VOS_UINT32 At_SetLWThresholdCfgPara(VOS_UINT8 ucIndex)
{
VOS_UINT32 ulRet = ERR_MSP_SUCCESS;
L4A_LW_THREASHOLD_CFG_REQ_STRU stReq = {0};
LPS_SWITCH_PARA_STRU stDrxControlFlag = {0};
stReq.stCtrl.ulClientId = gastAtClientTab[ucIndex].usClientId;
stReq.stCtrl.ulOpId = 0;
stReq.stCtrl.ulPid = WUEPS_PID_AT;
stReq.ulFlag = gastAtParaList[0].ulParaValue;
if(NV_OK != NVM_Read(EN_NV_ID_SWITCH_PARA, &stDrxControlFlag,sizeof(LPS_SWITCH_PARA_STRU)))
{
return AT_ERROR;
}
if( 0 == ((*((VOS_UINT32 * )(&(stDrxControlFlag.stPsFunFlag01)))) & LPS_NV_JP_DCOM_REL_OFFSET_BIT))
{
return AT_OK;
}
/*L模调用如下接口转发*/
ulRet = atSendDataMsg(MSP_L4_L4A_PID, ID_MSG_L4A_LW_THRESHOLD_REQ, (VOS_VOID*)(&stReq), sizeof(L4A_LW_THREASHOLD_CFG_REQ_STRU));
if(ERR_MSP_SUCCESS == ulRet)
{
return AT_OK;
}
return AT_ERROR;
VOS_UINT32 AT_SetLFastDormPara(VOS_UINT8 ucIndex)
{
VOS_UINT32 ulRet = ERR_MSP_SUCCESS;
L4A_SET_FAST_DORM_REQ_STRU stReq = {0};
LPS_SWITCH_PARA_STRU stDrxControlFlag = {0};
/* 参数检查在AT入口已做
*/
stReq.stCtrl.ulClientId = gastAtClientTab[ucIndex].usClientId;
stReq.stCtrl.ulOpId = 0;
stReq.stCtrl.ulPid = WUEPS_PID_AT;
stReq.ulFlag = gastAtParaList[0].ulParaValue;
stReq.ulTimerLen = gastAtParaList[1].ulParaValue;
if(NV_OK != NVM_Read(EN_NV_ID_SWITCH_PARA, &stDrxControlFlag,sizeof(LPS_SWITCH_PARA_STRU)))
{
return AT_ERROR;
}
if( 0 == ((*((VOS_UINT32 * )(&(stDrxControlFlag.stPsFunFlag01)))) & LPS_NV_JP_DCOM_FAST_DORM_BIT))
{
return AT_OK;
}
/*L模调用如下接口转发*/
ulRet = atSendDataMsg(MSP_L4_L4A_PID, ID_MSG_L4A_FAST_DORM_REQ, (VOS_VOID*)(&stReq), sizeof(L4A_SET_FAST_DORM_REQ_STRU));
if(ERR_MSP_SUCCESS == ulRet)
{
return AT_OK;
}
VOS_UINT32 At_SetLFromConnToIdlePara(VOS_UINT8 ucIndex)
{
VOS_UINT32 ulRet = ERR_MSP_SUCCESS;
L4A_SET_LTE_TO_IDLE_REQ_STRU stReq = {0};
LPS_SWITCH_PARA_STRU stDrxControlFlag = {0};
stReq.stCtrl.ulClientId = gastAtClientTab[ucIndex].usClientId;
stReq.stCtrl.ulOpId = 0;
stReq.stCtrl.ulPid = WUEPS_PID_AT;
/* 参数检查 */
if(AT_CMD_OPT_SET_CMD_NO_PARA != g_stATParseCmd.ucCmdOptType)
{
return AT_CME_INCORRECT_PARAMETERS;
}
if(NV_OK != NVM_Read(EN_NV_ID_SWITCH_PARA, &stDrxControlFlag,sizeof(LPS_SWITCH_PARA_STRU)))
{
return AT_ERROR;
}
if( 0 == ((*((VOS_UINT32 * )(&(stDrxControlFlag.stPsFunFlag01)))) & LPS_NV_JP_DCOM_CON_TO_IDLE_BIT))
{
return AT_OK;
}
/*L模调用如下接口转发*/
