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/** @file
This file implement the MMC Host Protocol for the ARM PrimeCell PL180 .
Copyright ( c ) 2011 , ARM Limited . All rights reserved .
This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution . The full text of the license may be found at
http : //opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN " AS IS " BASIS ,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND , EITHER EXPRESS OR IMPLIED .
* */
# include "PL180Mci.h"
# include <Library/DevicePathLib.h>
# include <Library/BaseMemoryLib.h>
EFI_MMC_HOST_PROTOCOL * gpMmcHost ;
// Untested ...
//#define USE_STREAM
# define MMCI0_BLOCKLEN 512
# define MMCI0_POW2_BLOCKLEN 9
# define MMCI0_TIMEOUT 1000
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BOOLEAN
MciIsPowerOn (
VOID
)
{
return ( ( MmioRead32 ( MCI_POWER_CONTROL_REG ) & 0x3 ) = = MCI_POWER_ON ) ;
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}
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EFI_STATUS
MciInitialize (
VOID
)
{
MCI_TRACE ( " MciInitialize() " ) ;
return EFI_SUCCESS ;
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}
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BOOLEAN
MciIsCardPresent (
VOID
)
{
return ( MmioRead32 ( FixedPcdGet32 ( PcdPL180SysMciRegAddress ) ) & 1 ) ;
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}
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BOOLEAN
MciIsReadOnly (
VOID
)
{
return ( MmioRead32 ( FixedPcdGet32 ( PcdPL180SysMciRegAddress ) ) & 2 ) ;
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}
// Convert block size to 2^n
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STATIC
UINT32
GetPow2BlockLen (
IN UINT32 BlockLen
)
{
UINTN Loop ;
UINTN Pow2BlockLen ;
Loop = 0x8000 ;
Pow2BlockLen = 15 ;
do {
Loop = ( Loop > > 1 ) & 0xFFFF ;
Pow2BlockLen - - ;
} while ( Pow2BlockLen & & ( ! ( Loop & BlockLen ) ) ) ;
return Pow2BlockLen ;
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}
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VOID
MciPrepareDataPath (
IN UINTN TransferDirection
)
{
// Set Data Length & Data Timer
MmioWrite32 ( MCI_DATA_TIMER_REG , 0xFFFFFFF ) ;
MmioWrite32 ( MCI_DATA_LENGTH_REG , MMCI0_BLOCKLEN ) ;
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# ifndef USE_STREAM
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//Note: we are using a hardcoded BlockLen (=512). If we decide to use a variable size, we could
// compute the pow2 of BlockLen with the above function GetPow2BlockLen()
MmioWrite32 ( MCI_DATA_CTL_REG , MCI_DATACTL_ENABLE | MCI_DATACTL_DMA_ENABLE | TransferDirection | ( MMCI0_POW2_BLOCKLEN < < 4 ) ) ;
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# else
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MmioWrite32 ( MCI_DATA_CTL_REG , MCI_DATACTL_ENABLE | MCI_DATACTL_DMA_ENABLE | TransferDirection | MCI_DATACTL_STREAM_TRANS ) ;
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# endif
}
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EFI_STATUS
MciSendCommand (
IN MMC_CMD MmcCmd ,
IN UINT32 Argument
)
{
UINT32 Status ;
UINT32 Cmd ;
UINTN RetVal ;
UINTN CmdCtrlReg ;
RetVal = EFI_SUCCESS ;
if ( ( MmcCmd = = MMC_CMD17 ) | | ( MmcCmd = = MMC_CMD11 ) ) {
MciPrepareDataPath ( MCI_DATACTL_CARD_TO_CONT ) ;
