gpxe/src/arch/i386/interface/pcbios/int13.c - platform/external/syslinux - Git at Google

 /*
  * Copyright (C) 2006 Michael Brown <mbrown@fensystems.co.uk>.
  *
  * 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 any later version.
  *
  * This program is distributed in the hope that it will be useful, but
  * WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 #include <stdint.h>
 #include <limits.h>
 #include <byteswap.h>
 #include <errno.h>
 #include <assert.h>
 #include <gpxe/list.h>
 #include <gpxe/blockdev.h>
 #include <gpxe/memmap.h>
 #include <realmode.h>
 #include <bios.h>
 #include <biosint.h>
 #include <bootsector.h>
 #include <int13.h>

 /** @file
  *
  * INT 13 emulation
  *
  * This module provides a mechanism for exporting block devices via
  * the BIOS INT 13 disk interrupt interface.
  *
  */

 /** Vector for chaining to other INT 13 handlers */
 static struct segoff __text16 ( int13_vector );
 #define int13_vector __use_text16 ( int13_vector )

 /** Assembly wrapper */
 extern void int13_wrapper ( void );

 /** List of registered emulated drives */
 static LIST_HEAD ( drives );

 /**
  * Number of BIOS drives
  *
  * Note that this is the number of drives in the system as a whole
  * (i.e. a mirror of the counter at 40:75), rather than a count of the
  * number of emulated drives.
  */
 static uint8_t num_drives;

 /**
  * Update BIOS drive count
  */
 static void int13_set_num_drives ( void ) {
 	struct int13_drive *drive;

 	/* Get current drive count */
 	get_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );

 	/* Ensure count is large enough to cover all of our emulated drives */
 	list_for_each_entry ( drive, &drives, list ) {
 		if ( num_drives <= ( drive->drive & 0x7f ) )
 			num_drives = ( ( drive->drive & 0x7f ) + 1 );
 	}

 	/* Update current drive count */
 	put_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );
 }

 /**
  * Check number of drives
  */
 static void int13_check_num_drives ( void ) {
 	uint8_t check_num_drives;

 	get_real ( check_num_drives, BDA_SEG, BDA_NUM_DRIVES );
 	if ( check_num_drives != num_drives ) {
 		int13_set_num_drives();
 		DBG ( "INT13 fixing up number of drives from %d to %d\n",
 		      check_num_drives, num_drives );
 	}
 }

 /**
  * INT 13, 00 - Reset disk system
  *
  * @v drive		Emulated drive
  * @ret status		Status code
  */
 static int int13_reset ( struct int13_drive *drive __unused,
 			 struct i386_all_regs *ix86 __unused ) {
 	DBG ( "Reset drive\n" );
 	return 0;
 }

 /**
  * INT 13, 01 - Get status of last operation
  *
  * @v drive		Emulated drive
  * @ret status		Status code
  */
 static int int13_get_last_status ( struct int13_drive *drive,
 				   struct i386_all_regs *ix86 __unused ) {
 	DBG ( "Get status of last operation\n" );
 	return drive->last_status;
 }

 /**
  * Read / write sectors
  *
  * @v drive		Emulated drive
  * @v al		Number of sectors to read or write (must be nonzero)
  * @v ch		Low bits of cylinder number
  * @v cl (bits 7:6)	High bits of cylinder number
  * @v cl (bits 5:0)	Sector number
  * @v dh		Head number
  * @v es:bx		Data buffer
  * @v io		Read / write method
  * @ret status		Status code
  * @ret al		Number of sectors read or written
  */
 static int int13_rw_sectors ( struct int13_drive *drive,
 			      struct i386_all_regs *ix86,
 			      int ( * io ) ( struct block_device *blockdev,
 					     uint64_t block,
 					     unsigned long count,
 					     userptr_t buffer ) ) {
 	struct block_device *blockdev = drive->blockdev;
 	unsigned int cylinder, head, sector;
 	unsigned long lba;
 	unsigned int count;
 	userptr_t buffer;
 	int rc;

 	/* Validate blocksize */
 	if ( blockdev->blksize != INT13_BLKSIZE ) {
 		DBG ( "Invalid blocksize (%zd) for non-extended read/write\n",
 		      blockdev->blksize );
 		return -INT13_STATUS_INVALID;
 	}

