FreeCalypso > hg > fc-magnetite
view src/ui3/mfw/mfw_BtipsA2dp.c @ 499:27db9775cbab
OSL: os_sem_fl.c compiles
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 24 Jun 2018 22:39:27 +0000 |
parents | e8ddbb0837ed |
children |
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/* ========================================================= * Texas Instruments OMAP(TM) Platform Software * (c) Copyright Texas Instruments, Incorporated. All Rights Reserved. * * Use of this software is controlled by the terms and conditions found * in the license agreement under which this software has been supplied. * ========================================================== */ /* $Project name: Basic Bluetooth MMI $Project code: $Module: Bluetooth BMG APPlication $File: mfw_BtipsA2dp.c $Revision: 1.0 $Author: Texas Instruments $Date: 26/06/07 ******************************************************************************** Description: This module provides the BTIPS BMG APPlication functionality. ******************************************************************************** $History: mfw_BtipsA2dp.c 26/06/07 Sasken original version $End *******************************************************************************/ /******************************************************************************* Include files *******************************************************************************/ #define ENTITY_MFW #if BT_STACK == XA_ENABLED #include <me.h> #include <bttypes.h> #include <sec.h> #endif #include "btl_common.h" #include "debug.h" #include "vsi.h" #include "overide.h" /* BTL includes */ #include "btl_a2dp.h" #include "btl_config.h" #include "bthal_mm.h" #if defined (NEW_FRAME) #include "typedefs.h" #include "vsi.h" #include "pei.h" #include "custom.h" #include "gsm.h" #include "prim.h" #else #include "STDDEFS.H" #include "custom.h" #include "gsm.h" #include "vsi.h" #endif #include "mfw_BtipsA2dp.h" #include "mfw_mfw.h" #include "mfw_win.h" #include "mfw_icn.h" /* included for mfw_mnu.h */ #include "mfw_mnu.h" #include "mfw_tim.h" #include "mfw_kbd.h" #include "mfw_sat.h" /* included for MmiDummy.h, included for MmiMenu.h */ #include "mfw_btips.h" #include "mfw_ffs.h" extern char szSelectedFileName[256]; extern char* szSelectedFileExt; extern int a2dp_files_count; //Array to load fileNames in content directory extern char* a2dp_file_names[A2DP_MAX_FILES]; /*------------------------------------------------------------------------------- * MAX_SUPPORTED_BITPOOL type * * Represents the maximum supported bitpool */ #define MAX_SUPPORTED_BITPOOL (53) /*------------------------------------------------------------------------------- * MIN_SUPPORTED_BITPOOL type * * Represents the minimum supported bitpool */ #define MIN_SUPPORTED_BITPOOL (2) #define A2DP_MAX_NUM_STREAMS (BTL_CONFIG_A2DP_MAX_NUM_SBC_STREAMS_PER_CONTEXT + \ BTL_CONFIG_A2DP_MAX_NUM_MPEG1_2_AUDIO_STREAMS_PER_CONTEXT) static BOOL isStreamClosed[A2DP_MAX_NUM_STREAMS]; static BOOL playingNow = FALSE; static BOOL streamingNow = FALSE; static BtSecurityLevel securityLevel = BSL_NO_SECURITY; static BtlA2dpContext *btlA2dpContext = 0; static BtlA2dpCodec codec; BtlA2dpStreamId streamId = -1; static BthalMmSbcInfo sbcLocalCap; static