ulRet = atSendDataMsg(MSP_L4_L4A_PID, ID_MSG_L4A_LTE_TO_IDLE_REQ, (VOS_VOID*)(&stReq), sizeof(L4A_SET_LTE_TO_IDLE_REQ_STRU));
if(ERR_MSP_SUCCESS == ulRet)
{
return AT_OK;
}
return AT_ERROR;
void bsp_usb_nv_init(void)
{
/* init the default value */
bsp_usb_nv_default_init();
/*
* read needed usb nv items from nv
* ignore the nv_read return value,
* if fail, use the default value
*/
if (NVM_Read(USB_WIN7_FEATURE_NV,
&g_usb_nv.win7_feature, sizeof(g_usb_nv.win7_feature))) {
g_usb_nv.stat_nv_read_fail++;
}
if (NVM_Read(USB_ITEM_AT_SHELL_OPEN_FLAG,
&g_usb_nv.shell_lock, sizeof(g_usb_nv.shell_lock))) {
g_usb_nv.stat_nv_read_fail++;
}
}
VOS_UINT32 At_GetNvRevertState(VOS_VOID)
{
VOS_UINT32 ret = (VOS_UINT32)-1;
VOS_UINT16 resume_flag = 0;
ret = NVM_Read(NV_ID_DRV_RESUME_FLAG,&resume_flag,sizeof(VOS_UINT16)); /*to do*/
if(ret)
{
return ret;
}
if(0 != resume_flag)
{
return ((VOS_UINT32)-1);
}
return 0;
}
VOS_UINT32 At_GetNvAuthorityVer(VOS_UINT32 * pdata)
{
VOS_UINT32 ulRst;
if(pdata == NULL)
{
return ((VOS_UINT32)-1);
}
ulRst = NVM_Read(NV_ID_MSP_AUTHORITY_VER, pdata, sizeof(VOS_UINT32));
if(ulRst != 0)
{
*pdata = 0;
}
return 0;
}
VOS_UINT32 At_GetNvAuthorityType(VOS_UINT32 * pdata)
{
VOS_UINT32 ulRst;
VOS_UINT8 *pucData = NULL;
if(pdata==NULL)
{
return 0;
}
pucData = (VOS_UINT8 *)pdata;
ulRst = NVM_Read(NV_ID_MSP_AUTHORITY_TYPE, pdata, sizeof(VOS_UINT32));
if(ulRst != 0)
{
pucData[0] = 1;
pucData[1] = 0;
pucData[2] = 0;
pucData[3] = 0;
return ulRst;
}
return 0;
}
VOS_UINT32 At_GetImei(VOS_CHAR szimei [ 16 ])
{
VOS_UINT32 ret;
VOS_UINT32 uslen = 0;
VOS_UINT32 subscript = 0;
VOS_CHAR checkdata = 0;
VOS_CHAR auctemp[AT_NV_IMEI_LEN+1] = {0};
uslen = AT_NV_IMEI_LEN+1;
ret = NVM_Read(0, auctemp, uslen);
if(ret != 0)
{
return ret;
}
else
{
for (subscript = 0; subscript < (AT_NV_IMEI_LEN - 1); subscript += 2)
{
checkdata += (VOS_CHAR)(((auctemp[subscript])
+((auctemp[subscript + 1] * 2) / 10))
+((auctemp[subscript + 1] * 2) % 10));
}
checkdata = (10 - (checkdata%10)) % 10;
for (subscript = 0; subscript < uslen; subscript++)
{
*(szimei + subscript) = *(auctemp + subscript) + 0x30; /*字符转换*/
}
szimei[AT_NV_IMEI_LEN - 1] = checkdata + 0x30;
szimei[AT_NV_IMEI_LEN] = 0;
}
return 0;
}
/*****************************************************************************
函 数 名 : at_ftm_get_freq
功能描述 : 通过某频点获得其对应的实际频率值(LTE单位100KHz, TDS单位为200Khz)
输入参数 : emMode 模式 (LTE TDS)
usChan 频点
输出参数 : 无
