diff options
author | Harald Welte <laforge@gnumonks.org> | 2011-07-04 20:52:54 +0200 |
---|---|---|
committer | Harald Welte <laforge@gnumonks.org> | 2011-07-04 20:52:54 +0200 |
commit | 044ad7c3987460ede48ff27afd6bdb0ca05a0432 (patch) | |
tree | 924818cdb0d39ca08aec540d18da7bd406eaae8c /peripherals/mci |
import at91lib from at91lib_20100901_softpack_1_9_v_1_0_svn_v1501120100901_softpack_1_9_v_1_0_svn_v15011
it's sad to see that atmel doesn't publish their svn repo or has
a centralized location or even puts proper version/release info
into the library itself
Diffstat (limited to 'peripherals/mci')
-rw-r--r-- | peripherals/mci/mci.c | 712 | ||||
-rw-r--r-- | peripherals/mci/mci.dir | 37 | ||||
-rw-r--r-- | peripherals/mci/mci.h | 227 | ||||
-rw-r--r-- | peripherals/mci/mci_hs.c | 1283 | ||||
-rw-r--r-- | peripherals/mci/mci_hs.h | 236 |
5 files changed, 2495 insertions, 0 deletions
diff --git a/peripherals/mci/mci.c b/peripherals/mci/mci.c new file mode 100644 index 0000000..d829f85 --- /dev/null +++ b/peripherals/mci/mci.c @@ -0,0 +1,712 @@ +/* ----------------------------------------------------------------------------
+ * ATMEL Microcontroller Software Support
+ * ----------------------------------------------------------------------------
+ * Copyright (c) 2008, Atmel Corporation
+ *
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * - Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the disclaimer below.
+ *
+ * Atmel's name may not be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
+ * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
+ * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+ * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ * ----------------------------------------------------------------------------
+ */
+
+//------------------------------------------------------------------------------
+// Headers
+//------------------------------------------------------------------------------
+
+#include "mci.h"
+#include <utility/assert.h>
+#include <utility/trace.h>
+
+//------------------------------------------------------------------------------
+// Local constants
+//------------------------------------------------------------------------------
+
+/// Bit mask for status register errors.
+#define STATUS_ERRORS ((unsigned int)(AT91C_MCI_UNRE \
+ | AT91C_MCI_OVRE \
+ | AT91C_MCI_DTOE \
+ | AT91C_MCI_DCRCE \
+ | AT91C_MCI_RTOE \
+ | AT91C_MCI_RENDE \
+ | AT91C_MCI_RCRCE \
+ | AT91C_MCI_RDIRE \
+ | AT91C_MCI_RINDE))
+
+/// MCI data timeout configuration with 1048576 MCK cycles between 2 data transfers.
+#define DTOR_1MEGA_CYCLES (AT91C_MCI_DTOCYC | AT91C_MCI_DTOMUL)
+
+/// MCI MR: disable MCI Clock when FIFO is full
+#ifndef AT91C_MCI_WRPROOF
+ #define AT91C_MCI_WRPROOF 0
+#endif
+#ifndef AT91C_MCI_RDPROOF
+ #define AT91C_MCI_RDPROOF 0
+#endif
+
+#define SDCARD_APP_OP_COND_CMD (41 | AT91C_MCI_SPCMD_NONE | AT91C_MCI_RSPTYP_48 | AT91C_MCI_TRCMD_NO )
+#define MMC_SEND_OP_COND_CMD (1 | AT91C_MCI_TRCMD_NO | AT91C_MCI_SPCMD_NONE | AT91C_MCI_RSPTYP_48 | AT91C_MCI_OPDCMD)
+
+
+#define DISABLE 0 // Disable MCI interface
+#define ENABLE 1 // Enable MCI interface
+
+
+//------------------------------------------------------------------------------
+// Local macros
+//------------------------------------------------------------------------------
+
+/// Used to write in PMC registers.
+#define WRITE_PMC(pPmc, regName, value) pPmc->regName = (value)
+
+/// Used to write in MCI registers.
+#define WRITE_MCI(pMci, regName, value) pMci->regName = (value)
+
+/// Used to read from MCI registers.
+#define READ_MCI(pMci, regName) (pMci->regName)
+
+/// Enable MCI Peripheral
+#define PERIPH_ENABLE(mciId) WRITE_PMC(AT91C_BASE_PMC, PMC_PCER, (1 << mciId))
+/// Disable MCI Peripheral
+#define PERIPH_DISABLE(mciId) WRITE_PMC(AT91C_BASE_PMC, PMC_PCDR, (1 << mciId))
+
+/// Enable MCI
+#define MCI_ENABLE(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIEN)
+/// Disable MCI
+#define MCI_DISABLE(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS)
+/// Reset MCI
+#define MCI_RESET(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST)
+
+//------------------------------------------------------------------------------
+// Internal functions
+//------------------------------------------------------------------------------
+
+//------------------------------------------------------------------------------
+/// Delay some loop
+//------------------------------------------------------------------------------
+static void Delay(volatile unsigned int loop)
+{
+ for(;loop > 0; loop --);
+}
+
+//------------------------------------------------------------------------------
+// Global functions
+//------------------------------------------------------------------------------
+
+//------------------------------------------------------------------------------
+/// Reset MCI interface and disable it.
+/// \param keepSettings Keep old register settings, including _MR, _SDCR, _DTOR
+//------------------------------------------------------------------------------
+void MCI_Reset(AT91PS_MCI pMciHw, unsigned int keepSettings)
+{
+ if (keepSettings) {
+
+ unsigned int mciMr, mciSdcr, mciDtor;
+
+ mciMr = READ_MCI(pMciHw, MCI_MR);
+ mciSdcr = READ_MCI(pMciHw, MCI_SDCR);
+ mciDtor = READ_MCI(pMciHw, MCI_DTOR);
+
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+ WRITE_MCI(pMciHw, MCI_MR, mciMr);
+ WRITE_MCI(pMciHw, MCI_SDCR, mciSdcr);
+ WRITE_MCI(pMciHw, MCI_DTOR, mciDtor);
+ }
+ else {
+
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Enable/disable a MCI driver instance.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param enb 0 for disable MCI and 1 for enable MCI.
+//------------------------------------------------------------------------------
+void MCI_Enable(Mci *pMci, unsigned char enb)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ // Set the Control Register: Enable/Disable MCI interface clock
+ if(enb == DISABLE) {
+ MCI_DISABLE(pMciHw);
+ }
+ else {
+ MCI_ENABLE(pMciHw);
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Initializes a MCI driver instance and the underlying peripheral.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param pMciHw Pointer to a MCI peripheral.
+/// \param mciId MCI peripheral identifier.
+/// \param mode Slot and type of connected card.
+//------------------------------------------------------------------------------
+void MCI_Init(
+ Mci *pMci,
+ AT91S_MCI *pMciHw,
+ unsigned char mciId,
+ unsigned int mode,
+ unsigned int bPolling)
+{
+ unsigned short clkDiv;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK((mode == MCI_MMC_SLOTA) || (mode == MCI_SD_SLOTA)
+ || (mode == MCI_MMC_SLOTB) || (mode == MCI_SD_SLOTB));
+
+ // Initialize the MCI driver structure
+ pMci->pMciHw = pMciHw;
+ pMci->mciId = mciId;
+ pMci->mciMode = mode;
+ pMci->bPolling = bPolling;
+ pMci->semaphore = 1;
+ pMci->pCommand = 0;
+
+#if !defined(OP_BOOTSTRAP_MCI_on) || defined(at91sam9g20)
+ // Enable the MCI peripheral
+ PERIPH_ENABLE(mciId);
+
+ // Reset the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+
+ // Disable the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+
+ // Disable all the interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, 0xFFFFFFFF);
+
+ // Set the Data Timeout Register
+ WRITE_MCI(pMciHw, MCI_DTOR, DTOR_1MEGA_CYCLES);
+
+ // Set the Mode Register: 400KHz for MCK = 48MHz (CLKDIV = 58)
+ clkDiv = (BOARD_MCK / (MCI_INITIAL_SPEED * 2)) - 1;
+ WRITE_MCI(pMciHw, MCI_MR, (clkDiv | (AT91C_MCI_PWSDIV & (0x7 << 8))));
+
+ // Set the SDCard Register
+ WRITE_MCI(pMciHw, MCI_SDCR, mode);
+
+ // Enable the MCI and the Power Saving
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIEN);
+
+ // Disable the MCI peripheral clock.
+ PERIPH_DISABLE(mciId);
+#else
+ // Assume ROM code initialize the MCI already
+ TRACE_INFO("SD bootstrap not init mci!\n\r");
+#endif
+}
+
+//------------------------------------------------------------------------------
+/// Close a MCI driver instance and the underlying peripheral.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param pMciHw Pointer to a MCI peripheral.
+/// \param mciId MCI peripheral identifier.
+//------------------------------------------------------------------------------
+void MCI_Close(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+
+ SANITY_CHECK(pMci);
+
+ if (!pMciHw)
+ return;
+
+ // Disable the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS);
+
+ // Disable all the interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, 0xFFFFFFFF);
+
+ // Disable the MCI peripheral clock.
+ WRITE_PMC(AT91C_BASE_PMC, PMC_PCDR, (1 << pMci->mciId));
+
+ // Initialize the MCI driver structure
+ pMci->semaphore = 1;
+ pMci->pCommand = 0;
+}
+
+//------------------------------------------------------------------------------
+/// Get the MCI CLKDIV in the MCI_MR register. The max. for MCI clock is
+/// MCK/2 and corresponds to CLKDIV = 0
+/// \param pMci Pointer to the low level MCI driver.
+/// \return The current speed used, 0 for fail.
+//------------------------------------------------------------------------------
+unsigned int MCI_GetSpeed(Mci *pMci, unsigned int *mciDiv)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciMr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ // Get the Mode Register
+ mciMr = READ_MCI(pMciHw, MCI_MR);
+ mciMr &= AT91C_MCI_CLKDIV;
+ if (mciDiv) *mciDiv = mciMr;
+ return (BOARD_MCK / 2 / (mciMr + 1));
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI CLKDIV in the MCI_MR register. The max. for MCI clock is
+/// MCK/2 and corresponds to CLKDIV = 0
+/// \param pMci Pointer to the low level MCI driver.
+/// \param mciSpeed MCI clock speed in Hz.
+/// \param mciLimit MCI clock limit in Hz, if not limit, set mciLimit to zero.
+/// \param mck MCK to generate MCI Clock, in Hz
+/// \return The actual speed used, 0 for fail.
+//------------------------------------------------------------------------------
+unsigned int MCI_SetSpeed(Mci *pMci,
+ unsigned int mciSpeed,
+ unsigned int mciLimit,
+ unsigned int mck)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciMr;
+ unsigned int clkdiv;
+ unsigned int divLimit = 0;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ mciMr = READ_MCI(pMciHw, MCI_MR) & (~(unsigned int)AT91C_MCI_CLKDIV);
+
+ // Multimedia Card Interface clock (MCCK or MCI_CK) is Master Clock (MCK)
+ // divided by (2*(CLKDIV+1))
+ // mciSpeed = MCK / (2*(CLKDIV+1))
+ if (mciLimit) {
+ divLimit = (mck / 2 / mciLimit);
+ if ((mck / 2) % mciLimit) divLimit ++;
+ }
+ if (mciSpeed > 0) {
+ clkdiv = (mck / 2 / mciSpeed);
+ if (mciLimit && clkdiv < divLimit)
+ clkdiv = divLimit;
+ if (clkdiv > 0)
+ clkdiv -= 1;
+ ASSERT( (clkdiv & 0xFFFFFF00) == 0, "mciSpeed too small");
+ }
+ else clkdiv = 0;
+
+ // Actual MCI speed
+ mciSpeed = mck / 2 / (clkdiv + 1);
+
+ // Set the Data Timeout Register & Completion Timeout
+ // Data timeout is 500ms, completion timeout 1s.