BthalMmMpeg1_2_audioInfo mp3LocalCap; static BOOL streamSbcFile = FALSE; extern T_MFW_HND hA2dpDeviceWnd; BOOL bPlayMp3File = FALSE; BOOL bPlaySbcFile = FALSE; void APP_A2DP_StartPcmStream(BTHAL_U32 streamId); static void mfw_btips_a2dpEventCallBack(const BtlA2dpEvent *event); static char * pCodecType(AvdtpCodecType CType); static char * pAvError(AvdtpError Error); static void mfw_btips_a2dpSetDefaultSbcLocalCap(void); static void mfw_btips_a2dpSetDefaultMp3LocalCap(void); #ifdef FF_MMI_BTIPS_APP /*Function Definitions*/ void APP_A2DP_StartPcmStream(BTHAL_U32 streamId) { BtStatus status; status = BTL_A2DP_StartStream(btlA2dpContext, streamId); TRACE_FUNCTION_P1("BTL_A2DP_StartStream() returned %s.", pBT_Status(status)); } /******************************************************************************* $Function: mfw_btips_a2dpInit $Description: Function to initialise the a2dp file list. $Returns: None $Arguments: None *******************************************************************************/ void mfw_btips_a2dpInit(void) { BtStatus status; TRACE_FUNCTION("mfw_btips_a2dpInit"); status = BTL_A2DP_Create(0, mfw_btips_a2dpEventCallBack, &securityLevel, &btlA2dpContext); mfw_btips_a2dpSetDefaultSbcLocalCap(); mfw_btips_a2dpSetDefaultMp3LocalCap(); bthalMmSetExternalSbcEncoder(streamSbcFile); bthalMmSetPcmPlatformSupportedCapabilities(&sbcLocalCap); TRACE_FUNCTION("SBC Local capabilities has been set"); bthalMmSetMp3PlatformSupportedCapabilities(&mp3LocalCap); TRACE_FUNCTION("MP3 Local capabilities has been set"); status = BTL_A2DP_Enable(btlA2dpContext, 0, (BTL_A2DP_SUPPORTED_FEATURES_PLAYER | BTL_A2DP_SUPPORTED_FEATURES_MIXER)); TRACE_FUNCTION_P1("BTL_A2DP_Enable() returned %s.", pBT_Status(status)); if (status == BT_STATUS_SUCCESS) { OS_MemSet(isStreamClosed, TRUE, A2DP_MAX_NUM_STREAMS); } else { TRACE_FUNCTION("A2DP Enable Failed!"); } } /******************************************************************************* $Function: mfw_btips_a2dpPopulateFiles $Description:Populates the MIDI file names into the array $Returns: The count of the files in the directory $Arguments: file_names:Pointer to the arrayto store file names max_files_count:Max file counts to be stored in array *******************************************************************************/ int mfw_btips_a2dpPopulateFiles(char **file_names, int max_files_count,char* dir_name_p) { T_FFS_DIR dir = {0}; char dest_name_p[100] = ""; int i, files_count = 0; char *fileExt; TRACE_FUNCTION("mfw_btips_a2dpPopulateFiles"); TRACE_FUNCTION_P1("a2dp_files_count - %s", dir_name_p); if (ffs_opendir (dir_name_p, &dir) <= 0) { TRACE_FUNCTION("Cld not open Dir"); files_count = 0; } //Release previous allocated memory before allocating again mfw_btips_a2dpUnpopulateFiles(file_names); //read the file names //file_count will be used to populate the array index for (i = 0; ffs_readdir (&dir, dest_name_p, 100) > 0x0; i++) { TRACE_FUNCTION_P1("Reading Dir - %s",dest_name_p); (file_names[files_count]) = (char*)mfwAlloc(strlen(dest_name_p) + 1); if(file_names[files_count] != NULL) { //Retrieve file extension.Store only the supported file formats in array fileExt =mfw_btips_a2dpGetExtension(dest_name_p); //List the MP3 files also.Mp3 files