stack/gap/gap_utils.c - platform/external/bluetooth/bluedroid - Git at Google

 /******************************************************************************
  *
  *  Copyright (C) 2009-2013 Broadcom Corporation
  *
  *  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>
 #include "bt_target.h"
 #include "bt_utils.h"
 #include "gap_int.h"

 /*****************************************************************************/
 /*                 G L O B A L      GAP       D A T A                        */
 /*****************************************************************************/
 #if GAP_DYNAMIC_MEMORY == FALSE
 tGAP_CB  gap_cb;
 #endif

 /*****************************************************************************
 ** Callbacks passed to BTM -
 **      There are different callbacks based on the control block index so that
 **      more than one command can be pending at a time.
 **  NOTE:  There must be 1 callback for each control block defined
 **          GAP_MAX_BLOCKS
 **
 **          Also, the inquiry results event has its own callback; Not handled here!
 ******************************************************************************/
 static void btm_cback(UINT16 index, void *p_data)
 {
     tGAP_INFO       *p_cb;
     tGAP_INQ_CMPL    inq_cmpl;

     /* Make sure that the index is valid AND it is in use */
     if (index < GAP_MAX_BLOCKS && gap_cb.blk[index].in_use)
     {
         p_cb = &gap_cb.blk[index];

         /* If the callback is non-NULL, call it with the specified event */
         switch (p_cb->event)
         {
         case GAP_EVT_INQUIRY_COMPLETE:
             /* pass the number of results to caller */
             inq_cmpl.num_results = ((tBTM_INQUIRY_CMPL *)p_data)->num_resp;

             inq_cmpl.status = (((tBTM_INQUIRY_CMPL *)p_data)->status == BTM_SUCCESS) ? BT_PASS : GAP_ERR_PROCESSING;

             p_data = &inq_cmpl;

             GAP_TRACE_EVENT("   GAP Inquiry Complete Event (Status 0x%04x, Result(s) %d)",
                             inq_cmpl.status, inq_cmpl.num_results);
             break;

         case GAP_EVT_DISCOVERY_COMPLETE:
             if (*((UINT16 *) p_data))
             {
                 GAP_TRACE_EVENT("   GAP Discovery Complete Event(SDP Result: 0x%04x)", *((UINT16 *) p_data));
             }
             else
             {
                 GAP_TRACE_EVENT("   GAP Discovery Successfully Completed");
             }

             break;

         case GAP_EVT_REM_NAME_COMPLETE:
             /* override the BTM error code with a GAP error code */
             ((tGAP_REMOTE_DEV_NAME *)p_data)->status =
                     gap_convert_btm_status ((tBTM_STATUS)((tBTM_REMOTE_DEV_NAME *)p_data)->status);

             GAP_TRACE_EVENT("   GAP Remote Name Complete Event (status 0x%04x)", ((tGAP_REMOTE_DEV_NAME *)p_data)->status);

             break;
         };

         if (p_cb->gap_cback)
             p_cb->gap_cback(p_cb->event, p_data);

         /* Deallocate the control block */
         gap_free_cb(p_cb);
     }
 }


 /*** Callback functions for BTM_CMPL_CB ***/
 void gap_btm_cback0(void *p1)
 {
     btm_cback(0, p1);
 }

 #if GAP_MAX_BLOCKS > 1
 void gap_btm_cback1(void *p1)
 {
     btm_cback(1, p1);
 }
 #endif
 #if GAP_MAX_BLOCKS > 2
 void gap_btm_cback2(void *p1)
 {
     btm_cback(2, p1);
 }
 #endif

 /* There is only one instance of this because only 1 inquiry can be active at a time */
 void gap_inq_results_cb(tBTM_INQ_RESULTS *p_results, UINT8 *p_eir)
 {
     tGAP_INFO   *p_cb;
     UINT8        index;
     UNUSED(p_eir);

     GAP_TRACE_EVENT ("GAP Inquiry Results Callback (bdaddr [%02x%02x%02x%02x%02x%02x])",
                 p_results->remote_bd_addr[0], p_results->remote_bd_addr[1],
                 p_results->remote_bd_addr[2], p_results->remote_bd_addr[3],
                 p_results->remote_bd_addr[4], p_results->remote_bd_addr[5]);
     GAP_TRACE_EVENT ("                             (COD [%02x%02x%02x], clkoff 0x%04x)",
                 p_results->dev_class[0], p_results->dev_class[1], p_results->dev_class[2],
                 p_results->clock_offset);