} else if ( ( MmcCmd = = MMC_CMD24 ) | | ( MmcCmd = = MMC_CMD20 ) ) {
MciPrepareDataPath ( MCI_DATACTL_CONT_TO_CARD ) ;
}
// Create Command for PL180
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Cmd = ( MMC_GET_INDX ( MmcCmd ) & INDX_MASK ) | MCI_CPSM_ENABLED ;
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if ( MmcCmd & MMC_CMD_WAIT_RESPONSE ) {
Cmd | = MCI_CPSM_WAIT_RESPONSE ;
}
if ( MmcCmd & MMC_CMD_LONG_RESPONSE ) {
Cmd | = MCI_CPSM_LONG_RESPONSE ;
}
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// Clear Status register static flags
MmioWrite32 ( MCI_CLEAR_STATUS_REG , 0x7FF ) ;
//Write to command argument register
MmioWrite32 ( MCI_ARGUMENT_REG , Argument ) ;
//Write to command register
MmioWrite32 ( MCI_COMMAND_REG , Cmd ) ;
if ( Cmd & MCI_CPSM_WAIT_RESPONSE ) {
Status = MmioRead32 ( MCI_STATUS_REG ) ;
while ( ! ( Status & ( MCI_STATUS_CMD_RESPEND | MCI_STATUS_CMD_CMDCRCFAIL | MCI_STATUS_CMD_CMDTIMEOUT | MCI_STATUS_CMD_START_BIT_ERROR ) ) ) {
Status = MmioRead32 ( MCI_STATUS_REG ) ;
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}
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if ( ( Status & MCI_STATUS_CMD_START_BIT_ERROR ) ) {
DEBUG ( ( EFI_D_ERROR , " MciSendCommand(CmdIndex:%d) Start bit Error! Response:0x%X Status:0x%x \n " , ( Cmd & 0x3F ) , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_NO_RESPONSE ;
goto Exit ;
} else if ( ( Status & MCI_STATUS_CMD_CMDTIMEOUT ) ) {
//DEBUG ((EFI_D_ERROR, "MciSendCommand(CmdIndex:%d) TIMEOUT! Response:0x%X Status:0x%x\n",(Cmd & 0x3F),MmioRead32(MCI_RESPONSE0_REG),Status));
RetVal = EFI_TIMEOUT ;
goto Exit ;
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} else if ( ( ! ( MmcCmd & MMC_CMD_NO_CRC_RESPONSE ) ) & & ( Status & MCI_STATUS_CMD_CMDCRCFAIL ) ) {
// The CMD1 and response type R3 do not contain CRC. We should ignore the CRC failed Status.
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RetVal = EFI_CRC_ERROR ;
goto Exit ;
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} else {
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RetVal = EFI_SUCCESS ;
goto Exit ;
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}
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} else {
Status = MmioRead32 ( MCI_STATUS_REG ) ;
while ( ! ( Status & ( MCI_STATUS_CMD_SENT | MCI_STATUS_CMD_CMDCRCFAIL | MCI_STATUS_CMD_CMDTIMEOUT | MCI_STATUS_CMD_START_BIT_ERROR ) ) ) {
Status = MmioRead32 ( MCI_STATUS_REG ) ;
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}
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if ( ( Status & MCI_STATUS_CMD_START_BIT_ERROR ) ) {
DEBUG ( ( EFI_D_ERROR , " MciSendCommand(CmdIndex:%d) Start bit Error! Response:0x%X Status:0x%x \n " , ( Cmd & 0x3F ) , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_NO_RESPONSE ;
goto Exit ;
} else if ( ( Status & MCI_STATUS_CMD_CMDTIMEOUT ) ) {
//DEBUG ((EFI_D_ERROR, "MciSendCommand(CmdIndex:%d) TIMEOUT! Response:0x%X Status:0x%x\n",(Cmd & 0x3F),MmioRead32(MCI_RESPONSE0_REG),Status));
RetVal = EFI_TIMEOUT ;
goto Exit ;
} else
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if ( ( ! ( MmcCmd & MMC_CMD_NO_CRC_RESPONSE ) ) & & ( Status & MCI_STATUS_CMD_CMDCRCFAIL ) ) {
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// The CMD1 does not contain CRC. We should ignore the CRC failed Status.
