toaruos/modules/ata.c

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2014-06-08 10:51:01 +04:00
/* vim: tabstop=4 shiftwidth=4 noexpandtab
* This file is part of ToaruOS and is released under the terms
* of the NCSA / University of Illinois License - see LICENSE.md
* Copyright (C) 2014 Kevin Lange
*
* ATA Disk Driver
*
* Provides raw block access to an (Parallel) ATA drive.
*/
#include <system.h>
#include <logging.h>
#include <module.h>
#include <fs.h>
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#include <printf.h>
/* TODO: Move this to mod/ata.h */
#include <ata.h>
static char ata_drive_char = 'a';
struct ata_device {
int io_base;
int control;
int slave;
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ata_identify_t identity;
};
static volatile uint8_t ata_lock = 0;
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/* TODO support other sector sizes */
#define ATA_SECTOR_SIZE 512
static void ata_device_read_sector(struct ata_device * dev, uint32_t lba, uint8_t * buf);
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static void ata_device_write_sector_retry(struct ata_device * dev, uint32_t lba, uint8_t * buf);
static uint32_t read_ata(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer);
static uint32_t write_ata(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer);
static void open_ata(fs_node_t *node, unsigned int flags);
static void close_ata(fs_node_t *node);
static size_t ata_max_offset(struct ata_device * dev) {
size_t sectors = dev->identity.sectors_48;
if (!sectors) {
/* Fall back to sectors_28 */
sectors = dev->identity.sectors_28;
}
return sectors * ATA_SECTOR_SIZE;
}
static uint32_t read_ata(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer) {
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struct ata_device * dev = (struct ata_device *)node->device;
unsigned int start_block = offset / ATA_SECTOR_SIZE;
unsigned int end_block = (offset + size - 1) / ATA_SECTOR_SIZE;
unsigned int x_offset = 0;
if (offset > ata_max_offset(dev)) {
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return 0;
}
if (offset + size > ata_max_offset(dev)) {
unsigned int i = ata_max_offset(dev) - offset;
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size = i;
}
if (offset % ATA_SECTOR_SIZE) {
unsigned int prefix_size = (ATA_SECTOR_SIZE - (offset % ATA_SECTOR_SIZE));
char * tmp = malloc(ATA_SECTOR_SIZE);
ata_device_read_sector(dev, start_block, (uint8_t *)tmp);
memcpy(buffer, (void *)((uintptr_t)tmp + (offset % ATA_SECTOR_SIZE)), prefix_size);
free(tmp);
x_offset += prefix_size;
start_block++;
}
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if ((offset + size) % ATA_SECTOR_SIZE && start_block < end_block) {
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unsigned int postfix_size = (offset + size) % ATA_SECTOR_SIZE;
char * tmp = malloc(ATA_SECTOR_SIZE);
ata_device_read_sector(dev, end_block, (uint8_t *)tmp);
memcpy((void *)((uintptr_t)buffer + size - postfix_size), tmp, postfix_size);
free(tmp);
end_block--;
}
while (start_block <= end_block) {
ata_device_read_sector(dev, start_block, (uint8_t *)((uintptr_t)buffer + x_offset));
x_offset += ATA_SECTOR_SIZE;
start_block++;
}
return size;
}
static uint32_t write_ata(fs_node_t *node, uint32_t offset, uint32_t size, uint8_t *buffer) {
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struct ata_device * dev = (struct ata_device *)node->device;
unsigned int start_block = offset / ATA_SECTOR_SIZE;
unsigned int end_block = (offset + size - 1) / ATA_SECTOR_SIZE;
unsigned int x_offset = 0;
if (offset > ata_max_offset(dev)) {
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return 0;
}
if (offset + size > ata_max_offset(dev)) {
unsigned int i = ata_max_offset(dev) - offset;
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size = i;
}
if (offset % ATA_SECTOR_SIZE) {
unsigned int prefix_size = (ATA_SECTOR_SIZE - (offset % ATA_SECTOR_SIZE));
char * tmp = malloc(ATA_SECTOR_SIZE);
ata_device_read_sector(dev, start_block, (uint8_t *)tmp);
debug_print(NOTICE, "Writing first block");
memcpy((void *)((uintptr_t)tmp + (offset % ATA_SECTOR_SIZE)), buffer, prefix_size);
