProSectorTrailorAcsBits (NdefMap);
+                CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING)?
+                                    PH_FRINFC_MIFARESTD_FLAG1 :
+                                    PH_FRINFC_MIFARESTD_FLAG0);
+                if ((CRFlag == PH_FRINFC_MIFARESTD_FLAG1) &&
+                    (NdefMap->StdMifareContainer.WriteAcsBitFlag == PH_FRINFC_MIFARESTD_FLAG0))
+                {
+                    Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_DEVICE_REQUEST);
+                }
+                break;
+
+            case PH_FRINFC_NDEFMAP_STATE_WRITE_SEC:
+                /* Set flag for writing of Acs bit */
+                NdefMap->StdMifareContainer.WriteAcsBitFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+                /* The first NDEF sector is already made read only,
+                   set card state to read only and proceed*/
+                if (NdefMap->CardState != PH_NDEFMAP_CARD_STATE_READ_ONLY)
+                {
+                    Status = phFriNfc_MapTool_SetCardState (NdefMap, NdefMap->TLVStruct.BytesRemainLinTLV);
+                    if (Status != NFCSTATUS_SUCCESS)
+                    {
+                        CRFlag = (uint8_t) PH_FRINFC_MIFARESTD_FLAG1;
+                    }
+                }
+
+                if (CRFlag != PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    Status = phFriNfc_MifStd_H_ProWrSectorTrailor (NdefMap);
+                    CRFlag = (uint8_t) ((Status != NFCSTATUS_PENDING) ?
+                                       PH_FRINFC_MIFARESTD_FLAG1 :
+                                       PH_FRINFC_MIFARESTD_FLAG0);
+                }
+                break;
+
+            default:
+                Status = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_DEVICE_REQUEST);
+                CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                break;
+        }
+    }
+    else if (NdefMap->State == PH_FRINFC_NDEFMAP_STATE_AUTH)
+    {
+        NdefMap->StdMifareContainer.PollFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        if(NdefMap->StdMifareContainer.FirstWriteFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)
+        {
+            NdefMap->StdMifareContainer.FirstWriteFlag =
+                                            PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.WrLength =
+                ((NdefMap->StdMifareContainer.NFCforumSectFlag ==
+                PH_FRINFC_MIFARESTD_FLAG0) ?
+                PH_FRINFC_MIFARESTD_VAL1 :
+                NdefMap->StdMifareContainer.WrLength);
+        }
+        if (NdefMap->StdMifareContainer.WrLength == PH_FRINFC_MIFARESTD_VAL0)
+        {
+            Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_EOF_NDEF_CONTAINER_REACHED);
+            CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        }
+        else
+        {
+            /* Authentication has failed */
+            CRFlag = PH_FRINFC_MIFARESTD_FLAG1; /* Call Completion Routine */
+            Status = NFCSTATUS_FAILED;/* Update Status Flag */
+        }
+    }
+    else
+    {
+        Status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_DEVICE_REQUEST);
+        CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+    }
+     /* Call Completion Routine if CR Flag is Set to 1 */
+    if (CRFlag == PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        phFriNfc_MifStd_H_Complete (NdefMap, Status);
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdABlock
+ *
+ * Description      This function is a Helper function for Mifare Std. It Reads
+ *                  a block from the card.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdABlock (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_READ;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_READ_OPE;
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+
+    if (NdefMap->ApduBuffIndex < (uint16_t) NdefMap->ApduBufferSize)
+    {
+
+        if (NdefMap->StdMifareContainer.internalLength > PH_FRINFC_MIFARESTD_VAL0)
+        {
+            status = phFriNfc_MifStd_H_ChkIntLen (NdefMap);
+        } /* internal Length Check */
+        else
+        {
+            NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_VAL0] =
+                        NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_READ;
+            *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+
+            NdefMap->Cmd.MfCmd = phHal_eMifareRead;
+
+            /* Call the Overlapped HAL Transceive function */
+            status = phFriNfc_ExtnsTransceive (NdefMap->pTransceiveInfo,
+                                          NdefMap->Cmd,
+                                          NdefMap->SendRecvBuf,
+                                          NdefMap->SendLength,
+                                          NdefMap->SendRecvLength);
+        }
+    }
+    else
+    {
+        /* Check for the Card Size */
+        if((((NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+            NdefMap->StdMifareContainer.NdefBlocks) *
+            PH_FRINFC_MIFARESTD_BYTES_READ) == 0) ||
+            (NdefMap->ApduBufferSize == NdefMap->ApduBuffIndex))
+        {
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                (uint8_t) ((((NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                NdefMap->StdMifareContainer.NdefBlocks) *
+                PH_FRINFC_MIFARESTD_BYTES_READ) == 0) ?
+                PH_FRINFC_MIFARESTD_FLAG1 :
+                PH_FRINFC_MIFARESTD_FLAG0);
+            *NdefMap->NumOfBytesRead = NdefMap->ApduBuffIndex;
+            status = PHNFCSTVAL (CID_NFC_NONE, NFCSTATUS_SUCCESS);
+        }
+        else
+        {
+            /* Error: The control should not ideally come here. Return Error. */
+            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_FAILED);
+        }
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_WrABlock
+ *
+ * Description      This function writes into a block of the card.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_WrABlock (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS                   status =  NFCSTATUS_PENDING;
+
+    uint16_t                    RemainingBytes = 0,
+                                BytesRemained = 0,
+                                index = 0;
+    uint8_t                     Temp16Bytes = 0;
+
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_WRITE_OPE;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_WRITE;
+
+    /* User Buffer Check */
+    if( NdefMap->ApduBuffIndex < (uint16_t) NdefMap->ApduBufferSize)
+    {
+        RemainingBytes = (((uint16_t) (NdefMap->ApduBufferSize -
+                         NdefMap->ApduBuffIndex) <
+                        NdefMap->StdMifareContainer.remainingSize) ?
+                        (uint16_t)(NdefMap->ApduBufferSize -
+                        NdefMap->ApduBuffIndex) :
+                        NdefMap->StdMifareContainer.remainingSize);
+
+        NdefMap->SendRecvBuf[0] = NdefMap->StdMifareContainer.currentBlock;
+        Temp16Bytes += PH_FRINFC_MIFARESTD_INC_1;
+
+        /* Check for internal bytes */
+        if (NdefMap->StdMifareContainer.internalLength > 0)
+        {
+            /* copy the bytes previously written in the internal Buffer */
+            memcpy (&(NdefMap->SendRecvBuf [Temp16Bytes]),
+                    NdefMap->StdMifareContainer.internalBuf,
+                    NdefMap->StdMifareContainer.internalLength);
+
+            Temp16Bytes += (uint8_t) (NdefMap->StdMifareContainer.internalLength);
+            if (RemainingBytes >= (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes))
+            {
+                /* Copy the Remaining bytes from the user buffer to make the send
+                    data and length = 16 */
+                memcpy (&(NdefMap->SendRecvBuf [Temp16Bytes]),
+                        NdefMap->ApduBuffer,
+                        (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes));
+
+                NdefMap->NumOfBytesWritten =
+                    (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes);
+                Temp16Bytes += (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes);
+                *NdefMap->DataCount = (Temp16Bytes - PH_FRINFC_MIFARESTD_VAL1);
+            }
+            else
+            {
+                memcpy (&(NdefMap->SendRecvBuf [Temp16Bytes]),
+                        NdefMap->ApduBuffer,
+                        RemainingBytes);
+
+                NdefMap->StdMifareContainer.internalBufFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                NdefMap->NumOfBytesWritten = RemainingBytes;
+                Temp16Bytes += (uint8_t) (RemainingBytes);
+                *NdefMap->DataCount = (Temp16Bytes - PH_FRINFC_MIFARESTD_VAL1);
+
+                BytesRemained = (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes);
+                /* Pad empty bytes with Zeroes to complete 16 bytes*/
+                for (index = 0; index < BytesRemained; index++)
+                {
+                    NdefMap->SendRecvBuf [(Temp16Bytes + index)] =
+                                (uint8_t) ((index == PH_FRINFC_MIFARESTD_VAL0) ?
+                                    PH_FRINFC_MIFARESTD_TERMTLV_T :
+                                    PH_FRINFC_MIFARESTD_NULLTLV_T);
+                    NdefMap->TLVStruct.SetTermTLVFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                }
+                Temp16Bytes += (uint8_t) (BytesRemained);
+            }
+        }
+        else
+        {
+            if (RemainingBytes >= (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes))
+            {
+                /* Bytes left to write < 16, copy remaining bytes */
+                memcpy (&(NdefMap->SendRecvBuf [
+                        Temp16Bytes]),
+                        &(NdefMap->ApduBuffer [
+                        NdefMap->ApduBuffIndex]),
+                        (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes));
+
+                NdefMap->NumOfBytesWritten = (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes);
+                Temp16Bytes += (MIFARE_MAX_SEND_BUF_TO_WRITE - Temp16Bytes);
+                *NdefMap->DataCount = (Temp16Bytes - PH_FRINFC_MIFARESTD_VAL1);
+            }
+            else
+            {
+                /* Bytes left to write < 16, copy remaining bytes */
+                memcpy (&(NdefMap->SendRecvBuf [
+                        Temp16Bytes]),
+                        &(NdefMap->ApduBuffer [
+                        NdefMap->ApduBuffIndex]),
+                        RemainingBytes);
+
+                NdefMap->StdMifareContainer.RemainingBufFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                NdefMap->NumOfBytesWritten = RemainingBytes;
+                Temp16Bytes += (uint8_t) (RemainingBytes);
+                *NdefMap->DataCount = (Temp16Bytes - PH_FRINFC_MIFARESTD_VAL1);
+
+
+                /* Pad empty bytes with Zeroes to complete 16 bytes */
+                for (index = Temp16Bytes; index < MIFARE_MAX_SEND_BUF_TO_WRITE; index++)
+                {
+                    NdefMap->SendRecvBuf [index] = (uint8_t) ((index ==
+                                    Temp16Bytes) ?
+                                    PH_FRINFC_MIFARESTD_TERMTLV_T :
+                                    PH_FRINFC_MIFARESTD_NULLTLV_T);
+
+                    NdefMap->TLVStruct.SetTermTLVFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                }
+            }
+        }
+        /* Buffer to store 16 bytes which is writing to the present block */
+        memcpy (NdefMap->StdMifareContainer.Buffer,
+                &(NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_INC_1]),
+                PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+
+        /* Write from here */
+        NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_WRITE;
+        NdefMap->Cmd.MfCmd = phHal_eMifareWrite16;
+        *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+        /* Call the Overlapped HAL Transceive function */
+        status = phFriNfc_ExtnsTransceive (NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+    }
+    else /* Check User Buffer */
+    {
+        if (NdefMap->StdMifareContainer.NdefBlocks >
+             NdefMap->StdMifareContainer.NoOfNdefCompBlocks)
+        {
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                PH_FRINFC_MIFARESTD_FLAG1;
+            status = PHNFCSTVAL (CID_NFC_NONE,
+                                NFCSTATUS_SUCCESS);
+        }
+        else if (NdefMap->ApduBuffIndex == (uint16_t) NdefMap->ApduBufferSize)
+        {
+            status = PHNFCSTVAL (CID_NFC_NONE, NFCSTATUS_SUCCESS);
+        }
+        else
+        {
+            /* Error: The control should not ideally come here. Return Error. */
+            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_FAILED);
+        }
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_AuthSector
+ *
+ * Description      This function authenticates one sector at a time.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_AuthSector (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+
+    *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_AUTH;
+
+    /* Authenticate */
+    NdefMap->Cmd.MfCmd = phHal_eMifareAuthentA;
+
+    NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_VAL0] =
+                            ((NdefMap->TLVStruct.NdefTLVAuthFlag ==
+                                PH_FRINFC_MIFARESTD_FLAG1) ?
+                                NdefMap->TLVStruct.NdefTLVBlock :
+                                NdefMap->StdMifareContainer.currentBlock);
+
+    /* if MAD blocks then authentication key is
+        0xA0, 0xA1, 0xA2, 0xA3, 0xA4, 0xA5 else
+        0xD3, 0xF7, 0xD3, 0xF7, 0xD3, 0xF7 */
+    if (((NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK0) &&
+        (NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK1) &&
+        (NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK2) &&
+        (NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK64) &&
+        (NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK65) &&
+        (NdefMap->StdMifareContainer.currentBlock != PH_FRINFC_MIFARESTD_MAD_BLK66)) ||
+        (NdefMap->TLVStruct.NdefTLVAuthFlag ==
+                                (uint8_t) PH_FRINFC_MIFARESTD_FLAG1))
+    {
+        NdefMap->SendRecvBuf [1] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf [2] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+        NdefMap->SendRecvBuf [3] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf [4] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+        NdefMap->SendRecvBuf [5] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf [6] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+    }
+    else
+    {
+        NdefMap->SendRecvBuf [1] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT1; /* 0xA0 */
+        NdefMap->SendRecvBuf [2] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT2; /* 0xA1 */
+        NdefMap->SendRecvBuf [3] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT3; /* 0xA2 */
+        NdefMap->SendRecvBuf [4] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT4; /* 0xA3 */
+        NdefMap->SendRecvBuf [5] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT5; /* 0xA4 */
+        NdefMap->SendRecvBuf [6] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_MADSECT6; /* 0xA5 */
+    }
+
+    if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD ||
+        NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+        NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)
+    {
+        if (NdefMap->StdMifareContainer.ReadOnlySectorIndex &&
+            NdefMap->StdMifareContainer.SectorTrailerBlockNo == NdefMap->StdMifareContainer.currentBlock)
+        {
+            memcpy (&NdefMap->SendRecvBuf [1], &NdefMap->StdMifareContainer.UserScrtKeyB [0], PH_FRINFC_MIFARESTD_KEY_LEN);
+
+            /* Authenticate with KeyB */
+            NdefMap->Cmd.MfCmd = phHal_eMifareAuthentB;
+        }
+    }
+
+    NdefMap->SendLength = MIFARE_AUTHENTICATE_CMD_LENGTH;
+    *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+    /* Call the Overlapped HAL Transceive function */
+    status = phFriNfc_ExtnsTransceive (NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_Complete
+ *
+ * Description      It is used to call the Completion Routine
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_Complete (phFriNfc_NdefMap_t *NdefMap,
+                                        NFCSTATUS          Result)
+{
+    /* set the state back to the Reset_Init state */
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RESET_INIT;
+
+    /* set the completion routine */
+    NdefMap->CompletionRoutine [NdefMap->StdMifareContainer.CRIndex].
+            CompletionRoutine (NdefMap->CompletionRoutine->Context, Result);
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd4k_H_CheckNdef
+ *
+ * Description      This function is used for Mifare 4k Check Ndef to
+ *                  get the next AID blocks.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd4k_H_CheckNdef (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    /* Get the AID Block */
+    if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK2)
+    {
+        NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_MAD_BLK64;
+        NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+    else if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK64)
+    {
+        NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_MAD_BLK65;
+    }
+    else
+    {
+        NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_MAD_BLK66;
+    }
+
+    Result = phFriNfc_MifareStdMap_ChkNdef (NdefMap);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillAIDarray
+ *
+ * Description      This function storew the AIDs for check ndef.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_fillAIDarray (phFriNfc_NdefMap_t *NdefMap)
+{
+    uint8_t byteindex = 0;
+
+    if ((NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK1) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK64))
+    {
+        /* The First Two Bytes in Receive Buffer
+            are CRC bytes so it is not copied
+            instead, 0 is copied in AID[0] & AID[1] */
+        NdefMap->StdMifareContainer.aid [NdefMap->StdMifareContainer.SectorIndex] =
+                                    PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+        NdefMap->StdMifareContainer.SectorIndex++;
+        byteindex = 2;
+    }
+
+    while (byteindex < PH_FRINFC_MIFARESTD_BYTES_READ)
+    {
+        if ((NdefMap->SendRecvBuf [byteindex] == PH_FRINFC_NDEFMAP_MIFARESTD_NDEF_COMPVAL2) &&
+            (NdefMap->SendRecvBuf [(byteindex + 1)] == PH_FRINFC_NDEFMAP_MIFARESTD_NDEF_COMPVAL1))
+        {
+            /* This flag is set when a NFC forum sector is found in a
+                MAD block for the first time */
+            NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->StdMifareContainer.aid[NdefMap->StdMifareContainer.SectorIndex] =
+                                        PH_FRINFC_MIFARESTD_NDEF_COMP;
+            NdefMap->StdMifareContainer.SectorIndex++;
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.aid [NdefMap->StdMifareContainer.SectorIndex] =
+                                    PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+            NdefMap->StdMifareContainer.SectorIndex++;
+            /* AID complete flag is set when a non NFC forum sector is found in a
+               MAD block after the NFC forum sector. After setting this, all other
+               values are ignored and are NOT NDEF compliant */
+            NdefMap->StdMifareContainer.aidCompleteFlag =
+                ((NdefMap->StdMifareContainer.NFCforumSectFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1) ?
+                    PH_FRINFC_MIFARESTD_FLAG1 :
+                    PH_FRINFC_MIFARESTD_FLAG0);
+
+            NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            if (NdefMap->StdMifareContainer.aidCompleteFlag == PH_FRINFC_MIFARESTD_FLAG1)
+            {
+                break;
+            }
+        }
+        byteindex += 2;
+    }
+
+    /* If "aidCompleteFlag" is set then the remaining sectors are made NOT
+       NDEF compliant */
+    if ((NdefMap->StdMifareContainer.aidCompleteFlag == PH_FRINFC_MIFARESTD_FLAG1) &&
+        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD))
+    {
+        /* for Mifare 1k there are 16 sectors, till this number all sectors
+           are made NOT NDEF compliant */
+        for (byteindex = NdefMap->StdMifareContainer.SectorIndex;
+             byteindex < PH_FRINFC_MIFARESTD1K_TOTAL_SECTOR;
+             byteindex++)
+        {
+             NdefMap->StdMifareContainer.aid [byteindex] =
+                                    PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+        }
+    }
+    else if ((NdefMap->StdMifareContainer.aidCompleteFlag == PH_FRINFC_MIFARESTD_FLAG1) &&
+             (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD))
+    {
+        /* for Mifare 2k there are 32 sectors, till this number all sectors
+           are made NOT NDEF compliant */
+        for (byteindex = NdefMap->StdMifareContainer.SectorIndex;
+             byteindex < PH_FRINFC_MIFARESTD2K_TOTAL_SECTOR;
+             byteindex++)
+        {
+            NdefMap->StdMifareContainer.aid[byteindex] =
+                                   PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+        }
+    }
+    else
+    {
+        /* for Mifare 4k there are 40 sectors, till this number all sectors
+           are made NOT NDEF compliant */
+        if ((NdefMap->StdMifareContainer.aidCompleteFlag == PH_FRINFC_MIFARESTD_FLAG1) &&
+            (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD))
+        {
+            for(byteindex = NdefMap->StdMifareContainer.SectorIndex;
+                byteindex < PH_FRINFC_MIFARESTD4K_TOTAL_SECTOR;
+                byteindex++)
+            {
+                NdefMap->StdMifareContainer.aid [byteindex] =
+                                        PH_FRINFC_MIFARESTD_NON_NDEF_COMP;
+            }
+        }
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_BlkChk
+ *
+ * Description      This function is to check the Ndef compliance of the
+ *                  current block, if the block is not Ndef Compliant,
+ *                  increment the block till the next Ndef compliant block
+ *                  using the Get Sector Helper function
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_BlkChk (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     SectorID = 0, callbreak = 0;
+
+    for (;;)
+    {
+        /* Get a Sector ID for the Current Block */
+        SectorID = phFriNfc_MifStd_H_GetSect (NdefMap->StdMifareContainer.currentBlock);
+        /* Check the card Type 1k or 4k */
+        /* enter if Mifare 1k card. For Mifare 4k go to else */
+        if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD)
+        {
+            /* if Sector Id > 15 No Sectors to write */
+            if (SectorID > 15)
+            {
+                SectorID = phFriNfc_MifStd_H_GetSect (NdefMap->StdMifareContainer.currentBlock);
+                /*Error: No Ndef Compliant Sectors present */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_PARAMETER);
+                callbreak = 1;
+            }
+            else
+            {
+                phFriNfc_MifStd1k_H_BlkChk (NdefMap, SectorID, &callbreak);
+            }
+        } /* End of if */ /* End of Mifare 1k check */
+        else if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD) /* Mifare 2k check starts here */
+        {
+             /* Sector > 39 no ndef compliant sectors found*/
+            if (SectorID > PH_FRINFC_MIFARESTD_SECTOR_NO31)
+            {
+                 /*Error: No Ndef Compliant Sectors present */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_PARAMETER);
+                callbreak = 1;
+            }
+            else if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK64)
+            {
+                NdefMap->StdMifareContainer.currentBlock += PH_FRINFC_MIFARESTD_BLK4;
+            }
+            else if (SectorID < PH_FRINFC_MIFARESTD_SECTOR_NO32) /* sector < 32 contains 4 blocks in each sector */
+            {
+                 /* If the block checked is 63, the 3 blocks after this
+                     are AID(MAD) blocks so its need to be skipped */
+                if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK63)
+                {
+                    NdefMap->StdMifareContainer.currentBlock += PH_FRINFC_MIFARESTD_BLK4;
+                }
+                else
+                {
+                    phFriNfc_MifStd1k_H_BlkChk (NdefMap, SectorID, &callbreak);
+                }
+            }
+            else
+            {
+                phFriNfc_MifStd1k_H_BlkChk (NdefMap, SectorID, &callbreak);
+            }
+        }/* End of if*/ /* End of Mifare 2k check*/
+        else /* Mifare 4k check starts here */
+        {
+            /* Sector > 39 no ndef compliant sectors found*/
+            if (SectorID > PH_FRINFC_MIFARESTD_SECTOR_NO39)
+            {
+                /*Error: No Ndef Compliant Sectors present */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+                callbreak = 1;
+            }
+            else if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK64)
+            {
+                NdefMap->StdMifareContainer.currentBlock += PH_FRINFC_MIFARESTD_BLK4;
+            }
+            else if (SectorID < PH_FRINFC_MIFARESTD_SECTOR_NO32) /* sector < 32 contains 4 blocks in each sector */
+            {
+                /* If the block checked is 63, the 3 blocks after this
+                   are AID(MAD) blocks so its need to be skipped */
+                if (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK63)
+                {
+                    NdefMap->StdMifareContainer.currentBlock += PH_FRINFC_MIFARESTD_BLK4;
+                }
+                else
+                {
+                    phFriNfc_MifStd1k_H_BlkChk (NdefMap, SectorID, &callbreak);
+                }
+            }
+            else
+            {
+                /* every last block of a sector needs to be skipped */
+                if (((NdefMap->StdMifareContainer.currentBlock + 1) %
+                    PH_FRINFC_MIFARESTD_BLOCK_BYTES) == 0)
+                {
+                    NdefMap->StdMifareContainer.currentBlock++;
+                }
+                else
+                {
+                    if (NdefMap->StdMifareContainer.aid [SectorID] ==
+                            PH_FRINFC_MIFARESTD_NDEF_COMP)
+                    {
+                        /* Check whether the block is first block of a (next)new sector and
+                            also check if it is first block then internal length is zero
+                            or not. Because once Authentication is done for the sector again
+                            we should not authenticate it again */
+                        /* In this case 32 sectors contains 4 blocks and next remaining 8 sectors
+                            contains 16 blocks that is why (32 * 4) + (sectorID - 32) *16*/
+                        if ((NdefMap->StdMifareContainer.currentBlock ==
+                            ((PH_FRINFC_MIFARESTD_SECTOR_NO32 * PH_FRINFC_MIFARESTD_BLK4) +
+                            ((SectorID - PH_FRINFC_MIFARESTD_SECTOR_NO32) * PH_FRINFC_MIFARESTD_BLOCK_BYTES))) &&
+                            (NdefMap->StdMifareContainer.internalLength == 0))
+                        {
+                            NdefMap->StdMifareContainer.AuthDone = 0;
+                        }
+                        callbreak = 1;
+                    }
+                    else
+                    {
+                        NdefMap->StdMifareContainer.currentBlock += 16;
+                    }
+                }
+            }
+        }
+        if (callbreak == 1)
+        {
+            break;
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_GetSect
+ *
+ * Description      This function  to get the Sector from the current block
+ *
+ * Returns          uint8_t SectorID
+ *
+ ******************************************************************************/
+static uint8_t phFriNfc_MifStd_H_GetSect (uint8_t BlockNumber)
+{
+    uint8_t SectorID = 0;
+
+    if (BlockNumber >= PH_FRINFC_MIFARESTD4K_BLK128)
+    {
+        SectorID = (uint8_t) (PH_FRINFC_MIFARESTD_SECTOR_NO32 +
+                    ((BlockNumber - PH_FRINFC_MIFARESTD4K_BLK128)/
+                    PH_FRINFC_MIFARESTD_BLOCK_BYTES));
+    }
+    else
+    {
+        SectorID = (BlockNumber/PH_FRINFC_MIFARESTD_BLK4);
+    }
+
+    return SectorID;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdAcsBit
+ *
+ * Description      It read the access bits of each sector.
+ *                  NCI messages.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdAcsBit (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RD_ACS_BIT;
+
+    if (NdefMap->StdMifareContainer.ReadOnlySectorIndex &&
+        NdefMap->StdMifareContainer.currentBlock == NdefMap->StdMifareContainer.SectorTrailerBlockNo)
+    {
+        NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RD_SEC_ACS_BIT;
+    }
+
+    if (NdefMap->StdMifareContainer.ReadAcsBitFlag == PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        /* Get the sector trailer */
+        ((NdefMap->StdMifareContainer.currentBlock > 127) ?
+            phFriNfc_MifStd_H_Get4kStTrail(NdefMap) :
+            phFriNfc_MifStd_H_Get1kStTrail(NdefMap));
+    }
+    else
+    {
+        /* Give the current block to read */
+        NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_VAL0] =
+                        NdefMap->StdMifareContainer.currentBlock;
+    }
+
+    Result = phFriNfc_MifStd_H_Rd16Bytes(NdefMap,
+                        NdefMap->SendRecvBuf [PH_FRINFC_MIFARESTD_VAL0]);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkAcsBit
+ *
+ * Description      This function check the access bits of each sector.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ChkAcsBit (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    /* Blocks from 0 to 3 and from 64 to 67(MAD blocks) */
+    if ((NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK0) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK1) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK2) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK3) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK64) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK65) ||
+        (NdefMap->StdMifareContainer.currentBlock == PH_FRINFC_MIFARESTD_MAD_BLK66) )
+    {
+        /* Access bits check removed for the MAD blocks */
+#ifdef ENABLE_ACS_BIT_CHK_FOR_MAD
+
+        if (((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL6] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_MADSECT_ACS_BYTE6) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL7] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_MADSECT_ACS_BYTE7) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL8] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_ACS_BYTE8))
+        {
+            NdefMap->StdMifareContainer.WriteFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.ReadFlag =
+                PH_FRINFC_MIFARESTD_FLAG1;
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.WriteFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.ReadFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+        }
+
+#else /* #ifdef ENABLE_ACS_BIT_CHK_FOR_MAD */
+
+        NdefMap->CardState = PH_NDEFMAP_CARD_STATE_INITIALIZED;
+
+#endif /* #ifdef ENABLE_ACS_BIT_CHK_FOR_MAD */
+    }
+    else
+    {
+        /* Check for Access bytes 6, 7 and 8 value =
+            0x7F, 0x07, 0x88 NFC forum sectors*/
+        if (((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL6] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_NFCSECT_ACS_BYTE6) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL7] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_NFCSECT_ACS_BYTE7) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL8] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_ACS_BYTE8))
+        {
+            NdefMap->StdMifareContainer.WriteFlag =
+                PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->StdMifareContainer.ReadFlag =
+                PH_FRINFC_MIFARESTD_FLAG1;
+        }
+        else if (((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL6] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE6) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL7] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE7) &&
+            ((NdefMap->SendRecvBuf [
+            PH_FRINFC_MIFARESTD_VAL8] &
+            PH_FRINFC_MIFARESTD_MASK_FF) ==
+            PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE8))
+        {
+            /* Read Only state */
+            /* Check for Access bytes 6, 7 and 8 value =
+                0x55, 0xAD, 0x2A NFC forum Sectors */
+            NdefMap->StdMifareContainer.WriteFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.ReadFlag =
+                PH_FRINFC_MIFARESTD_FLAG1;
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.WriteFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.ReadFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+        }
+
+#ifdef ENABLE_ACS_BIT_CHK_FOR_MAD
+        /* Do nothing */
+#else /* #ifdef ENABLE_ACS_BIT_CHK_FOR_MAD */
+        Result = phFriNfc_MifStd_H_GPBChk (NdefMap);
+#endif /* #ifdef ENABLE_ACS_BIT_CHK_FOR_MAD */
+    }
+
+#ifdef ENABLE_ACS_BIT_CHK_FOR_MAD
+    Result = phFriNfc_MifStd_H_GPBChk (NdefMap);
+#endif /* #ifdef ENABLE_ACS_BIT_CHK_FOR_MAD */
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkRdWr
+ *
+ * Description      This function is for read access bits, depending
+ *                  on the read/write/check ndef function called.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ChkRdWr (phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    switch (NdefMap->PrevOperation)
+    {
+        case PH_FRINFC_NDEFMAP_CHECK_OPE:
+            if (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INVALID)
+            {
+                /* No permission to read */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_READ_FAILED);
+            }
+            else if ((NdefMap->StdMifareContainer.currentBlock > 3) &&
+                (NdefMap->StdMifareContainer.ChkNdefCompleteFlag ==
+                                    PH_FRINFC_MIFARESTD_FLAG1) &&
+                (NdefMap->StdMifareContainer.currentBlock !=
+                            PH_FRINFC_MIFARESTD_MAD_BLK65) &&
+                (NdefMap->StdMifareContainer.currentBlock !=
+                            PH_FRINFC_MIFARESTD_MAD_BLK66))
+            {
+                Result = ((NdefMap->StdMifareContainer.ReadAcsBitFlag ==
+                                PH_FRINFC_MIFARESTD_FLAG0) ?
+                                phFriNfc_MifStd_H_RdAcsBit(NdefMap) :
+                                phFriNfc_MifStd_H_AuthSector(NdefMap));
+            }
+            else
+            {
+                Result = phFriNfc_MifareStdMap_ChkNdef (NdefMap);
+            }
+            break;
+
+        case PH_FRINFC_NDEFMAP_READ_OPE:
+            if (NdefMap->CardState == PH_NDEFMAP_CARD_STATE_INVALID)
+            {
+                /* No permission to Read */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_READ_FAILED);
+            }
+            else if (NdefMap->StdMifareContainer.ReadNdefFlag == PH_FRINFC_MIFARESTD_FLAG1)
+            {
+                Result = phFriNfc_MifStd_H_GetActCardLen (NdefMap);
+            }
+            else
+            {
+                Result = phFriNfc_MifStd_H_RdABlock (NdefMap);
+            }
+            break;
+
+        case PH_FRINFC_NDEFMAP_WRITE_OPE:
+            if ((NdefMap->CardState ==
+                PH_NDEFMAP_CARD_STATE_INVALID) ||
+                (NdefMap->CardState ==
+                PH_NDEFMAP_CARD_STATE_READ_ONLY))
+            {
+                /* No permission to Read */
+                Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_WRITE_FAILED);
+            }
+            else if (NdefMap->StdMifareContainer.WrNdefFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+            {
+                Result = phFriNfc_MifStd_H_GetActCardLen (NdefMap);
+            }
+            else if (NdefMap->StdMifareContainer.RdBeforeWrFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+            {
+                /*NdefMap->StdMifareContainer.ReadFlag =
+                                PH_FRINFC_MIFARESTD_FLAG0;*/
+                Result = phFriNfc_MifStd_H_RdBeforeWr (NdefMap);
+            }
+            else if (NdefMap->StdMifareContainer.RdAfterWrFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)
+            {
+                Result = phFriNfc_MifStd_H_RdtoWrNdefLen (NdefMap);
+            }
+            else
+            {
+                Result = (((NdefMap->TLVStruct.NdefTLVBlock ==
+                            NdefMap->StdMifareContainer.currentBlock) &&
+                            (NdefMap->Offset ==
+                            PH_FRINFC_NDEFMAP_SEEK_BEGIN)) ?
+                            phFriNfc_MifStd_H_RdBeforeWr (NdefMap) :
+                            phFriNfc_MifStd_H_WrABlock (NdefMap));
+            }
+            break;
+
+        case PH_FRINFC_NDEFMAP_GET_ACTSIZE_OPE:
+            Result = ((NdefMap->StdMifareContainer.ReadFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG0) ?
