src/include/gpxe/ata.h - ipxe - Git at Google

 #ifndef _GPXE_ATA_H
 #define _GPXE_ATA_H

 #include <stdint.h>
 #include <gpxe/blockdev.h>
 #include <gpxe/uaccess.h>
 #include <gpxe/refcnt.h>

 /** @file
  *
  * ATA devices
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 /**
  * An ATA Logical Block Address
  *
  * ATA controllers have three byte-wide registers for specifying the
  * block address: LBA Low, LBA Mid and LBA High.  This allows for a
  * 24-bit address.  Some devices support the "48-bit address feature
  * set" (LBA48), in which case each of these byte-wide registers is
  * actually a two-entry FIFO, and the "previous" byte pushed into the
  * FIFO is used as the corresponding high-order byte.  So, to set up
  * the 48-bit address 0x123456abcdef, you would issue
  *
  *     0x56 -> LBA Low register
  *     0xef -> LBA Low register
  *     0x34 -> LBA Mid register
  *     0xcd -> LBA Mid register
  *     0x12 -> LBA High register
  *     0xab -> LBA High register
  *
  * This structure encapsulates this information by providing a single
  * 64-bit integer in native byte order, unioned with bytes named so
  * that the sequence becomes
  *
  *     low_prev  -> LBA Low register
  *     low_cur   -> LBA Low register
  *     mid_prev  -> LBA Mid register
  *     mid_cur   -> LBA Mid register
  *     high_prev -> LBA High register
  *     high_cur  -> LBA High register
  *
  * Just to complicate matters further, in non-LBA48 mode it is
  * possible to have a 28-bit address, in which case bits 27:24 must be
  * written into the low four bits of the Device register.
  */
 union ata_lba {
 	/** LBA as a 64-bit integer in native-endian order */
 	uint64_t native;
 	/** ATA registers */
 	struct {
 #if __BYTE_ORDER == __LITTLE_ENDIAN
 		uint8_t low_cur;
 		uint8_t mid_cur;
 		uint8_t high_cur;
 		uint8_t low_prev;
 		uint8_t mid_prev;
 		uint8_t high_prev;
 		uint16_t pad;
 #elif __BYTE_ORDER == __BIG_ENDIAN
 		uint16_t pad;
 		uint8_t high_prev;
 		uint8_t mid_prev;
 		uint8_t low_prev;
 		uint8_t high_cur;
 		uint8_t mid_cur;
 		uint8_t low_cur;
 #else
 #error "I need a byte order"
 #endif
 	} bytes;
 };

 /** An ATA 2-byte FIFO register */
 union ata_fifo {
 	/** Value in native-endian order */
 	uint16_t native;
 	/** ATA registers */
 	struct {
 #if __BYTE_ORDER == __LITTLE_ENDIAN
 		uint8_t cur;
 		uint8_t prev;
 #elif __BYTE_ORDER == __BIG_ENDIAN
 		uint8_t prev;
 		uint8_t cur;
 #else
 #error "I need a byte order"
 #endif
 	} bytes;
 };

 /** ATA command block */
 struct ata_cb {
 	/** Logical block address */
 	union ata_lba lba;
 	/** Sector count */
 	union ata_fifo count;
 	/** Error/feature register */
 	union ata_fifo err_feat;
 	/** Device register */
 	uint8_t device;
 	/** Command/status register */
 	uint8_t cmd_stat;
 	/** LBA48 addressing flag */
 	int lba48;
 };

 /** Obsolete bits in the ATA device register */
 #define ATA_DEV_OBSOLETE 0xa0

 /** LBA flag in the ATA device register */
 #define ATA_DEV_LBA 0x40

 /** Slave ("device 1") flag in the ATA device register */
 #define ATA_DEV_SLAVE 0x10

 /** Master ("device 0") flag in the ATA device register */
 #define ATA_DEV_MASTER 0x00