+ //MCI_SetTimeout(pMciHw, mciSpeed / 2, mciSpeed);
+
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | clkdiv);
+ return (mciSpeed);
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI_CFG to enable the HS mode (MCI2 only)
+/// \param pMci Pointer to the low level MCI driver.
+/// \param hsEnable 1 to enable, 0 to disable HS mode.
+//------------------------------------------------------------------------------
+void MCI_EnableHsMode(Mci *pMci, unsigned char hsEnable)
+{
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI SDCBUS in the MCI_SDCR register. Only two modes available
+///
+/// \param pMci Pointer to the low level MCI driver.
+/// \param busWidth MCI bus width mode.
+//------------------------------------------------------------------------------
+void MCI_SetBusWidth(Mci *pMci, unsigned char busWidth)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciSdcr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ mciSdcr = (READ_MCI(pMciHw, MCI_SDCR) & ~((unsigned int)AT91C_MCI_SCDBUS));
+
+ WRITE_MCI(pMciHw, MCI_SDCR, mciSdcr | busWidth);
+}
+
+//------------------------------------------------------------------------------
+/// Starts a MCI transfer. This is a non blocking function. It will return
+/// as soon as the transfer is started.
+/// Return 0 if successful; otherwise returns MCI_ERROR_LOCK if the driver is
+/// already in use.
+/// \param pMci Pointer to an MCI driver instance.
+/// \param pCommand Pointer to the command to execute.
+//------------------------------------------------------------------------------
+unsigned char MCI_SendCommand(Mci *pMci, MciCmd *pCommand)
+{
+ AT91PS_MCI pMciHw = pMci->pMciHw;
+ unsigned int mciIer, mciMr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK(pCommand);
+
+ // Try to acquire the MCI semaphore
+ if (pMci->semaphore == 0) {
+
+ return MCI_ERROR_LOCK;
+ }
+ pMci->semaphore--;
+ // TRACE_DEBUG("MCI_SendCommand %x %d\n\r", READ_MCI(pMciHw, MCI_SR), pCommand->cmd & 0x3f);
+
+ // Command is now being executed
+ pMci->pCommand = pCommand;
+ pCommand->status = MCI_STATUS_PENDING;
+
+ // Enable the MCI Peripheral clock
+ WRITE_PMC(AT91C_BASE_PMC, PMC_PCER, (1 << pMci->mciId));
+
+ // Disable MCI clock
+ //MCI_DISABLE(pMciHw);
+
+ // Init PDC direction or (SR status bits error occure)
+ if (pCommand->isRead)
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_RXTEN);
+ else
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_TXTEN);
+
+ // Disable transmitter and receiver
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_RXTDIS | AT91C_PDC_TXTDIS);
+
+ mciMr = READ_MCI(pMciHw, MCI_MR) & (~( AT91C_MCI_WRPROOF
+ | AT91C_MCI_RDPROOF
+ | AT91C_MCI_BLKLEN
+ | AT91C_MCI_PDCMODE));
+
+ // Command with DATA stage
+ if (pCommand->blockSize && pCommand->nbBlock) {
+
+ #if defined(AT91C_MCI_PDCFBYTE)
+ // Force byte mode is block size is not 4n
+ if ((pCommand->blockSize & 0x3)) {
+ mciMr |= AT91C_MCI_PDCFBYTE;
+
+ // Set byte count
+ WRITE_MCI(pMciHw, MCI_BLKR, (READ_MCI(pMciHw, MCI_BLKR)
+ & (~(unsigned int)AT91C_MCI_BCNT))
+ | pCommand->nbBlock);
+ }
+ #endif
+
+ // Enable PDC mode and set block size
+ if(pCommand->tranType != MCI_CONTINUE_TRANSFER) {
+
+
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | AT91C_MCI_PDCMODE
+ | AT91C_MCI_RDPROOF
+ | AT91C_MCI_WRPROOF
+ |(pCommand->blockSize << 16));
+ }
+
+ // Sanity check
+ if (pCommand->nbBlock == 0)
+ pCommand->nbBlock = 1;
+
+ // DATA transfer from card to host
+ if (pCommand->isRead) {
+ WRITE_MCI(pMciHw, MCI_RPR, (int) pCommand->pData);
+
+ // Update the PDC counter
+ #if defined(AT91C_MCI_PDCFBYTE)
+ if ((pCommand->blockSize & 0x3) != 0) {
+ // Force byte read
+ WRITE_MCI(pMciHw, MCI_RCR, (pCommand->nbBlock * pCommand->blockSize));
+ }
+ else
+ #endif
+ {
+ WRITE_MCI(pMciHw, MCI_RCR, (pCommand->nbBlock * pCommand->blockSize) / 4);
+ }
+ WRITE_MCI(pMciHw, MCI_RNCR, 0);
+
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_RXTEN);
+ mciIer = AT91C_MCI_ENDRX | STATUS_ERRORS;
+ }
+
+ // DATA transfer from host to card
+ else {
+
+ WRITE_MCI(pMciHw, MCI_TPR, (int) pCommand->pData);
+ // Update the PDC counter
+ #if defined(AT91C_MCI_PDCFBYTE)
+ if ((pCommand->blockSize & 0x3) != 0) {
+ // Force byte write
+ WRITE_MCI(pMciHw, MCI_TCR, (pCommand->nbBlock * pCommand->blockSize));
+ }
+ else
+ #endif
+ {
+ WRITE_MCI(pMciHw, MCI_TCR, (pCommand->nbBlock * pCommand->blockSize) / 4);
+ }
+ WRITE_MCI(pMciHw, MCI_TNCR, 0);
+ // MCI_BLKE notifies the end of Multiblock command
+ mciIer = AT91C_MCI_ENDTX | STATUS_ERRORS;
+ }
+ }
+ // Start an infinite block transfer (but no data in current command)
+ else if (pCommand->dataTran) {
+ // Set block size
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | AT91C_MCI_RDPROOF
+ | AT91C_MCI_WRPROOF
+ |(pCommand->blockSize << 16));
+ // Set data length: 0, no PDC operation
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ }
+ // No data transfer: stop at the end of the command
+ else {
+ WRITE_MCI(pMciHw, MCI_MR, mciMr);
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ }
+ // Enable MCI clock
+ MCI_ENABLE(pMciHw);
+
+ // Send the command
+ if((pCommand->tranType != MCI_CONTINUE_TRANSFER)
+ || (pCommand->blockSize == 0)) {
+
+ WRITE_MCI(pMciHw, MCI_ARGR, pCommand->arg);
+ WRITE_MCI(pMciHw, MCI_CMDR, pCommand->cmd);
+ }
+
+ // In case of transmit, the PDC shall be enabled after sending the command
+ if (pCommand->blockSize > 0) {
+ if (!pCommand->isRead) {
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_TXTEN);
+ }
+ }
+
+ // Ignore CRC error for R3 & R4
+ if (pCommand->resType == 3 || pCommand->resType == 4) {
+ mciIer &= ~((unsigned int)AT91C_MCI_RCRCE);
+ }
+ // Ignore data error on stop command :)
+ if (pCommand->tranType == MCI_STOP_TRANSFER) {
+ mciIer &= ~(unsigned int)(AT91C_MCI_DTOE | AT91C_MCI_DCRCE);
+ }
+
+ // Ignore data error
+ mciIer &= ~(unsigned int)(AT91C_MCI_UNRE | AT91C_MCI_OVRE
+ | AT91C_MCI_DTOE | AT91C_MCI_DCRCE);
+
+ // Interrupt enable shall be done after PDC TXTEN and RXTEN
+ WRITE_MCI(pMciHw, MCI_IER, mciIer);
+
+ return 0;
+}
+
+//------------------------------------------------------------------------------
+/// Check NOTBUSY and DTIP bits of status register on the given MCI driver.
+/// Return value, 0 for bus ready, 1 for bus busy
+/// \param pMci Pointer to a MCI driver instance.
+//------------------------------------------------------------------------------
+unsigned char MCI_CheckBusy(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int status;
+
+ // Enable MCI clock
+ PERIPH_ENABLE(pMci->mciId);
+ MCI_ENABLE(pMciHw);
+
+ status = READ_MCI(pMciHw, MCI_SR);
+ // TRACE_DEBUG("status %x\n\r",status);
+
+ if(((status & AT91C_MCI_NOTBUSY)!=0)
+ && ((status & AT91C_MCI_DTIP)==0)) {
+
+ // Disable MCI clock
+ MCI_DISABLE(pMciHw);
+ PERIPH_DISABLE(pMci->mciId);
+
+ return 0;
+ }
+ else {
+ return 1;
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Processes pending events on the given MCI driver.
+/// \param pMci Pointer to a MCI driver instance.
+//------------------------------------------------------------------------------
+void MCI_Handler(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ MciCmd *pCommand = pMci->pCommand;
+ unsigned int status, status0, mask;
+ unsigned char i;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK(pCommand);
+
+ // Read the status register
+ status0 = READ_MCI(pMciHw, MCI_SR);
+ mask = READ_MCI(pMciHw, MCI_IMR);
+ status = status0 & mask;
+ TRACE_DEBUG("status %x & %x, %x\n\r", status0, mask, status);
+
+ // Check if an error has occured
+ if ((status & STATUS_ERRORS) != 0) {
+
+ // Check error code
+ if ((status & STATUS_ERRORS) == AT91C_MCI_RTOE) {
+
+ pCommand->status = MCI_STATUS_NORESPONSE;
+ }
+ // if the command is SEND_OP_COND the CRC error flag is always present
+ // (cf : R3 response)
+ else if (((status & STATUS_ERRORS) != AT91C_MCI_RCRCE)
+ || ((pCommand->cmd != SDCARD_APP_OP_COND_CMD)
+ && (pCommand->cmd != MMC_SEND_OP_COND_CMD))) {
+
+ pCommand->status = MCI_STATUS_ERROR;
+ }
+ }
+
+ // Check if writing end
+ if (((status & AT91C_MCI_ENDTX) != 0)
+ || ((status & AT91C_MCI_TXBUFE) != 0)) {
+ WRITE_MCI(pMciHw, MCI_IDR, (AT91C_MCI_ENDTX|AT91C_MCI_TXBUFE));
+ if ((status0 & AT91C_MCI_BLKE) == 0)
+ WRITE_MCI(pMciHw, MCI_IER, AT91C_MCI_BLKE);
+ else
+ status |= AT91C_MCI_BLKE;
+ }
+
+ // Check if a transfer has been completed
+ if (((status & AT91C_MCI_CMDRDY) != 0)
+ || ((status & AT91C_MCI_ENDRX) != 0)
+ || ((status & AT91C_MCI_RXBUFF) != 0)
+ || ((status & AT91C_MCI_BLKE) != 0)
+ || ((status & AT91C_MCI_RTOE) != 0)) {
+
+ // Store the card response in the provided buffer
+ if (pCommand->pResp) {
+ unsigned char resSize;
+
+ switch (pCommand->resType) {
+ case 2:
+ resSize = 4;
+ break;
+
+ case 1: case 3: case 4: case 5: case 6: case 7:
+ resSize = 1;
+ break;
+
+ default:
+ resSize = 0;
+ break;
+ }
+ for (i=0; i < resSize; i++) {
+
+ pCommand->pResp[i] = READ_MCI(pMciHw, MCI_RSPR[0]);
+ }
+ }
+
+ TRACE_DEBUG(" ** CmdE\n\r");
+ Delay(1000);
+
+ // If no RD proof, FIFO may have dummy bytes
+ // Reset the MCI to clear these dummy data
+ #if (AT91C_MCI_RDPROOF == 0)
+ if ((pCommand->cmd & AT91C_MCI_TRCMD_STOP) != 0) {
+ MCI_Reset(pMciHw, 1);
+ }
+ #endif
+
+ // Disable MCI
+ MCI_DISABLE(pMciHw);
+
+ // Stop PDC
+ WRITE_MCI(pMciHw, MCI_PTCR, AT91C_PDC_RXTDIS | AT91C_PDC_TXTDIS);
+
+ // If no error occured, the transfer is successful
+ if (pCommand->status == MCI_STATUS_PENDING) {
+ pCommand->status = 0;
+ }
+ // If data in progress, reset MCI
+ else if (pCommand->dataTran) {
+ WRITE_MCI(pMciHw, MCI_TCR, 0);
+ WRITE_MCI(pMciHw, MCI_RCR, 0);
+ // Clear BUSY ... How ?
