rtl8192eu-linux-driver/core/efuse/rtw_efuse.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
*
*
******************************************************************************/
#define _RTW_EFUSE_C_
#include <drv_types.h>
#include <hal_data.h>
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#include "../hal/efuse/efuse_mask.h"
/*------------------------Define local variable------------------------------*/
u8 fakeEfuseBank=0;
u32 fakeEfuseUsedBytes=0;
u8 fakeEfuseContent[EFUSE_MAX_HW_SIZE]={0};
u8 fakeEfuseInitMap[EFUSE_MAX_MAP_LEN]={0};
u8 fakeEfuseModifiedMap[EFUSE_MAX_MAP_LEN]={0};
u32 BTEfuseUsedBytes=0;
u8 BTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
u8 BTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN]={0};
u8 BTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN]={0};
u32 fakeBTEfuseUsedBytes=0;
u8 fakeBTEfuseContent[EFUSE_MAX_BT_BANK][EFUSE_MAX_HW_SIZE];
u8 fakeBTEfuseInitMap[EFUSE_BT_MAX_MAP_LEN]={0};
u8 fakeBTEfuseModifiedMap[EFUSE_BT_MAX_MAP_LEN]={0};
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u8 maskfileBuffer[32];
/*------------------------Define local variable------------------------------*/
//------------------------------------------------------------------------------
#define REG_EFUSE_CTRL 0x0030
#define EFUSE_CTRL REG_EFUSE_CTRL // E-Fuse Control.
//------------------------------------------------------------------------------
BOOLEAN
Efuse_Read1ByteFromFakeContent(
IN PADAPTER pAdapter,
IN u16 Offset,
IN OUT u8 *Value );
BOOLEAN
Efuse_Read1ByteFromFakeContent(
IN PADAPTER pAdapter,
IN u16 Offset,
IN OUT u8 *Value )
{
if(Offset >= EFUSE_MAX_HW_SIZE)
{
return _FALSE;
}
//DbgPrint("Read fake content, offset = %d\n", Offset);
if(fakeEfuseBank == 0)
*Value = fakeEfuseContent[Offset];
else
*Value = fakeBTEfuseContent[fakeEfuseBank-1][Offset];
return _TRUE;
}
BOOLEAN
Efuse_Write1ByteToFakeContent(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u8 Value );
BOOLEAN
Efuse_Write1ByteToFakeContent(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u8 Value )
{
if(Offset >= EFUSE_MAX_HW_SIZE)
{
return _FALSE;
}
if(fakeEfuseBank == 0)
fakeEfuseContent[Offset] = Value;
else
{
fakeBTEfuseContent[fakeEfuseBank-1][Offset] = Value;
}
return _TRUE;
}
/*-----------------------------------------------------------------------------
* Function: Efuse_PowerSwitch
*
* Overview: When we want to enable write operation, we should change to
* pwr on state. When we stop write, we should switch to 500k mode
* and disable LDO 2.5V.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/17/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
VOID
Efuse_PowerSwitch(
IN PADAPTER pAdapter,
IN u8 bWrite,
IN u8 PwrState)
{
pAdapter->HalFunc.EfusePowerSwitch(pAdapter, bWrite, PwrState);
}
VOID
BTEfuse_PowerSwitch(
IN PADAPTER pAdapter,
IN u8 bWrite,
IN u8 PwrState)
{
if(pAdapter->HalFunc.BTEfusePowerSwitch)
pAdapter->HalFunc.BTEfusePowerSwitch(pAdapter, bWrite, PwrState);
}
/*-----------------------------------------------------------------------------
* Function: efuse_GetCurrentSize
*
* Overview: Get current efuse size!!!
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/16/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
u16
Efuse_GetCurrentSize(
IN PADAPTER pAdapter,
IN u8 efuseType,
IN BOOLEAN bPseudoTest)
{
u16 ret=0;
ret = pAdapter->HalFunc.EfuseGetCurrentSize(pAdapter, efuseType, bPseudoTest);
return ret;
}
/* 11/16/2008 MH Add description. Get current efuse area enabled word!!. */
u8
Efuse_CalculateWordCnts(IN u8 word_en)
{
u8 word_cnts = 0;
if(!(word_en & BIT(0))) word_cnts++; // 0 : write enable
if(!(word_en & BIT(1))) word_cnts++;
if(!(word_en & BIT(2))) word_cnts++;
if(!(word_en & BIT(3))) word_cnts++;
return word_cnts;
}
//
// Description:
// Execute E-Fuse read byte operation.
// Refered from SD1 Richard.
//
// Assumption:
// 1. Boot from E-Fuse and successfully auto-load.
// 2. PASSIVE_LEVEL (USB interface)
//
// Created by Roger, 2008.10.21.
//
VOID
ReadEFuseByte(
PADAPTER Adapter,
u16 _offset,
u8 *pbuf,
IN BOOLEAN bPseudoTest)
{
u32 value32;
u8 readbyte;
u16 retry;
//u32 start=rtw_get_current_time();
if(bPseudoTest)
{
Efuse_Read1ByteFromFakeContent(Adapter, _offset, pbuf);
return;
}
if (IS_HARDWARE_TYPE_8723B(Adapter))
{
// <20130121, Kordan> For SMIC S55 EFUSE specificatoin.
//0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8])
PHY_SetMacReg(Adapter, EFUSE_TEST, BIT11, 0);
}
//Write Address
rtw_write8(Adapter, EFUSE_CTRL+1, (_offset & 0xff));
readbyte = rtw_read8(Adapter, EFUSE_CTRL+2);
rtw_write8(Adapter, EFUSE_CTRL+2, ((_offset >> 8) & 0x03) | (readbyte & 0xfc));
//Write bit 32 0
readbyte = rtw_read8(Adapter, EFUSE_CTRL+3);
rtw_write8(Adapter, EFUSE_CTRL+3, (readbyte & 0x7f));
//Check bit 32 read-ready
retry = 0;
value32 = rtw_read32(Adapter, EFUSE_CTRL);
//while(!(((value32 >> 24) & 0xff) & 0x80) && (retry<10))
while(!(((value32 >> 24) & 0xff) & 0x80) && (retry<10000))
{
value32 = rtw_read32(Adapter, EFUSE_CTRL);
retry++;
}
// 20100205 Joseph: Add delay suggested by SD1 Victor.
