mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-12 22:33:18 +00:00
97a7b9928a
The controller can control high capacity cards. So, the patch adds the flag. If the flag is not set, "mmcinfo" will fail when a high capacity card is used. Signed-off-by: Yoshihiro Shimoda <yoshihiro.shimoda.uh@renesas.com> Signed-off-by: Andy Fleming <afleming@freescale.com>
609 lines
15 KiB
C
609 lines
15 KiB
C
/*
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* MMCIF driver.
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*
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* Copyright (C) 2011 Renesas Solutions Corp.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License.
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*/
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#include <config.h>
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#include <common.h>
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#include <watchdog.h>
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#include <command.h>
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#include <mmc.h>
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#include <malloc.h>
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#include <asm/errno.h>
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#include <asm/io.h>
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#include "sh_mmcif.h"
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#define DRIVER_NAME "sh_mmcif"
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static void *mmc_priv(struct mmc *mmc)
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{
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return (void *)mmc->priv;
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}
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static int sh_mmcif_intr(void *dev_id)
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{
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struct sh_mmcif_host *host = dev_id;
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u32 state = 0;
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state = sh_mmcif_read(&host->regs->ce_int);
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state &= sh_mmcif_read(&host->regs->ce_int_mask);
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if (state & INT_RBSYE) {
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sh_mmcif_write(~(INT_RBSYE | INT_CRSPE), &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MRBSYE, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_CRSPE) {
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sh_mmcif_write(~INT_CRSPE, &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MCRSPE, &host->regs->ce_int_mask);
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/* one more interrupt (INT_RBSYE) */
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if (sh_mmcif_read(&host->regs->ce_cmd_set) & CMD_SET_RBSY)
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return -EAGAIN;
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goto end;
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} else if (state & INT_BUFREN) {
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sh_mmcif_write(~INT_BUFREN, &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MBUFREN, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_BUFWEN) {
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sh_mmcif_write(~INT_BUFWEN, &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MBUFWEN, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_CMD12DRE) {
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sh_mmcif_write(~(INT_CMD12DRE | INT_CMD12RBE | INT_CMD12CRE |
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INT_BUFRE), &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MCMD12DRE, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_BUFRE) {
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sh_mmcif_write(~INT_BUFRE, &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MBUFRE, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_DTRANE) {
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sh_mmcif_write(~INT_DTRANE, &host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MDTRANE, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_CMD12RBE) {
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sh_mmcif_write(~(INT_CMD12RBE | INT_CMD12CRE),
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&host->regs->ce_int);
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sh_mmcif_bitclr(MASK_MCMD12RBE, &host->regs->ce_int_mask);
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goto end;
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} else if (state & INT_ERR_STS) {
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/* err interrupts */
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sh_mmcif_write(~state, &host->regs->ce_int);
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sh_mmcif_bitclr(state, &host->regs->ce_int_mask);
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goto err;
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} else
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return -EAGAIN;
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err:
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host->sd_error = 1;
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debug("%s: int err state = %08x\n", DRIVER_NAME, state);
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end:
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host->wait_int = 1;
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return 0;
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}
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static int mmcif_wait_interrupt_flag(struct sh_mmcif_host *host)
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{
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int timeout = 10000000;
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while (1) {
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timeout--;
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if (timeout < 0) {
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printf("timeout\n");
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return 0;
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}
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if (!sh_mmcif_intr(host))
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break;
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udelay(1); /* 1 usec */
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}
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return 1; /* Return value: NOT 0 = complete waiting */