     /* Find the control block which has an Inquiry Active and call its results callback */
     for (index = 0, p_cb = &gap_cb.blk[0]; index < GAP_MAX_BLOCKS; index++, p_cb++)
     {
         /* Look for the control block that is using inquiry */
         if (p_cb->in_use && (p_cb->event == GAP_EVT_INQUIRY_COMPLETE))
         {
             /* Notify the higher layer if they care */
             if (p_cb->gap_inq_rslt_cback)
                 p_cb->gap_inq_rslt_cback (GAP_EVT_INQUIRY_RESULTS, (tGAP_INQ_RESULTS *)p_results);
         }
     }
 }


 /*******************************************************************************
 **
 ** Function         gap_find_addr_name_cb
 **
 ** Description      Processes the remote name request event when the Find Addr by Name
 **                  request is active.  The following procedure takes place:
 **                  1. Check the resulting name (If return status is ok)
 **                  2. If name matches requested name, we're done, call the appl's callback
 **                          with the BD ADDR.
 **                  3. Otherwise get the next BD ADDR out of the inquiry database and intiate
 **                          another remote name request.
 **                  4. If there are no more BD ADDRs, then call the appl's callback with a FAIL
 **                          status.
 **
 ** Returns          void
 **
 *******************************************************************************/
 void gap_find_addr_name_cb (tBTM_REMOTE_DEV_NAME *p)
 {
     tGAP_FINDADDR_CB        *p_cb = &gap_cb.findaddr_cb;
     tGAP_FINDADDR_RESULTS   *p_result = &p_cb->results;

     if (p_cb->in_use)
     {
         if (p->status == BTM_SUCCESS)
         {
             GAP_TRACE_EVENT("   GAP: FindAddrByName Rem Name Cmpl Evt (Status 0x%04x, Name [%s])",
                                 p->status, p->remote_bd_name);

             /* See if the returned name matches the desired name; if not initiate another search */
             if (!strncmp ((char *)p_result->devname, (char *) p->remote_bd_name, strlen ((char *) p_result->devname)))
             {
                 /* We found the device!  Copy it into the return structure */
                 memcpy (p_result->bd_addr, p_cb->p_cur_inq->results.remote_bd_addr, BD_ADDR_LEN);
                 p_result->status = BT_PASS;
             }
             else    /* The name doesn't match so initiate another search */
             {
                 /* Get the device address of the next database entry */
                 if ((p_cb->p_cur_inq = BTM_InqDbNext(p_cb->p_cur_inq)) != NULL)
                 {
                     if ((BTM_ReadRemoteDeviceName (p_cb->p_cur_inq->results.remote_bd_addr,
                         (tBTM_CMPL_CB *) gap_find_addr_name_cb, BT_TRANSPORT_BR_EDR)) == BTM_CMD_STARTED)
                         return;     /* This routine will get called again with the next results */
                     else
                         p_result->status = gap_convert_btm_status ((tBTM_STATUS) p->status);
                 }
                 else
                     p_result->status = GAP_EOINQDB;     /* No inquiry results; we're done! */
             }
         }
         else
         {
             GAP_TRACE_EVENT("   GAP: FindAddrByName Rem Name Cmpl Evt (Status 0x%04x)", p->status);
             p_result->status = gap_convert_btm_status ((tBTM_STATUS) p->status);
         }

         /* If this code is reached, the process has completed so call the appl's callback with results */
         if (p_cb->p_cback)
             p_cb->p_cback (GAP_EVT_FIND_ADDR_COMPLETE, (tGAP_FINDADDR_RESULTS *) p_result);

         /* Clear out the control block */
         p_cb->in_use = FALSE;
         p_cb->p_cback = (tGAP_CALLBACK *) NULL;
     }
 }

