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rockbox/firmware/target/arm/rk27xx/sd-rk27xx.c

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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2006 Daniel Ankers
* Copyright © 2008-2009 Rafaël Carré
* Copyright (C) 2011 Marcin Bukat
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include "config.h" /* for HAVE_MULTIVOLUME */
#include "thread.h"
#include "gcc_extensions.h"
#include "led.h"
#include "sdmmc.h"
#include "system.h"
#include "kernel.h"
#include "cpu.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "panic.h"
#include "stdbool.h"
#include "storage.h"
#include "lcd.h"
#include <stdarg.h>
#include "sysfont.h"
#define RES_NO (-1)
/* debug stuff */
unsigned long sd_debug_time_rd = 0;
unsigned long sd_debug_time_wr = 0;
static tCardInfo card_info;
/* for compatibility */
static long last_disk_activity = -1;
static unsigned char aligned_buf[512] STORAGE_ALIGN_ATTR;
static struct mutex sd_mtx SHAREDBSS_ATTR;
#ifndef BOOTLOADER
bool sd_enabled = false;
#endif
#ifdef CONFIG_STORAGE_MULTI
static int sd_first_drive = 0;
#else
#define sd_first_drive 0
#endif
static struct semaphore transfer_completion_signal;
static struct semaphore command_completion_signal;
static volatile bool retry;
static volatile int cmd_error;
static void enable_controller(bool on)
{
/* enable or disable clock signal for SD module */
if (on)
{
SCU_CLKCFG &= ~CLKCFG_SD;
led(true);
}
else
{
SCU_CLKCFG |= CLKCFG_SD;
led(false);
}
}
/* interrupt handler for SD */
void INT_SD(void)
{
const int status = SD_INT;
SD_INT = 0; /* disable sd interrupts, clear pending interrupts */
/* cmd and response status pending */
if(status & CMD_RES_STAT)
{
/* get the status */
cmd_error = SD_CMDRES;
semaphore_release(&command_completion_signal);
}
/* data transfer status pending */
if(status & DATA_XFER_STAT)
{
cmd_error = SD_DATAT;
if (cmd_error & DATA_XFER_ERR)
retry = true;
semaphore_release(&transfer_completion_signal);
}
SD_INT = CMD_RES_INT_EN | DATA_XFER_INT_EN;
}
/* Exchange buffers - the one where SD module puts into/reads from
* data and the one controlled by MCU. This allows some overlap
* in transfer operations and should increase throuput.
*/
static void mmu_switch_buff(void)
{
static unsigned int i = 0;
if (i++ & 0x01)
{
MMU_CTRL = MMU_MMU0_BUFII | MMU_CPU_BUFI | MMU_BUFII_RESET |
MMU_BUFII_BYTE | MMU_BUFI_RESET | MMU_BUFI_WORD;
}
else
{
MMU_CTRL = MMU_MMU0_BUFI | MMU_CPU_BUFII | MMU_BUFII_RESET |
MMU_BUFII_WORD | MMU_BUFI_RESET | MMU_BUFI_BYTE;
}
}
/* Reset internal pointers of the MMU submodule */
static void mmu_buff_reset(void)
{
MMU_CTRL |= MMU_BUFII_RESET | MMU_BUFI_RESET;
}
static inline bool card_detect_target(void)
{
#if defined(RK27_GENERIC)
/* My generic device uses PC7 pin, active low */
return !(GPIO_PCDR & 0x80);
#elif defined(HM60X) || defined(HM801)
return !(GPIO_PFDR & (1<<2));
#elif defined(MA9) || defined(MA9C) || defined(MA8) || defined(MA8C)
return (GPIO_PCDR & 0x80);
#elif defined(IHIFI760) || defined(IHIFI960)
/* TODO: find out pin */
return true;
#else
#error "Unknown target"
#endif
}
/* Send command to the SD card. Command finish is signaled in ISR */
static bool send_cmd(const int cmd, const int arg, const int res,
unsigned long *response)
{
SD_CMD = arg;
if (res > 0)
SD_CMDREST = CMD_XFER_START | RES_XFER_START | res | cmd;
else
SD_CMDREST = CMD_XFER_START | RES_XFER_END | RES_R1 | cmd;
semaphore_wait(&command_completion_signal, TIMEOUT_BLOCK);
/* Handle command responses & errors */
if(res != RES_NO)
{
if(cmd_error & STAT_CMD_RES_ERR)
return false;
if(res == RES_R2)
{
response[0] = SD_RES3;
response[1] = SD_RES2;
response[2] = SD_RES1;
response[3] = SD_RES0;
}
else
response[0] = SD_RES3;
}
return true;
}
#if 0
/* for some misterious reason the card does not report itself as being in TRAN
* but transfers are successful. Rockchip OF does not check the card state
* after SELECT. I checked two different cards.