 /** Mask of non-LBA portion of device register */
 #define ATA_DEV_MASK 0xf0

 /** "Read sectors" command */
 #define ATA_CMD_READ 0x20

 /** "Read sectors (ext)" command */
 #define ATA_CMD_READ_EXT 0x24

 /** "Write sectors" command */
 #define ATA_CMD_WRITE 0x30

 /** "Write sectors (ext)" command */
 #define ATA_CMD_WRITE_EXT 0x34

 /** "Identify" command */
 #define ATA_CMD_IDENTIFY 0xec

 /** An ATA command */
 struct ata_command {
 	/** ATA command block */
 	struct ata_cb cb;
 	/** Data-out buffer (may be NULL)
 	 *
 	 * If non-NULL, this buffer must be ata_command::cb::count
 	 * sectors in size.
 	 */
 	userptr_t data_out;
 	/** Data-in buffer (may be NULL)
 	 *
 	 * If non-NULL, this buffer must be ata_command::cb::count
 	 * sectors in size.
 	 */
 	userptr_t data_in;
 };

 /**
  * Structure returned by ATA IDENTIFY command
  *
  * This is a huge structure with many fields that we don't care about,
  * so we implement only a few fields.
  */
 struct ata_identity {
 	uint16_t ignore_a[60]; /* words 0-59 */
 	uint32_t lba_sectors; /* words 60-61 */
 	uint16_t ignore_b[21]; /* words 62-82 */
 	uint16_t supports_lba48; /* word 83 */
 	uint16_t ignore_c[16]; /* words 84-99 */
 	uint64_t lba48_sectors; /* words 100-103 */
 	uint16_t ignore_d[152]; /* words 104-255 */
 };

 /** Supports LBA48 flag */
 #define ATA_SUPPORTS_LBA48 ( 1 << 10 )

 /** ATA sector size */
 #define ATA_SECTOR_SIZE 512

 /** An ATA device */
 struct ata_device {
 	/** Block device interface */
 	struct block_device blockdev;
 	/** Device number
 	 *
 	 * Must be ATA_DEV_MASTER or ATA_DEV_SLAVE.
 	 */
 	int device;
 	/** LBA48 extended addressing */
 	int lba48;
 	/**
 	 * Issue ATA command
 	 *
 	 * @v ata		ATA device
 	 * @v command		ATA command
 	 * @ret rc		Return status code
 	 */
 	int ( * command ) ( struct ata_device *ata,
 			    struct ata_command *command );
 	/** Backing device */
 	struct refcnt *backend;
 };

 extern int init_atadev ( struct ata_device *ata );

 #endif /* _GPXE_ATA_H */
	#ifndef _GPXE_ATA_H
	#define _GPXE_ATA_H

	#include <stdint.h>
	#include <gpxe/blockdev.h>
	#include <gpxe/uaccess.h>
	#include <gpxe/refcnt.h>

	/** @file
	*
	* ATA devices
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	/**
	* An ATA Logical Block Address
	*
	* ATA controllers have three byte-wide registers for specifying the
	* block address: LBA Low, LBA Mid and LBA High. This allows for a
	* 24-bit address. Some devices support the "48-bit address feature
	* set" (LBA48), in which case each of these byte-wide registers is
	* actually a two-entry FIFO, and the "previous" byte pushed into the
	* FIFO is used as the corresponding high-order byte. So, to set up
	* the 48-bit address 0x123456abcdef, you would issue
	*
	* 0x56 -> LBA Low register
	* 0xef -> LBA Low register
	* 0x34 -> LBA Mid register
	* 0xcd -> LBA Mid register
	* 0x12 -> LBA High register
	* 0xab -> LBA High register
	*
	* This structure encapsulates this information by providing a single
	* 64-bit integer in native byte order, unioned with bytes named so
	* that the sequence becomes
	*
	* low_prev -> LBA Low register
	* low_cur -> LBA Low register
	* mid_prev -> LBA Mid register
	* mid_cur -> LBA Mid register
	* high_prev -> LBA High register
	* high_cur -> LBA High register
	*
	* Just to complicate matters further, in non-LBA48 mode it is
	* possible to have a 28-bit address, in which case bits 27:24 must be
	* written into the low four bits of the Device register.
	*/
	union ata_lba {
	/** LBA as a 64-bit integer in native-endian order */
	uint64_t native;
	/** ATA registers */
	struct {
	#if __BYTE_ORDER == __LITTLE_ENDIAN
	uint8_t low_cur;
	uint8_t mid_cur;
	uint8_t high_cur;
	uint8_t low_prev;
	uint8_t mid_prev;
	uint8_t high_prev;
	uint16_t pad;
	#elif __BYTE_ORDER == __BIG_ENDIAN
	uint16_t pad;
	uint8_t high_prev;
	uint8_t mid_prev;
	uint8_t low_prev;
	uint8_t high_cur;
	uint8_t mid_cur;
	uint8_t low_cur;
	#else
	#error "I need a byte order"
	#endif
	} bytes;
	};