// This fix the problem that Efuse read error in high temperature condition.
// Designer says that there shall be some delay after ready bit is set, or the
// result will always stay on last data we read.
rtw_udelay_os(50);
value32 = rtw_read32(Adapter, EFUSE_CTRL);
*pbuf = (u8)(value32 & 0xff);
//DBG_871X("ReadEFuseByte _offset:%08u, in %d ms\n",_offset ,rtw_get_passing_time_ms(start));
}
//
// Description:
// 1. Execute E-Fuse read byte operation according as map offset and
// save to E-Fuse table.
// 2. Refered from SD1 Richard.
//
// Assumption:
// 1. Boot from E-Fuse and successfully auto-load.
// 2. PASSIVE_LEVEL (USB interface)
//
// Created by Roger, 2008.10.21.
//
// 2008/12/12 MH 1. Reorganize code flow and reserve bytes. and add description.
// 2. Add efuse utilization collect.
// 2008/12/22 MH Read Efuse must check if we write section 1 data again!!! Sec1
// write addr must be after sec5.
//
VOID
efuse_ReadEFuse(
PADAPTER Adapter,
u8 efuseType,
u16 _offset,
u16 _size_byte,
u8 *pbuf,
IN BOOLEAN bPseudoTest
);
VOID
efuse_ReadEFuse(
PADAPTER Adapter,
u8 efuseType,
u16 _offset,
u16 _size_byte,
u8 *pbuf,
IN BOOLEAN bPseudoTest
)
{
Adapter->HalFunc.ReadEFuse(Adapter, efuseType, _offset, _size_byte, pbuf, bPseudoTest);
}
VOID
EFUSE_GetEfuseDefinition(
IN PADAPTER pAdapter,
IN u8 efuseType,
IN u8 type,
OUT void *pOut,
IN BOOLEAN bPseudoTest
)
{
pAdapter->HalFunc.EFUSEGetEfuseDefinition(pAdapter, efuseType, type, pOut, bPseudoTest);
}
/*-----------------------------------------------------------------------------
* Function: EFUSE_Read1Byte
*
* Overview: Copy from WMAC fot EFUSE read 1 byte.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 09/23/2008 MHC Copy from WMAC.
*
*---------------------------------------------------------------------------*/
u8
EFUSE_Read1Byte(
IN PADAPTER Adapter,
IN u16 Address)
{
u8 data;
u8 Bytetemp = {0x00};
u8 temp = {0x00};
u32 k=0;
u16 contentLen=0;
EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
if (Address < contentLen) //E-fuse 512Byte
{
//Write E-fuse Register address bit0~7
temp = Address & 0xFF;
rtw_write8(Adapter, EFUSE_CTRL+1, temp);
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+2);
//Write E-fuse Register address bit8~9
temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);
rtw_write8(Adapter, EFUSE_CTRL+2, temp);
//Write 0x30[31]=0
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
temp = Bytetemp & 0x7F;
rtw_write8(Adapter, EFUSE_CTRL+3, temp);
//Wait Write-ready (0x30[31]=1)
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
while(!(Bytetemp & 0x80))
{
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
k++;
if(k==1000)
{
k=0;
break;
}
}
data=rtw_read8(Adapter, EFUSE_CTRL);
return data;
}
else
return 0xFF;
}/* EFUSE_Read1Byte */
/*-----------------------------------------------------------------------------
* Function: EFUSE_Write1Byte
*
* Overview: Copy from WMAC fot EFUSE write 1 byte.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 09/23/2008 MHC Copy from WMAC.
*
*---------------------------------------------------------------------------*/
void
EFUSE_Write1Byte(
IN PADAPTER Adapter,
IN u16 Address,
IN u8 Value);
void
EFUSE_Write1Byte(
IN PADAPTER Adapter,
IN u16 Address,
IN u8 Value)
{
u8 Bytetemp = {0x00};
u8 temp = {0x00};
u32 k=0;
u16 contentLen=0;
//RT_TRACE(COMP_EFUSE, DBG_LOUD, ("Addr=%x Data =%x\n", Address, Value));
EFUSE_GetEfuseDefinition(Adapter, EFUSE_WIFI , TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&contentLen, _FALSE);
if( Address < contentLen) //E-fuse 512Byte
{
rtw_write8(Adapter, EFUSE_CTRL, Value);
//Write E-fuse Register address bit0~7
temp = Address & 0xFF;
rtw_write8(Adapter, EFUSE_CTRL+1, temp);
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+2);
//Write E-fuse Register address bit8~9
temp = ((Address >> 8) & 0x03) | (Bytetemp & 0xFC);
rtw_write8(Adapter, EFUSE_CTRL+2, temp);
//Write 0x30[31]=1
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
temp = Bytetemp | 0x80;
rtw_write8(Adapter, EFUSE_CTRL+3, temp);
//Wait Write-ready (0x30[31]=0)
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
while(Bytetemp & 0x80)
{
Bytetemp = rtw_read8(Adapter, EFUSE_CTRL+3);
k++;
if(k==100)
{
k=0;
break;
}
}
}
}/* EFUSE_Write1Byte */
/* 11/16/2008 MH Read one byte from real Efuse. */
u8
efuse_OneByteRead(
IN PADAPTER pAdapter,
IN u16 addr,
IN u8 *data,
IN BOOLEAN bPseudoTest)
{
u32 tmpidx = 0;
u8 bResult;
u8 readbyte;
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
//DBG_871X("===> EFUSE_OneByteRead(), addr = %x\n", addr);
//DBG_871X("===> EFUSE_OneByteRead() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST));
if(bPseudoTest)
{
bResult = Efuse_Read1ByteFromFakeContent(pAdapter, addr, data);
return bResult;
}
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if( IS_HARDWARE_TYPE_8723B(pAdapter) ||
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(IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
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(IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
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)
{
// <20130121, Kordan> For SMIC EFUSE specificatoin.