 /*******************************************************************************
 **
 ** Function         gap_find_addr_inq_cb
 **
 ** Description      Processes the inquiry complete event when the Find Addr by Name
 **                  request is active.  This callback performs one of the two following
 **                  steps:
 **                      1. If the remote name is retrieved automatically, the DB is searched
 **                          immediately, and the results are returned in the appls callback.
 **
 **                      2. If remote name is not automatic, retrieve the first BTM INQ
 **                         database entry and initiate a remote name request.
 **
 ** Returns          void
 **
 *******************************************************************************/
 void gap_find_addr_inq_cb (tBTM_INQUIRY_CMPL *p)
 {
     tGAP_FINDADDR_CB        *p_cb = &gap_cb.findaddr_cb;
     tGAP_FINDADDR_RESULTS   *p_result = &p_cb->results;

     if (p_cb->in_use)
     {

         GAP_TRACE_EVENT("   GAP: FindAddrByName Inq Cmpl Evt (Status 0x%04x, Result(s) %d)",
             p->status, p->num_resp);

         if (p->status == BTM_SUCCESS)
         {
             /* Step 1: If automatically retrieving remote names then search the local database */
             if ((p_result->status = gap_find_local_addr_by_name (p_result->devname, p_result->bd_addr)) == GAP_NO_DATA_AVAIL)
             {
                 /* Step 2:  The name is not stored automatically, so a search of all devices needs to
                  *          be initiated.
                  */
                 if ((p_cb->p_cur_inq = BTM_InqDbFirst()) != NULL)
                 {
                     if ((BTM_ReadRemoteDeviceName (p_cb->p_cur_inq->results.remote_bd_addr,
                         (tBTM_CMPL_CB *) gap_find_addr_name_cb, BT_TRANSPORT_BR_EDR)) == BTM_CMD_STARTED)
                         return;     /* Wait for the response in gap_find_addr_name_cb() */
                     else
                         p_result->status = gap_convert_btm_status (p->status);
                 }
                 else
                     p_result->status = GAP_EOINQDB;     /* No inquiry results; we're done! */
             }
         }
         else
             p_result->status = gap_convert_btm_status (p->status);

         /* If this code is reached, the process has completed so call the appl's callback with results */
         if (p_cb->p_cback)
             p_cb->p_cback (GAP_EVT_FIND_ADDR_COMPLETE, (tGAP_FINDADDR_RESULTS *) p_result);

         /* Clear out the control block */
         p_cb->in_use = FALSE;
         p_cb->p_cback = (tGAP_CALLBACK *) NULL;
     }
 }

 /*******************************************************************************
 **
 ** Function         gap_find_local_addr_by_name
 **
 ** Description      Searches through the internal inquiry database for a device
 **                  that has the same name as the one passed in.  If found, the
 **                  device address is filled in.
 **
 **                  NOTE:  It only searches up to the first BTM_MAX_REM_BD_NAME_LEN
 **                          bytes because the inquiry database uses tBTM_BD_NAME.
 **
 ** Returns          BT_PASS if the name was found and the device address is filled in
 **                  GAP_EOINQDB if the name was not found in the database
 **                  GAP_NO_DATA_AVAIL if the name is not saved with the inquiry
 **
 *******************************************************************************/
 UINT16 gap_find_local_addr_by_name (const tBTM_BD_NAME devname, BD_ADDR bd_addr)
 {

 /* If the remote name is retrieved automatically during an inquiry search the local db */
 #if (BTM_INQ_GET_REMOTE_NAME == TRUE)
     tBTM_INQ_INFO   *p_result;

     p_result = BTM_InqDbFirst();

     while (p_result)
     {
         /* Check the entry for a device name match */
         if (!strncmp ((char *)devname, (char *)p_result->remote_name, BTM_MAX_REM_BD_NAME_LEN))
         {
             memcpy (bd_addr, p_result->results.remote_bd_addr, BD_ADDR_LEN);
             return (BT_PASS);
         }
         else
             p_result = BTM_InqDbNext(p_result);
     };

     return (GAP_EOINQDB);
 #else
     UNUSED(devname);
     UNUSED(bd_addr);
     /* No data available because we are not automatically saving the data */
     return (GAP_NO_DATA_AVAIL);
 #endif
 }


 /*******************************************************************************
 **
 ** Function         gap_allocate_cb
 **
 ** Description      Look through the GAP Control Blocks for a free one.
 **
 ** Returns          Pointer to the control block or NULL if not found
 **
 *******************************************************************************/
 tGAP_INFO *gap_allocate_cb (void)
 {
     tGAP_INFO     *p_cb = &gap_cb.blk[0];
     UINT8        x;

     for (x = 0; x < GAP_MAX_BLOCKS; x++, p_cb++)
     {
         if (!p_cb->in_use)
         {
             memset (p_cb, 0, sizeof (tGAP_INFO));

             p_cb->in_use = TRUE;
             p_cb->index = x;
             p_cb->p_data = (void *)NULL;
             return (p_cb);
         }
     }