ata_device_write_sector_retry(dev, start_block, (uint8_t *)tmp);
free(tmp);
x_offset += prefix_size;
start_block++;
}
if ((offset + size) % ATA_SECTOR_SIZE && start_block < end_block) {
unsigned int postfix_size = (offset + size) % ATA_SECTOR_SIZE;
char * tmp = malloc(ATA_SECTOR_SIZE);
ata_device_read_sector(dev, end_block, (uint8_t *)tmp);
debug_print(NOTICE, "Writing last block");
memcpy(tmp, (void *)((uintptr_t)buffer + size - postfix_size), postfix_size);
ata_device_write_sector_retry(dev, end_block, (uint8_t *)tmp);
free(tmp);
end_block--;
}
while (start_block <= end_block) {
ata_device_write_sector_retry(dev, start_block, (uint8_t *)((uintptr_t)buffer + x_offset));
x_offset += ATA_SECTOR_SIZE;
start_block++;
}
return size;
}
static void open_ata(fs_node_t * node, unsigned int flags) {
return;
}
static void close_ata(fs_node_t * node) {
return;
}
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static fs_node_t * ata_device_create(struct ata_device * device) {
fs_node_t * fnode = malloc(sizeof(fs_node_t));
memset(fnode, 0x00, sizeof(fs_node_t));
fnode->inode = 0;
sprintf(fnode->name, "atadev%d", ata_drive_char - 'a');
fnode->device = device;
fnode->uid = 0;
fnode->gid = 0;
fnode->length = ata_max_offset(device); /* TODO */
fnode->flags = FS_BLOCKDEVICE;
fnode->read = read_ata;
fnode->write = write_ata;
fnode->open = open_ata;
fnode->close = close_ata;
fnode->readdir = NULL;
fnode->finddir = NULL;
fnode->ioctl = NULL; /* TODO, identify, etc? */
return fnode;
}
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static void ata_io_wait(struct ata_device * dev) {
inportb(dev->io_base + ATA_REG_ALTSTATUS);
inportb(dev->io_base + ATA_REG_ALTSTATUS);
inportb(dev->io_base + ATA_REG_ALTSTATUS);
inportb(dev->io_base + ATA_REG_ALTSTATUS);
}
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static int ata_status_wait(struct ata_device * dev, int timeout) {
int status;
if (timeout > 0) {
int i = 0;
while ((status = inportb(dev->io_base + ATA_REG_STATUS)) & ATA_SR_BSY && (i < timeout)) i++;
} else {
while ((status = inportb(dev->io_base + ATA_REG_STATUS)) & ATA_SR_BSY);
}
return status;
}
static int ata_wait(struct ata_device * dev, int advanced) {
uint8_t status = 0;
ata_io_wait(dev);
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status = ata_status_wait(dev, -1);
if (advanced) {
status = inportb(dev->io_base + ATA_REG_STATUS);
if (status & ATA_SR_ERR) return 1;
if (status & ATA_SR_DF) return 1;
if (!(status & ATA_SR_DRQ)) return 1;
}
return 0;
}
static void ata_soft_reset(struct ata_device * dev) {
outportb(dev->control, 0x04);
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ata_io_wait(dev);
outportb(dev->control, 0x00);
}
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static void ata_device_init(struct ata_device * dev) {
debug_print(NOTICE, "Initializing IDE device on bus %d", dev->io_base);
outportb(dev->io_base + 1, 1);
outportb(dev->control, 0);
outportb(dev->io_base + ATA_REG_HDDEVSEL, 0xA0 | dev->slave << 4);
ata_io_wait(dev);
outportb(dev->io_base + ATA_REG_COMMAND, ATA_CMD_IDENTIFY);
ata_io_wait(dev);
int status = inportb(dev->io_base + ATA_REG_COMMAND);
debug_print(INFO, "Device status: %d", status);
ata_wait(dev, 0);
uint16_t * buf = (uint16_t *)&dev->identity;
for (int i = 0; i < 256; ++i) {
buf[i] = inports(dev->io_base);
}
uint8_t * ptr = (uint8_t *)&dev->identity.model;
for (int i = 0; i < 39; i+=2) {
uint8_t tmp = ptr[i+1];
ptr[i+1] = ptr[i];
ptr[i] = tmp;
}
debug_print(NOTICE, "Device Name: %s", dev->identity.model);
debug_print(NOTICE, "Sectors (48): %d", (uint32_t)dev->identity.sectors_48);
debug_print(NOTICE, "Sectors (24): %d", dev->identity.sectors_28);
outportb(dev->io_base + ATA_REG_CONTROL, 0x02);
}
static int ata_device_detect(struct ata_device * dev) {
ata_soft_reset(dev);
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ata_io_wait(dev);
outportb(dev->io_base + ATA_REG_HDDEVSEL, 0xA0 | dev->slave << 4);
ata_io_wait(dev);
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ata_status_wait(dev, 10000);