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}
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static void sh_mmcif_clock_control(struct sh_mmcif_host *host, unsigned int clk)
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{
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int i;
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sh_mmcif_bitclr(CLK_ENABLE, &host->regs->ce_clk_ctrl);
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sh_mmcif_bitclr(CLK_CLEAR, &host->regs->ce_clk_ctrl);
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if (!clk)
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return;
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if (clk == CLKDEV_EMMC_DATA) {
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sh_mmcif_bitset(CLK_PCLK, &host->regs->ce_clk_ctrl);
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} else {
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for (i = 1; (unsigned int)host->clk / (1 << i) >= clk; i++)
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;
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sh_mmcif_bitset((i - 1) << 16, &host->regs->ce_clk_ctrl);
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}
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sh_mmcif_bitset(CLK_ENABLE, &host->regs->ce_clk_ctrl);
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}
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static void sh_mmcif_sync_reset(struct sh_mmcif_host *host)
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{
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u32 tmp;
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tmp = sh_mmcif_read(&host->regs->ce_clk_ctrl) & (CLK_ENABLE |
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CLK_CLEAR);
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sh_mmcif_write(SOFT_RST_ON, &host->regs->ce_version);
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sh_mmcif_write(SOFT_RST_OFF, &host->regs->ce_version);
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sh_mmcif_bitset(tmp | SRSPTO_256 | SRBSYTO_29 | SRWDTO_29 | SCCSTO_29,
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&host->regs->ce_clk_ctrl);
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/* byte swap on */
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sh_mmcif_bitset(BUF_ACC_ATYP, &host->regs->ce_buf_acc);
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}
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static int sh_mmcif_error_manage(struct sh_mmcif_host *host)
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{
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u32 state1, state2;
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int ret, timeout = 10000000;
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host->sd_error = 0;
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host->wait_int = 0;
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state1 = sh_mmcif_read(&host->regs->ce_host_sts1);
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state2 = sh_mmcif_read(&host->regs->ce_host_sts2);
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debug("%s: ERR HOST_STS1 = %08x\n", \
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DRIVER_NAME, sh_mmcif_read(&host->regs->ce_host_sts1));
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debug("%s: ERR HOST_STS2 = %08x\n", \
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DRIVER_NAME, sh_mmcif_read(&host->regs->ce_host_sts2));
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if (state1 & STS1_CMDSEQ) {
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debug("%s: Forced end of command sequence\n", DRIVER_NAME);
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sh_mmcif_bitset(CMD_CTRL_BREAK, &host->regs->ce_cmd_ctrl);
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sh_mmcif_bitset(~CMD_CTRL_BREAK, &host->regs->ce_cmd_ctrl);
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while (1) {
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timeout--;
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if (timeout < 0) {
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printf(DRIVER_NAME": Forceed end of " \
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"command sequence timeout err\n");
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return -EILSEQ;
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}
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if (!(sh_mmcif_read(&host->regs->ce_host_sts1)
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& STS1_CMDSEQ))
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break;
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}
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sh_mmcif_sync_reset(host);
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return -EILSEQ;
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}
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if (state2 & STS2_CRC_ERR)
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ret = -EILSEQ;
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else if (state2 & STS2_TIMEOUT_ERR)
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ret = TIMEOUT;
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else
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ret = -EILSEQ;
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return ret;
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}
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static int sh_mmcif_single_read(struct sh_mmcif_host *host,
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struct mmc_data *data)
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{
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long time;
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u32 blocksize, i;
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unsigned long *p = (unsigned long *)data->dest;
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if ((unsigned long)p & 0x00000001) {
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printf("%s: The data pointer is unaligned.", __func__);
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return -EIO;
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}
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host->wait_int = 0;
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/* buf read enable */
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sh_mmcif_bitset(MASK_MBUFREN, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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blocksize = (BLOCK_SIZE_MASK &
