ret_t rtl8370_getAsicRegBit(uint32 reg, uint32 bit, uint32 *value)
{
#if defined(RTK_X86_ASICDRV)/*RTK-CNSD2-NickWu-20061222: for x86 compile*/
uint32 regData;
ret_t retVal;
if(bit>=RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = Access_Read(reg, 2, ®Data);
if (retVal != TRUE)
return RT_ERR_SMI;
*value = (regData & (0x1 << bit)) >> bit;
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
#elif defined(CONFIG_RTL8370_ASICDRV_TEST)
if(bit>=RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
if(reg >= RTL8370_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
*value = (Rtl8370sVirtualReg[reg] & (0x1 << bit)) >> bit;
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,Rtl8370sVirtualReg[reg]);
#else
uint32 regData;
ret_t retVal;
retVal = smi_read(reg, ®Data);
if (retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
#endif
*value = (regData & (0x1 << bit)) >> bit;
#endif
return RT_ERR_OK;
}
/* Function Name:
* rtl8367b_getAsicReg
* Description:
* Get content of asic register
* Input:
* reg - register's address
* value - Value setting to register
* Output:
* None
* Return:
* RT_ERR_OK - Success
* RT_ERR_SMI - SMI access error
* Note:
* Value 0x0000 will be returned for ASIC un-mapping address
*/
ret_t rtl8367b_getAsicReg(rtk_uint32 reg, rtk_uint32 *pValue)
{
#if defined(RTK_X86_ASICDRV)
rtk_uint32 regData;
ret_t retVal;
retVal = Access_Read(reg, 2, ®Data);
if(TRUE != retVal)
return RT_ERR_SMI;
*pValue = regData;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#elif defined(CONFIG_RTL8367B_ASICDRV_TEST)
if(reg >= CLE_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
*pValue = CleVirtualReg[reg];
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, CleVirtualReg[reg]);
#elif defined(EMBEDDED_SUPPORT)
if(reg > RTL8367B_REGDATAMAX )
return RT_ERR_INPUT;
*value = getReg(reg);
#else
rtk_uint32 regData;
ret_t retVal;
retVal = smi_read(reg, ®Data);
if(retVal != RT_ERR_OK)
return RT_ERR_SMI;
*pValue = regData;
#ifdef CONFIG_RTL865X_CLE
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#endif
#endif
return RT_ERR_OK;
}
/* Function Name:
* rtl8367b_setAsicRegBit
* Description:
* Set a bit value of a specified register
* Input:
* reg - register's address
* bit - bit location
* value - value to set. It can be value 0 or 1.
* Output:
* None
* Return:
* RT_ERR_OK - Success
* RT_ERR_SMI - SMI access error
* RT_ERR_INPUT - Invalid input parameter
* Note:
* Set a bit of a specified register to 1 or 0.
*/
ret_t rtl8367b_setAsicRegBit(rtk_uint32 reg, rtk_uint32 bit, rtk_uint32 value)
{
#if defined(RTK_X86_ASICDRV)
rtk_uint32 regData;
ret_t retVal;
if(bit >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = Access_Read(reg, 2, ®Data);
if(TRUE != retVal)
return RT_ERR_SMI;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
if(value)
regData = regData | (1 << bit);
else
regData = regData & (~(1 << bit));
retVal = Access_Write(reg,2, regData);
if(TRUE != retVal)
return RT_ERR_SMI;
if(0x8367B == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n", reg, regData);
#elif defined(CONFIG_RTL8367B_ASICDRV_TEST)
if(bit >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
else if(reg >= CLE_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
if(value)
{
CleVirtualReg[reg] = CleVirtualReg[reg] | (1 << bit);
}
else
{
CleVirtualReg[reg] = CleVirtualReg[reg] & (~(1 << bit));
}
if(0x8367B == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n", reg, CleVirtualReg[reg]);
#elif defined(EMBEDDED_SUPPORT)
rtk_uint16 tmp;
if(reg > RTL8367B_REGDATAMAX || value > 1)
return RT_ERR_INPUT;
tmp = getReg(reg);
tmp &= (1 << bitIdx);
tmp |= (value << bitIdx);
setReg(reg, tmp);
#else
rtk_uint32 regData;
ret_t retVal;
if(bit >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = smi_read(reg, ®Data);
if(retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#endif
if(value)
regData = regData | (1 << bit);
else
regData = regData & (~(1 << bit));
retVal = smi_write(reg, regData);
