FreeCalypso > hg > tcs211-l1-reconst
view g23m/condat/ms/src/mfw/mfw_bte.c @ 0:509db1a7b7b8
initial import: leo2moko-r1
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Mon, 01 Jun 2015 03:24:05 +0000 |
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/* +-------------------------------------------------------------------+ | PROJECT: MMI-Framework (8445) $Workfile:: mfw_bt.c $| | $Author:: NDH $Revision:: 1 $| | CREATED: 17.04.04 $Modtime:: 17.04.04 17:21 $| | STATE : code | +-------------------------------------------------------------------+ MODULE : MFW_BT PURPOSE : This module contains the functions for MFW Bluetooth Management */ #define ENTITY_MFW #include <string.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 "bta_riviera.h" #include "bta_api.h" #include "mfw_bt_geh.h" #include "mfw_bte.h" #include "mfw_bt_dm.h" #include "mfw_bt_dg.h" #include "mfw_bt_ag.h" #include "mfw_bt_op.h" #include "mfw_bt_ft.h" #include "mfw_bt_flash.h" #include "mfw_utils.h" /* ** Define Module wide variables */ static SHORT Mfw_Bt_Ge_Sigbuf_Id = -1; static BOOLEAN Mfw_Bt_Ge_InProgress; static T_MFW_STARTUP_VISIBILITY startup_visibility; /* ** Local Function Prototypes */ static void mfw_bt_send_cb_notify_ind (void); /* ** Define External variables and references */ EXTERN MfwHdr * current_mfw_elem; /* ** Module Function Definitoins */ /******************************************************************************* $Function: mfw_bt_enable $Description: This function will start the whole process of enabling Bluetooth. $Returns: MFW_BT_FAIL if the chip is not stopped or if the generic event handler doesn't start correctly. $Arguments: startup_visibility. Visibility set by the BMI. MFW_BT_DEFAULT_VIS if using the settings stored in flash. *******************************************************************************/ T_MFW_BT_STATUS mfw_bt_enable(T_MFW_STARTUP_VISIBILITY startup_visibility ) { UINT8 delay_counter = 0; T_RV_RET bt_start_status = 0; T_MFW_BT_STATUS status; // static tBTA_SYS_START_CBACK *fp; // fp= (tBTA_SYS_START_CBACK *)&mfw_bt_dm_security_cb; /* first, enable the event handler */ status = mfw_bt_ge_enable(); if( status != MFW_BT_SUCCESS ) return status; /* start the system */ if( BTA_SysStart((tBTA_SYS_START_CBACK *)(&mfw_bt_dm_security_cb) ) != RV_OK ) // if( BTA_SysStart(fp) != RV_OK ) { MFW_BT_TRACE( "[mfw_bt]: failed to start BT chipset" ); return MFW_BT_FAIL; } /* the start-up procedure has been started. We will receive an event when it is done */ MFW_BT_TRACE( "[mfw_bt]: BT is starting" ); return MFW_BT_SUCCESS; } /* */ /******************************************************************************* $Function: mfw_bt_enable_cb $Description: mfw_bt_enable will cause a BTA_DM_SYS_START_EVT to be sent. At this moment we call BTA_EnableBluetooth. When we receive BTA_DM_ENABLE_EVT, we call this function. $Returns: Will send a BMI signal if there is no default name. If the user cancels the input, BT will then be stopped. Will send a E_BT_ENABLE_CMPL event when the initialization is done. $Arguments: none *******************************************************************************/ void mfw_bt_enable_cb(void) { UINT8* device_name; T_MFW_BT_REM_DEVICE *ptr_device_array[MFW_BT_NUM_REM_DEVICE]; UINT8 number_of_devices; T_MFW_BT_ENABLE_CMPL enable_evt_data; mfw_bt_cb.is_started = TRUE; /* set device name */ device_name = mfw_bt_read_local_name( ); if( *device_name == NULL ) { /* no name yet. Use default one, and ask the user to specify a new one */ BTA_DmSetDeviceName((char*)MFW_BT_DEVICE_NAME); mfw_bt_cb.is_name_requested = TRUE; mfw_bt_signal(E_BT_DM_DEV_NAME_REQ, NULL); } else BTA_DmSetDeviceName( (char*)device_name ); /* set visibility and connectability */ if( startup_visibility == MFW_BT_DEFAULT_VIS ) { if( mfw_bt_read_visibility( ) == TRUE ) { BTA_DmSetVisibility( BTA_DM_GENERAL_DISC, BTA_DM_CONN); } else { BTA_DmSetVisibility( BTA_DM_NON_DISC, BTA_DM_NON_CONN); } } else { BTA_DmSetVisibility( startup_visibility, BTA_DM_NON_CONN); } /* Update BTA with peer device information stored in NVRAM */ /* first, get all the devices */ mfw_bt_get_device_by_service(0, &ptr_device_array[0], &number_of_devices); /* then add these devices to BTA database. */ for ( ; number_of_devices>0 ; number_of_devices-- ) { if(ptr_device_array[number_of_devices]->link_key_present) { BTA_DmAddDevice(ptr_device_array[number_of_devices]->bd_addr, ptr_device_array[number_of_devices]->link_key, ptr_device_array[number_of_devices]->trusted_services, ptr_device_array[number_of_devices]->is_trusted); } else if (ptr_device_array[number_of_devices]->is_trusted) { BTA_DmAddDevice(ptr_device_array[number_of_devices]->bd_addr, NULL, ptr_device_array[number_of_devices]->trusted_services, ptr_device_array[number_of_devices]->is_trusted); } } /* initialize all the sub-parts => BT profiles. THIS CODE IS ABSOLUTELY NOT DYNAMIC... Does it need to be??? */ mfw_bt_ag_init(); mfw_bt_dg_init(); mfw_bt_op_init(); mfw_bt_ft_init(); /* finally platform-specific initialization */ //nothing to do for the time being. /* store the new settings. this stores base conf file */ mfw_bt_store_status(TRUE); enable_evt_data.Success = TRUE; mfw_bt_signal(E_BT_ENABLE_CMPL, (void*)&enable_evt_data ); return; } /******************************************************************************* $Function: mfw_bt_disable $Description: This function stops the BT system. $Returns: None $Arguments: None *******************************************************************************/ void mfw_bt_disable(void) { /* disable BT. DM handler will then receive an DISABLE event => will stop the chipset and kill the generic event handler. */ BTA_DisableBluetooth( ); return; } /******************************************************************************* $Function: mfw_bt_init $Description: This function initialises the Mfw Bluetooth Persistent Data on Power Up. $Returns: None $Arguments: None *******************************************************************************/ void mfw_bt_init(void) { /* ** Read the Known Devices from FFS */ mfw_bt_flash_init( ); /* ** The rest is down to you Thomas */ return; } /******************************************************************************* $Function: mfw_bt_exit $Description: This function will tidy up any resources used by the Mfw Bluetooth Module on Power Down $Returns: None $Arguments: None *******************************************************************************/ void mfw_bt_exit(void) { /* nothing to do here... RAM will be automatically cleaned, and the flash wasn't modified */ return; } /******************************************************************************* $Function: mfw_bt_create $Description: This function initialises an Mfw Bluetooth entity and adds it to the Window Stack $Returns: T_MFW_HND : A handle for the entity $Arguments: T_MFW_HND : Parent Window Handle T_MFW_EVENT : Event Mask of the events to be handled T_MFW_CB : Callback function to handle the events *******************************************************************************/ T_MFW_HND mfw_bt_create(T_MFW_HND hWin, T_MFW_EVENT event, T_MFW_CB cbfunc) { T_MFW_HDR *hdr; T_MFW_BT *bt_para; MFW_BT_TRACE("mfw_bt_create"); hdr = (T_MFW_HDR *) mfwAlloc(sizeof (T_MFW_HDR)); bt_para = (T_MFW_BT *) mfwAlloc(sizeof (T_MFW_BT)); if (!hdr OR !bt_para) return FALSE; /* * initialisation of the handler */ bt_para->emask = event; bt_para->handler = cbfunc; hdr->data = bt_para; /* store parameter in node */ hdr->type = MfwTypBt; /* store type of event handler */ /* * installation of the handler */ return mfwInsert((T_MFW_HDR *)hWin, hdr); } /******************************************************************************* $Function: mfw_bt_delete $Description: This function clears down an Mfw Bluetooth entity and removes it from the Window Stack $Returns: T_MFW_RES : The result of the function $Arguments: T_MFW_HND : The Handle of the entity to be removed *******************************************************************************/ T_MFW_RES mfw_bt_delete(T_MFW_HND hnd) { MFW_BT_TRACE("mfw_bt_delete"); if (!hnd OR !((T_MFW_HDR *)hnd)->data) return MFW_RES_ILL_HND; if (!mfwRemove((T_MFW_HDR *)hnd)) return MFW_RES_ILL_HND; mfwFree((U8 *)(((T_MFW_HDR *) hnd)->data),sizeof(T_MFW_BT)); mfwFree((U8 *)hnd,sizeof(T_MFW_HDR)); return MFW_RES_OK; } /******************************************************************************* $Function: mfw_bt_signal $Description: This function sends the Mfw Bluetooth events from the Mfw to the BMI. $Returns: None $Arguments: T_MFW_EVENT : The event to be sent to the BMI void * : Pointer to the Event data *******************************************************************************/ void mfw_bt_signal(T_MFW_EVENT event, void *para) { UBYTE temp; temp = dspl_Enable(0); if (mfwSignallingMethod EQ 0) { /* * focus is on a window */ if (mfwFocus) { /* * send event to sim management * handler if available */ if (mfw_bt_sign_exec (mfwFocus, event, para)) { dspl_Enable(temp); return; } } /* * actual focussed window is not available * or has no network management registration * handler, then search all nodes from the root. */ if (mfwRoot) mfw_bt_sign_exec (mfwRoot, event, para); } else { MfwHdr * h = 0; /* * Focus set, then start here */ if (mfwFocus) h = mfwFocus; /* * Focus not set, then start root */ if (!h) h = mfwRoot; /* * No elements available, return */ while (h) { /* * Signal consumed, then return */ if (mfw_bt_sign_exec (h, event, para)) { dspl_Enable(temp); return; } /* * All windows tried inclusive root */ if (h == mfwRoot) { dspl_Enable(temp); return; } /* * get parent window */ h = mfwParent(mfwParent(h)); if (h) h = ((MfwWin * )(h->data))->elems; } mfw_bt_sign_exec (mfwRoot, event, para); } dspl_Enable(temp); return; } /******************************************************************************* $Function: mfw_bt_sign_exec $Description: This function sends the Mfw Bluetooth events from the Mfw to the BMI. $Returns: None $Arguments: None *******************************************************************************/ BOOL mfw_bt_sign_exec (T_MFW_HDR * cur_elem, T_MFW_EVENT event, T_MFW_BT_PARA * para) { MFW_BT_TRACE("mfw_bt_sign_exec"); while (cur_elem) { /* * event handler is available */ if (cur_elem->type EQ MfwTypBt) { T_MFW_BT * bt_data; /* * handler is CM management handler */ bt_data = (T_MFW_BT *)cur_elem->data; if (bt_data->emask & event) { /* * event is expected by the call back function */ bt_data->event = event; switch (event) { /* ** Generic Events */ case E_BT_ENABLE_CMPL: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_ENABLE_CMPL)); break; case E_BT_DISABLE_CMPL: memset(&bt_data->para, 0x00, sizeof(T_MFW_BT_PARA)); break; /* ** Device Manager Events */ case E_BT_DM_LINK_UP: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_LINK_UP)); break; case E_BT_DM_LINK_DOWN: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_LINK_DOWN)); break; case E_BT_DM_INQ_RES: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_INQ_RES)); break; case E_BT_DM_INQ_CMPL: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_INQ_CMPL)); break; case E_BT_DM_DISC_RES: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_DISC_RES)); break; case E_BT_DM_DISC_CMPL: memset(&bt_data->para, 