+                        (PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                        NFCSTATUS_READ_FAILED)) :
+                        phFriNfc_MifStd_H_GetActCardLen (NdefMap));
+            break;
+
+        default:
+            /* Operation is not correct */
+            Result = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+
+            break;
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkNdefCmpltSects
+ *
+ * Description      This function is used to check ndef to check the
+ *                  ndef compliant sectors.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_ChkNdefCmpltSects (phFriNfc_NdefMap_t *NdefMap)
+{
+    uint8_t index = 0;
+    uint8_t index_max_4k_2k= 0;
+    if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD)
+    {
+        index_max_4k_2k = PH_FRINFC_MIFARESTD4K_TOTAL_SECTOR;
+    }
+    else
+    {
+        index_max_4k_2k = PH_FRINFC_MIFARESTD2K_TOTAL_SECTOR;
+    }
+
+    if (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD || NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)
+    {
+        for (index = PH_FRINFC_MIFARESTD_SECTOR_NO1; index < index_max_4k_2k; index++)/*Block 0 is MAD block, so it should start with 1*/
+        {
+            /* For Mifare 4k, Block 0 to 31 contains 4 blocks */
+            /* sector 0 and 15 are aid blocks */
+            if (index != PH_FRINFC_MIFARESTD_SECTOR_NO16)
+            {
+                if (((index < 32) && (index != PH_FRINFC_MIFARESTD_SECTOR_NO0))
+                    && (NdefMap->StdMifareContainer.aid [index] ==
+                            PH_FRINFC_MIFARESTD_NON_NDEF_COMP))
+                {
+                    /* Only 3 blocks can be read/written till sector 31 */
+                    NdefMap->StdMifareContainer.NoOfNdefCompBlocks -=
+                                                PH_FRINFC_MIFARESTD_MAD_BLK3;
+
+                }
+                else
+                {
+                    /* For Mifare 4k, Block 32 to 39 contains 16 blocks */
+                    if(NdefMap->StdMifareContainer.aid [index] ==
+                        PH_FRINFC_MIFARESTD_NON_NDEF_COMP)
+                    {
+                        /* Only 15 blocks can be read/written from sector 31 */
+                        NdefMap->StdMifareContainer.NoOfNdefCompBlocks -=
+                                                PH_FRINFC_MIFARESTD_BLK15;
+                    }
+                }
+            }
+        } /* For index > 40 */
+    }
+    else
+    {
+        for (index = PH_FRINFC_MIFARESTD_SECTOR_NO1;
+            index < PH_FRINFC_MIFARESTD_SECTOR_NO16; index++)
+        {
+            if (NdefMap->StdMifareContainer.aid [index] ==
+                PH_FRINFC_MIFARESTD_NON_NDEF_COMP)
+            {
+                /*  Only three blocks can be read/written in
+                    a sector. So if a sector is non-ndef
+                    compliant, decrement 3 */
+                NdefMap->StdMifareContainer.NoOfNdefCompBlocks -=
+                                        PH_FRINFC_MIFARESTD_MAD_BLK3;
+            }
+        }
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RemainTLV
+ *
+ * Description      This function is used for read ndef to process the
+ *                  remaining bytes of length (L) in the TLV.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RemainTLV (phFriNfc_NdefMap_t *NdefMap,
+                                              uint8_t            *Flag,
+                                              uint8_t            *Temp16Bytes)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     CRFlag = 0;
+    uint16_t    RemainingBytes = 0;
+
+    RemainingBytes = ((uint16_t) NdefMap->ApduBufferSize - NdefMap->ApduBuffIndex);
+
+    if (NdefMap->StdMifareContainer.remainingSize < RemainingBytes)
+    {
+        /* If the user Buffer is greater than the Card Size
+           set LastBlockFlag = 1. This Flag is used to read bytes
+           till the end of the card only */
+        RemainingBytes = NdefMap->StdMifareContainer.remainingSize;
+    }
+
+    /* Remaining Bytes of length (L) in TLV <=  16 */
+    if ((NdefMap->TLVStruct.BytesRemainLinTLV <=
+        (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))) &&
+        (RemainingBytes <= NdefMap->TLVStruct.BytesRemainLinTLV))
+    {
+        /* Copy data to user buffer */
+        memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->SendRecvBuf [(*Temp16Bytes)]),
+                RemainingBytes);
+
+        NdefMap->ApduBuffIndex += RemainingBytes;
+        NdefMap->StdMifareContainer.remainingSize -= RemainingBytes;
+
+        /* copy the bytes to internal buffer, that are read,
+           but not used for the user buffer */
+        if (RemainingBytes != NdefMap->TLVStruct.BytesRemainLinTLV)
+        {
+            memcpy (NdefMap->StdMifareContainer.internalBuf,
+                    &(NdefMap->SendRecvBuf [((*Temp16Bytes) + RemainingBytes)]),
+                    ((PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes)) - RemainingBytes));
+
+            /* internal buffer length */
+            NdefMap->StdMifareContainer.internalLength =
+                    ((PH_FRINFC_MIFARESTD_BYTES_READ -
+                    (*Temp16Bytes)) - RemainingBytes);
+        }
+        *Temp16Bytes += ((uint8_t)RemainingBytes);
+        /* Remaining Bytes of length value in TLV */
+        NdefMap->TLVStruct.BytesRemainLinTLV -= RemainingBytes;
+
+        if (NdefMap->StdMifareContainer.internalLength == PH_FRINFC_MIFARESTD_VAL0)
+        {
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+            (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+            PH_FRINFC_MIFARESTD_FLAG1 :
+            PH_FRINFC_MIFARESTD_FLAG0);
+
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+        }
+
+        if (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)
+        {
+            /* Remaining Bytes of length (L) in TLV is Zero means that the next
+               coming bytes are containing type (T), length (L) in TLV */
+            NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->TLVStruct.LcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->TLVStruct.TcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        }
+        /* call completion routine */
+        CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+    else if ((NdefMap->TLVStruct.BytesRemainLinTLV <=
+            (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))) &&
+            (RemainingBytes > NdefMap->TLVStruct.BytesRemainLinTLV))
+    {
+        /* Copy data to user buffer */
+        memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->SendRecvBuf [(*Temp16Bytes)]),
+                NdefMap->TLVStruct.BytesRemainLinTLV);
+
+        NdefMap->ApduBuffIndex += NdefMap->TLVStruct.BytesRemainLinTLV;
+        NdefMap->StdMifareContainer.remainingSize -= NdefMap->TLVStruct.BytesRemainLinTLV;
+        NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        *Temp16Bytes += ((uint8_t) NdefMap->TLVStruct.BytesRemainLinTLV);
+        NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_VAL0;
+
+        *Flag = PH_FRINFC_MIFARESTD_FLAG1;
+
+        NdefMap->TLVStruct.LcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        NdefMap->TLVStruct.TcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        /* 16 bytes completed */
+        if (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_BYTES_READ)
+        {
+            *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0;
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+            Result = phFriNfc_MifStd_H_BlkChk (NdefMap);
+            if (Result == NFCSTATUS_SUCCESS)
+            {
+                if (NdefMap->StdMifareContainer.AuthDone == PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    Result = phFriNfc_MifStd_H_RdABlock (NdefMap);
+                }
+                else
+                {
+                    Result = phFriNfc_MifStd_H_AuthSector (NdefMap);
+                }
+            }
+        }
+        else
+        {
+            NdefMap->TLVStruct.BytesRemainLinTLV =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0;
+            /* The read operation has finished. so, completion routine
+               can be called. set the Completion routine(CR) flag */
+            CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        }
+    }
+    else if ((NdefMap->TLVStruct.BytesRemainLinTLV >
+            (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))) &&
+            (RemainingBytes <= (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))))
+    {
+        /* Copy data to user buffer */
+        memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->SendRecvBuf [(*Temp16Bytes)]),
+                RemainingBytes);
+        NdefMap->ApduBuffIndex += RemainingBytes;
+        NdefMap->StdMifareContainer.remainingSize -= RemainingBytes;
+
+        /* Remaining Bytes of length (L) in TLV */
+        NdefMap->TLVStruct.BytesRemainLinTLV -= RemainingBytes;
+        /* copy the bytes to internal buffer, that are read,
+                        but not used for the user buffer */
+        memcpy (NdefMap->StdMifareContainer.internalBuf,
+                &(NdefMap->SendRecvBuf[(RemainingBytes + (*Temp16Bytes))]),
+                ((PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))
+                - RemainingBytes));
+
+        /* internal buffer length */
+        NdefMap->StdMifareContainer.internalLength =
+                ((PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes)) - RemainingBytes);
+
+        if (RemainingBytes == (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes)))
+        {
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+                (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+                (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+                PH_FRINFC_MIFARESTD_FLAG1 :
+                PH_FRINFC_MIFARESTD_FLAG0);
+
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+        }
+        *Temp16Bytes += ((uint8_t) RemainingBytes);
+        NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+    else
+    {
+        if ((NdefMap->TLVStruct.BytesRemainLinTLV >
+            (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))) &&
+            (RemainingBytes > (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes))))
+        {
+            *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+            /* Copy data to user buffer */
+            memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                    &(NdefMap->SendRecvBuf [(*Temp16Bytes)]),
+                    (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes)));
+            NdefMap->ApduBuffIndex += (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes));
+            NdefMap->StdMifareContainer.remainingSize -=
+                                    (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes));
+            NdefMap->TLVStruct.BytesRemainLinTLV -= (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes));
+            *Temp16Bytes += (PH_FRINFC_MIFARESTD_BYTES_READ - (*Temp16Bytes));
+            if (NdefMap->TLVStruct.BytesRemainLinTLV != PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0)
+            {
+                NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            }
+            /* 16 bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+            Result = phFriNfc_MifStd_H_BlkChk (NdefMap);
+            if (Result == NFCSTATUS_SUCCESS)
+            {
+                Result = ((NdefMap->StdMifareContainer.AuthDone ==
+                        PH_FRINFC_MIFARESTD_FLAG1) ?
+                        phFriNfc_MifStd_H_RdABlock(NdefMap) :
+                        phFriNfc_MifStd_H_AuthSector(NdefMap));
+            }
+        }
+    }
+
+    if (CRFlag == PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        *NdefMap->NumOfBytesRead = NdefMap->ApduBuffIndex;
+        NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+            (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+            PH_FRINFC_MIFARESTD_FLAG1 :
+            PH_FRINFC_MIFARESTD_FLAG0);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkIntLen
+ *
+ * Description      This function reads ndef to process the internal bytes.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success,
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ChkIntLen(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     NDEFFlag = PH_FRINFC_MIFARESTD_FLAG1;
+    uint8_t     TempintBytes = 0;
+
+    if(NdefMap->TLVStruct.BytesRemainLinTLV != 0)
+    {
+        NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        /* To read the remaining length (L) in TLV */
+        Result = phFriNfc_MifStd_H_IntLenWioutNdef(NdefMap, &NDEFFlag, &TempintBytes);
+    }
+    NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    /* check the NDEFFlag is set. if this is not set, then
+       in the above RemainTLV function all the 16 bytes has been
+       read */
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_IntLenWioutNdef
+ *
+ * Description      This function reads ndef to check the internal bytes
+ *                  without ndef tlv flag.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success,
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_IntLenWioutNdef (phFriNfc_NdefMap_t *NdefMap,
+                                                    uint8_t            *Flag,
+                                                    uint8_t            *TempintBytes)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     CRFlag = 0;
+    uint16_t    RemainingBytes = 0;
+
+    RemainingBytes = ((uint16_t)NdefMap->ApduBufferSize - NdefMap->ApduBuffIndex);
+
+    if (NdefMap->StdMifareContainer.remainingSize < RemainingBytes)
+    {
+        /* If the user Buffer is greater than the Card Size
+           set LastBlockFlag = 1. This Flag is used to read bytes
+           till the end of the card only */
+        RemainingBytes = NdefMap->StdMifareContainer.remainingSize;
+    }
+
+    /* Remaining Bytes of length (L) in TLV <=  internal length */
+    if ((NdefMap->TLVStruct.BytesRemainLinTLV <=
+        NdefMap->StdMifareContainer.internalLength) &&
+        (RemainingBytes <= NdefMap->TLVStruct.BytesRemainLinTLV))
+    {
+        memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->StdMifareContainer.internalBuf [(*TempintBytes)]),
+                RemainingBytes);
+        NdefMap->ApduBuffIndex += RemainingBytes;
+        NdefMap->StdMifareContainer.remainingSize -= RemainingBytes;
+        *TempintBytes += ((uint8_t) RemainingBytes);
+
+        /* copy the bytes to internal buffer, that are read,
+           but not used for the user buffer */
+        memcpy (NdefMap->StdMifareContainer.internalBuf,
+                &(NdefMap->StdMifareContainer.internalBuf [RemainingBytes]),
+                (NdefMap->StdMifareContainer.internalLength - RemainingBytes));
+
+        /* internal buffer length */
+        NdefMap->StdMifareContainer.internalLength -= RemainingBytes;
+
+        NdefMap->TLVStruct.BytesRemainLinTLV -= RemainingBytes;
+        if (NdefMap->StdMifareContainer.internalLength == PH_FRINFC_MIFARESTD_VAL0)
+        {
+           NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+            (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+            PH_FRINFC_MIFARESTD_FLAG1 :
+            PH_FRINFC_MIFARESTD_FLAG0);
+
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+        }
+
+        /* Remaining Bytes of length value in TLV */
+        if (NdefMap->TLVStruct.BytesRemainLinTLV == 0)
+        {
+            /* Remaining Bytes of length (L) in TLV is Zero means that the next
+             coming bytes are containing type (T), length (L) in TLV */
+            NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            NdefMap->TLVStruct.LcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->TLVStruct.TcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        }
+        /* call completion routine */
+        CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+    else if ((NdefMap->TLVStruct.BytesRemainLinTLV <=
+            NdefMap->StdMifareContainer.internalLength) &&
+            (RemainingBytes > NdefMap->TLVStruct.BytesRemainLinTLV))
+    {
+        memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->StdMifareContainer.internalBuf [(*TempintBytes)]),
+                NdefMap->TLVStruct.BytesRemainLinTLV);
+
+        NdefMap->ApduBuffIndex += NdefMap->TLVStruct.BytesRemainLinTLV;
+        NdefMap->StdMifareContainer.remainingSize -= NdefMap->TLVStruct.BytesRemainLinTLV;
+        NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+        *TempintBytes += ((uint8_t) NdefMap->TLVStruct.BytesRemainLinTLV);
+        *Flag = PH_FRINFC_MIFARESTD_FLAG1;
+
+        NdefMap->TLVStruct.LcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        NdefMap->TLVStruct.TcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+        NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_VAL0;
+        NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+        (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+            PH_FRINFC_MIFARESTD_FLAG1 :
+            PH_FRINFC_MIFARESTD_FLAG0);
+
+        if (PH_FRINFC_MIFARESTD_FLAG1 == NdefMap->StdMifareContainer.ReadWriteCompleteFlag)
+        {
+            CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        }
+
+        if (NdefMap->TLVStruct.BytesRemainLinTLV == NdefMap->StdMifareContainer.internalLength)
+        {
+            /* Remaining Bytes in Length (L) field of TLV is 0 */
+            NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0;
+            NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+            *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+            Result = phFriNfc_MifStd_H_BlkChk (NdefMap);
+            if (Result == NFCSTATUS_SUCCESS)
+            {
+                Result =
+                ((NdefMap->StdMifareContainer.AuthDone == PH_FRINFC_MIFARESTD_FLAG1) ?
+                phFriNfc_MifStd_H_RdABlock (NdefMap) :
+                phFriNfc_MifStd_H_AuthSector (NdefMap));
+            }
+        }
+        else
+        {
+            /* Remaining Bytes in Length (L) field of TLV is 0 */
+            NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0;
+            *Flag = PH_FRINFC_MIFARESTD_FLAG1;
+        }
+    }
+    else if ((NdefMap->TLVStruct.BytesRemainLinTLV >
+            NdefMap->StdMifareContainer.internalLength) &&
+            (RemainingBytes <= NdefMap->StdMifareContainer.internalLength))
+    {
+        memcpy(&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                &(NdefMap->StdMifareContainer.internalBuf [(*TempintBytes)]),
+                RemainingBytes);
+
+        NdefMap->ApduBuffIndex += RemainingBytes;
+        NdefMap->StdMifareContainer.remainingSize -= RemainingBytes;
+        *TempintBytes += ((uint8_t) RemainingBytes);
+        /* Remaining Bytes of length (L) in TLV */
+        NdefMap->TLVStruct.BytesRemainLinTLV -= RemainingBytes;
+
+        /* copy the bytes to internal buffer, that are read,
+                        but not used for the user buffer */
+        memcpy (NdefMap->StdMifareContainer.internalBuf,
+                &(NdefMap->StdMifareContainer.internalBuf [RemainingBytes]),
+                (NdefMap->StdMifareContainer.internalLength - RemainingBytes));
+
+        /* internal buffer length */
+        NdefMap->StdMifareContainer.internalLength -= RemainingBytes;
+        if (NdefMap->StdMifareContainer.internalLength == PH_FRINFC_MIFARESTD_VAL0)
+        {
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+            (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0)) ?
+            PH_FRINFC_MIFARESTD_FLAG1 :
+            PH_FRINFC_MIFARESTD_FLAG0);
+
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+        }
+
+        NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+    }
+    else
+    {
+        if ((NdefMap->TLVStruct.BytesRemainLinTLV >
+            NdefMap->StdMifareContainer.internalLength) &&
+            (RemainingBytes > NdefMap->StdMifareContainer.internalLength))
+        {
+            memcpy (&(NdefMap->ApduBuffer [NdefMap->ApduBuffIndex]),
+                    &(NdefMap->StdMifareContainer.internalBuf [(*TempintBytes)]),
+                    NdefMap->StdMifareContainer.internalLength);
+            *Flag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->ApduBuffIndex += NdefMap->StdMifareContainer.internalLength;
+            NdefMap->StdMifareContainer.remainingSize -=
+                                NdefMap->StdMifareContainer.internalLength;
+            NdefMap->TLVStruct.BytesRemainLinTLV -= NdefMap->StdMifareContainer.internalLength;
+
+            if(NdefMap->TLVStruct.BytesRemainLinTLV != PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0)
+            {
+                NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            }
+
+            NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+            /* internal length bytes completed */
+            NdefMap->StdMifareContainer.currentBlock++;
+            NdefMap->StdMifareContainer.NdefBlocks++;
+            Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+            if(Result == NFCSTATUS_SUCCESS)
+            {
+                Result = ((NdefMap->StdMifareContainer.AuthDone ==
+                            PH_FRINFC_MIFARESTD_FLAG1)?
+                            phFriNfc_MifStd_H_RdABlock(NdefMap):
+                            phFriNfc_MifStd_H_AuthSector(NdefMap));
+            }
+        }
+    }
+
+    if(CRFlag == PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        NdefMap->StdMifareContainer.ReadWriteCompleteFlag = (uint8_t)
+        (((NdefMap->StdMifareContainer.remainingSize == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.BytesRemainLinTLV == PH_FRINFC_MIFARESTD_VAL0))?
+            PH_FRINFC_MIFARESTD_FLAG1:
+            PH_FRINFC_MIFARESTD_FLAG0);
+        *NdefMap->NumOfBytesRead = NdefMap->ApduBuffIndex;
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_WriteNdefLen
+ *
+ * Description      This function is Helper function for write ndef
+ *                  to write the Length TLV.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_WriteNdefLen(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_WR_NDEF_LEN;
+
+    /* If Current block = Ndef TLV block then the starting point
+       is writing from type of TLV
+       Else */
+
+    if(NdefMap->StdMifareContainer.currentBlock ==
+                                NdefMap->TLVStruct.NdefTLVBlock)
+    {
+
+        if(NdefMap->TLVStruct.NULLTLVCount >=
+            PH_FRINFC_MIFARESTD_VAL2)
+        {
+            phFriNfc_MifStd_H_fillTLV1(NdefMap);
+        }
+        else
+        {
+            phFriNfc_MifStd_H_fillTLV2(NdefMap);
+        }
+    }
+    else
+    {
+        if(NdefMap->TLVStruct.NULLTLVCount >=
+            PH_FRINFC_MIFARESTD_VAL2)
+        {
+            phFriNfc_MifStd_H_fillTLV1_1(NdefMap);
+        }
+        else
+        {
+            phFriNfc_MifStd_H_fillTLV2_1(NdefMap);
+        }
+    }
+
+    memcpy( NdefMap->StdMifareContainer.Buffer,
+            &(NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL1]),
+            PH_FRINFC_MIFARESTD_BYTES_READ);
+
+
+    /* Write from here */
+    NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_WRITE;
+
+    NdefMap->Cmd.MfCmd = phHal_eMifareWrite16;
+
+    *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+    /* Call the Overlapped HAL Transceive function */
+    Result = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                                   NdefMap->Cmd,
+                                   NdefMap->SendRecvBuf,
+                                   NdefMap->SendLength,
+                                   NdefMap->SendRecvLength);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdWrReset
+ *
+ * Description      It resets ndef TLV values. This is used when the offset
+ *                  is BEGIN.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_RdWrReset(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_BLK4;
+    NdefMap->StdMifareContainer.NdefBlocks = PH_FRINFC_MIFARESTD_VAL1;
+    NdefMap->TLVStruct.BytesRemainLinTLV = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->TLVStruct.LcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->TLVStruct.TcheckedinTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->TLVStruct.NdefTLVAuthFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->TLVStruct.NdefTLVBlock = PH_FRINFC_MIFARESTD_MAD_BLK0;
+    NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->TLVStruct.NoLbytesinTLV = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+    NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->StdMifareContainer.FirstReadFlag = PH_FRINFC_MIFARESTD_FLAG1;
+    NdefMap->StdMifareContainer.ReadWriteCompleteFlag = PH_FRINFC_MIFARESTD_FLAG0;
+    NdefMap->StdMifareContainer.remainingSize = (uint16_t)
+                        (NdefMap->StdMifareContainer.NoOfNdefCompBlocks *
+                            PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+    NdefMap->StdMifareContainer.WrLength = PH_FRINFC_MIFARESTD_VAL1;
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdtoWrNdefLen
+ *
+ * Description      This function is used to read the first ndef compliant
+ *                  block to change the length.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdtoWrNdefLen(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RD_TO_WR_NDEF_LEN;
+
+    if(NdefMap->TLVStruct.NdefTLVAuthFlag == PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+        Result = phFriNfc_MifStd_H_AuthSector(NdefMap);
+    }
+    else
+    {
+        NdefMap->SendRecvBuf[0] = NdefMap->StdMifareContainer.currentBlock;
+        NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_READ;
+        *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+
+        NdefMap->Cmd.MfCmd = phHal_eMifareRead;
+
+        /* Call the Overlapped HAL Transceive function */
+        Result = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_SetNdefBlkAuth
+ *
+ * Description      This function is used to set the authentication flag
+ *                  for the ndef TLV block.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_SetNdefBlkAuth(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NdefMap->TLVStruct.NdefTLVAuthFlag =
+            ((phFriNfc_MifStd_H_GetSect(NdefMap->TLVStruct.NdefTLVBlock)
+            == phFriNfc_MifStd_H_GetSect(NdefMap->StdMifareContainer.currentBlock))?
+            PH_FRINFC_MIFARESTD_FLAG0:
+            PH_FRINFC_MIFARESTD_FLAG1);
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_GetActCardLen
+ *
+ * Description      Helper function to get the actual length of card.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_GetActCardLen(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_GET_ACT_CARDSIZE;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_GET_ACTSIZE_OPE;
+
+    Result = ((NdefMap->StdMifareContainer.AuthDone ==
+            PH_FRINFC_MIFARESTD_FLAG0)?
+            phFriNfc_MifStd_H_AuthSector(NdefMap):
+            phFriNfc_MifStd_H_Rd16Bytes(NdefMap,
+                NdefMap->StdMifareContainer.currentBlock));
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkTLVs
+ *
+ * Description      Helper function to check all the TLVs.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ChkTLVs(phFriNfc_NdefMap_t *NdefMap,
+                                           uint8_t            *CRFlag)
+{
+    NFCSTATUS       Result = NFCSTATUS_SUCCESS;
+    uint16_t        TempLength = PH_FRINFC_MIFARESTD_VAL0,
+                    ShiftLength = PH_FRINFC_MIFARESTD_VAL0;
+    uint8_t         TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_GET_ACTSIZE_OPE;
+    TempLength = NdefMap->TLVStruct.NdefTLVByte;
+
+    for(;;)
+    {
+        if((NdefMap->SendRecvBuf[TempLength] != PH_FRINFC_MIFARESTD_TERMTLV_T) &&
+            (NdefMap->SendRecvBuf[TempLength] != PH_FRINFC_MIFARESTD_NULLTLV_T) &&
+            (NdefMap->SendRecvBuf[TempLength] != PH_FRINFC_MIFARESTD_NDEFTLV_T) &&
+            (FALSE == NdefMap->TLVStruct.NdefTLVFoundFlag))
+        {
+            Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_NO_NDEF_SUPPORT);
+            NdefMap->TLVStruct.BytesRemainLinTLV = 0;
+            NdefMap->CardState = PH_NDEFMAP_CARD_STATE_INVALID;
+            *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            break;
+
+        }
+        else
+        if((NdefMap->SendRecvBuf[TempLength] != PH_FRINFC_MIFARESTD_TERMTLV_T) &&
+            (NdefMap->SendRecvBuf[TempLength] != PH_FRINFC_MIFARESTD_NULLTLV_T))
+        {
+            if(NdefMap->SendRecvBuf[TempLength] == PH_FRINFC_MIFARESTD_NDEFTLV_T)
+            {
+                NdefMap->TLVStruct.NdefTLVBlock =
+                            NdefMap->StdMifareContainer.currentBlock;
+                NdefMap->TLVStruct.NdefTLVByte = (uint8_t)TempLength;
+                NdefMap->TLVStruct.NdefTLVFoundFlag =
+                            ((NdefMap->SendRecvBuf[TempLength] ==
+                                PH_FRINFC_MIFARESTD_NDEFTLV_T)?
+                                PH_FRINFC_MIFARESTD_FLAG1:
+                                PH_FRINFC_MIFARESTD_FLAG0);
+
+                NdefMap->TLVStruct.NULLTLVCount = ((NdefMap->TLVStruct.NULLTLVCount
+                                            == PH_FRINFC_MIFARESTD_VAL1)?
+                                            PH_FRINFC_MIFARESTD_VAL0:
+                                            NdefMap->TLVStruct.NULLTLVCount);
+            }
+            else
+            {
+                NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+            }
+
+            TempLength++;
+            if(TempLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+            {
+                NdefMap->TLVStruct.TcheckedinTLVFlag =
+                                        PH_FRINFC_MIFARESTD_FLAG1;
+                NdefMap->TLVStruct.NoLbytesinTLV =
+                                    PH_FRINFC_MIFARESTD_VAL3;
+            }
+            Result = phFriNfc_MifStd_H_Chk16Bytes(  NdefMap,
+                                                    TempLength);
+            if(Result != NFCSTATUS_SUCCESS)
+            {
+                *CRFlag = (uint8_t)((Result == NFCSTATUS_PENDING)?
+                            PH_FRINFC_MIFARESTD_FLAG0:
+                            PH_FRINFC_MIFARESTD_FLAG1);
+                break;
+            }
+
+            if(((((  NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                        NdefMap->StdMifareContainer.NdefBlocks) *
+                        PH_FRINFC_MIFARESTD_BLOCK_BYTES) +
+                        (PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+                        TempLength)) <
+                        NdefMap->SendRecvBuf[TempLength]) &&
+                        ((NdefMap->SendRecvBuf[TempLength] <
+                        PH_FRINFC_MIFARESTD_NDEFTLV_L) &&
+                        (NdefMap->TLVStruct.NdefTLVFoundFlag !=
+                        PH_FRINFC_MIFARESTD_VAL1)))
+            {
+                /* Result = Error */
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                break;
+            }
+
+            if(((((  NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                        NdefMap->StdMifareContainer.NdefBlocks) *
+                        PH_FRINFC_MIFARESTD_BLOCK_BYTES) +
+                        (PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+                        TempLength)) <
+                        NdefMap->SendRecvBuf[TempLength]) &&
+                        ((NdefMap->SendRecvBuf[TempLength] ==
+                        PH_FRINFC_MIFARESTD_VAL0) &&
+                        (NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_VAL1)))
+            {
+                /* Result = Error */
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                break;
+            }
+
+            if((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                PH_FRINFC_MIFARESTD_FLAG1) &&
+                (NdefMap->SendRecvBuf[TempLength] <
+                 PH_FRINFC_MIFARESTD_NDEFTLV_L))
+            {
+                Result = phFriNfc_MapTool_SetCardState(NdefMap,
+                                    NdefMap->SendRecvBuf[TempLength]);
+                NdefMap->TLVStruct.BytesRemainLinTLV =
+                                    NdefMap->SendRecvBuf[TempLength];
+                NdefMap->StdMifareContainer.remainingSize -=
+                                            PH_FRINFC_MIFARESTD_VAL2;
+                /* This flag is set */
+                NdefMap->StdMifareContainer.remSizeUpdFlag =
+                    (uint8_t)((NdefMap->TLVStruct.NULLTLVCount >=
+                    PH_FRINFC_MIFARESTD_VAL2)?
+                    PH_FRINFC_MIFARESTD_FLAG0:
+                    PH_FRINFC_MIFARESTD_FLAG1);
+
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                break;
+            }
+
+            NdefMap->StdMifareContainer.remainingSize -=
+                    ((  NdefMap->SendRecvBuf[TempLength] <
+                            PH_FRINFC_MIFARESTD_NDEFTLV_L)?
+                            (NdefMap->SendRecvBuf[TempLength]
+                            + PH_FRINFC_MIFARESTD_VAL2):
+                            PH_FRINFC_MIFARESTD_VAL0);
+
+            if(( NdefMap->SendRecvBuf[TempLength] ==
+                        PH_FRINFC_MIFARESTD_VAL0))
+            {
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_PARAMETER);
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                break;
+            }
+
+            TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            /* get the next TLV after the proprietary TLV */
+            Result =
+                ((NdefMap->SendRecvBuf[TempLength] <
+                    PH_FRINFC_MIFARESTD_NDEFTLV_L)?
+                    phFriNfc_MifStd_H_GetNxtTLV(NdefMap, &TempLength, &TL4bytesFlag):
+                    NFCSTATUS_PENDING);
+
+            if((TempLength >= PH_FRINFC_MIFARESTD_BYTES_READ) &&
+                (Result == NFCSTATUS_SUCCESS))
+            {
+                NdefMap->TLVStruct.TcheckedinTLVFlag =
+                                        PH_FRINFC_MIFARESTD_FLAG0;
+                NdefMap->TLVStruct.NoLbytesinTLV =
+                                    PH_FRINFC_MIFARESTD_VAL0;
+
+                Result = phFriNfc_MifStd_H_GetActCardLen(NdefMap);
+                *CRFlag = (uint8_t)((Result != NFCSTATUS_PENDING)?
+                            PH_FRINFC_MIFARESTD_FLAG1:
+                            PH_FRINFC_MIFARESTD_FLAG0);
+                break;
+            }
+            else
+            {
+                if(Result == NFCSTATUS_PENDING)
+                {
+                    TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                    Result = ((NdefMap->SendRecvBuf[TempLength] ==
+                            PH_FRINFC_MIFARESTD_NDEFTLV_L) ?
