rtl8192eu-linux-driver/core/rtw_bt_mp.c

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/******************************************************************************
*
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
*
*
******************************************************************************/
#include <drv_types.h>
#include <rtw_bt_mp.h>
#ifdef CONFIG_RTL8723A
#include <rtl8723a_hal.h>
#elif defined(CONFIG_RTL8723B)
#include <rtl8723b_hal.h>
#endif
#if defined(CONFIG_RTL8723A) || defined(CONFIG_RTL8723B) || defined(CONFIG_RTL8821A)
void MPh2c_timeout_handle(void *FunctionContext)
{
PADAPTER pAdapter;
PMPT_CONTEXT pMptCtx;
DBG_8192C("[MPT], MPh2c_timeout_handle \n");
pAdapter = (PADAPTER)FunctionContext;
pMptCtx = &pAdapter->mppriv.MptCtx;
pMptCtx->bMPh2c_timeout = _TRUE;
if ((_FALSE == pMptCtx->MptH2cRspEvent)
|| ((_TRUE == pMptCtx->MptH2cRspEvent)
&& (_FALSE == pMptCtx->MptBtC2hEvent)))
{
_rtw_up_sema(&pMptCtx->MPh2c_Sema);
}
}
u32 WaitC2Hevent(PADAPTER pAdapter, u8 *C2H_event, u32 delay_time)
{
PMPT_CONTEXT pMptCtx=&(pAdapter->mppriv.MptCtx);
pMptCtx->bMPh2c_timeout=_FALSE;
if( pAdapter->registrypriv.mp_mode == 0 )
{
DBG_8192C("[MPT], Error!! WaitC2Hevent mp_mode == 0!!\n");
return _FALSE;
}
_set_timer( &pMptCtx->MPh2c_timeout_timer, delay_time );
_rtw_down_sema(&pMptCtx->MPh2c_Sema);
if (pMptCtx->bMPh2c_timeout == _TRUE)
{
*C2H_event = _FALSE;
return _FALSE;
}
// for safty, cancel timer here again
_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
return _TRUE;
}
BT_CTRL_STATUS
mptbt_CheckC2hFrame(
PADAPTER Adapter,
PBT_H2C pH2c,
PBT_EXT_C2H pExtC2h
)
{
BT_CTRL_STATUS c2hStatus = BT_STATUS_C2H_SUCCESS;
//DBG_8192C("[MPT], MPT rsp C2H hex: %x %x %x %x %x %x \n"), pExtC2h , pExtC2h+1 ,pExtC2h+2 ,pExtC2h+3 ,pExtC2h+4 ,pExtC2h+5);
DBG_8192C("[MPT], statusCode = 0x%x\n", pExtC2h->statusCode);
DBG_8192C("[MPT], retLen = %d\n", pExtC2h->retLen);
DBG_8192C("[MPT], opCodeVer : req/rsp=%d/%d\n", pH2c->opCodeVer, pExtC2h->opCodeVer);
DBG_8192C("[MPT], reqNum : req/rsp=%d/%d\n", pH2c->reqNum, pExtC2h->reqNum);
if(pExtC2h->reqNum != pH2c->reqNum)
{
c2hStatus = BT_STATUS_C2H_REQNUM_MISMATCH;
DBG_8192C("[MPT], Error!! C2H reqNum Mismatch!!\n");
}
else if(pExtC2h->opCodeVer != pH2c->opCodeVer)
{
c2hStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
DBG_8192C("[MPT], Error!! OPCode version L mismatch!!\n");
}
return c2hStatus;
}
#if defined(CONFIG_RTL8723A)
extern s32 FillH2CCmd(PADAPTER padapter, u8 ElementID, u32 CmdLen, u8 *pCmdBuffer);
#endif
BT_CTRL_STATUS
mptbt_SendH2c(
PADAPTER Adapter,
PBT_H2C pH2c,
u2Byte h2cCmdLen
)
{
//KIRQL OldIrql = KeGetCurrentIrql();
BT_CTRL_STATUS h2cStatus=BT_STATUS_H2C_SUCCESS;
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
u1Byte i;
DBG_8192C("[MPT], mptbt_SendH2c()=========>\n");
//PlatformResetEvent(&pMptCtx->MptH2cRspEvent);
//PlatformResetEvent(&pMptCtx->MptBtC2hEvent);
// if(OldIrql == PASSIVE_LEVEL)
// {
//RTPRINT_DATA(FMPBT, FMPBT_H2C_CONTENT, ("[MPT], MPT H2C hex: \n"), pH2c, h2cCmdLen);
for(i=0; i<BT_H2C_MAX_RETRY; i++)
{
DBG_8192C("[MPT], Send H2C command to wifi!!!\n");
pMptCtx->MptH2cRspEvent = _FALSE;
pMptCtx->MptBtC2hEvent = _FALSE;
#if defined(CONFIG_RTL8723A)
FillH2CCmd(Adapter, 70, h2cCmdLen, (pu1Byte)pH2c);
#elif defined(CONFIG_RTL8723B)
rtl8723b_set_FwBtMpOper_cmd(Adapter, pH2c->opCode, pH2c->opCodeVer, pH2c->reqNum, pH2c->buf);
#endif
pMptCtx->h2cReqNum++;