+ MCI_Reset(pMciHw, 1);
+ }
+#if 0
+ if ((status & AT91C_MCI_CMDRDY) != 0)
+ TRACE_DEBUG_WP(".");
+ if ((status & AT91C_MCI_ENDRX) != 0)
+ TRACE_DEBUG_WP("<");
+ if ((status & AT91C_MCI_ENDTX) != 0)
+ TRACE_DEBUG_WP("-");
+ if ((status & AT91C_MCI_BLKE) != 0)
+ TRACE_DEBUG_WP(">");
+ TRACE_DEBUG_WP("\n\r");
+#endif
+
+ // Disable interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, 0xFFFFFFFF);
+
+ // Disable peripheral
+ PERIPH_DISABLE(pMci->mciId);
+
+ // Release the semaphore
+ pMci->semaphore++;
+
+ // Invoke the callback associated with the current command (if any)
+ if (pCommand->callback) {
+ (pCommand->callback)(pCommand->status, pCommand);
+ }
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Returns 1 if the given MCI transfer is complete; otherwise returns 0.
+/// \param pCommand Pointer to a MciCmd instance.
+//------------------------------------------------------------------------------
+unsigned char MCI_IsTxComplete(Mci *pMci)
+{
+ MciCmd *pCommand = pMci->pCommand;
+
+ if(pMci->bPolling == MCI_POLLING_MODE) {
+ MCI_Handler(pMci);
+ }
+
+ if (pCommand->status != MCI_STATUS_PENDING) {
+ if (pCommand->status != 0) {
+ TRACE_DEBUG("MCI_IsTxComplete %d\n\r", pCommand->status);
+ }
+ return 1;
+ }
+ else {
+ return 0;
+ }
+}
diff --git a/peripherals/mci/mci.dir b/peripherals/mci/mci.dir new file mode 100644 index 0000000..28b8c85 --- /dev/null +++ b/peripherals/mci/mci.dir @@ -0,0 +1,37 @@ +/* ----------------------------------------------------------------------------
+ * ATMEL Microcontroller Software Support
+ * ----------------------------------------------------------------------------
+ * Copyright (c) 2008, Atmel Corporation
+ *
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * - Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the disclaimer below.
+ *
+ * Atmel's name may not be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
+ * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
+ * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+ * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ * ----------------------------------------------------------------------------
+ */
+
+//------------------------------------------------------------------------------
+/// \dir
+///
+/// !!!Purpose
+///
+/// Contains the peripheral API for the MultiMedia Card Interface (MCI).
+//------------------------------------------------------------------------------
+
diff --git a/peripherals/mci/mci.h b/peripherals/mci/mci.h new file mode 100644 index 0000000..5f39ec6 --- /dev/null +++ b/peripherals/mci/mci.h @@ -0,0 +1,227 @@ +/* ----------------------------------------------------------------------------
+ * ATMEL Microcontroller Software Support
+ * ----------------------------------------------------------------------------
+ * Copyright (c) 2008, Atmel Corporation
+ *
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * - Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the disclaimer below.
+ *
+ * Atmel's name may not be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
+ * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
+ * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+ * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ * ----------------------------------------------------------------------------
+ */
+
+//------------------------------------------------------------------------------
+/// \page "mci"
+///
+/// !Purpose
+///
+/// This file provides a basic API for MCI configuration and send command from host through MCI.
+/// User can control device such as SD memory card, SDIO, MMC card through these interface.
+///
+/// !Usage
+///
+/// -# Use MCI_Init() to initialize MCI controller.
+/// -# Use MCI_SetSpeed() to set the MCI clock.
+/// -# Use MCI_SetBusWidth() to set the bus width between MCI controller and device.
+/// -# MCI_SendCommand() is used for host to send command to device through MCI interface.
+/// -# MCI_Handler() is the interrupt service routine.
+///
+/// !Functions
+///
+/// -# MCI_Init: Initializes a MCI driver instance and the underlying peripheral.
+/// -# MCI_SetSpeed : Configure the MCI CLKDIV in the MCI_MR register.
+/// -# MCI_SendCommand: Starts a MCI transfer.
+/// -# MCI_Handler : Interrupt handler which is called by ISR handler.
+/// -# MCI_SetBusWidth : Configure the MCI SDCBUS in the MCI_SDCR register.
+//------------------------------------------------------------------------------
+
+
+#ifndef MCI_H
+#define MCI_H
+
+//------------------------------------------------------------------------------
+// Headers
+//------------------------------------------------------------------------------
+
+#include <board.h>
+
+#define MCI_BUSY_CHECK_FIX 0
+
+#if defined(AT91C_MCI_TRTYP_SDIO_BLOCK) && defined(AT91C_MCI_TRTYP_SDIO_BYTE)
+#define MCI_SDIO_ENABLE 1
+#else
+#define MCI_SDIO_ENABLE 0
+#endif
+
+//------------------------------------------------------------------------------
+// Constants
+//------------------------------------------------------------------------------
+
+/// Transfer is pending.
+#define MCI_STATUS_PENDING 1
+/// Transfer has been aborted because an error occured.
+#define MCI_STATUS_ERROR 2
+/// Card did not answer command.
+#define MCI_STATUS_NORESPONSE 3
+
+/// MCI driver is currently in use.
+#define MCI_ERROR_LOCK 1
+
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_1BIT)
+/// MCI configuration with 4-bit data bus on slot A (for SD cards).
+#define MCI_SD_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_4BITS)
+#ifdef AT91C_MCI_SCDBUS_8BITS
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC4_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_8BITS)
+#endif
+#ifdef AT91C_MCI_SCDSEL_SLOTB
+/// MCI configuration with 1-bit data bus on slot B (for MMC cards).
+#define MCI_MMC_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_1BIT)
+/// MCI configuration with 4-bit data bus on slot B (for SD cards).
+#define MCI_SD_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_4BITS)
+#ifdef AT91C_MCI_SCDBUS_8BITS
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC4_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_8BITS)
+#endif
+#else
+#define MCI_MMC_SLOTB MCI_MMC_SLOTA
+#define MCI_SD_SLOTB MCI_SD_SLOTA
+#endif
+
+/// Start new data transfer
+#define MCI_NEW_TRANSFER 0
+/// Continue data transfer
+#define MCI_CONTINUE_TRANSFER 1
+/// Stop data transfer
+#define MCI_STOP_TRANSFER 2
+
+
+/// MCI SD Bus Width 1-bit
+#define MCI_SDCBUS_1BIT (0 << 7)
+/// MCI SD Bus Width 4-bit
+#define MCI_SDCBUS_4BIT (1 << 7)
+/// MCI SD Bus Width 8-bit
+#define MCI_SDCBUS_8BIT (3 << 6)
+
+/// The MCI Clock Speed after initialize (400K)
+#define MCI_INITIAL_SPEED 400000
+
+#define MCI_INTERRUPT_MODE 0
+#define MCI_POLLING_MODE 1
+
+//------------------------------------------------------------------------------
+// Types
+//------------------------------------------------------------------------------
+
+/// MCI end-of-transfer callback function.
+typedef void (*MciCallback)(unsigned char status, void *pCommand);
+
+//------------------------------------------------------------------------------
+/// MCI Transfer Request prepared by the application upper layer. This structure
+/// is sent to the MCI_SendCommand function to start the transfer. At the end of
+/// the transfer, the callback is invoked by the interrupt handler.
+//------------------------------------------------------------------------------
+typedef struct _MciCmd {
+
+ /// Command code.
+ unsigned int cmd;
+ /// Command argument.
+ unsigned int arg;
+ /// Data buffer.
+ unsigned char *pData;
+ /// Size of data block in bytes.
+ unsigned short blockSize;
+ /// Number of blocks to be transfered
+ unsigned short nbBlock;
+ /// Response buffer.
+ unsigned int *pResp;
+ /// Optional user-provided callback function.
+ MciCallback callback;
+ /// Optional argument to the callback function.
+ void *pArg;
+
+ /// SD card response type.
+ unsigned char resType;
+ /// Indicate if there is data transfer
+ unsigned char dataTran;
+ /// Indicate if continue to transfer data
+ unsigned char tranType;
+ /// Indicates if the command is a read operation.
+ unsigned char isRead;
+
+ /// Command status.
+ volatile int status;
+} MciCmd;
+
+//------------------------------------------------------------------------------
+/// MCI driver structure. Holds the internal state of the MCI driver and
+/// prevents parallel access to a MCI peripheral.
+//------------------------------------------------------------------------------
+typedef struct {
+
+ /// Pointer to a MCI peripheral.
+ AT91S_MCI *pMciHw;
+ /// Pointer to currently executing command.
+ MciCmd *pCommand;
+ /// MCI peripheral identifier.
+ unsigned char mciId;
+ /// MCI HW support mode
+ unsigned char mciMode;
+ /// Mutex.
+ volatile char semaphore;
+ /// interrupt or polling mode
+ unsigned int bPolling;
+} Mci;
+
+//------------------------------------------------------------------------------
+// Global functions
+//------------------------------------------------------------------------------
+
+extern void MCI_Init(
+ Mci *pMci,
+ AT91PS_MCI pMciHw,
+ unsigned char mciId,
+ unsigned int mode,
+ unsigned int bPolling);
+
+extern unsigned int MCI_GetSpeed(Mci *pMci, unsigned int *mciDiv);
+
+extern unsigned int MCI_SetSpeed(Mci *pMci,
+ unsigned int mciSpeed,
+ unsigned int mciLimit,
+ unsigned int mck);
+
+extern unsigned char MCI_SendCommand(Mci *pMci, MciCmd *pMciCmd);
+
+extern void MCI_Handler(Mci *pMci);
+
+extern unsigned char MCI_IsTxComplete(Mci *pMci);
+
+extern unsigned char MCI_CheckBusy(Mci *pMci);
+
+extern void MCI_Close(Mci *pMci);
+
+extern void MCI_EnableHsMode(Mci * pMci, unsigned char hsEnable);
+
+extern void MCI_SetBusWidth(Mci *pMci, unsigned char busWidth);
+
+#endif //#ifndef MCI_H
+
diff --git a/peripherals/mci/mci_hs.c b/peripherals/mci/mci_hs.c new file mode 100644 index 0000000..d7c45ed --- /dev/null +++ b/peripherals/mci/mci_hs.c @@ -0,0 +1,1283 @@ +/* ----------------------------------------------------------------------------
+ * ATMEL Microcontroller Software Support
+ * ----------------------------------------------------------------------------
+ * Copyright (c) 2008, Atmel Corporation
+ *
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * - Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the disclaimer below.