+                            NFCSTATUS_SUCCESS:
+                            (PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER)));
+
+                    if(Result != NFCSTATUS_SUCCESS)
+                    {
+                        *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                        break;
+                    }
+                    NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+                    TempLength++;
+                    /* Check 0xFF */
+                    if(TempLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+                    {
+                        NdefMap->TLVStruct.TcheckedinTLVFlag =
+                                                PH_FRINFC_MIFARESTD_FLAG1;
+                        NdefMap->TLVStruct.NoLbytesinTLV =
+                                            PH_FRINFC_MIFARESTD_VAL2;
+                    }
+                    Result = phFriNfc_MifStd_H_Chk16Bytes(  NdefMap,
+                                                            TempLength);
+                    if(Result != NFCSTATUS_SUCCESS)
+                    {
+                        break;
+                    }
+
+                    ShiftLength = NdefMap->SendRecvBuf[TempLength];
+                    TempLength++;
+                    if(TempLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+                    {
+                        NdefMap->TLVStruct.TcheckedinTLVFlag =
+                                                PH_FRINFC_MIFARESTD_FLAG1;
+                        NdefMap->TLVStruct.NoLbytesinTLV =
+                                            PH_FRINFC_MIFARESTD_VAL1;
+                        NdefMap->TLVStruct.prevLenByteValue =
+                                    NdefMap->SendRecvBuf[(TempLength -
+                                                PH_FRINFC_MIFARESTD_VAL1)];
+                    }
+                    Result = phFriNfc_MifStd_H_Chk16Bytes(  NdefMap,
+                                                            TempLength);
+                    if(Result != NFCSTATUS_SUCCESS)
+                    {
+                        break;
+                    }
+
+
+                    if((((  NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                        NdefMap->StdMifareContainer.NdefBlocks) *
+                        PH_FRINFC_MIFARESTD_BLOCK_BYTES) +
+                        (PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+                        TempLength)) <
+                        (( ShiftLength
+                        << 8) + NdefMap->SendRecvBuf[TempLength]))
+                    {
+                        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_REMOTE_DEVICE);
+
+                        break;
+                    }
+
+                    if(NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)
+                    {
+                        ShiftLength = (( ShiftLength<< 8) +
+                                    NdefMap->SendRecvBuf[TempLength]);
+                        NdefMap->TLVStruct.BytesRemainLinTLV = ShiftLength;
+                        Result = phFriNfc_MapTool_SetCardState(NdefMap,
+                                                                ShiftLength);
+                        NdefMap->StdMifareContainer.remainingSize -=
+                                            PH_FRINFC_MIFARESTD_VAL4;
+                        *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                        break;
+                    }
+
+                    NdefMap->StdMifareContainer.remainingSize -=
+                                ((ShiftLength<< 8) +
+                                NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL1)]);
+                    TempLength++;
+
+                    /* get the next TLV after the proprietary TLV */
+                    Result = phFriNfc_MifStd_H_GetNxtTLV(NdefMap, &TempLength, &TL4bytesFlag);
+
+                    if((TempLength >= PH_FRINFC_MIFARESTD_BYTES_READ) &&
+                        (Result == NFCSTATUS_SUCCESS))
+                    {
+                        NdefMap->TLVStruct.TcheckedinTLVFlag =
+                                                PH_FRINFC_MIFARESTD_FLAG0;
+                        NdefMap->TLVStruct.NoLbytesinTLV =
+                                            PH_FRINFC_MIFARESTD_VAL0;
+                        Result = phFriNfc_MifStd_H_GetActCardLen(NdefMap);
+
+                        break;
+                    }
+                    break;
+                }
+            }
+        }
+        else if((NdefMap->SendRecvBuf[TempLength] == PH_FRINFC_MIFARESTD_TERMTLV_T) &&
+                (NdefMap->TLVStruct.NdefTLVFoundFlag == PH_FRINFC_MIFARESTD_FLAG0))
+        {
+            Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                                        PH_FRINFC_MIFARESTD_FLAG1;
+            break;
+
+        }
+        else if(NdefMap->SendRecvBuf[TempLength] == PH_FRINFC_MIFARESTD_NULLTLV_T)
+        {
+            TempLength++;
+            NdefMap->TLVStruct.NULLTLVCount += PH_FRINFC_MIFARESTD_VAL1;
+            ShiftLength = NdefMap->SendRecvBuf[(TempLength - PH_FRINFC_MIFARESTD_VAL1)];
+            NdefMap->StdMifareContainer.remainingSize -= PH_FRINFC_MIFARESTD_VAL1;
+            if(NdefMap->StdMifareContainer.remainingSize <
+                    (( ShiftLength << 8) + NdefMap->SendRecvBuf[TempLength]))
+            {
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_REMOTE_DEVICE);
+                break;
+            }
+            Result = phFriNfc_MifStd_H_Chk16Bytes(  NdefMap,
+                                                    TempLength);
+            if(Result != NFCSTATUS_SUCCESS)
+            {
+                NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL0;
+                break;
+            }
+        }
+        else
+        {
+            if((NdefMap->SendRecvBuf[TempLength] == PH_FRINFC_MIFARESTD_TERMTLV_T) &&
+                (NdefMap->TLVStruct.NdefTLVFoundFlag == PH_FRINFC_MIFARESTD_FLAG1))
+            {
+                TempLength++;
+                Result = NFCSTATUS_SUCCESS;
+                NdefMap->StdMifareContainer.remainingSize -=
+                                                PH_FRINFC_MIFARESTD_VAL1;
+            }
+        }
+    }
+
+    if(NdefMap->TLVStruct.BytesRemainLinTLV >
+        NdefMap->StdMifareContainer.remainingSize)
+    {
+        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_FORMAT);
+    }
+    else
+    {
+        if(NdefMap->StdMifareContainer.remainingSize ==
+                PH_FRINFC_MIFARESTD_VAL0)
+        {
+            Result = ((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)?
+                        NFCSTATUS_SUCCESS:
+                        (PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_PARAMETER)));
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_GetNxtTLV
+ *
+ * Description      This is a Helper function to get the next TLV.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_GetNxtTLV(phFriNfc_NdefMap_t    *NdefMap,
+                                      uint16_t              *TempLength,
+                                       uint8_t              *TL4bytesFlag)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint16_t    LengthRemaining = PH_FRINFC_MIFARESTD_VAL0,
+                TempLen = PH_FRINFC_MIFARESTD_VAL0,
+                ShiftLength = PH_FRINFC_MIFARESTD_VAL0;
+
+    TempLen = (*TempLength);
+    LengthRemaining = (PH_FRINFC_MIFARESTD_BYTES_READ -
+                        (TempLen + PH_FRINFC_MIFARESTD_VAL1));
+
+    if(*TL4bytesFlag == PH_FRINFC_MIFARESTD_FLAG0)
+    {
+        (*TempLength) += (NdefMap->SendRecvBuf[TempLen] +
+                            PH_FRINFC_MIFARESTD_VAL1);
+
+        if(NdefMap->TLVStruct.NdefTLVFoundFlag == PH_FRINFC_MIFARESTD_FLAG0)
+        {
+            LengthRemaining =
+                (((*TempLength) < PH_FRINFC_MIFARESTD_BYTES_READ)?
+                PH_FRINFC_MIFARESTD_VAL0:
+                (NdefMap->SendRecvBuf[TempLen] -
+                LengthRemaining));
+        }
+        else
+        {
+            LengthRemaining =
+                (((*TempLength) < PH_FRINFC_MIFARESTD_BYTES_READ)?
+                PH_FRINFC_MIFARESTD_VAL0:
+                (NdefMap->SendRecvBuf[TempLen] -
+                LengthRemaining));
+        }
+    }
+    else
+    {
+        *TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        if(NdefMap->TLVStruct.NoLbytesinTLV ==
+            PH_FRINFC_MIFARESTD_VAL1)
+        {
+            ShiftLength = NdefMap->TLVStruct.prevLenByteValue;
+            (*TempLength) += ((ShiftLength
+                                << 8) + NdefMap->SendRecvBuf[TempLen] +
+                            PH_FRINFC_MIFARESTD_VAL1);
+
+            LengthRemaining =
+                (((ShiftLength
+                << 8) + NdefMap->SendRecvBuf[TempLen]) -
+                LengthRemaining);
+        }
+        else
+        {
+            ShiftLength = NdefMap->SendRecvBuf[(TempLen - PH_FRINFC_MIFARESTD_VAL1)];
+            (*TempLength) += ((ShiftLength
+                                << 8) + NdefMap->SendRecvBuf[TempLen] +
+                            PH_FRINFC_MIFARESTD_VAL1);
+
+            LengthRemaining =
+                (((ShiftLength
+                    << 8) + NdefMap->SendRecvBuf[TempLen]) -
+                    LengthRemaining);
+        }
+    }
+
+    NdefMap->TLVStruct.NdefTLVByte =
+        (uint8_t)(((*TempLength) < PH_FRINFC_MIFARESTD_BYTES_READ)?
+        (*TempLength):
+        (LengthRemaining % PH_FRINFC_MIFARESTD_BYTES_READ));
+
+    while(LengthRemaining != PH_FRINFC_MIFARESTD_VAL0)
+    {
+        NdefMap->StdMifareContainer.currentBlock++;
+        NdefMap->StdMifareContainer.NdefBlocks++;
+        Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+        LengthRemaining -=
+            ((LengthRemaining <= PH_FRINFC_MIFARESTD_BYTES_READ)?
+            LengthRemaining:
+            PH_FRINFC_MIFARESTD_BYTES_READ);
+    }
+
+    if(NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL0)
+    {
+        NdefMap->StdMifareContainer.currentBlock++;
+        NdefMap->StdMifareContainer.NdefBlocks++;
+        Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_Chk16Bytes
+ *
+ * Description      This Helper function is used to know whether the read
+ *                  16 bytes are parsed completely.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_Chk16Bytes(phFriNfc_NdefMap_t   *NdefMap,
+                                       uint16_t             TempLength)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    if(TempLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+    {
+        NdefMap->StdMifareContainer.currentBlock++;
+        NdefMap->StdMifareContainer.NdefBlocks++;
+        Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+
+        Result =
+            ((NdefMap->StdMifareContainer.AuthDone == PH_FRINFC_MIFARESTD_FLAG1)?
+            phFriNfc_MifStd_H_GetActCardLen(NdefMap):
+            phFriNfc_MifStd_H_AuthSector(NdefMap));
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ChkRemainTLVs
+ *
+ * Description      This function is used to know whether the read
+ *                  16 bytes are parsed completely.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ChkRemainTLVs(phFriNfc_NdefMap_t *NdefMap,
+                                          uint8_t            *CRFlag,
+                                          uint8_t            *NDEFFlag)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint16_t    TempLength = PH_FRINFC_MIFARESTD_VAL0,
+                ShiftLength = PH_FRINFC_MIFARESTD_VAL0;
+    uint8_t     TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    switch(NdefMap->TLVStruct.NoLbytesinTLV)
+    {
+        case PH_FRINFC_MIFARESTD_VAL3:
+            /* if TLV is found then set card state */
+            Result = ((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)?
+                        phFriNfc_MapTool_SetCardState(NdefMap,
+                        NdefMap->SendRecvBuf[TempLength]):
+                        Result);
+
+            Result = ((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)? 1 : Result);
+
+
+            /* Check the length field is less than or
+               equal to 0xFF if yes enter below statement
+               else enter else if*/
+            if((NdefMap->SendRecvBuf[TempLength] <
+                PH_FRINFC_MIFARESTD_NDEFTLV_L) &&
+                (Result == NFCSTATUS_SUCCESS))
+            {
+                NdefMap->StdMifareContainer.remainingSize -=
+                                PH_FRINFC_MIFARESTD_VAL2;
+
+                Result = ((NdefMap->SendRecvBuf[TempLength] >
+                            NdefMap->StdMifareContainer.remainingSize)?
+                            (PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_FORMAT)):
+                            Result);
+                TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                if((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1) &&
+                    (Result == NFCSTATUS_SUCCESS))
+                {
+                    NdefMap->TLVStruct.BytesRemainLinTLV =
+                    NdefMap->SendRecvBuf[TempLength];
+                    *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+                }
+                else if(Result == NFCSTATUS_SUCCESS)
+                {
+                    TempLength++;
+                    Result = phFriNfc_MifStd_H_GetNxtTLV(NdefMap,
+                                    &TempLength, &TL4bytesFlag);
+
+                    NdefMap->StdMifareContainer.remainingSize -=
+                                    NdefMap->SendRecvBuf[TempLength];
+                    if((TempLength >= PH_FRINFC_MIFARESTD_BYTES_READ) &&
+                        (*CRFlag == PH_FRINFC_MIFARESTD_FLAG0))
+                    {
+                        *NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                        Result = phFriNfc_MifStd_H_GetActCardLen(NdefMap);
+                    }
+                }
+
+                else
+                {
+                    /* do nothing */
+                }
+            }
+            else if((NdefMap->SendRecvBuf[TempLength] ==
+                    PH_FRINFC_MIFARESTD_NDEFTLV_L) &&
+                    (Result == NFCSTATUS_SUCCESS))
+            {
+                TempLength++;
+                NdefMap->StdMifareContainer.remainingSize -=
+                                PH_FRINFC_MIFARESTD_VAL4;
+                TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                Result = (((((uint16_t)NdefMap->SendRecvBuf[TempLength] << 8) +
+                                NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)]) >
+                                NdefMap->StdMifareContainer.remainingSize)?
+                                (PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_FORMAT)):
+                                Result);
+                if((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1) &&
+                    (Result == NFCSTATUS_SUCCESS))
+                {
+                    NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+                    NdefMap->TLVStruct.BytesRemainLinTLV =
+                                (((uint16_t)NdefMap->SendRecvBuf[TempLength] << 8) +
+                                NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)]);
+                    *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                }
+                else if(Result == NFCSTATUS_SUCCESS)
+                {
+                    TempLength++;
+
+                    Result = phFriNfc_MifStd_H_GetNxtTLV(NdefMap,
+                                &TempLength, &TL4bytesFlag);
+                    NdefMap->StdMifareContainer.remainingSize -=
+                                (((uint16_t)NdefMap->SendRecvBuf[TempLength] << 8) +
+                                NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)]);
+
+                    *NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    Result = phFriNfc_MifStd_H_GetActCardLen(NdefMap);
+                }
+                else
+                {
+                    /* do nothing */
+                    *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                }
+            }
+            else
+            {
+                /* Result = Error */
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_FORMAT);
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            }
+            break;
+
+        case PH_FRINFC_MIFARESTD_VAL2:
+        case PH_FRINFC_MIFARESTD_VAL1:
+            ShiftLength = ((NdefMap->TLVStruct.NoLbytesinTLV ==
+                            PH_FRINFC_MIFARESTD_VAL1)?
+                            ((NdefMap->TLVStruct.prevLenByteValue << 8) +
+                            NdefMap->SendRecvBuf[TempLength]):
+                            (((uint16_t)NdefMap->SendRecvBuf[TempLength] << 8) +
+                            NdefMap->SendRecvBuf[(TempLength +
+                            PH_FRINFC_MIFARESTD_VAL1)]));
+            if((((  NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                    NdefMap->StdMifareContainer.NdefBlocks) *
+                    PH_FRINFC_MIFARESTD_BLOCK_BYTES) +
+                    (PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+                    TempLength)) <
+                    ShiftLength)
+            {
+                /* Result = Error */
+                Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+                *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            }
+            else
+            {
+                NdefMap->StdMifareContainer.remainingSize -=
+                                    PH_FRINFC_MIFARESTD_VAL2;
+                if(NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)
+                {
+                    NdefMap->TLVStruct.BytesRemainLinTLV = ShiftLength;
+                    if(NdefMap->TLVStruct.BytesRemainLinTLV >
+                        NdefMap->StdMifareContainer.remainingSize)
+                    {
+                        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                                NFCSTATUS_INVALID_FORMAT);
+                    }
+                    *CRFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                    *NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                }
+                else
+                {
+                    NdefMap->StdMifareContainer.remainingSize -=
+                                        ShiftLength;
+                    *CRFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    TempLength += PH_FRINFC_MIFARESTD_VAL2;
+                    TL4bytesFlag = PH_FRINFC_MIFARESTD_FLAG1;
+                    Result = ((NdefMap->TLVStruct.NdefTLVFoundFlag == PH_FRINFC_MIFARESTD_FLAG1)?
+                                NFCSTATUS_SUCCESS:
+                                phFriNfc_MifStd_H_GetNxtTLV(NdefMap, &TempLength, &TL4bytesFlag));
+
+                    *NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                    Result = phFriNfc_MifStd_H_GetActCardLen(NdefMap);
+                }
+            }
+            break;
+
+        default:
+            break;
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_Get1kStTrail
+ *
+ * Description      This function is used to get the Mifare 1k Sector Trailer.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_Get1kStTrail(phFriNfc_NdefMap_t  *NdefMap)
+{
+    switch((NdefMap->StdMifareContainer.currentBlock % 4))
+    {
+        case PH_FRINFC_MIFARESTD_VAL0:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                            (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK3);
+            break;
+
+        case PH_FRINFC_MIFARESTD_VAL1:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK2);
+            break;
+
+        case PH_FRINFC_MIFARESTD_VAL2:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK1);
+            break;
+
+        default:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        NdefMap->StdMifareContainer.currentBlock;
+            break;
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_Get4kStTrail
+ *
+ * Description      This function gets the Mifare 4k Sector Trailer.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_Get4kStTrail(phFriNfc_NdefMap_t  *NdefMap)
+{
+    switch((NdefMap->StdMifareContainer.currentBlock % 16))
+    {
+        case PH_FRINFC_MIFARESTD_MAD_BLK0:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                            (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK15);
+            break;
+
+        case PH_FRINFC_MIFARESTD_MAD_BLK1:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK14);
+            break;
+
+        case PH_FRINFC_MIFARESTD_MAD_BLK2:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK13);
+            break;
+
+        case PH_FRINFC_MIFARESTD_MAD_BLK3:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK12);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK4:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK11);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK5:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK10);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK6:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK9);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK7:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK8);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK8:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK7);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK9:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK6);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK10:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK5);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK11:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_BLK4);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK12:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK3);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK13:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK2);
+            break;
+
+        case PH_FRINFC_MIFARESTD_BLK14:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        (NdefMap->StdMifareContainer.currentBlock +
+                                        PH_FRINFC_MIFARESTD_MAD_BLK1);
+            break;
+
+        default:
+            NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                        NdefMap->StdMifareContainer.currentBlock;
+            break;
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProChkNdef
+ *
+ * Description      This function processes the check ndef call.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProChkNdef(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /* Copy remaining bytes into the AID array
+       from Receive Buffer till array number 7 in aid */
+    if(NdefMap->StdMifareContainer.currentBlock ==
+        PH_FRINFC_MIFARESTD_VAL1)
+    {
+        /* Helper Function to Store AID Information */
+        phFriNfc_MifStd_H_fillAIDarray(NdefMap);
+
+        NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_VAL2;
+        /* read remaining AIDs from block number 2 */
+        Result = ((NdefMap->StdMifareContainer.aidCompleteFlag ==
+                PH_FRINFC_MIFARESTD_FLAG1)?
+                Result:
+                phFriNfc_MifareStdMap_ChkNdef( NdefMap));
+    }
+    else if(((NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD) &&
+            (NdefMap->StdMifareContainer.currentBlock ==
+            PH_FRINFC_MIFARESTD_MAD_BLK2)) || (
+            (NdefMap->StdMifareContainer.currentBlock ==
+            PH_FRINFC_MIFARESTD_MAD_BLK66) &&
+            (NdefMap->CardType ==
+            PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+            NdefMap->CardType ==
+            PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)))
+    {
+        /* Helper Function to Store AID Information */
+        phFriNfc_MifStd_H_fillAIDarray(NdefMap);
+
+        NdefMap->StdMifareContainer.aidCompleteFlag =
+                        PH_FRINFC_MIFARESTD_FLAG1;
+    } /* Mifare 1k and Mifare 4k end Check */
+    else if((NdefMap->StdMifareContainer.currentBlock >
+            PH_FRINFC_MIFARESTD_VAL1) &&
+            (NdefMap->CardType ==
+            PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+            NdefMap->CardType ==
+            PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD))
+    {
+        phFriNfc_MifStd_H_fillAIDarray(NdefMap);
+        /* read remaining AIDs from block number 2 */
+        /* Mifare 4k Helper Function */
+        Result = ((NdefMap->StdMifareContainer.aidCompleteFlag ==
+                    PH_FRINFC_MIFARESTD_FLAG1)?
+                    Result:
+                    phFriNfc_MifStd4k_H_CheckNdef(NdefMap));
+    } /* Card Type 4k Check */
+    else
+    {
+        /* Since we have decided temporarily not to go
+           for any new error codes we are using
+           NFCSTATUS_INVALID_PARAMETER even though it is not
+           the relevant error code here TBD */
+        Result = PHNFCSTVAL(    CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+    }
+
+    if(NdefMap->StdMifareContainer.aidCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        NdefMap->StdMifareContainer.ChkNdefCompleteFlag =
+                        PH_FRINFC_MIFARESTD_FLAG1;
+        /*  The check for NDEF compliant information is now over for
+            the Mifare 1K card.
+            Update(decrement) the NoOfNdefCompBlocks as much required,
+            depending on the NDEF compliant information found */
+        /* Check the Sectors are Ndef Compliant */
+        phFriNfc_MifStd_H_ChkNdefCmpltSects(NdefMap);
+        if((NdefMap->StdMifareContainer.NoOfNdefCompBlocks == 0) ||
+            (NdefMap->StdMifareContainer.NoOfNdefCompBlocks > 255))
+        {
+            Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_NO_NDEF_SUPPORT);
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.aidCompleteFlag =
+                            PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.NFCforumSectFlag =
+                                    PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.currentBlock = PH_FRINFC_MIFARESTD_BLK4;
+            Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+            Result = ((Result != NFCSTATUS_SUCCESS)?
+                        Result:phFriNfc_MifStd_H_AuthSector(NdefMap));
+        }
+
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProAuth
+ *
+ * Description      This function process the authentication of a sector.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProAuth(phFriNfc_NdefMap_t       *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    if(NdefMap->TLVStruct.NdefTLVAuthFlag ==
+       PH_FRINFC_MIFARESTD_FLAG1)
+    {
+        NdefMap->TLVStruct.NdefTLVAuthFlag =
+                                    PH_FRINFC_MIFARESTD_FLAG0;
+        NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG1;
+        Result = phFriNfc_MifStd_H_RdtoWrNdefLen(NdefMap);
+    }
+    else
+    {
+        NdefMap->StdMifareContainer.AuthDone = 1;
+        NdefMap->StdMifareContainer.ReadAcsBitFlag = 1;
+        Result = phFriNfc_MifStd_H_RdAcsBit(NdefMap);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_Rd16Bytes
+ *
+ * Description      This function reads 16 bytes from a specifed block no.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_Rd16Bytes(phFriNfc_NdefMap_t     *NdefMap,
+                                              uint8_t               BlockNo)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] = BlockNo;
+    NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_READ;
+    *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+    NdefMap->Cmd.MfCmd = phHal_eMifareRead;
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+
+    /* Call the Overlapped HAL Transceive function */
+    Result = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProAcsBits
+ *
+ * Description      It processes access bits of the sector trailer.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProAcsBits(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     CRFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    if(*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+    {
+        if(NdefMap->StdMifareContainer.ReadAcsBitFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)
+        {
+            /* check for the correct access bits */
+            Result = phFriNfc_MifStd_H_ChkAcsBit(NdefMap);
+
+            if((NdefMap->StdMifareContainer.ChkNdefFlag ==
+                PH_FRINFC_MIFARESTD_FLAG1) &&
+                (Result == NFCSTATUS_SUCCESS))
+            {
+                if(NdefMap->CardState ==
+                    PH_NDEFMAP_CARD_STATE_INVALID)
+                {
+                    NdefMap->StdMifareContainer.NoOfNdefCompBlocks =
+                    ((NdefMap->StdMifareContainer.currentBlock >=
+                    PH_FRINFC_MIFARESTD4K_BLK128)?
+                    (NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                                    PH_FRINFC_MIFARESTD_BLK15):
+                    (NdefMap->StdMifareContainer.NoOfNdefCompBlocks -
+                                    PH_FRINFC_MIFARESTD_MAD_BLK3));
+
+                    NdefMap->StdMifareContainer.ProprforumSectFlag =
+                        ((NdefMap->StdMifareContainer.NFCforumSectFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1)?
+                        PH_FRINFC_MIFARESTD_PROP_2ND_CONFIG:
+                        PH_FRINFC_MIFARESTD_PROP_3RD_CONFIG);
+
+                    Result = phFriNfc_MifStd_H_ProStatNotValid(NdefMap, Result);
+                }
+                else
+                {
+                    NdefMap->StdMifareContainer.NFCforumSectFlag =
+                        (((NdefMap->StdMifareContainer.currentBlock == 64) &&
+                        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD)||
+                        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD))?
+                        NdefMap->StdMifareContainer.NFCforumSectFlag:
+                                            PH_FRINFC_MIFARESTD_FLAG1);
+                }
+
+                if(NdefMap->StdMifareContainer.ProprforumSectFlag !=
+                    PH_FRINFC_MIFARESTD_PROP_2ND_CONFIG)
+                {
+                    NdefMap->StdMifareContainer.ReadAcsBitFlag = PH_FRINFC_MIFARESTD_FLAG0;
+                                /* ((NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                                        PH_FRINFC_MIFARESTD_FLAG1)?
+                                        PH_FRINFC_MIFARESTD_FLAG0:
+                                        PH_FRINFC_MIFARESTD_FLAG1);*/
+
+                    NdefMap->StdMifareContainer.ReadCompleteFlag =
+                    (uint8_t)((((((NdefMap->StdMifareContainer.currentBlock +
+                        PH_FRINFC_MIFARESTD_VAL4) >=
+                        PH_FRINFC_MIFARESTD1K_MAX_BLK) &&
+                        (NdefMap->CardType ==
+                        PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD)) &&
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG0)) ||
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1))?
+                        PH_FRINFC_MIFARESTD_FLAG1:
+                        PH_FRINFC_MIFARESTD_FLAG0);
+
+                    NdefMap->StdMifareContainer.ReadCompleteFlag =
+                    (uint8_t)((((((uint16_t)(NdefMap->StdMifareContainer.currentBlock +
+                        PH_FRINFC_MIFARESTD_VAL4) >=
+                        PH_FRINFC_MIFARESTD4K_MAX_BLK) &&
+                        (NdefMap->CardType ==
+                        PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)) &&
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG0)) ||
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1))?
+                        PH_FRINFC_MIFARESTD_FLAG1:
+                        PH_FRINFC_MIFARESTD_FLAG0);
+
+                    NdefMap->StdMifareContainer.ReadCompleteFlag =
+                    (uint8_t)((((((uint16_t)(NdefMap->StdMifareContainer.currentBlock +
+                        PH_FRINFC_MIFARESTD_VAL4) >=
+                        PH_FRINFC_MIFARESTD4K_MAX_BLK) &&
+                        (NdefMap->CardType ==
+                        PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD)) &&
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG0)) ||
+                        (NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                        PH_FRINFC_MIFARESTD_FLAG1))?
+                        PH_FRINFC_MIFARESTD_FLAG1:
+                        PH_FRINFC_MIFARESTD_FLAG0);
+
+                    NdefMap->StdMifareContainer.currentBlock =
+                        ((NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1)?
+                            PH_FRINFC_MIFARESTD_BLK4:
+                            NdefMap->StdMifareContainer.currentBlock);
+
+                    Result =
+                    ((NdefMap->StdMifareContainer.ReadCompleteFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1)?
+                            phFriNfc_MifStd_H_BlkChk(NdefMap):
+                            Result);
+                }
+            }
+
+            Result = ((Result != NFCSTATUS_SUCCESS)?
+                        Result:
+                        phFriNfc_MifStd_H_ChkRdWr(NdefMap));
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.ChkNdefFlag =
+                PH_FRINFC_MIFARESTD_FLAG0;
+            /* Here its required to read the entire card to know the */
+            /* Get exact ndef size of the card */
+            Result = phFriNfc_MifStd_H_ChkTLVs(NdefMap, &CRFlag);
+        }
+    }
+    else
+    {
+        /* Since we have decided temporarily not to go
+           for any new error codes we are using
+           NFCSTATUS_INVALID_PARAMETER even though it is not
+           the relevant error code here TBD */
+        Result = PHNFCSTVAL(    CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_PARAMETER);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_GPBChk
+ *
+ * Description      This function is checks the GPB bytes.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_GPBChk(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    /* Spec version needs to be checked every time (Version check is not enabled) */
+    /* Result = phFriNfc_MapTool_ChkSpcVer(NdefMap, PH_FRINFC_MIFARESTD_VAL9); */
+
+    /* Check rhe read and write access field
+        in GPB is 00b
+        bit 0 and 1 for write access check
+        bit 2 and 3 for read access check */
+    if(Result == NFCSTATUS_SUCCESS)
+    {
+        if(((NdefMap->SendRecvBuf[
+            PH_FRINFC_MIFARESTD_VAL9] &
+            PH_FRINFC_MIFARESTD_MASK_GPB_WR) ==
+            PH_FRINFC_MIFARESTD_GPB_RD_WR_VAL) &&
+            ((NdefMap->SendRecvBuf[
+            PH_FRINFC_MIFARESTD_VAL9] &
+            PH_FRINFC_MIFARESTD_MASK_GPB_RD) ==
+            PH_FRINFC_MIFARESTD_GPB_RD_WR_VAL))
+        {
+            NdefMap->CardState = (((NdefMap->StdMifareContainer.ChkNdefFlag ==
+                                    PH_FRINFC_MIFARESTD_FLAG1) ||
+                                    (NdefMap->StdMifareContainer.ReadNdefFlag ==
+                                    PH_FRINFC_MIFARESTD_FLAG1) ||
+                                    (NdefMap->StdMifareContainer.WrNdefFlag ==
+                                    PH_FRINFC_MIFARESTD_FLAG1))?
+                                    PH_NDEFMAP_CARD_STATE_INITIALIZED:
+                                    PH_NDEFMAP_CARD_STATE_READ_WRITE);
+        }
+        else if(((NdefMap->SendRecvBuf[
+            PH_FRINFC_MIFARESTD_VAL9] &
+            PH_FRINFC_MIFARESTD_MASK_GPB_WR) !=
+            PH_FRINFC_MIFARESTD_GPB_RD_WR_VAL) &&
+            ((NdefMap->SendRecvBuf[
+            PH_FRINFC_MIFARESTD_VAL9] &
+            PH_FRINFC_MIFARESTD_MASK_GPB_RD) ==
+            PH_FRINFC_MIFARESTD_GPB_RD_WR_VAL))
+        {
+            /* write access not given
+            only read access check */
+            NdefMap->CardState = PH_NDEFMAP_CARD_STATE_READ_ONLY;
+        }
+        else
+        {
+            NdefMap->CardState = PH_NDEFMAP_CARD_STATE_INVALID;
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProStatNotValid
+ *
+ * Description      This function checks for the different status value in the
+ *                  process because of proprietary forum sector.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProStatNotValid(phFriNfc_NdefMap_t        *NdefMap,
+                                                   NFCSTATUS                 status)
+{
+    NFCSTATUS Result = status;
+
+    /* if NFC forum sector is not found before the proprietary one then
+       authenticate the next sector
+       Else it is a error*/
+    if(NdefMap->StdMifareContainer.NFCforumSectFlag ==
+        PH_FRINFC_MIFARESTD_FLAG0)
+    {
+        NdefMap->StdMifareContainer.ProprforumSectFlag =
+                        PH_FRINFC_MIFARESTD_PROP_3RD_CONFIG;
+        if(NdefMap->StdMifareContainer.currentBlock <
+            PH_FRINFC_MIFARESTD4K_BLK128)
+        {
+             /* Fix for the disovery problem,
+                if 1st sector is invalid then ignore the remaining sectors and
+                send an error if the card is mifare 1k,
+                if the card is mifare 4k, then update the block number to 67 and
+                continue.
+                Even if the authentication of that block fails then send error */
+            if(((NdefMap->StdMifareContainer.currentBlock <
+                PH_FRINFC_MIFARESTD_BLK4) &&
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD)) ||
+                ((NdefMap->StdMifareContainer.currentBlock <=
+                PH_FRINFC_MIFARESTD_MAD_BLK67) &&
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+                 NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)))
+            {
+                Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_NO_NDEF_SUPPORT);
+            }
+            else if((NdefMap->StdMifareContainer.currentBlock <
+                PH_FRINFC_MIFARESTD_BLK4) &&
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD ||
+                 NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD))
+            {
+                Result = NFCSTATUS_SUCCESS;
+                NdefMap->StdMifareContainer.currentBlock =
+                            PH_FRINFC_MIFARESTD_MAD_BLK67;
+            }
+            else if(((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_BLK4) >
+                PH_FRINFC_MIFARESTD1K_MAX_BLK) &&
+                (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD))
+            {
+                Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_NO_NDEF_SUPPORT);
+            }
+            else
+            {
+                NdefMap->StdMifareContainer.remainingSize -=
+                        (PH_FRINFC_MIFARESTD_MAD_BLK3 * PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+                NdefMap->StdMifareContainer.currentBlock +=
+                                PH_FRINFC_MIFARESTD_BLK4;
+                Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+            }
+        }
+        else if((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_BLK15) >
+                PH_FRINFC_MIFARESTD4K_MAX_BLK)
+        {
+            Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                        NFCSTATUS_NO_NDEF_SUPPORT);
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.remainingSize -=
+                        (PH_FRINFC_MIFARESTD_BLK15 * PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+            NdefMap->StdMifareContainer.currentBlock +=
+                                    PH_FRINFC_MIFARESTD_BLOCK_BYTES;
+            Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+        }
+        Result = ((Result != NFCSTATUS_SUCCESS)?