返 回 值 : 频率值, 返回0代表未找到对应的频点
*****************************************************************************/
VOS_UINT16 at_ftm_get_freq(FCHAN_MODE_ENUM emMode, VOS_UINT16 usChan)
{
VOS_UINT16 usFreq = 0;
VOS_UINT16 i = 0;
VOS_UINT16 usTblSize = 0;
VOS_UINT32 ulNvId =0,ulRet =0;
LTE_COMM_NON_STANDARD_BAND_COMM_STRU stLpsNonstandBand = {0};
/* TDS */
if(EN_FCHAN_MODE_TD_SCDMA == emMode)
{
HAL_SDMLOG(" TDS, get freq = %d!\n",usChan);
return usChan;
}
/* LTE */
usTblSize = sizeof(g_stBandInfo)/sizeof(FTM_BAND_INFO_STRU);
for(i=1; i<usTblSize; i++)
{
/* 判断该频点是否为某频段下行频点,如果为下行频点则计算该频点的频率 */
if((usChan>=g_stBandInfo[i].usDlLowChan)
&& (usChan<=g_stBandInfo[i].usDlHigChan))
{
usFreq = g_stBandInfo[i].usDlLowFreq + usChan - g_stBandInfo[i].usDlLowChan;
return usFreq;
}
/* 判断该频点是否为某频段的上行频点,如果为上行频点则计算该频点的频率 */
if((usChan>=g_stBandInfo[i].usUlLowChan)
&& (usChan<=g_stBandInfo[i].usUlHigChan))
{
usFreq = g_stBandInfo[i].usUlLowFreq + usChan - g_stBandInfo[i].usUlLowChan;
return usFreq;
}
}
/* 搜索非标频段, 搜索到则将非标频点转换为频率 */
for(i=0; i<(LTE_COMM_NONSTANDARD_BAND_END-LTE_COMM_NONSTANDARD_BAND_BEGIN); i++)
{
ulNvId = i + EN_NV_ID_BANDNon1_BAND_INFO ;
ulRet = NVM_Read(ulNvId, (VOS_VOID*) &stLpsNonstandBand, sizeof(LTE_COMM_NON_STANDARD_BAND_COMM_STRU));
if(ERR_MSP_SUCCESS != ulRet)
{
HAL_SDMLOG("read non stand band nv fail,ulNvId =%d!\n",ulNvId);
return 0;
}
if((usChan >= stLpsNonstandBand.stDlFreqInfo.usRangOfNLow) &&
(usChan <= stLpsNonstandBand.stDlFreqInfo.usRangOfNHigh))
{
usFreq = (VOS_UINT16)(stLpsNonstandBand.stDlFreqInfo.usFLow+usChan-stLpsNonstandBand.stDlFreqInfo.usRangOfNLow);
HAL_SDMLOG("stDlFreqInfo:usGetReq = %d!\n", usFreq);
return usFreq;
}
if((usChan >= stLpsNonstandBand.stUlFreqInfo.usRangOfNLow) &&
(usChan <= stLpsNonstandBand.stUlFreqInfo.usRangOfNHigh))
{
usFreq = (VOS_UINT16)(stLpsNonstandBand.stUlFreqInfo.usFLow+usChan-stLpsNonstandBand.stUlFreqInfo.usRangOfNLow);
HAL_SDMLOG("stUlFreqInfo:usGetReq = %d!\n", usFreq);
return usFreq;
}
}
return 0;
}
VOS_UINT32 atSetNVRDExPara(VOS_UINT8 ucClientId)
{
VOS_UINT32 ulRet = ERR_MSP_FAILURE;
VOS_UINT16 usNVID = 0;
VOS_UINT32 ulNVLen = 0;
VOS_UINT16 usOffset = 0;
VOS_UINT16 usRdLen = 0;
VOS_UINT8 * pu8Data = NULL;
VOS_UINT32 i = 0;
/*PCLINT*/
if(ucClientId == 0)
{
}
if(AT_CMD_OPT_SET_PARA_CMD != g_stATParseCmd.ucCmdOptType)
{
g_ulNVRDTL = 1;