hsould not be listed or ULC if ( (strcmp(fileExt, "mp3") == 0)) { strcpy (file_names[files_count], dest_name_p); TRACE_FUNCTION_P1("file_names - %s", file_names[files_count]); files_count++; } else if ( (strcmp(fileExt, "wav")== 0)) { strcpy (file_names[files_count], dest_name_p); TRACE_FUNCTION_P1("file_names - %s", file_names[files_count]); files_count++; } else if ( (strcmp(fileExt, "pcm")== 0)) { strcpy (file_names[files_count], dest_name_p); TRACE_FUNCTION_P1("file_names - %s", file_names[files_count]); files_count++; } else if(files_count >= max_files_count) break; } else { //files_count = 0; } } //Closing the directory aa per the new FFS logic ffs_closedir(dir); TRACE_EVENT_P1("read files_count is %d",files_count); return files_count; } /******************************************************************************* $Function: mfw_btips_a2dpUnpopulateFiles $Description:Frees the memory allocated for the array $Returns: None $Arguments: file_names:Pointer to the arrayto store file names *******************************************************************************/ void mfw_btips_a2dpUnpopulateFiles(char **file_names) { int i; TRACE_FUNCTION("mfw_btips_a2dpUnpopulateFiles"); //Free the allocated memory for file names for (i = 0; i<A2DP_MAX_FILES; i++) { if(file_names[i]) { mfwFree((U8 *)file_names[i],(U16)strlen(file_names[i]) + 1); } file_names[i]=NULL; } } /******************************************************************************* $Function: mfw_btips_a2dpGetExtension $Description: public function to retrieve the extension of a file $Returns:Extention of the filename $Arguments: scr- Filename *******************************************************************************/ char *mfw_btips_a2dpGetExtension(char *src) { int i,len; TRACE_FUNCTION("mfw_btips_a2dpGetExtension"); len = strlen(src); for(i = 0; i < len; i++){ if(src[i] == '.'){ return (src+i+1); } } return (src+i); } /******************************************************************************* $Function: sounds_midi_return_file_number $Description: returns the file count $Returns: Count of the Midi files $Arguments: None *******************************************************************************/ int mfw_btips_a2dpGetNumFiles(void) { TRACE_FUNCTION("sounds_midi_return_file_number"); TRACE_FUNCTION_P1("mfw_btips_a2dpGetNumFiles -a2dp_files_count - %d", a2dp_files_count); if(a2dp_files_count<=0) return 0; else return a2dp_files_count; } /******************************************************************************* $Function: mfw_btips_a2dpGetFileName $Description: Returns the file name $Returns: Name of the file $Arguments: index:The index of the file, whose name has to be retrieved *******************************************************************************/ char* mfw_btips_a2dpGetFileName(UBYTE index) { TRACE_FUNCTION("mfw_btips_a2dpGetFileName"); TRACE_EVENT_P2("A2dp_file_names[%d] is %s",index,(char *)a2dp_file_names[index]); return (char *) a2dp_file_names[index]; } /******************************************************************************* $Function: mfw_btips_a2dpEventCallBack $Description: Returns the file name $Returns: Name of the file $Arguments: index:The index of the file, whose