FreeCalypso > hg > fc-magnetite
view src/cs/services/audio/audio_vm_record.c @ 600:8f50b202e81f
board preprocessor conditionals: prep for more FC hw in the future
This change eliminates the CONFIG_TARGET_FCDEV3B preprocessor symbol and
all preprocessor conditionals throughout the code base that tested for it,
replacing them with CONFIG_TARGET_FCFAM or CONFIG_TARGET_FCMODEM. These
new symbols are specified as follows:
CONFIG_TARGET_FCFAM is intended to cover all hardware designs created by
Mother Mychaela under the FreeCalypso trademark. This family will include
modem products (repackagings of the FCDEV3B, possibly with RFFE or even
RF transceiver changes), and also my desired FreeCalypso handset product.
CONFIG_TARGET_FCMODEM is intended to cover all FreeCalypso modem products
(which will be firmware-compatible with the FCDEV3B if they use TI Rita
transceiver, or will require a different fw build if we switch to one of
Silabs Aero transceivers), but not the handset product. Right now this
CONFIG_TARGET_FCMODEM preprocessor symbol is used to conditionalize
everything dealing with MCSI.
At the present moment the future of FC hardware evolution is still unknown:
it is not known whether we will ever have any beyond-FCDEV3B hardware at all
(contingent on uncertain funding), and if we do produce further FC hardware
designs, it is not known whether they will retain the same FIC modem core
(triband), if we are going to have a quadband design that still retains the
classic Rita transceiver, or if we are going to switch to Silabs Aero II
or some other transceiver. If we produce a quadband modem that still uses
Rita, it will run exactly the same fw as the FCDEV3B thanks to the way we
define TSPACT signals for the RF_FAM=12 && CONFIG_TARGET_FCFAM combination,
and the current fcdev3b build target will be renamed to fcmodem. OTOH, if
that putative quadband modem will be Aero-based, then it will require a
different fw build target, the fcdev3b target will stay as it is, and the
two targets will both define CONFIG_TARGET_FCFAM and CONFIG_TARGET_FCMODEM,
but will have different RF_FAM numbers. But no matter which way we are
going to evolve, it is not right to have conditionals on CONFIG_TARGET_FCDEV3B
in places like ACI, and the present change clears the way for future
evolution.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 01 Apr 2019 01:05:24 +0000 |
| parents | 838eeafb0051 |
| children |
line wrap: on
line source
/****************************************************************************/ /* */ /* File Name: audio_vm_record.c */ /* */ /* Purpose: This file contains all the functions used to manage the */ /* Voice Memorization recording task. */ /* */ /* Version 0.1 */ /* */ /* Date Modification */ /* ------------------------------------ */ /* 1 August 2001 Create */ /* */ /* Author */ /* Stephanie Gerthoux */ /* */ /* (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved*/ /****************************************************************************/ #include "rv/rv_defined_swe.h" #ifdef RVM_AUDIO_MAIN_SWE #ifndef _WINDOWS #include "config/swconfig.cfg" #include "config/sys.cfg" #include "config/chipset.cfg" #endif /* include the usefull L1 header */ #include "l1_confg.h" #if (VOICE_MEMO) #include <math.h> #include "rv/rv_general.h" #include "rvm/rvm_gen.h" #include "audio/audio_features_i.h" #include "audio/audio_ffs_i.h" #include "audio/audio_api.h" #include "audio/audio_structs_i.h" #include "audio/audio_var_i.h" #include "audio/audio_messages_i.h" #include "rvf/rvf_target.h" #include "audio/audio_const_i.h" #include "audio/audio_error_hdlr_i.h" /* include the usefull L1 header */ #define BOOL_FLAG #define