return AT_CME_INCORRECT_PARAMETERS;
}
if(3 != gucAtParaIndex)
{
g_ulNVRDTL = 2;
return AT_CME_INCORRECT_PARAMETERS;
}
if(0 == gastAtParaList[0].usParaLen || 0 == gastAtParaList[1].usParaLen || 0 == gastAtParaList[2].usParaLen)
{
g_ulNVRDTL = 3;
return AT_CME_INCORRECT_PARAMETERS;
}
usNVID = (VOS_UINT16)gastAtParaList[0].ulParaValue;
usOffset = (VOS_UINT16)gastAtParaList[1].ulParaValue;
usRdLen = (VOS_UINT16)gastAtParaList[2].ulParaValue;
ulRet = NV_GetLength(usNVID, (BSP_U32 *)&ulNVLen);
//vos_printf("\n usNVID=0x%x ulNVLen =0x%x\n",usNVID,ulNVLen);
//vos_printf("\n nvim_GetItemLenById ulRet=0x%x \n",ulRet);
// HAL_DIAG_SDM_FUN(EN_SDM_NVRD_GETNVLEN, ulRet, usNVID, ulNVLen);
if(ERR_MSP_SUCCESS != ulRet)
{
g_ulNVRDTL = 4;
return AT_ERROR;
}
if(usOffset > ulNVLen - 1 || usOffset + usRdLen > ulNVLen)
{
g_ulNVRDTL = 5;
return AT_ERROR;
}
/* ulNVLen = (ulNVLen > 128)?128:ulNVLen;*/
pu8Data = VOS_MemAlloc(WUEPS_PID_AT, (DYNAMIC_MEM_PT), ulNVLen);
if(NULL == pu8Data)
{
g_ulNVRDTL = 6;
return AT_ERROR;
}
ulRet = NVM_Read((VOS_UINT32)usNVID, (VOS_VOID*)pu8Data, ulNVLen);
//vos_printf("NVM_Read ulRet = 0x%x",ulRet);
//HAL_DIAG_SDM_FUN(EN_SDM_NVRD_READNVITEM, ulRet, usNVID, ulNVLen);
if(ERR_MSP_SUCCESS != ulRet)
{
VOS_MemFree(WUEPS_PID_AT, pu8Data);
g_ulNVRDTL = 7;
return AT_ERROR;
}
gstAtSendData.usBufLen = 0;
gstAtSendData.usBufLen = (VOS_UINT16)At_sprintf(AT_CMD_MAX_LEN, (VOS_CHAR*)pgucAtSndCodeAddr,(VOS_CHAR*)pgucAtSndCodeAddr,
"^NVRDEX: %d,%d,%d,", usNVID, usOffset, usRdLen);
for(i = usOffset; i < usOffset + usRdLen; i++)
{
if(usOffset == i)
{
gstAtSendData.usBufLen += (VOS_UINT16)At_sprintf(AT_CMD_MAX_LEN,
(VOS_CHAR *)pgucAtSndCodeAddr,(VOS_CHAR*)pgucAtSndCodeAddr + gstAtSendData.usBufLen,"%02X", pu8Data[i]);
}
else
{
gstAtSendData.usBufLen += (VOS_UINT16)At_sprintf(AT_CMD_MAX_LEN,
(VOS_CHAR *)pgucAtSndCodeAddr,(VOS_CHAR*)pgucAtSndCodeAddr + gstAtSendData.usBufLen," %02X", pu8Data[i]);
}
}
VOS_MemFree(WUEPS_PID_AT, pu8Data);
g_ulNVRDTL = 8;
return AT_OK;
}
VOS_VOID TAF_MMA_ReadNvimUeSupporttedLteBand(VOS_VOID)
{
TAF_USER_SET_PREF_BAND64 *pstUeSupportLteBand = VOS_NULL_PTR;
VOS_UINT32 ulRslt;
LRRC_NV_UE_EUTRA_CAP_STRU *pstUECapability = VOS_NULL_PTR;
RRC_UE_CAP_RF_PARA_STRU *pstRfPara = VOS_NULL_PTR;
VOS_UINT32 i;
VOS_UINT8 ucBandNo;
pstUeSupportLteBand = MN_MMA_GetUeSupportLteBandAddr();