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sh_mmcif_read(&host->regs->ce_block_set)) + 3;
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for (i = 0; i < blocksize / 4; i++)
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*p++ = sh_mmcif_read(&host->regs->ce_data);
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/* buffer read end */
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sh_mmcif_bitset(MASK_MBUFRE, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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return 0;
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}
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static int sh_mmcif_multi_read(struct sh_mmcif_host *host,
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struct mmc_data *data)
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{
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long time;
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u32 blocksize, i, j;
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unsigned long *p = (unsigned long *)data->dest;
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if ((unsigned long)p & 0x00000001) {
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printf("%s: The data pointer is unaligned.", __func__);
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return -EIO;
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}
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host->wait_int = 0;
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blocksize = BLOCK_SIZE_MASK & sh_mmcif_read(&host->regs->ce_block_set);
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for (j = 0; j < data->blocks; j++) {
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sh_mmcif_bitset(MASK_MBUFREN, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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for (i = 0; i < blocksize / 4; i++)
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*p++ = sh_mmcif_read(&host->regs->ce_data);
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WATCHDOG_RESET();
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}
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return 0;
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}
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static int sh_mmcif_single_write(struct sh_mmcif_host *host,
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struct mmc_data *data)
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{
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long time;
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u32 blocksize, i;
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const unsigned long *p = (unsigned long *)data->dest;
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if ((unsigned long)p & 0x00000001) {
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printf("%s: The data pointer is unaligned.", __func__);
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return -EIO;
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}
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host->wait_int = 0;
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sh_mmcif_bitset(MASK_MBUFWEN, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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blocksize = (BLOCK_SIZE_MASK &
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sh_mmcif_read(&host->regs->ce_block_set)) + 3;
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for (i = 0; i < blocksize / 4; i++)
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sh_mmcif_write(*p++, &host->regs->ce_data);
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/* buffer write end */
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sh_mmcif_bitset(MASK_MDTRANE, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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return 0;
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}
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static int sh_mmcif_multi_write(struct sh_mmcif_host *host,
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struct mmc_data *data)
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{
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long time;
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u32 i, j, blocksize;
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const unsigned long *p = (unsigned long *)data->dest;
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if ((unsigned long)p & 0x00000001) {
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printf("%s: The data pointer is unaligned.", __func__);
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return -EIO;
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}
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host->wait_int = 0;
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blocksize = BLOCK_SIZE_MASK & sh_mmcif_read(&host->regs->ce_block_set);
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for (j = 0; j < data->blocks; j++) {
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sh_mmcif_bitset(MASK_MBUFWEN, &host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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host->wait_int = 0;
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for (i = 0; i < blocksize / 4; i++)
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sh_mmcif_write(*p++, &host->regs->ce_data);
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WATCHDOG_RESET();
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}
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return 0;
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}
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static void sh_mmcif_get_response(struct sh_mmcif_host *host,
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struct mmc_cmd *cmd)
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{
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if (cmd->resp_type & MMC_RSP_136) {
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cmd->response[0] = sh_mmcif_read(&host->regs->ce_resp3);
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cmd->response[1] = sh_mmcif_read(&host->regs->ce_resp2);
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cmd->response[2] = sh_mmcif_read(&host->regs->ce_resp1);
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cmd->response[3] = sh_mmcif_read(&host->regs->ce_resp0);
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debug(" RESP %08x, %08x, %08x, %08x\n", cmd->response[0],
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cmd->response[1], cmd->response[2], cmd->response[3]);