*/
static void print_card_status(void)
{
unsigned long response;
send_cmd(SD_SEND_STATUS, card_info.rca, RES_R1,
&response);
printf("card status: 0x%0x, state: 0x%0x", response, (response>>9)&0xf);
}
static int sd_wait_for_tran_state(void)
{
unsigned long response;
unsigned int timeout = current_tick + 5*HZ;
int cmd_retry = 10;
while (1)
{
while (!send_cmd(SD_SEND_STATUS, card_info.rca, RES_R1,
&response) && cmd_retry > 0)
{
cmd_retry--;
}
if (cmd_retry <= 0)
{
return -1;
}
if (((response >> 9) & 0xf) == SD_TRAN)
{
return 0;
}
if(TIME_AFTER(current_tick, timeout))
{
return -10 * ((response >> 9) & 0xf);
}
last_disk_activity = current_tick;
}
}
#endif
static bool sd_wait_card_busy(void)
{
unsigned int timeout = current_tick + 5*HZ;
while (!(SD_CARD & SD_CARD_BSY))
{
if(TIME_AFTER(current_tick, timeout))
return false;
}
return true;
}
static int sd_init_card(void)
{
unsigned long response;
long init_timeout;
bool sd_v2 = false;
card_info.rca = 0;
/* assume 50 MHz APB freq / 125 = 400 kHz */
SD_CTRL = (SD_CTRL & ~(0x7FF)) | 0x7D;
/* 100 - 400kHz clock required for Identification Mode */
/* Start of Card Identification Mode ************************************/
/* CMD0 Go Idle */
if(!send_cmd(SD_GO_IDLE_STATE, 0, RES_NO, NULL))
return -1;
sleep(1);
/* CMD8 Check for v2 sd card. Must be sent before using ACMD41
Non v2 cards will not respond to this command*/
if(send_cmd(SD_SEND_IF_COND, 0x1AA, RES_R6, &response))
if((response & 0xFFF) == 0x1AA)
sd_v2 = true;
/* Timeout for inintialization is 2 sec.
According to SD Specification 2.00 it should be >= 1,
but it's not enough in some rare cases. */
init_timeout = current_tick + 2*HZ;
do {
/* this timeout is the only valid error for this loop*/
if(TIME_AFTER(current_tick, init_timeout))
return -2;
if(!send_cmd(SD_APP_CMD, card_info.rca, RES_R1, &response))
return -3;
sleep(1); /* bus conflict otherwise */
/* ACMD41 For v2 cards set HCS bit[30] & send host voltage range to all */
if(!send_cmd(SD_APP_OP_COND, (0x00FF8000 | (sd_v2 ? 1<<30 : 0)),
RES_R3, &card_info.ocr))
return -4;
} while(!(card_info.ocr & (1<<31)) );
/* CMD2 send CID */
if(!send_cmd(SD_ALL_SEND_CID, 0, RES_R2, card_info.cid))
return -5;
/* CMD3 send RCA */
if(!send_cmd(SD_SEND_RELATIVE_ADDR, 0, RES_R6, &card_info.rca))
return -6;
/* End of Card Identification Mode ************************************/
/* CMD9 send CSD */
if(!send_cmd(SD_SEND_CSD, card_info.rca, RES_R2, card_info.csd))
return -11;
sd_parse_csd(&card_info);
if(!send_cmd(SD_SELECT_CARD, card_info.rca, RES_R1b, &response))
return -20;
if (!sd_wait_card_busy())
return -21;
/* CMD6 */
if(!send_cmd(SD_SWITCH_FUNC, 0x80fffff1, RES_R1, &response))
return -8;
sleep(HZ/10);
/* Card back to full speed 25MHz*/
SD_CTRL = (SD_CTRL & ~0x7FF);
card_info.initialized = 1;
return 0;
}
static void init_controller(void)
{
/* reset SD module */
SCU_RSTCFG |= RSTCFG_SD;
sleep(1);
SCU_RSTCFG &= ~RSTCFG_SD;
/* set pins functions as SD signals */
SCU_IOMUXA_CON |= IOMUX_SD;
/* enable and unmask SD interrupts in interrupt controller */
SCU_CLKCFG &= ~CLKCFG_SD;
INTC_IMR |= IRQ_ARM_SD;
INTC_IECR |= IRQ_ARM_SD;
SD_CTRL = SD_PWR_CPU | SD_DETECT_MECH | SD_CLOCK_EN | 0x7D;
SD_INT = CMD_RES_INT_EN | DATA_XFER_INT_EN;
SD_CARD = SD_CARD_SELECT | SD_CARD_PWR_EN;
/* setup mmu buffers */
MMU_PNRI = 0x1ff;
MMU_PNRII = 0x1ff;
MMU_CTRL = MMU_MMU0_BUFII | MMU_CPU_BUFI | MMU_BUFII_RESET |
MMU_BUFII_BYTE | MMU_BUFI_RESET | MMU_BUFI_WORD;
/* setup A2A DMA CH0 for SD reads */
A2A_ISRC0 = (unsigned long)(&MMU_DATA);
A2A_ICNT0 = 512;
A2A_LCNT0 = 1;
/* setup A2A DMA CH1 for SD writes */