RetVal = EFI_CRC_ERROR ;
goto Exit ;
} else {
RetVal = EFI_SUCCESS ;
goto Exit ;
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}
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}
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Exit :
//Disable Command Path
CmdCtrlReg = MmioRead32 ( MCI_COMMAND_REG ) ;
MmioWrite32 ( MCI_COMMAND_REG , ( CmdCtrlReg & ~ MCI_CPSM_ENABLED ) ) ;
return RetVal ;
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}
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EFI_STATUS
MciReceiveResponse (
IN MMC_RESPONSE_TYPE Type ,
IN UINT32 * Buffer
)
{
if ( Buffer = = NULL ) {
return EFI_INVALID_PARAMETER ;
}
if ( ( Type = = MMC_RESPONSE_TYPE_R1 ) | | ( Type = = MMC_RESPONSE_TYPE_R1b ) | |
( Type = = MMC_RESPONSE_TYPE_R3 ) | | ( Type = = MMC_RESPONSE_TYPE_R6 ) | |
( Type = = MMC_RESPONSE_TYPE_R7 ) )
{
Buffer [ 0 ] = MmioRead32 ( MCI_RESPONSE0_REG ) ;
Buffer [ 1 ] = MmioRead32 ( MCI_RESPONSE1_REG ) ;
} else if ( Type = = MMC_RESPONSE_TYPE_R2 ) {
Buffer [ 0 ] = MmioRead32 ( MCI_RESPONSE0_REG ) ;
Buffer [ 1 ] = MmioRead32 ( MCI_RESPONSE1_REG ) ;
Buffer [ 2 ] = MmioRead32 ( MCI_RESPONSE2_REG ) ;
Buffer [ 3 ] = MmioRead32 ( MCI_RESPONSE3_REG ) ;
}
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return EFI_SUCCESS ;
}
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EFI_STATUS
MciReadBlockData (
IN EFI_LBA Lba ,
IN UINTN Length ,
IN UINT32 * Buffer
)
{
UINTN Loop ;
UINTN Finish ;
UINTN Status ;
EFI_STATUS RetVal ;
UINTN DataCtrlReg ;
RetVal = EFI_SUCCESS ;
// Read data from the RX FIFO
Loop = 0 ;
Finish = MMCI0_BLOCKLEN / 4 ;
do {
// Read the Status flags
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Status = MmioRead32 ( MCI_STATUS_REG ) ;
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// Do eight reads if possible else a single read
if ( Status & MCI_STATUS_CMD_RXFIFOHALFFULL ) {
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
} else if ( Status & MCI_STATUS_CMD_RXDATAAVAILBL ) {
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Buffer [ Loop ] = MmioRead32 ( MCI_FIFO_REG ) ;
Loop + + ;
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} else {
//Check for error conditions and timeouts
if ( Status & MCI_STATUS_CMD_DATATIMEOUT ) {
DEBUG ( ( EFI_D_ERROR , " MciReadBlockData(): TIMEOUT! Response:0x%X Status:0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_TIMEOUT ;
break ;
} else if ( Status & MCI_STATUS_CMD_DATACRCFAIL ) {
DEBUG ( ( EFI_D_ERROR , " MciReadBlockData(): CRC Error! Response:0x%X Status:0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_CRC_ERROR ;
break ;
} else if ( Status & MCI_STATUS_CMD_START_BIT_ERROR ) {
DEBUG ( ( EFI_D_ERROR , " MciReadBlockData(): Start-bit Error! Response:0x%X Status:0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_NO_RESPONSE ;
break ;
}
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}
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//clear RX over run flag
if ( Status & MCI_STATUS_CMD_RXOVERRUN ) {
MmioWrite32 ( MCI_CLEAR_STATUS_REG , MCI_STATUS_CMD_RXOVERRUN ) ;
}
} while ( ( Loop < Finish ) ) ;
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//Clear Status flags
MmioWrite32 ( MCI_CLEAR_STATUS_REG , 0x7FF ) ;
//Disable Data path
DataCtrlReg = MmioRead32 ( MCI_DATA_CTL_REG ) ;
MmioWrite32 ( MCI_DATA_CTL_REG , ( DataCtrlReg & 0xFE ) ) ;
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return RetVal ;
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}