+ *
+ * Atmel's name may not be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
+ * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
+ * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+ * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ * ----------------------------------------------------------------------------
+ */
+
+//------------------------------------------------------------------------------
+// Headers
+//------------------------------------------------------------------------------
+
+#include "mci_hs.h"
+#include <utility/assert.h>
+#include <utility/trace.h>
+
+#include <dmad/dmad.h>
+#include <dma/dma.h>
+
+//------------------------------------------------------------------------------
+// Local constants
+//------------------------------------------------------------------------------
+
+/// Bit mask for status register errors.
+#define STATUS_ERRORS ((unsigned int)(AT91C_MCI_UNRE \
+ | AT91C_MCI_OVRE \
+ | AT91C_MCI_BLKOVRE \
+ | AT91C_MCI_CSTOE \
+ | AT91C_MCI_DTOE \
+ | AT91C_MCI_DCRCE \
+ | AT91C_MCI_RTOE \
+ | AT91C_MCI_RENDE \
+ | AT91C_MCI_RCRCE \
+ | AT91C_MCI_RDIRE \
+ | AT91C_MCI_RINDE))
+
+#define STATUS_ERRORS_RESP ((unsigned int)(AT91C_MCI_CSTOE \
+ | AT91C_MCI_RTOE \
+ | AT91C_MCI_RENDE \
+ | AT91C_MCI_RCRCE \
+ | AT91C_MCI_RDIRE \
+ | AT91C_MCI_RINDE))
+
+#define STATUS_ERRORS_DATA ((unsigned int)(AT91C_MCI_UNRE \
+ | AT91C_MCI_OVRE \
+ | AT91C_MCI_BLKOVRE \
+ | AT91C_MCI_CSTOE \
+ | AT91C_MCI_DTOE \
+ | AT91C_MCI_DCRCE))
+
+
+/// MCI data timeout configuration with 1048576 MCK cycles between 2 data transfers.
+#define DTOR_1MEGA_CYCLES (AT91C_MCI_DTOCYC | AT91C_MCI_DTOMUL)
+
+/// MCI MR: disable MCI Clock when FIFO is full
+#ifndef AT91C_MCI_WRPROOF
+ #define AT91C_MCI_WRPROOF 0
+#endif
+#ifndef AT91C_MCI_RDPROOF
+ #define AT91C_MCI_RDPROOF 0
+#endif
+
+#define SDCARD_APP_OP_COND_CMD (41 | AT91C_MCI_SPCMD_NONE \
+ | AT91C_MCI_RSPTYP_48 \
+ | AT91C_MCI_TRCMD_NO )
+#define MMC_SEND_OP_COND_CMD (1 | AT91C_MCI_TRCMD_NO \
+ | AT91C_MCI_SPCMD_NONE \
+ | AT91C_MCI_RSPTYP_48 \
+ | AT91C_MCI_OPDCMD)
+#define SDIO_SEND_OP_COND_CMD (5 | AT91C_MCI_TRCMD_NO \
+ | AT91C_MCI_SPCMD_NONE \
+ | AT91C_MCI_RSPTYP_48 \
+ | AT91C_MCI_OPDCMD)
+
+
+#define DISABLE 0 // Disable MCI interface
+#define ENABLE 1 // Enable MCI interface
+
+
+//------------------------------------------------------------------------------
+// Local macros
+//------------------------------------------------------------------------------
+
+/// Used to write in PMC registers.
+#define WRITE_PMC(pPmc, regName, value) pPmc->regName = (value)
+
+/// Used to write in MCI registers.
+#define WRITE_MCI(pMci, regName, value) pMci->regName = (value)
+
+/// Used to read from MCI registers.
+#define READ_MCI(pMci, regName) (pMci->regName)
+
+/// Enable MCI Peripheral
+#define PERIPH_ENABLE(mciId) WRITE_PMC(AT91C_BASE_PMC, PMC_PCER, (1 << mciId))
+/// Disable MCI Peripheral
+#define PERIPH_DISABLE(mciId) WRITE_PMC(AT91C_BASE_PMC, PMC_PCDR, (1 << mciId))
+
+/// Enable MCI
+#define MCI_ENABLE(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIEN)
+/// Disable MCI
+#define MCI_DISABLE(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS)
+/// Reset MCI
+#define MCI_RESET(pMciHw) WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST)
+
+/// Return word count from byte count
+#define toHWCOUNT(byteCnt) (((byteCnt)&0x1) ? (((byteCnt)/2)+1) : ((byteCnt)/2))
+#define toWCOUNT(byteCnt) (((byteCnt)&0x3) ? (((byteCnt)/4)+1) : ((byteCnt)/4))
+
+//------------------------------------------------------------------------------
+// Local variables
+//------------------------------------------------------------------------------
+
+//static unsigned char perChunkSize = 1;
+//static unsigned char memChunkSize = 1;
+
+//------------------------------------------------------------------------------
+// Internal Functions
+//------------------------------------------------------------------------------
+#if defined(MCI_DMA_ENABLE)
+#define MCI_RD_FIFO_LIMIT 1
+
+#define MCI_FIFO_SIZE (0x4000-0x400) // 15.5K
+static unsigned short xfredBlocks = 0xFFFF;
+static unsigned char dmaLastLliNdx = 0;
+
+#define DMA_XFR_SIZE (0xF00) // SAM3: 0xFFF, 9M10: 0xFFFF
+#define NUM_LLI (5)
+#define DMA_TOTAL (DMA_XFR_SIZE*NUM_LLI)
+static DmaLinkList LLI_MCI [NUM_LLI]; // Max: > 64K Bytes
+
+#define LAST_ROW 0x100
+static void AT91F_Prepare_Multiple_Transfer(unsigned int Channel,
+ unsigned int LLI_rownumber,
+ unsigned int LLI_Last_Row,
+ unsigned int From_add,
+ unsigned int To_add,
+ unsigned int Ctrla,
+ unsigned int Ctrlb)
+{
+ LLI_MCI[LLI_rownumber].sourceAddress = From_add;
+ LLI_MCI[LLI_rownumber].destAddress = To_add;
+ LLI_MCI[LLI_rownumber].controlA = Ctrla;
+ LLI_MCI[LLI_rownumber].controlB = Ctrlb;
+ if (LLI_Last_Row != LAST_ROW)
+ LLI_MCI[LLI_rownumber].descriptor =
+ (unsigned int)&LLI_MCI[LLI_rownumber + 1] + 0;
+ else {
+ dmaLastLliNdx = LLI_rownumber;
+ LLI_MCI[LLI_rownumber].descriptor = 0;
+ }
+}
+
+// trans_size: number of transfers in SRC side
+// forceByte: 1 - byte count, 0 - word count
+static unsigned int DMACH_MCI_P2M(unsigned int channel_index,
+ unsigned char* src_addr,
+ unsigned char* dest_addr,
+ unsigned int trans_size,
+ unsigned char addrIncMode,
+ unsigned char forceByte)
+{
+ unsigned int srcAddress;
+ unsigned int destAddress;
+ unsigned int buffSize;
+ unsigned int LLI_rownumber = 0;
+ unsigned int srcAddressMode = addrIncMode ?
+ (AT91C_HDMA_SRC_ADDRESS_MODE_INCR)
+ : (AT91C_HDMA_SRC_ADDRESS_MODE_FIXED);
+ unsigned int scSize, dcSize, mWidth, perWidth, addrInc;
+
+ // Disable dma channel
+ DMA_DisableChannel(channel_index);
+
+ // DMA channel configuration
+ srcAddress = (unsigned int)src_addr; // Set the data start address
+ destAddress = (unsigned int)dest_addr; //(unsigned int)SSC_THR_ADD;
+ buffSize = trans_size;
+
+ // Memory width can be WORD if address is aligned
+ mWidth = ((destAddress & 0x3) == 0) ? AT91C_HDMA_DST_WIDTH_WORD
+ : AT91C_HDMA_DST_WIDTH_BYTE;
+ // Peripheral width is byte if FBYTE mode
+ perWidth = forceByte ? AT91C_HDMA_SRC_WIDTH_BYTE
+ : AT91C_HDMA_SRC_WIDTH_WORD;
+ addrInc = forceByte ? 1 : 4;
+ #if MCI_RD_FIFO_LIMIT
+ if(buffSize >= DMA_TOTAL){
+ TRACE_WARNING("SD DMA, size too big %d\n\r", buffSize);
+ buffSize = DMA_TOTAL;
+ }
+ #endif
+ // Set DMA channel source address
+ DMA_SetSourceAddr(channel_index, srcAddress);
+
+ // Set DMA channel destination address
+ DMA_SetDestinationAddr(channel_index,destAddress);
+
+ // Set DMA channel DSCR
+ DMA_SetDescriptorAddr(channel_index, (unsigned int)&LLI_MCI[0]);
+
+ // Set DMA channel control A
+ DMA_SetSourceBufferSize(channel_index, buffSize,
+ (perWidth >> 24),
+ (mWidth >> 28), 0);
+
+ //Set DMA channel control B
+ DMA_SetSourceBufferMode(channel_index, DMA_TRANSFER_LLI,
+ srcAddressMode >> 24);
+ DMA_SetDestBufferMode(channel_index, DMA_TRANSFER_LLI,
+ (AT91C_HDMA_DST_ADDRESS_MODE_INCR >> 28));
+
+ // Set DMA channel config
+ DMA_SetConfiguration(channel_index, BOARD_SD_DMA_HW_SRC_REQ_ID \
+ | BOARD_SD_DMA_HW_DEST_REQ_ID \
+ | AT91C_HDMA_SRC_H2SEL_HW \
+ | AT91C_HDMA_DST_H2SEL_HW \
+ | AT91C_HDMA_SOD_DISABLE \
+ | AT91C_HDMA_FIFOCFG_ENOUGHSPACE);
+
+ //scSize = (perChunkSize == 4) ? AT91C_HDMA_SCSIZE_4 : AT91C_HDMA_SCSIZE_1;
+ //dcSize = (memChunkSize == 4) ? AT91C_HDMA_DCSIZE_4 : AT91C_HDMA_DCSIZE_1;
+ scSize = AT91C_HDMA_SCSIZE_1; dcSize = AT91C_HDMA_DCSIZE_4;
+
+ // Set link list
+ buffSize *= addrInc; // convert size to byte count
+ while(destAddress < ((unsigned int)(dest_addr + buffSize))) {
+ if(((unsigned int)(dest_addr + buffSize)) - destAddress <= (DMA_XFR_SIZE*addrInc) )
+ {
+ AT91F_Prepare_Multiple_Transfer(channel_index, LLI_rownumber, LAST_ROW,
+ srcAddress,
+ destAddress,
+ (((((unsigned int)(dest_addr + buffSize))
+ - destAddress)/addrInc)
+ | perWidth
+ | mWidth
+ | scSize
+ | dcSize
+ ),
+ ( AT91C_HDMA_DST_DSCR_FETCH_FROM_MEM
+ | AT91C_HDMA_DST_ADDRESS_MODE_INCR
+ | AT91C_HDMA_SRC_DSCR_FETCH_DISABLE
+ | srcAddressMode
+ | AT91C_HDMA_FC_PER2MEM));
+ }
+ else
+ {
+ AT91F_Prepare_Multiple_Transfer(channel_index, LLI_rownumber, 0,
+ srcAddress,
+ destAddress,
+ ( (DMA_XFR_SIZE)
+ | perWidth
+ | mWidth
+ | scSize
+ | dcSize
+ ),
+ ( AT91C_HDMA_DST_DSCR_FETCH_FROM_MEM
+ | AT91C_HDMA_DST_ADDRESS_MODE_INCR
+ | AT91C_HDMA_SRC_DSCR_FETCH_DISABLE
+ | srcAddressMode
+ | AT91C_HDMA_FC_PER2MEM));
+
+ }
+
+ destAddress += DMA_XFR_SIZE*addrInc;
+
+ LLI_rownumber++;
+ }
+
+ return 0;
+}
+
+// trans_size: number of transfers in SRC side
+// forceByte: 1 - byte count, 0 - word count
+static unsigned int DMACH_MCI_M2P(unsigned int channel_index,
+ unsigned char* src_addr,
+ unsigned char* dest_addr,
+ unsigned int trans_size,
+ unsigned char addrIncMode,
+ unsigned char forceByte)
+{
+ unsigned int srcAddress;
+ unsigned int destAddress;
+ unsigned int buffSize;
+ unsigned int LLI_rownumber = 0;
+ unsigned int dstAddressMode = addrIncMode ?