pMptCtx->h2cReqNum %= 16;
if(WaitC2Hevent(Adapter, &pMptCtx->MptH2cRspEvent, 100))
{
DBG_8192C("[MPT], Received WiFi MptH2cRspEvent!!!\n");
if(WaitC2Hevent(Adapter, &pMptCtx->MptBtC2hEvent, 400))
{
DBG_8192C("[MPT], Received MptBtC2hEvent!!!\n");
break;
}
else
{
DBG_8192C("[MPT], Error!!BT MptBtC2hEvent timeout!!\n");
h2cStatus = BT_STATUS_H2C_BT_NO_RSP;
}
}
else
{
DBG_8192C("[MPT], Error!!WiFi MptH2cRspEvent timeout!!\n");
h2cStatus = BT_STATUS_H2C_TIMTOUT;
}
}
// }
// else
// {
// RT_ASSERT(FALSE, ("[MPT], mptbt_SendH2c() can only run under PASSIVE_LEVEL!!\n"));
// h2cStatus = BT_STATUS_WRONG_LEVEL;
// }
DBG_8192C("[MPT], mptbt_SendH2c()<=========\n");
return h2cStatus;
}
BT_CTRL_STATUS
mptbt_CheckBtRspStatus(
PADAPTER Adapter,
PBT_EXT_C2H pExtC2h
)
{
BT_CTRL_STATUS retStatus=BT_OP_STATUS_SUCCESS;
switch(pExtC2h->statusCode)
{
case BT_OP_STATUS_SUCCESS:
retStatus = BT_STATUS_BT_OP_SUCCESS;
DBG_8192C("[MPT], BT status : BT_STATUS_SUCCESS\n");
break;
case BT_OP_STATUS_VERSION_MISMATCH:
retStatus = BT_STATUS_OPCODE_L_VERSION_MISMATCH;
DBG_8192C("[MPT], BT status : BT_STATUS_OPCODE_L_VERSION_MISMATCH\n");
break;
case BT_OP_STATUS_UNKNOWN_OPCODE:
retStatus = BT_STATUS_UNKNOWN_OPCODE_L;
DBG_8192C("[MPT], BT status : BT_STATUS_UNKNOWN_OPCODE_L\n");
break;
case BT_OP_STATUS_ERROR_PARAMETER:
retStatus = BT_STATUS_PARAMETER_FORMAT_ERROR_L;
DBG_8192C("[MPT], BT status : BT_STATUS_PARAMETER_FORMAT_ERROR_L\n");
break;
default:
retStatus = BT_STATUS_UNKNOWN_STATUS_L;
DBG_8192C("[MPT], BT status : BT_STATUS_UNKNOWN_STATUS_L\n");
break;
}
return retStatus;
}
BT_CTRL_STATUS
mptbt_BtFwOpCodeProcess(
PADAPTER Adapter,
u1Byte btFwOpCode,
u1Byte opCodeVer,
pu1Byte pH2cPar,
u1Byte h2cParaLen
)
{
u1Byte H2C_Parameter[6] ={0};
PBT_H2C pH2c=(PBT_H2C)&H2C_Parameter[0];
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
PBT_EXT_C2H pExtC2h=(PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
u2Byte paraLen=0,i;
BT_CTRL_STATUS h2cStatus=BT_STATUS_H2C_SUCCESS, c2hStatus=BT_STATUS_C2H_SUCCESS;
BT_CTRL_STATUS retStatus=BT_STATUS_H2C_BT_NO_RSP;
if( Adapter->registrypriv.mp_mode == 0 )
{
DBG_8192C("[MPT], Error!! mptbt_BtFwOpCodeProces mp_mode == 0!!\n");
return _FALSE;
}
pH2c->opCode = btFwOpCode;
pH2c->opCodeVer = opCodeVer;
pH2c->reqNum = pMptCtx->h2cReqNum;
//PlatformMoveMemory(&pH2c->buf[0], pH2cPar, h2cParaLen);
//_rtw_memcpy(&pH2c->buf[0], pH2cPar, h2cParaLen);
_rtw_memcpy(pH2c->buf, pH2cPar, h2cParaLen);
DBG_8192C("[MPT], pH2c->opCode=%d\n", pH2c->opCode);
DBG_8192C("[MPT], pH2c->opCodeVer=%d\n", pH2c->opCodeVer);
DBG_8192C("[MPT], pH2c->reqNum=%d\n", pH2c->reqNum);
DBG_8192C("[MPT], h2c parameter length=%d\n", h2cParaLen);
for (i=0; i<h2cParaLen; i++)
{
DBG_8192C("[MPT], parameter[%d]=0x%02x\n", i, pH2c->buf[i]);
}
h2cStatus = mptbt_SendH2c(Adapter, pH2c, h2cParaLen+2);
if(BT_STATUS_H2C_SUCCESS == h2cStatus)
{
// if reach here, it means H2C get the correct c2h response,
c2hStatus = mptbt_CheckC2hFrame(Adapter, pH2c, pExtC2h);
if(BT_STATUS_C2H_SUCCESS == c2hStatus)
{
retStatus = mptbt_CheckBtRspStatus(Adapter, pExtC2h);
}
else
{
DBG_8192C("[MPT], Error!! C2H failed for pH2c->opCode=%d\n", pH2c->opCode);
// check c2h status error, return error status code to upper layer.
retStatus = c2hStatus;
}
}
else
{
DBG_8192C("[MPT], Error!! H2C failed for pH2c->opCode=%d\n", pH2c->opCode);
// check h2c status error, return error status code to upper layer.