unsigned char cl = inportb(dev->io_base + ATA_REG_LBA1); /* CYL_LO */
unsigned char ch = inportb(dev->io_base + ATA_REG_LBA2); /* CYL_HI */
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debug_print(NOTICE, "Device detected: 0x%2x 0x%2x", cl, ch);
if (cl == 0xFF && ch == 0xFF) {
/* Nothing here */
return 0;
}
if (cl == 0x00 && ch == 0x00) {
/* Parallel ATA device */
char devname[64];
sprintf((char *)&devname, "/dev/hd%c", ata_drive_char);
fs_node_t * node = ata_device_create(dev);
vfs_mount(devname, node);
ata_drive_char++;
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ata_device_init(dev);
return 1;
}
/* TODO: ATAPI, SATA, SATAPI */
return 0;
}
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static void ata_device_read_sector(struct ata_device * dev, uint32_t lba, uint8_t * buf) {
uint16_t bus = dev->io_base;
uint8_t slave = dev->slave;
spin_lock(&ata_lock);
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int errors = 0;
try_again:
outportb(bus + ATA_REG_CONTROL, 0x02);
ata_wait(dev, 0);
outportb(bus + ATA_REG_HDDEVSEL, 0xe0 | slave << 4 | (lba & 0x0f000000) >> 24);
outportb(bus + ATA_REG_FEATURES, 0x00);
outportb(bus + ATA_REG_SECCOUNT0, 1);
outportb(bus + ATA_REG_LBA0, (lba & 0x000000ff) >> 0);
outportb(bus + ATA_REG_LBA1, (lba & 0x0000ff00) >> 8);
outportb(bus + ATA_REG_LBA2, (lba & 0x00ff0000) >> 16);
outportb(bus + ATA_REG_COMMAND, ATA_CMD_READ_PIO);
if (ata_wait(dev, 1)) {
debug_print(WARNING, "Error during ATA read of lba block %d", lba);
errors++;
if (errors > 4) {
debug_print(WARNING, "-- Too many errors trying to read this block. Bailing.");
spin_unlock(&ata_lock);
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return;
}
goto try_again;
}
int size = 256;
inportsm(bus,buf,size);
ata_wait(dev, 0);
spin_unlock(&ata_lock);
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}
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static void ata_device_write_sector(struct ata_device * dev, uint32_t lba, uint8_t * buf) {
uint16_t bus = dev->io_base;
uint8_t slave = dev->slave;
spin_lock(&ata_lock);
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outportb(bus + ATA_REG_CONTROL, 0x02);
ata_wait(dev, 0);
outportb(bus + ATA_REG_HDDEVSEL, 0xe0 | slave << 4 | (lba & 0x0f000000) >> 24);
ata_wait(dev, 0);
outportb(bus + ATA_REG_FEATURES, 0x00);
outportb(bus + ATA_REG_SECCOUNT0, 0x01);
outportb(bus + ATA_REG_LBA0, (lba & 0x000000ff) >> 0);
outportb(bus + ATA_REG_LBA1, (lba & 0x0000ff00) >> 8);
outportb(bus + ATA_REG_LBA2, (lba & 0x00ff0000) >> 16);
outportb(bus + ATA_REG_COMMAND, ATA_CMD_WRITE_PIO);
ata_wait(dev, 0);
int size = ATA_SECTOR_SIZE / 2;
outportsm(bus,buf,size);
outportb(bus + 0x07, ATA_CMD_CACHE_FLUSH);
ata_wait(dev, 0);
spin_unlock(&ata_lock);
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}
static int buffer_compare(uint32_t * ptr1, uint32_t * ptr2, size_t size) {
assert(!(size % 4));
size_t i = 0;
while (i < size) {
if (*ptr1 != *ptr2) return 1;
ptr1++;
ptr2++;
i += sizeof(uint32_t);
}
return 0;
}
static void ata_device_write_sector_retry(struct ata_device * dev, uint32_t lba, uint8_t * buf) {
uint8_t * read_buf = malloc(ATA_SECTOR_SIZE);
IRQ_OFF;
do {
ata_device_write_sector(dev, lba, buf);
ata_device_read_sector(dev, lba, read_buf);
} while (buffer_compare((uint32_t *)buf, (uint32_t *)read_buf, ATA_SECTOR_SIZE));
IRQ_RES;
free(read_buf);
}
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static struct ata_device ata_primary_master = {.io_base = 0x1F0, .control = 0x3F6, .slave = 0};
static struct ata_device ata_primary_slave = {.io_base = 0x1F0, .control = 0x3F6, .slave = 1};
static struct ata_device ata_secondary_master = {.io_base = 0x170, .control = 0x376, .slave = 0};
static struct ata_device ata_secondary_slave = {.io_base = 0x170, .control = 0x376, .slave = 1};
static int ata_initialize(void) {
/* Detect drives and mount them */
ata_device_detect(&ata_primary_master);
ata_device_detect(&ata_primary_slave);
ata_device_detect(&ata_secondary_master);
ata_device_detect(&ata_secondary_slave);
return 0;
}
static int ata_finalize(void) {
return 0;
}
MODULE_DEF(ata, ata_initialize, ata_finalize);