//0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8])
//PHY_SetMacReg(pAdapter, 0x34, BIT11, 0);
rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter,0x34)& (~BIT11) );
}
// -----------------e-fuse reg ctrl ---------------------------------
//address
rtw_write8(pAdapter, EFUSE_CTRL+1, (u8)(addr&0xff));
rtw_write8(pAdapter, EFUSE_CTRL+2, ((u8)((addr>>8) &0x03) ) |
(rtw_read8(pAdapter, EFUSE_CTRL+2)&0xFC ));
//rtw_write8(pAdapter, EFUSE_CTRL+3, 0x72);//read cmd
//Write bit 32 0
readbyte = rtw_read8(pAdapter, EFUSE_CTRL+3);
rtw_write8(pAdapter, EFUSE_CTRL+3, (readbyte & 0x7f));
while(!(0x80 &rtw_read8(pAdapter, EFUSE_CTRL+3))&&(tmpidx<1000))
{
rtw_mdelay_os(1);
tmpidx++;
}
if(tmpidx<100)
{
*data=rtw_read8(pAdapter, EFUSE_CTRL);
bResult = _TRUE;
}
else
{
*data = 0xff;
bResult = _FALSE;
DBG_871X("%s: [ERROR] addr=0x%x bResult=%d time out 1s !!!\n", __FUNCTION__, addr, bResult);
DBG_871X("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
}
return bResult;
}
/* 11/16/2008 MH Write one byte to reald Efuse. */
u8
efuse_OneByteWrite(
IN PADAPTER pAdapter,
IN u16 addr,
IN u8 data,
IN BOOLEAN bPseudoTest)
{
u8 tmpidx = 0;
u8 bResult=_FALSE;
u32 efuseValue = 0;
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
//DBG_871X("===> EFUSE_OneByteWrite(), addr = %x data=%x\n", addr, data);
//DBG_871X("===> EFUSE_OneByteWrite() start, 0x34 = 0x%X\n", rtw_read32(pAdapter, EFUSE_TEST));
if(bPseudoTest)
{
bResult = Efuse_Write1ByteToFakeContent(pAdapter, addr, data);
return bResult;
}
// -----------------e-fuse reg ctrl ---------------------------------
//address
efuseValue = rtw_read32(pAdapter, EFUSE_CTRL);
efuseValue |= (BIT21|BIT31);
efuseValue &= ~(0x3FFFF);
efuseValue |= ((addr<<8 | data) & 0x3FFFF);
// <20130227, Kordan> 8192E MP chip A-cut had better not set 0x34[11] until B-Cut.
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if ( IS_HARDWARE_TYPE_8723B(pAdapter) ||
(IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
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(IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
) {
// <20130121, Kordan> For SMIC EFUSE specificatoin.
//0x34[11]: SW force PGMEN input of efuse to high. (for the bank selected by 0x34[9:8])
//PHY_SetMacReg(pAdapter, 0x34, BIT11, 1);
rtw_write16(pAdapter, 0x34, rtw_read16(pAdapter,0x34)| (BIT11) );
rtw_write32(pAdapter, EFUSE_CTRL, 0x90600000|((addr<<8 | data)) );
}
else
{
rtw_write32(pAdapter, EFUSE_CTRL, efuseValue);
}
while((0x80 & rtw_read8(pAdapter, EFUSE_CTRL+3)) && (tmpidx<100) ){
rtw_mdelay_os(1);
tmpidx++;
}
if(tmpidx<100)
{
bResult = _TRUE;
}
else
{
bResult = _FALSE;
DBG_871X("%s: [ERROR] addr=0x%x ,efuseValue=0x%x ,bResult=%d time out 1s !!! \n",
__FUNCTION__, addr, efuseValue, bResult);
DBG_871X("%s: [ERROR] EFUSE_CTRL =0x%08x !!!\n", __FUNCTION__, rtw_read32(pAdapter, EFUSE_CTRL));
}
// disable Efuse program enable
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if ( IS_HARDWARE_TYPE_8723B(pAdapter) ||
(IS_HARDWARE_TYPE_8192E(pAdapter) && (!IS_A_CUT(pHalData->VersionID))) ||
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(IS_VENDOR_8188E_I_CUT_SERIES(pAdapter)) || (IS_CHIP_VENDOR_SMIC(pHalData->VersionID))
) {
PHY_SetMacReg(pAdapter, EFUSE_TEST, BIT(11), 0);
}
return bResult;
}
int
Efuse_PgPacketRead( IN PADAPTER pAdapter,
IN u8 offset,
IN u8 *data,
IN BOOLEAN bPseudoTest)
{
int ret=0;
ret = pAdapter->HalFunc.Efuse_PgPacketRead(pAdapter, offset, data, bPseudoTest);
return ret;
}
int
Efuse_PgPacketWrite(IN PADAPTER pAdapter,
IN u8 offset,
IN u8 word_en,
IN u8 *data,
IN BOOLEAN bPseudoTest)
{
int ret;
ret = pAdapter->HalFunc.Efuse_PgPacketWrite(pAdapter, offset, word_en, data, bPseudoTest);
return ret;
}
int
Efuse_PgPacketWrite_BT(IN PADAPTER pAdapter,
IN u8 offset,
IN u8 word_en,
IN u8 *data,
IN BOOLEAN bPseudoTest)
{
int ret;
ret = pAdapter->HalFunc.Efuse_PgPacketWrite_BT(pAdapter, offset, word_en, data, bPseudoTest);
return ret;
}
/*-----------------------------------------------------------------------------
* Function: efuse_WordEnableDataRead
*
* Overview: Read allowed word in current efuse section data.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/16/2008 MHC Create Version 0.
* 11/21/2008 MHC Fix Write bug when we only enable late word.