0x00, sizeof(T_MFW_BT_PARA)); break; case E_BT_DM_PIN_REQ: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_PIN_REQ)); break; case E_BT_DM_AUTH_CMPL: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_AUTH_CMPL)); break; case E_BT_DM_AUTHORIZE_REQ: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_AUTHORIZE_REQ)); break; case E_BT_DM_DEV_NAME_REQ: memset(&bt_data->para, 0x00, sizeof(T_MFW_BT_PARA)); break; case E_BT_DM_SIG_STRENGTH_IND: memcpy (&bt_data->para, para, sizeof (T_MFW_BT_DM_SIG_STRENGTH_IND)); break; } /* * if call back defined, call it */ if (bt_data->handler) { // store current mfw elem current_mfw_elem = cur_elem; if ((*(bt_data->handler)) (bt_data->event, (void *)&bt_data->para)) return TRUE; } } } cur_elem = cur_elem->next; } return FALSE; } /******************************************************************************* $Function: mfw_bt_ge_enable $Description: This function initialises the Generic Event Handler, it should be active only when bluetooth is enabled. $Returns: MFW_BT_UNABLE_TO_CREATE_EVT_BUF : Failed to start - memory problems MFW_BT_SUCCESS : Started OK, and Ready $Arguments: None *******************************************************************************/ T_MFW_BT_STATUS mfw_bt_ge_enable (void) { SHORT cbufRetVal; MFW_BT_TRACE("mfw_bt_ge_enable"); /* ** Try to create the Circular Event Buffer */ cbufRetVal = mfw_cbuf_create(MFW_BT_MAX_SIG_Q_ENTRIES, /* Max Entires */ sizeof(T_MFW_BT_SIGNALS), /* Item Size */ FALSE, /* Don't Overwrite */ 0xFF, /* Null Character */ FALSE, /* Dynamic Buffer */ (void *)0); /* Buffer pointer not required */ if (cbufRetVal == MFW_CBUF_MEM_ALLOC_FAILURE) { MFW_BT_TRACE("mfw_bt_ge_enable > Buffer Creation Failed with Mem Constraints"); /* ** Failed due to memory constraints, try again with half the number of entries */ cbufRetVal = mfw_cbuf_create(MFW_BT_MAX_SIG_Q_ENTRIES/2, /* Max Entires */ sizeof(T_MFW_BT_SIGNALS), /* Item Size */ FALSE, /* Don't Overwrite */ 0xFF, /* Null Character */ FALSE, /* Dynamic Buffer */ (void *)0); /* Buffer pointer not required */ /* ** All MFW_CBUF error codes are negative, 0 or a positive value from mfw_cbuf_create is a valid buffer Id */ if (cbufRetVal < 0) { MFW_BT_TRACE_P1("mfw_bt_ge_enable > Unable to Create Buffer : Error %d", cbufRetVal); /* ** Failed to allocate buffer, return an error */ return MFW_BT_UNABLE_TO_CREATE_EVT_BUF; } } else if (cbufRetVal < 0) { MFW_BT_TRACE_P1("mfw_bt_ge_enable > Unable to Create Buffer : Error %d", cbufRetVal); /* ** Failed to allocate buffer, return an error */ return MFW_BT_UNABLE_TO_CREATE_EVT_BUF; } MFW_BT_TRACE_P1("mfw_bt_ge_enable > Buffer created successfully with Id %d", cbufRetVal); /* ** A buffer has been created, store the Id for future use. */ Mfw_Bt_Ge_Sigbuf_Id = cbufRetVal; return MFW_BT_SUCCESS; } /******************************************************************************* $Function: mfw_bt_ge_disable $Description: Disbales the Generic Event Handler, and releases the Dynamic Event Buffer $Returns: None $Arguments: None *******************************************************************************/ void mfw_bt_ge_disable (void) { MFW_BT_TRACE("mfw_bt_ge_disable"); /* ** Ensure the MFW Bluetooth Event handler is initialised */ if (Mfw_Bt_Ge_Sigbuf_Id < 0) { MFW_BT_TRACE("mfw_bt_ge_disable > Bluetooth Module Not Initialised"); } else { mfw_cbuf_delete(Mfw_Bt_Ge_Sigbuf_Id); Mfw_Bt_Ge_Sigbuf_Id = -1; } } /******************************************************************************* $Function: mfw_bt_ge_post_event $Description: This function stores the incoming event in the event buffer, and if required, notifies the MMI Task $Returns: MFW_BT_NOT_INITIALISED : Fn mfw_bt_ge_enable not called or failed MFW_BT_INVALID_ORIG : Invalid