+                (PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                        NFCSTATUS_NO_NDEF_SUPPORT)):
+                phFriNfc_MifStd_H_AuthSector(NdefMap));
+    }
+    else if((NdefMap->StdMifareContainer.ProprforumSectFlag ==
+            PH_FRINFC_MIFARESTD_PROP_3RD_CONFIG) &&
+            (NdefMap->StdMifareContainer.NFCforumSectFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1))
+    {
+        /*  if the proprietary forum sector are found before
+            NFC forum sector then again a proprietary
+            forum sector are found after the NFC forum
+            sector */
+        Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_NO_NDEF_SUPPORT);
+    }
+    else
+    {
+        NdefMap->StdMifareContainer.ProprforumSectFlag =
+                        PH_FRINFC_MIFARESTD_PROP_2ND_CONFIG;
+        switch(NdefMap->PrevOperation)
+        {
+        case PH_FRINFC_NDEFMAP_CHECK_OPE:
+        case PH_FRINFC_NDEFMAP_GET_ACTSIZE_OPE:
+            Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                        NFCSTATUS_NO_NDEF_SUPPORT);
+            break;
+
+        case PH_FRINFC_NDEFMAP_READ_OPE:
+            if((NdefMap->TLVStruct.NdefTLVFoundFlag ==
+                PH_FRINFC_MIFARESTD_FLAG1) &&
+                (NdefMap->TLVStruct.NoLbytesinTLV ==
+                PH_FRINFC_MIFARESTD_VAL0))
+            {
+                *NdefMap->NumOfBytesRead = NdefMap->ApduBuffIndex;
+                Result = NFCSTATUS_SUCCESS;
+            }
+            else
+            {
+                Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                        NFCSTATUS_NO_NDEF_SUPPORT);
+            }
+            break;
+
+        case PH_FRINFC_NDEFMAP_WRITE_OPE:
+        default:
+            /* This means the further write is not possible,
+               EOF_NDEF_CONTAINER_REACHED */
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                                PH_FRINFC_MIFARESTD_FLAG1;
+            /* Write the length to the L field in the TLV */
+            NdefMap->StdMifareContainer.TempBlockNo =
+                        NdefMap->StdMifareContainer.currentBlock;
+            phFriNfc_MifStd_H_SetNdefBlkAuth(NdefMap);
+            NdefMap->StdMifareContainer.currentBlock =
+                            NdefMap->TLVStruct.NdefTLVBlock;
+            Result = phFriNfc_MifStd_H_RdtoWrNdefLen(NdefMap);
+            break;
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdBeforeWr
+ *
+ * Description      This function is used to read the NDEF TLV block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdBeforeWr(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RD_BEF_WR;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_WRITE_OPE;
+
+    Result = phFriNfc_MifStd_H_Rd16Bytes(NdefMap,
+                    NdefMap->StdMifareContainer.currentBlock);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProBytesToWr
+ *
+ * Description      This function processes the NDEF TLV block read bytes to
+ *                  start write from the NDEF TLV.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProBytesToWr(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     TempLength = PH_FRINFC_MIFARESTD_VAL0;
+
+    if(*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+    {
+        memcpy(&NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL1],
+                    NdefMap->SendRecvBuf,
+                    PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+
+        /* Write to Ndef TLV Block */
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                            NdefMap->StdMifareContainer.currentBlock;
+
+        TempLength = ((NdefMap->StdMifareContainer.currentBlock ==
+                        NdefMap->TLVStruct.NdefTLVBlock)?
+                        phFriNfc_MifStd_H_UpdateTLV(NdefMap):
+                        phFriNfc_MifStd_H_UpdRemTLV(NdefMap));
+
+        NdefMap->StdMifareContainer.remainingSize -=
+            ((NdefMap->StdMifareContainer.remSizeUpdFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)?
+            PH_FRINFC_MIFARESTD_VAL2:
+            PH_FRINFC_MIFARESTD_VAL0);
+
+        NdefMap->StdMifareContainer.remSizeUpdFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        NdefMap->State = PH_FRINFC_NDEFMAP_STATE_WR_TLV;
+        Result = ((TempLength == PH_FRINFC_MIFARESTD_BLOCK_BYTES)?
+                    phFriNfc_MifStd_H_WrTLV(NdefMap):
+                    phFriNfc_MifStd_H_fillSendBuf(NdefMap, TempLength));
+    }
+    else
+    {
+        Result = PHNFCSTVAL( CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_READ_FAILED);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_UpdateTLV
+ *
+ * Description      This function writes ndef to add the TLV structure.
+ *
+ * Returns          uint8_t     TempLength
+ *
+ ******************************************************************************/
+static uint8_t phFriNfc_MifStd_H_UpdateTLV(phFriNfc_NdefMap_t *NdefMap)
+{
+    uint8_t     TempLength = PH_FRINFC_MIFARESTD_VAL0;
+
+    TempLength = (uint8_t)(NdefMap->TLVStruct.NdefTLVByte + PH_FRINFC_MIFARESTD_VAL1);
+    /* Creating TLV */
+    if(NdefMap->TLVStruct.NULLTLVCount >= 2)
+    {
+        if((PH_FRINFC_MIFARESTD_BYTES_READ - TempLength) ==
+            PH_FRINFC_MIFARESTD_VAL0)
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+        }
+    }
+    else
+    {
+        switch((PH_FRINFC_MIFARESTD_BYTES_READ -
+                TempLength))
+        {
+        case PH_FRINFC_MIFARESTD_VAL0:
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+        break;
+
+        case PH_FRINFC_MIFARESTD_VAL1:
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->TLVStruct.prevLenByteValue =
+                                    (uint16_t)((NdefMap->SendRecvBuf[TempLength] >=
+                                    PH_FRINFC_MIFARESTD_NDEFTLV_L)?
+                                    PH_FRINFC_MIFARESTD_VAL0:
+                                    NdefMap->SendRecvBuf[TempLength]);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+        break;
+
+        case PH_FRINFC_MIFARESTD_VAL2:
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->TLVStruct.prevLenByteValue =
+                                    (uint16_t)((NdefMap->SendRecvBuf[TempLength] >=
+                                    PH_FRINFC_MIFARESTD_NDEFTLV_L)?
+                                    NdefMap->SendRecvBuf[(TempLength +
+                                                PH_FRINFC_MIFARESTD_VAL1)]:
+                                    NdefMap->SendRecvBuf[TempLength]);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        break;
+
+        default:
+            NdefMap->TLVStruct.prevLenByteValue =
+                            NdefMap->SendRecvBuf[TempLength];
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+        break;
+        }
+    }
+
+    return TempLength;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillSendBuf
+ *
+ * Description      It fill the send buffer to write.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_fillSendBuf(phFriNfc_NdefMap_t        *NdefMap,
+                                               uint8_t                   Length)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint16_t    RemainingBytes = PH_FRINFC_MIFARESTD_VAL0,
+                BytesToWrite = PH_FRINFC_MIFARESTD_VAL0;
+    uint8_t     index = PH_FRINFC_MIFARESTD_VAL0;
+
+    Length = (Length + PH_FRINFC_MIFARESTD_VAL1);
+
+    RemainingBytes = (uint16_t)((NdefMap->StdMifareContainer.remainingSize
+                        < (uint16_t)(NdefMap->ApduBufferSize -
+                        NdefMap->ApduBuffIndex))?
+                        NdefMap->StdMifareContainer.remainingSize:
+                        (NdefMap->ApduBufferSize -
+                        NdefMap->ApduBuffIndex));
+
+    NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] =
+                            NdefMap->StdMifareContainer.currentBlock;
+    /* Get the number of bytes that can be written after copying
+       the internal buffer */
+    BytesToWrite = ((RemainingBytes <
+                    ((PH_FRINFC_MIFARESTD_WR_A_BLK - Length) -
+                    NdefMap->StdMifareContainer.internalLength))?
+                    RemainingBytes:
+                    ((PH_FRINFC_MIFARESTD_WR_A_BLK - Length) -
+                    NdefMap->StdMifareContainer.internalLength));
+
+    if(NdefMap->StdMifareContainer.internalLength >
+        PH_FRINFC_MIFARESTD_VAL0)
+    {
+        /* copy the internal buffer to the send buffer */
+        memcpy(&(NdefMap->SendRecvBuf[
+                    Length]),
+                    NdefMap->StdMifareContainer.internalBuf,
+                    NdefMap->StdMifareContainer.internalLength);
+    }
+
+    /* Copy Bytes to write in the send buffer */
+    memcpy(&(NdefMap->SendRecvBuf[
+                (Length +
+                NdefMap->StdMifareContainer.internalLength)]),
+                &(NdefMap->ApduBuffer[NdefMap->ApduBuffIndex]),
+                BytesToWrite);
+
+    /* update number of bytes written from the user buffer */
+    NdefMap->NumOfBytesWritten = BytesToWrite;
+
+    /* check the exact number of bytes written to a block including the
+        internal length */
+    *NdefMap->DataCount =
+            ((BytesToWrite + NdefMap->StdMifareContainer.internalLength
+            + Length) - PH_FRINFC_MIFARESTD_VAL1);
+
+    /* if total bytes to write in the card is less than 4 bytes then
+    pad zeroes till 4 bytes */
+    if((BytesToWrite + NdefMap->StdMifareContainer.internalLength +
+        Length) < PH_FRINFC_MIFARESTD_WR_A_BLK)
+    {
+        for(index = (uint8_t)(BytesToWrite +
+                    NdefMap->StdMifareContainer.internalLength +
+                    Length);
+            index < PH_FRINFC_MIFARESTD_WR_A_BLK;
+            index++)
+            {
+                NdefMap->SendRecvBuf[index] = (uint8_t)((index ==
+                                    (BytesToWrite + Length +
+                                    NdefMap->StdMifareContainer.internalLength))?
+                                    PH_FRINFC_MIFARESTD_TERMTLV_T:
+                                    PH_FRINFC_MIFARESTD_NULLTLV_T);
+
+                NdefMap->TLVStruct.SetTermTLVFlag = PH_FRINFC_MIFARESTD_FLAG1;
+            }
+    }
+
+    NdefMap->TLVStruct.SetTermTLVFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+    /* A temporary buffer to hold four bytes of data that is
+       written to the card */
+    memcpy(NdefMap->StdMifareContainer.Buffer,
+                &(NdefMap->SendRecvBuf[
+                PH_FRINFC_MIFARESTD_VAL1]),
+                PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_WR_TLV;
+    Result = phFriNfc_MifStd_H_WrTLV(NdefMap);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_WrTLV
+ *
+ * Description      This function writes 16 bytes in a block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_WrTLV(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+    /* Write from here */
+    NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_WRITE;
+
+    NdefMap->Cmd.MfCmd = phHal_eMifareWrite16;
+
+    *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+
+    /* Call the Overlapped HAL Transceive function */
+    Result = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProWrTLV
+ *
+ * Description      This function processes the write TLV bytes in a block.
+ *
+ * Returns          This function return NFCSTATUS_SUCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProWrTLV(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /* Check that if complete TLV has been written in the
+       card if yes enter the below check or go to else*/
+    if(((((PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+            NdefMap->TLVStruct.NdefTLVByte) ==
+            PH_FRINFC_MIFARESTD_VAL1) &&
+            (NdefMap->TLVStruct.NULLTLVCount >=
+            PH_FRINFC_MIFARESTD_VAL2)) ||
+            (((PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+            NdefMap->TLVStruct.NdefTLVByte) <=
+            PH_FRINFC_MIFARESTD_VAL3) &&
+            (NdefMap->TLVStruct.NULLTLVCount ==
+            PH_FRINFC_MIFARESTD_VAL0))) &&
+            (NdefMap->StdMifareContainer.currentBlock ==
+            NdefMap->TLVStruct.NdefTLVBlock))
+    {
+        /* increment the block and chekc the block is in the same sector
+           using the block check function */
+        NdefMap->StdMifareContainer.RdBeforeWrFlag = PH_FRINFC_MIFARESTD_FLAG1;
+        NdefMap->StdMifareContainer.currentBlock++;
+        NdefMap->StdMifareContainer.NdefBlocks++;
+        Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+        if(Result == NFCSTATUS_SUCCESS)
+        {
+            Result = ((NdefMap->StdMifareContainer.AuthDone ==
+                        PH_FRINFC_MIFARESTD_FLAG0)?
+                        phFriNfc_MifStd_H_AuthSector(NdefMap):
+                        phFriNfc_MifStd_H_RdBeforeWr(NdefMap));
+        }
+    }
+    else
+    {
+        NdefMap->StdMifareContainer.RdBeforeWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        if(NdefMap->ApduBuffIndex <
+                    (uint16_t)NdefMap->ApduBufferSize)
+        {
+            if(*NdefMap->DataCount < PH_FRINFC_MIFARESTD_BLOCK_BYTES)
+            {
+                /* Write complete, so next byte shall be */
+                NdefMap->StdMifareContainer.internalLength =
+                    *NdefMap->DataCount;
+
+                /* Copy bytes less than 16 to internal buffer
+                   for the next write this can be used */
+                memcpy( NdefMap->StdMifareContainer.internalBuf,
+                        NdefMap->StdMifareContainer.Buffer,
+                        NdefMap->StdMifareContainer.internalLength);
+            }
+
+            /* Increment the Send Buffer index */
+             NdefMap->ApduBuffIndex += NdefMap->NumOfBytesWritten;
+
+             NdefMap->StdMifareContainer.remainingSize -=
+                                        NdefMap->NumOfBytesWritten;
+
+             /* Check for the End of Card */
+            if((NdefMap->StdMifareContainer.remainingSize  ==
+                PH_FRINFC_MIFARESTD_VAL0) ||
+                (NdefMap->ApduBuffIndex == NdefMap->ApduBufferSize))
+            {
+                NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                (uint8_t)((NdefMap->StdMifareContainer.remainingSize  == 0)?
+                    PH_FRINFC_MIFARESTD_FLAG1:PH_FRINFC_MIFARESTD_FLAG0);
+
+                if(NdefMap->StdMifareContainer.internalLength ==
+                    PH_FRINFC_MIFARESTD_VAL0)
+                {
+                    NdefMap->StdMifareContainer.currentBlock++;
+                    /* Mifare 4k Card, After 128th Block
+                    each sector = 16 blocks in Mifare 4k */
+                    Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+                    NdefMap->StdMifareContainer.NdefBlocks++;
+                }
+
+                NdefMap->TLVStruct.SetTermTLVFlag =
+                    (uint8_t)(((NdefMap->StdMifareContainer.remainingSize ==
+                            PH_FRINFC_MIFARESTD_VAL0) ||
+                            (NdefMap->TLVStruct.SetTermTLVFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1))?
+                            PH_FRINFC_MIFARESTD_FLAG1:
+                            PH_FRINFC_MIFARESTD_FLAG0);
+
+            }
+            else
+            {
+                NdefMap->StdMifareContainer.currentBlock++;
+                /* Mifare 4k Card, After 128th Block
+                each sector = 16 blocks in Mifare 4k */
+                Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+                if(Result == NFCSTATUS_SUCCESS)
+                {
+                    NdefMap->StdMifareContainer.NdefBlocks++;
+                    Result = ((NdefMap->StdMifareContainer.AuthDone ==
+                                PH_FRINFC_MIFARESTD_FLAG1)?
+                                phFriNfc_MifStd_H_WrABlock(NdefMap):
+                                phFriNfc_MifStd_H_AuthSector(NdefMap));
+                }
+            }
+        }
+    }
+
+    if((Result == NFCSTATUS_SUCCESS) &&
+        (NdefMap->TLVStruct.SetTermTLVFlag !=
+        PH_FRINFC_MIFARESTD_FLAG1) &&
+        (NdefMap->StdMifareContainer.remainingSize >
+        PH_FRINFC_MIFARESTD_VAL0))
+    {
+        Result = phFriNfc_MifStd_H_WrTermTLV(NdefMap);
+    }
+    else
+    {
+        if((Result == NFCSTATUS_SUCCESS) &&
+            (NdefMap->TLVStruct.SetTermTLVFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1))
+        {
+            /* Write the length to the L field in the TLV */
+            NdefMap->StdMifareContainer.TempBlockNo =
+                        NdefMap->StdMifareContainer.currentBlock;
+            phFriNfc_MifStd_H_SetNdefBlkAuth(NdefMap);
+            NdefMap->StdMifareContainer.currentBlock =
+                            NdefMap->TLVStruct.NdefTLVBlock;
+            Result = phFriNfc_MifStd_H_RdtoWrNdefLen(NdefMap);
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_UpdRemTLV
+ *
+ * Description      This function updates the remaining TLV.
+ *
+ * Returns          uint8_t     TempLength : length value
+ *
+ ******************************************************************************/
+static uint8_t phFriNfc_MifStd_H_UpdRemTLV(phFriNfc_NdefMap_t        *NdefMap)
+{
+    uint8_t     TempLength = PH_FRINFC_MIFARESTD_VAL1;
+
+    if(NdefMap->TLVStruct.NULLTLVCount >=
+        PH_FRINFC_MIFARESTD_VAL2)
+    {
+        NdefMap->TLVStruct.prevLenByteValue = NdefMap->SendRecvBuf[TempLength];
+        NdefMap->SendRecvBuf[TempLength] =
+                        PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+    }
+    else
+    {
+        switch((PH_FRINFC_MIFARESTD_BLOCK_BYTES -
+            NdefMap->TLVStruct.NdefTLVByte))
+        {
+        case PH_FRINFC_MIFARESTD_VAL1:
+            NdefMap->TLVStruct.prevLenByteValue =
+                    (((NdefMap->SendRecvBuf[TempLength] ==
+                    PH_FRINFC_MIFARESTD_NDEFTLV_L))?
+                    (((uint16_t)NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL1)]
+                    << PH_FRINFC_MIFARESTD_LEFTSHIFT8) +
+                    NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL2)]):
+                    NdefMap->SendRecvBuf[TempLength]);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+            break;
+
+        case PH_FRINFC_MIFARESTD_VAL2:
+            NdefMap->TLVStruct.prevLenByteValue =
+                    (((NdefMap->SendRecvBuf[TempLength] ==
+                        PH_FRINFC_MIFARESTD_NDEFTLV_L))?
+                    (((uint16_t)NdefMap->SendRecvBuf[TempLength] <<
+                    PH_FRINFC_MIFARESTD_LEFTSHIFT8) +
+                    NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL1)]):
+                    NdefMap->SendRecvBuf[TempLength]);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+            break;
+
+        case PH_FRINFC_MIFARESTD_VAL3:
+        default:
+            NdefMap->TLVStruct.prevLenByteValue =
+                                            ((NdefMap->TLVStruct.prevLenByteValue <<
+                                            PH_FRINFC_MIFARESTD_LEFTSHIFT8)
+                                            + NdefMap->SendRecvBuf[TempLength]);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L0;
+            break;
+        }
+    }
+
+    return TempLength;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillTLV1
+ *
+ * Description      This function updates the length field if more than one
+ *                  NULL TLVs exists before of the NDEF TLV.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_fillTLV1(phFriNfc_NdefMap_t        *NdefMap)
+{
+    uint8_t     TempLength = (uint8_t)(NdefMap->TLVStruct.NdefTLVByte +
+                            PH_FRINFC_MIFARESTD_VAL1);
+
+    NdefMap->TLVStruct.prevLenByteValue =
+                    ((NdefMap->Offset == PH_FRINFC_NDEFMAP_SEEK_CUR)?
+                    (NdefMap->TLVStruct.prevLenByteValue +
+                    NdefMap->ApduBuffIndex):
+                    NdefMap->ApduBuffIndex);
+
+    NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG1;
+    switch(NdefMap->TLVStruct.NdefTLVByte)
+    {
+    case PH_FRINFC_MIFARESTD_VAL0:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                            PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+
+            NdefMap->StdMifareContainer.RdAfterWrFlag =
+                                PH_FRINFC_MIFARESTD_FLAG0;
+        }
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL1:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength - PH_FRINFC_MIFARESTD_VAL1] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                            PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            NdefMap->SendRecvBuf[(TempLength +
+                                PH_FRINFC_MIFARESTD_VAL1)] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+            NdefMap->StdMifareContainer.RdAfterWrFlag =
+                                PH_FRINFC_MIFARESTD_FLAG0;
+        }
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL15:
+        /* if "Type" of TLV present at byte 15 */
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            /* Update the null TLV, ndef TLV block and ndef TLV byte */
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL3);
+
+            NdefMap->SendRecvBuf[(TempLength - PH_FRINFC_MIFARESTD_VAL2)] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            NdefMap->SendRecvBuf[(TempLength - PH_FRINFC_MIFARESTD_VAL1)] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                            PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        }
+        break;
+
+    default:
+        /* Already the TLV is present so just append the length field */
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            /* Update the null TLV, ndef TLV block and ndef TLV byte */
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL3);
+
+            NdefMap->SendRecvBuf[(TempLength - PH_FRINFC_MIFARESTD_VAL2)] =
+                                (uint8_t)PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            NdefMap->SendRecvBuf[(TempLength - PH_FRINFC_MIFARESTD_VAL1)] =
+                                (uint8_t)PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            NdefMap->SendRecvBuf[TempLength] =
+                                (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                                PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL1)] =
+                                (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            NdefMap->SendRecvBuf[(TempLength + PH_FRINFC_MIFARESTD_VAL1)] =
+                                (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        NdefMap->StdMifareContainer.RdAfterWrFlag =
+                                PH_FRINFC_MIFARESTD_FLAG0;
+        break;
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillTLV2
+ *
+ * Description      This function is updates the length field if more than one
+ *                  NULL TLVs does not exists before the TLV.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_fillTLV2(phFriNfc_NdefMap_t        *NdefMap)
+{
+    uint8_t     TempLength = (uint8_t)(NdefMap->TLVStruct.NdefTLVByte +
+                                PH_FRINFC_MIFARESTD_VAL1);
+
+    NdefMap->TLVStruct.prevLenByteValue = ((NdefMap->Offset ==
+                                    PH_FRINFC_NDEFMAP_SEEK_CUR)?
+                                    (NdefMap->TLVStruct.prevLenByteValue +
+                                    NdefMap->ApduBuffIndex):
+                                    NdefMap->ApduBuffIndex);
+    NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG1;
+    switch(NdefMap->TLVStruct.NdefTLVByte)
+    {
+    case PH_FRINFC_MIFARESTD_VAL13:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                                                PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+
+            /* Update the null TLV, ndef TLV block and ndef TLV byte */
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL2;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL1);
+
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        }
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL14:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+        }
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL15:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+        }
+        break;
+
+    default:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                                                PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                                (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+
+            /* Update the null TLV, ndef TLV block and ndef TLV byte */
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL2;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL1);
+
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                                (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+        break;
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_CallWrNdefLen
+ *
+ * Description      This function is used to increment/decrement the ndef tlv block
+ *                  and read the block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_CallWrNdefLen(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    if(NdefMap->TLVStruct.NULLTLVCount >= PH_FRINFC_MIFARESTD_VAL2)
+    {
+        if((NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL0) ||
+            (NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL1) )
+        {
+            /* In this case, current block is decremented because the
+               NULL TLVs are in the previous block */
+            NdefMap->StdMifareContainer.currentBlock--;
+            Result = phFriNfc_MifStd_H_BlkChk_1(NdefMap);
+        }
+        else
+        {
+            /* case NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL15:
+               Current block is incremented to update the remaining TLV
+               structure */
+            NdefMap->StdMifareContainer.currentBlock++;
+            Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+        }
+    }
+    else
+    {
+        if((NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL13) ||
+            (NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL14) ||
+            (NdefMap->TLVStruct.NdefTLVByte == PH_FRINFC_MIFARESTD_VAL15))
+        {
+            /* Current block is incremented to update the remaining TLV
+                structure */
+            NdefMap->StdMifareContainer.currentBlock++;
+            Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+        }
+    }
+
+    Result = ((Result == NFCSTATUS_SUCCESS)?
+            phFriNfc_MifStd_H_RdtoWrNdefLen(NdefMap):
+            Result);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_BlkChk_1
+ *
+ * Description      This function check the current block is valid or not
+ *                  if not valid decrement the current block till the valid block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_BlkChk_1(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result  = NFCSTATUS_SUCCESS;
+    uint8_t     SectorID = PH_FRINFC_MIFARESTD_VAL0;
+
+    /* Get a Sector ID for the Current Block */
+    SectorID = phFriNfc_MifStd_H_GetSect(NdefMap->StdMifareContainer.currentBlock);
+
+    /* Check the sector id is valid or not and if valid then check the
+        current block is greater than 128 */
+    if((NdefMap->StdMifareContainer.aid[SectorID] ==
+        PH_FRINFC_MIFARESTD_NDEF_COMP) &&
+        (((SectorID <= PH_FRINFC_MIFARESTD_VAL15) &&
+        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD)) ||
+        ((SectorID <= PH_FRINFC_MIFARESTD_SECTOR_NO31) &&
+        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD)) ||
+        ((SectorID <= PH_FRINFC_MIFARESTD_SECTOR_NO39) &&
+        (NdefMap->CardType == PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD))))
+    {
+        if(NdefMap->StdMifareContainer.currentBlock > 128)
+        {
+            NdefMap->TLVStruct.NdefTLVAuthFlag =
+            ((((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_VAL1) %
+                PH_FRINFC_MIFARESTD_MAD_BLK16) ==
+                PH_FRINFC_MIFARESTD_VAL0)?
+                PH_FRINFC_MIFARESTD_FLAG1:
+                PH_FRINFC_MIFARESTD_FLAG0);
+
+                NdefMap->StdMifareContainer.currentBlock -=
+            ((((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_VAL1) %
+                PH_FRINFC_MIFARESTD_MAD_BLK16) ==
+                PH_FRINFC_MIFARESTD_VAL0)?
+                PH_FRINFC_MIFARESTD_VAL1:
+                PH_FRINFC_MIFARESTD_VAL0);
+
+        }
+        else
+        {
+            NdefMap->TLVStruct.NdefTLVAuthFlag =
+            ((((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_VAL1) %
+                PH_FRINFC_MIFARESTD_BLK4) ==
+                PH_FRINFC_MIFARESTD_VAL0)?
+                PH_FRINFC_MIFARESTD_FLAG1:
+                PH_FRINFC_MIFARESTD_FLAG0);
+
+            NdefMap->StdMifareContainer.currentBlock -=
+            ((((NdefMap->StdMifareContainer.currentBlock +
+                PH_FRINFC_MIFARESTD_VAL1) %
+                PH_FRINFC_MIFARESTD_BLK4) ==
+                PH_FRINFC_MIFARESTD_VAL1)?
+                PH_FRINFC_MIFARESTD_VAL1:
+                PH_FRINFC_MIFARESTD_VAL0);
+
+        }
+    }
+    else
+    {
+        /*Error: No Ndef Compliant Sectors present.*/
+        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                            NFCSTATUS_INVALID_PARAMETER);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillTLV1_1
+ *
+ * Description      This function updates the length of the TLV if NULL TLVs
+ *                  greater than or equal to 2.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_fillTLV1_1(phFriNfc_NdefMap_t        *NdefMap)
+{
+    switch(NdefMap->TLVStruct.NdefTLVByte)
+    {
+    case PH_FRINFC_MIFARESTD_VAL0:
+        /* In the first write ndef length procedure, the
+           length is updated, in this case T and L = 0xFF of TLV are
+           updated */
+        NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+        NdefMap->TLVStruct.NdefTLVBlock =
+                            NdefMap->StdMifareContainer.currentBlock;
+        NdefMap->TLVStruct.NdefTLVByte = PH_FRINFC_MIFARESTD_VAL14;
+
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL15] =
+                                PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL16] =
+                                PH_FRINFC_MIFARESTD_NDEFTLV_L;
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL1:
+        /* In the first write ndef length procedure, the
+           length is updated, in this case T of TLV is
+           updated */
+        NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL0;
+        NdefMap->TLVStruct.NdefTLVBlock =
+                            NdefMap->StdMifareContainer.currentBlock;
+        NdefMap->TLVStruct.NdefTLVByte =
+                            PH_FRINFC_MIFARESTD_VAL15;
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL16] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL15:
+    default:
+        /* In the first ndef write length, part of the L field or only T
+           (if update length is less than 255) is updated */
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL1] =
+                                    (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        break;
+    }
+    NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_fillTLV2_1
+ *
+ * Description      This function updates the length of the TLV if NULL TLVs
+ *                  less than 2.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd_H_fillTLV2_1(phFriNfc_NdefMap_t        *NdefMap)
+{
+    uint8_t     TempLength = PH_FRINFC_MIFARESTD_VAL1;
+    switch(NdefMap->TLVStruct.NdefTLVByte)
+    {
+    case PH_FRINFC_MIFARESTD_VAL13:
+        /* In last write ndef length, part of length (L) field of TLV
+           is updated now */
+        NdefMap->SendRecvBuf[TempLength] =
+                    (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL14:
+        /* In last write ndef length, part of length (L) field of TLV
+           is updated now */
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+                    PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                            PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL2;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL1);
+            NdefMap->SendRecvBuf[TempLength] = PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                                        (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        break;
+
+    case PH_FRINFC_MIFARESTD_VAL15:
+    default:
+        if(NdefMap->TLVStruct.prevLenByteValue >=
+            PH_FRINFC_MIFARESTD_NDEFTLV_L)
+        {
+            /* In last write ndef length, only T of TLV is updated and
+               length (L) field of TLV is updated now */
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_L;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)(NdefMap->TLVStruct.prevLenByteValue >>
+                            PH_FRINFC_MIFARESTD_RIGHTSHIFT8);
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                            (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        else
+        {
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NULLTLV_T;
+            TempLength++;
+            NdefMap->TLVStruct.NULLTLVCount = PH_FRINFC_MIFARESTD_VAL2;
+            NdefMap->TLVStruct.NdefTLVBlock =
+                                NdefMap->StdMifareContainer.currentBlock;
+            NdefMap->TLVStruct.NdefTLVByte =
+                                (TempLength - PH_FRINFC_MIFARESTD_VAL1);
+            NdefMap->SendRecvBuf[TempLength] =
+                            PH_FRINFC_MIFARESTD_NDEFTLV_T;
+            TempLength++;
+            NdefMap->SendRecvBuf[TempLength] =
+                        (uint8_t)NdefMap->TLVStruct.prevLenByteValue;
+        }
+        break;
+    }
+    NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_RdTLV
+ *
+ * Description      This function reads the TLV block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_RdTLV(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_RD_TLV;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_READ_OPE;
+
+    Result = phFriNfc_MifStd_H_Rd16Bytes(NdefMap,
+                NdefMap->StdMifareContainer.currentBlock);
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProRdTLV
+ *
+ * Description      This function processes the read TLV block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProRdTLV(phFriNfc_NdefMap_t        *NdefMap)
+{
+    NFCSTATUS   Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                    NFCSTATUS_INVALID_DEVICE_REQUEST);
+    uint8_t     TempLength = PH_FRINFC_MIFARESTD_VAL0,
+                NDEFFlag = PH_FRINFC_MIFARESTD_FLAG1;
+
+    /*TempLength = (uint8_t)(((NdefMap->TLVStruct.NULLTLVCount >=
+                PH_FRINFC_MIFARESTD_VAL2) &&
+                (NdefMap->TLVStruct.BytesRemainLinTLV > 0xFE))?
+                ((NdefMap->TLVStruct.NdefTLVByte +
+                PH_FRINFC_MIFARESTD_VAL2)%
+                PH_FRINFC_MIFARESTD_VAL16):
+                ((NdefMap->TLVStruct.NdefTLVByte +
+                PH_FRINFC_MIFARESTD_VAL4)%
+                PH_FRINFC_MIFARESTD_VAL16));*/
+
+    TempLength = (uint8_t)((NdefMap->TLVStruct.BytesRemainLinTLV <= 0xFE)?
+                        ((NdefMap->TLVStruct.NdefTLVByte +
+                        PH_FRINFC_MIFARESTD_VAL2)%
+                        PH_FRINFC_MIFARESTD_VAL16):
+                        ((NdefMap->TLVStruct.NdefTLVByte +
+                        PH_FRINFC_MIFARESTD_VAL4)%
+                        PH_FRINFC_MIFARESTD_VAL16));
+
+    if((*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ) &&
+        (NdefMap->ApduBuffIndex < NdefMap->ApduBufferSize))
+    {
+        if(NdefMap->TLVStruct.BytesRemainLinTLV != 0)
+        {
+            NDEFFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            /* To read the remaining length (L) in TLV */
+            Result = phFriNfc_MifStd_H_RemainTLV(NdefMap, &NDEFFlag, &TempLength);
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_WrTermTLV
+ *
+ * Description      This function is used to write the terminator TLV.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_WrTermTLV(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+    uint8_t     index = PH_FRINFC_MIFARESTD_VAL0;
+
+    /* Change the state to check ndef compliancy */
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_TERM_TLV;
+
+    NdefMap->SendRecvBuf[index] =
+                        NdefMap->StdMifareContainer.currentBlock;
+    index++;
+    NdefMap->SendRecvBuf[index] = PH_FRINFC_MIFARESTD_TERMTLV_T;
+    index++;
+
+    while(index < PH_FRINFC_MIFARESTD_WR_A_BLK)
+    {
+        NdefMap->SendRecvBuf[index] = PH_FRINFC_MIFARESTD_NULLTLV_T;
+        index++;
+    }
+
+    NdefMap->TLVStruct.SetTermTLVFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+    Result = phFriNfc_MifStd_H_WrTLV(NdefMap);
+
+    return Result;
+}
+
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProWrABlock
+ *
+ * Description      This function processes the write a block.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProWrABlock(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    NdefMap->StdMifareContainer.WrLength = PH_FRINFC_MIFARESTD_VAL0;
+    if(NdefMap->ApduBuffIndex <
+        (uint16_t)NdefMap->ApduBufferSize)
+    {
+        /* Remaining bytes to write < 16 */
+        if(NdefMap->StdMifareContainer.RemainingBufFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)
+        {
+            /* Write complete, so next byte shall be */
+            NdefMap->StdMifareContainer.internalLength =
+                *NdefMap->DataCount;
+
+            /* Copy bytes less than 16 to internal buffer
+               for the next write this can be used */
+            memcpy( NdefMap->StdMifareContainer.internalBuf,
+                    NdefMap->StdMifareContainer.Buffer,
+                    NdefMap->StdMifareContainer.internalLength);
+
+            /* Increment the Send Buffer index */
+            NdefMap->ApduBuffIndex += NdefMap->NumOfBytesWritten;
+
+            NdefMap->StdMifareContainer.remainingSize -=
+                    NdefMap->NumOfBytesWritten;
+
+            NdefMap->StdMifareContainer.RemainingBufFlag = PH_FRINFC_MIFARESTD_VAL0;
+            /* Check for the End of Card */
+                NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                    (uint8_t)((NdefMap->StdMifareContainer.remainingSize ==
+                    PH_FRINFC_MIFARESTD_VAL0)?