retStatus = h2cStatus;
}
return retStatus;
}
u2Byte
mptbt_BtReady(
PADAPTER Adapter,
PBT_REQ_CMD pBtReq,
PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
PBT_EXT_C2H pExtC2h=(PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
u1Byte i;
u1Byte btFwVer=0, bdAddr[6]={0};
u2Byte btRealFwVer=0;
pu2Byte pu2Tmp=NULL;
//
// check upper layer parameters
//
// 1. check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
pBtRsp->pParamStart[0] = MP_BT_NOT_READY;
paraLen = 10;
//
// execute lower layer opcodes
//
// Get BT FW version
// fill h2c parameters
btOpcode = BT_LO_OP_GET_BT_VERSION;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
else
{
pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
btRealFwVer = *pu2Tmp;
btFwVer = pExtC2h->buf[1];
DBG_8192C("[MPT], btRealFwVer=0x%x, btFwVer=0x%x\n", btRealFwVer, btFwVer);
}
// Get BD Address
// fill h2c parameters
btOpcode = BT_LO_OP_GET_BD_ADDR_L;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
else
{
bdAddr[5] = pExtC2h->buf[0];
bdAddr[4] = pExtC2h->buf[1];
bdAddr[3] = pExtC2h->buf[2];
}
// fill h2c parameters
btOpcode = BT_LO_OP_GET_BD_ADDR_H;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
else
{
bdAddr[2] = pExtC2h->buf[0];
bdAddr[1] = pExtC2h->buf[1];
bdAddr[0] = pExtC2h->buf[2];
}
DBG_8192C("[MPT], Local BDAddr:");
for(i=0; i<6; i++)
{
DBG_8192C(" 0x%x ", bdAddr[i]);
}
pBtRsp->status = BT_STATUS_SUCCESS;
pBtRsp->pParamStart[0] = MP_BT_READY;
pu2Tmp = (pu2Byte)&pBtRsp->pParamStart[1];
*pu2Tmp = btRealFwVer;
pBtRsp->pParamStart[3] = btFwVer;
for(i=0; i<6; i++)
{
pBtRsp->pParamStart[4+i] = bdAddr[5-i];
}
return paraLen;
}
void mptbt_close_WiFiRF(PADAPTER Adapter)
{
PHY_SetBBReg(Adapter, 0x824, 0xF, 0x0);
PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x0);
PHY_SetRFReg(Adapter, RF90_PATH_A, 0x0, 0xF0000, 0x0);
}
void mptbt_open_WiFiRF(PADAPTER Adapter)
{
PHY_SetBBReg(Adapter, 0x824, 0x700000, 0x3);
PHY_SetBBReg(Adapter, 0x824, 0xF, 0x2);
PHY_SetRFReg(Adapter, RF90_PATH_A, 0x0, 0xF0000, 0x3);
}
u4Byte mptbt_switch_RF(PADAPTER Adapter, u1Byte Enter)
{
u2Byte tmp_2byte = 0;
//Enter test mode
if (Enter) {
////1>. close WiFi RF
mptbt_close_WiFiRF(Adapter);
////2>. change ant switch to BT
tmp_2byte = rtw_read16(Adapter, 0x860);
tmp_2byte = tmp_2byte | BIT(9);
tmp_2byte = tmp_2byte & (~BIT(8));
rtw_write16(Adapter, 0x860, tmp_2byte);
rtw_write16(Adapter, 0x870, 0x300);
} else {
////1>. Open WiFi RF
mptbt_open_WiFiRF(Adapter);
////2>. change ant switch back
tmp_2byte = rtw_read16(Adapter, 0x860);
tmp_2byte = tmp_2byte | BIT(8);
tmp_2byte = tmp_2byte & (~BIT(9));
rtw_write16(Adapter, 0x860, tmp_2byte);
rtw_write16(Adapter, 0x870, 0x300);
}
return 0;
}
u2Byte
mptbt_BtSetMode(
PADAPTER Adapter,
PBT_REQ_CMD pBtReq,
PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
u1Byte btModeToSet=0;
//
// check upper layer parameters
//
// 1. check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
// 2. check upper layer parameter length
if(1 == pBtReq->paraLength)
{
btModeToSet = pBtReq->pParamStart[0];
DBG_8192C("[MPT], BtTestMode=%d \n", btModeToSet);
}
else
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
//
// execute lower layer opcodes
//
// 1. fill h2c parameters
// check bt mode
btOpcode = BT_LO_OP_SET_BT_MODE;
if(btModeToSet >= MP_BT_MODE_MAX)
{
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
mptbt_switch_RF(Adapter, 1);
h2cParaBuf[0] = btModeToSet;
h2cParaLen = 1;
// 2. execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// 3. construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS == retStatus)
{
pBtRsp->status = BT_STATUS_SUCCESS;
}
else
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
}
return paraLen;
}
VOID
MPTBT_FwC2hBtMpCtrl(
PADAPTER Adapter,
pu1Byte tmpBuf,
u1Byte length
)
{
u32 i;
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
PBT_EXT_C2H pExtC2h=(PBT_EXT_C2H)tmpBuf;
if(Adapter->bBTFWReady == _FALSE || Adapter->registrypriv.mp_mode == 0 )
{
//DBG_8192C("Ignore C2H BT MP Info since not in MP mode \n");
return;
}
if( length > 32 || length < 3 )
{
DBG_8192C("\n [MPT], pExtC2h->buf hex: length=%d > 32 || < 3\n",length);
return;
}
//cancel_timeout for h2c handle
_cancel_timer_ex(&pMptCtx->MPh2c_timeout_timer);
for (i=0; i<length; i++)
{
DBG_8192C("[MPT], %s, buf[%d]=0x%02x ", __FUNCTION__, i, tmpBuf[i]);
}
DBG_8192C("[MPT], pExtC2h->extendId=0x%x\n", pExtC2h->extendId);
switch(pExtC2h->extendId)
{
case EXT_C2H_WIFI_FW_ACTIVE_RSP:
DBG_8192C("[MPT], EXT_C2H_WIFI_FW_ACTIVE_RSP\n");
#if 0
DBG_8192C("[MPT], pExtC2h->buf hex: \n");
for (i=0; i<(length-3); i++)
{
DBG_8192C(" 0x%x ", pExtC2h->buf[i]);
}
#endif
if ((_FALSE == pMptCtx->bMPh2c_timeout)
&& (_FALSE == pMptCtx->MptH2cRspEvent))
{
pMptCtx->MptH2cRspEvent = _TRUE;
_rtw_up_sema(&pMptCtx->MPh2c_Sema);
}
break;
case EXT_C2H_TRIG_BY_BT_FW:
DBG_8192C("[MPT], EXT_C2H_TRIG_BY_BT_FW\n");
_rtw_memcpy(&pMptCtx->c2hBuf[0], tmpBuf, length);