A2A_IDST1 = (unsigned long)(&MMU_DATA);
A2A_ICNT1 = 512;
A2A_LCNT1 = 1;
/* src and dst for CH0 and CH1 is AHB0 */
A2A_DOMAIN = 0;
#ifdef RK27XX_SD_DEBUG
/* setup Timer1 for profiling purposes */
TMR1CON = (1<<8)|(1<<3);
#endif
}
int sd_init(void)
{
int ret;
mutex_init(&sd_mtx);
semaphore_init(&transfer_completion_signal, 1, 0);
semaphore_init(&command_completion_signal, 1, 0);
init_controller();
ret = sd_init_card();
if(ret < 0)
return ret;
return 0;
}
static inline void read_sd_data(unsigned char **dst)
{
void *buf = *dst;
if (!IS_ALIGNED(((unsigned long)*dst), CACHEALIGN_SIZE))
buf = aligned_buf;
commit_discard_dcache_range((const void *)buf, 512);
A2A_IDST0 = (unsigned long)buf;
A2A_CON0 = (3<<9) | /* burst 16 */
(1<<6) | /* fixed src */
(1<<3) | /* DMA start */
(2<<1) | /* word transfer size */
(1<<0); /* software mode */
/* wait for DMA engine to finish transfer */
while (A2A_DMA_STS & 1);
if (buf == aligned_buf)
memcpy(*dst, aligned_buf, 512);
*dst += 512;
}
static inline void write_sd_data(unsigned char **src)
{
void *buf = *src;
if (!IS_ALIGNED(((unsigned long)*src), CACHEALIGN_SIZE))
{
buf = aligned_buf;
memcpy(aligned_buf, *src, 512);
}
commit_discard_dcache_range((const void *)buf, 512);
A2A_ISRC1 = (unsigned long)buf;
A2A_CON1 = (3<<9) | /* burst 16 */
(1<<5) | /* fixed dst */
(1<<3) | /* DMA start */
(2<<1) | /* word transfer size */
(1<<0); /* software mode */
/* wait for DMA engine to finish transfer */
while (A2A_DMA_STS & 2);
*src += 512;
}
int sd_read_sectors(IF_MD(int drive,) unsigned long start, int count,
void* buf)
{
#ifdef HAVE_MULTIDRIVE
(void)drive;
#endif
unsigned long response;
unsigned int retry_cnt = 0;
int cnt, ret = 0;
unsigned char *dst;
mutex_lock(&sd_mtx);
enable_controller(true);
if (count <= 0 || start + count > card_info.numblocks)
return -1;
if(!(card_info.ocr & (1<<30)))
start <<= 9; /* not SDHC */
while (retry_cnt++ < 20)
{
cnt = count;
dst = (unsigned char *)buf;
ret = 0;
retry = false; /* reset retry flag */
mmu_buff_reset();
if (cnt == 1)
{
/* last block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_READ |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_SINGLE;
}
else
{
/* more than one block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_READ |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_MULTI;
}
/* issue read command to the card */
if (!send_cmd(SD_READ_MULTIPLE_BLOCK, start, RES_R1, &response))
{
ret = -2;
continue;
}
while (cnt > 0)
{
#ifdef RK27XX_SD_DEBUG
/* debug stuff */
TMR1LR = 0xffffffff;
#endif
/* wait for transfer completion */
semaphore_wait(&transfer_completion_signal, TIMEOUT_BLOCK);
#ifdef RK27XX_SD_DEBUG
/* debug stuff */
sd_debug_time_rd = 0xffffffff - TMR1CVR;
#endif
if (retry)
{
/* data transfer error */
ret = -3;
break;
}
/* exchange buffers */
mmu_switch_buff();
cnt--;
if (cnt == 0)
{
if (!send_cmd(SD_STOP_TRANSMISSION, 0, RES_R1b, &response))
ret = -4;
read_sd_data(&dst);
break;
}
else if (cnt == 1)
{
/* last block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_READ |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_SINGLE;
read_sd_data(&dst);
}
else
{
/* more than one block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_READ |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_MULTI;
read_sd_data(&dst);
}
last_disk_activity = current_tick;
} /* while (cnt > 0) */
/* transfer successfull - leave retry loop */
if (ret == 0)
break;
} /* while (retry_cnt++ < 20) */
enable_controller(false);
mutex_unlock(&sd_mtx);
return ret;
}
/* Not tested */