name has to be retrieved *******************************************************************************/ static void mfw_btips_a2dpEventCallBack(const BtlA2dpEvent *event) { A2dpError error = A2DP_ERR_NO_ERROR; A2dpCallbackParms *Parms; BOOL streamStopped = FALSE; BtStatus status; // char szSelectedFilePath[256] Parms = event->callbackParms; TRACE_FUNCTION_P1("mfw_btips_a2dpEventCallBack %d",Parms->event); switch (Parms->event) { case A2DP_EVENT_STREAM_OPEN_IND: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_OPEN_IND streamId %d.", event->streamId); TRACE_FUNCTION_P2(" Codec: %s, Length: %d", pCodecType(Parms->p.configReq->codec.codecType), Parms->p.configReq->codec.elemLen); /*if (promptUserOnIncomingConAndStart) { AppReport("Please Accept or Reject open stream request"); } else */ { /* Auto-accept connection */ status = BTL_A2DP_OpenStreamResponse(btlA2dpContext, event->streamId, A2DP_ERR_NO_ERROR); TRACE_FUNCTION_P1("BTL_A2DP_OpenStreamResponse() returned %s.", pBT_Status(status)); } break; case A2DP_EVENT_GET_CONFIG_IND: TRACE_FUNCTION_P1("A2DP_EVENT_GET_CONFIG_IND streamId %d.", event->streamId); TRACE_FUNCTION("To configure and open strean press 'Open Stream' button "); /*if(streamId > 0) { mfw_btips_a2dpCloseStream(); }*/ status = BTL_A2DP_OpenStream(btlA2dpContext, streamId); isStreamClosed[event->streamId] = FALSE; bthalMmStreamStateIsConnected(event->streamId, TRUE); TRACE_FUNCTION_P1("BTL_A2DP_OpenStream() returned %s.", pBT_Status(status)); break; case A2DP_EVENT_STREAM_OPEN: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_OPEN streamId %d.", event->streamId); isStreamClosed[event->streamId] = FALSE; bthalMmStreamStateIsConnected(event->streamId, TRUE); if(bPlaySbcFile) { TRACE_FUNCTION("Opening PCM File "); if(AppPcmSimOpenFile(szSelectedFileName)) { TRACE_FUNCTION("PCM File Open Success!!"); } else { TRACE_FUNCTION("PCM File Open Failed!!"); } } if(bPlayMp3File) { TRACE_FUNCTION("Opening Mp3 File "); if(AppMp3OpenFile(szSelectedFileName)) { TRACE_FUNCTION("Mp3 File Open Success!!"); } else { TRACE_FUNCTION("Mp3 File Open Failed!!"); } status = BTL_A2DP_StartStream(btlA2dpContext, streamId); TRACE_FUNCTION_P1("BTL_A2DP_StartStream() returned %s.", pBT_Status(status)); } break; case A2DP_EVENT_STREAM_IDLE: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_IDLE streamId %d.", event->streamId); isStreamClosed[event->streamId] = FALSE; streamStopped = TRUE; break; case A2DP_EVENT_STREAM_CLOSED: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_CLOSED streamId %d.", event->streamId); isStreamClosed[event->streamId] = TRUE; streamStopped = TRUE; bthalMmStreamStateIsConnected(event->streamId, FALSE); break; case A2DP_EVENT_STREAM_START_IND: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_START_IND streamId %d.", event->streamId); /*if (promptUserOnIncomingConAndStart) { AppReport("Please Accept or Reject start stream request"); } else */ { /* Auto-accept stream start */ status = BTL_A2DP_StartStreamResponse(btlA2dpContext, event->streamId, A2DP_ERR_NO_ERROR); TRACE_FUNCTION_P1("BTL_A2DP_StartStreamResponse() returned %s.", pBT_Status(status)); } break; case A2DP_EVENT_STREAM_STARTED: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_STARTED