*
*---------------------------------------------------------------------------*/
void
efuse_WordEnableDataRead(IN u8 word_en,
IN u8 *sourdata,
IN u8 *targetdata)
{
if (!(word_en&BIT(0)))
{
targetdata[0] = sourdata[0];
targetdata[1] = sourdata[1];
}
if (!(word_en&BIT(1)))
{
targetdata[2] = sourdata[2];
targetdata[3] = sourdata[3];
}
if (!(word_en&BIT(2)))
{
targetdata[4] = sourdata[4];
targetdata[5] = sourdata[5];
}
if (!(word_en&BIT(3)))
{
targetdata[6] = sourdata[6];
targetdata[7] = sourdata[7];
}
}
u8
Efuse_WordEnableDataWrite( IN PADAPTER pAdapter,
IN u16 efuse_addr,
IN u8 word_en,
IN u8 *data,
IN BOOLEAN bPseudoTest)
{
u8 ret=0;
ret = pAdapter->HalFunc.Efuse_WordEnableDataWrite(pAdapter, efuse_addr, word_en, data, bPseudoTest);
return ret;
}
static u8 efuse_read8(PADAPTER padapter, u16 address, u8 *value)
{
return efuse_OneByteRead(padapter,address, value, _FALSE);
}
static u8 efuse_write8(PADAPTER padapter, u16 address, u8 *value)
{
return efuse_OneByteWrite(padapter,address, *value, _FALSE);
}
/*
* read/wirte raw efuse data
*/
u8 rtw_efuse_access(PADAPTER padapter, u8 bWrite, u16 start_addr, u16 cnts, u8 *data)
{
int i = 0;
u16 real_content_len = 0, max_available_size = 0;
u8 res = _FAIL ;
u8 (*rw8)(PADAPTER, u16, u8*);
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_REAL_CONTENT_LEN, (PVOID)&real_content_len, _FALSE);
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_available_size, _FALSE);
if (start_addr > real_content_len)
return _FAIL;
if (_TRUE == bWrite) {
if ((start_addr + cnts) > max_available_size)
return _FAIL;
rw8 = &efuse_write8;
} else
rw8 = &efuse_read8;
Efuse_PowerSwitch(padapter, bWrite, _TRUE);
// e-fuse one byte read / write
for (i = 0; i < cnts; i++) {
if (start_addr >= real_content_len) {
res = _FAIL;
break;
}
res = rw8(padapter, start_addr++, data++);
if (_FAIL == res) break;
}
Efuse_PowerSwitch(padapter, bWrite, _FALSE);
return res;
}
//------------------------------------------------------------------------------
u16 efuse_GetMaxSize(PADAPTER padapter)
{
u16 max_size;
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max_size = 0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
return max_size;
}
//------------------------------------------------------------------------------
u8 efuse_GetCurrentSize(PADAPTER padapter, u16 *size)
{
Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
*size = Efuse_GetCurrentSize(padapter, EFUSE_WIFI, _FALSE);
Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
return _SUCCESS;
}
//------------------------------------------------------------------------------
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u16 efuse_bt_GetMaxSize(PADAPTER padapter)
{
u16 max_size;
max_size = 0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_BT , TYPE_AVAILABLE_EFUSE_BYTES_TOTAL, (PVOID)&max_size, _FALSE);
return max_size;
}
u8 efuse_bt_GetCurrentSize(PADAPTER padapter, u16 *size)
{
Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
*size = Efuse_GetCurrentSize(padapter, EFUSE_BT, _FALSE);
Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
return _SUCCESS;
}
u8 rtw_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
{
u16 mapLen=0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
if ((addr + cnts) > mapLen)
return _FAIL;
Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
efuse_ReadEFuse(padapter, EFUSE_WIFI, addr, cnts, data, _FALSE);
Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
return _SUCCESS;
}
u8 rtw_BT_efuse_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
{
u16 mapLen=0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
if ((addr + cnts) > mapLen)
return _FAIL;
Efuse_PowerSwitch(padapter, _FALSE, _TRUE);
efuse_ReadEFuse(padapter, EFUSE_BT, addr, cnts, data, _FALSE);
Efuse_PowerSwitch(padapter, _FALSE, _FALSE);
return _SUCCESS;
}
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BOOLEAN rtw_file_efuse_IsMasked(
PADAPTER pAdapter,
u16 Offset
)
{
int r = Offset/16;
int c = (Offset%16) / 2;
int result = 0;
if(pAdapter->registrypriv.boffefusemask)
return FALSE;
//DBG_871X(" %s ,Offset=%x r= %d , c=%d , maskfileBuffer[r]= %x \n",__func__,Offset,r,c,maskfileBuffer[r]);
if (c < 4) // Upper double word
result = (maskfileBuffer[r] & (0x10 << c));
else
result = (maskfileBuffer[r] & (0x01 << (c-4)));
return (result > 0) ? 0 : 1;
}
u8 rtw_efuse_file_read(PADAPTER padapter,u8 *filepatch,u8 *buf,u32 len)
{
char *ptmp;
char *ptmpbuf=NULL;
u32 rtStatus;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
ptmpbuf = rtw_zmalloc(2048);
if (ptmpbuf == NULL)
return _FALSE;
_rtw_memset(ptmpbuf,'\0',2048);
rtStatus = rtw_retrieve_from_file(filepatch, ptmpbuf, 2048);
if( rtStatus > 100 )
{
u32 i,j;
for(i=0,j=0;j<len;i+=2,j++)
{
if (( ptmpbuf[i] == ' ' ) && (ptmpbuf[i+1] != '\n' && ptmpbuf[i+1] != '\0')) {
i++;
}
if( (ptmpbuf[i+1] != '\n' && ptmpbuf[i+1] != '\0'))
{
buf[j] = simple_strtoul(&ptmpbuf[i],&ptmp, 16);
DBG_871X(" i=%d,j=%d, %x \n",i,j,buf[j]);
} else {
j--;
}
}
} else {
DBG_871X(" %s ,filepatch %s , FAIL %d\n", __func__, filepatch, rtStatus);
return _FALSE;
}
rtw_mfree(ptmpbuf, 2048);
DBG_871X(" %s ,filepatch %s , done %d\n", __func__, filepatch, rtStatus);
return _TRUE;
}
BOOLEAN
efuse_IsMasked(
PADAPTER pAdapter,
u16 Offset
)
{
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
//if (bEfuseMaskOFF(pAdapter))
if(pAdapter->registrypriv.boffefusemask)
return FALSE;
#if DEV_BUS_TYPE == RT_USB_INTERFACE
#if defined(CONFIG_RTL8188E)
if (IS_HARDWARE_TYPE_8188E(pAdapter))