+                    PH_FRINFC_MIFARESTD_FLAG1:
+                    PH_FRINFC_MIFARESTD_FLAG0);
+
+            NdefMap->TLVStruct.SetTermTLVFlag =
+                    (uint8_t)(((NdefMap->StdMifareContainer.remainingSize ==
+                            PH_FRINFC_MIFARESTD_VAL0) ||
+                            (NdefMap->TLVStruct.SetTermTLVFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1))?
+                            PH_FRINFC_MIFARESTD_FLAG1:
+                            PH_FRINFC_MIFARESTD_FLAG0);
+
+        } /* internal Buffer > Send Buffer */
+        else if(NdefMap->StdMifareContainer.internalBufFlag ==
+                PH_FRINFC_MIFARESTD_FLAG1)
+        {
+            memcpy(NdefMap->StdMifareContainer.internalBuf,
+                    NdefMap->StdMifareContainer.Buffer,
+                    *NdefMap->DataCount);
+
+            NdefMap->StdMifareContainer.internalLength =
+                                    *NdefMap->DataCount;
+
+            /* Increment the Send Buffer index */
+            NdefMap->ApduBuffIndex +=
+                    NdefMap->NumOfBytesWritten;
+
+            NdefMap->StdMifareContainer.remainingSize -=
+                    NdefMap->NumOfBytesWritten;
+
+            NdefMap->StdMifareContainer.internalBufFlag =
+                                PH_FRINFC_MIFARESTD_FLAG0;
+            /* Check for the End of Card */
+            NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                (uint8_t)(((NdefMap->StdMifareContainer.remainingSize ==
+                    PH_FRINFC_MIFARESTD_VAL0) &&
+                    (NdefMap->StdMifareContainer.internalLength ==
+                    PH_FRINFC_MIFARESTD_VAL0))?
+                    PH_FRINFC_MIFARESTD_FLAG1:
+                    PH_FRINFC_MIFARESTD_FLAG0);
+
+            NdefMap->TLVStruct.SetTermTLVFlag =
+                    (uint8_t)(((NdefMap->StdMifareContainer.remainingSize ==
+                            PH_FRINFC_MIFARESTD_VAL0) ||
+                            (NdefMap->TLVStruct.SetTermTLVFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1))?
+                            PH_FRINFC_MIFARESTD_FLAG1:
+                            PH_FRINFC_MIFARESTD_FLAG0);
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.internalLength = 0;
+            /* Increment the Send Buffer index */
+            NdefMap->ApduBuffIndex +=
+                    NdefMap->NumOfBytesWritten;
+            NdefMap->StdMifareContainer.remainingSize -=
+                    NdefMap->NumOfBytesWritten;
+
+            /* Check for the End of Card */
+            if((NdefMap->StdMifareContainer.remainingSize ==
+                    PH_FRINFC_MIFARESTD_VAL0) ||
+                    (NdefMap->ApduBuffIndex == NdefMap->ApduBufferSize))
+            {
+                NdefMap->StdMifareContainer.ReadWriteCompleteFlag =
+                (uint8_t)((NdefMap->StdMifareContainer.remainingSize == 0)?
+                    PH_FRINFC_MIFARESTD_FLAG1:PH_FRINFC_MIFARESTD_FLAG0);
+
+                if(NdefMap->StdMifareContainer.internalLength ==
+                    PH_FRINFC_MIFARESTD_VAL0)
+                {
+                    NdefMap->StdMifareContainer.currentBlock++;
+                    /* Mifare 4k Card, After 128th Block
+                    each sector = 16 blocks in Mifare 4k */
+                    Result = ((NdefMap->StdMifareContainer.remainingSize == 0)?
+                                Result:
+                                phFriNfc_MifStd_H_BlkChk(NdefMap));
+                    NdefMap->StdMifareContainer.NdefBlocks++;
+                }
+                NdefMap->TLVStruct.SetTermTLVFlag =
+                    (uint8_t)(((NdefMap->StdMifareContainer.remainingSize ==
+                            PH_FRINFC_MIFARESTD_VAL0) ||
+                            (NdefMap->TLVStruct.SetTermTLVFlag ==
+                            PH_FRINFC_MIFARESTD_FLAG1))?
+                            PH_FRINFC_MIFARESTD_FLAG1:
+                            PH_FRINFC_MIFARESTD_FLAG0);
+            }
+            else
+            {
+                NdefMap->StdMifareContainer.currentBlock++;
+                NdefMap->StdMifareContainer.WrLength =
+                    (uint16_t)(NdefMap->ApduBufferSize - NdefMap->ApduBuffIndex);
+                /* Mifare 4k Card, After 128th Block
+                each sector = 16 blocks in Mifare 4k */
+                Result = phFriNfc_MifStd_H_BlkChk(NdefMap);
+                if(Result == NFCSTATUS_SUCCESS)
+                {
+                    NdefMap->StdMifareContainer.NdefBlocks++;
+                    Result = ((NdefMap->StdMifareContainer.AuthDone ==
+                                PH_FRINFC_MIFARESTD_FLAG1)?
+                                phFriNfc_MifStd_H_WrABlock(NdefMap):
+                                phFriNfc_MifStd_H_AuthSector(NdefMap));
+                }
+            }
+        }
+    }
+    else
+    {
+        Result = PHNFCSTVAL(    CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_DEVICE_REQUEST);
+    }
+
+    if((Result == NFCSTATUS_SUCCESS) &&
+        (NdefMap->TLVStruct.SetTermTLVFlag !=
+        PH_FRINFC_MIFARESTD_FLAG1) &&
+        (NdefMap->StdMifareContainer.remainingSize >
+        PH_FRINFC_MIFARESTD_VAL0))
+    {
+        Result = phFriNfc_MifStd_H_WrTermTLV(NdefMap);
+    }
+    else
+    {
+        if((Result == NFCSTATUS_SUCCESS) &&
+            (NdefMap->TLVStruct.SetTermTLVFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1))
+        {
+            /* Write the length to the L field in the TLV */
+            NdefMap->StdMifareContainer.TempBlockNo =
+                        NdefMap->StdMifareContainer.currentBlock;
+            phFriNfc_MifStd_H_SetNdefBlkAuth(NdefMap);
+            NdefMap->StdMifareContainer.currentBlock =
+                            NdefMap->TLVStruct.NdefTLVBlock;
+            Result = phFriNfc_MifStd_H_RdtoWrNdefLen(NdefMap);
+        }
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_CallDisCon
+ *
+ * Description      This function trigger disconnect after the authentication
+ *                  has failed.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_CallDisCon(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /* Set Ndef State */
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_DISCONNECT;
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+
+    Result = phNxNciExtns_MifareStd_Reconnect();
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_CallConnect
+ *
+ * Description      This function sets card state to connect after the
+ *                  authentication has failed.
+ *
+ * Returns          NFCSTATUS_SUCCESS
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_CallConnect(phFriNfc_NdefMap_t   *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    /* Set Ndef State */
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_CONNECT;
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd1k_H_BlkChk
+ *
+ * Description      This function used to update the current block.
+ *
+ * Returns          void
+ *
+ ******************************************************************************/
+static void phFriNfc_MifStd1k_H_BlkChk(phFriNfc_NdefMap_t   *NdefMap,
+                                    uint8_t              SectorID,
+                                    uint8_t              *callbreak)
+{
+    /* every last block of a sector needs to be skipped */
+    if(((NdefMap->StdMifareContainer.currentBlock + PH_FRINFC_MIFARESTD_INC_1) %
+        PH_FRINFC_MIFARESTD_BLK4) == 0)
+    {
+        NdefMap->StdMifareContainer.currentBlock++;
+    }
+    else
+    {
+        if(NdefMap->StdMifareContainer.aid[SectorID] ==
+            PH_FRINFC_MIFARESTD_NDEF_COMP)
+        {
+            /* Check whether the block is first block of a (next)new sector and
+            also check if it is first block then internal length is zero
+            or not. Because once Authentication is done for the sector again
+            we should not authenticate it again */
+            if((NdefMap->StdMifareContainer.currentBlock ==
+                (SectorID * PH_FRINFC_MIFARESTD_BLK4)) &&
+                (NdefMap->StdMifareContainer.internalLength == 0))
+            {
+                NdefMap->StdMifareContainer.AuthDone = 0;
+            }
+            *callbreak = 1;
+        }
+        else
+        {
+            NdefMap->StdMifareContainer.currentBlock += PH_FRINFC_MIFARESTD_BLK4;
+        }
+    }
+
+    return;
+}
+
+/******************************************************************************
+ * Function         phFrinfc_MifareClassic_GetContainerSize
+ *
+ * Description      This function calculate the card size.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS phFrinfc_MifareClassic_GetContainerSize(const phFriNfc_NdefMap_t *NdefMap,
+                                   uint32_t *maxSize, uint32_t *actualSize)
+{
+    NFCSTATUS   result = NFCSTATUS_SUCCESS;
+    uint16_t    valid_no_of_bytes = 0;
+    uint8_t     sect_aid_index = 0;
+    /*  Mifare std card */
+
+    /*  Max size is the number of NDEF compliant blocks in the card
+        multiplied by 16 bytes */
+
+    /* Skip all the non ndef sectors */
+    while ((sect_aid_index < PH_FRINFC_NDEFMAP_MIFARESTD_TOTALNO_BLK) &&
+          (PH_FRINFC_MIFARESTD_NON_NDEF_COMP == NdefMap->StdMifareContainer.aid[sect_aid_index]))
+    {
+        sect_aid_index++;
+    }
+
+    /* Parse only the contiguous NDEF sectors for the max size calculation */
+     while ((sect_aid_index <PH_FRINFC_NDEFMAP_MIFARESTD_TOTALNO_BLK)&&
+           (PH_FRINFC_MIFARESTD_NDEF_COMP ==NdefMap->StdMifareContainer.aid[sect_aid_index]))
+    {
+        if (((PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD == NdefMap->CardType)||
+             (PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD == NdefMap->CardType)) && (sect_aid_index >= 32))
+        {
+            /* Mifare classic card of 4k size, sector >= 32 has
+               16 blocks per sector and in that 15 blocks are valid data blocks
+               16 is the block number in a sector
+               15 is the number of valid data blocks in a sector
+             */
+            valid_no_of_bytes += (uint16_t)(16 * 15);
+        }
+        else
+        {
+            valid_no_of_bytes += (uint16_t)(16 * 3);
+        }
+
+        sect_aid_index++;
+        if (16 == sect_aid_index)
+        {
+            /* Because sector index is 16, that is "MAD 2" block
+               For calculating size MAD block shall be ignored
+             */
+            sect_aid_index++;
+        }
+    }
+    /* The below check is for the 3 byte length format of the NDEF TLV
+       If the length field > 255, Max size will less by 4
+       else Max size will less by 2 (Type and Length of the NDEF TLV
+       has to be skipped to provide the maximum size in the card */
+    *maxSize = (valid_no_of_bytes > 0xFF) ? (valid_no_of_bytes - 4) : (valid_no_of_bytes - 2);
+
+    *actualSize = NdefMap->TLVStruct.BytesRemainLinTLV;
+
+    return result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifareStdMap_ConvertToReadOnly
+ *
+ * Description      This function converts the Mifare card to read-only.
+ *                  It check preconditions before converting to read only.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+NFCSTATUS
+phFriNfc_MifareStdMap_ConvertToReadOnly (
+               phFriNfc_NdefMap_t *NdefMap,
+               const uint8_t *ScrtKeyB)
+{
+    NFCSTATUS result = NFCSTATUS_SUCCESS;
+    uint8_t totalNoSectors = 0 , sectorTrailerBlockNo = 0;
+
+    if ( NdefMap == NULL)
+    {
+        result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+    }
+    else if ( PH_NDEFMAP_CARD_STATE_INVALID == NdefMap->CardState )
+    {
+        result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_STATE);
+    }
+    else
+    {
+        /* card state is PH_NDEFMAP_CARD_STATE_READ_WRITE now */
+        /* get AID  array and parse */
+        if( PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD == NdefMap->CardType )
+        {
+            totalNoSectors  = PH_FRINFC_MIFARESTD1K_TOTAL_SECTOR;
+        }
+        else if ( PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD == NdefMap->CardType )
+        {
+            totalNoSectors  = PH_FRINFC_MIFARESTD2K_TOTAL_SECTOR;
+        }
+        else if ( PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD == NdefMap->CardType )
+        {
+             totalNoSectors  = PH_FRINFC_MIFARESTD4K_TOTAL_SECTOR;
+        }
+
+        /* Store Key B in the context */
+        if(ScrtKeyB ==NULL)
+        {
+            memset (NdefMap->StdMifareContainer.UserScrtKeyB, PH_FRINFC_MIFARESTD_DEFAULT_KEY,
+                    PH_FRINFC_MIFARESTD_KEY_LEN);
+        }
+        else
+        {
+            memcpy (NdefMap->StdMifareContainer.UserScrtKeyB, ScrtKeyB, PH_FRINFC_MIFARESTD_KEY_LEN);
+        }
+
+        NdefMap->StdMifareContainer.TotalNoSectors = totalNoSectors;
+        if(totalNoSectors == 0)
+        {
+            result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_PARAMETER);
+        }
+        else
+        {
+            NdefMap->TLVStruct.NdefTLVFoundFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.RdBeforeWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.WrNdefFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.internalLength = PH_FRINFC_MIFARESTD_VAL0;
+            NdefMap->StdMifareContainer.RdAfterWrFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.AuthDone = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.NFCforumSectFlag = PH_FRINFC_MIFARESTD_FLAG0;
+            NdefMap->StdMifareContainer.WriteAcsBitFlag = PH_FRINFC_MIFARESTD_FLAG0;
+
+            /* Sector 0 is MAD sector .Start from Sector 1 */
+            for(NdefMap->StdMifareContainer.ReadOnlySectorIndex = PH_FRINFC_MIFARESTD_FLAG1;
+                NdefMap->StdMifareContainer.ReadOnlySectorIndex < totalNoSectors;
+                NdefMap->StdMifareContainer.ReadOnlySectorIndex++)
+            {
+                /* skip MAD sectors */
+                if( PH_FRINFC_MIFARESTD_SECTOR_NO16 == NdefMap->StdMifareContainer.ReadOnlySectorIndex  )
+                {
+                    continue;
+                }
+
+                /* if not NDEF compliant skip  */
+                if( PH_FRINFC_MIFARESTD_NON_NDEF_COMP ==
+                    NdefMap->StdMifareContainer.aid[NdefMap->StdMifareContainer.ReadOnlySectorIndex])
+                {
+                    continue;
+                }
+
+                if (PH_FRINFC_MIFARESTD_NDEF_COMP ==
+                     NdefMap->StdMifareContainer.aid[NdefMap->StdMifareContainer.ReadOnlySectorIndex])
+                {
+                    /*get the sector trailer block number */
+                    sectorTrailerBlockNo =
+                        phFriNfc_MifStd_H_GetSectorTrailerBlkNo(NdefMap->StdMifareContainer.ReadOnlySectorIndex);
+                    NdefMap->StdMifareContainer.currentBlock = sectorTrailerBlockNo;
+                    NdefMap->StdMifareContainer.SectorTrailerBlockNo = sectorTrailerBlockNo;
+
+                    /* Proceed to authenticate the sector with Key B
+                       and  modify the sector trailor bits to make it read only*/
+                    result = phFriNfc_MifStd_H_AuthSector(NdefMap);
+
+                    if (result == NFCSTATUS_PENDING )
+                    {
+                        break;
+                    }
+                }
+            } /* end for */
+
+            /* There are no NDEF sectors in this card , return */
+            if(NdefMap->StdMifareContainer.ReadOnlySectorIndex == totalNoSectors &&
+               NFCSTATUS_PENDING!= result )
+            {
+                result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, NFCSTATUS_NO_NDEF_SUPPORT);
+            }
+        } /* end else */
+    }
+
+    return result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_GetSectorTrailerBlkNo
+ *
+ * Description      This function returns the block number of the sector
+ *                  trailor for the given sector trailer Id.
+ *
+ * Returns          uint8_t sectorTrailerblockNumber : sector trailor
+ *
+ ******************************************************************************/
+static uint8_t phFriNfc_MifStd_H_GetSectorTrailerBlkNo (uint8_t SectorID)
+{
+    uint8_t sectorTrailerblockNumber = 0;
+
+    /* every last block of a sector needs to be skipped */
+    if (SectorID < PH_FRINFC_MIFARESTD_SECTOR_NO32)
+    {
+        sectorTrailerblockNumber = (SectorID * PH_FRINFC_MIFARESTD_BLK4 ) + 3;
+    }
+    else
+    {
+        sectorTrailerblockNumber = ((PH_FRINFC_MIFARESTD_SECTOR_NO32 * PH_FRINFC_MIFARESTD_BLK4) +
+            ((SectorID - PH_FRINFC_MIFARESTD_SECTOR_NO32) * PH_FRINFC_MIFARESTD_SECTOR_BLOCKS)) + 15;
+    }
+
+    return sectorTrailerblockNumber;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProSectorTrailorAcsBits
+ *
+ * Description      This function is called during ConvertToReadonly process to
+ *                  Authenticate NDEF compliant Sector.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProSectorTrailorAcsBits(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS   Result = NFCSTATUS_SUCCESS;
+
+    if(*NdefMap->SendRecvLength == PH_FRINFC_MIFARESTD_BYTES_READ)
+    {
+        if(NdefMap->StdMifareContainer.ReadAcsBitFlag ==
+            PH_FRINFC_MIFARESTD_FLAG1)
+        {
+            /* check for the correct access bits */
+            Result = phFriNfc_MifStd_H_ChkAcsBit(NdefMap);
+            if(Result  == NFCSTATUS_SUCCESS)
+            {
+
+                if(NdefMap->CardState == PH_NDEFMAP_CARD_STATE_READ_ONLY)
+                {
+                    /* Go to next sector */
+                    Result = phFriNfc_MifStd_H_ProWrSectorTrailor(NdefMap);
+                }
+                else
+                {
+                    /* tranceive to write the data into SendRecvBuff */
+                    Result = phFriNfc_MifStd_H_WrSectorTrailorBlock(NdefMap);
+                }
+            }
+        }
+    }
+    else
+    {
+        Result = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                     NFCSTATUS_INVALID_PARAMETER);
+    }
+
+    return Result;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_WrSectorTrailorBlock
+ *
+ * Description      This function makes current NDEF compliant Sector ReadOnly
+ *                  modify the sector trailor bits and write it to the card.
+ *
+ * Returns          This function return NFCSTATUS_PENDING in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_WrSectorTrailorBlock(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS status = NFCSTATUS_PENDING;
+
+    NdefMap->MapCompletionInfo.CompletionRoutine = phFriNfc_MifareStdMap_Process;
+    NdefMap->MapCompletionInfo.Context = NdefMap;
+    NdefMap->PrevOperation = PH_FRINFC_NDEFMAP_WRITE_OPE;
+
+    /* next state (update sector index) */
+    NdefMap->State = PH_FRINFC_NDEFMAP_STATE_WRITE_SEC;
+
+    /* Buffer Check */
+    if(NdefMap->SendRecvBuf != NULL)
+    {
+        NdefMap->SendRecvBuf[10] = 0x00;
+        NdefMap->SendRecvBuf[10] = NdefMap->SendRecvBuf[9] | PH_FRINFC_MIFARESTD_MASK_GPB_WR; /* WR bits 11*/
+
+        /*The NdefMap->SendRecvBuf already has the sector trailor.
+        modify the bits to make Read Only */
+        NdefMap->SendRecvBuf[1] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf[2] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+        NdefMap->SendRecvBuf[3] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf[4] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+        NdefMap->SendRecvBuf[5] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT1; /* 0xD3 */
+        NdefMap->SendRecvBuf[6] = PH_FRINFC_NDEFMAP_MIFARESTD_AUTH_NDEFSECT2; /* 0xF7 */
+
+        NdefMap->SendRecvBuf[7] = PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE6;/* 0x0F */
+        NdefMap->SendRecvBuf[8] = PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE7;/* 0x07 */
+        NdefMap->SendRecvBuf[9] = PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE8;/* 0x8F */
+
+        NdefMap->SendRecvBuf[11] = NdefMap->StdMifareContainer.UserScrtKeyB[0];
+        NdefMap->SendRecvBuf[12] = NdefMap->StdMifareContainer.UserScrtKeyB[1];
+        NdefMap->SendRecvBuf[13] = NdefMap->StdMifareContainer.UserScrtKeyB[2];
+        NdefMap->SendRecvBuf[14] = NdefMap->StdMifareContainer.UserScrtKeyB[3];
+        NdefMap->SendRecvBuf[15] = NdefMap->StdMifareContainer.UserScrtKeyB[4];
+        NdefMap->SendRecvBuf[16] = NdefMap->StdMifareContainer.UserScrtKeyB[5];
+
+        /* Write to Ndef Sector Block */
+        NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL0] = NdefMap->StdMifareContainer.currentBlock;
+
+        /* Copy Ndef Sector Block into buffer */
+        memcpy(NdefMap->StdMifareContainer.Buffer,
+                    &(NdefMap->SendRecvBuf[PH_FRINFC_MIFARESTD_VAL1]),
+                    PH_FRINFC_MIFARESTD_BLOCK_BYTES);
+
+        /* Write from here */
+        NdefMap->SendLength = MIFARE_MAX_SEND_BUF_TO_WRITE;
+        NdefMap->Cmd.MfCmd = phHal_eMifareWrite16;
+        *NdefMap->SendRecvLength = NdefMap->TempReceiveLength;
+
+        /* Call the Overlapped HAL Transceive function */
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                                      NdefMap->Cmd,
+                                      NdefMap->SendRecvBuf,
+                                      NdefMap->SendLength,
+                                      NdefMap->SendRecvLength);
+    }
+    else
+    {
+        /* Error: The control should not ideally come here.
+           Return Error.*/
+        status = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP, NFCSTATUS_FAILED);
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProWrSectorTrailor
+ *
+ * Description      This function makes next NDEF compliant Sector ReadOnly.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS phFriNfc_MifStd_H_ProWrSectorTrailor(phFriNfc_NdefMap_t *NdefMap)
+{
+    NFCSTATUS status =  NFCSTATUS_FAILED;
+    uint8_t sectorTrailerBlockNo = 0;
+
+    /*Increment Sector Index */
+    NdefMap->StdMifareContainer.ReadOnlySectorIndex++;
+
+    /* skip if MAD2 */
+    if(PH_FRINFC_MIFARESTD_SECTOR_NO16 == NdefMap->StdMifareContainer.ReadOnlySectorIndex )
+    {
+        NdefMap->StdMifareContainer.ReadOnlySectorIndex++;
+    }
+
+    /* if current sector index exceeds total sector index then
+       all ndef sectors are made readonly then return success
+       If a NON def sector is encountered return success*/
+    if (NdefMap->StdMifareContainer.ReadOnlySectorIndex >= NdefMap->StdMifareContainer.TotalNoSectors ||
+        PH_FRINFC_MIFARESTD_NON_NDEF_COMP  ==
+        NdefMap->StdMifareContainer.aid[NdefMap->StdMifareContainer.ReadOnlySectorIndex])
+    {
+        status = NFCSTATUS_SUCCESS;
+    }
+    else if(PH_FRINFC_MIFARESTD_NDEF_COMP  == NdefMap->StdMifareContainer.aid[NdefMap->StdMifareContainer.ReadOnlySectorIndex])
+    {
+        /* Convert next NDEF sector to read only */
+        sectorTrailerBlockNo = phFriNfc_MifStd_H_GetSectorTrailerBlkNo(NdefMap->StdMifareContainer.ReadOnlySectorIndex);
+        NdefMap->StdMifareContainer.currentBlock = sectorTrailerBlockNo;
+        NdefMap->StdMifareContainer.SectorTrailerBlockNo = sectorTrailerBlockNo;
+
+        status = phFriNfc_MifStd_H_AuthSector(NdefMap);
+    }
+
+    return status;
+}
+
+/******************************************************************************
+ * Function         phFriNfc_MifStd_H_ProWrSectorTrailor
+ *
+ * Description      This function checks mapping spec version.
+ *
+ * Returns          This function return NFCSTATUS_SUCCESS in case of success
+ *                  In case of failure returns other failure value.
+ *
+ ******************************************************************************/
+static NFCSTATUS   phFriNfc_MapTool_ChkSpcVer( const phFriNfc_NdefMap_t  *NdefMap,
+        uint8_t             VersionIndex)
+{
+    NFCSTATUS status = NFCSTATUS_SUCCESS;
+
+    uint8_t TagVerNo = NdefMap->SendRecvBuf[VersionIndex];
+
+    if ( TagVerNo == 0 )
+    {
+        /* Return Status Error invalid format */
+        status = PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,NFCSTATUS_INVALID_FORMAT);
+    }
+    else
+    {
+        switch (NdefMap->CardType)
+        {
+            case PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD:
+            case PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD:
+            case PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD:
+                {
+                    /* calculate the major and minor version number of Mifare std version number */
+                    status = (( (( PH_NFCFRI_MFSTDMAP_NFCDEV_MAJOR_VER_NUM ==
+                                        PH_NFCFRI_MFSTDMAP_GET_MAJOR_TAG_VERNO(TagVerNo ) )&&
+                                    ( PH_NFCFRI_MFSTDMAP_NFCDEV_MINOR_VER_NUM ==
+                                      PH_NFCFRI_MFSTDMAP_GET_MINOR_TAG_VERNO(TagVerNo))) ||
+                                (( PH_NFCFRI_MFSTDMAP_NFCDEV_MAJOR_VER_NUM ==
+                                   PH_NFCFRI_MFSTDMAP_GET_MAJOR_TAG_VERNO(TagVerNo ) )&&
+                                 ( PH_NFCFRI_MFSTDMAP_NFCDEV_MINOR_VER_NUM <
+                                   PH_NFCFRI_MFSTDMAP_GET_MINOR_TAG_VERNO(TagVerNo) )))?
+                            NFCSTATUS_SUCCESS:
+                            PHNFCSTVAL(CID_FRI_NFC_NDEF_MAP,
+                                NFCSTATUS_INVALID_FORMAT));
+                    break;
+                }
+
+            default:
+                {
+                    /* calculate the major and minor version number of T3VerNo */
+                    if( (( PH_NFCFRI_NDEFMAP_NFCDEV_MAJOR_VER_NUM ==
+                                    PH_NFCFRI_NDEFMAP_GET_MAJOR_TAG_VERNO(TagVerNo ) )&&
+                                ( PH_NFCFRI_NDEFMAP_NFCDEV_MINOR_VER_NUM ==
+                                  PH_NFCFRI_NDEFMAP_GET_MINOR_TAG_VERNO(TagVerNo))) ||
+                            (( PH_NFCFRI_NDEFMAP_NFCDEV_MAJOR_VER_NUM ==
+                               PH_NFCFRI_NDEFMAP_GET_MAJOR_TAG_VERNO(TagVerNo ) )&&
+                             ( PH_NFCFRI_NDEFMAP_NFCDEV_MINOR_VER_NUM <
+                               PH_NFCFRI_NDEFMAP_GET_MINOR_TAG_VERNO(TagVerNo) )))
+                    {
+                        status = PHNFCSTVAL(CID_NFC_NONE,NFCSTATUS_SUCCESS);
+                    }
+                    else
+                    {
+                        if ((PH_NFCFRI_NDEFMAP_NFCDEV_MAJOR_VER_NUM <
+                             PH_NFCFRI_NDEFMAP_GET_MAJOR_TAG_VERNO(TagVerNo)) ||
+                             (PH_NFCFRI_NDEFMAP_NFCDEV_MAJOR_VER_NUM >
+                             PH_NFCFRI_NDEFMAP_GET_MAJOR_TAG_VERNO(TagVerNo)))
+                        {
+                            status = PHNFCSTVAL (CID_FRI_NFC_NDEF_MAP, NFCSTATUS_INVALID_FORMAT);
+                        }
+                    }
+                    break;
+                }
+        }
+    }
+
+    return (status);
+}
+
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.h b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.h
new file mode 100755
index 0000000..e717dd7
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_MifareStdMap.h
@@ -0,0 +1,218 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+ /*
+ * NFC Ndef Mapping For Remote Devices.
+ */
+
+#ifndef PHFRINFC_MIFARESTDMAP_H
+#define PHFRINFC_MIFARESTDMAP_H
+
+#include <phFriNfc.h>
+#include <phNfcStatus.h>
+#include <phNfcTypes.h>
+#include <phFriNfc_NdefMap.h>
+
+/* NFC Device Major and Minor Version numbers */
+/* !!CAUTION!! these needs to be updated periodically.Major and Minor version numbers
+   should be compatible to the version number of currently implemented mapping document.