if(retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8367B == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n", reg, regData);
#endif
#endif
return RT_ERR_OK;
}
/* Function Name:
* rtl8367b_getAsicRegBits
* Description:
* Get bits value of a specified register
* Input:
* reg - register's address
* bits - bits mask for setting
* value - bits value for setting
* Output:
* None
* Return:
* RT_ERR_OK - Success
* RT_ERR_SMI - SMI access error
* RT_ERR_INPUT - Invalid input parameter
* Note:
* None
*/
ret_t rtl8367b_getAsicRegBits(rtk_uint32 reg, rtk_uint32 bits, rtk_uint32 *pValue)
{
#if defined(RTK_X86_ASICDRV)
rtk_uint32 regData;
ret_t retVal;
rtk_uint32 bitsShift;
if(bits >= (1 << RTL8367B_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
}
retVal = Access_Read(reg, 2, ®Data);
if(TRUE != retVal)
return RT_ERR_SMI;
*pValue = (regData & bits) >> bitsShift;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#elif defined(CONFIG_RTL8367B_ASICDRV_TEST)
rtk_uint32 bitsShift;
if(bits >= (1 << RTL8367B_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
}
if(reg >= CLE_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
*pValue = (CleVirtualReg[reg] & bits) >> bitsShift;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, CleVirtualReg[reg]);
#elif defined(EMBEDDED_SUPPORT)
rtk_uint32 regData;
rtk_uint32 bitsShift;
if(reg > RTL8367B_REGDATAMAX )
return RT_ERR_INPUT;
if(bits >= (1UL << RTL8367B_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1UL << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
}
regData = getReg(reg);
*value = (regData & bits) >> bitsShift;
#else
rtk_uint32 regData;
ret_t retVal;
rtk_uint32 bitsShift;
if(bits>= (1<<RTL8367B_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
}
retVal = smi_read(reg, ®Data);
if(retVal != RT_ERR_OK) return RT_ERR_SMI;
*pValue = (regData & bits) >> bitsShift;
#ifdef CONFIG_RTL865X_CLE
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg, regData);
#endif
#endif
return RT_ERR_OK;
}
/* Function Name:
* rtl8367b_getAsicRegBit
* Description:
* Get a bit value of a specified register
* Input:
* reg - register's address
* bit - bit location
* value - value to get.
* Output:
* None
* Return:
* RT_ERR_OK - Success
* RT_ERR_SMI - SMI access error
* RT_ERR_INPUT - Invalid input parameter
* Note:
* None
*/
ret_t rtl8367b_getAsicRegBit(rtk_uint32 reg, rtk_uint32 bit, rtk_uint32 *pValue)
{
#if defined(RTK_X86_ASICDRV)
rtk_uint32 regData;
ret_t retVal;
if(bit >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = Access_Read(reg, 2, ®Data);
if(TRUE != retVal)
return RT_ERR_SMI;
*pValue = (regData & (0x1 << bit)) >> bit;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#elif defined(CONFIG_RTL8367B_ASICDRV_TEST)
if(bit >= RTL8367B_REGBITLENGTH)
return RT_ERR_INPUT;
if(reg >= CLE_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
*pValue = (CleVirtualReg[reg] & (0x1 << bit)) >> bit;
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, CleVirtualReg[reg]);
#elif defined(EMBEDDED_SUPPORT)
rtk_uint16 tmp;
if(reg > RTL8367B_REGDATAMAX )
return RT_ERR_INPUT;
tmp = getReg(reg);
tmp = tmp >> bitIdx;
tmp &= 1;
*value = tmp;
#else
rtk_uint32 regData;
ret_t retVal;
retVal = smi_read(reg, ®Data);
if(retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8367B == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n", reg, regData);
#endif
*pValue = (regData & (0x1 << bit)) >> bit;
#endif
return RT_ERR_OK;
}
/*
@func ret_t | rtl8370_setAsicRegBits | Set bits value of a specified register.
@parm uint32 | reg | Register's address.
@parm uint32 | bits | Bits mask for setting.
@parm uint32 | value | Bits value for setting. Value of bits will be set with mapping mask bit is 1.
@rvalue RT_ERR_OK | Success.
@rvalue RT_ERR_SMI | SMI access error.
@rvalue RT_ERR_INPUT | Invalid input parameter.
@comm
Set bits of a specified register to value. Both bits and value are be treated as bit-mask.