return (IS_MASKED(8188E,_MUSB,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8812A)
if (IS_HARDWARE_TYPE_8812(pAdapter))
return (IS_MASKED(8812A,_MUSB,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8821A)
//if (IS_HARDWARE_TYPE_8811AU(pAdapter))
// return (IS_MASKED(8811A,_MUSB,Offset)) ? TRUE : FALSE;
if (IS_HARDWARE_TYPE_8821(pAdapter))
return (IS_MASKED(8821A,_MUSB,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8192E)
if (IS_HARDWARE_TYPE_8192E(pAdapter))
return (IS_MASKED(8192E,_MUSB,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8723B)
if (IS_HARDWARE_TYPE_8723B(pAdapter))
return (IS_MASKED(8723B,_MUSB,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8703B)
if (IS_HARDWARE_TYPE_8703B(pAdapter))
return (IS_MASKED(8703B, _MUSB, Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8814A)
if (IS_HARDWARE_TYPE_8814A(pAdapter))
return (IS_MASKED(8814A, _MUSB, Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8188F)
if (IS_HARDWARE_TYPE_8188F(pAdapter))
return (IS_MASKED(8188F, _MUSB, Offset)) ? TRUE : FALSE;
#endif
#elif DEV_BUS_TYPE == RT_PCI_INTERFACE
#if defined(CONFIG_RTL8188E)
if (IS_HARDWARE_TYPE_8188E(pAdapter))
return (IS_MASKED(8188E,_MPCIE,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8192E)
if (IS_HARDWARE_TYPE_8192E(pAdapter))
return (IS_MASKED(8192E,_MPCIE,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8812A)
if (IS_HARDWARE_TYPE_8812(pAdapter))
return (IS_MASKED(8812A,_MPCIE,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8821A)
if (IS_HARDWARE_TYPE_8821(pAdapter))
return (IS_MASKED(8821A,_MPCIE,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8723B)
if (IS_HARDWARE_TYPE_8723B(pAdapter))
return (IS_MASKED(8723B,_MPCIE,Offset)) ? TRUE : FALSE;
#endif
#if defined(CONFIG_RTL8814A)
if (IS_HARDWARE_TYPE_8814A(pAdapter))
return (IS_MASKED(8814A, _MPCIE, Offset)) ? TRUE : FALSE;
#endif
//else if (IS_HARDWARE_TYPE_8821B(pAdapter))
// return (IS_MASKED(8821B,_MPCIE,Offset)) ? TRUE : FALSE;
#elif DEV_BUS_TYPE == RT_SDIO_INTERFACE
#ifdef CONFIG_RTL8188E_SDIO
if (IS_HARDWARE_TYPE_8188E(pAdapter))
return (IS_MASKED(8188E,_MSDIO,Offset)) ? TRUE : FALSE;
#endif
#ifdef CONFIG_RTL8188F_SDIO
if (IS_HARDWARE_TYPE_8188F(pAdapter))
return (IS_MASKED(8188F, _MSDIO, Offset)) ? TRUE : FALSE;
#endif
#endif
return FALSE;
}
//------------------------------------------------------------------------------
u8 rtw_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
{
#define RT_ASSERT_RET(expr) \
if(!(expr)) { \
printk( "Assertion failed! %s at ......\n", #expr); \
printk( " ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__); \
return _FAIL; \
}
u8 offset, word_en;
u8 *map;
u8 newdata[PGPKT_DATA_SIZE];
s32 i, j, idx;
u8 ret = _SUCCESS;
u16 mapLen=0;
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
if ((addr + cnts) > mapLen)
return _FAIL;
RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); // have to be 8 byte alignment
RT_ASSERT_RET((mapLen & 0x7) == 0); // have to be PGPKT_DATA_SIZE alignment for memcpy
map = rtw_zmalloc(mapLen);
if(map == NULL){
return _FAIL;
}
_rtw_memset(map, 0xFF, mapLen);
ret = rtw_efuse_map_read(padapter, 0, mapLen, map);
if (ret == _FAIL) goto exit;
2017-05-11 18:47:23 +00:00
if(padapter->registrypriv.boffefusemask==0)
{
for (i =0; i < cnts; i++)
{
if(padapter->registrypriv.bFileMaskEfuse==_TRUE)
{
if (rtw_file_efuse_IsMasked(padapter, addr+i)) /*use file efuse mask. */
data[i] = map[addr+i];
}
else
{
if ( efuse_IsMasked(padapter, addr+i ))
data[i] = map[addr+i];
}
DBG_8192C("%s , data[%d] = %x, map[addr+i]= %x\n", __func__, i, data[i], map[addr+i]);
}
}
Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
idx = 0;
offset = (addr >> 3);
while (idx < cnts)
{
word_en = 0xF;
j = (addr + idx) & 0x7;
_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
for (i = j; i<PGPKT_DATA_SIZE && idx < cnts; i++, idx++)
{
if (data[idx] != map[addr + idx])
{
word_en &= ~BIT(i >> 1);
newdata[i] = data[idx];
#ifdef CONFIG_RTL8723B
if( addr + idx == 0x8)
{
if (IS_C_CUT(pHalData->VersionID) || IS_B_CUT(pHalData->VersionID))
{
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if(pHalData->adjuseVoltageVal == 6)
{
newdata[i] = map[addr + idx];
2017-05-11 18:47:23 +00:00
DBG_8192C(" %s ,\n adjuseVoltageVal = %d ,newdata[%d] = %x \n",__func__,pHalData->adjuseVoltageVal,i,newdata[i]);
}
}
}
#endif
}
}
if (word_en != 0xF) {
ret = Efuse_PgPacketWrite(padapter, offset, word_en, newdata, _FALSE);
DBG_871X("offset=%x \n",offset);
DBG_871X("word_en=%x \n",word_en);
for(i=0;i<PGPKT_DATA_SIZE;i++)
{
DBG_871X("data=%x \t",newdata[i]);
}
if (ret == _FAIL) break;
}
offset++;
}
Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
exit:
rtw_mfree(map, mapLen);
return ret;
}
2017-05-11 18:47:23 +00:00
u8 rtw_efuse_mask_map_read(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
{
u8 ret = _SUCCESS;
u16 mapLen = 0, i = 0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_WIFI, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
ret = rtw_efuse_map_read(padapter, addr, cnts , data);
if (padapter->registrypriv.boffefusemask == 0) {
for (i = 0; i < cnts; i++) {
if (padapter->registrypriv.bFileMaskEfuse == _TRUE) {
if (rtw_file_efuse_IsMasked(padapter, addr+i)) /*use file efuse mask.*/
data[i] = 0xff;
} else {
/*DBG_8192C(" %s , data[%d] = %x\n", __func__, i, data[i]);*/
if (efuse_IsMasked(padapter, addr+i)) {
data[i] = 0xff;
/*DBG_8192C(" %s ,mask data[%d] = %x\n", __func__, i, data[i]);*/
}
}
}
}
return ret;
}