int sd_write_sectors(IF_MD(int drive,) unsigned long start, int count,
const void* buf)
{
#ifdef HAVE_MULTIDRIVE
(void) drive;
#endif
#if defined(BOOTLOADER) /* we don't need write support in bootloader */
(void) start;
(void) count;
(void) buf;
return -1;
#else
#ifdef RK27XX_SD_DEBUG
/* debug stuff */
TMR1LR = 0xffffffff;
#endif
unsigned long response;
unsigned int retry_cnt = 0;
int cnt, ret = 0;
unsigned char *src;
/* bool card_selected = false; */
mutex_lock(&sd_mtx);
enable_controller(true);
if (count <= 0 || start + count > card_info.numblocks)
return -1;
if(!(card_info.ocr & (1<<30)))
start <<= 9; /* not SDHC */
while (retry_cnt++ < 20)
{
cnt = count;
src = (unsigned char *)buf;
ret = 0;
retry = false; /* reset retry flag */
mmu_buff_reset(); /* reset recive buff state */
write_sd_data(&src); /* put data into transfer buffer */
if (!send_cmd(SD_WRITE_MULTIPLE_BLOCK, start, RES_R1, &response))
{
ret = -3;
continue;
}
while (cnt > 0)
{
/* exchange buffers */
mmu_switch_buff();
if (cnt == 1)
{
/* last block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_WRITE |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_SINGLE;
}
else
{
/* more than one block to transfer */
SD_DATAT = DATA_XFER_START | DATA_XFER_WRITE |
DATA_BUS_1LINE | DATA_XFER_DMA_DIS |
DATA_XFER_MULTI;
/* put more data */
write_sd_data(&src);
}
/* wait for transfer completion */
semaphore_wait(&transfer_completion_signal, TIMEOUT_BLOCK);
if (retry)
{
/* data transfer error */
ret = -3;
break;
}
cnt--;
} /* while (cnt > 0) */
if (!send_cmd(SD_STOP_TRANSMISSION, 0, RES_R1b, &response))
ret = -4;
if (!sd_wait_card_busy())
ret = -5;
/* transfer successfull - leave retry loop */
if (ret == 0)
break;
}
enable_controller(false);
mutex_unlock(&sd_mtx);
#ifdef RK27XX_SD_DEBUG
/* debug stuff */
sd_debug_time_wr = 0xffffffff - TMR1CVR;
#endif
return ret;
#endif /* defined(BOOTLOADER) */
}
void sd_enable(bool on)
{
mutex_lock(&sd_mtx);
enable_controller(on);
mutex_unlock(&sd_mtx);
}
#ifndef BOOTLOADER
long sd_last_disk_activity(void)
{
return last_disk_activity;
}
tCardInfo *card_get_info_target(int card_no)
{
(void)card_no;
return &card_info;
}
#endif /* BOOTLOADER */
#ifdef HAVE_HOTSWAP
/* Not complete and disabled in config */
bool sd_removable(IF_MD_NONVOID(int drive))
{
(void)drive;
return true;
}
bool sd_present(IF_MD_NONVOID(int drive))
{
(void)drive;
return card_detect_target();
}
static int sd_oneshot_callback(struct timeout *tmo)
{
/* This is called only if the state was stable for 300ms - check state
* and post appropriate event. */
queue_broadcast(card_detect_target() ? SYS_HOTSWAP_INSERTED :
SYS_HOTSWAP_EXTRACTED,
sd_first_drive);
return 0;
(void)tmo;
}
/* interrupt handler for SD detect */
#endif /* HAVE_HOTSWAP */
#ifdef CONFIG_STORAGE_MULTI
int sd_num_drives(int first_drive)
{
/* we have only one SD drive */
sd_first_drive = first_drive;
return 1;
}
#endif /* CONFIG_STORAGE_MULTI */
int sd_event(long id, intptr_t data)
{
int rc = 0;
switch (id)
{
#ifdef HAVE_HOTSWAP
case SYS_HOTSWAP_INSERTED:
case SYS_HOTSWAP_EXTRACTED:
mutex_lock(&sd_mtx); /* lock-out card activity */
/* Force card init for new card, re-init for re-inserted one or
* clear if the last attempt to init failed with an error. */
card_info.initialized = 0;
if (id == SYS_HOTSWAP_INSERTED)
{
enable_controller(true);
rc = sd_init_card();
enable_controller(false);
}
mutex_unlock(&sd_mtx);
break;
#endif /* HAVE_HOTSWAP */
default:
rc = storage_event_default_handler(id, data, last_disk_activity,
STORAGE_SD);
break;
}
return rc;
}
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