PS_MEM_SET(pstUeSupportLteBand, 0X0, sizeof(TAF_USER_SET_PREF_BAND64));
pstUECapability =(LRRC_NV_UE_EUTRA_CAP_STRU*)PS_MEM_ALLOC(WUEPS_PID_MMA,
sizeof(LRRC_NV_UE_EUTRA_CAP_STRU));
if(VOS_NULL_PTR == pstUECapability)
{
MN_ERR_LOG("TAF_MMA_ReadNvimUeSupporttedLteBand():PS_MEM_ALLOC failed!");
return ;
}
PS_MEM_SET(pstUECapability, 0x00, sizeof(LRRC_NV_UE_EUTRA_CAP_STRU));
/* LTE NV项长度 */
ulRslt = NVM_Read(EN_NV_ID_UE_CAPABILITY, pstUECapability, sizeof(LRRC_NV_UE_EUTRA_CAP_STRU));
if ( (NV_OK != ulRslt)
|| (NVIM_EUTRA_MAX_SUPPORT_BANDS_NUM < pstUECapability->stRfPara.usCnt) )
{
/* 读NV失败,打印未成功初始化值,默认赋值为支持所有频段 */
MN_ERR_LOG("TAF_MMA_ReadNvimUeSupporttedLteBand():read en_NV_Item_EUTRA_CAPA_COMM_INFO error");
pstUeSupportLteBand->ulBandHigh = MN_MMA_LTE_HIGH_BAND_ALL;
pstUeSupportLteBand->ulBandLow = MN_MMA_LTE_LOW_BAND_ALL;
PS_MEM_FREE(WUEPS_PID_MMA, pstUECapability);
return;
}
/* 获取NV中的频段信息:
ulBandLow的最低bit对应band1,最高bit对应band32
ulBandHigh的最低bit对应band33,最高bit对应band64 */
pstRfPara = &(pstUECapability->stRfPara);
for ( i = 0; i < pstRfPara->usCnt; i++ )
{
ucBandNo = (pstRfPara->astSuppEutraBandList[i]).ucEutraBand;
/* NV中的频段信息指示为低32,即对应band1到band32*/
if ( ucBandNo <= (NVIM_EUTRA_MAX_SUPPORT_BANDS_NUM / 2) )
{
/*lint -e701*/
pstUeSupportLteBand->ulBandLow |= (VOS_UINT32)( 0x00000001 << (ucBandNo - 1) );
/*lint +e701*/
}
/* NV中的频段信息指示为高32,即对应band33到band64 */
else if ( ucBandNo <= NVIM_EUTRA_MAX_SUPPORT_BANDS_NUM )
{
/*lint -e961 -e701*/
pstUeSupportLteBand->ulBandHigh |= (VOS_UINT32)( 0x00000001 << (ucBandNo - 32 - 1) );
/*lint +e961 +e701*/
}
else
{
/* band号异常 */
MN_ERR_LOG("TAF_MMA_ReadNvimUeSupporttedLteBand():LTE BAND NO IS BIG THAN 64, error");
}
}
PS_MEM_FREE(WUEPS_PID_MMA, pstUECapability);
return;
}
/*****************************************************************************
Function Name : diag_ConnProc
Description : 该函数用于处理ConnProcEntry传进来的HSO连接命令
Input : pstReq 待处理数据
Output : None
Return : VOS_UINT32
History :
1.y00228784 2012-11-22 Draft Enact
*****************************************************************************/
VOS_UINT32 diag_ConnProc(VOS_UINT8* pstReq,VOS_UINT32 ulCmdId)
{
VOS_UINT32 ret = ERR_MSP_SUCCESS;
VOS_UINT32 ulCnfRst = ERR_MSP_UNAVAILABLE;
#if (VOS_OS_VER == VOS_LINUX)
DIAG_CMD_HOST_CONNECT_CNF_STRU stCnf = {0};
NV_ITEM_PWC_SWITCH_STRU stPwrctrlSwitch = {0};
VOS_UINT32 ulPwrFlag = 0;