+ (AT91C_HDMA_DST_ADDRESS_MODE_INCR)
+ : (AT91C_HDMA_DST_ADDRESS_MODE_FIXED);
+ unsigned int dcSize, scSize, mWidth, perWidth, addrInc;
+
+ // Disable dma channel
+ DMA_DisableChannel(channel_index);
+
+ buffSize = trans_size;
+ if(buffSize >= DMA_TOTAL){
+ TRACE_WARNING("SD DMA, size too big %d\n\r", buffSize);
+ buffSize = DMA_TOTAL;
+ }
+
+ // DMA channel configuration
+ srcAddress = (unsigned int)src_addr; // Set the data start address
+ destAddress = (unsigned int)dest_addr;
+
+ // Memory width
+ mWidth = ((srcAddress & 0x3) == 0) ? AT91C_HDMA_SRC_WIDTH_WORD
+ : AT91C_HDMA_SRC_WIDTH_BYTE;
+ // One Transfer size (1 or 4)
+ perWidth = forceByte ? AT91C_HDMA_DST_WIDTH_BYTE
+ : AT91C_HDMA_DST_WIDTH_WORD;
+ //addrInc = forceByte ? 1 : 4;
+ if (mWidth == AT91C_HDMA_SRC_WIDTH_BYTE) {
+ addrInc = 1;
+ if (!forceByte) buffSize *= 4;
+ }
+ else
+ addrInc = 4;
+
+ // Set DMA channel source address
+ DMA_SetSourceAddr(channel_index, srcAddress);
+
+ // Set DMA channel destination address
+ DMA_SetDestinationAddr(channel_index,destAddress);
+
+ // Set DMA channel DSCR
+ DMA_SetDescriptorAddr(channel_index, (unsigned int)&LLI_MCI[0]);
+
+ // Set DMA channel control A
+ DMA_SetSourceBufferSize(channel_index, buffSize,
+ (mWidth >> 24),
+ (perWidth >> 28), 0);
+
+ //Set DMA channel control B
+ DMA_SetSourceBufferMode(channel_index,
+ DMA_TRANSFER_LLI,
+ (AT91C_HDMA_SRC_ADDRESS_MODE_INCR >> 24));
+ DMA_SetDestBufferMode(channel_index,
+ DMA_TRANSFER_LLI,
+ dstAddressMode >> 28);
+
+ // Set DMA channel config
+ DMA_SetConfiguration(channel_index, BOARD_SD_DMA_HW_SRC_REQ_ID \
+ | BOARD_SD_DMA_HW_DEST_REQ_ID \
+ | AT91C_HDMA_SRC_H2SEL_SW \
+ | AT91C_HDMA_DST_H2SEL_HW \
+ | AT91C_HDMA_SOD_DISABLE \
+ | AT91C_HDMA_FIFOCFG_LARGESTBURST);
+ //dcSize = (perChunkSize == 4) ? AT91C_HDMA_DCSIZE_4 : AT91C_HDMA_DCSIZE_1;
+ //scSize = (memChunkSize == 4) ? AT91C_HDMA_SCSIZE_4 : AT91C_HDMA_SCSIZE_1;
+ dcSize = AT91C_HDMA_DCSIZE_1; scSize = AT91C_HDMA_SCSIZE_4;
+
+ // Set link list
+ buffSize *= addrInc; // convert to byte address
+ while(srcAddress < ((unsigned int)(src_addr + buffSize)))
+ {
+ if(((unsigned int)(src_addr + buffSize)) - srcAddress <= (DMA_XFR_SIZE*addrInc) )
+ {
+ AT91F_Prepare_Multiple_Transfer(channel_index, LLI_rownumber, LAST_ROW,
+ srcAddress,
+ destAddress,
+ (((((unsigned int)(src_addr + buffSize))
+ - srcAddress)/addrInc)
+ | mWidth
+ | perWidth
+ | scSize
+ | dcSize
+ ),
+ ( AT91C_HDMA_DST_DSCR_FETCH_DISABLE
+ | dstAddressMode
+ | AT91C_HDMA_SRC_DSCR_FETCH_FROM_MEM
+ | AT91C_HDMA_SRC_ADDRESS_MODE_INCR
+ | AT91C_HDMA_FC_MEM2PER));
+ }
+ else
+ {
+ AT91F_Prepare_Multiple_Transfer(channel_index, LLI_rownumber, 0,
+ srcAddress,
+ destAddress,
+ ( (DMA_XFR_SIZE)
+ | mWidth
+ | perWidth
+ | scSize
+ | dcSize
+ ),
+ ( AT91C_HDMA_DST_DSCR_FETCH_DISABLE
+ | dstAddressMode
+ | AT91C_HDMA_SRC_DSCR_FETCH_FROM_MEM
+ | AT91C_HDMA_SRC_ADDRESS_MODE_INCR
+ | AT91C_HDMA_FC_MEM2PER));
+
+ }
+
+ srcAddress += DMA_XFR_SIZE*addrInc;
+
+
+ LLI_rownumber++;
+ }
+
+ return 0;
+}
+
+static inline void DMACH_EnableIt(AT91S_MCI *pMciHw,
+ unsigned int channel)
+{
+ unsigned int intFlag;
+
+ intFlag = DMA_GetInterruptMask();
+ intFlag |= (AT91C_HDMA_BTC0 << channel);
+ DMA_EnableIt(intFlag);
+}
+#endif
+
+//------------------------------------------------------------------------------
+// Global functions
+//------------------------------------------------------------------------------
+
+//------------------------------------------------------------------------------
+/// Reset MCI interface and disable it.
+/// \param keepSettings Keep old register settings, including _MR, _SDCR, _DTOR
+//------------------------------------------------------------------------------
+void MCI_Reset(AT91PS_MCI pMciHw, unsigned int keepSettings)
+{
+ if (keepSettings) {
+
+ unsigned int mciMr, mciSdcr, mciDtor, mciCstor;
+ unsigned int mciDma, mciCfg;
+
+ mciMr = READ_MCI(pMciHw, MCI_MR);
+ mciSdcr = READ_MCI(pMciHw, MCI_SDCR);
+ mciDtor = READ_MCI(pMciHw, MCI_DTOR);
+ mciCstor = READ_MCI(pMciHw, MCI_CSTOR);
+
+ mciDma = READ_MCI(pMciHw, MCI_DMA);
+ mciCfg = READ_MCI(pMciHw, MCI_CFG);
+
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+
+ WRITE_MCI(pMciHw, MCI_MR, mciMr);
+ WRITE_MCI(pMciHw, MCI_SDCR, mciSdcr);
+ WRITE_MCI(pMciHw, MCI_DTOR, mciDtor);
+ WRITE_MCI(pMciHw, MCI_CSTOR, mciCstor);
+
+ WRITE_MCI(pMciHw, MCI_DMA, mciDma);
+ WRITE_MCI(pMciHw, MCI_CFG, mciCfg);
+ }
+ else {
+
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Enable/disable a MCI driver instance.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param enb 0 for disable MCI and 1 for enable MCI.
+//------------------------------------------------------------------------------
+void MCI_Enable(Mci *pMci, unsigned char enb)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ // Set the Control Register: Enable/Disable MCI interface clock
+ if(enb == DISABLE) {
+ MCI_DISABLE(pMciHw);
+ }
+ else {
+ MCI_ENABLE(pMciHw);
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Initializes a MCI driver instance and the underlying peripheral.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param pMciHw Pointer to a MCI peripheral.
+/// \param mciId MCI peripheral identifier.
+/// \param mode Slot and type of supported card (max bus width).
+//------------------------------------------------------------------------------
+void MCI_Init(
+ Mci *pMci,
+ AT91PS_MCI pMciHw,
+ unsigned char mciId,
+ unsigned int mode,
+ unsigned int bPolling)
+{
+ unsigned short clkDiv;
+ unsigned int mciCfg = 0;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK( (mode == MCI_MMC_SLOTA) || (mode == MCI_SD_SLOTA)
+ || (mode == MCI_MMC_SLOTB) || (mode == MCI_SD_SLOTB)
+ || (mode == MCI_MMC4_SLOTA) || (mode == MCI_MMC4_SLOTB));
+
+#if MCI_BUSY_CHECK_FIX
+ pMci->pPinDAT0 = 0;
+#endif
+
+ // Initialize the MCI driver structure
+ pMci->pMciHw = pMciHw;
+ pMci->mciId = mciId;
+ pMci->mciMode = mode;
+ pMci->bPolling = bPolling;
+ pMci->semaphore = 1;
+ pMci->pCommand = 0;
+
+#if !defined(OP_BOOTSTRAP_MCI_on)
+ // Enable the MCI clock
+ PERIPH_ENABLE(mciId);
+
+ // Reset the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_SWRST);
+
+ // Disable the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS | AT91C_MCI_PWSDIS);
+
+ // Disable all the interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, 0xFFFFFFFF);
+
+ // Set the Data Timeout Register
+ WRITE_MCI(pMciHw, MCI_DTOR, DTOR_1MEGA_CYCLES);
+
+ // Set the Mode Register: 400KHz for MCK = 48MHz (CLKDIV = 58)
+ clkDiv = (BOARD_MCK / (MCI_INITIAL_SPEED * 2)) - 1;
+ WRITE_MCI(pMciHw, MCI_MR, (clkDiv | (AT91C_MCI_PWSDIV & (0x7 << 8))));
+
+ // Set the SDCard Register
+ WRITE_MCI(pMciHw, MCI_SDCR, mode);
+
+ // Enable the MCI and the Power Saving
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIEN);
+
+ // Disable the DMA interface
+ WRITE_MCI(pMciHw, MCI_DMA, AT91C_MCI_DMAEN_DISABLE);
+
+ // Configure MCI
+ mciCfg = AT91C_MCI_FIFOMODE_AMOUNTDATA | AT91C_MCI_FERRCTRL_RWCMD;
+ //mciCfg = AT91C_MCI_FIFOMODE_ONEDATA | AT91C_MCI_FERRCTRL_RWCMD;
+
+ WRITE_MCI(pMciHw, MCI_CFG, mciCfg);
+
+ // Disable the MCI peripheral clock.