DBG_8192C("[MPT], pExtC2h->statusCode=0x%x\n", pExtC2h->statusCode);
DBG_8192C("[MPT], pExtC2h->retLen=0x%x\n", pExtC2h->retLen);
DBG_8192C("[MPT], pExtC2h->opCodeVer=0x%x\n", pExtC2h->opCodeVer);
DBG_8192C("[MPT], pExtC2h->reqNum=0x%x\n", pExtC2h->reqNum);
for (i=0; i<(length-3); i++)
{
DBG_8192C("[MPT], pExtC2h->buf[%d]=0x%02x\n", i, pExtC2h->buf[i]);
}
if ((_FALSE == pMptCtx->bMPh2c_timeout)
&& (_TRUE == pMptCtx->MptH2cRspEvent)
&& (_FALSE == pMptCtx->MptBtC2hEvent))
{
pMptCtx->MptBtC2hEvent = _TRUE;
_rtw_up_sema(&pMptCtx->MPh2c_Sema);
}
break;
default:
DBG_8192C("[MPT], EXT_C2H Target not found,pExtC2h->extendId =%d ,pExtC2h->reqNum=%d\n",pExtC2h->extendId,pExtC2h->reqNum);
break;
}
}
u2Byte
mptbt_BtGetGeneral(
IN PADAPTER Adapter,
IN PBT_REQ_CMD pBtReq,
IN PBT_RSP_CMD pBtRsp
)
{
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
PBT_EXT_C2H pExtC2h=(PBT_EXT_C2H)&pMptCtx->c2hBuf[0];
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode, bdAddr[6]={0};
u1Byte btOpcodeVer=0;
u1Byte getType=0, i;
u2Byte getParaLen=0, validParaLen=0;
u1Byte regType=0, reportType=0;
u4Byte regAddr=0, regValue=0;
pu4Byte pu4Tmp;
pu2Byte pu2Tmp;
pu1Byte pu1Tmp;
//
// check upper layer parameters
//
// check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
// check upper layer parameter length
if(pBtReq->paraLength < 1)
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
getParaLen = pBtReq->paraLength - 1;
getType = pBtReq->pParamStart[0];
DBG_8192C("[MPT], getType=%d, getParaLen=%d\n", getType, getParaLen);
// check parameter first
switch(getType)
{
case BT_GGET_REG:
DBG_8192C("[MPT], [BT_GGET_REG]\n");
validParaLen = 5;
if(getParaLen == validParaLen)
{
btOpcode = BT_LO_OP_READ_REG;
regType = pBtReq->pParamStart[1];
pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
regAddr = *pu4Tmp;
DBG_8192C("[MPT], BT_GGET_REG regType=0x%02x, regAddr=0x%08x!!\n",
regType, regAddr);
if(regType >= BT_REG_MAX)
{
pBtRsp->status = (btOpcode<<8)| BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
if( ((BT_REG_RF==regType)&&(regAddr>0x7f)) ||
((BT_REG_MODEM==regType)&&(regAddr>0x1ff)) ||
((BT_REG_BLUEWIZE==regType)&&(regAddr>0xfff)) ||
((BT_REG_VENDOR==regType)&&(regAddr>0xfff)) ||
((BT_REG_LE==regType)&&(regAddr>0xfff)) )
{
pBtRsp->status = (btOpcode<<8)| BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
}
}
break;
case BT_GGET_STATUS:
DBG_8192C("[MPT], [BT_GGET_STATUS]\n");
validParaLen = 0;
break;
case BT_GGET_REPORT:
DBG_8192C("[MPT], [BT_GGET_REPORT]\n");
validParaLen = 1;
if(getParaLen == validParaLen)
{
reportType = pBtReq->pParamStart[1];
DBG_8192C("[MPT], BT_GGET_REPORT reportType=0x%x!!\n", reportType);
if(reportType >= BT_REPORT_MAX)
{
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
}
break;
default:
{
DBG_8192C("[MPT], Error!! getType=%d, out of range\n", getType);
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
break;
}
if(getParaLen != validParaLen)
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d for BT_GET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
getParaLen, getType, validParaLen);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
//
// execute lower layer opcodes
//
if(BT_GGET_REG == getType)
{
// fill h2c parameters
// here we should write reg value first then write the address, adviced by Austin
btOpcode = BT_LO_OP_READ_REG;
h2cParaBuf[0] = regType;
h2cParaBuf[1] = pBtReq->pParamStart[2];
h2cParaBuf[2] = pBtReq->pParamStart[3];
h2cParaLen = 3;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pu2Tmp = (pu2Byte)&pExtC2h->buf[0];
regValue = *pu2Tmp;
DBG_8192C("[MPT], read reg regType=0x%02x, regAddr=0x%08x, regValue=0x%04x\n",
regType, regAddr, regValue);
pu4Tmp = (pu4Byte)&pBtRsp->pParamStart[0];
*pu4Tmp = regValue;
paraLen = 4;
}
else if(BT_GGET_STATUS == getType)
{
btOpcode = BT_LO_OP_GET_BT_STATUS;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[0] = pExtC2h->buf[0];
pBtRsp->pParamStart[1] = pExtC2h->buf[1];
DBG_8192C("[MPT], read bt status, testMode=0x%x, testStatus=0x%x\n",
pBtRsp->pParamStart[0], pBtRsp->pParamStart[1]);
paraLen = 2;
}
else if(BT_GGET_REPORT == getType)
{
switch(reportType)
{
case BT_REPORT_RX_PACKET_CNT:
{
DBG_8192C("[MPT], [Rx Packet Counts]\n");
btOpcode = BT_LO_OP_GET_RX_PKT_CNT_L;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[0] = pExtC2h->buf[0];
pBtRsp->pParamStart[1] = pExtC2h->buf[1];
btOpcode = BT_LO_OP_GET_RX_PKT_CNT_H;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[2] = pExtC2h->buf[0];
pBtRsp->pParamStart[3] = pExtC2h->buf[1];
paraLen = 4;
}
break;
case BT_REPORT_RX_ERROR_BITS:
{
DBG_8192C("[MPT], [Rx Error Bits]\n");
btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_L;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[0] = pExtC2h->buf[0];
pBtRsp->pParamStart[1] = pExtC2h->buf[1];