LPS_SWITCH_PARA_STRU stDrxControlFlag = {0};
UE_SW_BUILD_VER_INFO_STRU *pstBuildVer =NULL;
DIAG_CMD_REPLAY_SET_REQ_STRU stReplay= {0};
#endif
/*重置所有开关状态为未打开*/
diag_CfgResetAllSwt();
/*设置连接状态开关值*/
ulCnfRst = diag_CfgSetGlobalBitValue(&g_ulDiagCfgInfo,DIAG_CFG_CONN_BIT,DIAG_CFG_SWT_OPEN);
DIAG_DEBUG_SDM_FUN(EN_DIAG_DEBUG_CONN_CFG, ulCnfRst, 0, 0);
#if (VOS_OS_VER == VOS_LINUX)
VOS_MemSet(&(stCnf.stBuildVersion), 0, sizeof(DIAG_CMD_UE_BUILD_VER_STRU));
/*获取版本信息*/
pstBuildVer = BSP_GetBuildVersion();
if(pstBuildVer!=NULL)
{
pstBuildVer->ulProductNo = BSP_HwGetVerMain();
stCnf.stBuildVersion.usVVerNo = pstBuildVer->ulVVerNo;
stCnf.stBuildVersion.usRVerNo = pstBuildVer->ulRVerNo;
stCnf.stBuildVersion.usCVerNo = pstBuildVer->ulCVerNo;
stCnf.stBuildVersion.usBVerNo = pstBuildVer->ulBVerNo;
stCnf.stBuildVersion.usSpcNo = pstBuildVer->ulSpcNo;
stCnf.stBuildVersion.usHardwareVerNo = pstBuildVer->ulCustomVer;
stCnf.stBuildVersion.ulProductNo = pstBuildVer->ulProductNo;
}
/*获取IMEI号*/
ret = diag_GetImei(stCnf.szImei);
if(ret)
{
}
/*获取软件版本号*/
VOS_MemSet(&stCnf.stUeSoftVersion,0,sizeof(DIAG_CMD_UE_SOFT_VERSION_STRU));
/*获取数采基地址*/
stCnf.ulChipBaseAddr = (VOS_UINT32)BSP_OM_GetChipType();
//stCnf.ulChipBaseAddr = (VOS_UINT32)V7R1_PILOT_CHIP;
/*路测信息获取*/
ret = NVM_Read(EN_NV_ID_AGENT_FLAG,&(stCnf.stAgentFlag),sizeof(NV_ITEM_AGENT_FLAG_STRU));
if(ret)
{
}
/*低功耗开关获取*/
ret = NVM_Read(EN_NV_ID_PWC_SWITCH,&stPwrctrlSwitch,sizeof(NV_ITEM_PWC_SWITCH_STRU));
if(ret)
{
}
ulPwrFlag = stPwrctrlSwitch.drxLBbpPd;
ret = NVM_Read(EN_NV_ID_SWITCH_PARA,&stDrxControlFlag,sizeof(stDrxControlFlag));
if(ret)
{
}
stCnf.ulDrxControlFlag = stDrxControlFlag.ulDrxControlFlag & ulPwrFlag;
/*lint -save -e40*/
ulCnfRst |= diag_SendMsg(diag_GetAgentPid(),PS_PID_MM,ID_MSG_DIAG_CMD_REPLAY_TO_PS,(VOS_UINT8*)&stReplay,\
sizeof(DIAG_CMD_REPLAY_SET_REQ_STRU));
/*lint -restore +e40*/
/*获取当前存取模式*/
stCnf.ulLpdMode = diag_GetLogSendType();
/*处理结果*/
stCnf.ulRc = ulCnfRst;
/*组包给FW回复*/
ret = diag_AgentCnfFun((VOS_UINT8*)&stCnf,ulCmdId,sizeof(DIAG_CMD_HOST_CONNECT_CNF_STRU));
#else
/*lint -e18 -e718 -e628 -e830 -e746*/
diag_EnableSocpChan();
/*lint +e18 +e718 +e628 +e830 +e746*/
#endif
return ret;
}
VOS_UINT32 AT_GetLteFeatureInfo(AT_FEATURE_SUPPORT_ST*pstFeATure)
{
/*AT_FEATURE_SUPPORT_ST *pstFeATure = NULL;
*/
/*RRC_NV_SUPPORT_BAND_ID_LIST_STRU stSupportBandID = {0};
*/
