ft_fnc_fm.c
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2005
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*******************************************************************************
* Modification Notice:
* --------------------------
* This software is modified by MediaTek Inc. and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2001
*
*******************************************************************************/
/*******************************************************************************
* Filename:
* ---------
* ft_fnc_fm.c
*
* Project:
* --------
* MAUI
*
* Description:
* ------------
* FM Radio functions
*
* Author:
* -------
* -------
*
*==============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
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* Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*==============================================================================
*******************************************************************************/
/*************************************************************************
* Include Statements for KAL
*************************************************************************/
#include "stack_common.h"
#include "stack_msgs.h"
#include "app_ltlcom.h"
/*************************************************************************
* Include Statements for MAUI
*************************************************************************/
#include "ft_msg.h"
#include "fctycomp_config.h"
#include "l1audio.h"
#include "ft_private.h"
#include "meta_customize.h"
#include "stack_config.h"
#include "fmr\fmr_rds_api.h"
#include "string.h"
#include "kal_general_types.h"
#include "kal_public_api.h"
#include "ft_fnc_fm.h"
extern kal_uint16 ft_gl_token;
extern kal_uint16 ft_gl_fm_token;
static kal_uint16 ft_fm_seek_scan_token;
static kal_bool ft_fm_seek_scan_preset;
extern void FMGetScanTbl(uint16 *CH_TBL);
/*******************************************************************************
*
* FM Radio functionality
*
*******************************************************************************/
kal_uint8 FT_Fm_SendCnf(const FT_FM_CNF *cnf, peer_buff_struct *p_peer_buff)
{
ilm_struct *ilm_ptr;
FT_FM_CNF *ptrCnfMsg;
if( NULL == (ilm_ptr=FT_ALLOC_MSG(sizeof(FT_FM_CNF))) ) {
return 1;
}
// if ptrMsg != NULL
ptrCnfMsg = (FT_FM_CNF *)ilm_ptr->local_para_ptr;
// assign primitive id
ptrCnfMsg->header.ft_msg_id = FT_FM_CNF_ID;
// assign return structure
ptrCnfMsg->type = cnf->type;
ptrCnfMsg->result = cnf->result;
ptrCnfMsg->status = cnf->status;
// assign peer buffer
if( NULL != p_peer_buff ) {
ilm_ptr->peer_buff_ptr = p_peer_buff;
}
// FT_SEND_MSG(src_mod, dest_mod, sap_id, msg_id, ilm_ptr)
FT_SEND_MSG(MOD_FT, MOD_TST, FT_TST_SAP, MSG_ID_FT_TO_TST, ilm_ptr);
return 0;
}
void FT_FM_SearchStation(FT_FM_REQ *req, FT_FM_CNF *cnf, kal_uint8 dir)
{
kal_int16 CurFreq = req->cmd.m_rFreqRange.m_i2StartFreq;
kal_int16 StopFreq = req->cmd.m_rFreqRange.m_i2StopFreq;
kal_uint8 FindFlag = 0;
if(dir ==1) // find next station
{
if(CurFreq <= StopFreq) // stop freq should >= start freq
{
while(CurFreq <= StopFreq)
{
if(FMR_ValidStop(CurFreq, 5, KAL_FALSE)==1)
{
FindFlag = 1;
break;
}
CurFreq++;
}
if(FindFlag ==1)
{
cnf->result.m_rValidFreq.m_ucExit = 1;
cnf->result.m_rValidFreq.m_i2ValidFreq = CurFreq;
}
else
{
cnf->result.m_rValidFreq.m_ucExit = 0;
cnf->result.m_rValidFreq.m_i2ValidFreq = 0;
}
cnf->status = FT_CNF_OK;
}
else{
cnf->result.m_rValidFreq.m_ucExit = 0;
cnf->result.m_rValidFreq.m_i2ValidFreq = -1;
cnf->status = FT_CNF_FAIL;
}
}
else if(dir ==2) // find prev station
{
if(CurFreq >= StopFreq) // start freq should >= stop freq
{
while(CurFreq >= StopFreq)
{
if(FMR_ValidStop(CurFreq, 5, KAL_FALSE)==1)
{
FindFlag = 1;
break;
}
CurFreq--;
}
if(FindFlag ==1)
{
cnf->result.m_rValidFreq.m_ucExit = 1;
cnf->result.m_rValidFreq.m_i2ValidFreq = CurFreq;
}
else
{
cnf->result.m_rValidFreq.m_ucExit = 0;
cnf->result.m_rValidFreq.m_i2ValidFreq = 0;
}