streamId %d.", event->streamId); isStreamClosed[event->streamId] = FALSE; streamingNow = TRUE; if(bPlaySbcFile) { TRACE_FUNCTION("Playing PCM File "); AppPcmSimPlayFile(); } else if(bPlayMp3File) { TRACE_FUNCTION("Playing Mp3 File "); AppMp3PlayFile(); } TRACE_FUNCTION_P1("Playing File %s : ", szSelectedFileName); break; case A2DP_EVENT_STREAM_SUSPENDED: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_SUSPENDED streamId %d.", event->streamId); isStreamClosed[event->streamId] = FALSE; if (Parms->error != AVDTP_ERR_NO_ERROR) { TRACE_FUNCTION_P2("Stream Suspend Failed, reason: %s, status: %s", pAvError(Parms->error), pBT_Status(Parms->status)); } /*switch (event->streamId) { case (0): SendDlgItemMessage(AppWnd, IDC_STREAM0_OPEND, BM_SETCHECK, BST_CHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM0_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (1): SendDlgItemMessage(AppWnd, IDC_STREAM1_OPEND, BM_SETCHECK, BST_CHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (2): SendDlgItemMessage(AppWnd, IDC_STREAM2_OPEND, BM_SETCHECK, BST_CHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (3): SendDlgItemMessage(AppWnd, IDC_STREAM3_OPEND, BM_SETCHECK, BST_CHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; } */ break; case A2DP_EVENT_STREAM_ABORTED: TRACE_FUNCTION_P1("A2DP_EVENT_STREAM_ABORTED streamId %d.", event->streamId); if (Parms->error != AVDTP_ERR_NO_ERROR) { TRACE_FUNCTION_P2("Stream Abort Failed, reason: %s, status: %s", pAvError(Parms->error), pBT_Status(Parms->status)); } /*switch (event->streamId) { case (0): if(isStreamClosed[0] == FALSE) { SendDlgItemMessage(AppWnd, IDC_STREAM0_IDLE, BM_SETCHECK, BST_CHECKED, 0L); } SendDlgItemMessage(AppWnd, IDC_STREAM0_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM0_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (1): if(isStreamClosed[1] == FALSE) { SendDlgItemMessage(AppWnd, IDC_STREAM1_IDLE, BM_SETCHECK, BST_CHECKED, 0L); } SendDlgItemMessage(AppWnd, IDC_STREAM1_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (2): if(isStreamClosed[2] == FALSE) { SendDlgItemMessage(AppWnd, IDC_STREAM2_IDLE, BM_SETCHECK, BST_CHECKED, 0L); } SendDlgItemMessage(AppWnd, IDC_STREAM2_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; case (3): if(isStreamClosed[3] == FALSE) { SendDlgItemMessage(AppWnd, IDC_STREAM3_IDLE, BM_SETCHECK, BST_CHECKED, 0L); } SendDlgItemMessage(AppWnd, IDC_STREAM3_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); break; } */ isStreamClosed[event->streamId] = FALSE; streamStopped = TRUE; bPlaySbcFile = FALSE; bPlayMp3File = FALSE; break; case A2DP_EVENT_DISABLED: TRACE_FUNCTION("A2DP_EVENT_DISABLED"); /*SendDlgItemMessage(AppWnd, IDC_STREAM0_IDLE, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM0_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM0_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM0_CLOSED, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_IDLE, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM1_CLOSED, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_IDLE, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM2_CLOSED, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_IDLE, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_OPEND, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_STREAMING, BM_SETCHECK, BST_UNCHECKED, 