 	/* Calculate parameters */
 	cylinder = ( ( ( ix86->regs.cl & 0xc0 ) << 2 ) | ix86->regs.ch );
 	assert ( cylinder < drive->cylinders );
 	head = ix86->regs.dh;
 	assert ( head < drive->heads );
 	sector = ( ix86->regs.cl & 0x3f );
 	assert ( ( sector >= 1 ) && ( sector <= drive->sectors_per_track ) );
 	lba = ( ( ( ( cylinder * drive->heads ) + head )
 		  * drive->sectors_per_track ) + sector - 1 );
 	count = ix86->regs.al;
 	buffer = real_to_user ( ix86->segs.es, ix86->regs.bx );

 	DBG ( "C/H/S %d/%d/%d = LBA %#lx <-> %04x:%04x (count %d)\n", cylinder,
 	      head, sector, lba, ix86->segs.es, ix86->regs.bx, count );

 	/* Read from / write to block device */
 	if ( ( rc = io ( blockdev, lba, count, buffer ) ) != 0 ) {
 		DBG ( "INT 13 failed: %s\n", strerror ( rc ) );
 		return -INT13_STATUS_READ_ERROR;
 	}

 	return 0;
 }

 /**
  * INT 13, 02 - Read sectors
  *
  * @v drive		Emulated drive
  * @v al		Number of sectors to read (must be nonzero)
  * @v ch		Low bits of cylinder number
  * @v cl (bits 7:6)	High bits of cylinder number
  * @v cl (bits 5:0)	Sector number
  * @v dh		Head number
  * @v es:bx		Data buffer
  * @ret status		Status code
  * @ret al		Number of sectors read
  */
 static int int13_read_sectors ( struct int13_drive *drive,
 				struct i386_all_regs *ix86 ) {
 	DBG ( "Read: " );
 	return int13_rw_sectors ( drive, ix86, drive->blockdev->op->read );
 }

 /**
  * INT 13, 03 - Write sectors
  *
  * @v drive		Emulated drive
  * @v al		Number of sectors to write (must be nonzero)
  * @v ch		Low bits of cylinder number
  * @v cl (bits 7:6)	High bits of cylinder number
  * @v cl (bits 5:0)	Sector number
  * @v dh		Head number
  * @v es:bx		Data buffer
  * @ret status		Status code
  * @ret al		Number of sectors written
  */
 static int int13_write_sectors ( struct int13_drive *drive,
 				 struct i386_all_regs *ix86 ) {
 	DBG ( "Write: " );
 	return int13_rw_sectors ( drive, ix86, drive->blockdev->op->write );
 }

 /**
  * INT 13, 08 - Get drive parameters
  *
  * @v drive		Emulated drive
  * @ret status		Status code
  * @ret ch		Low bits of maximum cylinder number
  * @ret cl (bits 7:6)	High bits of maximum cylinder number
  * @ret cl (bits 5:0)	Maximum sector number
  * @ret dh		Maximum head number
  * @ret dl		Number of drives
  */
 static int int13_get_parameters ( struct int13_drive *drive,
 				  struct i386_all_regs *ix86 ) {
 	unsigned int max_cylinder = drive->cylinders - 1;
 	unsigned int max_head = drive->heads - 1;
 	unsigned int max_sector = drive->sectors_per_track; /* sic */

 	DBG ( "Get drive parameters\n" );

 	ix86->regs.ch = ( max_cylinder & 0xff );
 	ix86->regs.cl = ( ( ( max_cylinder >> 8 ) << 6 ) | max_sector );
 	ix86->regs.dh = max_head;
 	get_real ( ix86->regs.dl, BDA_SEG, BDA_NUM_DRIVES );
 	return 0;
 }

 /**
  * INT 13, 15 - Get disk type
  *
  * @v drive		Emulated drive
  * @ret ah		Type code
  * @ret cx:dx		Sector count
  * @ret status		Status code / disk type
  */
 static int int13_get_disk_type ( struct int13_drive *drive,
 				 struct i386_all_regs *ix86 ) {
 	uint32_t blocks;

 	DBG ( "Get disk type\n" );
 	blocks = ( ( drive->blockdev->blocks <= 0xffffffffUL ) ?
 		   drive->blockdev->blocks : 0xffffffffUL );
 	ix86->regs.cx = ( blocks >> 16 );
 	ix86->regs.dx = ( blocks & 0xffff );
 	return INT13_DISK_TYPE_HDD;
 }