u8 rtw_BT_efuse_map_write(PADAPTER padapter, u16 addr, u16 cnts, u8 *data)
{
#define RT_ASSERT_RET(expr) \
if(!(expr)) { \
printk( "Assertion failed! %s at ......\n", #expr); \
printk( " ......%s,%s,line=%d\n",__FILE__,__FUNCTION__,__LINE__); \
return _FAIL; \
}
u8 offset, word_en;
u8 *map;
u8 newdata[PGPKT_DATA_SIZE];
s32 i=0, j=0, idx;
u8 ret = _SUCCESS;
u16 mapLen=0;
EFUSE_GetEfuseDefinition(padapter, EFUSE_BT, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, _FALSE);
if ((addr + cnts) > mapLen)
return _FAIL;
RT_ASSERT_RET(PGPKT_DATA_SIZE == 8); // have to be 8 byte alignment
RT_ASSERT_RET((mapLen & 0x7) == 0); // have to be PGPKT_DATA_SIZE alignment for memcpy
map = rtw_zmalloc(mapLen);
if(map == NULL){
return _FAIL;
}
ret = rtw_BT_efuse_map_read(padapter, 0, mapLen, map);
if (ret == _FAIL) goto exit;
DBG_871X("OFFSET\tVALUE(hex)\n");
for (i=0; i<1024; i+=16) // set 512 because the iwpriv's extra size have limit 0x7FF
{
DBG_871X("0x%03x\t", i);
for (j=0; j<8; j++) {
DBG_871X("%02X ", map[i+j]);
}
DBG_871X("\t");
for (; j<16; j++) {
DBG_871X("%02X ", map[i+j]);
}
DBG_871X("\n");
}
DBG_871X("\n");
Efuse_PowerSwitch(padapter, _TRUE, _TRUE);
idx = 0;
offset = (addr >> 3);
while (idx < cnts)
{
word_en = 0xF;
j = (addr + idx) & 0x7;
_rtw_memcpy(newdata, &map[offset << 3], PGPKT_DATA_SIZE);
for (i = j; i<PGPKT_DATA_SIZE && idx < cnts; i++, idx++)
{
if (data[idx] != map[addr + idx])
{
word_en &= ~BIT(i >> 1);
newdata[i] = data[idx];
}
}
if (word_en != 0xF) {
DBG_871X("offset=%x \n",offset);
DBG_871X("word_en=%x \n",word_en);
DBG_871X("%s: data=", __FUNCTION__);
for(i=0;i<PGPKT_DATA_SIZE;i++)
{
DBG_871X("0x%02X ", newdata[i]);
}
DBG_871X("\n");
ret = Efuse_PgPacketWrite_BT(padapter, offset, word_en, newdata, _FALSE);
if (ret == _FAIL) break;
}
offset++;
}
Efuse_PowerSwitch(padapter, _TRUE, _FALSE);
exit:
rtw_mfree(map, mapLen);
return ret;
}
/*-----------------------------------------------------------------------------
* Function: Efuse_ReadAllMap
*
* Overview: Read All Efuse content
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/11/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
VOID
Efuse_ReadAllMap(
IN PADAPTER pAdapter,
IN u8 efuseType,
IN OUT u8 *Efuse,
IN BOOLEAN bPseudoTest);
VOID
Efuse_ReadAllMap(
IN PADAPTER pAdapter,
IN u8 efuseType,
IN OUT u8 *Efuse,
IN BOOLEAN bPseudoTest)
{
u16 mapLen=0;
Efuse_PowerSwitch(pAdapter,_FALSE, _TRUE);
EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
efuse_ReadEFuse(pAdapter, efuseType, 0, mapLen, Efuse, bPseudoTest);
Efuse_PowerSwitch(pAdapter,_FALSE, _FALSE);
}
/*-----------------------------------------------------------------------------
* Function: efuse_ShadowRead1Byte
* efuse_ShadowRead2Byte
* efuse_ShadowRead4Byte
*
* Overview: Read from efuse init map by one/two/four bytes !!!!!
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/12/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
static VOID
efuse_ShadowRead1Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN OUT u8 *Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
*Value = pHalData->efuse_eeprom_data[Offset];
} // EFUSE_ShadowRead1Byte
//---------------Read Two Bytes
static VOID
efuse_ShadowRead2Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN OUT u16 *Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
*Value = pHalData->efuse_eeprom_data[Offset];
*Value |= pHalData->efuse_eeprom_data[Offset+1]<<8;
} // EFUSE_ShadowRead2Byte
//---------------Read Four Bytes
static VOID
efuse_ShadowRead4Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN OUT u32 *Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
*Value = pHalData->efuse_eeprom_data[Offset];
*Value |= pHalData->efuse_eeprom_data[Offset+1]<<8;
*Value |= pHalData->efuse_eeprom_data[Offset+2]<<16;
*Value |= pHalData->efuse_eeprom_data[Offset+3]<<24;
} // efuse_ShadowRead4Byte
/*-----------------------------------------------------------------------------
* Function: efuse_ShadowWrite1Byte
* efuse_ShadowWrite2Byte
* efuse_ShadowWrite4Byte
*
* Overview: Write efuse modify map by one/two/four byte.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/12/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
#ifdef PLATFORM
static VOID
efuse_ShadowWrite1Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u8 Value);
#endif //PLATFORM
static VOID
efuse_ShadowWrite1Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u8 Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
pHalData->efuse_eeprom_data[Offset] = Value;
} // efuse_ShadowWrite1Byte
//---------------Write Two Bytes
static VOID
efuse_ShadowWrite2Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u16 Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
pHalData->efuse_eeprom_data[Offset] = Value&0x00FF;
pHalData->efuse_eeprom_data[Offset+1] = Value>>8;
} // efuse_ShadowWrite1Byte
//---------------Write Four Bytes
static VOID
efuse_ShadowWrite4Byte(
IN PADAPTER pAdapter,
IN u16 Offset,
IN u32 Value)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
2017-05-11 18:47:23 +00:00
pHalData->efuse_eeprom_data[Offset] = (u8)(Value&0x000000FF);
pHalData->efuse_eeprom_data[Offset+1] = (u8)((Value>>8)&0x0000FF);
pHalData->efuse_eeprom_data[Offset+2] = (u8)((Value>>16)&0x00FF);
pHalData->efuse_eeprom_data[Offset+3] = (u8)((Value>>24)&0xFF);
} // efuse_ShadowWrite1Byte
/*-----------------------------------------------------------------------------
* Function: EFUSE_ShadowMapUpdate
*
* Overview: Transfer current EFUSE content to shadow init and modify map.