     /* If here, no free control blocks found */
     return (NULL);
 }


 /*******************************************************************************
 **
 ** Function         gap_free_cb
 **
 ** Description      Release GAP control block.
 **
 ** Returns          Pointer to the control block or NULL if not found
 **
 *******************************************************************************/
 void gap_free_cb (tGAP_INFO *p_cb)
 {
     if (p_cb)
     {
         p_cb->gap_cback = NULL;
         p_cb->in_use = FALSE;
     }
 }


 /*******************************************************************************
 **
 ** Function         gap_is_service_busy
 **
 ** Description      Look through the GAP Control Blocks that are in use
 **                  and check to see if the event waiting for is the command
 **                  requested.
 **
 ** Returns          TRUE if already in use
 **                  FALSE if not busy
 **
 *******************************************************************************/
 BOOLEAN gap_is_service_busy (UINT16 request)
 {
     tGAP_INFO   *p_cb = &gap_cb.blk[0];
     UINT8        x;

     for (x = 0; x < GAP_MAX_BLOCKS; x++, p_cb++)
     {
         if (p_cb->in_use && p_cb->event == request)
             return (TRUE);
     }

     /* If here, service is not busy */
     return (FALSE);
 }


 /*******************************************************************************
 **
 ** Function         gap_convert_btm_status
 **
 ** Description      Converts a BTM error status into a GAP error status
 **
 **
 ** Returns          GAP_UNKNOWN_BTM_STATUS is returned if not recognized
 **
 *******************************************************************************/
 UINT16 gap_convert_btm_status (tBTM_STATUS btm_status)
 {
     switch (btm_status)
     {
     case BTM_SUCCESS:
         return (BT_PASS);

     case BTM_CMD_STARTED:
         return (GAP_CMD_INITIATED);

     case BTM_BUSY:
         return (GAP_ERR_BUSY);

     case BTM_MODE_UNSUPPORTED:
     case BTM_ILLEGAL_VALUE:
         return (GAP_ERR_ILL_PARM);

     case BTM_WRONG_MODE:
         return (GAP_DEVICE_NOT_UP);

     case BTM_UNKNOWN_ADDR:
         return (GAP_BAD_BD_ADDR);

     case BTM_DEVICE_TIMEOUT:
         return (GAP_ERR_TIMEOUT);

     default:
         return (GAP_ERR_PROCESSING);
     }
 }
	/******************************************************************************
	*
	* Copyright (C) 2009-2013 Broadcom Corporation
	*
	* 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>
	#include "bt_target.h"
	#include "bt_utils.h"
	#include "gap_int.h"

	/*****************************************************************************/
	/* G L O B A L GAP D A T A */
	/*****************************************************************************/
	#if GAP_DYNAMIC_MEMORY == FALSE
	tGAP_CB gap_cb;
	#endif

	/*****************************************************************************
	** Callbacks passed to BTM -
	** There are different callbacks based on the control block index so that
	** more than one command can be pending at a time.
	** NOTE: There must be 1 callback for each control block defined
	** GAP_MAX_BLOCKS
	**
	** Also, the inquiry results event has its own callback; Not handled here!
	******************************************************************************/
	static void btm_cback(UINT16 index, void *p_data)
	{
	tGAP_INFO *p_cb;
	tGAP_INQ_CMPL inq_cmpl;

	/* Make sure that the index is valid AND it is in use */
	if (index < GAP_MAX_BLOCKS && gap_cb.blk[index].in_use)
	{
	p_cb = &gap_cb.blk[index];

	/* If the callback is non-NULL, call it with the specified event */
	switch (p_cb->event)
	{
	case GAP_EVT_INQUIRY_COMPLETE:
	/* pass the number of results to caller */
	inq_cmpl.num_results = ((tBTM_INQUIRY_CMPL *)p_data)->num_resp;

	inq_cmpl.status = (((tBTM_INQUIRY_CMPL *)p_data)->status == BTM_SUCCESS) ? BT_PASS : GAP_ERR_PROCESSING;

	p_data = &inq_cmpl;