	/** An ATA 2-byte FIFO register */
	union ata_fifo {
	/** Value in native-endian order */
	uint16_t native;
	/** ATA registers */
	struct {
	#if __BYTE_ORDER == __LITTLE_ENDIAN
	uint8_t cur;
	uint8_t prev;
	#elif __BYTE_ORDER == __BIG_ENDIAN
	uint8_t prev;
	uint8_t cur;
	#else
	#error "I need a byte order"
	#endif
	} bytes;
	};

	/** ATA command block */
	struct ata_cb {
	/** Logical block address */
	union ata_lba lba;
	/** Sector count */
	union ata_fifo count;
	/** Error/feature register */
	union ata_fifo err_feat;
	/** Device register */
	uint8_t device;
	/** Command/status register */
	uint8_t cmd_stat;
	/** LBA48 addressing flag */
	int lba48;
	};

	/** Obsolete bits in the ATA device register */
	#define ATA_DEV_OBSOLETE 0xa0

	/** LBA flag in the ATA device register */
	#define ATA_DEV_LBA 0x40

	/** Slave ("device 1") flag in the ATA device register */
	#define ATA_DEV_SLAVE 0x10

	/** Master ("device 0") flag in the ATA device register */
	#define ATA_DEV_MASTER 0x00

	/** Mask of non-LBA portion of device register */
	#define ATA_DEV_MASK 0xf0

	/** "Read sectors" command */
	#define ATA_CMD_READ 0x20

	/** "Read sectors (ext)" command */
	#define ATA_CMD_READ_EXT 0x24

	/** "Write sectors" command */
	#define ATA_CMD_WRITE 0x30

	/** "Write sectors (ext)" command */
	#define ATA_CMD_WRITE_EXT 0x34

	/** "Identify" command */
	#define ATA_CMD_IDENTIFY 0xec

	/** An ATA command */
	struct ata_command {
	/** ATA command block */
	struct ata_cb cb;
	/** Data-out buffer (may be NULL)
	*
	* If non-NULL, this buffer must be ata_command::cb::count
	* sectors in size.
	*/
	userptr_t data_out;
	/** Data-in buffer (may be NULL)
	*
	* If non-NULL, this buffer must be ata_command::cb::count
	* sectors in size.
	*/
	userptr_t data_in;
	};

	/**
	* Structure returned by ATA IDENTIFY command
	*
	* This is a huge structure with many fields that we don't care about,
	* so we implement only a few fields.
	*/
	struct ata_identity {
	uint16_t ignore_a[60]; /* words 0-59 */
	uint32_t lba_sectors; /* words 60-61 */
	uint16_t ignore_b[21]; /* words 62-82 */
	uint16_t supports_lba48; /* word 83 */
	uint16_t ignore_c[16]; /* words 84-99 */
	uint64_t lba48_sectors; /* words 100-103 */
	uint16_t ignore_d[152]; /* words 104-255 */
	};

	/** Supports LBA48 flag */
	#define ATA_SUPPORTS_LBA48 ( 1 << 10 )

	/** ATA sector size */
	#define ATA_SECTOR_SIZE 512

	/** An ATA device */
	struct ata_device {
	/** Block device interface */
	struct block_device blockdev;
	/** Device number
	*
	* Must be ATA_DEV_MASTER or ATA_DEV_SLAVE.
	*/
	int device;
	/** LBA48 extended addressing */
	int lba48;
	/**
	* Issue ATA command
	*
	* @v ata ATA device
	* @v command ATA command
	* @ret rc Return status code
	*/
	int ( * command ) ( struct ata_device *ata,
	struct ata_command *command );
	/** Backing device */
	struct refcnt *backend;
	};

	extern int init_atadev ( struct ata_device *ata );

	#endif /* _GPXE_ATA_H */