+ WRITE_PMC(AT91C_BASE_PMC, PMC_PCDR, (1 << mciId));
+#else
+ // Assume ROM code initialize the MCI already
+ TRACE_INFO("SD bootstrap not init mci!\n\r");
+#endif
+
+}
+
+#if MCI_BUSY_CHECK_FIX
+/// Invoked after MCI_Init to enable busy line fix
+void MCI_SetBusyFix(Mci *pMci, const Pin * pDAT0)
+{
+ pMci->pPinDAT0 = pDAT0;
+}
+#endif
+
+//------------------------------------------------------------------------------
+/// Close a MCI driver instance and the underlying peripheral.
+/// \param pMci Pointer to a MCI driver instance.
+/// \param pMciHw Pointer to a MCI peripheral.
+/// \param mciId MCI peripheral identifier.
+//------------------------------------------------------------------------------
+void MCI_Close(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+
+ SANITY_CHECK(pMci);
+ if (!pMciHw) return;
+
+ // Disable all the interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, 0xFFFFFFFF);
+
+ // Disable the MCI
+ WRITE_MCI(pMciHw, MCI_CR, AT91C_MCI_MCIDIS);
+
+ // Disable the MCI peripheral clock.
+ WRITE_PMC(AT91C_BASE_PMC, PMC_PCDR, (1 << pMci->mciId));
+
+ // Initialize the MCI driver structure
+ pMci->semaphore = 1;
+ pMci->pCommand = 0;
+}
+
+//------------------------------------------------------------------------------
+/// Get the MCI CLKDIV in the MCI_MR register. The max. for MCI clock is
+/// MCK/2 and corresponds to CLKDIV = 0
+/// \param pMci Pointer to the low level MCI driver.
+/// \param mciSpeed MCI clock speed in Hz.
+//------------------------------------------------------------------------------
+unsigned int MCI_GetSpeed(Mci *pMci, unsigned int *mciDiv)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciMr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ // Get the Mode Register
+ mciMr = READ_MCI(pMciHw, MCI_MR);
+ mciMr &= AT91C_MCI_CLKDIV;
+ if (mciDiv) *mciDiv = mciMr;
+ return (BOARD_MCK / 2 / (mciMr + 1));
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI CLKDIV in the MCI_MR register. The max. for MCI clock is
+/// MCK/2 and corresponds to CLKDIV = 0
+/// \param pMci Pointer to the low level MCI driver.
+/// \param mciSpeed MCI clock speed in Hz.
+/// \param mciLimit MCI clock limit in Hz, if not limit, set mciLimit to zero.
+/// \param mck MCK to generate MCI Clock, in Hz
+/// \return The actual speed used, 0 for fail.
+//------------------------------------------------------------------------------
+unsigned int MCI_SetSpeed(Mci *pMci,
+ unsigned int mciSpeed,
+ unsigned int mciLimit,
+ unsigned int mck)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciMr;
+ unsigned int clkdiv;
+ unsigned int divLimit = 0;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ mciMr = READ_MCI(pMciHw, MCI_MR) & (~(unsigned int)AT91C_MCI_CLKDIV);
+
+ // Multimedia Card Interface clock (MCCK or MCI_CK) is Master Clock (MCK)
+ // divided by (2*(CLKDIV+1))
+ // mciSpeed = MCK / (2*(CLKDIV+1))
+ if (mciLimit) {
+ divLimit = (mck / 2 / mciLimit);
+ if ((mck / 2) % mciLimit) divLimit ++;
+ }
+ if (mciSpeed > 0) {
+ clkdiv = (mck / 2 / mciSpeed);
+ if (mciLimit && clkdiv < divLimit)
+ clkdiv = divLimit;
+ if (clkdiv > 0)
+ clkdiv -= 1;
+ ASSERT( (clkdiv & 0xFFFFFF00) == 0, "mciSpeed too small");
+ }
+ else clkdiv = 0;
+
+ // Actual MCI speed
+ mciSpeed = mck / 2 / (clkdiv + 1);
+
+ // Set the Data Timeout Register & Completion Timeout
+ // Data timeout is 500ms, completion timeout 1s.
+ //MCI_SetTimeout(pMciHw, mciSpeed / 2, mciSpeed);
+
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | clkdiv);
+ return (mciSpeed);
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI_CFG to enable the HS mode
+/// \param pMci Pointer to the low level MCI driver.
+/// \param hsEnable 1 to enable, 0 to disable HS mode.
+//------------------------------------------------------------------------------
+void MCI_EnableHsMode(Mci *pMci, unsigned char hsEnable)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int cfgr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ cfgr = READ_MCI(pMciHw, MCI_CFG);
+ if (hsEnable) cfgr |= AT91C_MCI_HSMODE_ENABLE;
+ else cfgr &= ~(unsigned int)AT91C_MCI_HSMODE_ENABLE;
+ WRITE_MCI(pMciHw, MCI_CFG, cfgr);
+}
+
+//------------------------------------------------------------------------------
+/// Configure the MCI SDCBUS in the MCI_SDCR register. Only two modes available
+///
+/// \param pMci Pointer to the low level MCI driver.
+/// \param busWidth MCI bus width mode.
+//------------------------------------------------------------------------------
+void MCI_SetBusWidth(Mci *pMci, unsigned char busWidth)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int mciSdcr;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMci->pMciHw);
+
+ mciSdcr = (READ_MCI(pMciHw, MCI_SDCR) & ~((unsigned int)AT91C_MCI_SCDBUS));
+
+ WRITE_MCI(pMciHw, MCI_SDCR, mciSdcr | busWidth);
+}
+
+//------------------------------------------------------------------------------
+/// Starts a MCI transfer. This is a non blocking function. It will return
+/// as soon as the transfer is started.
+/// Return 0 if successful; otherwise returns MCI_ERROR_LOCK if the driver is
+/// already in use.
+/// \param pMci Pointer to an MCI driver instance.
+/// \param pCommand Pointer to the command to execute.
+//------------------------------------------------------------------------------
+unsigned char MCI_SendCommand(Mci *pMci, MciCmd *pCommand)
+{
+ AT91PS_MCI pMciHw = pMci->pMciHw;
+ unsigned int mciIer, mciMr;
+ unsigned int transSize;
+ unsigned int mciBlkr;
+
+ #if defined(MCI_DMA_ENABLE)
+ unsigned int mciDma;
+ #endif
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK(pCommand);
+
+ // Try to acquire the MCI semaphore
+ if (pMci->semaphore == 0) {
+
+ return MCI_ERROR_LOCK;
+ }
+ pMci->semaphore--;
+
+ // Command is now being executed
+ pMci->pCommand = pCommand;
+ pCommand->status = MCI_STATUS_PENDING;
+
+ // Enable the MCI peripheral clock
+ PERIPH_ENABLE(pMci->mciId);
+
+ // Set Default Mode register value
+ mciMr = READ_MCI(pMciHw, MCI_MR) & (~( AT91C_MCI_WRPROOF
+ |AT91C_MCI_RDPROOF
+ |AT91C_MCI_BLKLEN));
+ // Command with DATA stage
+ if (pCommand->blockSize && pCommand->nbBlock) {
+ // Enable dma
+ #if defined(MCI_DMA_ENABLE)
+ mciDma = READ_MCI(pMciHw, MCI_DMA) | AT91C_MCI_DMAEN_ENABLE;
+ WRITE_MCI(pMciHw, MCI_DMA, mciDma);
+ #endif
+
+ transSize = (pCommand->nbBlock * pCommand->blockSize);
+ #if defined(MCI_DMA_ENABLE)
+ if (pCommand->isRead) {
+ #if MCI_RD_FIFO_LIMIT
+ if (transSize > MCI_FIFO_SIZE) {
+ xfredBlocks = MCI_FIFO_SIZE/pCommand->blockSize;
+ transSize = MCI_FIFO_SIZE;
+ }
+ else
+ #endif
+ {
+ xfredBlocks = pCommand->nbBlock;
+ }
+ }
+ else {
+ xfredBlocks = pCommand->nbBlock;
+ }
+ #endif
+ if ((pCommand->blockSize & 0x3) != 0) {
+ // Force byte, DataReg & DMA should be BYTE based
+ mciMr |= AT91C_MCI_PDCFBYTE;
+ }
+ else
+ transSize = toWCOUNT(transSize);
+
+ // New transfer
+ if(pCommand->tranType == MCI_NEW_TRANSFER)
+ {
+
+ // Set block size
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | AT91C_MCI_RDPROOF
+ | AT91C_MCI_WRPROOF
+ |(pCommand->blockSize << 16));
+
+ mciBlkr = READ_MCI(pMciHw, MCI_BLKR)
+ & (~(unsigned int)AT91C_MCI_BCNT);
+ WRITE_MCI(pMciHw, MCI_BLKR, mciBlkr
+ | (transSize/pCommand->blockSize));
+ }
+
+ // DATA transfer from card to host
+ if (pCommand->isRead) {
+
+ #if defined(MCI_DMA_ENABLE)
+ DMACH_MCI_P2M(BOARD_MCI_DMA_CHANNEL,
+ (unsigned char*)&pMciHw->MCI_FIFO,
+ (unsigned char*) pCommand->pData,
+ transSize, 0,
+ (mciMr & AT91C_MCI_PDCFBYTE) > 0);
+ DMACH_EnableIt(pMciHw, BOARD_MCI_DMA_CHANNEL);
+ DMA_EnableChannel(BOARD_MCI_DMA_CHANNEL);
+ mciIer = AT91C_MCI_DMADONE | STATUS_ERRORS;
+ #else
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ #endif
+ }
+ // DATA transfer from host to card
+ else {
+
+ #if defined(MCI_DMA_ENABLE)
+ if ((mciMr & AT91C_MCI_PDCFBYTE) > 0) {
+ #if 1
+ // Still using WORD mode to write FIFO
+ DMACH_MCI_M2P(BOARD_MCI_DMA_CHANNEL,
+ (unsigned char*) pCommand->pData,
+ (unsigned char*)&pMciHw->MCI_FIFO,
+ toWCOUNT(transSize), 0,
+ 0);
+ #else
+ // Still write to TDR with WORD!
+ DMACH_MCI_M2P(BOARD_MCI_DMA_CHANNEL,
+ (unsigned char*) pCommand->pData,
+ (unsigned char*)&pMciHw->MCI_TDR,
+ toWCOUNT(transSize), 0,
+ 0);
+ #endif
+ }
+ else {
+ DMACH_MCI_M2P(BOARD_MCI_DMA_CHANNEL,
+ (unsigned char*) pCommand->pData,
+ (unsigned char*)&pMciHw->MCI_FIFO,
+ transSize, 0,
+ 0);
+ }
+ DMACH_EnableIt(pMciHw, BOARD_MCI_DMA_CHANNEL);
+ DMA_EnableChannel(BOARD_MCI_DMA_CHANNEL);
+ mciIer = AT91C_MCI_DMADONE | STATUS_ERRORS;
+ #else
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ #endif
+ }
+ }
+ // Start an infinite block transfer (but no data in current command)
+ else if (pCommand->dataTran) {
+ // Set block size
+ WRITE_MCI(pMciHw, MCI_MR, mciMr | AT91C_MCI_RDPROOF
+ | AT91C_MCI_WRPROOF
+ |(pCommand->blockSize << 16));
+ // Set data length: 0
+ mciBlkr = READ_MCI(pMciHw, MCI_BLKR) & (~(unsigned int)AT91C_MCI_BCNT);
+ WRITE_MCI(pMciHw, MCI_BLKR, mciBlkr);
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ }
+ // No data transfer: stop at the end of the command
+ else{
+ WRITE_MCI(pMciHw, MCI_MR, mciMr);
+ mciIer = AT91C_MCI_CMDRDY | STATUS_ERRORS;
+ }
+
+ // Enable MCI
+ MCI_ENABLE(pMciHw);
+
+ // Send the command
+ if((pCommand->tranType != MCI_CONTINUE_TRANSFER)
+ || (pCommand->blockSize == 0)) {
+
+ WRITE_MCI(pMciHw, MCI_ARGR, pCommand->arg);
+ WRITE_MCI(pMciHw, MCI_CMDR, pCommand->cmd);
+ }
+
+ // Ignore CRC error for R3 & R4
+ if (pCommand->resType == 3 || pCommand->resType == 4) {
+ mciIer &= ~((unsigned int)AT91C_MCI_RCRCE);
+ }
+ // Ignore errors for stop command :)
+ if (pCommand->tranType == MCI_STOP_TRANSFER) {
+ mciIer &= ~((unsigned int)(AT91C_MCI_DCRCE
+ |AT91C_MCI_BLKOVRE
+ |AT91C_MCI_DTOE
+ |AT91C_MCI_CSTOE));
+ }
+
+ // Ignore data error
+ mciIer &= ~( 0
+ | AT91C_MCI_UNRE
+ | AT91C_MCI_OVRE
+ | AT91C_MCI_DTOE
+ | AT91C_MCI_DCRCE
+ | AT91C_MCI_BLKOVRE
+ | AT91C_MCI_CSTOE
+ );
+
+ // Interrupt enable shall be done after PDC TXTEN and RXTEN
+ WRITE_MCI(pMciHw, MCI_IER, mciIer);
+
+ return 0;
+}
+
+//------------------------------------------------------------------------------
+/// Check NOTBUSY and DTIP bits of status register on the given MCI driver.