 /**
  * INT 13, 41 - Extensions installation check
  *
  * @v drive		Emulated drive
  * @v bx		0x55aa
  * @ret bx		0xaa55
  * @ret cx		Extensions API support bitmap
  * @ret status		Status code / API version
  */
 static int int13_extension_check ( struct int13_drive *drive __unused,
 				   struct i386_all_regs *ix86 ) {
 	if ( ix86->regs.bx == 0x55aa ) {
 		DBG ( "INT 13 extensions installation check\n" );
 		ix86->regs.bx = 0xaa55;
 		ix86->regs.cx = INT13_EXTENSION_LINEAR;
 		return INT13_EXTENSION_VER_1_X;
 	} else {
 		return -INT13_STATUS_INVALID;
 	}
 }

 /**
  * Extended read / write
  *
  * @v drive		Emulated drive
  * @v ds:si		Disk address packet
  * @v io		Read / write method
  * @ret status		Status code
  */
 static int int13_extended_rw ( struct int13_drive *drive,
 			       struct i386_all_regs *ix86,
 			       int ( * io ) ( struct block_device *blockdev,
 					      uint64_t block,
 					      unsigned long count,
 					      userptr_t buffer ) ) {
 	struct block_device *blockdev = drive->blockdev;
 	struct int13_disk_address addr;
 	uint64_t lba;
 	unsigned long count;
 	userptr_t buffer;
 	int rc;

 	/* Read parameters from disk address structure */
 	copy_from_real ( &addr, ix86->segs.ds, ix86->regs.si, sizeof ( addr ));
 	lba = addr.lba;
 	count = addr.count;
 	buffer = real_to_user ( addr.buffer.segment, addr.buffer.offset );

 	DBG ( "LBA %#llx <-> %04x:%04x (count %ld)\n", (unsigned long long)lba,
 	      addr.buffer.segment, addr.buffer.offset, count );

 	/* Read from / write to block device */
 	if ( ( rc = io ( blockdev, lba, count, buffer ) ) != 0 ) {
 		DBG ( "INT 13 failed: %s\n", strerror ( rc ) );
 		return -INT13_STATUS_READ_ERROR;
 	}

 	return 0;
 }

 /**
  * INT 13, 42 - Extended read
  *
  * @v drive		Emulated drive
  * @v ds:si		Disk address packet
  * @ret status		Status code
  */
 static int int13_extended_read ( struct int13_drive *drive,
 				 struct i386_all_regs *ix86 ) {
 	DBG ( "Extended read: " );
 	return int13_extended_rw ( drive, ix86, drive->blockdev->op->read );
 }

 /**
  * INT 13, 43 - Extended write
  *
  * @v drive		Emulated drive
  * @v ds:si		Disk address packet
  * @ret status		Status code
  */
 static int int13_extended_write ( struct int13_drive *drive,
 				  struct i386_all_regs *ix86 ) {
 	DBG ( "Extended write: " );
 	return int13_extended_rw ( drive, ix86, drive->blockdev->op->write );
 }

 /**
  * INT 13, 48 - Get extended parameters
  *
  * @v drive		Emulated drive
  * @v ds:si		Drive parameter table
  * @ret status		Status code
  */
 static int int13_get_extended_parameters ( struct int13_drive *drive,
 					   struct i386_all_regs *ix86 ) {
 	struct int13_disk_parameters params = {
 		.bufsize = sizeof ( params ),
 		.flags = INT13_FL_DMA_TRANSPARENT,
 		.cylinders = drive->cylinders,
 		.heads = drive->heads,
 		.sectors_per_track = drive->sectors_per_track,
 		.sectors = drive->blockdev->blocks,
 		.sector_size = drive->blockdev->blksize,
 	};

 	DBG ( "Get extended drive parameters to %04x:%04x\n",
 	      ix86->segs.ds, ix86->regs.si );

 	copy_to_real ( ix86->segs.ds, ix86->regs.si, &params,
 		       sizeof ( params ) );
 	return 0;
 }

 /**
  * INT 13 handler
  *
  */
 static __asmcall void int13 ( struct i386_all_regs *ix86 ) {
 	int command = ix86->regs.ah;
 	unsigned int bios_drive = ix86->regs.dl;
 	struct int13_drive *drive;
 	int status;

 	/* Check BIOS hasn't killed off our drive */
 	int13_check_num_drives();

 	list_for_each_entry ( drive, &drives, list ) {

 		if ( bios_drive != drive->drive ) {
 			/* Remap any accesses to this drive's natural number */
 			if ( bios_drive == drive->natural_drive ) {
 				DBG ( "INT 13,%04x (%02x) remapped to "
 				      "(%02x)\n", ix86->regs.ax,
 				      bios_drive, drive->drive );
 				ix86->regs.dl = drive->drive;
 				return;
 			}
 			continue;
 		}