btOpcode = BT_LO_OP_GET_RX_ERROR_BITS_H;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[2] = pExtC2h->buf[0];
pBtRsp->pParamStart[3] = pExtC2h->buf[1];
paraLen = 4;
}
break;
case BT_REPORT_RSSI:
{
DBG_8192C("[MPT], [RSSI]\n");
btOpcode = BT_LO_OP_GET_RSSI;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[0] = pExtC2h->buf[0];
pBtRsp->pParamStart[1] = pExtC2h->buf[1];
paraLen = 2;
}
break;
case BT_REPORT_CFO_HDR_QUALITY:
{
DBG_8192C("[MPT], [CFO & Header Quality]\n");
btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_L;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[0] = pExtC2h->buf[0];
pBtRsp->pParamStart[1] = pExtC2h->buf[1];
btOpcode = BT_LO_OP_GET_CFO_HDR_QUALITY_H;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->pParamStart[2] = pExtC2h->buf[0];
pBtRsp->pParamStart[3] = pExtC2h->buf[1];
paraLen = 4;
}
break;
case BT_REPORT_CONNECT_TARGET_BD_ADDR:
{
DBG_8192C("[MPT], [Connected Target BD ADDR]\n");
btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_L;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
bdAddr[5] = pExtC2h->buf[0];
bdAddr[4] = pExtC2h->buf[1];
bdAddr[3] = pExtC2h->buf[2];
btOpcode = BT_LO_OP_GET_TARGET_BD_ADDR_H;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
bdAddr[2] = pExtC2h->buf[0];
bdAddr[1] = pExtC2h->buf[1];
bdAddr[0] = pExtC2h->buf[2];
DBG_8192C("[MPT], Connected Target BDAddr:%s", bdAddr);
for(i=0; i<6; i++)
{
pBtRsp->pParamStart[i] = bdAddr[5-i];
}
paraLen = 6;
}
break;
default:
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
break;
}
}
pBtRsp->status = BT_STATUS_SUCCESS;
return paraLen;
}
u2Byte
mptbt_BtSetGeneral(
IN PADAPTER Adapter,
IN PBT_REQ_CMD pBtReq,
IN PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
u1Byte setType=0;
u2Byte setParaLen=0, validParaLen=0;
u1Byte regType=0, bdAddr[6]={0}, calVal=0;
u4Byte regAddr=0, regValue=0;
pu4Byte pu4Tmp;
pu2Byte pu2Tmp;
pu1Byte pu1Tmp;
//
// check upper layer parameters
//
// check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
// check upper layer parameter length
if(pBtReq->paraLength < 1)
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d (should larger than 1)\n", pBtReq->paraLength);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
setParaLen = pBtReq->paraLength - 1;
setType = pBtReq->pParamStart[0];
DBG_8192C("[MPT], setType=%d, setParaLen=%d\n", setType, setParaLen);
// check parameter first
switch(setType)
{
case BT_GSET_REG:
DBG_8192C ("[MPT], [BT_GSET_REG]\n");
validParaLen = 9;
if(setParaLen == validParaLen)
{
btOpcode = BT_LO_OP_WRITE_REG_VALUE;
regType = pBtReq->pParamStart[1];
pu4Tmp = (pu4Byte)&pBtReq->pParamStart[2];
regAddr = *pu4Tmp;
pu4Tmp = (pu4Byte)&pBtReq->pParamStart[6];
regValue = *pu4Tmp;
DBG_8192C("[MPT], BT_GSET_REG regType=0x%x, regAddr=0x%x, regValue=0x%x!!\n",
regType, regAddr, regValue);
if(regType >= BT_REG_MAX)
{
pBtRsp->status = (btOpcode<<8)| BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
if( ((BT_REG_RF==regType)&&(regAddr>0x7f)) ||
((BT_REG_MODEM==regType)&&(regAddr>0x1ff)) ||
((BT_REG_BLUEWIZE==regType)&&(regAddr>0xfff)) ||
((BT_REG_VENDOR==regType)&&(regAddr>0xfff)) ||
((BT_REG_LE==regType)&&(regAddr>0xfff)) )
{
pBtRsp->status = (btOpcode<<8)| BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
}
}
break;
case BT_GSET_RESET:
DBG_8192C("[MPT], [BT_GSET_RESET]\n");
validParaLen = 0;
break;
case BT_GSET_TARGET_BD_ADDR:
DBG_8192C("[MPT], [BT_GSET_TARGET_BD_ADDR]\n");
validParaLen = 6;
if(setParaLen == validParaLen)
{
btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
if( (pBtReq->pParamStart[1]==0) &&
(pBtReq->pParamStart[2]==0) &&
(pBtReq->pParamStart[3]==0) &&
(pBtReq->pParamStart[4]==0) &&
(pBtReq->pParamStart[5]==0) &&
(pBtReq->pParamStart[6]==0) )
{
DBG_8192C("[MPT], Error!! targetBDAddr=all zero\n");
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
if( (pBtReq->pParamStart[1]==0xff) &&
(pBtReq->pParamStart[2]==0xff) &&
(pBtReq->pParamStart[3]==0xff) &&
(pBtReq->pParamStart[4]==0xff) &&
(pBtReq->pParamStart[5]==0xff) &&
(pBtReq->pParamStart[6]==0xff) )
{
DBG_8192C("[MPT], Error!! targetBDAddr=all 0xf\n");
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
bdAddr[0] = pBtReq->pParamStart[6];
bdAddr[1] = pBtReq->pParamStart[5];
bdAddr[2] = pBtReq->pParamStart[4];
bdAddr[3] = pBtReq->pParamStart[3];
bdAddr[4] = pBtReq->pParamStart[2];
bdAddr[5] = pBtReq->pParamStart[1];
DBG_8192C ("[MPT], target BDAddr:%x,%x,%x,%x,%x,%x\n",
bdAddr[0],bdAddr[1],bdAddr[2],bdAddr[3],bdAddr[4],bdAddr[5]);
}
break;
case BT_GSET_TX_PWR_FINETUNE:
DBG_8192C("[MPT], [BT_GSET_TX_PWR_FINETUNE]\n");
validParaLen = 1;
if(setParaLen == validParaLen)
{
btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
calVal = pBtReq->pParamStart[1];
if( (calVal<1) || (calVal>9) )
{
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
DBG_8192C ("[MPT], calVal=%d\n", calVal);
}
break;
case BT_SET_TRACKING_INTERVAL:
DBG_871X("[MPT], [BT_SET_TRACKING_INTERVAL] setParaLen =%d \n",setParaLen);