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} else {
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cmd->response[0] = sh_mmcif_read(&host->regs->ce_resp0);
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}
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}
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static void sh_mmcif_get_cmd12response(struct sh_mmcif_host *host,
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struct mmc_cmd *cmd)
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{
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cmd->response[0] = sh_mmcif_read(&host->regs->ce_resp_cmd12);
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}
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static u32 sh_mmcif_set_cmd(struct sh_mmcif_host *host,
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struct mmc_data *data, struct mmc_cmd *cmd)
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{
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u32 tmp = 0;
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u32 opc = cmd->cmdidx;
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/* Response Type check */
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switch (cmd->resp_type) {
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case MMC_RSP_NONE:
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tmp |= CMD_SET_RTYP_NO;
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break;
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case MMC_RSP_R1:
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case MMC_RSP_R1b:
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case MMC_RSP_R3:
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tmp |= CMD_SET_RTYP_6B;
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break;
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case MMC_RSP_R2:
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tmp |= CMD_SET_RTYP_17B;
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break;
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default:
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printf(DRIVER_NAME": Not support type response.\n");
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break;
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}
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/* RBSY */
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if (opc == MMC_CMD_SWITCH)
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tmp |= CMD_SET_RBSY;
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/* WDAT / DATW */
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if (host->data) {
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tmp |= CMD_SET_WDAT;
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switch (host->bus_width) {
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case MMC_BUS_WIDTH_1:
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tmp |= CMD_SET_DATW_1;
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break;
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case MMC_BUS_WIDTH_4:
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tmp |= CMD_SET_DATW_4;
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break;
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case MMC_BUS_WIDTH_8:
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tmp |= CMD_SET_DATW_8;
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break;
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default:
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printf(DRIVER_NAME": Not support bus width.\n");
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break;
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}
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}
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/* DWEN */
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if (opc == MMC_CMD_WRITE_SINGLE_BLOCK ||
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opc == MMC_CMD_WRITE_MULTIPLE_BLOCK)
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tmp |= CMD_SET_DWEN;
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/* CMLTE/CMD12EN */
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if (opc == MMC_CMD_READ_MULTIPLE_BLOCK ||
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opc == MMC_CMD_WRITE_MULTIPLE_BLOCK) {
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tmp |= CMD_SET_CMLTE | CMD_SET_CMD12EN;
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sh_mmcif_bitset(data->blocks << 16, &host->regs->ce_block_set);
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}
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/* RIDXC[1:0] check bits */
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if (opc == MMC_CMD_SEND_OP_COND || opc == MMC_CMD_ALL_SEND_CID ||
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opc == MMC_CMD_SEND_CSD || opc == MMC_CMD_SEND_CID)
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tmp |= CMD_SET_RIDXC_BITS;
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/* RCRC7C[1:0] check bits */
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if (opc == MMC_CMD_SEND_OP_COND)
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tmp |= CMD_SET_CRC7C_BITS;
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/* RCRC7C[1:0] internal CRC7 */
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if (opc == MMC_CMD_ALL_SEND_CID ||
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opc == MMC_CMD_SEND_CSD || opc == MMC_CMD_SEND_CID)
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tmp |= CMD_SET_CRC7C_INTERNAL;
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return opc = ((opc << 24) | tmp);
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}
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static u32 sh_mmcif_data_trans(struct sh_mmcif_host *host,
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struct mmc_data *data, u16 opc)
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{
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u32 ret;
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switch (opc) {
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case MMC_CMD_READ_MULTIPLE_BLOCK:
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ret = sh_mmcif_multi_read(host, data);
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break;
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case MMC_CMD_WRITE_MULTIPLE_BLOCK:
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ret = sh_mmcif_multi_write(host, data);
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break;
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case MMC_CMD_WRITE_SINGLE_BLOCK:
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ret = sh_mmcif_single_write(host, data);
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break;
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case MMC_CMD_READ_SINGLE_BLOCK:
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case MMC_CMD_SEND_EXT_CSD:
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ret = sh_mmcif_single_read(host, data);
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break;
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default:
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printf(DRIVER_NAME": NOT SUPPORT CMD = d'%08d\n", opc);
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ret = -EINVAL;
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break;
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}
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return ret;
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}
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static int sh_mmcif_start_cmd(struct sh_mmcif_host *host,
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struct mmc_data *data, struct mmc_cmd *cmd)
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{
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long time;
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int ret = 0, mask = 0;
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u32 opc = cmd->cmdidx;
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if (opc == MMC_CMD_STOP_TRANSMISSION) {
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/* MMCIF sends the STOP command automatically */
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if (host->last_cmd == MMC_CMD_READ_MULTIPLE_BLOCK)
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sh_mmcif_bitset(MASK_MCMD12DRE,
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&host->regs->ce_int_mask);
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else
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sh_mmcif_bitset(MASK_MCMD12RBE,
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&host->regs->ce_int_mask);
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time = mmcif_wait_interrupt_flag(host);
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if (time == 0 || host->sd_error != 0)
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return sh_mmcif_error_manage(host);
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sh_mmcif_get_cmd12response(host, cmd);
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return 0;
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}
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if (opc == MMC_CMD_SWITCH)
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mask = MASK_MRBSYE;
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else
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mask = MASK_MCRSPE;
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mask |= MASK_MCMDVIO | MASK_MBUFVIO | MASK_MWDATERR |
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MASK_MRDATERR | MASK_MRIDXERR | MASK_MRSPERR |
|
|
MASK_MCCSTO | MASK_MCRCSTO | MASK_MWDATTO |
|
|
MASK_MRDATTO | MASK_MRBSYTO | MASK_MRSPTO;
|
|
|
|
if (host->data) {
|
|
sh_mmcif_write(0, &host->regs->ce_block_set);
|
|
sh_mmcif_write(data->blocksize, &host->regs->ce_block_set);
|
|
}
|
|
opc = sh_mmcif_set_cmd(host, data, cmd);
|
|
|
|
sh_mmcif_write(INT_START_MAGIC, &host->regs->ce_int);
|
|
sh_mmcif_write(mask, &host->regs->ce_int_mask);
|
|
|
|
debug("CMD%d ARG:%08x\n", cmd->cmdidx, cmd->cmdarg);
|
|
/* set arg */
|
|
sh_mmcif_write(cmd->cmdarg, &host->regs->ce_arg);
|
|
host->wait_int = 0;
|
|
/* set cmd */
|
|
sh_mmcif_write(opc, &host->regs->ce_cmd_set);
|
|
|
|
time = mmcif_wait_interrupt_flag(host);
|
|
if (time == 0)
|
|
return sh_mmcif_error_manage(host);
|
|
|
|
if (host->sd_error) {
|
|
switch (cmd->cmdidx) {
|
|
case MMC_CMD_ALL_SEND_CID:
|
|
case MMC_CMD_SELECT_CARD:
|
|
case MMC_CMD_APP_CMD:
|
|
ret = TIMEOUT;
|
|
break;
|
|
default:
|
|
printf(DRIVER_NAME": Cmd(d'%d) err\n", cmd->cmdidx);
|
|
ret = sh_mmcif_error_manage(host);
|
|
break;
|
|
}
|
|
host->sd_error = 0;
|
|
host->wait_int = 0;
|
|
return ret;
|
|
}
|
|
|
|
/* if no response */
|
|
if (!(opc & 0x00C00000))
|
|
return 0;
|
|
|
|
if (host->wait_int == 1) {
|
|
sh_mmcif_get_response(host, cmd);
|
|
host->wait_int = 0;
|
|
}
|
|
if (host->data)
|
|
ret = sh_mmcif_data_trans(host, data, cmd->cmdidx);
|
|
host->last_cmd = cmd->cmdidx;
|
|
|
|
return ret;
|
|
}
|
|
|
|
static int sh_mmcif_request(struct mmc *mmc, struct mmc_cmd *cmd,
|
|
struct mmc_data *data)
|
|
{
|
|
struct sh_mmcif_host *host = mmc_priv(mmc);
|
|
int ret;
|
|
|
|
WATCHDOG_RESET();
|
|
|
|
switch (cmd->cmdidx) {
|
|
case MMC_CMD_APP_CMD:
|
|
return TIMEOUT;
|
|
case MMC_CMD_SEND_EXT_CSD: /* = SD_SEND_IF_COND (8) */
|
|
if (data)
|
|
/* ext_csd */
|
|
break;
|
|
else
|
|
/* send_if_cond cmd (not support) */
|
|
return TIMEOUT;
|
|
default:
|
|
break;
|
|
}
|
|
host->sd_error = 0;
|
|
host->data = data;
|
|
ret = sh_mmcif_start_cmd(host, data, cmd);
|
|
host->data = NULL;
|
|
|
|
return ret;
|
|
}
|
|
|
|
static void sh_mmcif_set_ios(struct mmc *mmc)
|
|
{
|
|
struct sh_mmcif_host *host = mmc_priv(mmc);
|
|
|
|
if (mmc->clock)
|
|
sh_mmcif_clock_control(host, mmc->clock);
|
|
|
|
if (mmc->bus_width == 8)
|
|
host->bus_width = MMC_BUS_WIDTH_8;
|
|
else if (mmc->bus_width == 4)
|
|
host->bus_width = MMC_BUS_WIDTH_4;
|
|
else
|
|
host->bus_width = MMC_BUS_WIDTH_1;
|
|
|
|
debug("clock = %d, buswidth = %d\n", mmc->clock, mmc->bus_width);
|
|
}
|
|
|
|
static int sh_mmcif_init(struct mmc *mmc)
|
|
{
|
|
struct sh_mmcif_host *host = mmc_priv(mmc);
|
|
|
|
sh_mmcif_sync_reset(host);
|
|
sh_mmcif_write(MASK_ALL, &host->regs->ce_int_mask);
|
|
return 0;
|
|
}
|
|
|
|
int mmcif_mmc_init(void)
|
|
{
|
|
int ret = 0;
|
|
struct mmc *mmc;
|
|
struct sh_mmcif_host *host = NULL;
|
|
|
|
mmc = malloc(sizeof(struct mmc));
|
|
if (!mmc)
|
|
ret = -ENOMEM;
|
|
memset(mmc, 0, sizeof(*mmc));
|
|
host = malloc(sizeof(struct sh_mmcif_host));
|
|
if (!host)
|
|
ret = -ENOMEM;
|
|
memset(host, 0, sizeof(*host));
|
|
|
|
mmc->f_min = CLKDEV_MMC_INIT;
|
|
mmc->f_max = CLKDEV_EMMC_DATA;
|
|
mmc->voltages = MMC_VDD_32_33 | MMC_VDD_33_34;
|
|
mmc->host_caps = MMC_MODE_HS | MMC_MODE_HS_52MHz | MMC_MODE_4BIT |
|
|
MMC_MODE_8BIT | MMC_MODE_HC;
|
|
memcpy(mmc->name, DRIVER_NAME, sizeof(DRIVER_NAME));
|
|
mmc->send_cmd = sh_mmcif_request;
|
|
mmc->set_ios = sh_mmcif_set_ios;
|
|
mmc->init = sh_mmcif_init;
|
|
mmc->getcd = NULL;
|
|
host->regs = (struct sh_mmcif_regs *)CONFIG_SH_MMCIF_ADDR;
|
|
host->clk = CONFIG_SH_MMCIF_CLK;
|
|
mmc->priv = host;
|
|
|
|
mmc_register(mmc);
|
|
|
|
return ret;
|
|
}
|