 		DBG ( "INT 13,%04x (%02x): ", ix86->regs.ax, drive->drive );

 		switch ( command ) {
 		case INT13_RESET:
 			status = int13_reset ( drive, ix86 );
 			break;
 		case INT13_GET_LAST_STATUS:
 			status = int13_get_last_status ( drive, ix86 );
 			break;
 		case INT13_READ_SECTORS:
 			status = int13_read_sectors ( drive, ix86 );
 			break;
 		case INT13_WRITE_SECTORS:
 			status = int13_write_sectors ( drive, ix86 );
 			break;
 		case INT13_GET_PARAMETERS:
 			status = int13_get_parameters ( drive, ix86 );
 			break;
 		case INT13_GET_DISK_TYPE:
 			status = int13_get_disk_type ( drive, ix86 );
 			break;
 		case INT13_EXTENSION_CHECK:
 			status = int13_extension_check ( drive, ix86 );
 			break;
 		case INT13_EXTENDED_READ:
 			status = int13_extended_read ( drive, ix86 );
 			break;
 		case INT13_EXTENDED_WRITE:
 			status = int13_extended_write ( drive, ix86 );
 			break;
 		case INT13_GET_EXTENDED_PARAMETERS:
 			status = int13_get_extended_parameters ( drive, ix86 );
 			break;
 		default:
 			DBG ( "*** Unrecognised INT 13 ***\n" );
 			status = -INT13_STATUS_INVALID;
 			break;
 		}

 		/* Store status for INT 13,01 */
 		drive->last_status = status;

 		/* Negative status indicates an error */
 		if ( status < 0 ) {
 			status = -status;
 			DBG ( "INT 13 returning failure status %x\n", status );
 		} else {
 			ix86->flags &= ~CF;
 		}
 		ix86->regs.ah = status;

 		/* Set OF to indicate to wrapper not to chain this call */
 		ix86->flags |= OF;

 		return;
 	}
 }

 /**
  * Hook INT 13 handler
  *
  */
 static void hook_int13 ( void ) {
 	/* Assembly wrapper to call int13().  int13() sets OF if we
 	 * should not chain to the previous handler.  (The wrapper
 	 * clears CF and OF before calling int13()).
 	 */
 	__asm__  __volatile__ (
 	       TEXT16_CODE ( "\nint13_wrapper:\n\t"
 			     /* Preserve %ax and %dx for future reference */
 			     "pushw %%bp\n\t"
 			     "movw %%sp, %%bp\n\t"
 			     "pushw %%ax\n\t"
 			     "pushw %%dx\n\t"
 			     /* Clear OF, set CF, call int13() */
 			     "orb $0, %%al\n\t"
 			     "stc\n\t"
 			     "pushl %0\n\t"
 			     "pushw %%cs\n\t"
 			     "call prot_call\n\t"
 			     /* Chain if OF not set */
 			     "jo 1f\n\t"
 			     "pushfw\n\t"
 			     "lcall *%%cs:int13_vector\n\t"
 			     "\n1:\n\t"
 			     /* Overwrite flags for iret */
 			     "pushfw\n\t"
 			     "popw 6(%%bp)\n\t"
 			     /* Fix up %dl:
 			      *
 			      * INT 13,15 : do nothing
 			      * INT 13,08 : load with number of drives
 			      * all others: restore original value
 			      */
 			     "cmpb $0x15, -1(%%bp)\n\t"
 			     "je 2f\n\t"
 			     "movb -4(%%bp), %%dl\n\t"
 			     "cmpb $0x08, -1(%%bp)\n\t"
 			     "jne 2f\n\t"
 			     "pushw %%ds\n\t"
 			     "pushw %1\n\t"
 			     "popw %%ds\n\t"
 			     "movb %c2, %%dl\n\t"
 			     "popw %%ds\n\t"
 			     /* Return */
 			     "\n2:\n\t"
 			     "movw %%bp, %%sp\n\t"
 			     "popw %%bp\n\t"
 			     "iret\n\t" )
 	       : : "i" ( int13 ), "i" ( BDA_SEG ), "i" ( BDA_NUM_DRIVES ) );

 	hook_bios_interrupt ( 0x13, ( unsigned int ) int13_wrapper,
 			      &int13_vector );
 }

 /**
  * Unhook INT 13 handler
  */
 static void unhook_int13 ( void ) {
 	unhook_bios_interrupt ( 0x13, ( unsigned int ) int13_wrapper,
 				&int13_vector );
 }