+/// Return value, 0 for bus ready, 1 for bus busy
+/// \param pMci Pointer to a MCI driver instance.
+//------------------------------------------------------------------------------
+unsigned char MCI_CheckBusy(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ volatile unsigned int status;
+
+ // Enable MCI clock
+ PERIPH_ENABLE(pMci->mciId);
+ MCI_ENABLE(pMciHw);
+
+ status = READ_MCI(pMciHw, MCI_SR);
+
+#if MCI_BUSY_CHECK_FIX
+ if ((status & AT91C_MCI_DTIP) == 0) {
+ unsigned char isBusy = 1;
+ if (pMci->pPinDAT0) {
+ Pin pinBsy;
+ pinBsy.mask = pMci->pPinDAT0->mask;
+ pinBsy.pio = pMci->pPinDAT0->pio;
+ pinBsy.id = pMci->pPinDAT0->id;
+ pinBsy.type = PIO_INPUT;
+ pinBsy.attribute = PIO_PULLUP;
+ PIO_Configure(&pinBsy, 1);
+ isBusy = (PIO_Get(&pinBsy) == 0);
+ PIO_Configure(pMci->pPinDAT0, 1);
+ }
+ else {
+ isBusy = ((status & AT91C_MCI_NOTBUSY) == 0);
+ }
+ if (isBusy == 0) {
+ MCI_DISABLE(pMciHw);
+ PERIPH_DISABLE(pMci->mciId);
+ }
+ return isBusy;
+ }
+
+ return 1;
+#else
+
+ if( ((status & AT91C_MCI_NOTBUSY)!=0)
+ && ((status & AT91C_MCI_DTIP)==0)
+ ) {
+
+ // Disable MCI clock
+ MCI_DISABLE(pMciHw);
+ PERIPH_DISABLE(pMci->mciId);
+ return 0;
+ }
+ else {
+ return 1;
+ }
+#endif
+}
+
+//------------------------------------------------------------------------------
+/// Processes pending events on the given MCI driver.
+/// \param pMci Pointer to a MCI driver instance.
+//------------------------------------------------------------------------------
+void MCI_Handler(Mci *pMci)
+{
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ MciCmd *pCommand = pMci->pCommand;
+ volatile unsigned int status;
+ unsigned int status0, mask;
+ unsigned char i;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pMciHw);
+ SANITY_CHECK(pCommand);
+
+ // Read the status register
+ status0 = READ_MCI(pMciHw, MCI_SR);
+ mask = READ_MCI(pMciHw, MCI_IMR);
+ //TRACE_INFO("iST %x\n\r", status);
+ status = status0 & mask;
+ //TRACE_INFO("iSM %x\n\r", status);
+
+ // Check if an error has occured
+ if ((status & STATUS_ERRORS) != 0) {
+
+ // Check error code
+ if ((status & STATUS_ERRORS) == AT91C_MCI_RTOE) {
+
+ pCommand->status = MCI_STATUS_NORESPONSE;
+ }
+ else {
+
+ pCommand->status = MCI_STATUS_ERROR;
+ }
+ TRACE_INFO("iErr%x\n\r", (status & STATUS_ERRORS));
+ }
+ mask &= ~STATUS_ERRORS;
+
+ // Check if a command has been completed
+ if (status & AT91C_MCI_CMDRDY) {
+
+ WRITE_MCI(pMciHw, MCI_IDR, AT91C_MCI_CMDRDY);
+ if (pCommand->isRead == 0 &&
+ pCommand->tranType == MCI_STOP_TRANSFER) {
+ if (status0 & AT91C_MCI_XFRDONE) {
+ MCI_DISABLE(pMciHw);
+ }
+ else {
+ WRITE_MCI(pMciHw, MCI_IER, AT91C_MCI_XFRDONE);
+ }
+ }
+ else {
+ mask &= ~(unsigned int)AT91C_MCI_CMDRDY;
+ if (pCommand->dataTran == 0) {
+ MCI_DISABLE(pMciHw);
+ }
+ }
+ }
+
+ // Check if transfer stopped
+ if (status & AT91C_MCI_XFRDONE) {
+ mask &= ~(unsigned int)AT91C_MCI_XFRDONE;
+ MCI_DISABLE(pMciHw);
+ }
+
+#if defined(MCI_DMA_ENABLE)
+
+ // Check FIFOEMPTY
+ if (status & AT91C_MCI_FIFOEMPTY) {
+
+ WRITE_MCI(pMciHw, MCI_IDR, AT91C_MCI_FIFOEMPTY);
+ if ( pCommand->isRead == 0 &&
+ (status0 & AT91C_MCI_BLKE) == 0 ) {
+ WRITE_MCI(pMciHw, MCI_IER, AT91C_MCI_BLKE);
+ }
+ else {
+ mask &= ~(unsigned int)AT91C_MCI_FIFOEMPTY;
+ MCI_DISABLE(pMciHw);
+ }
+ }
+ if (status & AT91C_MCI_BLKE) {
+ mask &= ~(unsigned int)AT91C_MCI_BLKE;
+ MCI_DISABLE(pMciHw);
+ }
+
+ // Check if a DMA transfer has been completed
+ if ( (status & AT91C_MCI_DMADONE)
+ && (LLI_MCI[dmaLastLliNdx].controlA & AT91C_HDMA_DONE)) {
+
+ unsigned int intFlag;
+ intFlag = DMA_GetInterruptMask();
+ intFlag = ~intFlag;
+ intFlag |= (AT91C_HDMA_BTC0 << BOARD_MCI_DMA_CHANNEL);
+ DMA_DisableIt(intFlag);
+
+ // All data transferred
+ if (xfredBlocks >= pCommand->nbBlock) {
+
+ WRITE_MCI(pMciHw, MCI_IDR, AT91C_MCI_DMADONE);
+ if ( pCommand->isRead == 0 &&
+ (status0 & AT91C_MCI_FIFOEMPTY) == 0 ) {
+ WRITE_MCI(pMciHw, MCI_IER, AT91C_MCI_FIFOEMPTY);
+ }
+ else {
+ MCI_DISABLE(pMciHw);
+ mask &= ~(unsigned int)AT91C_MCI_DMADONE;
+ }
+ }
+ // Start later part of DMA
+ else {
+ unsigned int transSize;
+ unsigned char* p;
+ p = &pCommand->pData[xfredBlocks*pCommand->blockSize];
+ transSize = ((pCommand->nbBlock - xfredBlocks)
+ * pCommand->blockSize);
+ if (transSize > MCI_FIFO_SIZE) {
+ transSize = MCI_FIFO_SIZE;
+ xfredBlocks += MCI_FIFO_SIZE/pCommand->blockSize;
+ }
+ else {
+ xfredBlocks = pCommand->nbBlock;
+ }
+ #if 0
+ WRITE_MCI(pMciHw, MCI_BLKR, (READ_MCI(pMciHw, MCI_BLKR)
+ & (~(unsigned int)AT91C_MCI_BCNT))
+ | (transSize/pCommand->blockSize));
+ #endif
+ if ((pCommand->blockSize & 0x3) == 0) {
+ transSize = toWCOUNT(transSize);
+ }
+ DMACH_MCI_P2M(BOARD_MCI_DMA_CHANNEL,
+ (unsigned char*)&pMciHw->MCI_FIFO,
+ (unsigned char*) p,
+ transSize, 0,
+ (pCommand->blockSize & 0x3) > 0);
+ DMA_EnableChannel(BOARD_MCI_DMA_CHANNEL);
+ }
+ }
+#endif
+
+ // All non-error mask done, complete the command
+ if (!mask || pCommand->status != MCI_STATUS_PENDING) {
+
+ // Store the card response in the provided buffer
+ if (pCommand->pResp) {
+ unsigned char resSize;
+ switch (pCommand->resType) {
+ case 1: case 3: case 4: case 5: case 6: case 7:
+ resSize = 1; break;
+ case 2: resSize = 4; break;
+ default: resSize = 0; break;
+ }
+ for (i=0; i < resSize; i++) {
+ pCommand->pResp[i] = READ_MCI(pMciHw, MCI_RSPR[0]);
+ }
+ }
+
+ // If no error occured, the transfer is successful
+ if (pCommand->status == MCI_STATUS_PENDING)
+ pCommand->status = 0;
+ // Any error, reset registers
+ else {
+ MCI_Reset(pMciHw, 1);
+ }
+
+ // Disable interrupts
+ WRITE_MCI(pMciHw, MCI_IDR, READ_MCI(pMciHw, MCI_IMR));
+ #if defined(MCI_DMA_ENABLE)
+ DMA_DisableChannel(BOARD_MCI_DMA_CHANNEL);
+ #endif
+
+ // Disable peripheral
+ PERIPH_DISABLE(pMci->mciId);
+
+ // Release the semaphore
+ pMci->semaphore++;
+
+ // Invoke the callback associated with the current command (if any)
+ if (pCommand->callback) {
+ (pCommand->callback)(pCommand->status, (void*)pCommand);
+ }
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Returns 1 if the given MCI transfer is complete; otherwise returns 0.
+/// \param pCommand Pointer to a MciCmd instance.
+//------------------------------------------------------------------------------
+unsigned char MCI_IsTxComplete(Mci *pMci)
+{
+ MciCmd *pCommand = pMci->pCommand;
+
+ if(pMci->bPolling == MCI_POLLING_MODE) {
+ MCI_Handler(pMci);
+ }
+
+ if (pCommand->status != MCI_STATUS_PENDING) {
+ if (pCommand->status != 0) {
+ TRACE_DEBUG("MCI_IsTxComplete %d\n\r", pCommand->status);
+ }
+ return 1;
+ }
+ else {
+ return 0;
+ }
+}
+
+//------------------------------------------------------------------------------
+/// Check whether the MCI is using the FIFO transfer mode
+/// \param pMci Pointer to a Mci instance.
+/// \param pCommand Pointer to a MciCmd instance.