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/13/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
void EFUSE_ShadowMapUpdate(
IN PADAPTER pAdapter,
IN u8 efuseType,
IN BOOLEAN bPseudoTest)
{
2017-05-11 18:47:23 +00:00
PHAL_DATA_TYPE pHalData = GET_HAL_DATA(pAdapter);
u16 mapLen=0;
EFUSE_GetEfuseDefinition(pAdapter, efuseType, TYPE_EFUSE_MAP_LEN, (PVOID)&mapLen, bPseudoTest);
2017-05-11 18:47:23 +00:00
if (pHalData->bautoload_fail_flag == _TRUE)
{
2017-05-11 18:47:23 +00:00
_rtw_memset(pHalData->efuse_eeprom_data, 0xFF, mapLen);
}
else
{
#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
2017-05-11 18:47:23 +00:00
if(_SUCCESS != retriveAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data)) {
#endif
2017-05-11 18:47:23 +00:00
Efuse_ReadAllMap(pAdapter, efuseType, pHalData->efuse_eeprom_data, bPseudoTest);
#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
2017-05-11 18:47:23 +00:00
storeAdaptorInfoFile(pAdapter->registrypriv.adaptor_info_caching_file_path, pHalData->efuse_eeprom_data);
}
#endif
}
//PlatformMoveMemory((PVOID)&pHalData->EfuseMap[EFUSE_MODIFY_MAP][0],
//(PVOID)&pHalData->EfuseMap[EFUSE_INIT_MAP][0], mapLen);
}// EFUSE_ShadowMapUpdate
/*-----------------------------------------------------------------------------
* Function: EFUSE_ShadowRead
*
* Overview: Read from efuse init map !!!!!
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/12/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
void
EFUSE_ShadowRead(
IN PADAPTER pAdapter,
IN u8 Type,
IN u16 Offset,
IN OUT u32 *Value )
{
if (Type == 1)
efuse_ShadowRead1Byte(pAdapter, Offset, (u8 *)Value);
else if (Type == 2)
efuse_ShadowRead2Byte(pAdapter, Offset, (u16 *)Value);
else if (Type == 4)
efuse_ShadowRead4Byte(pAdapter, Offset, (u32 *)Value);
} // EFUSE_ShadowRead
/*-----------------------------------------------------------------------------
* Function: EFUSE_ShadowWrite
*
* Overview: Write efuse modify map for later update operation to use!!!!!
*
* Input: NONE
*
* Output: NONE
*
* Return: NONE
*
* Revised History:
* When Who Remark
* 11/12/2008 MHC Create Version 0.
*
*---------------------------------------------------------------------------*/
VOID
EFUSE_ShadowWrite(
IN PADAPTER pAdapter,
IN u8 Type,
IN u16 Offset,
IN OUT u32 Value);
VOID
EFUSE_ShadowWrite(
IN PADAPTER pAdapter,
IN u8 Type,
IN u16 Offset,
IN OUT u32 Value)
{
#if (MP_DRIVER == 0)
return;
#endif
if ( pAdapter->registrypriv.mp_mode == 0)
return;
if (Type == 1)
efuse_ShadowWrite1Byte(pAdapter, Offset, (u8)Value);
else if (Type == 2)
efuse_ShadowWrite2Byte(pAdapter, Offset, (u16)Value);
else if (Type == 4)
efuse_ShadowWrite4Byte(pAdapter, Offset, (u32)Value);
} // EFUSE_ShadowWrite
VOID
Efuse_InitSomeVar(
IN PADAPTER pAdapter
);
VOID
Efuse_InitSomeVar(
IN PADAPTER pAdapter
)
{
u8 i;
_rtw_memset((PVOID)&fakeEfuseContent[0], 0xff, EFUSE_MAX_HW_SIZE);
_rtw_memset((PVOID)&fakeEfuseInitMap[0], 0xff, EFUSE_MAX_MAP_LEN);
_rtw_memset((PVOID)&fakeEfuseModifiedMap[0], 0xff, EFUSE_MAX_MAP_LEN);
for(i=0; i<EFUSE_MAX_BT_BANK; i++)
{
_rtw_memset((PVOID)&BTEfuseContent[i][0], EFUSE_MAX_HW_SIZE, 0xff);
}
_rtw_memset((PVOID)&BTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
_rtw_memset((PVOID)&BTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
for(i=0; i<EFUSE_MAX_BT_BANK; i++)
{
_rtw_memset((PVOID)&fakeBTEfuseContent[i][0], 0xff, EFUSE_MAX_HW_SIZE);
}
_rtw_memset((PVOID)&fakeBTEfuseInitMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
_rtw_memset((PVOID)&fakeBTEfuseModifiedMap[0], 0xff, EFUSE_BT_MAX_MAP_LEN);
}
2017-05-11 18:47:23 +00:00
const u8 _mac_hidden_max_bw_to_hal_bw_cap[MAC_HIDDEN_MAX_BW_NUM] = {
0,
0,
(BW_CAP_160M|BW_CAP_80M|BW_CAP_40M|BW_CAP_20M|BW_CAP_10M|BW_CAP_5M),
(BW_CAP_5M),
(BW_CAP_10M|BW_CAP_5M),
(BW_CAP_20M|BW_CAP_10M|BW_CAP_5M),
(BW_CAP_40M|BW_CAP_20M|BW_CAP_10M|BW_CAP_5M),
(BW_CAP_80M|BW_CAP_40M|BW_CAP_20M|BW_CAP_10M|BW_CAP_5M),
};
const u8 _mac_hidden_proto_to_hal_proto_cap[MAC_HIDDEN_PROTOCOL_NUM] = {
0,
0,
(PROTO_CAP_11N|PROTO_CAP_11G|PROTO_CAP_11B),
(PROTO_CAP_11AC|PROTO_CAP_11N|PROTO_CAP_11G|PROTO_CAP_11B),
};
u8 mac_hidden_wl_func_to_hal_wl_func(u8 func)
{
u8 wl_func = 0;
if (func & BIT0)
wl_func |= WL_FUNC_MIRACAST;
if (func & BIT1)
wl_func |= WL_FUNC_P2P;
if (func & BIT2)
wl_func |= WL_FUNC_TDLS;
if (func & BIT3)
wl_func |= WL_FUNC_FTM;
return wl_func;
}
#ifdef PLATFORM_LINUX
#ifdef CONFIG_ADAPTOR_INFO_CACHING_FILE
//#include <rtw_eeprom.h>
int isAdaptorInfoFileValid(void)
{
return _TRUE;
}
2017-05-11 18:47:23 +00:00
int storeAdaptorInfoFile(char *path, u8* efuse_data)