 /**
  * Guess INT 13 drive geometry
  *
  * @v drive		Emulated drive
  *
  * Guesses the drive geometry by inspecting the partition table.
  */
 static void guess_int13_geometry ( struct int13_drive *drive ) {
 	struct master_boot_record mbr;
 	struct partition_table_entry *partition;
 	unsigned int guessed_heads = 255;
 	unsigned int guessed_sectors_per_track = 63;
 	unsigned long blocks;
 	unsigned long blocks_per_cyl;
 	unsigned int i;

 	/* Don't even try when the blksize is invalid for C/H/S access */
 	if ( drive->blockdev->blksize != INT13_BLKSIZE )
 		return;

 	/* Scan through partition table and modify guesses for heads
 	 * and sectors_per_track if we find any used partitions.
 	 */
 	if ( drive->blockdev->op->read ( drive->blockdev, 0, 1,
 				         virt_to_user ( &mbr ) ) == 0 ) {
 		for ( i = 0 ; i < 4 ; i++ ) {
 			partition = &mbr.partitions[i];
 			if ( ! partition->type )
 				continue;
 			guessed_heads =
 				( PART_HEAD ( partition->chs_end ) + 1 );
 			guessed_sectors_per_track =
 				PART_SECTOR ( partition->chs_end );
 			DBG ( "Guessing C/H/S xx/%d/%d based on partition "
 			      "%d\n", guessed_heads,
 			      guessed_sectors_per_track, ( i + 1 ) );
 		}
 	} else {
 		DBG ( "Could not read partition table to guess geometry\n" );
 	}

 	/* Apply guesses if no geometry already specified */
 	if ( ! drive->heads )
 		drive->heads = guessed_heads;
 	if ( ! drive->sectors_per_track )
 		drive->sectors_per_track = guessed_sectors_per_track;
 	if ( ! drive->cylinders ) {
 		/* Avoid attempting a 64-bit divide on a 32-bit system */
 		blocks = ( ( drive->blockdev->blocks <= ULONG_MAX ) ?
 			   drive->blockdev->blocks : ULONG_MAX );
 		blocks_per_cyl = ( drive->heads * drive->sectors_per_track );
 		assert ( blocks_per_cyl != 0 );
 		drive->cylinders = ( blocks / blocks_per_cyl );
 		if ( drive->cylinders > 1024 )
 			drive->cylinders = 1024;
 	}
 }

 /**
  * Register INT 13 emulated drive
  *
  * @v drive		Emulated drive
  *
  * Registers the drive with the INT 13 emulation subsystem, and hooks
  * the INT 13 interrupt vector (if not already hooked).
  *
  * The underlying block device must be valid.  A drive number and
  * geometry will be assigned if left blank.
  */
 void register_int13_drive ( struct int13_drive *drive ) {
 	uint8_t num_drives;

 	/* Give drive a default geometry if none specified */
 	guess_int13_geometry ( drive );

 	/* Assign natural drive number */
 	get_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );
 	drive->natural_drive = ( num_drives | 0x80 );

 	/* Assign drive number */
 	if ( ( drive->drive & 0xff ) == 0xff ) {
 		/* Drive number == -1 => use natural drive number */
 		drive->drive = drive->natural_drive;
 	} else {
 		/* Use specified drive number (+0x80 if necessary) */
 		drive->drive |= 0x80;
 	}

 	DBG ( "Registered INT13 drive %02x (naturally %02x) with C/H/S "
 	      "geometry %d/%d/%d\n", drive->drive, drive->natural_drive,
 	      drive->cylinders, drive->heads, drive->sectors_per_track );

 	/* Hook INT 13 vector if not already hooked */
 	if ( list_empty ( &drives ) )
 		hook_int13();

 	/* Add to list of emulated drives */
 	list_add ( &drive->list, &drives );

 	/* Update BIOS drive count */
 	int13_set_num_drives();
 }

 /**
  * Unregister INT 13 emulated drive
  *
  * @v drive		Emulated drive
  *
  * Unregisters the drive from the INT 13 emulation subsystem.  If this
  * is the last emulated drive, the INT 13 vector is unhooked (if
  * possible).
  */
 void unregister_int13_drive ( struct int13_drive *drive ) {
 	/* Remove from list of emulated drives */
 	list_del ( &drive->list );

 	/* Should adjust BIOS drive count, but it's difficult to do so
 	 * reliably.
 	 */

 	DBG ( "Unregistered INT13 drive %02x\n", drive->drive );

 	/* Unhook INT 13 vector if no more drives */
 	if ( list_empty ( &drives ) )
 		unhook_int13();
 }