0L); SendDlgItemMessage(AppWnd, IDC_STREAM3_CLOSED, BM_SETCHECK, BST_UNCHECKED, 0L); */ streamStopped = TRUE; break; default: TRACE_FUNCTION_P1("MFW A2DP Unexpected event %d!", Parms->event); break; } if ( streamStopped ) { streamingNow = FALSE; } } /*--------------------------------------------------------------------------- * pCodecType() *--------------------------------------------------------------------------- * * Synopsis: Prints codec type message * */ static char * pCodecType(AvdtpCodecType CType) { switch (CType) { case AVDTP_CODEC_TYPE_SBC: return "SBC"; case AVDTP_CODEC_TYPE_MPEG1_2_AUDIO: return "MPEG1_2_AUDIO"; case AVDTP_CODEC_TYPE_MPEG2_4_AAC: return "MPEG2_4_AAC"; case AVDTP_CODEC_TYPE_ATRAC: return "ATRAC"; case AVDTP_CODEC_TYPE_NON_A2DP: return "Non-A2DP"; default: return "UNKNOWN"; } } /*--------------------------------------------------------------------------- * pAvError() *--------------------------------------------------------------------------- * * Synopsis: Prints AV error message * */ static char * pAvError(AvdtpError Error) { switch (Error) { case AVDTP_ERR_NO_ERROR: return "AVDTP_ERR_NO_ERROR"; case AVDTP_ERR_BAD_HEADER_FORMAT: return "AVDTP_ERR_BAD_HEADER_FORMAT"; case AVDTP_ERR_BAD_LENGTH: return "AVDTP_ERR_BAD_LENGTH"; case AVDTP_ERR_BAD_ACP_SEID: return "AVDTP_ERR_BAD_ACP_SEID"; case AVDTP_ERR_IN_USE: return "AVDTP_ERR_IN_USE"; case AVDTP_ERR_NOT_IN_USE: return "AVDTP_ERR_NOT_IN_USE"; case AVDTP_ERR_BAD_SERV_CATEGORY: return "AVDTP_ERR_BAD_SERV_CATEGORY"; case AVDTP_ERR_BAD_PAYLOAD_FORMAT: return "AVDTP_ERR_BAD_PAYLOAD_FORMAT"; case AVDTP_ERR_NOT_SUPPORTED_COMMAND: return "AVDTP_ERR_NOT_SUPPORTED_COMMAND"; case AVDTP_ERR_INVALID_CAPABILITIES: return "AVDTP_ERR_INVALID_CAPABILITIES"; case AVDTP_ERR_BAD_RECOVERY_TYPE: return "AVDTP_ERR_BAD_RECOVERY_TYPE"; case AVDTP_ERR_BAD_MEDIA_TRANSPORT_FORMAT: return "AVDTP_ERR_BAD_MEDIA_TRANSPORT_FORMAT"; case AVDTP_ERR_BAD_RECOVERY_FORMAT: return "AVDTP_ERR_BAD_RECOVERY_FORMAT"; case AVDTP_ERR_BAD_ROHC_FORMAT: return "AVDTP_ERR_BAD_ROHC_FORMAT"; case AVDTP_ERR_BAD_CP_FORMAT: return "AVDTP_ERR_BAD_CP_FORMAT"; case AVDTP_ERR_BAD_MULTIPLEXING_FORMAT: return "AVDTP_ERR_BAD_MULTIPLEXING_FORMAT"; case AVDTP_ERR_UNSUPPORTED_CONFIGURATION: return "AVDTP_ERR_UNSUPPORTED_CONFIGURATION"; case AVDTP_ERR_BAD_STATE: return "AVDTP_ERR_BAD_STATE"; case A2DP_ERR_BAD_SERVICE: return" A2DP_ERR_BAD_SERVICE"; case A2DP_ERR_INSUFFICIENT_RESOURCE: return" A2DP_ERR_INSUFFICENT_RESOURCE"; case A2DP_ERR_INVALID_CODEC_TYPE: return" A2DP_ERR_INVALID_CODEC_TYPE"; case A2DP_ERR_NOT_SUPPORTED_CODEC_TYPE: return" A2DP_ERR_NOT_SUPPORTED_CODEC_TYPE"; case A2DP_ERR_INVALID_SAMPLING_FREQUENCY: return" A2DP_ERR_INVALID_SAMPLING_FREQUENCY"; case A2DP_ERR_NOT_SUPPORTED_SAMP_FREQ: return" A2DP_ERR_NOT_SUPPORTED_SAMP_FREQ"; case A2DP_ERR_INVALID_CHANNEL_MODE: return" A2DP_ERR_INVALID_CHANNEL_MODE"; case A2DP_ERR_NOT_SUPPORTED_CHANNEL_MODE: return" A2DP_ERR_NOT_SUPPORTED_CHANNEL_MODE"; case A2DP_ERR_INVALID_SUBBANDS: return" A2DP_ERR_INVALID_SUBBANDS"; case A2DP_ERR_NOT_SUPPORTED_SUBBANDS: return" A2DP_ERR_NOT_SUPPORTED_SUBBANDS"; case A2DP_ERR_INVALID_ALLOCATION_METHOD: return" A2DP_ERR_INVALID_ALLOCATION_METHOD"; case A2DP_ERR_NOT_SUPPORTED_ALLOC_METHOD: return" A2DP_ERR_NOT_SUPPORTED_ALLOC_METHOD"; case A2DP_ERR_INVALID_MIN_BITPOOL_VALUE: return" A2DP_ERR_INVALID_MIN_BITPOOL_VALUE"; case A2DP_ERR_NOT_SUPPORTED_MIN_BITPOOL_VALUE: return" A2DP_ERR_NOT_SUPPORTED_MIN_BITPOOL_VALUE"; case A2DP_ERR_INVALID_MAX_BITPOOL_VALUE: return" A2DP_ERR_INVALID_MAX_BITPOOL_VALUE"; case A2DP_ERR_NOT_SUPPORTED_MAX_BITPOOL_VALUE: return" A2DP_ERR_NOT_SUPPORTED_MAX_BITPOOL_VALUE"; case A2DP_ERR_INVALID_LAYER: return" A2DP_ERR_INVALID_LAYER"; case A2DP_ERR_NOT_SUPPORTED_LAYER: return" A2DP_ERR_NOT_SUPPORTED_LAYER"; case A2DP_ERR_NOT_SUPPORTED_CRC: return" A2DP_ERR_NOT_SUPPORTED_CRC"; case A2DP_ERR_NOT_SUPPORTED_MPF: return" A2DP_ERR_NOT_SUPPORTED_MPF"; case A2DP_ERR_NOT_SUPPORTED_VBR: return" A2DP_ERR_NOT_SUPPORTED_VBR"; case A2DP_ERR_INVALID_BIT_RATE: return" A2DP_ERR_INVALID_BIT_RATE"; case A2DP_ERR_NOT_SUPPORTED_BIT_RATE: return" A2DP_ERR_NOT_SUPPORTED_BIT_RATE"; case A2DP_ERR_INVALID_OBJECT_TYPE: return" A2DP_ERR_INVALID_OBJECT_TYPE"; case A2DP_ERR_NOT_SUPPORTED_OBJECT_TYPE: return" A2DP_ERR_NOT_SUPPORTED_OBJECT_TYPE"; case A2DP_ERR_INVALID_CHANNELS: return" A2DP_ERR_INVALID_CHANNELS"; case A2DP_ERR_NOT_SUPPORTED_CHANNELS: return" A2DP_ERR_NOT_SUPPORTED_CHANNELS"; case A2DP_ERR_INVALID_VERSION: return" A2DP_ERR_INVALID_VERSION"; case A2DP_ERR_NOT_SUPPORTED_VERSION: return" A2DP_ERR_NOT_SUPPORTED_VERSION"; case A2DP_ERR_NOT_SUPPORTED_MAXIMUM_SUL: return" A2DP_ERR_NOT_SUPPORTED_MAXIMUM_SUL"; case A2DP_ERR_INVALID_BLOCK_LENGTH: return" A2DP_ERR_INVALID_BLOCK_LENGTH"; case A2DP_ERR_INVALID_CP_TYPE: return" A2DP_ERR_INVALID_CP_TYPE"; case A2DP_ERR_INVALID_CP_FORMAT: return" A2DP_ERR_INVALID_CP_FORMAT"; default: return "UNKNOWN"; } } /*--------------------------------------------------------------------------- * mfw_btips_a2dpSetDefaultSbcLocalCap() *--------------------------------------------------------------------------- * * Synopsis: Save local SBC capabilities * */ static void mfw_btips_a2dpSetDefaultSbcLocalCap(void) { sbcLocalCap.samplingFreq = ( BTHAL_MM_SBC_SAMPLING_FREQ_16000 | BTHAL_MM_SBC_SAMPLING_FREQ_32000|BTHAL_MM_SBC_SAMPLING_FREQ_44100 |BTHAL_MM_SBC_SAMPLING_FREQ_48000); sbcLocalCap.channelMode = BTHAL_MM_SBC_CHANNEL_MODE_MONO | BTHAL_MM_SBC_CHANNEL_MODE_DUAL_CHANNEL | BTHAL_MM_SBC_CHANNEL_MODE_STEREO | BTHAL_MM_SBC_CHANNEL_MODE_JOINT_STEREO; sbcLocalCap.blockLength = (BTHAL_MM_SBC_BLOCK_LENGTH_4 | BTHAL_MM_SBC_BLOCK_LENGTH_8 | BTHAL_MM_SBC_BLOCK_LENGTH_12 | BTHAL_MM_SBC_BLOCK_LENGTH_16); sbcLocalCap.subbands = BTHAL_MM_SBC_SUBBANDS_8 | BTHAL_MM_SBC_SUBBANDS_4; sbcLocalCap.allocationMethod = BTHAL_MM_SBC_ALLOCATION_METHOD_LOUDNESS | BTHAL_MM_SBC_ALLOCATION_METHOD_SNR; sbcLocalCap.maxBitpoolValue = MAX_SUPPORTED_BITPOOL; sbcLocalCap.minBitpoolValue = MIN_SUPPORTED_BITPOOL; } /*--------------------------------------------------------------------------- * mfw_btips_a2dpSetDefaultMp3LocalCap() *--------------------------------------------------------------------------- * * Synopsis: Save local PM3 capabilities * */ static void mfw_btips_a2dpSetDefaultMp3LocalCap(void) { mp3LocalCap.bitRate = 0xFFFF; mp3LocalCap.channelMode = (BTHAL_MM_MPEG1_2_AUDIO_CHANNEL_MODE_MONO | BTHAL_MM_MPEG1_2_AUDIO_CHANNEL_MODE_DUAL_CHANNEL | BTHAL_MM_MPEG1_2_AUDIO_CHANNEL_MODE_STEREO | BTHAL_MM_MPEG1_2_AUDIO_CHANNEL_MODE_JOINT_STEREO); mp3LocalCap.crcProtection = BTHAL_MM_MPEG1_2_AUDIO_CRC_PROTECTION_SUPPORTED; mp3LocalCap.layer = (BTHAL_MM_MPEG1_2_AUDIO_LAYER_1 | BTHAL_MM_MPEG1_2_AUDIO_LAYER_2 | BTHAL_MM_MPEG1_2_AUDIO_LAYER_3); mp3LocalCap.mpf2 = BTHAL_MM_MPEG1_2_AUDIO_MPF2_SUPPORTED; mp3LocalCap.samplingFreq = (BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_48000 | BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_44100 | BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_32000 | BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_24000 | BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_22050 | BTHAL_MM_MPEG1_2_AUDIO_SAMPLING_FREQ_16000); mp3LocalCap.vbr = BTHAL_MM_MPEG1_2_AUDIO_VBR_SUPPORTED; } BtStatus mfw_btips_a2dpConnectStream(BD_ADDR bdAddr) { BtStatus status; TRACE_FUNCTION("mfw_btips_a2dpConnectStream"); if ( (strcmp(szSelectedFileExt, "mp3") == 0)) { bPlayMp3File = TRUE; bPlaySbcFile = FALSE; codec = BTL_A2DP_CODEC_MPEG1_2_AUDIO; status = BTL_A2DP_ConnectStream(btlA2dpContext,&bdAddr, codec, &streamId); if (status == BT_STATUS_PENDING) { TRACE_FUNCTION("Connecting Mp3 stream (opening signaling channel in process)..."); } else { TRACE_FUNCTION_P1("connecting Mp3 stream failed, status: %s", pBT_Status(status)); } } else if ( (strcmp(szSelectedFileExt, "pcm") == 0)) { bPlaySbcFile = TRUE; bPlayMp3File = FALSE; codec = BTL_A2DP_CODEC_SBC; status = BTL_A2DP_ConnectStream(btlA2dpContext,&bdAddr, codec, &streamId); if (status == BT_STATUS_PENDING) { TRACE_FUNCTION("Connecting SBC stream (opening signaling channel in process)..."); } else { TRACE_FUNCTION_P1("connecting SBC stream failed, status: %s", pBT_Status(status)); } } else if ( (strcmp(szSelectedFileExt, "wav") == 0)) { bPlaySbcFile = TRUE; bPlayMp3File = FALSE; codec = BTL_A2DP_CODEC_SBC; status = BTL_A2DP_ConnectStream(btlA2dpContext,&bdAddr, codec, &streamId); if (status == BT_STATUS_PENDING) { TRACE_FUNCTION("Connecting SBC stream (opening signaling channel in process)..."); } else { TRACE_FUNCTION_P1("connecting SBC stream failed, status: %s", pBT_Status(status)); } } return status; } BtStatus mfw_btips_a2dpCloseStream() { BtStatus status; TRACE_FUNCTION("mfw_btips_a2dpCloseStream"); if ( (strcmp(szSelectedFileExt, "mp3") == 0)) { //AppMp3StopFile(); AppStopAudioFile(); AppMp3CloseFile(); } else if ( (strcmp(szSelectedFileExt, "pcm") == 0)) { AppPcmSimStopFile(); AppPcmSimCloseFile(); } else if ( (strcmp(szSelectedFileExt, "wav") == 0)) { AppPcmSimStopFile(); AppPcmSimCloseFile(); } status = BTL_A2DP_CloseStream(btlA2dpContext, streamId); TRACE_FUNCTION_P1("BTL_A2DP_CloseStream returned %s", pBT_Status(status)); return status; } BOOL mfw_btips_a2dpGetConnectedDevice (BD_ADDR *bdAddr, U8 *name) { BtStatus status; status = BTL_A2DP_GetConnectedDevice (btlA2dpContext, streamId, bdAddr); if (status == BT_STATUS_SUCCESS) { mfw_btips_bmgGetDeviceName (bdAddr, name); return TRUE; } return FALSE; } BOOL mfw_btips_a2dpDisconnect (BD_ADDR bdAddr) { BtStatus btStatus; btStatus = BTL_A2DP_CloseStream (btlA2dpContext, streamId); return TRUE; } #endif