+   Example : NFC Device version Number : 1.0 , specifies
+              Major VNo is 1,
+              Minor VNo is 0 */
+#define PH_NFCFRI_NDEFMAP_NFCDEV_MAJOR_VER_NUM             0x01
+#define PH_NFCFRI_NDEFMAP_NFCDEV_MINOR_VER_NUM             0x00
+#define PH_NFCFRI_MFSTDMAP_NFCDEV_MAJOR_VER_NUM            0x40
+#define PH_NFCFRI_MFSTDMAP_NFCDEV_MINOR_VER_NUM            0x00
+
+/* Macros to find major and minor TAG : Ex:Type1/Type2/Type3/Type4 version numbers */
+#define PH_NFCFRI_MFSTDMAP_GET_MAJOR_TAG_VERNO(a)          ((a) & (0x40)) /* must be 0xC0 */
+#define PH_NFCFRI_MFSTDMAP_GET_MINOR_TAG_VERNO(a)          ((a) & (0x30))
+
+/* Macros to find major and minor TAG : Ex:Type1/Type2/Type3/Type4 version numbers */
+#define PH_NFCFRI_NDEFMAP_GET_MAJOR_TAG_VERNO(a)           (((a) & (0xf0))>>(4))
+#define PH_NFCFRI_NDEFMAP_GET_MINOR_TAG_VERNO(a)           ((a) & (0x0f))
+
+/* NDEF Mapping - states of the Finite State machine */
+#define PH_FRINFC_NDEFMAP_STATE_INIT                        0   /* Init state. The start-up state */
+#define PH_FRINFC_NDEFMAP_STATE_READ                        1   /* Read State */
+#define PH_FRINFC_NDEFMAP_STATE_WRITE                       2   /* Write is going on*/
+#define PH_FRINFC_NDEFMAP_STATE_AUTH                        3   /* Authenticate is going on*/
+#define PH_FRINFC_NDEFMAP_STATE_CHK_NDEF_COMP               4   /* Check Ndef is going on */
+#define PH_FRINFC_NDEFMAP_STATE_RD_ACS_BIT                  5   /* Read access bit is in progress */
+#define PH_FRINFC_NDEFMAP_STATE_WR_NDEF_LEN                 6   /* Write NDEF TLV LEngth*/
+#define PH_FRINFC_NDEFMAP_STATE_RD_TO_WR_NDEF_LEN           7   /* read to write the Ndef TLV*/
+#define PH_FRINFC_NDEFMAP_STATE_GET_ACT_CARDSIZE            8   /* Get the card size */
+#define PH_FRINFC_NDEFMAP_STATE_RD_BEF_WR                   9   /* Read the NDEF TLV block before starting write */
+#define PH_FRINFC_NDEFMAP_STATE_WR_TLV                      10  /* Read the NDEF TLV block before starting write */
+#define PH_FRINFC_NDEFMAP_STATE_RD_TLV                      11  /* Read the NDEF TLV block */
+#define PH_FRINFC_NDEFMAP_STATE_TERM_TLV                    12  /* Write terminator TLV block */
+#define PH_FRINFC_NDEFMAP_STATE_POLL                        13  /* Poll in progress */
+#define PH_FRINFC_NDEFMAP_STATE_DISCONNECT                  14  /* Disconnect in progress */
+#define PH_FRINFC_NDEFMAP_STATE_CONNECT                     15  /* Connect in progress */
+
+#define PH_FRINFC_NDEFMAP_STATE_RD_SEC_ACS_BIT              16  /* Convert to ReadOnly in progress */
+#define PH_FRINFC_NDEFMAP_STATE_WRITE_SEC                   17  /* Convert to ReadOnly in progress */
+
+
+/* Mifare Standard - NDEF Compliant Flags */
+#define PH_FRINFC_MIFARESTD_NDEF_COMP                       0   /* Sector is NDEF Compliant */
+#define PH_FRINFC_MIFARESTD_NON_NDEF_COMP                   1   /* Sector is not NDEF Compliant */
+
+/*  Mifare Standard - NDEF Compliant Flag */
+#define PH_FRINFC_MIFARESTD_PROP_1ST_CONFIG                 0   /* No proprietary forum sector found */
+#define PH_FRINFC_MIFARESTD_PROP_2ND_CONFIG                 1   /* Here the proprietary
+                                                                   forum sector exists after NFC forum
+                                                                   sector */
+#define PH_FRINFC_MIFARESTD_PROP_3RD_CONFIG                 2   /* Here the proprietary forum sector exists before
+                                                                   NFC forum sector */
+
+/* Mifare Standard - NDEF Compliant Flags */
+#define PH_FRINFC_MIFARESTD_MADSECT_ACS_BYTE6               0x78 /* Access Bit for Byte 6 in
+                                                                    MAD sector trailer */
+#define PH_FRINFC_MIFARESTD_MADSECT_ACS_BYTE7               0x77 /* Access Bit for Byte 7 in
+                                                                    MAD sector trailer */
+#define PH_FRINFC_MIFARESTD_NFCSECT_ACS_BYTE6               0x7F /* Access Bit for Byte 6 in
+                                                                    NFC forum sector trailer */
+#define PH_FRINFC_MIFARESTD_NFCSECT_ACS_BYTE7               0x07 /* Access Bit for Byte 7 in
+                                                                    NFC forum sector trailer */
+#define PH_FRINFC_MIFARESTD_ACS_BYTE8                       0x88 /* Access Bit for Byte 8 in
+                                                                    all sector trailer */
+#define PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE6             0x0F /* Access Bit for Byte 6 in
+                                                                    NFC forum sector trailer for
+                                                                    Read Only State */
+#define PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE7             0x07 /* Access Bit for Byte 7 in
+                                                                    NFC forum sector trailer
+                                                                    Read Only State */
+#define PH_FRINFC_MIFARESTD_NFCSECT_RDACS_BYTE8             0x8F /* Access Bit for Byte 8 in
+                                                                    NFC forum sector trailer
+                                                                    Read Only State */
+ /* Mifare Standard constants */
+#define MIFARE_MAX_SEND_BUF_TO_READ                         1   /* Send Length for Reading a Block */
+#define MIFARE_MAX_SEND_BUF_TO_WRITE                        17  /* Send Length for writing a Block */
+#define MIFARE_AUTHENTICATE_CMD_LENGTH                      7   /* Send Length for authenticating a Block */
+
+/* Mifare standard - Constants */
+#define PH_FRINFC_MIFARESTD_MAD_BLK0                      0  /* Block number 0 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK1                      1  /* Block number 1 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK2                      2  /* Block number 2 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK3                      3  /* Block number 3 */
+#define PH_FRINFC_MIFARESTD_BLK4                          4  /* Block number 4 */
+#define PH_FRINFC_MIFARESTD_BLK5                          5  /* Block number 5 */
+#define PH_FRINFC_MIFARESTD_BLK6                          6  /* Block number 6 */
+#define PH_FRINFC_MIFARESTD_BLK7                          7  /* Block number 7 */
+#define PH_FRINFC_MIFARESTD_BLK8                          8  /* Block number 8 */
+#define PH_FRINFC_MIFARESTD_BLK9                          9  /* Block number 9 */
+#define PH_FRINFC_MIFARESTD_BLK10                         10 /* Block number 10 */
+#define PH_FRINFC_MIFARESTD_BLK11                         11 /* Block number 11 */
+#define PH_FRINFC_MIFARESTD_BLK12                         12 /* Block number 12 */
+#define PH_FRINFC_MIFARESTD_BLK13                         13 /* Block number 13 */
+#define PH_FRINFC_MIFARESTD_BLK14                         14 /* Block number 14 */
+#define PH_FRINFC_MIFARESTD_BLK15                         15 /* Block number 15 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK16                     16 /* Block number 16 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK63                     63 /* Block number 63 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK64                     64 /* Block number 64 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK65                     65 /* Block number 65 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK66                     66 /* Block number 66 */
+#define PH_FRINFC_MIFARESTD_MAD_BLK67                     67 /* Block number 67 */
+#define PH_FRINFC_MIFARESTD4K_BLK128                      128 /* Block number 128 for Mifare 4k */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO0                    0  /* Sector 0 */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO1                    1  /* Sector 1 */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO16                   16 /* Sector 16 */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO31                   31 /* Sector 31 */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO39                   39 /* Sector 39 */
+#define PH_FRINFC_MIFARESTD_SECTOR_NO32                   32 /* Sector 32 */
+#define PH_FRINFC_MIFARESTD4K_TOTAL_SECTOR                40 /* Sector 40 */
+#define PH_FRINFC_MIFARESTD1K_TOTAL_SECTOR                16 /* Sector 16 */
+#define PH_FRINFC_MIFARESTD2K_TOTAL_SECTOR                32 /* Sector 32 */
+#define PH_FRINFC_MIFARESTD_BYTES_READ                    16 /* Bytes read */
+#define PH_FRINFC_MIFARESTD_BLOCK_BYTES                   16 /* Bytes per block */
+#define PH_FRINFC_MIFARESTD_SECTOR_BLOCKS                 16 /* Blocks per sector */
+#define PH_FRINFC_MIFARESTD_WR_A_BLK                      17 /* 17 bytes (including current block)
+                                                                are given to transfer */
+#define PH_FRINFC_MIFARESTD4K_MAX_BLOCKS                  210 /* Maximum number of Mifare 4k Blocks
+                                                                excluding sector trailer */
+#define PH_FRINFC_MIFARESTD1K_MAX_BLK                     63 /* Maximum number of Mifare 1k blocks
+                                                                including the sector trailer*/
+#define PH_FRINFC_MIFARESTD2K_MAX_BLK                     127 /* Maximum number of Mifare 2k blocks
+                                                                including the sector trailer*/
+#define PH_FRINFC_MIFARESTD4K_MAX_BLK                     254 /* Maximum number of Mifare 4k blocks
+                                                                including the sector trailer*/
+#define PH_FRINFC_MIFARESTD_FLAG1                         1 /* Flag to set 1 */
+#define PH_FRINFC_MIFARESTD_FLAG0                         0 /* Flag to set 0 */
+#define PH_FRINFC_MIFARESTD_INC_1                         1 /* increment by 1 */
+#define PH_FRINFC_MIFARESTD_INC_2                         2 /* increment by 2 */
+#define PH_FRINFC_MIFARESTD_INC_3                         3 /* increment by 3 */
+#define PH_FRINFC_MIFARESTD_INC_4                         4 /* increment by 4 */
+#define PH_FRINFC_MIFARESTD_VAL0                          0 /* Value initialised to 0 */
+#define PH_FRINFC_MIFARESTD_VAL1                          1 /* Value initialised to 1 */
+#define PH_FRINFC_MIFARESTD_VAL2                          2 /* Value initialised to 2 */
+#define PH_FRINFC_MIFARESTD_VAL3                          3 /* Value initialised to 3 */
+#define PH_FRINFC_MIFARESTD_VAL4                          4 /* Value initialised to 4 */
+#define PH_FRINFC_MIFARESTD_VAL5                          5 /* Value initialised to 5 */
+#define PH_FRINFC_MIFARESTD_VAL6                          6 /* Value initialised to 6 */
+#define PH_FRINFC_MIFARESTD_VAL7                          7 /* Value initialised to 7 */
+#define PH_FRINFC_MIFARESTD_VAL8                          8 /* Value initialised to 8 */
+#define PH_FRINFC_MIFARESTD_VAL9                          9 /* Value initialised to 9 */
+#define PH_FRINFC_MIFARESTD_VAL10                         10 /* Value initialised to 10 */
+#define PH_FRINFC_MIFARESTD_VAL11                         11 /* Value initialised to 11 */
+#define PH_FRINFC_MIFARESTD_VAL12                         12 /* Value initialised to 12 */
+#define PH_FRINFC_MIFARESTD_VAL13                         13 /* Value initialised to 13 */
+#define PH_FRINFC_MIFARESTD_VAL14                         14 /* Value initialised to 14 */
+#define PH_FRINFC_MIFARESTD_VAL15                         15 /* Value initialised to 15 */
+#define PH_FRINFC_MIFARESTD_VAL16                         16 /* Value initialised to 16 */
+#define PH_FRINFC_MIFARESTD_VAL31                         31 /* Value initialised to 31 */
+#define PH_FRINFC_MIFARESTD_VAL32                         32 /* Value initialised to 32 */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_L                     0xFF /* Length of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_T                     0x03 /* Length of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_L0                    0x00 /* Length of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES0               0 /* Number of bytes taken by length (L) of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES1               1 /* Number of bytes taken by length (L) of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES2               2 /* Number of bytes taken by length (L) of the TLV */
+#define PH_FRINFC_MIFARESTD_NDEFTLV_LBYTES3               3 /* Number of bytes taken by length (L) of the TLV */
+#define PH_FRINFC_MIFARESTD_PROPTLV_T                     0xFD /* Type of Proprietary TLV */
+#define PH_FRINFC_MIFARESTD_TERMTLV_T                     0xFE /* Type of Terminator TLV */
+#define PH_FRINFC_MIFARESTD_NULLTLV_T                     0x00 /* Type of NULL TLV */
+#define PH_FRINFC_MIFARESTD_LEFTSHIFT8                    8 /* Left shift by 8 */
+#define PH_FRINFC_MIFARESTD_RIGHTSHIFT8                   8 /* Right shift by 8 */
+#define PH_FRINFC_MIFARESTD_MASK_FF                       0xFF /* Mask 0xFF */
+#define PH_FRINFC_MIFARESTD_MASK_GPB_WR                   0x03 /* Mask 0x03 for GPB byte */
+#define PH_FRINFC_MIFARESTD_MASK_GPB_RD                   0x0C /* Mask 0xOC for GPB byte */
+#define PH_FRINFC_MIFARESTD_GPB_RD_WR_VAL                 0x00 /* GPB Read Write value */
+#define PH_FRINFC_MIFARESTD_KEY_LEN                       0x06 /* MIFARE Std key length */
+#define PH_FRINFC_MIFARESTD_DEFAULT_KEY                   0xFF /* MIFARE Std Default Key */
+
+
+NFCSTATUS phFriNfc_MifareStdMap_H_Reset(  phFriNfc_NdefMap_t        *NdefMap);
+NFCSTATUS phFriNfc_MifareStdMap_RdNdef( phFriNfc_NdefMap_t  *NdefMap,
+                                        uint8_t             *PacketData,
+                                        uint32_t            *PacketDataLength,
+                                        uint8_t             Offset);
+NFCSTATUS phFriNfc_MifareStdMap_WrNdef( phFriNfc_NdefMap_t  *NdefMap,
+                                    uint8_t             *PacketData,
+                                    uint32_t            *PacketDataLength,
+                                    uint8_t             Offset);
+NFCSTATUS phFriNfc_MifareStdMap_ChkNdef(phFriNfc_NdefMap_t      *NdefMap);
+
+void phFriNfc_MifareStdMap_Process( void       *Context,
+                                    NFCSTATUS   Status);
+extern
+NFCSTATUS phFrinfc_MifareClassic_GetContainerSize(const phFriNfc_NdefMap_t *NdefMap,
+                                   uint32_t *maxSize, uint32_t *actualSize);
+
+NFCSTATUS
+phFriNfc_MifareStdMap_ConvertToReadOnly (phFriNfc_NdefMap_t *NdefMap, const uint8_t *ScrtKeyB);
+
+#endif /* PHFRINFC_MIFARESTDMAP_H */
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_NdefMap.h b/nci/jni/extns/pn54x/src/mifare/phFriNfc_NdefMap.h
new file mode 100755
index 0000000..9f81a9b
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_NdefMap.h
@@ -0,0 +1,470 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * NFC Ndef Mapping For Different Smart Cards.
+ *
+ */
+
+#ifndef PHFRINFC_NDEFMAP_H
+#define PHFRINFC_NDEFMAP_H
+
+
+/*include files*/
+#include <phNfcTypes.h>
+#include <phNfcStatus.h>
+#include <phFriNfc.h>
+#include <phNfcTypes_Mapping.h>
+
+/*  NDEF Mapping Component
+ *
+ *  This component implements the read/write/check NDEF functions for remote devices.
+ *  NDEF data, as defined by the NFC Forum NDEF specification are written to or read from
+ *  a remote device that can be a smart- or memory card.
+ *  Please notice that the NDEF mapping command sequence must
+ *  be contiguous (after correct initialization)
+ *
+ */
+
+/*
+ * NDEF Mapping - specifies the different card types
+ * These are the only recognized card types in this version.
+ *
+ */
+
+#define PH_FRINFC_NDEFMAP_MIFARE_STD_1K_CARD              7 /* Mifare Standard */
+#define PH_FRINFC_NDEFMAP_MIFARE_STD_4K_CARD              8 /* Mifare Standard */
+#define PH_FRINFC_NDEFMAP_MIFARE_STD_2K_CARD              11 /*internal Mifare Standard */
+#define PH_FRINFC_NDEFMAP_EMPTY_NDEF_MSG                  {0xD0, 0x00, 0x00}  /* Empty ndef message */
+#define PH_FRINFC_NDEFMAP_MFUL_4BYTES_BUF                 4 /* To store 4 bytes after write */
+
+
+/* Enum represents the different card state*/
+typedef enum
+{
+    PH_NDEFMAP_CARD_STATE_INITIALIZED,
+    PH_NDEFMAP_CARD_STATE_READ_ONLY,
+    PH_NDEFMAP_CARD_STATE_READ_WRITE,
+    PH_NDEFMAP_CARD_STATE_INVALID
+}phNDEF_CARD_STATE;
+
+
+/*
+ * NDEF Mapping - specifies the Compliant Blocks in the Mifare 1k and 4k card types
+ *
+ */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_1KNDEF_COMPBLOCK      45 /* Total Ndef Compliant blocks Mifare 1k */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_2KNDEF_COMPBLOCK      90 /* Total Ndef Compliant blocks Mifare 2k */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_4KNDEF_COMPBLOCK      210 /* Total Ndef Compliant blocks Mifare 4k */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_RDWR_SIZE             16 /* Bytes read/write for one read/write operation*/
+#define PH_FRINFC_NDEFMAP_MIFARESTD_TOTALNO_BLK           40 /* Total number of sectors in Mifare 4k */
+#define PH_FRINFC_NDEFMAP_MIFARESTD_ST15_BYTES            15 /* To store 15 bytes after reading a block */
+
+/*
+ * Completion Routine Indices
+ *
+ * These are the indices of the completion routine pointers within the component context.
+ * Completion routines belong to upper components.
+ *
+ */
+#define PH_FRINFC_NDEFMAP_CR_CHK_NDEF       0  /* */
+#define PH_FRINFC_NDEFMAP_CR_RD_NDEF        1  /* */
+#define PH_FRINFC_NDEFMAP_CR_WR_NDEF        2  /* */
+#define PH_FRINFC_NDEFMAP_CR_ERASE_NDEF     3  /* */
+#define PH_FRINFC_NDEFMAP_CR_INVALID_OPE    4  /* */
+#define PH_FRINFC_NDEFMAP_CR                5  /* */
+
+/*
+ * File Offset Attributes
+ *
+ * Following values are used to determine the offset value for Read/Write. This specifies whether
+ * the Read/Write operation needs to be restarted/continued from the last offset set.
+ *
+ */
+/* Read/Write operation shall start from the last offset set */
+#define PH_FRINFC_NDEFMAP_SEEK_CUR                          0 /* */
+/* Read/Write operation shall start from the beginning of the file/card */
+#define PH_FRINFC_NDEFMAP_SEEK_BEGIN                        1 /* */
+
+/* Read operation invalid */
+#define PH_FRINFC_NDEFMAP_SEEK_INVALID                      0xFF /* */
+
+/*
+ * Buffer Size Definitions
+ *
+ */
+/* Minimum size of the TRX buffer required */
+#define PH_FRINFC_NDEFMAP_MAX_SEND_RECV_BUF_SIZE            252 /* */
+/* The size of s MIFARE block */
+#define PH_FRINFC_NDEFMAP_MF_READ_BLOCK_SIZE                16  /* */
+
+typedef struct phFriNfc_MifareStdCont
+{
+    /* to store bytes that will be used in the next write/read operation, if any */
+    uint8_t             internalBuf[PH_FRINFC_NDEFMAP_MIFARESTD_ST15_BYTES];
+    /* to Store the length of the internalBuf */
+    uint16_t            internalLength;
+    /* holds the block number which is presently been used */
+    uint8_t             currentBlock;
+    /* the number of Ndef compliant blocks written/read */
+    uint8_t             NdefBlocks;
+    /* Total Number of Ndef compliant Blocks */
+    uint16_t            NoOfNdefCompBlocks;
+    /* used in write ndef, to know that internal byte are accessed */
+    uint8_t             internalBufFlag;
+    /* used in write ndef, to know that last 16 bytes are used to write*/
+    uint8_t             RemainingBufFlag;
+    /* indicates that Read has reached the end of the card */
+    uint8_t             ReadWriteCompleteFlag;
+    /* indicates that Read has reached the end of the card */
+    uint8_t             ReadCompleteFlag;
+    /* indicates that Write is possible or not */
+    uint8_t             WriteFlag;
+    /* indicates that Write is possible or not */
+    uint8_t             ReadFlag;
+    /* indicates that Write is possible or not */
+    uint8_t             RdBeforeWrFlag;
+    /* Authentication Flag indicating that a particular sector is authenticated or not */
+    uint8_t             AuthDone;
+    /* to store the last Sector ID in Check Ndef */
+    uint8_t             SectorIndex;
+    /* to read the access bits of each sector */
+    uint8_t             ReadAcsBitFlag;
+    /* Flag to check if Acs bit was written in this call */
+    uint8_t             WriteAcsBitFlag;
+    /* Buffer to store 16 bytes */
+    uint8_t             Buffer[PH_FRINFC_NDEFMAP_MIFARESTD_RDWR_SIZE];
+    /* to store the AIDs of Mifare 1k or 4k */
+    uint8_t             aid[PH_FRINFC_NDEFMAP_MIFARESTD_TOTALNO_BLK];
+    /* flag to write with offset begin */
+    uint8_t             WrNdefFlag;
+    /* flag to read with offset begin */
+    uint8_t             ReadNdefFlag;
+    /* flag to check with offset begin */
+    uint8_t             ChkNdefFlag;
+    /* To store the remaining size of the Mifare 1k or 4k card */
+    uint16_t            remainingSize;
+    /* To update the remaining size when writing to the Mifare 1k or 4k card */
+    uint8_t             remSizeUpdFlag;
+    /* The flag is to know that there is a different AID apart from NFC forum sector AID */
+    uint16_t            aidCompleteFlag;
+    /* The flag is to know that there is a a NFC forum sector exists in the card */
+    uint16_t            NFCforumSectFlag;
+    /* The flag is to know that the particular sector is a proprietary NFC forum sector */
+    uint16_t            ProprforumSectFlag;
+    /* The flag is set after reading the MAD sectors */
+    uint16_t            ChkNdefCompleteFlag;
+    /* Flag to store the current block */
+    uint8_t             TempBlockNo;
+    /* Completion routine index */
+    uint8_t             CRIndex;
+    /* Bytes remaining to write for one write procedure */
+    uint16_t            WrLength;
+    /* Flag to read after write */
+    uint8_t             RdAfterWrFlag;
+    /* Flag to say that poll is required before write ndef (authentication) */
+    uint8_t             PollFlag;
+    /* Flag is to know that this is first time the read has been called. This
+    is required when read is called after write (especially for the card formatted
+    with the 2nd configuration) */
+    uint8_t             FirstReadFlag;
+    /* Flag is to know that this is first time the write has been called. This
+    is required when the card formatted with the 3rd configuration */
+    uint8_t             FirstWriteFlag;
+    /* Indicates the sector trailor id  for which the convert
+        to read only is currently in progress*/
+    uint8_t             ReadOnlySectorIndex;
+    /* Indicates the total number of sectors on the card  */
+    uint8_t             TotalNoSectors;
+    /* Indicates the block number of the sector trailor on the card  */
+    uint8_t             SectorTrailerBlockNo;
+    /* Secret key B to given by the application */
+    uint8_t             UserScrtKeyB[6];
+}phFriNfc_MifareStdCont_t;
+
+/*
+ *  NDEF TLV structure which details the different variables used for TLV.
+ *
+ */
+typedef struct phFriNfc_NDEFTLVCont
+{
+    /* Flag is to know that the TLV Type Found */
+    uint8_t             NdefTLVFoundFlag;
+    /* Sector number of the next/present available TLV */
+    uint8_t             NdefTLVSector;
+    /* Following two variables are used to store the
+        T byte and the Block number in which the T is
+        found in Tag */
+    /* Byte number of the next/present available TLV */
+    uint16_t            NdefTLVByte;
+    /* Block number of the next/present available TLV */
+    uint8_t             NdefTLVBlock;
+    /* Authentication flag for NDEF TLV Block */
+    uint8_t             NdefTLVAuthFlag;
+    /* if the 16th byte of the last read is type (T) of TLV
+        and next read contains length (L) bytes of TLV. This flag
+        is set when the type (T) of TLV is found in the last read */
+    uint8_t             TcheckedinTLVFlag;
+    /* if the 16th byte of the last read is Length (L) of TLV
+        and next read contains length (L) bytes of TLV. This flag
+        is set when the Length (L) of TLV is found in the last read */
+    uint8_t             LcheckedinTLVFlag;
+    /* This flag is set, if Terminator TLV is already written
+        and next read contains value (V) bytes of TLV. This flag
+        is set when the value (V) of TLV is found in the last read */
+    uint8_t             SetTermTLVFlag;
+    /* To know the number of Length (L) field is present in the
+        next block */
+    uint8_t             NoLbytesinTLV;
+    /* The value of 3 bytes length(L) field in TLV. In 3 bytes
+        length field, 2 bytes are in one block and other 1 byte
+        is in the next block. To store the former block length
+        field value, this variable is used */
+    uint16_t            prevLenByteValue;
+    /* The value of length(L) field in TLV. */
+    uint16_t            BytesRemainLinTLV;
+    /* Actual size to read and write. This will be always equal to the
+        length (L) of TLV as there is only one NDEF TLV . */
+    uint16_t            ActualSize;
+    /* Flag is to write the length (L) field of the TLV */
+    uint8_t             WrLenFlag;
+    /* Flag is to write the length (L) field of the TLV */
+    uint16_t            NULLTLVCount;
+    /* Buffer to store 4 bytes of data which is written to a block */
+    uint8_t             NdefTLVBuffer[PH_FRINFC_NDEFMAP_MFUL_4BYTES_BUF];
+    /* Buffer to store 4 bytes of data which is written to a next block */
+    uint8_t             NdefTLVBuffer1[PH_FRINFC_NDEFMAP_MFUL_4BYTES_BUF];
+}phFriNfc_NDEFTLVCont_t;
+
+/*
+ *  Lock Control TLV structure which stores the Position, Size and PageCntrl details.
+ */
+
+typedef struct phFriNfc_LockCntrlTLVCont
+{
+    /* Specifies the Byte Position of the lock cntrl tlv
+        in the card memory*/
+    uint16_t             ByteAddr;
+
+    /* Specifies the Size of the lock area in terms of
+        bits/bytes*/
+    uint16_t             Size;
+
+    /* Specifies the Bytes per Page*/
+    uint8_t             BytesPerPage;
+
+    /* Specifies the BytesLockedPerLockBit */
+    uint8_t             BytesLockedPerLockBit;
+
+    /* Specifies the index of Lock cntrl TLV*/
+    uint8_t             LockTlvBuffIdx;
+
+    /* Store the content of Lock cntrl TLV*/
+    uint8_t             LockTlvBuff[8];
+
+    /* Specifies the Block number Lock cntrl TLV*/
+    uint16_t             BlkNum;
+
+    /* Specifies the Byte Number position of Lock cntrl TLV*/
+    uint16_t             ByteNum;
+
+
+}phFriNfc_LockCntrlTLVCont_t;
+
+
+/*
+ *  Memory Control TLV structure which stores the Position, Size and PageCntrl details of the reserved byte area.
+ */
+
+typedef struct phFriNfc_ResMemCntrlTLVCont
+{
+    /* Specifies the Byte Position of the lock cntrl tlv
+        in the card memory */
+    uint16_t             ByteAddr;
+
+    /* Specifies the Size of the lock area in terms of
+        bits/bytes*/
+    uint16_t             Size;
+
+    /* Store the content of Memory cntrl TLV*/
+    uint8_t             MemCntrlTlvBuff[8];
+
+    /* Specifies the Bytes per Page*/
+    uint8_t             BytesPerPage;
+
+    /* Specifies the index of Mem cntrl TLV*/
+    uint8_t             MemTlvBuffIdx;
+
+    /* Specifies the Block number Lock cntrl TLV*/
+    uint16_t             BlkNum;
+
+    /* Specifies the Byte Number position of Lock cntrl TLV*/
+    uint16_t             ByteNum;
+
+
+
+}phFriNfc_ResMemCntrlTLVCont_t;
+
+/*
+ *  NFC NDEF Mapping Component Context Structure
+ *
+ *  This structure is used to store the current context information of the instance.
+ *
+ */
+typedef struct phFriNfc_NdefMap
+{
+    /* The state of the operation. */
+    uint8_t                         State;
+
+    /* Completion Routine Context. */
+    phFriNfc_CplRt_t                CompletionRoutine[PH_FRINFC_NDEFMAP_CR];
+
+    phNfc_sTransceiveInfo_t            *pTransceiveInfo;
+
+    /*Holds the completion routine informations of the Map Layer*/
+    phFriNfc_CplRt_t                MapCompletionInfo;
+
+    /* Pointer to the Remote Device Information */
+    phLibNfc_sRemoteDevInformation_t   *psRemoteDevInfo;
+
+    /*Holds the Command Type(read/write)*/
+    phNfc_uCmdList_t               Cmd;
+
+    /* Pointer to a temporary buffer. Could be
+          used for read/write purposes */
+    uint8_t                         *ApduBuffer;
+
+    /* Size allocated to the ApduBuffer. */
+    uint32_t                        ApduBufferSize;
+
+    /* Index to the APDU Buffer. Used for internal calculations */
+    uint16_t                        ApduBuffIndex;
+
+    /* Pointer to the user-provided Data Size to be written trough WrNdef function. */
+    uint32_t                        *WrNdefPacketLength;
+
+
+    /* Holds the length of the received data. */
+    uint16_t                        *SendRecvLength;
+
+    /*Holds the ack of some initial commands*/
+    uint8_t                         *SendRecvBuf;
+
+    /* Holds the length of the data to be sent. */
+    uint16_t                        SendLength;
+
+    /* Data Byte Count, which gives the offset to the integration.*/
+    uint16_t                        *DataCount;
+
+    /* Holds the previous operation on the card*/
+    uint8_t                         PrevOperation;
+
+    /* Holds the previous read mode*/
+    uint8_t                         bPrevReadMode;
+
+    /* Holds the current read mode*/
+    uint8_t                         bCurrReadMode;
+
+    /* Holds the previous state on the card*/
+    uint8_t                         PrevState;
+
+    /* Stores the type of the smart card. */
+    uint8_t                         CardType;
+
+     /* Stores the card state. */
+    uint8_t                         CardState;
+
+    /* Stores the memory size of the card */
+    uint16_t                        CardMemSize;
+
+    /*to Store the page offset on the mifare ul card*/
+    uint8_t                         Offset;
+
+    /* specifies the desired operation to be performed*/
+    uint8_t                         DespOpFlag;
+
+    /*  Used to remember how many bytes were written, to update
+                   the dataCount and the BufferIndex */
+    uint16_t                        NumOfBytesWritten;
+
+    /*used to remember number of L byte Remaining to be written */
+    uint16_t                        NumOfLReminWrite;
+
+    /*  Pointer Used to remember and return how many bytes were read,
+                   to update the PacketDataLength in case of Read operation */
+    /*  Fix for 0000238: [gk] MAP: Number of bytes actually read out is
+        not returned. */
+    uint32_t                        *NumOfBytesRead;
+
+    /*  Flag used to tell the process function that WRITE has
+                   requested for an internal READ.*/
+    uint8_t                         ReadingForWriteOperation;
+
+    /*  Buffer of 5 bytes used for the write operation for the
+                   Mifare UL card.*/
+    uint8_t                         BufferForWriteOp[5];
+
+    /* Temporary Receive Length to update the Receive Length
+                  when every time the Overlapped HAL is called. */
+    uint16_t                        TempReceiveLength;
+
+    uint8_t                         NoOfDevices ;
+
+    /* stores operating mode type of the felica smart tag */
+    /* phHal_eOpModes_t                OpModeType[2]; */
+
+    /* stores the type of the TLV found */
+    uint8_t                         TLVFoundFlag;
+
+    /* stores the TLV structure related informations  */
+    phFriNfc_NDEFTLVCont_t          TLVStruct;
+
+    /* stores the Lock Contrl Tlv related informations  */
+    phFriNfc_LockCntrlTLVCont_t     LockTlv;
+
+    /* stores the Mem Contrl Tlv related informations  */
+    phFriNfc_ResMemCntrlTLVCont_t   MemTlv;
+
+    /* Pointer to the Mifare Standard capability Container Structure. */
+    phFriNfc_MifareStdCont_t        StdMifareContainer;
+
+} phFriNfc_NdefMap_t;
+
+/*
+ * States of the FSM.
+ */
+#define PH_FRINFC_NDEFMAP_STATE_RESET_INIT                  0   /* Initial state */
+#define PH_FRINFC_NDEFMAP_STATE_CR_REGISTERED               1   /* CR has been registered */
+#define PH_FRINFC_NDEFMAP_STATE_EOF_CARD                    2   /* EOF card reached */
+
+/* Following values specify the previous operation on the card. This value is assigned to
+   the context structure variable: PrevOperation. */
+
+/* Previous operation is check */
+#define PH_FRINFC_NDEFMAP_CHECK_OPE                         1
+/* Previous operation is read */
+#define PH_FRINFC_NDEFMAP_READ_OPE                          2
+/* Previous operation is write */
+#define PH_FRINFC_NDEFMAP_WRITE_OPE                         3
+/* Previous operation is Actual size */
+#define PH_FRINFC_NDEFMAP_GET_ACTSIZE_OPE                   4
+
+/* This flag is set when there is a need of write operation on the odd positions
+   ex: 35,5 etc. This is used with MfUlOp Flag */
+#define PH_FRINFC_MFUL_INTERNAL_READ                        3  /* Read/Write control*/
+
+
+#endif /* PHFRINFC_NDEFMAP_H */
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.c b/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.c
new file mode 100755
index 0000000..46f2ccc
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.c
@@ -0,0 +1,219 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * Smart Card Completion Routing component
+ */
+
+#include <phNfcTypes.h>
+#include<phFriNfc.h>
+#include <phFriNfc_SmtCrdFmt.h>
+#include <phNfcCompId.h>
+#include <phFriNfc_MifStdFormat.h>
+
+
+/*******************************************************************************
+**
+** Function         phFriNfc_SmtCrdFmt_HCrHandler
+**
+** Description      This function is called to complete Completion Routine when gets error.
+**
+** Returns          none.
+**
+*******************************************************************************/
+void phFriNfc_SmtCrdFmt_HCrHandler(phFriNfc_sNdefSmtCrdFmt_t  *NdefSmtCrdFmt, NFCSTATUS Status)
+{
+    /* set the state back to the Reset_Init state*/
+    NdefSmtCrdFmt->State =  PH_FRINFC_SMTCRDFMT_STATE_RESET_INIT;
+
+    /* set the completion routine*/
+    NdefSmtCrdFmt->CompletionRoutine[PH_FRINFC_SMTCRDFMT_CR_FORMAT].