VOS_UINT32 ulRst = 0;
VOS_UINT8 ucBandStr[64] = {0};
VOS_UINT8 ucBandNv = 0;
VOS_UINT8 ucBandFlag = 0;
VOS_UINT32 ulStrlen1=0;
VOS_UINT32 i =0;
VOS_UINT8 ucBandNum[65]={0};
LRRC_NV_UE_EUTRA_CAP_STRU *pstEutraCap = NULL;
pstEutraCap = VOS_MemAlloc(WUEPS_PID_AT, (DYNAMIC_MEM_PT), sizeof(LRRC_NV_UE_EUTRA_CAP_STRU));
if( pstEutraCap == NULL)
{
return ERR_MSP_MALLOC_FAILUE;
}
MSP_MEMSET(pstEutraCap, 0, sizeof(LRRC_NV_UE_EUTRA_CAP_STRU ));
ulRst = NVM_Read(EN_NV_ID_UE_CAPABILITY,pstEutraCap,sizeof(LRRC_NV_UE_EUTRA_CAP_STRU));
if( ulRst != ERR_MSP_SUCCESS )
{
VOS_MemFree(WUEPS_PID_AT, pstEutraCap);
return ERR_MSP_FAILURE;
}
/*RRC_MAX_NUM_OF_BANDS
*/
for( i = 0; i < pstEutraCap->stRfPara.usCnt; i++ )
{
if( pstEutraCap->stRfPara.astSuppEutraBandList[i].ucEutraBand > 0 )
{
ucBandNv=pstEutraCap->stRfPara.astSuppEutraBandList[i].ucEutraBand;
if( ucBandNv < (RRC_MAX_NUM_OF_BANDS+1) )
{
ucBandNum[ucBandNv]=1;
ucBandFlag++;
}
}
}
/*解析获取LTE band信息
*/
if( ucBandFlag > 0 )
{
pstFeATure[AT_FEATURE_LTE].ucFeatureFlag = AT_FEATURE_EXIST;
/*ulStrlen1 += At_sprintf(64,ucBandStr,ucBandStr+ulStrlen1,"%s","LTE,");
*/
}
else
{
VOS_MemFree(WUEPS_PID_AT, pstEutraCap);
return ERR_MSP_FAILURE;
}
for( i = 1 ; i < 65; i++ )
{
if( ucBandNum[i] == 1 )
{
ulStrlen1 +=(VOS_UINT32) At_sprintf(64,(VOS_CHAR* )ucBandStr,(VOS_CHAR* )(ucBandStr+ulStrlen1),"B%d,",i);
/*ucBandNum[i]=2;
*/
}
}
for( i = 0 ; i < ulStrlen1-1; i++ )
{
pstFeATure[AT_FEATURE_LTE].aucContent[i] = ucBandStr[i];
}
for( i = 0 ; i < ulStrlen1; i++ )/* [false alarm]:fortify */
{
ucBandStr[i] = 0;/* [false alarm]:fortify */
}/* [false alarm]:fortify */
ulStrlen1 = 0;/* [false alarm]:fortify*/
VOS_MemFree(WUEPS_PID_AT, pstEutraCap);/* [false alarm]:fortify */
return ERR_MSP_SUCCESS;/* [false alarm]:fortify */
}
/*****************************************************************************
函 数 名 : SystemDataTdRead
功能描述 : 读取TDS相关NV项
输入参数 : FTM_SCALIB_SYSTEM_SETTING_STRU
输出参数 : 无
返 回 值 : VOS_UINT32
*****************************************************************************/
VOS_UINT32 SystemDataTdRead(FTM_SCALIB_SYSTEM_SETTING_STRU * pstSystemInfo)
{
VOS_UINT32 ret = ERR_MSP_SUCCESS;
TDS_NV_PA_POWER_STRU maxPower;
if(NULL == pstSystemInfo)
{
return ERR_MSP_FAILURE;
}
MSP_MEMSET(&maxPower, 0x00, sizeof(TDS_NV_PA_POWER_STRU));
/* band A */
