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/*- * Copyright (c) 2006 M. Warner Losh. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR 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. * * This software is derived from software provide by Kwikbyte who specifically * disclaimed copyright on the code. * * $FreeBSD: release/9.1.0/sys/boot/arm/at91/libat91/sd-card.c 168011 2007-03-28 22:31:32Z imp $ */ //*---------------------------------------------------------------------------- //* ATMEL Microcontroller Software Support - ROUSSET - //*---------------------------------------------------------------------------- //* The software is delivered "AS IS" without warranty or condition of any //* kind, either express, implied or statutory. This includes without //* limitation any warranty or condition with respect to merchantability or //* fitness for any particular purpose, or against the infringements of //* intellectual property rights of others. //*---------------------------------------------------------------------------- //* File Name : main.c //* Object : main application written in C //* Creation : FB 21/11/2002 //* //*---------------------------------------------------------------------------- #include "at91rm9200.h" #include "lib_AT91RM9200.h" #include "mci_device.h" #include "lib.h" #include "sd-card.h" #define AT91C_MCI_TIMEOUT 1000000 /* For AT91F_MCIDeviceWaitReady */ #define BUFFER_SIZE_MCI_DEVICE 512 #define MASTER_CLOCK 60000000 //* Global Variables AT91S_MciDevice MCI_Device; char Buffer[BUFFER_SIZE_MCI_DEVICE]; /****************************************************************************** **Error return codes ******************************************************************************/ #define MCI_UNSUPP_SIZE_ERROR 5 #define MCI_UNSUPP_OFFSET_ERROR 6 //*---------------------------------------------------------------------------- //* \fn MCIDeviceWaitReady //* \brief Wait for MCI Device ready //*---------------------------------------------------------------------------- static void MCIDeviceWaitReady(unsigned int timeout) { volatile int status; do { status = AT91C_BASE_MCI->MCI_SR; timeout--; } while( !(status & AT91C_MCI_NOTBUSY) && (timeout>0) ); status = AT91C_BASE_MCI->MCI_SR; // If End of Tx Buffer Empty interrupt occurred if (MCI_Device.state == AT91C_MCI_TX_SINGLE_BLOCK && status & AT91C_MCI_TXBUFE) { AT91C_BASE_MCI->MCI_IDR = AT91C_MCI_TXBUFE; AT91C_BASE_PDC_MCI->PDC_PTCR = AT91C_PDC_TXTDIS; MCI_Device.state = AT91C_MCI_IDLE; } // End of if AT91C_MCI_TXBUFF // If End of Rx Buffer Full interrupt occurred if (MCI_Device.state == AT91C_MCI_RX_SINGLE_BLOCK && status & AT91C_MCI_RXBUFF) { AT91C_BASE_MCI->MCI_IDR = AT91C_MCI_RXBUFF; AT91C_BASE_PDC_MCI->PDC_PTCR = AT91C_PDC_RXTDIS; MCI_Device.state = AT91C_MCI_IDLE; } // End of if AT91C_MCI_RXBUFF } inline static unsigned int swap(unsigned int a) { return (((a & 0xff) << 24) | ((a & 0xff00) << 8) | ((a & 0xff0000) >> 8) | ((a & 0xff000000) >> 24)); } inline static void wait_ready() { int status; // wait for CMDRDY Status flag to read the response do { status = AT91C_BASE_MCI->MCI_SR; } while( !(status & AT91C_MCI_CMDRDY) ); } //*---------------------------------------------------------------------------- //* \fn MCI_SendCommand //* \brief Generic function to send a command to the MMC or SDCard //*---------------------------------------------------------------------------- static int MCI_SendCommand( unsigned int Cmd, unsigned int Arg) { unsigned int error; AT91C_BASE_MCI->MCI_ARGR = Arg; AT91C_BASE_MCI->MCI_CMDR = Cmd; // printf("CMDR %x ARG %x\n", Cmd, Arg); wait_ready(); // Test error ==> if crc error and response R3 ==> don't check error error = (AT91C_BASE_MCI->MCI_SR) & AT91C_MCI_SR_ERROR; if (error != 0) { if (error != AT91C_MCI_RCRCE) return (1); } return 0; } //*---------------------------------------------------------------------------- //* \fn MCI_GetStatus //* \brief Addressed card sends its status register //*---------------------------------------------------------------------------- static unsigned int MCI_GetStatus() { if (MCI_SendCommand(SEND_STATUS_CMD, MCI_Device.RCA << 16)) return AT91C_CMD_SEND_ERROR; return (AT91C_BASE_MCI->MCI_RSPR[0]); } //*---------------------------------------------------------------------------- //* \fn MCI_ReadBlock //* \brief Read an ENTIRE block or PARTIAL block //*---------------------------------------------------------------------------- static int MCI_ReadBlock(int src, unsigned int *dataBuffer, int sizeToRead) { // unsigned log2sl = MCI_Device.READ_BL_LEN; // unsigned sectorLength = 1 << log2sl; unsigned sectorLength = 512; /////////////////////////////////////////////////////////////////////// if (MCI_Device.state != AT91C_MCI_IDLE) return 1; if ((MCI_GetStatus() & AT91C_SR_READY_FOR_DATA) == 0) return 1; /////////////////////////////////////////////////////////////////////// // Init Mode Register AT91C_BASE_MCI->MCI_MR |= ((sectorLength << 16) | AT91C_MCI_PDCMODE); sizeToRead = sizeToRead / 4; AT91C_BASE_PDC_MCI->PDC_PTCR = (AT91C_PDC_TXTDIS | AT91C_PDC_RXTDIS); AT91C_BASE_PDC_MCI->PDC_RPR = (unsigned int)dataBuffer; AT91C_BASE_PDC_MCI->PDC_RCR = sizeToRead; // Send the Read single block command if (MCI_SendCommand(READ_SINGLE_BLOCK_CMD, src)) return AT91C_READ_ERROR; MCI_Device.state = AT91C_MCI_RX_SINGLE_BLOCK; // Enable AT91C_MCI_RXBUFF Interrupt AT91C_BASE_MCI->MCI_IER = AT91C_MCI_RXBUFF; // (PDC) Receiver Transfer Enable AT91C_BASE_PDC_MCI->PDC_PTCR = AT91C_PDC_RXTEN; return 0; } int MCI_read(char* dest, unsigned source, unsigned length) { // unsigned log2sl = MCI_Device.READ_BL_LEN; // unsigned sectorLength = 1 << log2sl; unsigned sectorLength = 512; int sizeToRead; unsigned int *walker; //As long as there is data to read while (length) { if (length > sectorLength) sizeToRead = sectorLength; else sizeToRead = length; MCIDeviceWaitReady(AT91C_MCI_TIMEOUT); //Do the reading if (MCI_ReadBlock(source, (unsigned int*)dest, sizeToRead)) return -1; //* Wait MCI Device Ready MCIDeviceWaitReady(AT91C_MCI_TIMEOUT); // Fix erratum in MCI part for (walker = (unsigned int *)dest; walker < (unsigned int *)(dest + sizeToRead); walker++) *walker = swap(*walker); //Update counters & pointers length -= sizeToRead; dest += sizeToRead; source += sizeToRead; } return 0; } //*---------------------------------------------------------------------------- //* \fn MCI_SDCard_SendAppCommand //* \brief Specific function to send a specific command to the SDCard //*---------------------------------------------------------------------------- static int MCI_SDCard_SendAppCommand( unsigned int Cmd_App, unsigned int Arg) { // Send the CMD55 for application specific command AT91C_BASE_MCI->MCI_ARGR = (MCI_Device.RCA << 16 ); AT91C_BASE_MCI->MCI_CMDR = APP_CMD; wait_ready(); // if an error occurs if (AT91C_BASE_MCI->MCI_SR & AT91C_MCI_SR_ERROR) return (1); return (MCI_SendCommand(Cmd_App,Arg)); } //*---------------------------------------------------------------------------- //* \fn MCI_GetCSD //* \brief Asks to the specified card to send its CSD //*---------------------------------------------------------------------------- static int MCI_GetCSD(unsigned int rca, unsigned int *response) { if (MCI_SendCommand(SEND_CSD_CMD, (rca << 16))) return 1; response[0] = AT91C_BASE_MCI->MCI_RSPR[0]; response[1] = AT91C_BASE_MCI->MCI_RSPR[1]; response[2] = AT91C_BASE_MCI->MCI_RSPR[2]; response[3] = AT91C_BASE_MCI->MCI_RSPR[3]; return 0; } //*---------------------------------------------------------------------------- //* \fn MCI_SDCard_GetOCR //* \brief Asks to all cards to send their operations conditions //*---------------------------------------------------------------------------- static int MCI_SDCard_GetOCR() { unsigned int response=0x0; // The RCA to be used for CMD55 in Idle state shall be the card's default RCA=0x0000. MCI_Device.RCA = 0x0; while( (response & AT91C_CARD_POWER_UP_BUSY) != AT91C_CARD_POWER_UP_BUSY ) { if (MCI_SDCard_SendAppCommand(SDCARD_APP_OP_COND_CMD, AT91C_MMC_HOST_VOLTAGE_RANGE)) return 1; response = AT91C_BASE_MCI->MCI_RSPR[0]; } return (0); } //*---------------------------------------------------------------------------- //* \fn MCI_SDCard_GetCID //* \brief Asks to the SDCard on the chosen slot to send its CID //*---------------------------------------------------------------------------- static int MCI_SDCard_GetCID(unsigned int *response) { if (MCI_SendCommand(ALL_SEND_CID_CMD, AT91C_NO_ARGUMENT)) return 1; response[0] = AT91C_BASE_MCI->MCI_RSPR[0]; response[1] = AT91C_BASE_MCI->MCI_RSPR[1]; response[2] = AT91C_BASE_MCI->MCI_RSPR[2]; response[3] = AT91C_BASE_MCI->MCI_RSPR[3]; return 0; } //*---------------------------------------------------------------------------- //* \fn MCI_SDCard_SetBusWidth //* \brief Set bus width for SDCard //*---------------------------------------------------------------------------- static int MCI_SDCard_SetBusWidth() { volatile int ret_value; char bus_width; do { ret_value=MCI_GetStatus(); } while((ret_value > 0) && ((ret_value & AT91C_SR_READY_FOR_DATA) == 0)); // Select Card MCI_SendCommand(SEL_DESEL_CARD_CMD, (MCI_Device.RCA)<<16); // Set bus width for Sdcard if (MCI_Device.SDCard_bus_width == AT91C_MCI_SCDBUS) bus_width = AT91C_BUS_WIDTH_4BITS; else bus_width = AT91C_BUS_WIDTH_1BIT; if (MCI_SDCard_SendAppCommand( SDCARD_SET_BUS_WIDTH_CMD,bus_width) != AT91C_CMD_SEND_OK) return 1; return 0; } //*---------------------------------------------------------------------------- //* \fn main //* \brief main function //*---------------------------------------------------------------------------- int sdcard_init(void) { unsigned int tab_response[4]; #ifdef REPORT_SIZE unsigned int mult,blocknr; #endif int i; // Init MCI for MMC and SDCard interface AT91F_MCI_CfgPIO(); AT91F_MCI_CfgPMC(); AT91F_PDC_Open(AT91C_BASE_PDC_MCI); // Init Device Structure MCI_Device.state = AT91C_MCI_IDLE; MCI_Device.SDCard_bus_width = AT91C_MCI_SCDBUS; //* Reset the MCI AT91C_BASE_MCI->MCI_CR = AT91C_MCI_MCIEN | AT91C_MCI_PWSEN; AT91C_BASE_MCI->MCI_IDR = 0xFFFFFFFF; AT91C_BASE_MCI->MCI_DTOR = AT91C_MCI_DTOR_1MEGA_CYCLES; AT91C_BASE_MCI->MCI_MR = AT91C_MCI_PDCMODE; AT91C_BASE_MCI->MCI_SDCR = AT91C_MCI_SDCARD_4BITS_SLOTA; MCI_SendCommand(GO_IDLE_STATE_CMD, AT91C_NO_ARGUMENT); for (i = 0; i < 100; i++) { if (!MCI_SDCard_GetOCR(&MCI_Device)) break; printf("."); } if (i >= 100) return 0; if (MCI_SDCard_GetCID(tab_response)) return 0; if (MCI_SendCommand(SET_RELATIVE_ADDR_CMD, 0)) return 0; MCI_Device.RCA = (AT91C_BASE_MCI->MCI_RSPR[0] >> 16); if (MCI_GetCSD(MCI_Device.RCA,tab_response)) return 0; MCI_Device.READ_BL_LEN = (tab_response[1] >> CSD_1_RD_B_LEN_S) & CSD_1_RD_B_LEN_M; #ifdef REPORT_SIZE // compute MULT mult = 1 << ( ((tab_response[2] >> CSD_2_C_SIZE_M_S) & CSD_2_C_SIZE_M_M) + 2 ); // compute MSB of C_SIZE blocknr = ((tab_response[1] >> CSD_1_CSIZE_H_S) & CSD_1_CSIZE_H_M) << 2; // compute MULT * (LSB of C-SIZE + MSB already computed + 1) = BLOCKNR blocknr = mult * ((blocknr + ((tab_response[2] >> CSD_2_CSIZE_L_S) & CSD_2_CSIZE_L_M)) + 1); MCI_Device.Memory_Capacity = (1 << MCI_Device.READ_BL_LEN) * blocknr; #endif if (MCI_SDCard_SetBusWidth()) return 0; if (MCI_SendCommand(SET_BLOCKLEN_CMD, 1 << MCI_Device.READ_BL_LEN)) return 0; #ifdef REPORT_SIZE printf("Found SD card %u bytes\n", MCI_Device.Memory_Capacity); #endif return 1; }