	GAP_TRACE_EVENT(" GAP Inquiry Complete Event (Status 0x%04x, Result(s) %d)",
	inq_cmpl.status, inq_cmpl.num_results);
	break;

	case GAP_EVT_DISCOVERY_COMPLETE:
	if (((UINT16 ) p_data))
	{
	GAP_TRACE_EVENT(" GAP Discovery Complete Event(SDP Result: 0x%04x)", ((UINT16 ) p_data));
	}
	else
	{
	GAP_TRACE_EVENT(" GAP Discovery Successfully Completed");
	}

	break;

	case GAP_EVT_REM_NAME_COMPLETE:
	/* override the BTM error code with a GAP error code */
	((tGAP_REMOTE_DEV_NAME *)p_data)->status =
	gap_convert_btm_status ((tBTM_STATUS)((tBTM_REMOTE_DEV_NAME *)p_data)->status);

	GAP_TRACE_EVENT(" GAP Remote Name Complete Event (status 0x%04x)", ((tGAP_REMOTE_DEV_NAME *)p_data)->status);

	break;
	};

	if (p_cb->gap_cback)
	p_cb->gap_cback(p_cb->event, p_data);

	/* Deallocate the control block */
	gap_free_cb(p_cb);
	}
	}


	/* Callback functions for BTM_CMPL_CB */
	void gap_btm_cback0(void *p1)
	{
	btm_cback(0, p1);
	}

	#if GAP_MAX_BLOCKS > 1
	void gap_btm_cback1(void *p1)
	{
	btm_cback(1, p1);
	}
	#endif
	#if GAP_MAX_BLOCKS > 2
	void gap_btm_cback2(void *p1)
	{
	btm_cback(2, p1);
	}
	#endif

	/* There is only one instance of this because only 1 inquiry can be active at a time */
	void gap_inq_results_cb(tBTM_INQ_RESULTS p_results, UINT8 p_eir)
	{
	tGAP_INFO *p_cb;
	UINT8 index;
	UNUSED(p_eir);

	GAP_TRACE_EVENT ("GAP Inquiry Results Callback (bdaddr [%02x%02x%02x%02x%02x%02x])",
	p_results->remote_bd_addr[0], p_results->remote_bd_addr[1],
	p_results->remote_bd_addr[2], p_results->remote_bd_addr[3],
	p_results->remote_bd_addr[4], p_results->remote_bd_addr[5]);
	GAP_TRACE_EVENT (" (COD [%02x%02x%02x], clkoff 0x%04x)",
	p_results->dev_class[0], p_results->dev_class[1], p_results->dev_class[2],
	p_results->clock_offset);

	/* Find the control block which has an Inquiry Active and call its results callback */
	for (index = 0, p_cb = &gap_cb.blk[0]; index < GAP_MAX_BLOCKS; index++, p_cb++)
	{
	/* Look for the control block that is using inquiry */
	if (p_cb->in_use && (p_cb->event == GAP_EVT_INQUIRY_COMPLETE))
	{
	/* Notify the higher layer if they care */
	if (p_cb->gap_inq_rslt_cback)
	p_cb->gap_inq_rslt_cback (GAP_EVT_INQUIRY_RESULTS, (tGAP_INQ_RESULTS *)p_results);
	}
	}
	}


	/*******************************************************************************
	**
	** Function gap_find_addr_name_cb
	**
	** Description Processes the remote name request event when the Find Addr by Name
	** request is active. The following procedure takes place:
	** 1. Check the resulting name (If return status is ok)
	** 2. If name matches requested name, we're done, call the appl's callback
	** with the BD ADDR.
	** 3. Otherwise get the next BD ADDR out of the inquiry database and intiate
	** another remote name request.
	** 4. If there are no more BD ADDRs, then call the appl's callback with a FAIL
	** status.
	**
	** Returns void
	**
	*******************************************************************************/
	void gap_find_addr_name_cb (tBTM_REMOTE_DEV_NAME *p)
	{
	tGAP_FINDADDR_CB *p_cb = &gap_cb.findaddr_cb;
	tGAP_FINDADDR_RESULTS *p_result = &p_cb->results;

	if (p_cb->in_use)
	{
	if (p->status == BTM_SUCCESS)
	{
	GAP_TRACE_EVENT(" GAP: FindAddrByName Rem Name Cmpl Evt (Status 0x%04x, Name [%s])",
	p->status, p->remote_bd_name);