cnf->status = FT_CNF_OK;
}
else{
cnf->result.m_rValidFreq.m_ucExit = 0;
cnf->result.m_rValidFreq.m_i2ValidFreq = -1;
cnf->status = FT_CNF_FAIL;
}
}
else
{
cnf->status = FT_CNF_FAIL;
}
}
/*****************************************************************************
* FUNCTION
* ft_fmr_rds_callback
* DESCRIPTION
*
* For FMR RDS Event callback handling
*
* PARAMETERS
* void
* RETURNS
* void
*****************************************************************************/
void ft_fmr_rds_callback(RdsEvent event)
{
FT_FM_CNF cnf;
peer_buff_struct *peer_buff_ret = NULL;
FM_RDS_CNF_T *rds_cnf;
kal_uint16 pdu_length = 0;
kal_uint8 rds_buf_size;
// assign primitive id
cnf.header.ft_msg_id = FT_FM_CNF_ID;
// assign return structure
cnf.type = FT_FM_OP_SET_RDS;
cnf.status = FT_CNF_OK;
// copy result to peer buffer
if( NULL == (peer_buff_ret=construct_peer_buff(sizeof(FM_RDS_CNF_T), 0, 0, TD_CTRL)) )
{
ASSERT(0);
}
rds_cnf = (FM_RDS_CNF_T*) get_pdu_ptr( peer_buff_ret, &pdu_length );
memset(rds_cnf, 0x0, sizeof(FM_RDS_CNF_T));
switch(event)
{
case RDS_EVENT_FLAGS:
rds_cnf->eventtype = RDS_EVENT_FLAGS;
Custom_META_FMR_RDS_GetStatus(&rds_cnf->m_rRDS.m_rRDSStatus.m_eFlag, rds_cnf->m_rRDS.m_rRDSStatus.m_buffer);
break;
case RDS_EVENT_PI_CODE:
rds_cnf->eventtype = RDS_EVENT_PI_CODE;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_PI_CODE, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_PTY_CODE:
rds_cnf->eventtype = RDS_EVENT_PTY_CODE;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_PTY_CODE, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_PROGRAMNAME:
rds_cnf->eventtype = RDS_EVENT_PROGRAMNAME;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_PROGRAMNAME, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_UTCDATETIME:
rds_cnf->eventtype = RDS_EVENT_UTCDATETIME;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_UTCDATETIME, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_LOCDATETIME:
rds_cnf->eventtype = RDS_EVENT_LOCDATETIME;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_LOCDATETIME, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_LAST_RADIOTEXT:
rds_cnf->eventtype = RDS_EVENT_LAST_RADIOTEXT;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_LAST_RADIOTEXT, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_AF:
rds_cnf->eventtype = RDS_EVENT_AF;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_AF, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_AF_LIST:
rds_cnf->eventtype = RDS_EVENT_AF_LIST;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_AF_LIST, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_AFON_LIST:
rds_cnf->eventtype = RDS_EVENT_AFON_LIST;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_AFON, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_TAON:
rds_cnf->eventtype = RDS_EVENT_TAON;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_TAON, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_TAON_OFF:
rds_cnf->eventtype = RDS_EVENT_TAON_OFF;
Custom_META_FMR_RDS_GetInfo(RDS_CMD_TAON_OFF, rds_cnf->m_rRDS.m_rRDSInfo.m_buffer, &rds_buf_size);
break;
case RDS_EVENT_RDS_TIMER:
Custom_META_FMR_RDS_BlerCheck(NULL);
free_peer_buff(peer_buff_ret);
return;
default:
free_peer_buff(peer_buff_ret);
return;
}
Custom_META_FMR_RDS_INTR_OnOff(KAL_TRUE);
ft_gl_token = ft_gl_fm_token;
FT_Fm_SendCnf(&cnf,peer_buff_ret);
}
/*****************************************************************************
* FUNCTION
* FT_FMR_Seek_Scan_Callback
* DESCRIPTION
*
* For FMR Seek and Scan callback handling
*
* PARAMETERS
* wFreq Frequency
* wSignalLv Signal Level
* is_valid is the result valid
* RETURNS
* void
*****************************************************************************/
static void FT_FMR_Seek_Scan_Callback(kal_int16 wFreq, kal_uint8 wSignalLv, kal_bool is_valid)
{
FT_FM_CNF cnf;
peer_buff_struct *peer_buff_ret = NULL;
FM_AutoScan_CNF_T *autoscan_cnf;
kal_uint16 pdu_length = 0;
kal_mem_set(&cnf, '\0', sizeof(cnf));
if(is_valid == true)
{
// the seek operation failed!