+        CompletionRoutine(NdefSmtCrdFmt->CompletionRoutine->Context, Status);
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_NdefSmtCrd_Reset
+**
+** Description      Resets the component instance to the initial state and initializes the
+**                  internal variables.
+**                  This function has to be called at the beginning, after creating an instance of
+**                  phFriNfc_sNdefSmtCrdFmt_t.  Use this function to reset the instance and/or to switch
+**                  to a different underlying card types.
+**
+** Returns          NFCSTATUS_SUCCESS if operation successful.
+**                  NFCSTATUS_INVALID_PARAMETER if at least one parameter of the function is invalid.
+**
+*******************************************************************************/
+NFCSTATUS phFriNfc_NdefSmtCrd_Reset(phFriNfc_sNdefSmtCrdFmt_t       *NdefSmtCrdFmt,
+                                    void                            *LowerDevice,
+                                    phHal_sRemoteDevInformation_t   *psRemoteDevInfo,
+                                    uint8_t                         *SendRecvBuffer,
+                                    uint16_t                        *SendRecvBuffLen)
+{
+    NFCSTATUS   result = NFCSTATUS_SUCCESS;
+    uint8_t     index;
+    if (    (SendRecvBuffLen == NULL) || (NdefSmtCrdFmt == NULL) || (psRemoteDevInfo == NULL) ||
+            (SendRecvBuffer == NULL) ||  (LowerDevice == NULL) ||
+            (*SendRecvBuffLen == 0) ||
+            (*SendRecvBuffLen < PH_FRINFC_SMTCRDFMT_MAX_SEND_RECV_BUF_SIZE) )
+    {
+        result = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT, NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        /* Initialize the state to Init */
+        NdefSmtCrdFmt->State = PH_FRINFC_SMTCRDFMT_STATE_RESET_INIT;
+
+        for(index = 0;index<PH_FRINFC_SMTCRDFMT_CR;index++)
+        {
+            /* Initialize the NdefMap Completion Routine to Null */
+            NdefSmtCrdFmt->CompletionRoutine[index].CompletionRoutine = NULL;
+            /* Initialize the NdefMap Completion Routine context to Null  */
+            NdefSmtCrdFmt->CompletionRoutine[index].Context = NULL;
+        }
+
+        /* Lower Device(Always Overlapped HAL Struct initialized in application
+         * is registered in NdefMap Lower Device)
+         */
+        NdefSmtCrdFmt->pTransceiveInfo = LowerDevice;
+
+        /* Remote Device info received from Manual Device Discovery is registered here */
+        NdefSmtCrdFmt->psRemoteDevInfo = psRemoteDevInfo;
+
+        /* Trx Buffer registered */
+        NdefSmtCrdFmt->SendRecvBuf = SendRecvBuffer;
+
+        /* Trx Buffer Size */
+        NdefSmtCrdFmt->SendRecvLength = SendRecvBuffLen;
+
+        /* Register Transfer Buffer Length */
+        NdefSmtCrdFmt->SendLength = 0;
+
+        /* Initialize the Format status flag*/
+        NdefSmtCrdFmt->FmtProcStatus = 0;
+
+        /* Reset the Card Type */
+        NdefSmtCrdFmt->CardType = 0;
+
+        /* Reset MapCompletion Info*/
+        NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.CompletionRoutine = NULL;
+        NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.Context = NULL;
+
+        /* Reset Mifare Standard Container elements*/
+        phFriNfc_MfStd_Reset(NdefSmtCrdFmt);
+    }
+
+    return (result);
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_NdefSmtCrd_SetCR
+**
+** Description      This function allows the caller to set a Completion Routine (notifier).
+**
+** Returns          NFCSTATUS_SUCCESS if operation successful.
+**                  NFCSTATUS_INVALID_PARAMETER if at least one parameter of the function is invalid.
+**
+*******************************************************************************/
+NFCSTATUS phFriNfc_NdefSmtCrd_SetCR(phFriNfc_sNdefSmtCrdFmt_t     *NdefSmtCrdFmt,
+                                    uint8_t                       FunctionID,
+                                    pphFriNfc_Cr_t                CompletionRoutine,
+                                    void                          *CompletionRoutineContext)
+{
+    NFCSTATUS   status = NFCSTATUS_SUCCESS;
+    if ((NdefSmtCrdFmt == NULL) || (FunctionID >= PH_FRINFC_SMTCRDFMT_CR) ||
+        (CompletionRoutine == NULL) || (CompletionRoutineContext == NULL))
+    {
+        status = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT, NFCSTATUS_INVALID_PARAMETER);
+    }
+    else
+    {
+        /* Register the application callback with the NdefMap Completion Routine */
+        NdefSmtCrdFmt->CompletionRoutine[FunctionID].CompletionRoutine = CompletionRoutine;
+
+        /* Register the application context with the NdefMap Completion Routine context */
+        NdefSmtCrdFmt->CompletionRoutine[FunctionID].Context = CompletionRoutineContext;
+    }
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         phFriNfc_NdefSmtCrd_Process
+**
+** Description      This function is called by the lower layer (OVR HAL)
+**                  when an I/O operation has finished. The internal state machine decides
+**                  whether to call into the lower device again or to complete the process
+**                  by calling into the upper layer's completion routine, stored within this
+**                  component's context (phFriNfc_sNdefSmtCrdFmt_t).
+**
+** Returns          none.
+**
+*******************************************************************************/
+void phFriNfc_NdefSmtCrd_Process(void *Context, NFCSTATUS Status)
+{
+    if ( Context != NULL )
+    {
+        phFriNfc_sNdefSmtCrdFmt_t  *NdefSmtCrdFmt = (phFriNfc_sNdefSmtCrdFmt_t *)Context;
+
+        switch ( NdefSmtCrdFmt->psRemoteDevInfo->RemDevType )
+        {
+            case phNfc_eMifare_PICC :
+            case phNfc_eISO14443_3A_PICC:
+                if((NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD) ||
+                    (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD) ||
+                    (NdefSmtCrdFmt->CardType == PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD))
+                {
+                    /* Remote device is Mifare Standard card */
+                    phFriNfc_MfStd_Process(NdefSmtCrdFmt,Status);
+
+                }
+                else
+                {
+                    Status = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT,
+                                         NFCSTATUS_INVALID_REMOTE_DEVICE);
+                }
+            break;
+            default :
+                /* Remote device opmode not recognized.
+                 * Probably not NDEF compliant
+                 */
+                Status = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT,
+                                    NFCSTATUS_INVALID_REMOTE_DEVICE);
+                /* set the state back to the Reset_Init state*/
+                NdefSmtCrdFmt->State =  PH_FRINFC_SMTCRDFMT_STATE_RESET_INIT;
+
+                /* set the completion routine*/
+                NdefSmtCrdFmt->CompletionRoutine[PH_FRINFC_SMTCRDFMT_CR_INVALID_OPE].
+                CompletionRoutine(NdefSmtCrdFmt->CompletionRoutine->Context, Status);
+            break;
+        }
+    }
+    else
+    {
+        Status = PHNFCSTVAL(CID_FRI_NFC_NDEF_SMTCRDFMT,\
+                            NFCSTATUS_INVALID_PARAMETER);
+        /* The control should not come here. As Context itself is NULL ,
+         * Can't call the CR
+         */
+    }
+
+    return;
+}
diff --git a/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.h b/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.h
new file mode 100755
index 0000000..ac10dee
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phFriNfc_SmtCrdFmt.h
@@ -0,0 +1,122 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+/*
+ * Smart Card Completion Routing component
+ */
+
+#ifndef PHFRINFC_SMTCRDFMT_H
+#define PHFRINFC_SMTCRDFMT_H
+
+#include <phNfcTypes_Mapping.h>
+
+/********************* Definitions and structures *****************************/
+
+#define DESFIRE_FMT_EV1
+
+#define  PH_FRI_NFC_SMTCRDFMT_NFCSTATUS_FORMAT_ERROR             9                /* Format error */
+#define  PH_FRINFC_SMTCRDFMT_MSTD_DEFAULT_KEYA_OR_KEYB           {0xFF, 0xFF,0xFF,0xFF,0xFF,0xFF} /* Default Key */
+#define  PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_KEYA                   {0xA0, 0xA1,0xA2,0xA3,0xA4,0xA5} /* Key A */
+#define  PH_FRINFC_SMTCRDFMT_NFCFORUMSECT_KEYA                   {0xD3, 0xF7,0xD3,0xF7,0xD3,0xF7} /* NFC Forum Key */
+#define  PH_FRINFC_SMTCRDFMT_MSTD_MADSECT_ACCESSBITS             {0x78,0x77,0x88} /* Access bits */
+#define  PH_FRINFC_SMTCRDFMT_MSTD_NFCFORUM_ACCESSBITS            {0x7F,0x07,0x88} /* NFC Forum access bits */
+#define  PH_FRINFC_SMTCRDFMT_MAX_TLV_TYPE_SUPPORTED              1                /* TLV support */
+#define  PH_FRINFC_SMTCRDFMT_MAX_SEND_RECV_BUF_SIZE              252              /* Buffer size */
+#define  PH_FRINFC_SMTCRDFMT_STATE_RESET_INIT                    1                /* Format state */
+
+/*
+ * Enum definition contains Tag Types
+ */
+enum
+{
+    PH_FRINFC_SMTCRDFMT_MIFARE_UL_CARD,
+    PH_FRINFC_SMTCRDFMT_ISO14443_4A_CARD,
+    PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD,
+    PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD,
+    PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD,
+    PH_FRINFC_SMTCRDFMT_TOPAZ_CARD
+};
+
+#define PH_FRINFC_SMTCRDFMT_CR_FORMAT         0  /* Index for phFriNfc_SmtCrd_Format */
+#define PH_FRINFC_SMTCRDFMT_CR_INVALID_OPE    1  /* Index for Unknown States/Operations */
+#define  PH_FRINFC_SMTCRDFMT_CR               2  /* Number of completion routines */
+
+ /*
+  * Mifare Std Additional Information Structure
+  */
+ typedef struct phFriNfc_MfStd_AddInfo
+{
+    uint8_t     Default_KeyA_OR_B[6];          /* Stores the Default KeyA and KeyB values */
+    uint8_t     MADSect_KeyA[6];               /* Key A of MAD sector */
+    uint8_t     NFCForumSect_KeyA[6];          /* Key A of NFC Forum Sector sector */
+    uint8_t     MADSect_AccessBits[3];         /* Access Bits of MAD sector */
+    uint8_t     NFCForumSect_AccessBits[3];    /* Access Bits of NFC Forum sector */
+    uint8_t     ScrtKeyB[6];                   /* Secret key B to given by the application */
+    uint8_t     AuthState;                     /* Status of the different authentication */
+    uint16_t    CurrentBlock;                  /* Stores the current block */
+    uint8_t     NoOfDevices;                   /* Stores the current block */
+    uint8_t     SectCompl[40];                 /* Store the compliant sectors */
+    uint8_t     WrMADBlkFlag;                  /* Flag to know that MAD sector */
+    uint8_t     MADSectBlk[80];                /* Fill the MAD sector blocks */
+    uint8_t     UpdMADBlk;                     /* Fill the MAD sector blocks */
+} phFriNfc_MfStd_AddInfo_t;
+
+/*
+ *  Ndef Mifare Std Additional Information Structure
+ */
+typedef struct phFriNfc_sNdefSmtCrdFmt_AddInfo
+{
+   phFriNfc_MfStd_AddInfo_t         MfStdInfo;  /* Mifare Std Additional Information Structure */
+
+}phFriNfc_sNdefSmtCrdFmt_AddInfo_t;
+
+/*
+ *  Context information Structure
+ */
+typedef struct phFriNfc_sNdefSmtCrdFmt
+{
+    phNfc_sTransceiveInfo_t             *pTransceiveInfo;     /* Pointer to the Transceive information */
+    phHal_sRemoteDevInformation_t       *psRemoteDevInfo;     /* Pointer to the Remote Device Information */
+    uint8_t                             CardType;             /* Stores the type of the smart card */
+    uint8_t                             State;                /* The state of the operation */
+    uint8_t                             CardState;            /* Stores the card state */
+    phFriNfc_CplRt_t                    CompletionRoutine[PH_FRINFC_SMTCRDFMT_CR];     /* Completion Routine Context */
+    phFriNfc_CplRt_t                    SmtCrdFmtCompletionInfo;     /* Holds the completion routine informations of the Smart Card Formatting Layer */
+    phHal_uCmdList_t                    Cmd;                  /* Holds the Command Type(read/write) */
+    uint16_t                            *SendRecvLength;      /* Holds the length of the received data */
+    uint8_t                             *SendRecvBuf;         /* Holds the ack of some intial commands */
+    uint16_t                            SendLength;           /* Holds the length of the data to be sent */
+    NFCSTATUS                           FmtProcStatus;        /* Stores the output/result of the format procedure */
+    phFriNfc_sNdefSmtCrdFmt_AddInfo_t   AddInfo;              /* Stores Additional Information needed to format the different types of tags*/
+    uint8_t         TLVMsg[PH_FRINFC_SMTCRDFMT_MAX_TLV_TYPE_SUPPORTED][8];    /* Stores NDEF message TLV */
+} phFriNfc_sNdefSmtCrdFmt_t;
+
+NFCSTATUS phFriNfc_NdefSmtCrd_Reset(phFriNfc_sNdefSmtCrdFmt_t       *NdefSmtCrdFmt,
+                                    void                            *LowerDevice,
+                                    phHal_sRemoteDevInformation_t   *psRemoteDevInfo,
+                                    uint8_t                         *SendRecvBuffer,
+                                    uint16_t                        *SendRecvBuffLen);
+
+NFCSTATUS phFriNfc_NdefSmtCrd_SetCR(phFriNfc_sNdefSmtCrdFmt_t     *NdefSmtCrdFmt,
+                                    uint8_t                       FunctionID,
+                                    pphFriNfc_Cr_t                CompletionRoutine,
+                                    void                          *CompletionRoutineContext);
+
+void phFriNfc_NdefSmtCrd_Process(void *Context, NFCSTATUS Status);
+
+void phFriNfc_SmtCrdFmt_HCrHandler(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt, NFCSTATUS Status);
+
+#endif /* PHFRINFC_SMTCRDFMT_H */
diff --git a/nci/jni/extns/pn54x/src/mifare/phNxpExtns_MifareStd.c b/nci/jni/extns/pn54x/src/mifare/phNxpExtns_MifareStd.c
new file mode 100755
index 0000000..c0c3bc1
--- /dev/null
+++ b/nci/jni/extns/pn54x/src/mifare/phNxpExtns_MifareStd.c
@@ -0,0 +1,2154 @@
+/*
+ * Copyright (C) 2015 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ *      http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#include <nfc_api.h>
+#include <rw_api.h>
+#include <phNfcCompId.h>
+#include <phNxpLog.h>
+#include <phNxpExtns_MifareStd.h>
+
+phNxpExtns_Context_t       gphNxpExtns_Context;
+phNciNfc_TransceiveInfo_t  tNciTranscvInfo;
+phFriNfc_sNdefSmtCrdFmt_t  *NdefSmtCrdFmt = NULL;
+phFriNfc_NdefMap_t         *NdefMap = NULL;
+phLibNfc_NdefInfo_t        NdefInfo;
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+pthread_mutex_t SharedDataMutex = PTHREAD_MUTEX_INITIALIZER;
+#endif
+UINT8 current_key[6]={0};
+phNci_mfc_auth_cmd_t       gAuthCmdBuf;
+STATIC NFCSTATUS phNciNfc_SendMfReq(phNciNfc_TransceiveInfo_t tTranscvInfo,
+                                    uint8_t *buff, uint16_t *buffSz);
+STATIC NFCSTATUS phLibNfc_SendRawCmd(phNfc_sTransceiveInfo_t*    pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf);
+STATIC NFCSTATUS phLibNfc_SendWrt16Cmd(phNfc_sTransceiveInfo_t*    pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf);
+STATIC NFCSTATUS phLibNfc_SendAuthCmd(phNfc_sTransceiveInfo_t *pTransceiveInfo,
+                                      phNciNfc_TransceiveInfo_t  *tNciTranscvInfo) __attribute__((unused));
+STATIC NFCSTATUS phLibNfc_MapCmds(phNciNfc_RFDevType_t         RemDevType,
+                                    phNfc_sTransceiveInfo_t*  pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf);
+STATIC NFCSTATUS phLibNfc_MifareMap(phNfc_sTransceiveInfo_t*    pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf);
+STATIC NFCSTATUS phLibNfc_ChkAuthCmdMFC(phNfc_sTransceiveInfo_t* pTransceiveInfo,
+                                    uint8_t *bKey);
+STATIC NFCSTATUS phLibNfc_GetKeyNumberMFC(uint8_t *buffer,uint8_t *bKey);
+STATIC void phLibNfc_CalSectorAddress(uint8_t *Sector_Address);
+STATIC NFCSTATUS  phNciNfc_MfCreateAuthCmdHdr(phNciNfc_TransceiveInfo_t tTranscvInfo,
+                                    uint8_t    bBlockAddr,
+                                    uint8_t    *buff,
+                                    uint16_t    *buffSz);
+STATIC NFCSTATUS phNciNfc_MfCreateXchgDataHdr(phNciNfc_TransceiveInfo_t tTranscvInfo,
+                                    uint8_t *buff, uint16_t *buffSz);
+STATIC NFCSTATUS phLibNfc_SendWrt16CmdPayload(phNfc_sTransceiveInfo_t*    pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf);
+STATIC NFCSTATUS phNciNfc_RecvMfResp(phNciNfc_Buff_t* RspBuffInfo, NFCSTATUS wStatus);
+STATIC NFCSTATUS nativeNfcExtns_doTransceive(uint8_t *buff, uint16_t buffSz);
+STATIC NFCSTATUS phFriNfc_NdefSmtCrd_Reset__(phFriNfc_sNdefSmtCrdFmt_t    *NdefSmtCrdFmt,
+                                    uint8_t    *SendRecvBuffer,
+                                    uint16_t   *SendRecvBuffLen);
+STATIC NFCSTATUS phFriNfc_ValidateParams(uint8_t  *PacketData,
+                                    uint32_t   *PacketDataLength,
+                                    uint8_t     Offset,
+                                    phFriNfc_NdefMap_t  *pNdefMap,
+                                    uint8_t     bNdefReq);
+STATIC void Mfc_FormatNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status);
+STATIC void Mfc_WriteNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status);
+STATIC void Mfc_ReadNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status);
+STATIC void Mfc_CheckNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status);
+
+/*******************************************************************************
+**
+** Function         phNxpExtns_MfcModuleDeInit
+**
+** Description      It Deinitializes the Mifare module.
+**
+**                  Frees all the memory occupied by Mifare module
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully deinitialize
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS phNxpExtns_MfcModuleDeInit(void)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+
+    if(NdefMap != NULL)
+    {
+        if( NdefMap->psRemoteDevInfo != NULL )
+        {
+            free(NdefMap->psRemoteDevInfo);
+            NdefMap->psRemoteDevInfo = NULL;
+        }
+        if( NdefMap->SendRecvBuf != NULL )
+        {
+            free(NdefMap->SendRecvBuf);
+            NdefMap->SendRecvBuf = NULL;
+        }
+        if( NdefMap->SendRecvLength != NULL )
+        {
+            free(NdefMap->SendRecvLength);
+            NdefMap->SendRecvLength = NULL;
+        }
+        if( NdefMap->DataCount != NULL )
+        {
+            free(NdefMap->DataCount);
+            NdefMap->DataCount = NULL;
+        }
+        if( NdefMap->pTransceiveInfo != NULL )
+        {
+            if( NdefMap->pTransceiveInfo->sSendData.buffer != NULL )
+            {
+                free(NdefMap->pTransceiveInfo->sSendData.buffer);
+                NdefMap->pTransceiveInfo->sSendData.buffer = NULL;
+            }
+            if( NdefMap->pTransceiveInfo->sRecvData.buffer != NULL )
+            {
+                free(NdefMap->pTransceiveInfo->sRecvData.buffer);
+                NdefMap->pTransceiveInfo->sRecvData.buffer = NULL;
+            }
+            free(NdefMap->pTransceiveInfo);
+            NdefMap->pTransceiveInfo = NULL;
+        }
+
+        free(NdefMap);
+        NdefMap = NULL;
+    }
+
+    if( tNciTranscvInfo.tSendData.pBuff != NULL )
+    {
+        free(tNciTranscvInfo.tSendData.pBuff);
+        tNciTranscvInfo.tSendData.pBuff = NULL;
+    }
+
+    if( NdefSmtCrdFmt != NULL )
+    {
+        free(NdefSmtCrdFmt);
+        NdefSmtCrdFmt = NULL;
+    }
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_lock(&SharedDataMutex);
+#endif
+    if ( NULL != NdefInfo.psUpperNdefMsg )
+    {
+        if ( NdefInfo.psUpperNdefMsg->buffer != NULL )
+        {
+            free(NdefInfo.psUpperNdefMsg->buffer);
+            NdefInfo.psUpperNdefMsg->buffer = NULL;
+        }
+        free(NdefInfo.psUpperNdefMsg);
+        NdefInfo.psUpperNdefMsg = NULL;
+    }
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_unlock(&SharedDataMutex);
+#endif
+    if (NULL != gAuthCmdBuf.pauth_cmd)
+    {
+        if (NULL != gAuthCmdBuf.pauth_cmd->buffer)
+        {
+            free(gAuthCmdBuf.pauth_cmd->buffer);
+            gAuthCmdBuf.pauth_cmd->buffer = NULL;
+        }
+        free(gAuthCmdBuf.pauth_cmd);
+        gAuthCmdBuf.pauth_cmd = NULL;
+    }
+    status = NFCSTATUS_SUCCESS;
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         phNxpExtns_MfcModuleInit
+**
+** Description      It Initializes the memroy and global variables related
+**                  to Mifare module.
+**
+**                  Reset all the global variables and allocate memory for Mifare module
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully deinitialize
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS phNxpExtns_MfcModuleInit(void)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+    gphNxpExtns_Context.writecmdFlag = FALSE;
+    gphNxpExtns_Context.RawWriteCallBack = FALSE;
+    gphNxpExtns_Context.CallBackCtxt   = NULL;
+    gphNxpExtns_Context.CallBackMifare = NULL;
+    gphNxpExtns_Context.ExtnsConnect = FALSE;
+    gphNxpExtns_Context.ExtnsDeactivate = FALSE;
+    gphNxpExtns_Context.ExtnsCallBack = FALSE;
+
+    NdefMap = malloc(sizeof(phFriNfc_NdefMap_t));
+    if( NULL == NdefMap )
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap,0,sizeof(phFriNfc_NdefMap_t));
+
+    NdefMap->psRemoteDevInfo = malloc(sizeof(phLibNfc_sRemoteDevInformation_t));
+    if( NULL == NdefMap->psRemoteDevInfo )
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap->psRemoteDevInfo, 0, sizeof(phLibNfc_sRemoteDevInformation_t));
+
+    NdefMap->SendRecvBuf = malloc((uint32_t)(MAX_BUFF_SIZE * 2));
+    if( NULL == NdefMap->SendRecvBuf )
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap->SendRecvBuf, 0, (MAX_BUFF_SIZE * 2));
+
+    NdefMap->SendRecvLength  = malloc(sizeof(uint16_t));
+    if( NULL ==  NdefMap->SendRecvLength )
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap->SendRecvLength, 0, sizeof(uint16_t));
+
+    NdefMap->DataCount = malloc(sizeof(uint16_t));
+    if( NULL == NdefMap->DataCount )
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap->DataCount, 0, sizeof(uint16_t));
+
+    NdefMap->pTransceiveInfo = malloc(sizeof(phNfc_sTransceiveInfo_t));
+    if(NULL == NdefMap->pTransceiveInfo)
+    {
+        goto clean_and_return;
+    }
+    memset(NdefMap->pTransceiveInfo, 0, sizeof(phNfc_sTransceiveInfo_t));
+
+    tNciTranscvInfo.tSendData.pBuff = (uint8_t *)malloc((uint32_t)MAX_BUFF_SIZE);
+    if(NULL == tNciTranscvInfo.tSendData.pBuff)
+    {
+        goto clean_and_return;
+    }
+    memset(tNciTranscvInfo.tSendData.pBuff, 0, MAX_BUFF_SIZE);
+
+    NdefMap->pTransceiveInfo->sSendData.buffer = (uint8_t *)malloc((uint32_t)MAX_BUFF_SIZE);
+    if( NdefMap->pTransceiveInfo->sSendData.buffer == NULL )
+    {
+        goto clean_and_return;
+    }
+    memset( NdefMap->pTransceiveInfo->sSendData.buffer, 0, MAX_BUFF_SIZE );
+    NdefMap->pTransceiveInfo->sSendData.length = MAX_BUFF_SIZE;
+
+    NdefMap->pTransceiveInfo->sRecvData.buffer = (uint8_t *)malloc((uint32_t)MAX_BUFF_SIZE); /* size should be same as sRecvData */
+    if( NdefMap->pTransceiveInfo->sRecvData.buffer == NULL )
+    {
+        goto clean_and_return;
+    }
+    memset( NdefMap->pTransceiveInfo->sRecvData.buffer, 0, MAX_BUFF_SIZE );
+    NdefMap->pTransceiveInfo->sRecvData.length = MAX_BUFF_SIZE;
+
+    NdefSmtCrdFmt = malloc( sizeof(phFriNfc_sNdefSmtCrdFmt_t) );
+    if( NdefSmtCrdFmt == NULL )
+    {
+        goto clean_and_return;
+    }
+    memset( NdefSmtCrdFmt , 0, sizeof(phFriNfc_sNdefSmtCrdFmt_t) );
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_lock(&SharedDataMutex);
+#endif
+    NdefInfo.psUpperNdefMsg = malloc(sizeof(phNfc_sData_t));
+    if ( NULL == NdefInfo.psUpperNdefMsg )
+    {
+        goto clean_and_return;
+    }
+    memset( NdefInfo.psUpperNdefMsg, 0, sizeof(phNfc_sData_t) );
+    memset (&gAuthCmdBuf, 0, sizeof(phNci_mfc_auth_cmd_t));
+    gAuthCmdBuf.pauth_cmd = malloc(sizeof(phNfc_sData_t));
+    if (NULL == gAuthCmdBuf.pauth_cmd)
+    {
+        goto clean_and_return;
+    }
+    gAuthCmdBuf.pauth_cmd->buffer = malloc((uint32_t)NCI_MAX_DATA_LEN);
+    if (NULL == gAuthCmdBuf.pauth_cmd->buffer)
+    {
+        goto clean_and_return;
+    }
+    status = NFCSTATUS_SUCCESS;
+
+clean_and_return:
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_unlock(&SharedDataMutex);
+#endif
+    if(status != NFCSTATUS_SUCCESS)
+    {
+        NXPLOG_EXTNS_E("CRIT: Memory Allocation failed for MFC!");
+        phNxpExtns_MfcModuleDeInit();
+    }
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_CheckNdef
+**
+** Description      It triggers NDEF detection for Mifare Classic Tag.
+**
+**
+** Returns          NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_CheckNdef(void)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+
+    EXTNS_SetCallBackFlag(FALSE);
+    /* Set Completion Routine for CheckNdef */
+    NdefMap->CompletionRoutine[0].CompletionRoutine = Mfc_CheckNdef_Completion_Routine;
+
+    gphNxpExtns_Context.CallBackMifare = phFriNfc_MifareStdMap_Process;
+    gphNxpExtns_Context.CallBackCtxt   = NdefMap;
+    status = phFriNfc_MifareStdMap_H_Reset(NdefMap);
+    if ( NFCSTATUS_SUCCESS == status)
+    {
+        status = phFriNfc_MifareStdMap_ChkNdef(NdefMap);
+        if ( status == NFCSTATUS_PENDING )
+        {
+            status = NFCSTATUS_SUCCESS;
+        }
+    }
+    if( status != NFCSTATUS_SUCCESS )
+    {
+        status = NFCSTATUS_FAILED;
+    }
+
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_CheckNdef_Completion_Routine
+**
+** Description      Notify NDEF detection for Mifare Classic Tag to JNI
+**
+**                  Upon completion of NDEF detection, a
+**                  NFA_NDEF_DETECT_EVT will be sent, to notify the application
+**                  of the NDEF attributes (NDEF total memory size, current
+**                  size, etc.).
+**
+** Returns:         void
+**
+*******************************************************************************/
+STATIC void Mfc_CheckNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status)
+{
+    (void)NdefCtxt;
+    tNFA_CONN_EVT_DATA conn_evt_data;
+
+    conn_evt_data.ndef_detect.status = status;
+    if(NFCSTATUS_SUCCESS == status)
+    {
+        /* NDef Tag Detected */
+        conn_evt_data.ndef_detect.protocol   = NFA_PROTOCOL_MIFARE;
+        phFrinfc_MifareClassic_GetContainerSize(NdefMap,
+                                                (uint32_t *)&(conn_evt_data.ndef_detect.max_size),
+                                                (uint32_t *)&(conn_evt_data.ndef_detect.cur_size));
+        NdefInfo.NdefLength  = conn_evt_data.ndef_detect.max_size;
+        /* update local flags */
+        NdefInfo.is_ndef = 1;
+        NdefInfo.NdefActualSize = conn_evt_data.ndef_detect.cur_size;
+        if ( PH_NDEFMAP_CARD_STATE_READ_ONLY == NdefMap->CardState )
+        {
+            NXPLOG_EXTNS_D("Mfc_CheckNdef_Completion_Routine : READ_ONLY_CARD");
+            conn_evt_data.ndef_detect.flags = RW_NDEF_FL_READ_ONLY;
+        }
+        else
+        {
+            conn_evt_data.ndef_detect.flags = RW_NDEF_FL_SUPPORTED | RW_NDEF_FL_FORMATED;
+        }
+    }
+    else
+    {
+        /* NDEF Detection failed for other reasons */
+        conn_evt_data.ndef_detect.cur_size = 0;
+        conn_evt_data.ndef_detect.max_size = 0;
+        conn_evt_data.ndef_detect.flags    = RW_NDEF_FL_UNKNOWN;
+
+        /* update local flags */
+        NdefInfo.is_ndef = 0;
+        NdefInfo.NdefActualSize = conn_evt_data.ndef_detect.cur_size;
+    }
+    (*gphNxpExtns_Context.p_conn_cback) (NFA_NDEF_DETECT_EVT, &conn_evt_data);
+
+    return;
+}
+/*******************************************************************************
+**
+** Function         Mfc_ReadNdef_Completion_Routine
+**
+** Description      Notify NDEF read completion for Mifare Classic Tag to JNI
+**
+**                  Upon completion of NDEF read, a
+**                  NFA_READ_CPLT_EVT will be sent, to notify the application
+**                  with the NDEF data and status
+**
+** Returns:         void
+**
+*******************************************************************************/
+STATIC void Mfc_ReadNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status)
+{
+    (void)NdefCtxt;
+    tNFA_CONN_EVT_DATA conn_evt_data;
+    tNFA_NDEF_EVT_DATA p_data;
+
+    conn_evt_data.status = status;
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_lock(&SharedDataMutex);
+#endif
+    if(NFCSTATUS_SUCCESS == status)
+    {
+        p_data.ndef_data.len    = NdefInfo.psUpperNdefMsg->length;
+        p_data.ndef_data.p_data = NdefInfo.psUpperNdefMsg->buffer;
+        (*gphNxpExtns_Context.p_ndef_cback) (NFA_NDEF_DATA_EVT, &p_data);
+    }
+    else
+    {
+    }
+
+    (*gphNxpExtns_Context.p_conn_cback) (NFA_READ_CPLT_EVT, &conn_evt_data);
+
+    if( NdefInfo.psUpperNdefMsg->buffer != NULL)
+    {
+        free (NdefInfo.psUpperNdefMsg->buffer);
+        NdefInfo.psUpperNdefMsg->buffer = NULL;
+    }
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_unlock(&SharedDataMutex);
+#endif
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_WriteNdef_Completion_Routine
+**
+** Description      Notify NDEF write completion for Mifare Classic Tag to JNI
+**
+**                  Upon completion of NDEF write, a
+**                  NFA_WRITE_CPLT_EVT will be sent along with status
+**
+** Returns:         void
+**
+*******************************************************************************/
+STATIC void Mfc_WriteNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status)
+{
+    (void)NdefCtxt;
+    tNFA_CONN_EVT_DATA conn_evt_data;
+
+    conn_evt_data.status = status;
+    (*gphNxpExtns_Context.p_conn_cback) (NFA_WRITE_CPLT_EVT, &conn_evt_data);
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_FormatNdef_Completion_Routine
+**
+** Description      Notify NDEF format completion for Mifare Classic Tag to JNI
+**
+**                  Upon completion of NDEF format, a
+**                  NFA_FORMAT_CPLT_EVT will be sent along with status
+**
+** Returns:         void
+**
+*******************************************************************************/
+STATIC void Mfc_FormatNdef_Completion_Routine(void *NdefCtxt, NFCSTATUS status)
+{
+    (void)NdefCtxt;
+    tNFA_CONN_EVT_DATA conn_evt_data;
+
+    conn_evt_data.status = status;
+    (*gphNxpExtns_Context.p_conn_cback) (NFA_FORMAT_CPLT_EVT, &conn_evt_data);
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function          phFriNfc_ValidateParams
+**
+** Description      This function is a common function which validates NdefRd
+**                  and NdefWr parameters.