	/* See if the returned name matches the desired name; if not initiate another search */
	if (!strncmp ((char )p_result->devname, (char ) p->remote_bd_name, strlen ((char *) p_result->devname)))
	{
	/* We found the device! Copy it into the return structure */
	memcpy (p_result->bd_addr, p_cb->p_cur_inq->results.remote_bd_addr, BD_ADDR_LEN);
	p_result->status = BT_PASS;
	}
	else /* The name doesn't match so initiate another search */
	{
	/* Get the device address of the next database entry */
	if ((p_cb->p_cur_inq = BTM_InqDbNext(p_cb->p_cur_inq)) != NULL)
	{
	if ((BTM_ReadRemoteDeviceName (p_cb->p_cur_inq->results.remote_bd_addr,
	(tBTM_CMPL_CB *) gap_find_addr_name_cb, BT_TRANSPORT_BR_EDR)) == BTM_CMD_STARTED)
	return; /* This routine will get called again with the next results */
	else
	p_result->status = gap_convert_btm_status ((tBTM_STATUS) p->status);
	}
	else
	p_result->status = GAP_EOINQDB; /* No inquiry results; we're done! */
	}
	}
	else
	{
	GAP_TRACE_EVENT(" GAP: FindAddrByName Rem Name Cmpl Evt (Status 0x%04x)", p->status);
	p_result->status = gap_convert_btm_status ((tBTM_STATUS) p->status);
	}

	/* If this code is reached, the process has completed so call the appl's callback with results */
	if (p_cb->p_cback)
	p_cb->p_cback (GAP_EVT_FIND_ADDR_COMPLETE, (tGAP_FINDADDR_RESULTS *) p_result);

	/* Clear out the control block */
	p_cb->in_use = FALSE;
	p_cb->p_cback = (tGAP_CALLBACK *) NULL;
	}
	}

	/*******************************************************************************
	**
	** Function gap_find_addr_inq_cb
	**
	** Description Processes the inquiry complete event when the Find Addr by Name
	** request is active. This callback performs one of the two following
	** steps:
	** 1. If the remote name is retrieved automatically, the DB is searched
	** immediately, and the results are returned in the appls callback.
	**
	** 2. If remote name is not automatic, retrieve the first BTM INQ
	** database entry and initiate a remote name request.
	**
	** Returns void
	**
	*******************************************************************************/
	void gap_find_addr_inq_cb (tBTM_INQUIRY_CMPL *p)
	{
	tGAP_FINDADDR_CB *p_cb = &gap_cb.findaddr_cb;
	tGAP_FINDADDR_RESULTS *p_result = &p_cb->results;

	if (p_cb->in_use)
	{

	GAP_TRACE_EVENT(" GAP: FindAddrByName Inq Cmpl Evt (Status 0x%04x, Result(s) %d)",
	p->status, p->num_resp);

	if (p->status == BTM_SUCCESS)
	{
	/* Step 1: If automatically retrieving remote names then search the local database */
	if ((p_result->status = gap_find_local_addr_by_name (p_result->devname, p_result->bd_addr)) == GAP_NO_DATA_AVAIL)
	{
	/* Step 2: The name is not stored automatically, so a search of all devices needs to
	* be initiated.
	*/
	if ((p_cb->p_cur_inq = BTM_InqDbFirst()) != NULL)
	{
	if ((BTM_ReadRemoteDeviceName (p_cb->p_cur_inq->results.remote_bd_addr,
	(tBTM_CMPL_CB *) gap_find_addr_name_cb, BT_TRANSPORT_BR_EDR)) == BTM_CMD_STARTED)
	return; /* Wait for the response in gap_find_addr_name_cb() */
	else
	p_result->status = gap_convert_btm_status (p->status);
	}
	else
	p_result->status = GAP_EOINQDB; /* No inquiry results; we're done! */
	}
	}
	else
	p_result->status = gap_convert_btm_status (p->status);

	/* If this code is reached, the process has completed so call the appl's callback with results */
	if (p_cb->p_cback)
	p_cb->p_cback (GAP_EVT_FIND_ADDR_COMPLETE, (tGAP_FINDADDR_RESULTS *) p_result);

	/* Clear out the control block */
	p_cb->in_use = FALSE;
	p_cb->p_cback = (tGAP_CALLBACK *) NULL;
	}
	}