cnf.status = FT_CNF_OK;
}
else
{
// the seek operation failed!
cnf.status = FT_CNF_FAIL;
}
if(ft_fm_seek_scan_preset == true)
{
// scan
cnf.type = FT_FM_OP_FM_AUTOSCAN;
// copy result to peer buffer
if( NULL == (peer_buff_ret=construct_peer_buff(sizeof(FM_AutoScan_CNF_T), 0, 0, TD_CTRL)) )
{
ASSERT(0);
}
autoscan_cnf = (FM_AutoScan_CNF_T*) get_pdu_ptr( peer_buff_ret, &pdu_length );
FMR_GetScanTbl(autoscan_cnf->m_u2Bitmap);
}
else
{
// seek
cnf.type = FT_FM_OP_HWSEEK;
cnf.result.m_rHWSeek.m_i2EndFreq = wFreq;
}
// send the cnf
ft_gl_token = ft_fm_seek_scan_token;
FT_Fm_SendCnf(&cnf,peer_buff_ret);
}
void FT_Fm_Operation(ilm_struct *ptrMsg)
{
FT_FM_REQ *p_req = (FT_FM_REQ *)ptrMsg->local_para_ptr;
FT_FM_CNF cnf;
FM_RDS_Group_Counter_CNF_T *rds_group_counter_cnf;
FM_RDS_Block_CNF_T *rds_log_cnf;
kal_uint16 pdu_length = 0;
peer_buff_struct *peer_buff_ret = NULL;
kal_mem_set(&cnf, '\0', sizeof(cnf));
cnf.type = p_req->type;
cnf.status = FT_CNF_FAIL;
// for MT6616
peer_buff_ret = NULL;
switch(p_req->type)
{
case FT_FM_OP_READ_CHIP_ID:
{
cnf.result.m_rChipId.m_ucChipId = FMR_GetChipID();
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_POWER_ON:
{
FMR_PowerOn();
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_POWER_OFF:
{
FMR_PowerOff();
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SET_MONO_STEREO_BLEND:
{
FMR_Radio_EngineerMode(p_req->cmd.m_rMonoStereoSettings.m_u2MonoOrStereo,
p_req->cmd.m_rMonoStereoSettings.m_u2SblendOnOrOff,
p_req->cmd.m_rMonoStereoSettings.m_u4ItemValue);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SET_FREQ:
{
FMR_SetFreq(p_req->cmd.m_rCurFreq.m_i2CurFreq);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_GET_SIGNAL_VAL:
{
cnf.result.m_rSignalValue.m_ucSignalLevel = FMR_GetSignalLevel(p_req->cmd.m_rCurFreq.m_i2CurFreq);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_GET_IF_CNT:
{
cnf.result.m_rIfCnt.m_u2IfCnt = FMR_GetIFCount(p_req->cmd.m_rCurFreq.m_i2CurFreq);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SEARCH_NEXT_STAT:
{
FT_FM_SearchStation(p_req,&cnf,1);
break;
}
case FT_FM_OP_SEARCH_PREV_STAT:
{
FT_FM_SearchStation(p_req,&cnf,2);
break;
}
case FT_FM_OP_SET_RSSI_THRESHOLD:
{
FMR_Radio_EngineerMode(2, 0, p_req->cmd.m_rRssiThreshold.m_u4RssiThreshold);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SET_IF_CNT_DELTA:
{
FMR_Radio_EngineerMode(3, 0, p_req->cmd.m_rIfCntDelta.m_u4IfCntDelta);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_READ_ANY_BYTE:
{
cnf.result.m_rReadByte.m_u2ReadByte = FMR_ReadByte(p_req->cmd.m_rReadAddr.m_ucAddr);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_WRITE_ANY_BYTE:
{
FMR_WriteByte(p_req->cmd.m_rWriteByte.m_ucAddr, p_req->cmd.m_rWriteByte.m_u2WriteByte);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SOFT_MUTE_ONOFF:
{
FMR_SoftMuteOnOff(p_req->cmd.m_rSoftMuteOnOff.m_bOnOff);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SELECT_SOFT_MUTE_STAGE:
{
FMR_SoftMuteStage(p_req->cmd.m_rStage.m_ucStage);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_SELECT_STEREO_BLEND:
{
FMR_StereoBlendStage(p_req->cmd.m_rStage.m_ucStage);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_GET_H_L_SIDE:
{
cnf.result.m_rHLSide.m_ucHighOrLow = FMR_Get_H_L_side(p_req->cmd.m_rCurFreq.m_i2CurFreq);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_GET_STEREO_MONO:
{
cnf.result.m_rStereoMono.m_ucStereoOrMono = FMR_Get_stereo_mono();
cnf.status = FT_CNF_OK;
break;
}
// for MT6616 new API begin
case FT_FM_OP_SET_VOLUME:
FMR_SetOutputVolume(p_req->cmd.m_rVolumeSetting.m_ucVolume, p_req->cmd.m_rVolumeSetting.m_cDigitalGainIndex);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_FM_AUTOSCAN:
ft_fm_seek_scan_token = ft_gl_token;
ft_fm_seek_scan_preset = true;
// the scan will be indicated in fmr task's context using callback function
FMR_HWSearch( FT_FMR_Seek_Scan_Callback, 875/*cur_freq*/, KAL_TRUE/* is_up */, 1/*space*/, KAL_TRUE/*preset*/);
// 20100110
FMR_PollHWSearch(NULL);
return;
case FT_FM_OP_HWSEEK:
ft_fm_seek_scan_token = ft_gl_token;
ft_fm_seek_scan_preset = false;
if(p_req->cmd.m_rHWSeek.m_ucDirection == 1)
{
FMR_HWSearch( FT_FMR_Seek_Scan_Callback, p_req->cmd.m_rHWSeek.m_i2StartFreq/*cur_freq*/, KAL_TRUE/* is_up */, 1/*space*/, KAL_FALSE/*preset*/);
}
else
{
FMR_HWSearch( FT_FMR_Seek_Scan_Callback, p_req->cmd.m_rHWSeek.m_i2StartFreq/*cur_freq*/, KAL_FALSE/* is_up */, 1/*space*/, KAL_FALSE/*preset*/);
}
// 20100110
FMR_PollHWSearch(NULL);
return;
case FT_FM_OP_GET_RXFILTER_BW:
cnf.result.m_rRXFilterBW.m_ucRXFilterBW = FMR_GetRXFilterBW();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_PAMD_LEVEL:
cnf.result.m_rPAMDLevel.m_ucPAMDLevel = FMR_PamdLevel(p_req->cmd.m_rCurFreq.m_i2CurFreq);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_MR:
cnf.result.m_rMR.m_ucMR = FMR_GetMagRatio();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_DECODE_MODE:
FMR_Radio_EngineerMode(0, p_req->cmd.m_rDecodeMode.m_u4DecodeMode, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_HCC:
FMR_Radio_EngineerMode(3, p_req->cmd.m_rHCC.m_u4HCC, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_PAMD_THRESHOLD:
FMR_Radio_EngineerMode(4, 0/*don't care*/, p_req->cmd.m_rPAMDThreshold.m_u4PAMDThreshold);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_SOFTMUTE:
FMR_Radio_EngineerMode(5, p_req->cmd.m_rSoftmuteEnable.m_u4SoftmuteEnable, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_DEEMPHASIS_LEVEL:
FMR_Radio_EngineerMode(6, p_req->cmd.m_rDeemphasisLevel.m_u4DeemphasisLevel, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_H_L_SIDE:
FMR_Radio_EngineerMode(7, p_req->cmd.m_rHLSide.m_u4HLSide, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_DEMOD_BW:
FMR_Radio_EngineerMode(8, p_req->cmd.m_rDemodeBandwidth.m_u4DemodBandwidth, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_DYNAMIC_LIMITER:
FMR_Radio_EngineerMode(9, p_req->cmd.m_rDynamicLimiter.m_u4DynamicLimiter, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_SOFTMUTE_RATE:
FMR_Radio_EngineerMode(10, 0/* don't care*/, p_req->cmd.m_rSoftmuteRate.m_u4SoftmuteRate);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_HWSEARCH_STOP:
FMR_HWSearchForceStop();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_STEREO_BLEND:
FMR_Radio_EngineerMode(1, p_req->cmd.m_rStereoBlendControl.m_u2StereoBlendControl, 0/* don't care*/);
cnf.status = FT_CNF_OK;
break;
// for MT6616 new API end
// RDS use custom function
case FT_FM_OP_SET_RDS:
ft_gl_fm_token = ft_gl_token;
Custom_META_FMR_RDS_OnOff(p_req->cmd.m_rSetRDS.m_ucRDSOn == 1? true : false);
if(p_req->cmd.m_rSetRDS.m_ucRDSOn == 1)
{
Custom_META_FMR_RDS_Open(ft_fmr_rds_callback);
}
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_GOOD_BLOCK_COUNTER:
cnf.result.m_rRDSGoodBlockCounter.m_u2GoodBlock = Custom_META_FMR_RDS_Get_GoodBlock_Counter();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_BAD_BLOCK_COUNTER:
cnf.result.m_rRDSBadBlockCounter.m_u2BadBlock = Custom_META_FMR_RDS_Get_BadBlock_Counter();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_RESET_BLOCK_COUNTER:
Custom_META_FMR_RDS_Reset_Block_Counter();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_GROUP_COUNTER:
// copy result to peer buffer
if( NULL == (peer_buff_ret=construct_peer_buff(sizeof(FM_RDS_Group_Counter_CNF_T), 0, 0, TD_CTRL)) )
{
ASSERT(0);
}
rds_group_counter_cnf =(FM_RDS_Group_Counter_CNF_T*)get_pdu_ptr( peer_buff_ret, &pdu_length );
Custom_META_FMR_RDS_Read_Group_Counter(rds_group_counter_cnf->m_u2GroupCounter);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_RESET_GROUP_COUNTER:
Custom_META_FMR_RDS_Reset_Group_Counter();
cnf.status = FT_CNF_OK;
break;
// 20100208 new feature (sync FM stand-alone tool)
case FT_FM_OP_GET_RDS_LOG:
{
kal_uint16 block_value[8];
// copy result to peer buffer
if( NULL == (peer_buff_ret=construct_peer_buff(sizeof(FM_RDS_Block_CNF_T), 0, 0, TD_CTRL)) )
{
ASSERT(0);
}
rds_log_cnf =(FM_RDS_Block_CNF_T*)get_pdu_ptr( peer_buff_ret, &pdu_length );
Custom_META_FMR_RDS_Get_Block_Value(block_value);
kal_mem_cpy(rds_log_cnf->m_u2Blocks, block_value, sizeof(kal_uint16)*5);
cnf.status = FT_CNF_OK;
break;
}
case FT_FM_OP_GET_RDS_BLER:
cnf.result.m_u2RDSBLERRatio = Custom_META_FMR_RDS_Get_BadBlock_Ratio();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_GET_ANTENNA_TYPE:
cnf.result.m_i1AntennaType = FMR_GetAntennaType();
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_SET_ANTENNA_TYPE:
FMR_SetAntennaType(p_req->cmd.m_i1AntennaType);
cnf.status = FT_CNF_OK;
break;
case FT_FM_OP_QUERY_CAP_ARRAY:
cnf.result.m_u4CapArray = FMR_GetCapArray();
cnf.status = FT_CNF_OK;
break;
default:
break;
}
// send the cnf
FT_Fm_SendCnf(&cnf,peer_buff_ret);
}