toaruos/modules/ataold.c

/* 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) 2014-2018 K. Lange
  *
 * ATA Disk Driver
 *
 * Provides raw block access to an (Parallel) ATA drive.
 */

#include <kernel/system.h>
#include <kernel/logging.h>
#include <kernel/module.h>
#include <kernel/fs.h>
#include <kernel/printf.h>

/* TODO: Move this to mod/ata.h */
#include <kernel/ata.h>

static char ata_drive_char = 'a';

struct ata_device {
	int io_base;
	int control;
	int slave;
	ata_identify_t identity;
};

//static volatile uint8_t ata_lock = 0;
static spin_lock_t ata_lock = { 0 };

/* 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);
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 uint64_t ata_max_offset(struct ata_device * dev) {
	uint64_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) {

	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)) {
		return 0;
	}

	if (offset + size > ata_max_offset(dev)) {
		unsigned int i = ata_max_offset(dev) - offset;
		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++;
	}

	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);

		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) {
	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)) {
		return 0;
	}

	if (offset + size > ata_max_offset(dev)) {
		unsigned int i = ata_max_offset(dev) - offset;
		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;
}

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->mask    = 0660;
	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;
}

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);
}

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);

	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);
	ata_io_wait(dev);
	outportb(dev->control, 0x00);
}

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);
	ata_io_wait(dev);
	outportb(dev->io_base + ATA_REG_HDDEVSEL, 0xA0 | dev->slave << 4);
	ata_io_wait(dev);
	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 */

	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) ||
	    (cl == 0x3C && ch == 0xC3)) {
		/* Parallel ATA device, or emulated SATA */

		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++;

		ata_device_init(dev);

		return 1;
	}

	/* TODO: ATAPI, SATA, SATAPI */
	return 0;
}

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);

	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);
			return;
		}
		goto try_again;
	}

	int size = 256;
	inportsm(bus,buf,size);
	ata_wait(dev, 0);
	spin_unlock(ata_lock);
}

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);

	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);
}

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);
}

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_legacy, ata_initialize, ata_finalize);
Merge kernel 2018-03-16 15:56:19 +03:00			`/* 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`
Don't use my given name in copyright headers; update everything to 2018 because why not 2018-05-01 11:12:56 +03:00			`* Copyright (C) 2014-2018 K. Lange`
Merge kernel 2018-03-16 15:56:19 +03:00			`*`
			`* ATA Disk Driver`
			`*`
			`* Provides raw block access to an (Parallel) ATA drive.`
			`*/`

Reorganize headers 2018-03-19 05:38:11 +03:00			`#include <kernel/system.h>`
			`#include <kernel/logging.h>`
			`#include <kernel/module.h>`
			`#include <kernel/fs.h>`
			`#include <kernel/printf.h>`
Merge kernel 2018-03-16 15:56:19 +03:00
			`/* TODO: Move this to mod/ata.h */`
Reorganize headers 2018-03-19 05:38:11 +03:00			`#include <kernel/ata.h>`
Merge kernel 2018-03-16 15:56:19 +03:00
			`static char ata_drive_char = 'a';`

			`struct ata_device {`
			`int io_base;`
			`int control;`
			`int slave;`
			`ata_identify_t identity;`
			`};`

			`//static volatile uint8_t ata_lock = 0;`
			`static spin_lock_t ata_lock = { 0 };`

			`/* 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);`
			`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 uint64_t ata_max_offset(struct ata_device * dev) {`
			`uint64_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) {`

			`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)) {`
			`return 0;`
			`}`

			`if (offset + size > ata_max_offset(dev)) {`
			`unsigned int i = ata_max_offset(dev) - offset;`
			`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++;`
			`}`

			`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);`

			`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) {`
			`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)) {`
			`return 0;`
			`}`

			`if (offset + size > ata_max_offset(dev)) {`
			`unsigned int i = ata_max_offset(dev) - offset;`
			`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;`
			`}`

			`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->mask = 0660;`
			`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;`
			`}`

			`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);`
			`}`

			`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);`

			`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);`
			`ata_io_wait(dev);`
			`outportb(dev->control, 0x00);`
			`}`

			`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);`
			`ata_io_wait(dev);`
			`outportb(dev->io_base + ATA_REG_HDDEVSEL, 0xA0 \| dev->slave << 4);`
			`ata_io_wait(dev);`
			`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 */`

			`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) \|\|`
			`(cl == 0x3C && ch == 0xC3)) {`
			`/* Parallel ATA device, or emulated SATA */`

			`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++;`

			`ata_device_init(dev);`

			`return 1;`
			`}`

			`/* TODO: ATAPI, SATA, SATAPI */`
			`return 0;`
			`}`

			`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);`

			`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);`
			`return;`
			`}`
			`goto try_again;`
			`}`

			`int size = 256;`
			`inportsm(bus,buf,size);`
			`ata_wait(dev, 0);`
			`spin_unlock(ata_lock);`
			`}`

			`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);`

			`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);`
			`}`

			`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);`
			`}`

			`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_legacy, ata_initialize, ata_finalize);`