validParaLen = 1;
if(setParaLen == validParaLen)
calVal = pBtReq->pParamStart[1];
break;
case BT_SET_THERMAL_METER:
DBG_871X("[MPT], [BT_SET_THERMAL_METER] setParaLen =%d \n",setParaLen);
validParaLen = 1;
if(setParaLen == validParaLen)
calVal = pBtReq->pParamStart[1];
break;
case BT_ENABLE_CFO_TRACKING:
DBG_871X("[MPT], [BT_ENABLE_CFO_TRACKING] setParaLen =%d \n",setParaLen);
validParaLen = 1;
if(setParaLen == validParaLen)
calVal = pBtReq->pParamStart[1];
break;
case BT_GSET_UPDATE_BT_PATCH:
if(IS_HARDWARE_TYPE_8723AE(Adapter) && Adapter->bFWReady)
{
u1Byte i;
DBG_8192C ("[MPT], write regs for load patch\n");
//BTFwPatch8723A(Adapter);
PlatformEFIOWrite1Byte(Adapter, 0xCC, 0x2d);
rtw_msleep_os(50);
PlatformEFIOWrite4Byte(Adapter, 0x68, 0xa005000c);
rtw_msleep_os(50);
PlatformEFIOWrite4Byte(Adapter, 0x68, 0xb005000c);
rtw_msleep_os(50);
PlatformEFIOWrite1Byte(Adapter, 0xCC, 0x29);
for(i=0; i<12; i++)
rtw_msleep_os(100);
//#if (DEV_BUS_TYPE == RT_PCI_INTERFACE)
// BTFwPatch8723A(Adapter);
//#endif
DBG_8192C("[MPT], load BT FW Patch finished!!!\n");
}
break;
default:
{
DBG_8192C ("[MPT], Error!! setType=%d, out of range\n", setType);
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
break;
}
if(setParaLen != validParaLen)
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d for BT_SET_GEN_CMD cmd id=0x%x, paraLen should=0x%x\n",
setParaLen, setType, validParaLen);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
//
// execute lower layer opcodes
//
if(BT_GSET_REG == setType)
{
// fill h2c parameters
// here we should write reg value first then write the address, adviced by Austin
btOpcode = BT_LO_OP_WRITE_REG_VALUE;
h2cParaBuf[0] = pBtReq->pParamStart[6];
h2cParaBuf[1] = pBtReq->pParamStart[7];
h2cParaBuf[2] = pBtReq->pParamStart[8];
h2cParaLen = 3;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// write reg address
btOpcode = BT_LO_OP_WRITE_REG_ADDR;
h2cParaBuf[0] = regType;
h2cParaBuf[1] = pBtReq->pParamStart[2];
h2cParaBuf[2] = pBtReq->pParamStart[3];
h2cParaLen = 3;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_GSET_RESET == setType)
{
btOpcode = BT_LO_OP_RESET;
h2cParaLen = 0;
// execute h2c and check respond c2h from bt fw is correct or not
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_GSET_TARGET_BD_ADDR == setType)
{
// fill h2c parameters
btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_L;
h2cParaBuf[0] = pBtReq->pParamStart[1];
h2cParaBuf[1] = pBtReq->pParamStart[2];
h2cParaBuf[2] = pBtReq->pParamStart[3];
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
btOpcode = BT_LO_OP_SET_TARGET_BD_ADDR_H;
h2cParaBuf[0] = pBtReq->pParamStart[4];
h2cParaBuf[1] = pBtReq->pParamStart[5];
h2cParaBuf[2] = pBtReq->pParamStart[6];
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_GSET_TX_PWR_FINETUNE == setType)
{
// fill h2c parameters
btOpcode = BT_LO_OP_SET_TX_POWER_CALIBRATION;
h2cParaBuf[0] = calVal;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_SET_TRACKING_INTERVAL == setType)
{
// BT_LO_OP_SET_TRACKING_INTERVAL = 0x22,
// BT_LO_OP_SET_THERMAL_METER = 0x23,
// BT_LO_OP_ENABLE_CFO_TRACKING = 0x24,
btOpcode = BT_LO_OP_SET_TRACKING_INTERVAL;
h2cParaBuf[0] = calVal;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_SET_THERMAL_METER == setType)
{
btOpcode = BT_LO_OP_SET_THERMAL_METER;
h2cParaBuf[0] = calVal;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
else if(BT_ENABLE_CFO_TRACKING == setType)
{
btOpcode = BT_LO_OP_ENABLE_CFO_TRACKING;
h2cParaBuf[0] = calVal;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
}
pBtRsp->status = BT_STATUS_SUCCESS;
return paraLen;
}
u2Byte
mptbt_BtSetTxRxPars(
IN PADAPTER Adapter,
IN PBT_REQ_CMD pBtReq,
IN PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
PBT_TXRX_PARAMETERS pTxRxPars=(PBT_TXRX_PARAMETERS)&pBtReq->pParamStart[0];
u2Byte lenTxRx=sizeof(BT_TXRX_PARAMETERS);
u1Byte i;
u1Byte bdAddr[6]={0};
//
// check upper layer parameters
//
// 1. check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
// 2. check upper layer parameter length
if(pBtReq->paraLength == sizeof(BT_TXRX_PARAMETERS))
{
DBG_8192C ("[MPT], pTxRxPars->txrxChannel=0x%x \n", pTxRxPars->txrxChannel);
DBG_8192C ("[MPT], pTxRxPars->txrxTxPktCnt=0x%8x \n", pTxRxPars->txrxTxPktCnt);
DBG_8192C ("[MPT], pTxRxPars->txrxTxPktInterval=0x%x \n", pTxRxPars->txrxTxPktInterval);
DBG_8192C ("[MPT], pTxRxPars->txrxPayloadType=0x%x \n", pTxRxPars->txrxPayloadType);
DBG_8192C ("[MPT], pTxRxPars->txrxPktType=0x%x \n", pTxRxPars->txrxPktType);
DBG_8192C ("[MPT], pTxRxPars->txrxPayloadLen=0x%x \n", pTxRxPars->txrxPayloadLen);
DBG_8192C ("[MPT], pTxRxPars->txrxPktHeader=0x%x \n", pTxRxPars->txrxPktHeader);
DBG_8192C ("[MPT], pTxRxPars->txrxWhitenCoeff=0x%x \n", pTxRxPars->txrxWhitenCoeff);
bdAddr[0] = pTxRxPars->txrxBdaddr[5];
bdAddr[1] = pTxRxPars->txrxBdaddr[4];