{
int ret =_SUCCESS;
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if(path && efuse_data) {
ret = rtw_store_to_file(path, efuse_data, EEPROM_MAX_SIZE_512);
if(ret == EEPROM_MAX_SIZE)
ret = _SUCCESS;
else
ret = _FAIL;
} else {
DBG_871X("%s NULL pointer\n",__FUNCTION__);
ret = _FAIL;
}
return ret;
}
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int retriveAdaptorInfoFile(char *path, u8* efuse_data)
{
int ret = _SUCCESS;
mm_segment_t oldfs;
struct file *fp;
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if(path && efuse_data) {
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ret = rtw_retrieve_from_file(path, efuse_data, EEPROM_MAX_SIZE);
if(ret == EEPROM_MAX_SIZE)
ret = _SUCCESS;
else
ret = _FAIL;
#if 0
if(isAdaptorInfoFileValid()) {
return 0;
} else {
return _FAIL;
}
#endif
} else {
DBG_871X("%s NULL pointer\n",__FUNCTION__);
ret = _FAIL;
}
return ret;
}
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#endif /* CONFIG_ADAPTOR_INFO_CACHING_FILE */
#ifdef CONFIG_EFUSE_CONFIG_FILE
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u32 rtw_read_efuse_from_file(const char *path, u8 *buf)
{
u32 i;
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u8 temp[3];
u32 ret = _FAIL;
struct file *fp;
mm_segment_t fs;
loff_t pos = 0;
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fp = filp_open(path, O_RDONLY, 0);
if (fp == NULL || IS_ERR(fp)) {
if (fp != NULL)
DBG_871X_LEVEL(_drv_always_, "%s open %s fail, err:%ld\n"
, __func__, path, PTR_ERR(fp));
else
DBG_871X_LEVEL(_drv_always_, "%s open %s fail, fp is NULL\n"
, __func__, path);
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goto exit;
}
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temp[2] = 0; /* add end of string '\0' */
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fs = get_fs();
set_fs(KERNEL_DS);
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for (i = 0 ; i < HWSET_MAX_SIZE ; i++) {
vfs_read(fp, temp, 2, &pos);
if (sscanf(temp, "%hhx", &buf[i]) != 1) {
if (0)
DBG_871X_LEVEL(_drv_err_, "%s sscanf fail\n", __func__);
buf[i] = 0xFF;
}
if ((i % EFUSE_FILE_COLUMN_NUM) == (EFUSE_FILE_COLUMN_NUM - 1)) {
/* Filter the lates space char. */
vfs_read(fp, temp, 1, &pos);
if (strchr(temp, ' ') == NULL) {
pos--;
vfs_read(fp, temp, 2, &pos);
}
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} else {
pos += 1; /* Filter the space character */
}
}
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set_fs(fs);
DBG_871X_LEVEL(_drv_always_, "efuse file: %s\n", path);
#ifdef CONFIG_DEBUG
for (i = 0; i < HWSET_MAX_SIZE; i++) {
if (i % 16 == 0)
DBG_871X_SEL_NL(RTW_DBGDUMP, "0x%03x: ", i);
DBG_871X_SEL(RTW_DBGDUMP, "%02X%s"
, buf[i]
, ((i + 1) % 16 == 0) ? "\n" : (((i + 1) % 8 == 0) ? " " : " ")
);
}
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DBG_871X_SEL(RTW_DBGDUMP, "\n");
#endif
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ret = _SUCCESS;
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exit:
return ret;
}
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u32 rtw_read_macaddr_from_file(const char *path, u8 *buf)
{
struct file *fp;
mm_segment_t fs;
loff_t pos = 0;
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u8 source_addr[18];
u8 *head, *end;
int i;
u32 ret = _FAIL;
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_rtw_memset(source_addr, 0, 18);
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fp = filp_open(path, O_RDONLY, 0);
if (fp == NULL || IS_ERR(fp)) {
if (fp != NULL)
DBG_871X_LEVEL(_drv_always_, "%s open %s fail, err:%ld\n"
, __func__, path, PTR_ERR(fp));
else
DBG_871X_LEVEL(_drv_always_, "%s open %s fail, fp is NULL\n"
, __func__, path);
goto exit;
}
fs = get_fs();
set_fs(KERNEL_DS);
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vfs_read(fp, source_addr, 18, &pos);
source_addr[17] = ':';
head = end = source_addr;
for (i = 0; i < ETH_ALEN; i++) {
while (end && (*end != ':'))
end++;
if (end && (*end == ':'))
*end = '\0';
if (sscanf(head, "%hhx", &buf[i]) != 1) {
if (0)
DBG_871X_LEVEL(_drv_err_, "%s sscanf fail\n", __func__);
buf[i] = 0xFF;
}
if (end) {
end++;
head = end;
}
}
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set_fs(fs);
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DBG_871X_LEVEL(_drv_always_, "wifi_mac file: %s\n", path);
#ifdef CONFIG_DEBUG
DBG_871X(MAC_FMT"\n", MAC_ARG(buf));
#endif
ret = _SUCCESS;
exit:
return ret;
}
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#endif /* CONFIG_EFUSE_CONFIG_FILE */
#endif /* PLATFORM_LINUX */