nfc/1.0/INfc.hal - platform/hardware/interfaces - Git at Google

 /*
  * Copyright (C) 2016 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.
  */

 package android.hardware.nfc@1.0;

 import INfcClientCallback;

 interface INfc {
     /**
      * Opens the NFC controller device and performs initialization.
      * This may include patch download and other vendor-specific initialization.
      *
      * If open completes successfully, the controller should be ready to perform
      * NCI initialization - ie accept CORE_RESET and subsequent commands through
      * the write() call.
      *
      * If open() returns NfcStatus::OK, the NCI stack will wait for a
      * NfcEvent.OPEN_CPLT before continuing.
      *
      * If open() returns NfcStatus::FAILED, the NCI stack will stop.
      *
      */
     @entry
     @callflow(next={"write", "coreInitialized", "prediscover", "powerCycle", "controlGranted"})
     open(INfcClientCallback clientCallback) generates (NfcStatus status);

     /**
      * Performs an NCI write.
      *
      * This method may queue writes and return immediately. The only
      * requirement is that the writes are executed in order.
      *
      * @return number of bytes written to the NFCC
      */
     @callflow(next={"write", "prediscover", "coreInitialized", "close", "powerCycle",
                     "controlGranted"})
     write(NfcData data) generates (uint32_t retval);

     /**
      * coreInitialized() is called after the CORE_INIT_RSP is received from the
      * NFCC. At this time, the HAL can do any chip-specific configuration.
      *
      * If coreInitialized() returns NfcStatus::OK, the NCI stack will wait for a
      * NfcEvent.POST_INIT_CPLT before continuing.
      *
      * If coreInitialized() returns NfcStatus::FAILED, the NCI stack will
      * continue immediately.
      */
     @callflow(next={"write", "prediscover", "close"})
     coreInitialized(NfcData data) generates (NfcStatus status);

     /**
      * prediscover is called every time before starting RF discovery.
      * It is a good place to do vendor-specific configuration that must be
      * performed every time RF discovery is about to be started.
      *
      * If prediscover() returns NfcStatus::OK, the NCI stack will wait for a
      * NfcEvent.PREDISCOVER_CPLT before continuing.
      *
      * If prediscover() returns NfcStatus::FAILED, the NCI stack will start
      * RF discovery immediately.
      */
     @callflow(next={"write", "close", "coreInitialized", "powerCycle", "controlGranted"})
     prediscover() generates (NfcStatus status);

     /**
      * Close the NFC controller. Should free all resources.
      *
      * @return NfcStatus::OK on success and NfcStatus::FAILED on error.
      */
     @exit
     close() generates (NfcStatus status);

     /**
      * Grant HAL the exclusive control to send NCI commands.
      * Called in response to NfcEvent.REQUEST_CONTROL.
      * Must only be called when there are no NCI commands pending.
      * NfcEvent.RELEASE_CONTROL will notify when HAL no longer needs exclusive control.
      *
      * @return NfcStatus::OK on success and NfcStatus::FAILED on error.
      */
     @callflow(next={"write", "close", "prediscover", "coreInitialized", "powerCycle"})
     controlGranted() generates (NfcStatus status);

      /**
      * Restart controller by power cyle;
      * NfcEvent.OPEN_CPLT will notify when operation is complete.
      *
      * @return NfcStatus::OK on success and NfcStatus::FAILED on error.
      */
     @callflow(next={"write", "coreInitialized", "prediscover", "controlGranted", "close"})
     powerCycle() generates (NfcStatus status);
 };
	/*
	* Copyright (C) 2016 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.
	*/

	package android.hardware.nfc@1.0;

	import INfcClientCallback;

	interface INfc {
	/**
	* Opens the NFC controller device and performs initialization.
	* This may include patch download and other vendor-specific initialization.
	*
	* If open completes successfully, the controller should be ready to perform
	* NCI initialization - ie accept CORE_RESET and subsequent commands through
	* the write() call.
	*
	* If open() returns NfcStatus::OK, the NCI stack will wait for a
	* NfcEvent.OPEN_CPLT before continuing.
	*
	* If open() returns NfcStatus::FAILED, the NCI stack will stop.
	*
	*/
	@entry
	@callflow(next={"write", "coreInitialized", "prediscover", "powerCycle", "controlGranted"})
	open(INfcClientCallback clientCallback) generates (NfcStatus status);

	/**
	* Performs an NCI write.
	*
	* This method may queue writes and return immediately. The only
	* requirement is that the writes are executed in order.
	*
	* @return number of bytes written to the NFCC
	*/
	@callflow(next={"write", "prediscover", "coreInitialized", "close", "powerCycle",
	"controlGranted"})
	write(NfcData data) generates (uint32_t retval);

	/**
	* coreInitialized() is called after the CORE_INIT_RSP is received from the
	* NFCC. At this time, the HAL can do any chip-specific configuration.
	*
	* If coreInitialized() returns NfcStatus::OK, the NCI stack will wait for a
	* NfcEvent.POST_INIT_CPLT before continuing.
	*
	* If coreInitialized() returns NfcStatus::FAILED, the NCI stack will
	* continue immediately.
	*/
	@callflow(next={"write", "prediscover", "close"})
	coreInitialized(NfcData data) generates (NfcStatus status);

	/**
	* prediscover is called every time before starting RF discovery.
	* It is a good place to do vendor-specific configuration that must be
	* performed every time RF discovery is about to be started.
	*
	* If prediscover() returns NfcStatus::OK, the NCI stack will wait for a
	* NfcEvent.PREDISCOVER_CPLT before continuing.
	*
	* If prediscover() returns NfcStatus::FAILED, the NCI stack will start
	* RF discovery immediately.
	*/
	@callflow(next={"write", "close", "coreInitialized", "powerCycle", "controlGranted"})
	prediscover() generates (NfcStatus status);

	/**
	* Close the NFC controller. Should free all resources.
	*
	* @return NfcStatus::OK on success and NfcStatus::FAILED on error.
	*/
	@exit
	close() generates (NfcStatus status);

	/**
	* Grant HAL the exclusive control to send NCI commands.
	* Called in response to NfcEvent.REQUEST_CONTROL.
	* Must only be called when there are no NCI commands pending.
	* NfcEvent.RELEASE_CONTROL will notify when HAL no longer needs exclusive control.
	*
	* @return NfcStatus::OK on success and NfcStatus::FAILED on error.
	*/
	@callflow(next={"write", "close", "prediscover", "coreInitialized", "powerCycle"})
	controlGranted() generates (NfcStatus status);

	/**
	* Restart controller by power cyle;
	* NfcEvent.OPEN_CPLT will notify when operation is complete.
	*
	* @return NfcStatus::OK on success and NfcStatus::FAILED on error.
	*/
	@callflow(next={"write", "coreInitialized", "prediscover", "controlGranted", "close"})
	powerCycle() generates (NfcStatus status);
	};