	/*******************************************************************************
	**
	** Function gap_find_local_addr_by_name
	**
	** Description Searches through the internal inquiry database for a device
	** that has the same name as the one passed in. If found, the
	** device address is filled in.
	**
	** NOTE: It only searches up to the first BTM_MAX_REM_BD_NAME_LEN
	** bytes because the inquiry database uses tBTM_BD_NAME.
	**
	** Returns BT_PASS if the name was found and the device address is filled in
	** GAP_EOINQDB if the name was not found in the database
	** GAP_NO_DATA_AVAIL if the name is not saved with the inquiry
	**
	*******************************************************************************/
	UINT16 gap_find_local_addr_by_name (const tBTM_BD_NAME devname, BD_ADDR bd_addr)
	{

	/* If the remote name is retrieved automatically during an inquiry search the local db */
	#if (BTM_INQ_GET_REMOTE_NAME == TRUE)
	tBTM_INQ_INFO *p_result;

	p_result = BTM_InqDbFirst();

	while (p_result)
	{
	/* Check the entry for a device name match */
	if (!strncmp ((char )devname, (char )p_result->remote_name, BTM_MAX_REM_BD_NAME_LEN))
	{
	memcpy (bd_addr, p_result->results.remote_bd_addr, BD_ADDR_LEN);
	return (BT_PASS);
	}
	else
	p_result = BTM_InqDbNext(p_result);
	};

	return (GAP_EOINQDB);
	#else
	UNUSED(devname);
	UNUSED(bd_addr);
	/* No data available because we are not automatically saving the data */
	return (GAP_NO_DATA_AVAIL);
	#endif
	}


	/*******************************************************************************
	**
	** Function gap_allocate_cb
	**
	** Description Look through the GAP Control Blocks for a free one.
	**
	** Returns Pointer to the control block or NULL if not found
	**
	*******************************************************************************/
	tGAP_INFO *gap_allocate_cb (void)
	{
	tGAP_INFO *p_cb = &gap_cb.blk[0];
	UINT8 x;

	for (x = 0; x < GAP_MAX_BLOCKS; x++, p_cb++)
	{
	if (!p_cb->in_use)
	{
	memset (p_cb, 0, sizeof (tGAP_INFO));

	p_cb->in_use = TRUE;
	p_cb->index = x;
	p_cb->p_data = (void *)NULL;
	return (p_cb);
	}
	}

	/* If here, no free control blocks found */
	return (NULL);
	}


	/*******************************************************************************
	**
	** Function gap_free_cb
	**
	** Description Release GAP control block.
	**
	** Returns Pointer to the control block or NULL if not found
	**
	*******************************************************************************/
	void gap_free_cb (tGAP_INFO *p_cb)
	{
	if (p_cb)
	{
	p_cb->gap_cback = NULL;
	p_cb->in_use = FALSE;
	}
	}


	/*******************************************************************************
	**
	** Function gap_is_service_busy
	**
	** Description Look through the GAP Control Blocks that are in use
	** and check to see if the event waiting for is the command
	** requested.
	**
	** Returns TRUE if already in use
	** FALSE if not busy
	**
	*******************************************************************************/
	BOOLEAN gap_is_service_busy (UINT16 request)
	{
	tGAP_INFO *p_cb = &gap_cb.blk[0];
	UINT8 x;

	for (x = 0; x < GAP_MAX_BLOCKS; x++, p_cb++)
	{
	if (p_cb->in_use && p_cb->event == request)
	return (TRUE);
	}

	/* If here, service is not busy */
	return (FALSE);
	}


	/*******************************************************************************
	**
	** Function gap_convert_btm_status
	**
	** Description Converts a BTM error status into a GAP error status
	**
	**
	** Returns GAP_UNKNOWN_BTM_STATUS is returned if not recognized
	**
	*******************************************************************************/
	UINT16 gap_convert_btm_status (tBTM_STATUS btm_status)
	{
	switch (btm_status)
	{
	case BTM_SUCCESS:
	return (BT_PASS);

	case BTM_CMD_STARTED:
	return (GAP_CMD_INITIATED);

	case BTM_BUSY:
	return (GAP_ERR_BUSY);

	case BTM_MODE_UNSUPPORTED:
	case BTM_ILLEGAL_VALUE:
	return (GAP_ERR_ILL_PARM);

	case BTM_WRONG_MODE:
	return (GAP_DEVICE_NOT_UP);

	case BTM_UNKNOWN_ADDR:
	return (GAP_BAD_BD_ADDR);

	case BTM_DEVICE_TIMEOUT:
	return (GAP_ERR_TIMEOUT);

	default:
	return (GAP_ERR_PROCESSING);
	}
	}