ret = NVM_Read(NV_ID_TDS_TX_PA_POWER_BAND_A, &maxPower, AT_CALIB_PARAM_APCOFF_MAX);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
MSP_MEMCPY((pstSystemInfo->tdsTxPaPowerBand_A), (maxPower.asTxMaxPower), AT_CALIB_PARAM_APCOFF);
ret = NVM_Read(NV_ID_TDS_TX_APC_COMP_BAND_A, pstSystemInfo->tdsTxApcCompBand_A, AT_CALIB_PARAM_APC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_TX_APC_FREQ_COMP_BAND_A, pstSystemInfo->tdsTxApcFreqCompBand_A, AT_CALIB_PARAM_APCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_COMP_BAND_A, pstSystemInfo->tdsRxAgcCompBand_A, AT_CALIB_PARAM_AGC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_FREQ_COMP_BAND_A, pstSystemInfo->tdsRxAgcFreqCompBand_A, AT_CALIB_PARAM_AGCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
/* band E */
ret = NVM_Read(NV_ID_TDS_TX_PA_POWER_BAND_E, &maxPower, AT_CALIB_PARAM_APCOFF_MAX);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
MSP_MEMCPY((pstSystemInfo->tdsTxPaPowerBand_E), (maxPower.asTxMaxPower), AT_CALIB_PARAM_APCOFF);
ret = NVM_Read(NV_ID_TDS_TX_APC_COMP_BAND_E, pstSystemInfo->tdsTxApcCompBand_E, AT_CALIB_PARAM_APC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_TX_APC_FREQ_COMP_BAND_E, pstSystemInfo->tdsTxApcFreqCompBand_E, AT_CALIB_PARAM_APCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_COMP_BAND_E, pstSystemInfo->tdsRxAgcCompBand_E, AT_CALIB_PARAM_AGC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_FREQ_COMP_BAND_E, pstSystemInfo->tdsRxAgcFreqCompBand_E, AT_CALIB_PARAM_AGCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
/* band F */
ret = NVM_Read(NV_ID_TDS_TX_PA_POWER_BAND_F, &maxPower, AT_CALIB_PARAM_APCOFF_MAX);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
MSP_MEMCPY((pstSystemInfo->tdsTxPaPowerBand_F), (maxPower.asTxMaxPower), AT_CALIB_PARAM_APCOFF);
ret = NVM_Read(NV_ID_TDS_TX_APC_COMP_BAND_F, pstSystemInfo->tdsTxApcCompBand_F, AT_CALIB_PARAM_APC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_TX_APC_FREQ_COMP_BAND_F, pstSystemInfo->tdsTxApcFreqCompBand_F, AT_CALIB_PARAM_APCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_COMP_BAND_F, pstSystemInfo->tdsRxAgcCompBand_F, AT_CALIB_PARAM_AGC);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
ret = NVM_Read(NV_ID_TDS_RX_AGC_FREQ_COMP_BAND_F, pstSystemInfo->tdsRxAgcFreqCompBand_F, AT_CALIB_PARAM_AGCFREQ);
if(ret != ERR_MSP_SUCCESS)
{
return ret;
}
return ret;
}