+**
+** Returns          NFCSTATUS_SUCCESS  - All the params are valid
+**                  NFCSTATUS_FAILED   - otherwise
+**
+*******************************************************************************/
+STATIC NFCSTATUS phFriNfc_ValidateParams(uint8_t             *PacketData,
+                                    uint32_t            *PacketDataLength,
+                                    uint8_t             Offset,
+                                    phFriNfc_NdefMap_t  *pNdefMap,
+                                    uint8_t             bNdefReq)
+{
+
+    if( (pNdefMap == NULL) || (PacketData == NULL)
+        || (PacketDataLength == NULL) )
+    {
+        return NFCSTATUS_FAILED;
+    }
+
+    if( pNdefMap->CardState == PH_NDEFMAP_CARD_STATE_INVALID )
+    {
+        return NFCSTATUS_FAILED;
+    }
+
+    if( bNdefReq == PH_FRINFC_NDEF_READ_REQ )
+    {
+        if( (Offset != PH_FRINFC_NDEFMAP_SEEK_CUR) && (Offset != PH_FRINFC_NDEFMAP_SEEK_BEGIN) )
+        {
+            return NFCSTATUS_FAILED;
+        }
+        if( pNdefMap->CardState == PH_NDEFMAP_CARD_STATE_INITIALIZED )
+        {
+            pNdefMap->NumOfBytesRead  = PacketDataLength;
+            *pNdefMap->NumOfBytesRead = 0;
+            return NFCSTATUS_EOF_NDEF_CONTAINER_REACHED;
+        }
+        if( (pNdefMap->PrevOperation == PH_FRINFC_NDEFMAP_WRITE_OPE) &&
+            (Offset != PH_FRINFC_NDEFMAP_SEEK_BEGIN) )
+        {
+            return NFCSTATUS_FAILED; /* return INVALID_DEVICE_REQUEST */
+        }
+        if( Offset == PH_FRINFC_NDEFMAP_SEEK_BEGIN )
+        {
+            pNdefMap->ApduBuffIndex = 0;
+            *pNdefMap->DataCount    = 0;
+        }
+        else if ( (pNdefMap->bPrevReadMode == PH_FRINFC_NDEFMAP_SEEK_BEGIN) ||
+                  (pNdefMap->bPrevReadMode == PH_FRINFC_NDEFMAP_SEEK_CUR) )
+        {
+
+        }
+        else
+        {
+            return NFCSTATUS_FAILED;
+        }
+    }
+    else if( bNdefReq == PH_FRINFC_NDEF_WRITE_REQ )
+    {
+        if( pNdefMap->CardState == PH_NDEFMAP_CARD_STATE_READ_ONLY )
+        {
+            pNdefMap->WrNdefPacketLength  = PacketDataLength;
+            *pNdefMap->WrNdefPacketLength = 0x00;
+            return NFCSTATUS_NOT_ALLOWED;
+        }
+    }
+
+    return NFCSTATUS_SUCCESS;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_SetRdOnly_Completion_Routine
+**
+** Description      Notify NDEF read only completion for Mifare Classic Tag to JNI
+**
+**                  Upon completion of NDEF format, a
+**                  NFA_SET_TAG_RO_EVT will be sent along with status
+**
+** Returns:         void
+**
+*******************************************************************************/
+STATIC void Mfc_SetRdOnly_Completion_Routine(void *NdefCtxt, NFCSTATUS status)
+{
+    (void)NdefCtxt;
+    tNFA_CONN_EVT_DATA conn_evt_data;
+    ALOGE("Mfc_SetRdOnly_Completion_Routine status = 0x%x", status);
+    conn_evt_data.status = status;
+    (*gphNxpExtns_Context.p_conn_cback) (NFA_SET_TAG_RO_EVT, &conn_evt_data);
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function        Mfc_SetReadOnly
+**
+**
+** Description:    It triggers ConvertToReadOnly  for Mifare Classic Tag.
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS if successfully initiated
+**                  NFCSTATUS_FAILED otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_SetReadOnly(uint8_t *secrtkey, uint8_t len)
+{
+    NXPLOG_EXTNS_D("%s Entering ", __FUNCTION__);
+    NFCSTATUS status = NFCSTATUS_FAILED;
+    uint8_t mif_secrete_key[6] = {0};
+    uint8_t id = 0;
+    EXTNS_SetCallBackFlag(FALSE);
+    memcpy(mif_secrete_key,secrtkey,len);
+    gphNxpExtns_Context.CallBackMifare = phFriNfc_MifareStdMap_Process;
+    gphNxpExtns_Context.CallBackCtxt   = NdefMap;
+    for (id = 0; id < len; id++)
+    {
+        ALOGD("secrtkey[%d] = 0x%x", id, secrtkey[id]);
+        ALOGD("mif_secrete_key[%d] = 0x%x", id, mif_secrete_key[id]);
+    }
+    /* Set Completion Routine for ReadNdef */
+    NdefMap->CompletionRoutine[0].CompletionRoutine = Mfc_SetRdOnly_Completion_Routine;
+    if(NdefInfo.is_ndef == 0)
+    {
+        status = NFCSTATUS_NON_NDEF_COMPLIANT;
+        goto Mfc_SetRdOnly;
+    }
+    else if( (NdefInfo.is_ndef == 1) && (NdefInfo.NdefActualSize == 0) )
+    {
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+        pthread_mutex_lock(&SharedDataMutex);
+#endif
+        NdefInfo.psUpperNdefMsg->length = NdefInfo.NdefActualSize;
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+        pthread_mutex_unlock(&SharedDataMutex);
+#endif
+        status = NFCSTATUS_SUCCESS;
+        goto Mfc_SetRdOnly;
+    }
+    else
+    {
+        status = phFriNfc_MifareStdMap_ConvertToReadOnly(NdefMap, mif_secrete_key);
+    }
+    if ( NFCSTATUS_PENDING == status )
+    {
+        status = NFCSTATUS_SUCCESS;
+    }
+
+Mfc_SetRdOnly:
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_ReadNdef
+**
+** Description      It triggers receiving of the NDEF message from Mifare Classic Tag.
+**
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_ReadNdef(void)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+    uint8_t            *PacketData = NULL;
+    uint32_t           *PacketDataLength = NULL;
+    phLibNfc_Ndef_EOffset_t Offset;
+
+    EXTNS_SetCallBackFlag(FALSE);
+
+    Offset = phLibNfc_Ndef_EBegin;
+
+    gphNxpExtns_Context.CallBackMifare = phFriNfc_MifareStdMap_Process;
+    gphNxpExtns_Context.CallBackCtxt   = NdefMap;
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_lock(&SharedDataMutex);
+#endif
+    if(NdefInfo.is_ndef == 0)
+    {
+        status = NFCSTATUS_NON_NDEF_COMPLIANT;
+        goto Mfc_RdNdefEnd;
+    }
+    else if( (NdefInfo.is_ndef == 1) && (NdefInfo.NdefActualSize == 0) )
+    {
+        NdefInfo.psUpperNdefMsg->length = NdefInfo.NdefActualSize;
+        status = NFCSTATUS_SUCCESS;
+        goto Mfc_RdNdefEnd;
+    }
+    else
+    {
+        NdefInfo.psUpperNdefMsg->buffer = malloc(NdefInfo.NdefActualSize);
+        if ( NULL == NdefInfo.psUpperNdefMsg->buffer)
+        {
+           goto Mfc_RdNdefEnd;
+        }
+        NdefInfo.psUpperNdefMsg->length = NdefInfo.NdefActualSize;
+
+        /* Set Completion Routine for ReadNdef */
+        NdefMap->CompletionRoutine[1].CompletionRoutine = Mfc_ReadNdef_Completion_Routine;
+        NdefInfo.NdefContinueRead = (uint8_t) ((phLibNfc_Ndef_EBegin==Offset) ?
+                                                        PH_FRINFC_NDEFMAP_SEEK_BEGIN :
+                                                        PH_FRINFC_NDEFMAP_SEEK_CUR);
+    }
+
+    PacketData             = NdefInfo.psUpperNdefMsg->buffer;
+    PacketDataLength       = (uint32_t*)&(NdefInfo.psUpperNdefMsg->length);
+    NdefMap->bCurrReadMode = Offset;
+    status = phFriNfc_ValidateParams (PacketData, PacketDataLength, Offset, NdefMap, PH_FRINFC_NDEF_READ_REQ);
+    if( status != NFCSTATUS_SUCCESS )
+    {
+        goto Mfc_RdNdefEnd;
+    }
+
+    status = phFriNfc_MifareStdMap_RdNdef(NdefMap, PacketData, PacketDataLength, Offset);
+
+    if(NFCSTATUS_INSUFFICIENT_STORAGE == status)
+    {
+        NdefInfo.psUpperNdefMsg->length = 0x00;
+        status = NFCSTATUS_SUCCESS;
+    }
+
+    if ( NFCSTATUS_PENDING == status )
+    {
+        status = NFCSTATUS_SUCCESS;
+    }
+
+Mfc_RdNdefEnd:
+    if( status != NFCSTATUS_SUCCESS )
+    {
+        if ( NULL != NdefInfo.psUpperNdefMsg->buffer )
+        {
+            free(NdefInfo.psUpperNdefMsg->buffer);
+            NdefInfo.psUpperNdefMsg->buffer = NULL;
+        }
+        status = NFCSTATUS_FAILED;
+    }
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_unlock(&SharedDataMutex);
+#endif
+    return status;
+
+}
+/*******************************************************************************
+**
+** Function         Mfc_PresenceCheck
+**
+** Description      It triggers receiving of the NDEF message from Mifare Classic Tag.
+**
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_PresenceCheck(void)
+{
+    NFCSTATUS status = NFCSTATUS_SUCCESS;
+
+    if (gAuthCmdBuf.auth_status == TRUE)
+    {
+        EXTNS_SetCallBackFlag(FALSE);
+        status = nativeNfcExtns_doTransceive(gAuthCmdBuf.pauth_cmd->buffer,
+             gAuthCmdBuf.pauth_cmd->length);
+        if (status != NFCSTATUS_PENDING)
+        {
+            gAuthCmdBuf.auth_sent = FALSE;
+            status = NFCSTATUS_FAILED;
+        }
+        else
+        {
+            gAuthCmdBuf.auth_sent = TRUE;
+            status = NFCSTATUS_SUCCESS;
+        }
+    }
+    else
+    {
+        status = NFCSTATUS_NOT_ALLOWED;
+    }
+    NXPLOG_EXTNS_D("%s status = 0x%x", __FUNCTION__, status);
+    return status;
+}
+/*******************************************************************************
+**
+** Function         Mfc_WriteNdef
+**
+** Description      It triggers the NDEF data write to Mifare Classic Tag.
+**
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_WriteNdef(uint8_t *p_data, uint32_t len)
+{
+    NFCSTATUS status = NFCSTATUS_SUCCESS;
+    uint8_t            *PacketData = NULL;
+    uint32_t           *PacketDataLength = NULL;
+
+    if( p_data == NULL || len == 0 )
+    {
+        NXPLOG_EXTNS_E("MFC Error: Invalid Parameters to Ndef Write");
+        status = NFCSTATUS_FAILED;
+        goto Mfc_WrNdefEnd;
+    }
+
+    EXTNS_SetCallBackFlag(FALSE);
+    gphNxpExtns_Context.CallBackMifare = phFriNfc_MifareStdMap_Process;
+    gphNxpExtns_Context.CallBackCtxt   = NdefMap;
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_lock(&SharedDataMutex);
+#endif
+    if( NdefInfo.is_ndef == PH_LIBNFC_INTERNAL_CHK_NDEF_NOT_DONE )
+    {
+        status = NFCSTATUS_REJECTED;
+        goto Mfc_WrNdefEnd;
+    }
+    else if( NdefInfo.is_ndef == 0 )
+    {
+        status = NFCSTATUS_NON_NDEF_COMPLIANT;
+        goto Mfc_WrNdefEnd;
+    }
+    else if( len > NdefInfo.NdefLength )
+    {
+        status = NFCSTATUS_NOT_ENOUGH_MEMORY;
+        goto Mfc_WrNdefEnd;
+    }
+    else
+    {
+        NdefInfo.psUpperNdefMsg->buffer = p_data;
+        NdefInfo.psUpperNdefMsg->length = len;
+
+        NdefInfo.AppWrLength    = len;
+        NdefMap->CompletionRoutine[2].CompletionRoutine = Mfc_WriteNdef_Completion_Routine;
+        if( 0 == len )
+        {
+            /* TODO: Erase the Tag */
+        }
+        else
+        {
+            NdefMap->ApduBuffIndex = 0x00;
+            *NdefMap->DataCount    = 0x00;
+            PacketData             = NdefInfo.psUpperNdefMsg->buffer;
+            PacketDataLength       = &(NdefInfo.dwWrLength);
+            NdefMap->WrNdefPacketLength = PacketDataLength;
+            NdefInfo.dwWrLength = len;
+
+            status = phFriNfc_ValidateParams (PacketData, PacketDataLength, 0, NdefMap, PH_FRINFC_NDEF_WRITE_REQ);
+            if( status != NFCSTATUS_SUCCESS )
+            {
+                goto Mfc_WrNdefEnd;
+            }
+
+            status = phFriNfc_MifareStdMap_WrNdef(NdefMap, PacketData, PacketDataLength, PH_FRINFC_NDEFMAP_SEEK_BEGIN);
+
+            if ( status == NFCSTATUS_PENDING )
+            {
+                status = NFCSTATUS_SUCCESS;
+            }
+        }
+    }
+
+Mfc_WrNdefEnd:
+#if(NFC_NXP_NOT_OPEN_INCLUDED == TRUE)
+    pthread_mutex_unlock(&SharedDataMutex);
+#endif
+    if( status != NFCSTATUS_SUCCESS )
+    {
+        status = NFCSTATUS_FAILED;
+    }
+    return status;
+}
+/*******************************************************************************
+**
+** Function          phFriNfc_NdefSmtCrd_Reset__
+**
+** Description      This function Resets the component instance to the initial
+**                  state and initializes the internal variables.
+**
+** Returns          NFCSTATUS_SUCCESS
+**
+*******************************************************************************/
+STATIC NFCSTATUS phFriNfc_NdefSmtCrd_Reset__(phFriNfc_sNdefSmtCrdFmt_t *NdefSmtCrdFmt,
+                                      uint8_t *SendRecvBuffer,
+                                      uint16_t *SendRecvBuffLen)
+{
+//    NFCSTATUS status = NFCSTATUS_FAILED;                      /*commented to eliminate unused variable warning*/
+    uint8_t     index;
+
+    /* Initialize the state to Init */
+    NdefSmtCrdFmt->State = PH_FRINFC_SMTCRDFMT_STATE_RESET_INIT;
+
+    for(index = 0;index<PH_FRINFC_SMTCRDFMT_CR;index++)
+    {
+        /* Initialize the NdefMap Completion Routine to Null */
+        NdefSmtCrdFmt->CompletionRoutine[index].CompletionRoutine = NULL;
+        /* Initialize the NdefMap Completion Routine context to Null  */
+        NdefSmtCrdFmt->CompletionRoutine[index].Context = NULL;
+    }
+
+    /* Trx Buffer registered */
+    NdefSmtCrdFmt->SendRecvBuf = SendRecvBuffer;
+
+    /* Trx Buffer Size */
+    NdefSmtCrdFmt->SendRecvLength = SendRecvBuffLen;
+
+    /* Register Transfer Buffer Length */
+    NdefSmtCrdFmt->SendLength = 0;
+
+    /* Initialize the Format status flag*/
+    NdefSmtCrdFmt->FmtProcStatus = 0;
+
+    /* Reset the Card Type */
+    NdefSmtCrdFmt->CardType = 0;
+
+    /* Reset MapCompletion Info*/
+    NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.CompletionRoutine = NULL;
+    NdefSmtCrdFmt->SmtCrdFmtCompletionInfo.Context = NULL;
+
+    phFriNfc_MfStd_Reset(NdefSmtCrdFmt);
+
+    return NFCSTATUS_SUCCESS;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_FormatNdef
+**
+** Description      It triggers the NDEF format of Mifare Classic Tag.
+**
+**
+** Returns:
+**                  NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_FormatNdef(uint8_t *secretkey, uint8_t len)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+    uint8_t   mif_std_key[6] = {0};
+//    static uint8_t   Index;                                               /*commented to eliminate unused variable warning*/
+    uint8_t     sak = 0;
+
+    EXTNS_SetCallBackFlag(FALSE);
+
+    memcpy(mif_std_key,secretkey,len);
+    memcpy(current_key,secretkey,len);
+
+    if( NULL == NdefSmtCrdFmt ||
+        NULL == NdefMap || NULL == NdefMap->SendRecvBuf )
+    {
+        goto Mfc_FormatEnd;
+    }
+    NdefSmtCrdFmt->pTransceiveInfo = NdefMap->pTransceiveInfo;
+
+    gphNxpExtns_Context.CallBackMifare = phFriNfc_MfStd_Process;
+    gphNxpExtns_Context.CallBackCtxt   = NdefSmtCrdFmt;
+
+    NdefInfo.NdefSendRecvLen = NDEF_SENDRCV_BUF_LEN;
+    phFriNfc_NdefSmtCrd_Reset__(NdefSmtCrdFmt, NdefMap->SendRecvBuf, &(NdefInfo.NdefSendRecvLen));
+
+    /* Register Callbacks */
+    NdefSmtCrdFmt->CompletionRoutine[0].CompletionRoutine = Mfc_FormatNdef_Completion_Routine;
+    NdefSmtCrdFmt->CompletionRoutine[1].CompletionRoutine = Mfc_FormatNdef_Completion_Routine;
+    NdefSmtCrdFmt->psRemoteDevInfo = NdefMap->psRemoteDevInfo;
+    sak = NdefSmtCrdFmt->psRemoteDevInfo->RemoteDevInfo.Iso14443A_Info.Sak;
+
+    if((0x08 == (sak & 0x18)) || (0x18 == (sak & 0x18)) ||
+       (0x01 == sak))
+    {
+        NdefSmtCrdFmt->CardType = (uint8_t) (((sak & 0x18) == 0x08)?
+                        PH_FRINFC_SMTCRDFMT_MFSTD_1K_CRD:(((sak & 0x19) == 0x19)?
+                        PH_FRINFC_SMTCRDFMT_MFSTD_2K_CRD:
+                        PH_FRINFC_SMTCRDFMT_MFSTD_4K_CRD));
+        status = phFriNfc_MfStd_Format( NdefSmtCrdFmt, mif_std_key);
+    }
+
+    if( NFCSTATUS_PENDING == status )
+    {
+        status = NFCSTATUS_SUCCESS;
+    }
+
+Mfc_FormatEnd:
+    if( status != NFCSTATUS_SUCCESS )
+    {
+        status = NFCSTATUS_FAILED;
+    }
+
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         phNxNciExtns_MifareStd_Reconnect
+**
+** Description      This function sends the deactivate command to NFCC for Mifare
+**
+**
+** Returns:
+**                  NFCSTATUS_PENDING - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS phNxNciExtns_MifareStd_Reconnect(void)
+{
+    tNFA_STATUS status;
+
+    EXTNS_SetDeactivateFlag(TRUE);
+    if (NFA_STATUS_OK != (status = NFA_Deactivate (TRUE))) /* deactivate to sleep state */
+    {
+        NXPLOG_EXTNS_E ("%s: deactivate failed, status = %d", __FUNCTION__, status);
+        return NFCSTATUS_FAILED;
+    }
+
+    return NFCSTATUS_PENDING;
+
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_DeactivateCbackSelect
+**
+** Description      This function select the Mifare tag
+**
+**
+** Returns:         void
+**
+*******************************************************************************/
+void Mfc_DeactivateCbackSelect(void)
+{
+    tNFA_STATUS status;
+
+    EXTNS_SetConnectFlag(TRUE);
+    if (NFA_STATUS_OK != (status = NFA_Select (0x01, phNciNfc_e_RfProtocolsMifCProtocol,
+                                                     phNciNfc_e_RfInterfacesTagCmd_RF)))
+    {
+        NXPLOG_EXTNS_E ("%s: NFA_Select failed, status = %d", __FUNCTION__, status);
+    }
+
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_ActivateCback
+**
+** Description      This function invoke the callback when receive the response
+**
+**
+** Returns:         void
+**
+**
+*******************************************************************************/
+void Mfc_ActivateCback(void)
+{
+    gphNxpExtns_Context.CallBackMifare(gphNxpExtns_Context.CallBackCtxt, NFCSTATUS_SUCCESS);
+    return;
+}
+
+/*******************************************************************************
+**
+** Function         Mfc_Transceive
+**
+** Description      Sends raw frame to Mifare Classic Tag.
+**
+** Returns          NFCSTATUS_SUCCESS - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+NFCSTATUS Mfc_Transceive(uint8_t *p_data, uint32_t len)
+{
+    NFCSTATUS status = NFCSTATUS_FAILED;
+    uint8_t i = 0x00;
+
+    gphNxpExtns_Context.RawWriteCallBack = FALSE;
+    gphNxpExtns_Context.CallBackMifare = NULL;
+    gphNxpExtns_Context.CallBackCtxt   = NdefMap;
+
+    EXTNS_SetCallBackFlag(TRUE);
+    if( p_data[0] == 0x60 || p_data[0] == 0x61 )
+    {
+
+        NdefMap->Cmd.MfCmd = p_data[0];
+
+        NdefMap->SendRecvBuf[i++] = p_data[1];
+
+        NdefMap->SendRecvBuf[i++] = p_data[6]; /* TODO, handle 7 byte UID */
+        NdefMap->SendRecvBuf[i++] = p_data[7];
+        NdefMap->SendRecvBuf[i++] = p_data[8];
+        NdefMap->SendRecvBuf[i++] = p_data[9];
+        NdefMap->SendRecvBuf[i++] = p_data[10];
+        NdefMap->SendRecvBuf[i++] = p_data[11];
+
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                              NdefMap->Cmd,
+                              NdefMap->SendRecvBuf,
+                              NdefMap->SendLength,
+                              NdefMap->SendRecvLength);
+    }
+    else if( p_data[0] == 0xA0 )
+    {
+        EXTNS_SetCallBackFlag(FALSE);
+        NdefMap->Cmd.MfCmd = phNfc_eMifareWrite16;
+        gphNxpExtns_Context.RawWriteCallBack = TRUE;
+
+        memcpy(NdefMap->SendRecvBuf, &p_data[1], len-1);
+        NdefMap->SendLength = len-1;
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                              NdefMap->Cmd,
+                              NdefMap->SendRecvBuf,
+                              NdefMap->SendLength,
+                              NdefMap->SendRecvLength);
+    }
+    else if( (p_data[0] == phNfc_eMifareInc) || (p_data[0] == phNfc_eMifareDec) )
+    {
+
+        EXTNS_SetCallBackFlag(FALSE);
+        NdefMap->Cmd.MfCmd = p_data[0];
+        gphNxpExtns_Context.RawWriteCallBack = TRUE;
+
+        memcpy(NdefMap->SendRecvBuf, &p_data[1], len-1);
+        NdefMap->SendLength = len - 1;
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                              NdefMap->Cmd,
+                              NdefMap->SendRecvBuf,
+                              NdefMap->SendLength,
+                              NdefMap->SendRecvLength);
+    }
+    else if( ((p_data[0] == phNfc_eMifareTransfer) || (p_data[0] == phNfc_eMifareRestore)) && (len == 2) )
+    {
+        NdefMap->Cmd.MfCmd = p_data[0];
+        if ((p_data[0] == phNfc_eMifareRestore))
+        {
+            EXTNS_SetCallBackFlag(FALSE);
+            gphNxpExtns_Context.RawWriteCallBack = TRUE;
+            memcpy(NdefMap->SendRecvBuf, &p_data[1], len -1);
+            NdefMap->SendLength = len - 1;
+        }
+        else
+        {
+            memcpy(NdefMap->SendRecvBuf, p_data, len);
+            NdefMap->SendLength = len;
+        }
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                              NdefMap->Cmd,
+                              NdefMap->SendRecvBuf,
+                              NdefMap->SendLength,
+                              NdefMap->SendRecvLength);
+
+    }
+    else
+    {
+        NdefMap->Cmd.MfCmd = phNfc_eMifareRaw;
+
+        memcpy(NdefMap->SendRecvBuf, p_data, len);
+        NdefMap->SendLength = len;
+        status = phFriNfc_ExtnsTransceive(NdefMap->pTransceiveInfo,
+                              NdefMap->Cmd,
+                              NdefMap->SendRecvBuf,
+                              NdefMap->SendLength,
+                              NdefMap->SendRecvLength);
+    }
+    if (NFCSTATUS_PENDING == status)
+    {
+        status = NFCSTATUS_SUCCESS;
+    }
+    else
+    {
+        NXPLOG_EXTNS_E("ERROR: Mfc_Transceive = 0x%x", status);
+    }
+
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         nativeNfcExtns_doTransceive
+**
+** Description      Sends raw frame to BCM stack.
+**
+** Returns          NFCSTATUS_PENDING - if successfully initiated
+**                  NFCSTATUS_FAILED  - otherwise
+**
+*******************************************************************************/
+STATIC NFCSTATUS nativeNfcExtns_doTransceive(uint8_t *buff, uint16_t buffSz)
+{
+    NFCSTATUS wStatus = NFCSTATUS_PENDING;
+    tNFA_STATUS status = NFA_SendRawFrame (buff, buffSz, NFA_DM_DEFAULT_PRESENCE_CHECK_START_DELAY);
+
+    if (status != NFA_STATUS_OK)
+    {
+        NXPLOG_EXTNS_E ("%s: fail send; error=%d", __FUNCTION__, status);
+        wStatus = NFCSTATUS_FAILED;
+    }
+
+    return wStatus;
+}
+
+/*******************************************************************************
+**
+** Function          phNciNfc_RecvMfResp
+**
+** Description      This function shall be invoked as part of ReaderMgmt data
+**                  exchange sequence handler on receiving response/data from NFCC
+**
+** Returns          NFCSTATUS_SUCCESS - Data Reception is successful
+**                  NFCSTATUS_FAILED  - Data Reception failed
+**
+*******************************************************************************/
+STATIC NFCSTATUS
+phNciNfc_RecvMfResp(phNciNfc_Buff_t* RspBuffInfo,
+                        NFCSTATUS          wStatus
+                       )
+{
+    NFCSTATUS               status = NFCSTATUS_SUCCESS;
+    uint16_t                wPldDataSize = 0;
+    phNciNfc_ExtnRespId_t   RecvdExtnRspId = phNciNfc_e_InvalidRsp;
+    uint16_t                wRecvDataSz = 0;
+
+    if(NULL == RspBuffInfo)
+    {
+      status = NFCSTATUS_FAILED;
+    }
+    else
+    {
+        if((0 == (RspBuffInfo->wLen))
+                || (PH_NCINFC_STATUS_OK != wStatus)
+                || (NULL == (RspBuffInfo->pBuff))
+                )
+        {
+            status = NFCSTATUS_FAILED;
+        }
+        else
+        {
+            RecvdExtnRspId = (phNciNfc_ExtnRespId_t)RspBuffInfo->pBuff[0];
+
+            switch(RecvdExtnRspId)
+            {
+                case phNciNfc_e_MfXchgDataRsp:
+                {
+                        /* check the status byte */
+                    if( PH_NCINFC_STATUS_OK == RspBuffInfo->pBuff[RspBuffInfo->wLen-1] )
+                    {
+                        status = NFCSTATUS_SUCCESS;
+
+                        /* DataLen = TotalRecvdLen - (sizeof(RspId) + sizeof(Status)) */
+                        wPldDataSize = ((RspBuffInfo->wLen) -
+                            (PHNCINFC_EXTNID_SIZE + PHNCINFC_EXTNSTATUS_SIZE));
+                        wRecvDataSz = NCI_MAX_DATA_LEN;
+
+                        /* wPldDataSize = wPldDataSize-1; ==> ignoring the last status byte appended with data */
+                        if((wPldDataSize) <= wRecvDataSz)
+                        {
+                            /* Extract the data part from pBuff[2] & fill it to be sent to upper layer */
+                            memcpy(NdefMap->SendRecvBuf, &(RspBuffInfo->pBuff[1]),(wPldDataSize));
+                            /* update the number of bytes received from lower layer,excluding the status byte */
+                            *(NdefMap->SendRecvLength) = wPldDataSize;
+                        }
+                        else
+                        {
+                            //TODO:- Map some status for remaining extra data received to be sent back to caller??
+                            status = NFCSTATUS_FAILED;
+                        }
+                    }
+                    else
+                    {
+                        status = NFCSTATUS_FAILED;
+                    }
+                }
+                break;
+
+                case phNciNfc_e_MfcAuthRsp:
+                {
+                    /* check the status byte */
+                    if(PH_NCINFC_STATUS_OK == RspBuffInfo->pBuff[1])
+                    {
+                        if (gAuthCmdBuf.auth_sent ==  TRUE)
+                        {
+                            MfcPresenceCheckResult(NFCSTATUS_SUCCESS);
+                            return NFCSTATUS_SUCCESS;
+                        }
+                        gAuthCmdBuf.auth_status = TRUE;
+                        status = NFCSTATUS_SUCCESS;
+
+                        /* DataLen = TotalRecvdLen - (sizeof(RspId) + sizeof(Status)) */
+                        wPldDataSize = ((RspBuffInfo->wLen) -
+                            (PHNCINFC_EXTNID_SIZE + PHNCINFC_EXTNSTATUS_SIZE));
+
+                        /* Extract the data part from pBuff[2] & fill it to be sent to upper layer */
+                        memcpy(NdefMap->SendRecvBuf, &(RspBuffInfo->pBuff[2]),wPldDataSize);
+                        /* update the number of bytes received from lower layer,excluding the status byte */
+                        *(NdefMap->SendRecvLength) = wPldDataSize;
+                    }
+                    else
+                    {
+                        if (gAuthCmdBuf.auth_sent ==  TRUE)
+                        {
+                            gAuthCmdBuf.auth_status = FALSE;
+                            MfcPresenceCheckResult(NFCSTATUS_FAILED);
+                            return NFCSTATUS_SUCCESS;
+                        }
+                        else
+                        {
+                            /* Reset the stored auth command buffer */
+                            memset(gAuthCmdBuf.pauth_cmd->buffer, 0 , NCI_MAX_DATA_LEN);
+                            gAuthCmdBuf.pauth_cmd->length = 0;
+                            gAuthCmdBuf.auth_status = FALSE;
+                        }
+                        status = NFCSTATUS_FAILED;
+                    }
+                }
+                break;
+
+                default:
+                {
+                    status = NFCSTATUS_FAILED;
+                }
+                break;
+            }
+        }
+    }
+
+    return status;
+}
+
+/*******************************************************************************
+**
+** Function         phLibNfc_SendWrt16CmdPayload
+**
+** Description      This function map the raw write cmd
+**
+** Returns          NFCSTATUS_SUCCESS            - Command framing done
+**                  NFCSTATUS_INVALID_PARAMETER  - Otherwise
+**
+*******************************************************************************/
+STATIC NFCSTATUS phLibNfc_SendWrt16CmdPayload(phNfc_sTransceiveInfo_t*    pTransceiveInfo,
+                                    pphNciNfc_TransceiveInfo_t   pMappedTranscvIf)
+{
+    NFCSTATUS wStatus = NFCSTATUS_SUCCESS;
+
+    if( (NULL != pTransceiveInfo->sSendData.buffer) &&
+        (0 != (pTransceiveInfo->sSendData.length)))
+    {
+        memcpy(pMappedTranscvIf->tSendData.pBuff, pTransceiveInfo->sSendData.buffer,
+                              (pTransceiveInfo->sSendData.length));
+        pMappedTranscvIf->tSendData.wLen              = pTransceiveInfo->sSendData.length;
+        pMappedTranscvIf->uCmd.T2TCmd                 = phNciNfc_eT2TRaw;
+    }
+    else
+    {
+        wStatus = NFCSTATUS_INVALID_PARAMETER;
+    }
+
+    if ( gphNxpExtns_Context.RawWriteCallBack == TRUE )
+    {
+        EXTNS_SetCallBackFlag(TRUE);
+        gphNxpExtns_Context.RawWriteCallBack = FALSE;
+    }
+
+    return wStatus;
+}
+