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EFI_STATUS
MciWriteBlockData (
IN EFI_LBA Lba ,
IN UINTN Length ,
IN UINT32 * Buffer
)
{
UINTN Loop ;
UINTN Finish ;
UINTN Timer ;
UINTN Status ;
EFI_STATUS RetVal ;
UINTN DataCtrlReg ;
RetVal = EFI_SUCCESS ;
// Write the data to the TX FIFO
Loop = 0 ;
Finish = MMCI0_BLOCKLEN / 4 ;
Timer = MMCI0_TIMEOUT * 100 ;
do {
// Read the Status flags
Status = MmioRead32 ( MCI_STATUS_REG ) ;
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// Do eight writes if possible else a single write
if ( Status & MCI_STATUS_CMD_TXFIFOHALFEMPTY ) {
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
} else if ( ( Status & MCI_STATUS_CMD_TXFIFOEMPTY ) ) {
MmioWrite32 ( MCI_FIFO_REG , Buffer [ Loop ] ) ;
Loop + + ;
} else {
//Check for error conditions and timeouts
if ( Status & MCI_STATUS_CMD_DATATIMEOUT ) {
DEBUG ( ( EFI_D_ERROR , " MciWriteBlockData(): TIMEOUT! Response:0x%X Status:0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_TIMEOUT ;
goto Exit ;
} else if ( Status & MCI_STATUS_CMD_DATACRCFAIL ) {
DEBUG ( ( EFI_D_ERROR , " MciWriteBlockData(): CRC Error! Response:0x%X Status:0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status ) ) ;
RetVal = EFI_CRC_ERROR ;
goto Exit ;
} else if ( Status & MCI_STATUS_CMD_TX_UNDERRUN ) {
DEBUG ( ( EFI_D_ERROR , " MciWriteBlockData(): TX buffer Underrun! Response:0x%X Status:0x%x, Number of bytes written 0x%x \n " , MmioRead32 ( MCI_RESPONSE0_REG ) , Status , Loop ) ) ;
RetVal = EFI_BUFFER_TOO_SMALL ;
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ASSERT ( 0 ) ;
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goto Exit ;
}
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}
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} while ( Loop < Finish ) ;
// Wait for FIFO to drain
Timer = MMCI0_TIMEOUT * 60 ;
Status = MmioRead32 ( MCI_STATUS_REG ) ;
# ifndef USE_STREAM
// Single block
while ( ( ( Status & MCI_STATUS_CMD_TXDONE ) ! = MCI_STATUS_CMD_TXDONE ) & & Timer ) {
# else
// Stream
while ( ( ( Status & MCI_STATUS_CMD_DATAEND ) ! = MCI_STATUS_CMD_DATAEND ) & & Timer ) {
# endif
NanoSecondDelay ( 10 ) ;
Status = MmioRead32 ( MCI_STATUS_REG ) ;
Timer - - ;
}
if ( Timer = = 0 ) {
DEBUG ( ( EFI_D_ERROR , " MciWriteBlockData(): Data End timeout Number of bytes written 0x%x \n " , Loop ) ) ;
ASSERT ( Timer > 0 ) ;
return EFI_TIMEOUT ;
}
//Clear Status flags
MmioWrite32 ( MCI_CLEAR_STATUS_REG , 0x7FF ) ;
if ( Timer = = 0 ) {
RetVal = EFI_TIMEOUT ;
}
Exit :
//Disable Data path
DataCtrlReg = MmioRead32 ( MCI_DATA_CTL_REG ) ;
MmioWrite32 ( MCI_DATA_CTL_REG , ( DataCtrlReg & 0xFE ) ) ;
return RetVal ;
}
EFI_STATUS
MciNotifyState (
IN MMC_STATE State
)
{
UINT32 Data32 ;
switch ( State ) {
case MmcInvalidState :
ASSERT ( 0 ) ;
break ;
case MmcHwInitializationState :
// If device already turn on then restart it
Data32 = MmioRead32 ( MCI_POWER_CONTROL_REG ) ;
if ( ( Data32 & 0x2 ) = = MCI_POWER_UP ) {
MCI_TRACE ( " MciNotifyState(MmcHwInitializationState): TurnOff MCI " ) ;
// Turn off
MmioWrite32 ( MCI_CLOCK_CONTROL_REG , 0 ) ;
MmioWrite32 ( MCI_POWER_CONTROL_REG , 0 ) ;
MicroSecondDelay ( 100 ) ;
}
MCI_TRACE ( " MciNotifyState(MmcHwInitializationState): TurnOn MCI " ) ;
// Setup clock
// - 0x1D = 29 => should be the clock divider to be less than 400kHz at MCLK = 24Mhz
MmioWrite32 ( MCI_CLOCK_CONTROL_REG , 0x1D | MCI_CLOCK_ENABLE | MCI_CLOCK_POWERSAVE ) ;
//MmioWrite32(MCI_CLOCK_CONTROL_REG,0x1D | MCI_CLOCK_ENABLE);
// Set the voltage