*/
ret_t rtl8370_setAsicRegBits(uint32 reg, uint32 bits, uint32 value)
{
#if defined(RTK_X86_ASICDRV)/*RTK-CNSD2-NickWu-20061222: for x86 compile*/
uint32 regData;
ret_t retVal;
uint32 bitsShift;
uint32 valueShifted;
if(bits >= (1<<RTL8370_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
}
valueShifted = value << bitsShift;
if(valueShifted > RTL8370_REGDATAMAX)
return RT_ERR_INPUT;
retVal = Access_Read(reg, 2, ®Data);
if (retVal != TRUE)
return RT_ERR_SMI;
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
regData = regData & (~bits);
regData = regData | (valueShifted & bits);
retVal = Access_Write(reg, 2, regData);
if (retVal != TRUE)
return RT_ERR_SMI;
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,regData);
#elif defined(CONFIG_RTL8370_ASICDRV_TEST)
uint32 regData;
uint32 bitsShift;
uint32 valueShifted;
if(bits>= (1<<RTL8370_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
}
valueShifted = value << bitsShift;
if(valueShifted > RTL8370_REGDATAMAX)
return RT_ERR_INPUT;
if(reg >= RTL8370_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
regData = Rtl8370sVirtualReg[reg] & (~bits);
regData = regData | (valueShifted & bits);
Rtl8370sVirtualReg[reg] = regData;
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,regData);
#else
uint32 regData;
ret_t retVal;
uint32 bitsShift;
uint32 valueShifted;
if(bits>= (1<<RTL8370_REGBITLENGTH) )
return RT_ERR_INPUT;
bitsShift = 0;
while(!(bits & (1 << bitsShift)))
{
bitsShift++;
if(bitsShift >= RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
}
valueShifted = value << bitsShift;
if(valueShifted > RTL8370_REGDATAMAX)
return RT_ERR_INPUT;
retVal = smi_read(reg, ®Data);
if (retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
#endif
regData = regData & (~bits);
regData = regData | (valueShifted & bits);
retVal = smi_write(reg, regData);
if (retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,regData);
#endif
#endif
return RT_ERR_OK;
}
/*
@func ret_t | rtl8370_setAsicRegBit | Set a bit value of a specified register.
@parm uint32 | reg | Register's address.
@parm uint32 | bit | Bit location. For 16-bits register only. Maximun value is 15 for MSB location.
@parm uint32 | value | Value to set. It can be value 0 or 1.
@rvalue RT_ERR_OK | Success.
@rvalue RT_ERR_SMI | SMI access error.
@rvalue RT_ERR_INPUT | Invalid input parameter.
@comm
Set a bit of a specified register to 1 or 0. It is 16-bits system of RTL8366s chip.
*/
ret_t rtl8370_setAsicRegBit(uint32 reg, uint32 bit, uint32 value)
{
#if defined(RTK_X86_ASICDRV)
uint32 regData;
ret_t retVal;
if(bit >= RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = Access_Read(reg, 2, ®Data);
if (retVal != TRUE)
return RT_ERR_SMI;
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
if (value)
regData = regData | (1<<bit);
else
regData = regData & ~(1<<bit);
retVal = Access_Write(reg, 2, regData);
if (retVal != TRUE)
return RT_ERR_SMI;
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,regData);
#elif defined(CONFIG_RTL8370_ASICDRV_TEST)
if(bit>=RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
else if(reg >= RTL8370_VIRTUAL_REG_SIZE)
return RT_ERR_OUT_OF_RANGE;
if (value)
{
Rtl8370sVirtualReg[reg] = Rtl8370sVirtualReg[reg] | (1<<bit);
}
else
{
Rtl8370sVirtualReg[reg] = Rtl8370sVirtualReg[reg] & (~(1<<bit));
}
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,Rtl8370sVirtualReg[reg]);
#else
uint32 regData;
ret_t retVal;
if(bit>=RTL8370_REGBITLENGTH)
return RT_ERR_INPUT;
retVal = smi_read(reg, ®Data);
if(retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8370 == cleDebuggingDisplay)
PRINT("R[0x%4.4x]=0x%4.4x\n",reg,regData);
#endif
if (value)
regData = regData | (1<<bit);
else
regData = regData & (~(1<<bit));
retVal = smi_write(reg, regData);
if (retVal != RT_ERR_OK)
return RT_ERR_SMI;
#ifdef CONFIG_RTL865X_CLE
if(0x8370 == cleDebuggingDisplay)
PRINT("W[0x%4.4x]=0x%4.4x\n",reg,regData);
#endif
#endif
return RT_ERR_OK;
}