 /**
  * Attempt to boot from an INT 13 drive
  *
  * @v drive		Drive number
  * @ret rc		Return status code
  *
  * This boots from the specified INT 13 drive by loading the Master
  * Boot Record to 0000:7c00 and jumping to it.  INT 18 is hooked to
  * capture an attempt by the MBR to boot the next device.  (This is
  * the closest thing to a return path from an MBR).
  *
  * Note that this function can never return success, by definition.
  */
 int int13_boot ( unsigned int drive ) {
 	struct memory_map memmap;
 	int status, signature;
 	int discard_c, discard_d;
 	int rc;

 	DBG ( "Booting from INT 13 drive %02x\n", drive );

 	/* Use INT 13 to read the boot sector */
 	__asm__ __volatile__ ( REAL_CODE ( "pushw %%es\n\t"
 					   "pushw $0\n\t"
 					   "popw %%es\n\t"
 					   "stc\n\t"
 					   "sti\n\t"
 					   "int $0x13\n\t"
 					   "sti\n\t" /* BIOS bugs */
 					   "jc 1f\n\t"
 					   "xorl %%eax, %%eax\n\t"
 					   "\n1:\n\t"
 					   "movzwl %%es:0x7dfe, %%ebx\n\t"
 					   "popw %%es\n\t" )
 			       : "=a" ( status ), "=b" ( signature ),
 				 "=c" ( discard_c ), "=d" ( discard_d )
 			       : "a" ( 0x0201 ), "b" ( 0x7c00 ),
 				 "c" ( 1 ), "d" ( drive ) );
 	if ( status )
 		return -EIO;

 	/* Check signature is correct */
 	if ( signature != be16_to_cpu ( 0x55aa ) ) {
 		DBG ( "Invalid disk signature %#04x (should be 0x55aa)\n",
 		      cpu_to_be16 ( signature ) );
 		return -ENOEXEC;
 	}

 	/* Dump out memory map prior to boot, if memmap debugging is
 	 * enabled.  Not required for program flow, but we have so
 	 * many problems that turn out to be memory-map related that
 	 * it's worth doing.
 	 */
 	get_memmap ( &memmap );

 	/* Jump to boot sector */
 	if ( ( rc = call_bootsector ( 0x0, 0x7c00, drive ) ) != 0 ) {
 		DBG ( "INT 13 drive %02x boot returned: %s\n",
 		      drive, strerror ( rc ) );
 		return rc;
 	}

 	return -ECANCELED; /* -EIMPOSSIBLE */
 }
	/*
	* Copyright (C) 2006 Michael Brown <mbrown@fensystems.co.uk>.
	*
	* 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 any later version.
	*
	* This program is distributed in the hope that it will be useful, but
	* WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	#include <stdint.h>
	#include <limits.h>
	#include <byteswap.h>
	#include <errno.h>
	#include <assert.h>
	#include <gpxe/list.h>
	#include <gpxe/blockdev.h>
	#include <gpxe/memmap.h>
	#include <realmode.h>
	#include <bios.h>
	#include <biosint.h>
	#include <bootsector.h>
	#include <int13.h>

	/** @file
	*
	* INT 13 emulation
	*
	* This module provides a mechanism for exporting block devices via
	* the BIOS INT 13 disk interrupt interface.
	*
	*/

	/** Vector for chaining to other INT 13 handlers */
	static struct segoff __text16 ( int13_vector );
	#define int13_vector __use_text16 ( int13_vector )

	/** Assembly wrapper */
	extern void int13_wrapper ( void );

	/** List of registered emulated drives */
	static LIST_HEAD ( drives );

	/**
	* Number of BIOS drives
	*
	* Note that this is the number of drives in the system as a whole
	* (i.e. a mirror of the counter at 40:75), rather than a count of the
	* number of emulated drives.
	*/
	static uint8_t num_drives;

	/**
	* Update BIOS drive count
	*/
	static void int13_set_num_drives ( void ) {
	struct int13_drive *drive;

	/* Get current drive count */
	get_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );

	/* Ensure count is large enough to cover all of our emulated drives */
	list_for_each_entry ( drive, &drives, list ) {
	if ( num_drives <= ( drive->drive & 0x7f ) )
	num_drives = ( ( drive->drive & 0x7f ) + 1 );
	}

	/* Update current drive count */
	put_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );
	}

	/**
	* Check number of drives
	*/
	static void int13_check_num_drives ( void ) {
	uint8_t check_num_drives;

	get_real ( check_num_drives, BDA_SEG, BDA_NUM_DRIVES );
	if ( check_num_drives != num_drives ) {
	int13_set_num_drives();
	DBG ( "INT13 fixing up number of drives from %d to %d\n",
	check_num_drives, num_drives );
	}
	}