MmioWrite32 ( MCI_POWER_CONTROL_REG , MCI_POWER_OPENDRAIN | ( 15 < < 2 ) ) ;
MmioWrite32 ( MCI_POWER_CONTROL_REG , MCI_POWER_ROD | MCI_POWER_OPENDRAIN | ( 15 < < 2 ) | MCI_POWER_UP ) ;
MicroSecondDelay ( 10 ) ;
MmioWrite32 ( MCI_POWER_CONTROL_REG , MCI_POWER_ROD | MCI_POWER_OPENDRAIN | ( 15 < < 2 ) | MCI_POWER_ON ) ;
MicroSecondDelay ( 100 ) ;
// Set Data Length & Data Timer
MmioWrite32 ( MCI_DATA_TIMER_REG , 0xFFFFF ) ;
MmioWrite32 ( MCI_DATA_LENGTH_REG , 8 ) ;
ASSERT ( ( MmioRead32 ( MCI_POWER_CONTROL_REG ) & 0x3 ) = = MCI_POWER_ON ) ;
break ;
case MmcIdleState :
MCI_TRACE ( " MciNotifyState(MmcIdleState) " ) ;
break ;
case MmcReadyState :
MCI_TRACE ( " MciNotifyState(MmcReadyState) " ) ;
break ;
case MmcIdentificationState :
MCI_TRACE ( " MciNotifyState(MmcIdentificationState) " ) ;
break ;
case MmcStandByState : {
volatile UINT32 PwrCtrlReg ;
MCI_TRACE ( " MciNotifyState(MmcStandByState) " ) ;
// Enable MCICMD push-pull drive
PwrCtrlReg = MmioRead32 ( MCI_POWER_CONTROL_REG ) ;
//Disable Open Drain output
PwrCtrlReg & = ~ ( MCI_POWER_OPENDRAIN ) ;
MmioWrite32 ( MCI_POWER_CONTROL_REG , PwrCtrlReg ) ;
// Set MMCI0 clock to 4MHz (24MHz may be possible with cache enabled)
//
// Note: Increasing clock speed causes TX FIFO under-run errors.
// So careful when optimising this driver for higher performance.
//
MmioWrite32 ( MCI_CLOCK_CONTROL_REG , 0x02 | MCI_CLOCK_ENABLE | MCI_CLOCK_POWERSAVE ) ;
// Set MMCI0 clock to 24MHz (by bypassing the divider)
//MmioWrite32(MCI_CLOCK_CONTROL_REG,MCI_CLOCK_BYPASS | MCI_CLOCK_ENABLE);
break ;
}
case MmcTransferState :
//MCI_TRACE("MciNotifyState(MmcTransferState)");
break ;
case MmcSendingDataState :
MCI_TRACE ( " MciNotifyState(MmcSendingDataState) " ) ;
break ;
case MmcReceiveDataState :
MCI_TRACE ( " MciNotifyState(MmcReceiveDataState) " ) ;
break ;
case MmcProgrammingState :
MCI_TRACE ( " MciNotifyState(MmcProgrammingState) " ) ;
break ;
case MmcDisconnectState :
MCI_TRACE ( " MciNotifyState(MmcDisconnectState) " ) ;
break ;
default :
ASSERT ( 0 ) ;
}
return EFI_SUCCESS ;
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}
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EFI_GUID mPL180MciDevicePathGuid = EFI_CALLER_ID_GUID ;
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EFI_STATUS
MciBuildDevicePath (
IN EFI_DEVICE_PATH_PROTOCOL * * DevicePath
)
{
EFI_DEVICE_PATH_PROTOCOL * NewDevicePathNode ;
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NewDevicePathNode = CreateDeviceNode ( HARDWARE_DEVICE_PATH , HW_VENDOR_DP , sizeof ( VENDOR_DEVICE_PATH ) ) ;
CopyGuid ( & ( ( VENDOR_DEVICE_PATH * ) NewDevicePathNode ) - > Guid , & mPL180MciDevicePathGuid ) ;
* DevicePath = NewDevicePathNode ;
return EFI_SUCCESS ;
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}
EFI_MMC_HOST_PROTOCOL gMciHost = {
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MciIsCardPresent ,
MciIsReadOnly ,
MciBuildDevicePath ,
MciNotifyState ,
MciSendCommand ,
MciReceiveResponse ,
MciReadBlockData ,
MciWriteBlockData
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} ;
EFI_STATUS
PL180MciDxeInitialize (
IN EFI_HANDLE ImageHandle ,
IN EFI_SYSTEM_TABLE * SystemTable
)
{
EFI_STATUS Status ;
EFI_HANDLE Handle = NULL ;
MCI_TRACE ( " PL180MciDxeInitialize() " ) ;
//Publish Component Name, BlockIO protocol interfaces
Status = gBS - > InstallMultipleProtocolInterfaces (
& Handle ,
& gEfiMmcHostProtocolGuid , & gMciHost ,
NULL
) ;
ASSERT_EFI_ERROR ( Status ) ;
return EFI_SUCCESS ;
}