+//------------------------------------------------------------------------------
+unsigned int MCI_FifoTransfer(Mci *pMci, MciCmd *pCommand)
+{
+ // If using DMA mode, return
+#if defined(MCI_DMA_ENABLE)
+ return 0;
+#else
+
+ unsigned int status=0;
+ unsigned int nbTransfer=0;
+ unsigned int i;
+ AT91S_MCI *pMciHw = pMci->pMciHw;
+ unsigned int *pMem;
+
+ SANITY_CHECK(pMci);
+ SANITY_CHECK(pCommand);
+
+
+ TRACE_DEBUG("MCIFifo:%d,%d\n\r", pCommand->isRead, pCommand->nbBlock);
+
+ if (pCommand->nbBlock == 0 || pCommand->blockSize == 0)
+ return 0;
+
+ pMem = (unsigned int*)pCommand->pData;
+
+ // Get transfer size
+ nbTransfer = (pCommand->blockSize) * (pCommand->nbBlock) / 4;
+ if((pCommand->blockSize) * (pCommand->nbBlock) % 4) {
+ nbTransfer++;
+ }
+
+ if (pCommand->isRead) {
+
+ // Read RDR loop
+ for(i=0; i<nbTransfer; i++) {
+ while(1) {
+ status = READ_MCI(pMciHw, MCI_SR);
+ if (status & AT91C_MCI_RXRDY)
+ break;
+ #if 1
+ if (status & STATUS_ERRORS_DATA) {
+ TRACE_ERROR("MCI_FifoTransfer.R: 0x%x\n\r", status);
+ return status;
+ }
+ #endif
+ }
+ *pMem = READ_MCI(pMciHw, MCI_RDR);
+ pMem++;
+ }
+ }
+ else {
+
+ // Write TDR loop
+ for(i=0; i<nbTransfer; i++) {
+ while(1) {
+ status = READ_MCI(pMciHw, MCI_SR);
+ if (status & (AT91C_MCI_TXRDY | AT91C_MCI_NOTBUSY))
+ break;
+ #if 0
+ if (status & STATUS_ERRORS_DATA) {
+ TRACE_ERROR("MCI_FifoTransfer.W: 0x%x\n\r", status);
+ return status;
+ }
+ #endif
+ }
+ WRITE_MCI(pMciHw, MCI_TDR, *pMem);
+ pMem++;
+ }
+ }
+
+ status = READ_MCI(pMciHw, MCI_SR);
+ TRACE_DEBUG("MCI_FifoTransfer : All status %x\n\r", status);
+ status &= READ_MCI(pMciHw, MCI_IMR);
+ TRACE_DEBUG("MCI_FifoTransfer : Masked status %x\n\r", status);
+
+ #if 0
+ { unsigned int old = status;
+ while(status & AT91C_MCI_DTIP) {
+ status = READ_MCI(pMciHw, MCI_SR);
+ if (status != old) {
+ old = status;
+ TRACE_DEBUG_WP(" -> %x", status);
+ }
+ }
+ TRACE_DEBUG_WP("\n\r");
+ TRACE_DEBUG(" DPIT 0 stat %x\n\r", status);
+ while((status & (AT91C_MCI_FIFOEMPTY
+ | AT91C_MCI_BLKE
+ | AT91C_MCI_XFRDONE)) == 0) {
+ status = READ_MCI(pMciHw, MCI_SR);
+ }
+ TRACE_DEBUG(" FIFO EMPTY stat %x\n\r", status);
+ }
+ #endif
+
+ return status;
+#endif
+}
diff --git a/peripherals/mci/mci_hs.h b/peripherals/mci/mci_hs.h new file mode 100644 index 0000000..90e8385 --- /dev/null +++ b/peripherals/mci/mci_hs.h @@ -0,0 +1,236 @@ +/* ----------------------------------------------------------------------------
+ * ATMEL Microcontroller Software Support
+ * ----------------------------------------------------------------------------
+ * Copyright (c) 2008, Atmel Corporation
+ *
+ * All rights reserved.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are met:
+ *
+ * - Redistributions of source code must retain the above copyright notice,
+ * this list of conditions and the disclaimer below.
+ *
+ * Atmel's name may not be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
+ * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
+ * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
+ * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ * ----------------------------------------------------------------------------
+ */
+
+//------------------------------------------------------------------------------
+/// \page "mci"
+///
+/// !Purpose
+///
+/// mci-interface driver
+///
+/// !Usage
+///
+/// -# MCI_Init: Initializes a MCI driver instance and the underlying peripheral.
+/// -# MCI_SetSpeed : Configure the MCI CLKDIV in the MCI_MR register.
+/// -# MCI_SendCommand: Starts a MCI transfer.
+/// -# MCI_Handler : Interrupt handler which is called by ISR handler.
+/// -# MCI_SetBusWidth : Configure the MCI SDCBUS in the MCI_SDCR register.
+//------------------------------------------------------------------------------
+
+
+#ifndef MCI_HS_H
+#define MCI_HS_H
+
+//------------------------------------------------------------------------------
+// Compile Options
+//------------------------------------------------------------------------------
+
+/// MCI using DMA?
+#define MCI_DMA_ENABLE 1
+
+/// MCI BUSY Check Fix
+#define MCI_BUSY_CHECK_FIX 0
+
+/// MCI support SDIO
+#define MCI_SDIO_ENABLE 1
+
+//------------------------------------------------------------------------------
+// Headers
+//------------------------------------------------------------------------------
+
+#include <board.h>
+#if MCI_BUSY_CHECK_FIX
+#include <pio/pio.h>
+#endif
+
+//------------------------------------------------------------------------------
+// Constants
+//------------------------------------------------------------------------------
+
+/// Transfer is pending.
+#define MCI_STATUS_PENDING 1
+/// Transfer has been aborted because an error occured.
+#define MCI_STATUS_ERROR 2
+/// Card did not answer command.
+#define MCI_STATUS_NORESPONSE 3
+
+/// MCI driver is currently in use.
+#define MCI_ERROR_LOCK 1
+
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_1BIT)
+/// MCI configuration with 4-bit data bus on slot A (for SD cards).
+#define MCI_SD_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_4BITS)
+#ifdef AT91C_MCI_SCDBUS_8BITS
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC4_SLOTA (AT91C_MCI_SCDSEL_SLOTA | AT91C_MCI_SCDBUS_8BITS)
+#endif
+#ifdef AT91C_MCI_SCDSEL_SLOTB
+/// MCI configuration with 1-bit data bus on slot B (for MMC cards).
+#define MCI_MMC_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_1BIT)
+/// MCI configuration with 4-bit data bus on slot B (for SD cards).
+#define MCI_SD_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_4BITS)
+#ifdef AT91C_MCI_SCDBUS_8BITS
+/// MCI configuration with 1-bit data bus on slot A (for MMC cards).
+#define MCI_MMC4_SLOTB (AT91C_MCI_SCDSEL_SLOTB | AT91C_MCI_SCDBUS_8BITS)
+#endif
+#else
+#define MCI_MMC_SLOTB MCI_MMC_SLOTA
+#define MCI_SD_SLOTB MCI_SD_SLOTA
+#endif
+
+/// Start new data transfer
+#define MCI_NEW_TRANSFER 0
+/// Continue data transfer
+#define MCI_CONTINUE_TRANSFER 1
+/// Stop data transfer
+#define MCI_STOP_TRANSFER 2
+
+/// MCI SD Bus Width 1-bit
+#define MCI_SDCBUS_1BIT (0 << 7)
+/// MCI SD Bus Width 4-bit
+#define MCI_SDCBUS_4BIT (1 << 7)
+/// MCI SD Bus Width 8-bit
+#define MCI_SDCBUS_8BIT (3 << 6)
+
+/// The MCI Clock Speed after initialize (400K)
+#define MCI_INITIAL_SPEED 400000
+
+#define MCI_INTERRUPT_MODE 0
+#define MCI_POLLING_MODE 1
+
+//------------------------------------------------------------------------------
+// Types
+//------------------------------------------------------------------------------
+
+/// MCI end-of-transfer callback function.
+typedef void (*MciCallback)(unsigned char status, void *pCommand);
+
+//------------------------------------------------------------------------------
+/// MCI Transfer Request prepared by the application upper layer. This structure
+/// is sent to the MCI_SendCommand function to start the transfer. At the end of
+/// the transfer, the callback is invoked by the interrupt handler.
+//------------------------------------------------------------------------------
+typedef struct _MciCmd {
+
+ /// Command code.
+ unsigned int cmd;
+ /// Command argument.
+ unsigned int arg;
+ /// Data buffer, with MCI_DMA_ENABLE defined 1, the buffer can be
+ /// 1, 2 or 4 bytes aligned. It has to be 4 byte aligned if no DMA.
+ unsigned char *pData;
+ /// Size of data block in bytes.
+ unsigned short blockSize;
+ /// Number of blocks to be transfered
+ unsigned short nbBlock;
+ /// Response buffer.
+ unsigned int *pResp;
+ /// Optional user-provided callback function.
+ MciCallback callback;
+ /// Optional argument to the callback function.
+ void *pArg;
+ /// SD card response type.
+ unsigned char resType;
+ /// Indicate if there is data transfer
+ unsigned char dataTran;
+ /// Indicate if continue to transfer data
+ unsigned char tranType;
+ /// Indicates if the command is a read operation.
+ unsigned char isRead;
+
+ /// Command status.
+ volatile int status;
+} MciCmd;
+
+//------------------------------------------------------------------------------
+/// MCI driver structure. Holds the internal state of the MCI driver and
+/// prevents parallel access to a MCI peripheral.
+//------------------------------------------------------------------------------
+typedef struct {
+
+#if MCI_BUSY_CHECK_FIX
+ /// MCI DAT0 Pin (Assign it to enable PIO mode DAT0 check)
+ /// The pin is configured as peripheral
+ const Pin *pPinDAT0;
+#endif
+ /// Pointer to a MCI peripheral.
+ AT91S_MCI *pMciHw;
+ /// Pointer to currently executing command.
+ MciCmd *pCommand;
+ /// MCI peripheral identifier.
+ unsigned char mciId;
+ /// MCI HW mode
+ unsigned char mciMode;
+ /// Mutex.
+ volatile char semaphore;
+ /// interrupt or polling mode
+ unsigned int bPolling;
+} Mci;
+
+//------------------------------------------------------------------------------
+// Global functions
+//------------------------------------------------------------------------------
+
+extern void MCI_Init(
+ Mci *pMci,
+ AT91PS_MCI pMciHw,
+ unsigned char mciId,
+ unsigned int mode,
+ unsigned int bPolling);
+
+extern unsigned int MCI_GetSpeed(Mci *pMci, unsigned int *mciDiv);
+
+extern unsigned int MCI_SetSpeed(Mci *pMci,
+ unsigned int mciSpeed,
+ unsigned int mciLimit,
+ unsigned int mck);
+
+extern unsigned char MCI_SendCommand(Mci *pMci, MciCmd *pMciCmd);
+
+extern void MCI_Handler(Mci *pMci);
+
+extern unsigned char MCI_IsTxComplete(Mci *pMci);
+
+extern unsigned char MCI_CheckBusy(Mci *pMci);
+
+extern void MCI_Close(Mci *pMci);
+
+extern void MCI_EnableHsMode(Mci * pMci, unsigned char hsEnable);
+
+extern void MCI_SetBusWidth(Mci *pMci, unsigned char busWidth);
+
+extern unsigned int MCI_FifoTransfer(Mci * pMci, MciCmd * pCommand);
+
+#if MCI_BUSY_CHECK_FIX
+extern void MCI_SetBusyFix(Mci *pMci, const Pin * pDAT0);
+#endif
+
+#endif //#ifndef MCI_HS_H
+
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