	/**
	* INT 13, 00 - Reset disk system
	*
	* @v drive Emulated drive
	* @ret status Status code
	*/
	static int int13_reset ( struct int13_drive *drive __unused,
	struct i386_all_regs *ix86 __unused ) {
	DBG ( "Reset drive\n" );
	return 0;
	}

	/**
	* INT 13, 01 - Get status of last operation
	*
	* @v drive Emulated drive
	* @ret status Status code
	*/
	static int int13_get_last_status ( struct int13_drive *drive,
	struct i386_all_regs *ix86 __unused ) {
	DBG ( "Get status of last operation\n" );
	return drive->last_status;
	}

	/**
	* Read / write sectors
	*
	* @v drive Emulated drive
	* @v al Number of sectors to read or write (must be nonzero)
	* @v ch Low bits of cylinder number
	* @v cl (bits 7:6) High bits of cylinder number
	* @v cl (bits 5:0) Sector number
	* @v dh Head number
	* @v es:bx Data buffer
	* @v io Read / write method
	* @ret status Status code
	* @ret al Number of sectors read or written
	*/
	static int int13_rw_sectors ( struct int13_drive *drive,
	struct i386_all_regs *ix86,
	int ( * io ) ( struct block_device *blockdev,
	uint64_t block,
	unsigned long count,
	userptr_t buffer ) ) {
	struct block_device *blockdev = drive->blockdev;
	unsigned int cylinder, head, sector;
	unsigned long lba;
	unsigned int count;
	userptr_t buffer;
	int rc;

	/* Validate blocksize */
	if ( blockdev->blksize != INT13_BLKSIZE ) {
	DBG ( "Invalid blocksize (%zd) for non-extended read/write\n",
	blockdev->blksize );
	return -INT13_STATUS_INVALID;
	}

	/* Calculate parameters */
	cylinder = ( ( ( ix86->regs.cl & 0xc0 ) << 2 ) \| ix86->regs.ch );
	assert ( cylinder < drive->cylinders );
	head = ix86->regs.dh;
	assert ( head < drive->heads );
	sector = ( ix86->regs.cl & 0x3f );
	assert ( ( sector >= 1 ) && ( sector <= drive->sectors_per_track ) );
	lba = ( ( ( ( cylinder * drive->heads ) + head )
	* drive->sectors_per_track ) + sector - 1 );
	count = ix86->regs.al;
	buffer = real_to_user ( ix86->segs.es, ix86->regs.bx );

	DBG ( "C/H/S %d/%d/%d = LBA %#lx <-> %04x:%04x (count %d)\n", cylinder,
	head, sector, lba, ix86->segs.es, ix86->regs.bx, count );

	/* Read from / write to block device */
	if ( ( rc = io ( blockdev, lba, count, buffer ) ) != 0 ) {
	DBG ( "INT 13 failed: %s\n", strerror ( rc ) );
	return -INT13_STATUS_READ_ERROR;
	}

	return 0;
	}

	/**
	* INT 13, 02 - Read sectors
	*
	* @v drive Emulated drive
	* @v al Number of sectors to read (must be nonzero)
	* @v ch Low bits of cylinder number
	* @v cl (bits 7:6) High bits of cylinder number
	* @v cl (bits 5:0) Sector number
	* @v dh Head number
	* @v es:bx Data buffer
	* @ret status Status code
	* @ret al Number of sectors read
	*/
	static int int13_read_sectors ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	DBG ( "Read: " );
	return int13_rw_sectors ( drive, ix86, drive->blockdev->op->read );
	}

	/**
	* INT 13, 03 - Write sectors
	*
	* @v drive Emulated drive
	* @v al Number of sectors to write (must be nonzero)
	* @v ch Low bits of cylinder number
	* @v cl (bits 7:6) High bits of cylinder number
	* @v cl (bits 5:0) Sector number
	* @v dh Head number
	* @v es:bx Data buffer
	* @ret status Status code
	* @ret al Number of sectors written
	*/
	static int int13_write_sectors ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	DBG ( "Write: " );
	return int13_rw_sectors ( drive, ix86, drive->blockdev->op->write );
	}