bdAddr[2] = pTxRxPars->txrxBdaddr[3];
bdAddr[3] = pTxRxPars->txrxBdaddr[2];
bdAddr[4] = pTxRxPars->txrxBdaddr[1];
bdAddr[5] = pTxRxPars->txrxBdaddr[0];
DBG_8192C ("[MPT], pTxRxPars->txrxBdaddr: %s", &bdAddr[0]);
DBG_8192C ("[MPT], pTxRxPars->txrxTxGainIndex=0x%x \n", pTxRxPars->txrxTxGainIndex);
}
else
{
DBG_8192C ("[MPT], Error!! pBtReq->paraLength=%d, correct Len=%d\n", pBtReq->paraLength, lenTxRx);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
//
// execute lower layer opcodes
//
// fill h2c parameters
btOpcode = BT_LO_OP_SET_PKT_HEADER;
if(pTxRxPars->txrxPktHeader > 0x3ffff)
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxPktHeader=0x%x is out of range, (should be between 0x0~0x3ffff)\n", pTxRxPars->txrxPktHeader);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
h2cParaBuf[0] = (u1Byte)(pTxRxPars->txrxPktHeader&0xff);
h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPktHeader&0xff00)>>8);
h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPktHeader&0xff0000)>>16);
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_PKT_TYPE_LEN;
{
u2Byte payloadLenLimit=0;
switch(pTxRxPars->txrxPktType)
{
case MP_BT_PKT_DH1:
payloadLenLimit = 27*8;
break;
case MP_BT_PKT_DH3:
payloadLenLimit = 183*8;
break;
case MP_BT_PKT_DH5:
payloadLenLimit = 339*8;
break;
case MP_BT_PKT_2DH1:
payloadLenLimit = 54*8;
break;
case MP_BT_PKT_2DH3:
payloadLenLimit = 367*8;
break;
case MP_BT_PKT_2DH5:
payloadLenLimit = 679*8;
break;
case MP_BT_PKT_3DH1:
payloadLenLimit = 83*8;
break;
case MP_BT_PKT_3DH3:
payloadLenLimit = 552*8;
break;
case MP_BT_PKT_3DH5:
payloadLenLimit = 1021*8;
break;
case MP_BT_PKT_LE:
payloadLenLimit = 39*8;
break;
default:
{
DBG_8192C ("[MPT], Error!! Unknown pTxRxPars->txrxPktType=0x%x\n", pTxRxPars->txrxPktType);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
break;
}
if(pTxRxPars->txrxPayloadLen > payloadLenLimit)
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxPayloadLen=0x%x, (should smaller than %d)\n",
pTxRxPars->txrxPayloadLen, payloadLenLimit);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
h2cParaBuf[0] = pTxRxPars->txrxPktType;
h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxPayloadLen&0xff));
h2cParaBuf[2] = (u1Byte)((pTxRxPars->txrxPayloadLen&0xff00)>>8);
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_PKT_CNT_L_PL_TYPE;
if(pTxRxPars->txrxPayloadType > MP_BT_PAYLOAD_MAX)
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxPayloadType=0x%x, (should be between 0~4)\n", pTxRxPars->txrxPayloadType);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt&0xff));
h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt&0xff00)>>8);
h2cParaBuf[2] = pTxRxPars->txrxPayloadType;
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_PKT_CNT_H_PKT_INTV;
if(pTxRxPars->txrxTxPktInterval > 15)
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxTxPktInterval=0x%x, (should be between 0~15)\n", pTxRxPars->txrxTxPktInterval);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
h2cParaBuf[0] = (u1Byte)((pTxRxPars->txrxTxPktCnt&0xff0000)>>16);
h2cParaBuf[1] = (u1Byte)((pTxRxPars->txrxTxPktCnt&0xff000000)>>24);
h2cParaBuf[2] = pTxRxPars->txrxTxPktInterval;
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_WHITENCOEFF;
{
h2cParaBuf[0] = pTxRxPars->txrxWhitenCoeff;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_CHNL_TX_GAIN;
if( (pTxRxPars->txrxChannel > 78) ||
(pTxRxPars->txrxTxGainIndex > 7) )
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxChannel=0x%x, (should be between 0~78)\n", pTxRxPars->txrxChannel);
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxTxGainIndex=0x%x, (should be between 0~7)\n", pTxRxPars->txrxTxGainIndex);
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
h2cParaBuf[0] = pTxRxPars->txrxChannel;
h2cParaBuf[1] = pTxRxPars->txrxTxGainIndex;
h2cParaLen = 2;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
// fill h2c parameters
btOpcode = BT_LO_OP_SET_BD_ADDR_L;
if( (pTxRxPars->txrxBdaddr[0]==0) &&
(pTxRxPars->txrxBdaddr[1]==0) &&
(pTxRxPars->txrxBdaddr[2]==0) &&
(pTxRxPars->txrxBdaddr[3]==0) &&
(pTxRxPars->txrxBdaddr[4]==0) &&
(pTxRxPars->txrxBdaddr[5]==0) )
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxBdaddr=all zero\n");
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
if( (pTxRxPars->txrxBdaddr[0]==0xff) &&
(pTxRxPars->txrxBdaddr[1]==0xff) &&
(pTxRxPars->txrxBdaddr[2]==0xff) &&
(pTxRxPars->txrxBdaddr[3]==0xff) &&
(pTxRxPars->txrxBdaddr[4]==0xff) &&
(pTxRxPars->txrxBdaddr[5]==0xff) )
{
DBG_8192C ("[MPT], Error!! pTxRxPars->txrxBdaddr=all 0xf\n");
pBtRsp->status = (btOpcode<<8)|BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
{
h2cParaBuf[0] = pTxRxPars->txrxBdaddr[0];
h2cParaBuf[1] = pTxRxPars->txrxBdaddr[1];
h2cParaBuf[2] = pTxRxPars->txrxBdaddr[2];
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
btOpcode = BT_LO_OP_SET_BD_ADDR_H;
{
h2cParaBuf[0] = pTxRxPars->txrxBdaddr[3];