Originator Id received MFW_BT_INVALID_EVENT : Invalid Event Id received MFW_BT_INVALID_DATA : Mismatch between the data pointer and datalen values MFW_BT_FAILED_TO_STORE_EVENT : Event Buffer Full (check trace) MFW_BT_SUCCESS : Event Stored successfuly $Arguments: originator : Identifier for the originating profile that caused the event eventId : Event Identifier (See BTA Specification) data : pointer to the event data dataLen : length of the event data in bytes (must be 0 if data is (void *)0) *******************************************************************************/ T_MFW_BT_STATUS mfw_bt_ge_post_event (T_MFW_BT_ORIGINATORS originator, ULONG eventId, void * data, int dataLen) { T_MFW_BT_SIGNALS sigBuffer; USHORT numElements; SHORT cbufRetVal; MFW_BT_TRACE("mfw_bt_ge_post_event"); /* ** Ensure the MFW Bluetooth Event handler is initialised */ if (Mfw_Bt_Ge_Sigbuf_Id < 0) { MFW_BT_TRACE("mfw_bt_ge_post_event > Bluetooth Module Not Initialised"); return MFW_BT_NOT_INITIALISED; } /* ** Validate the incoming Parameters */ if ((originator >= MFW_BT_MAX_ORIGINATOR) || ((originator & (ULONG)0xFFFF) != 0)) { MFW_BT_TRACE_P1("mfw_bt_ge_post_event > Originator Invalid : 0x%lx", originator); return MFW_BT_INVALID_ORIG; } if (eventId > (ULONG)0xFFFF) { MFW_BT_TRACE_P1("mfw_bt_ge_post_event > Event Id Invalid : 0x%lx", eventId); return MFW_BT_INVALID_EVENT; } if ((dataLen < 0) || ((data == (void *)0) && (dataLen != 0)) || ((data != (void *)0) && (dataLen == 0))) { MFW_BT_TRACE_P2("mfw_bt_ge_post_event > Data, DataLen combination Invalid : data 0x%lx, dataLen %d", data, dataLen); return MFW_BT_INVALID_DATA; } /* ** Create the Event for storage, which is combined from the OriginatorId and the EventId */ sigBuffer.event = originator | eventId; /* ** Copy the Signal Data for storage */ memcpy((void *)&sigBuffer.data, data, dataLen); /* ** Get the existing number of elements in the Event Buffer */ numElements = mfw_cbuf_num_elements (Mfw_Bt_Ge_Sigbuf_Id); /* ** Post the event to the buffer */ cbufRetVal = mfw_cbuf_put(Mfw_Bt_Ge_Sigbuf_Id, (void *)&sigBuffer); if (cbufRetVal != MFW_CBUF_OK) { /* ** Unable to store the data */ MFW_BT_TRACE_P1("mfw_bt_ge_post_event > Unable to store the event : Error %d", cbufRetVal); return MFW_BT_FAILED_TO_STORE_EVENT; } MFW_BT_TRACE("mfw_bt_ge_post_event > Event Successfully Stored"); /* ** If required, Post the MMI_BT_CB_NOTIFY_RXD_IND Primitive */ if ((numElements == 0) && (Mfw_Bt_Ge_InProgress == FALSE)) { /* ** Sending Primitive to MMI TASK */ MFW_BT_TRACE("mfw_bt_ge_post_event > Sending Primitive to MMI TASK"); mfw_bt_send_cb_notify_ind(); } #ifdef MFW_BT_DEBUG else { /* ** Sending Primitive to MMI TASK */ MFW_BT_TRACE("mfw_bt_ge_post_event > No need to send Primitive to MMI TASK"); } #endif return MFW_BT_SUCCESS; } /******************************************************************************* $Function: mfw_bt_cb_notify_rxd $Description: This function is called on receipt of the MMI_BT_CB_NOTIFY_IND primitive, it reads the events from the event buffer and passes the details to the appropriate Profile Handler. It will process a Maximum of MFW_BT_MAX_CONSEC_SIG_PROC events before reposting the primitive to the MMI Queue and relinquishing control. $Returns: None $Arguments: None *******************************************************************************/ void mfw_bt_cb_notify_rxd(void) { T_MFW_BT_SIGNALS sigBuffer; T_MFW_BT_ORIGINATORS originatorId; T_MFW_BT_STATUS hndlrRetVal; ULONG eventId; UBYTE numSigsProcessed; SHORT cbufRetVal; MFW_BT_TRACE("mfw_bt_cb_notify_rxd"); if (Mfw_Bt_Ge_Sigbuf_Id < 0) { MFW_BT_TRACE("Mfw_Bt_cb_notify_rxd > Bluetooth Module Not Initialised"); return; } /* ** Initialise Local and Module variables as required. */ Mfw_Bt_Ge_InProgress = TRUE; numSigsProcessed = 0; /* ** While there are events in the Buffer, and the maximum number of signals have not ** been processed ... */ while ((numSigsProcessed < MFW_BT_MAX_CONSEC_SIG_PROC) && (mfw_cbuf_num_elements(Mfw_Bt_Ge_Sigbuf_Id) > 0)) { numSigsProcessed++; /* ** Read the event details from the buffer */ cbufRetVal = mfw_cbuf_get(Mfw_Bt_Ge_Sigbuf_Id, (void *)&sigBuffer); if (cbufRetVal != MFW_CBUF_OK) { Mfw_Bt_Ge_InProgress = FALSE; (void)mfw_cbuf_reset(Mfw_Bt_Ge_Sigbuf_Id); MFW_BT_TRACE_P1("Mfw_Bt_cb_notify_rxd > Unable to read events from Buffer : Error %d", cbufRetVal); return; } /* ** Seperate the Originator and Event Id values */ originatorId = sigBuffer.event & (ULONG)0xFFFF0000; eventId = sigBuffer.event & (ULONG)0x0000FFFF; /* ** switch on the originator Id */ switch (originatorId) { case MFW_BT_DM_SECURITY: hndlrRetVal = mfw_bt_dm_security_hndlr((T_MFW_BT_DM_SEC_EVT)eventId, (T_MFW_BT_DM_SEC_SIG_DATA *)&sigBuffer.data.dmSecSignals); break; case MFW_BT_DM_SEARCH: hndlrRetVal = mfw_bt_dm_search_hndlr((T_MFW_BT_DM_SRCH_EVT)eventId, (T_MFW_BT_DM_SRCH_SIG_DATA *)&sigBuffer.data.dmSrchSignals); break; case MFW_BT_DG: hndlrRetVal = mfw_bt_dg_hndlr((T_MFW_BT_DG_EVT)eventId, (T_MFW_BT_DG_SIG_DATA *)&sigBuffer.data.dgSignals); break; case MFW_BT_AG: hndlrRetVal = mfw_bt_ag_hndlr((T_MFW_BT_AG_EVT)eventId, (T_MFW_BT_AG_SIG_DATA *)&sigBuffer.data.agSignals); break; case MFW_BT_OPC: hndlrRetVal = mfw_bt_opc_hndlr((T_MFW_BT_OPC_EVT)eventId, (T_MFW_BT_OPC_SIG_DATA *)&sigBuffer.data.opcSignals); break; case MFW_BT_OPS: hndlrRetVal = mfw_bt_ops_hndlr((T_MFW_BT_OPS_EVT)eventId, (T_MFW_BT_OPS_SIG_DATA *)&sigBuffer.data.opsSignals); break; case MFW_BT_FTC: hndlrRetVal = mfw_bt_ftc_hndlr((T_MFW_BT_FTC_EVT)eventId, (T_MFW_BT_FTC_SIG_DATA *)&sigBuffer.data.ftcSignals); break; case MFW_BT_FTS: hndlrRetVal = mfw_bt_fts_hndlr((T_MFW_BT_FTS_EVT)eventId, (T_MFW_BT_FTS_SIG_DATA *)&sigBuffer.data.ftsSignals); break; default: MFW_BT_TRACE_P1("mfw_bt_cb_notify_rxd > Invalid Originator 0x%lx", originatorId); hndlrRetVal = MFW_BT_SUCCESS; /* Set the return value to success because an error has already been reported */ } if (hndlrRetVal <= 0) { /* Error reported by the handler, not a lot can be done, expect report it */ MFW_BT_TRACE_P2("mfw_bt_cb_notify_rxd > Error %d returned from Event handler for Originator 0x%lx", hndlrRetVal, originatorId); } } Mfw_Bt_Ge_InProgress = FALSE; /* ** If there are still signals in the buffer, send another MMI_BT_CB_NOTIFY_RXD_IND primitive */ if (mfw_cbuf_num_elements(Mfw_Bt_Ge_Sigbuf_Id) > 0) { MFW_BT_TRACE("Mfw_Bt_cb_notify_rxd > Send the MMI_BT_CB_NOTIFY_IND signal"); mfw_bt_send_cb_notify_ind(); } return; } /************************************************************************************************** ** ** Local Function Definitions ** **************************************************************************************************/ #define hCommACI _ENTITY_PREFIXED(hCommACI) /******************************************************************************* $Function: mfw_bt_send_cb_notify_ind $Description: This function posts the MMI_BT_CB_NOTIFY_IND primitive to the MMI Queue $Returns: None $Arguments: None *******************************************************************************/ static void mfw_bt_send_cb_notify_ind (void) { #if defined (NEW_FRAME) EXTERN T_HANDLE hCommACI; ULONG signal_raw; #else EXTERN T_VSI_CHANDLE hCommACI; #endif PALLOC(bt_cb_notify_ind,MMI_BT_CB_NOTIFY_IND); MFW_BT_TRACE("mfw_bt_send_cb_notify_ind"); #if defined (NEW_FRAME) PSENDX(ACI,bt_cb_notify_ind); #else #if defined (_TMS470) vsi_c_send("",hCommACI,D2P(bt_cb_notify_ind), sizeof(T_PRIM_HEADER)+sizeof(T_MMI_BT_CB_NOTIFY_IND)); #else PSEND(ACI,bt_cb_notify_ind); #endif #endif return; }