CHAR_FLAG #include "l1_types.h" #include "l1audio_cust.h" #include "l1audio_msgty.h" #include "l1audio_signa.h" /********************************************************************************/ /* */ /* Function Name: audio_vm_record_send_status */ /* */ /* Purpose: This function sends the voice memorization record status */ /* to the entity. */ /* */ /* Input Parameters: */ /* status, */ /* return path */ /* */ /* Output Parameters: */ /* None. */ /* */ /* Note: */ /* None. */ /* */ /* Revision History: */ /* None. */ /* */ /********************************************************************************/ void audio_vm_record_send_status ( T_AUDIO_RET status, UINT32 recorded_size, T_RV_RETURN return_path) { void *p_send_message; T_RVF_MB_STATUS mb_status = RVF_RED; while (mb_status == RVF_RED) { /* allocate the message buffer */ mb_status = rvf_get_buf (p_audio_gbl_var->mb_external, sizeof (T_AUDIO_VM_RECORD_STATUS), (T_RVF_BUFFER **) (&p_send_message)); /* If insufficient resources, then report a memory error and abort. */ /* and wait until more ressource is given */ if (mb_status == RVF_RED) { audio_voice_memo_error_trace(AUDIO_ENTITY_NO_MEMORY); rvf_delay(RVF_MS_TO_TICKS(1000)); } } /*fill the header of the message */ ((T_AUDIO_VM_RECORD_STATUS *)(p_send_message))->os_hdr.msg_id = AUDIO_VM_RECORD_STATUS_MSG; /* fill the status parameters */ ((T_AUDIO_VM_RECORD_STATUS *)(p_send_message))->status = status; if (recorded_size == 0) { ((T_AUDIO_VM_RECORD_STATUS *)(p_send_message))->recorded_duration = 0; } else { ((T_AUDIO_VM_RECORD_STATUS *)(p_send_message))->recorded_duration = (UINT16)((recorded_size - 1) / 1000); } if (return_path.callback_func == NULL) { /* send the message to the entity */ rvf_send_msg (return_path.addr_id, p_send_message); } else { /* call the callback function */ (*return_path.callback_func)((void *)(p_send_message)); rvf_free_buf((T_RVF_BUFFER *)p_send_message); } } /********************************************************************************/ /* */ /* Function Name: audio_vm_record_convert_parameter */ /* */ /* Purpose: Convert the voice memorization record parameters from the */ /* entity to the l1 parameters */ /* */ /* Input Parameters: */ /* session_id of the voice memo record */ /* id of the voice memo record */ /* */ /* Output Parameters: */ /* layer 1 voice memo record message */ /* */ /* Note: */ /* None. */ /* */ /* Revision History: */ /* None. */ /* */ /********************************************************************************/ void audio_vm_record_convert_parameter( UINT8 channel_id, T_AUDIO_VM_RECORD_START *entity_parameter, T_MMI_VM_RECORD_REQ *l1_parameter) { double frequency_index, frequency_beep, amplitude_beep, amplitude, amplitude_index; /* session id : specifies the customer data identification corresponding to */ /* this voice memorization */ l1_parameter->session_id = channel_id; l1_parameter->maximum_size = (entity_parameter->memo_duration)*1000 + 1; l1_parameter->dtx_used = (BOOL)(entity_parameter->compression_mode); l1_parameter->record_coeff_ul = (UINT16)(entity_parameter->microphone_gain); l1_parameter->record_coeff_dl = (UINT16)(entity_parameter->network_gain); /* Calculation of the frequency index */ /* note: we /* add +0.5 to compensate the truncation */ frequency_beep = (double)(entity_parameter->tones_parameter.tones[0].frequency_tone); frequency_index = (256 * cos(6.283185*(frequency_beep/8000))); /* Calculation of the amplitude index */ /* note: we /* add +0.5 to compensate the truncation */ amplitude_beep = (double)(entity_parameter->tones_parameter.tones[0].amplitude_tone); amplitude = exp((amplitude_beep*0.115129)+(5.544625)); amplitude_index = amplitude * sin(6.283185*(frequency_beep/8000)); l1_parameter->d_k_x1_t0 = (UINT16)((((UINT16)(frequency_index))<<8) | ((UINT16)(amplitude_index))); /* Calculation of the frequency index */ /* note: we /* add +0.5 to compensate the truncation */ frequency_beep = (double)(entity_parameter->tones_parameter.tones[1].frequency_tone); frequency_index = (256 * cos(6.283185*(frequency_beep/8000))); /* Calculation of the amplitude index */ /* note: we /* add +0.5 to compensate the truncation */ amplitude_beep = (double)(entity_parameter->tones_parameter.tones[1].amplitude_tone); amplitude = exp((amplitude_beep*0.115129)+(5.544625)); amplitude_index = amplitude * sin(6.283185*(frequency_beep/8000)); l1_parameter->d_k_x1_t1 = (UINT16)((((UINT16)(frequency_index))<<8) | ((UINT16)(amplitude_index))); /* Calculation of the frequency index */ /* note: we /* add +0.5 to compensate the truncation */ frequency_beep = (double)(entity_parameter->tones_parameter.tones[2].frequency_tone); frequency_index = (256 * cos(6.283185*(frequency_beep/8000))); /* Calculation of the amplitude index */ /* note: we /* add +0.5 to compensate the truncation */ amplitude_beep = (double)(entity_parameter->tones_parameter.tones[2].amplitude_tone); amplitude = exp((amplitude_beep*0.115129)+(5.544625)); amplitude_index = amplitude * sin(6.283185*(frequency_beep/8000)); l1_parameter->d_k_x1_t2 = (UINT16)((((UINT16)(frequency_index))<<8) | ((UINT16)(amplitude_index))); l1_parameter->d_t0_on = (UINT16)((entity_parameter->tones_parameter.tones[0].start_tone)/20); l1_parameter->d_t1_on = (UINT16)((entity_parameter->tones_parameter.tones[1].start_tone)/20); l1_parameter->d_t2_on = (UINT16)((entity_parameter->tones_parameter.tones[2].start_tone)/20); l1_parameter->d_t0_off = (UINT16)((entity_parameter->tones_parameter.tones[0].stop_tone)/20); l1_parameter->d_t1_off = (UINT16)((entity_parameter->tones_parameter.tones[1].stop_tone)/20); l1_parameter->d_t2_off = (UINT16)((entity_parameter->tones_parameter.tones[2].stop_tone)/20); l1_parameter->d_bu_off = (UINT16)((entity_parameter->tones_parameter.frame_duration)/20); l1_parameter->d_se_off = (UINT16)((entity_parameter->tones_parameter.sequence_duration)/20); l1_parameter->d_pe_off = (UINT16)((entity_parameter->tones_parameter.period_duration)/20); l1_parameter->d_pe_rep = entity_parameter->tones_parameter.repetition; } /********************************************************************************/ /* */ /* Function Name: audio_vm_record_manager */ /* */ /* Purpose: This function is called to manage a voice memorization record */ /* manager */ /* */ /* Input Parameters: */ /* Message to the audio entity */ /* */ /* Output Parameters: */ /* None. */ /* */ /* Note: */ /* None. */ /* */ /* Revision History: */ /* None. */ /* */ /********************************************************************************/ void audio_vm_record_manager (T_RV_HDR *p_message) { /* Declare local variables. */ void *p_send_message; T_RVF_MB_STATUS mb_status; /**************** audio_vm_record_manager function begins ***********************/ switch(p_audio_gbl_var->vm_record.state) { case AUDIO_VM_RECORD_IDLE: { switch(p_message->msg_id) { case AUDIO_VM_RECORD_START_REQ: { /* save the task id of the entity */ p_audio_gbl_var->vm_record.task_id = p_message->src_addr_id; /* save the return path */ p_audio_gbl_var->vm_record.return_path.callback_func = ((T_AUDIO_VM_RECORD_START*)(p_message))->return_path.callback_func; p_audio_gbl_var->vm_record.return_path.addr_id = ((T_AUDIO_VM_RECORD_START*)(p_message))->return_path.addr_id; /* Send the Start message to the FFS */ /* allocate the message buffer */ mb_status = rvf_get_buf (p_audio_gbl_var->mb_internal, sizeof (T_AUDIO_FFS_RAM_2_FLASH_START), (T_RVF_BUFFER **) (&p_send_message)); /* If insufficient resources, then report a memory error and abort. */ if (mb_status == RVF_RED) { audio_voice_memo_error_trace(AUDIO_ENTITY_NO_MEMORY); } /* fill the header of the message */ ((T_AUDIO_FFS_RAM_2_FLASH_START *)(p_send_message))->os_hdr.msg_id = AUDIO_FFS_RAM_2_FLASH_START_REQ; /* fill the parameters */ ((T_AUDIO_FFS_RAM_2_FLASH_START *)(p_send_message))->audio_ffs_fd = ((T_AUDIO_VM_RECORD_START*)(p_message))->audio_ffs_fd; ((T_AUDIO_FFS_RAM_2_FLASH_START *)(p_send_message))->initial_size = AUDIO_VM_RECORD_INITIAL_SIZE; ((T_AUDIO_FFS_RAM_2_FLASH_START *)(p_send_message))->session_id = AUDIO_FFS_SESSION_VM_RECORD; /* allocate the buffer for the message to the L1 */ p_audio_gbl_var->vm_record.p_l1_send_message = audio_allocate_l1_message(sizeof(T_MMI_VM_RECORD_REQ)); if ( p_audio_gbl_var->vm_record.p_l1_send_message != NULL ) { /* Convert the entity parameters to the audio L1 parameters */ audio_vm_record_convert_parameter( ((T_AUDIO_FFS_RAM_2_FLASH_START *)(p_send_message))->session_id, ((T_AUDIO_VM_RECORD_START*)(p_message)), ((T_MMI_VM_RECORD_REQ *)(p_audio_gbl_var->vm_record.p_l1_send_message))); } /* send the message to the entity */ rvf_send_msg ( p_audio_gbl_var->audio_ffs_addrId, p_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_INIT_FFS */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_INIT_FFS; break; } /* A stop request is sent during a start connection */ /* event error - send an error message, the recorded size is null */ case AUDIO_VM_RECORD_STOP_REQ: { audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); break; } /* case AUDIO_VM_RECORD_STOP_REQ */ } break; } /* case AUDIO_VM_RECORD_IDLE */ case AUDIO_VM_RECORD_WAIT_INIT_FFS: { switch(p_message->msg_id) { case AUDIO_FFS_INIT_DONE: { /* set the channel_id */ ((T_MMI_VM_RECORD_REQ *)p_audio_gbl_var->vm_record.p_l1_send_message)->session_id = ((T_AUDIO_FFS_INIT *)p_message)->channel_id; /* send the start voice memo record message to the L1 */ audio_send_l1_message( MMI_VM_RECORD_START_REQ, p_audio_gbl_var->vm_record.p_l1_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_START_CONFIRMATION */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_START_CON; break; } case AUDIO_VM_RECORD_STOP_REQ: { /*.Before stopping this task, control that */ /* stop task id caller = Voice Memorization task id */ if ( p_audio_gbl_var->vm_record.task_id == p_message->src_addr_id) { /* Deallocate the L1 message previously allocated */ audio_deallocate_l1_message(p_audio_gbl_var->vm_record.p_l1_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_INIT_DONE */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_INIT_DONE; } else { /* A stop request from an other task is sent during a start connection */ /* event error - send an error message, the recorded size is null */ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); } break; } /* case AUDIO_VM_RECORD_STOP_REQ */ case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message, the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } } /* switch */ break; } /* case AUDIO_VM_RECORD_E1_WAIT_INIT_FFS */ case AUDIO_VM_RECORD_WAIT_INIT_DONE: { switch(p_message->msg_id) { case AUDIO_FFS_INIT_DONE: { /* Send FFS stop command */ /* allocate the message buffer */ mb_status = rvf_get_buf (p_audio_gbl_var->mb_internal, sizeof (T_AUDIO_FFS_STOP_REQ), (T_RVF_BUFFER **) (&p_send_message)); /* If insufficient resources, then report a memory error and abort. */ if (mb_status == RVF_RED) { audio_voice_memo_error_trace(AUDIO_ENTITY_NO_MEMORY); } /* fill the header of the message */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->os_hdr.msg_id = AUDIO_FFS_STOP_REQ; /* fill the parameter */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->session_id = AUDIO_FFS_SESSION_VM_RECORD; /* send the message to the entity */ rvf_send_msg (p_audio_gbl_var->audio_ffs_addrId, p_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_STOP_FFS */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_FFS; break; } case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message, the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } case AUDIO_VM_RECORD_STOP_REQ: { /* event error - send an error message, the recorded size is null*/ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); break; } } break; } /* case AUDIO_VM_RECORD_WAIT_INIT_DONE*/ case AUDIO_VM_RECORD_WAIT_START_CON: { switch(p_message->msg_id) { case MMI_VM_RECORD_START_CON: { /* change to the state AUDIO_VM_RECORD_WAIT_STOP_COMMAND */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_COMMAND; break; } case AUDIO_VM_RECORD_STOP_REQ: { /*.Before stopping this task, control that */ /* stop task id caller = voice memo task id */ if ( p_audio_gbl_var->vm_record.task_id == p_message->src_addr_id) { /* change to the state AUDIO_VM_RECORD_WAIT_STOP_CONFIRMATION */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_START_CON_TO_STOP; } else { /* A stop request from an other task is sent during a start connection */ /* event error - send an error message, the recorded size is null */ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); } break; } case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message, the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } } break; } /* case AUDIO_VM_RECORD_WAIT_START_CON */ case AUDIO_VM_RECORD_WAIT_START_CON_TO_STOP: { switch(p_message->msg_id) { case MMI_VM_RECORD_START_CON: { /* send the stop command to the audio L1 */ /* allocate the buffer for the message to the L1 */ p_send_message = audio_allocate_l1_message(0); if ( p_send_message != NULL) { /* send the stop command to the audio L1 */ audio_send_l1_message(MMI_VM_RECORD_STOP_REQ, p_send_message); } /* change to the state AUDIO_VM_RECORD_WAIT_STOP_CON */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_CON; break; } case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } case AUDIO_VM_RECORD_STOP_REQ: { /* event error - send an error message, the recorded size is null*/ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); break; } } break; } /* case AUDIO_VM_RECORD_WAIT_START_CON_TO_STOP */ case AUDIO_VM_RECORD_WAIT_STOP_COMMAND: { switch(p_message->msg_id) { case MMI_VM_RECORD_STOP_CON: { /* Send FFS stop command */ /* allocate the message buffer */ mb_status = rvf_get_buf (p_audio_gbl_var->mb_internal, sizeof (T_AUDIO_FFS_STOP_REQ), (T_RVF_BUFFER **) (&p_send_message)); /* If insufficient resources, then report a memory error and abort. */ if (mb_status == RVF_RED) { audio_voice_memo_error_trace(AUDIO_ENTITY_NO_MEMORY); } /* fill the header of the message */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->os_hdr.msg_id = AUDIO_FFS_STOP_REQ; /* fill the parameter */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->session_id = AUDIO_FFS_SESSION_VM_RECORD; /* fill the recorded size */ p_audio_gbl_var->vm_record.recorded_size = ((T_MMI_VM_RECORD_CON *)p_message)->recorded_size; /* send the message to the entity */ rvf_send_msg (p_audio_gbl_var->audio_ffs_addrId, p_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_STOP_FFS */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_FFS; break; } case AUDIO_VM_RECORD_STOP_REQ: { /*.Before stopping this task, control that stop task id caller = Voice task id */ if ( p_audio_gbl_var->vm_record.task_id == p_message->src_addr_id) { /* send the stop command to the audio L1 */ /* allocate the buffer for the message to the L1 */ p_send_message = audio_allocate_l1_message(0); if (p_send_message != NULL) { /* send the stop command to the audio L1 */ audio_send_l1_message(MMI_VM_RECORD_STOP_REQ, p_send_message); } /* change to the state AUDIO_VM_RECORD_WAIT_STOP_CONFIRMATION */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_CON; } else { /* A stop request from an other task is sent during a start connection */ /* event error - send an error message, the recorded size is null */ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); } break; } case AUDIO_VM_RECORD_START_REQ: { /* A start request from an other task is sent during a start connection */ /* event error - send an error message, the recorded size is null */ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); } } break; } /* case AUDIO_VM_RECORD_WAIT_STOP_COMMAND */ case AUDIO_VM_RECORD_WAIT_STOP_CON: { switch(p_message->msg_id) { case MMI_VM_RECORD_STOP_CON: { /* Send FFS stop command */ /* allocate the message buffer */ mb_status = rvf_get_buf (p_audio_gbl_var->mb_internal, sizeof (T_AUDIO_FFS_STOP_REQ), (T_RVF_BUFFER **) (&p_send_message)); /* If insufficient resources, then report a memory error and abort. */ if (mb_status == RVF_RED) { audio_voice_memo_error_trace(AUDIO_ENTITY_NO_MEMORY); } /* fill the header of the message */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->os_hdr.msg_id = AUDIO_FFS_STOP_REQ; /* fill the parameter */ ((T_AUDIO_FFS_STOP_REQ *)(p_send_message))->session_id = AUDIO_FFS_SESSION_VM_RECORD; /* fill the recorded size */ p_audio_gbl_var->vm_record.recorded_size = ((T_MMI_VM_RECORD_CON *)p_message)->recorded_size; /* send the message to the entity */ rvf_send_msg (p_audio_gbl_var->audio_ffs_addrId, p_send_message); /* change to the state AUDIO_VM_RECORD_WAIT_STOP_FFS */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_WAIT_STOP_FFS; break; } case AUDIO_VM_RECORD_STOP_REQ: { /* event error - send an error message, the recorded size is null*/ audio_vm_record_send_status (AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); break; } case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message, the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } } break; } /* case AUDIO_VM_RECORD_WAIT_STOP_CON */ case AUDIO_VM_RECORD_WAIT_STOP_FFS: { switch(p_message->msg_id) { case AUDIO_FFS_STOP_CON: { audio_vm_record_send_status ( AUDIO_OK, p_audio_gbl_var->vm_record.recorded_size, p_audio_gbl_var->vm_record.return_path); /* change to the state AUDIO_VM_RECORD_IDLE */ p_audio_gbl_var->vm_record.state = AUDIO_VM_RECORD_IDLE; break; } case AUDIO_VM_RECORD_STOP_REQ: { /* event error - send an error message, the recorded size is null*/ audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_STOP *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_STOP_EVENT); break; } case AUDIO_VM_RECORD_START_REQ: { /* event error - send an error message, the recorded size is null*/ /* Close the FFS file previously open by the audio start API*/ #ifndef _WINDOWS if ( ffs_close(((T_AUDIO_VM_RECORD_START *)(p_message))->audio_ffs_fd) != EFFS_OK ) { audio_voice_memo_error_trace(AUDIO_ENTITY_FILE_NO_CLOSE); } #endif audio_vm_record_send_status ( AUDIO_ERROR, 0, ((T_AUDIO_VM_RECORD_START *)(p_message))->return_path); audio_voice_memo_error_trace(AUDIO_ERROR_START_EVENT); break; } } break; } /* case AUDIO_VM_RECORD_WAIT_STOP_CON */ } /* switch(p_audio_gbl_var->vm_record.state) */ } /*********************** End of audio_vm_record_manager function **********************/ #endif /* VM_RECORD */ #endif /* RVM_AUDIO_MAIN_SWE */