h2cParaBuf[1] = pTxRxPars->txrxBdaddr[4];
h2cParaBuf[2] = pTxRxPars->txrxBdaddr[5];
h2cParaLen = 3;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// ckeck bt return status.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C ("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->status = BT_STATUS_SUCCESS;
return paraLen;
}
u2Byte
mptbt_BtTestCtrl(
IN PADAPTER Adapter,
IN PBT_REQ_CMD pBtReq,
IN PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
u1Byte testCtrl=0;
//
// check upper layer parameters
//
// 1. check upper layer opcode version
if(pBtReq->opCodeVer != 1)
{
DBG_8192C("[MPT], Error!! Upper OP code version not match!!!\n");
pBtRsp->status = BT_STATUS_OPCODE_U_VERSION_MISMATCH;
return paraLen;
}
// 2. check upper layer parameter length
if(1 == pBtReq->paraLength)
{
testCtrl = pBtReq->pParamStart[0];
DBG_8192C("[MPT], testCtrl=%d \n", testCtrl);
}
else
{
DBG_8192C("[MPT], Error!! wrong parameter length=%d (should be 1)\n", pBtReq->paraLength);
pBtRsp->status = BT_STATUS_PARAMETER_FORMAT_ERROR_U;
return paraLen;
}
//
// execute lower layer opcodes
//
// 1. fill h2c parameters
// check bt mode
btOpcode = BT_LO_OP_TEST_CTRL;
if(testCtrl >= MP_BT_TEST_MAX)
{
DBG_8192C("[MPT], Error!! testCtrl=0x%x, (should be between smaller or equal to 0x%x)\n",
testCtrl, MP_BT_TEST_MAX-1);
pBtRsp->status = BT_STATUS_PARAMETER_OUT_OF_RANGE_U;
return paraLen;
}
else
{
h2cParaBuf[0] = testCtrl;
h2cParaLen = 1;
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
}
// 3. construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->status = BT_STATUS_SUCCESS;
return paraLen;
}
u2Byte
mptbt_TestBT(
IN PADAPTER Adapter,
IN PBT_REQ_CMD pBtReq,
IN PBT_RSP_CMD pBtRsp
)
{
u1Byte h2cParaBuf[6] ={0};
u1Byte h2cParaLen=0;
u2Byte paraLen=0;
u1Byte retStatus=BT_STATUS_BT_OP_SUCCESS;
u1Byte btOpcode;
u1Byte btOpcodeVer=0;
u1Byte testCtrl=0;
// 1. fill h2c parameters
btOpcode = 0x11;
h2cParaBuf[0] = 0x11;
h2cParaBuf[1] = 0x0;
h2cParaBuf[2] = 0x0;
h2cParaBuf[3] = 0x0;
h2cParaBuf[4] = 0x0;
h2cParaLen = 1;
// retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, &h2cParaBuf[0], h2cParaLen);
retStatus = mptbt_BtFwOpCodeProcess(Adapter, btOpcode, btOpcodeVer, h2cParaBuf, h2cParaLen);
// 3. construct respond status code and data.
if(BT_STATUS_BT_OP_SUCCESS != retStatus)
{
pBtRsp->status = ((btOpcode<<8)|retStatus);
DBG_8192C("[MPT], Error!! status code=0x%x \n", pBtRsp->status);
return paraLen;
}
pBtRsp->status = BT_STATUS_SUCCESS;
return paraLen;
}
VOID
mptbt_BtControlProcess(
PADAPTER Adapter,
PVOID pInBuf
)
{
u1Byte H2C_Parameter[6] ={0};
PBT_H2C pH2c=(PBT_H2C)&H2C_Parameter[0];
PMPT_CONTEXT pMptCtx=&(Adapter->mppriv.MptCtx);
PBT_REQ_CMD pBtReq=(PBT_REQ_CMD)pInBuf;
PBT_RSP_CMD pBtRsp;
u1Byte i;
DBG_8192C("[MPT], mptbt_BtControlProcess()=========>\n");
DBG_8192C("[MPT], input opCodeVer=%d\n", pBtReq->opCodeVer);
DBG_8192C("[MPT], input OpCode=%d\n", pBtReq->OpCode);
DBG_8192C("[MPT], paraLength=%d \n", pBtReq->paraLength);
if(pBtReq->paraLength)
{
//DBG_8192C("[MPT], parameters(hex):0x%x %d \n",&pBtReq->pParamStart[0], pBtReq->paraLength);
}
_rtw_memset((void*)pMptCtx->mptOutBuf, 0, 100);
pMptCtx->mptOutLen = 4; //length of (BT_RSP_CMD.status+BT_RSP_CMD.paraLength)
pBtRsp = (PBT_RSP_CMD)pMptCtx->mptOutBuf;
pBtRsp->status = BT_STATUS_SUCCESS;
pBtRsp->paraLength = 0x0;
// The following we should maintain the User OP codes sent by upper layer
switch(pBtReq->OpCode)
{
case BT_UP_OP_BT_READY:
DBG_8192C("[MPT], OPcode : [BT_READY]\n");
pBtRsp->paraLength = mptbt_BtReady(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_BT_SET_MODE:
DBG_8192C("[MPT], OPcode : [BT_SET_MODE]\n");
pBtRsp->paraLength = mptbt_BtSetMode(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_BT_SET_TX_RX_PARAMETER:
DBG_8192C("[MPT], OPcode : [BT_SET_TXRX_PARAMETER]\n");
pBtRsp->paraLength = mptbt_BtSetTxRxPars(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_BT_SET_GENERAL:
DBG_8192C("[MPT], OPcode : [BT_SET_GENERAL]\n");
pBtRsp->paraLength = mptbt_BtSetGeneral(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_BT_GET_GENERAL:
DBG_8192C("[MPT], OPcode : [BT_GET_GENERAL]\n");
pBtRsp->paraLength = mptbt_BtGetGeneral(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_BT_TEST_CTRL:
DBG_8192C("[MPT], OPcode : [BT_TEST_CTRL]\n");
pBtRsp->paraLength = mptbt_BtTestCtrl(Adapter, pBtReq, pBtRsp);
break;
case BT_UP_OP_TEST_BT:
DBG_8192C("[MPT], OPcode : [TEST_BT]\n");
pBtRsp->paraLength = mptbt_TestBT(Adapter, pBtReq, pBtRsp);
break;
default:
DBG_8192C("[MPT], Error!! OPcode : UNDEFINED!!!!\n");
pBtRsp->status = BT_STATUS_UNKNOWN_OPCODE_U;
pBtRsp->paraLength = 0x0;
break;
}
pMptCtx->mptOutLen += pBtRsp->paraLength;
DBG_8192C("[MPT], pMptCtx->mptOutLen=%d, pBtRsp->paraLength=%d\n", pMptCtx->mptOutLen, pBtRsp->paraLength);
DBG_8192C("[MPT], mptbt_BtControlProcess()<=========\n");
}
#endif