	/**
	* INT 13, 08 - Get drive parameters
	*
	* @v drive Emulated drive
	* @ret status Status code
	* @ret ch Low bits of maximum cylinder number
	* @ret cl (bits 7:6) High bits of maximum cylinder number
	* @ret cl (bits 5:0) Maximum sector number
	* @ret dh Maximum head number
	* @ret dl Number of drives
	*/
	static int int13_get_parameters ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	unsigned int max_cylinder = drive->cylinders - 1;
	unsigned int max_head = drive->heads - 1;
	unsigned int max_sector = drive->sectors_per_track; /* sic */

	DBG ( "Get drive parameters\n" );

	ix86->regs.ch = ( max_cylinder & 0xff );
	ix86->regs.cl = ( ( ( max_cylinder >> 8 ) << 6 ) \| max_sector );
	ix86->regs.dh = max_head;
	get_real ( ix86->regs.dl, BDA_SEG, BDA_NUM_DRIVES );
	return 0;
	}

	/**
	* INT 13, 15 - Get disk type
	*
	* @v drive Emulated drive
	* @ret ah Type code
	* @ret cx:dx Sector count
	* @ret status Status code / disk type
	*/
	static int int13_get_disk_type ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	uint32_t blocks;

	DBG ( "Get disk type\n" );
	blocks = ( ( drive->blockdev->blocks <= 0xffffffffUL ) ?
	drive->blockdev->blocks : 0xffffffffUL );
	ix86->regs.cx = ( blocks >> 16 );
	ix86->regs.dx = ( blocks & 0xffff );
	return INT13_DISK_TYPE_HDD;
	}

	/**
	* INT 13, 41 - Extensions installation check
	*
	* @v drive Emulated drive
	* @v bx 0x55aa
	* @ret bx 0xaa55
	* @ret cx Extensions API support bitmap
	* @ret status Status code / API version
	*/
	static int int13_extension_check ( struct int13_drive *drive __unused,
	struct i386_all_regs *ix86 ) {
	if ( ix86->regs.bx == 0x55aa ) {
	DBG ( "INT 13 extensions installation check\n" );
	ix86->regs.bx = 0xaa55;
	ix86->regs.cx = INT13_EXTENSION_LINEAR;
	return INT13_EXTENSION_VER_1_X;
	} else {
	return -INT13_STATUS_INVALID;
	}
	}

	/**
	* Extended read / write
	*
	* @v drive Emulated drive
	* @v ds:si Disk address packet
	* @v io Read / write method
	* @ret status Status code
	*/
	static int int13_extended_rw ( struct int13_drive *drive,
	struct i386_all_regs *ix86,
	int ( * io ) ( struct block_device *blockdev,
	uint64_t block,
	unsigned long count,
	userptr_t buffer ) ) {
	struct block_device *blockdev = drive->blockdev;
	struct int13_disk_address addr;
	uint64_t lba;
	unsigned long count;
	userptr_t buffer;
	int rc;

	/* Read parameters from disk address structure */
	copy_from_real ( &addr, ix86->segs.ds, ix86->regs.si, sizeof ( addr ));
	lba = addr.lba;
	count = addr.count;
	buffer = real_to_user ( addr.buffer.segment, addr.buffer.offset );

	DBG ( "LBA %#llx <-> %04x:%04x (count %ld)\n", (unsigned long long)lba,
	addr.buffer.segment, addr.buffer.offset, count );

	/* Read from / write to block device */
	if ( ( rc = io ( blockdev, lba, count, buffer ) ) != 0 ) {
	DBG ( "INT 13 failed: %s\n", strerror ( rc ) );
	return -INT13_STATUS_READ_ERROR;
	}

	return 0;
	}

	/**
	* INT 13, 42 - Extended read
	*
	* @v drive Emulated drive
	* @v ds:si Disk address packet
	* @ret status Status code
	*/
	static int int13_extended_read ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	DBG ( "Extended read: " );
	return int13_extended_rw ( drive, ix86, drive->blockdev->op->read );
	}

	/**
	* INT 13, 43 - Extended write
	*
	* @v drive Emulated drive
	* @v ds:si Disk address packet
	* @ret status Status code
	*/
	static int int13_extended_write ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	DBG ( "Extended write: " );
	return int13_extended_rw ( drive, ix86, drive->blockdev->op->write );
	}

	/**
	* INT 13, 48 - Get extended parameters
	*
	* @v drive Emulated drive
	* @v ds:si Drive parameter table
	* @ret status Status code
	*/
	static int int13_get_extended_parameters ( struct int13_drive *drive,
	struct i386_all_regs *ix86 ) {
	struct int13_disk_parameters params = {
	.bufsize = sizeof ( params ),
	.flags = INT13_FL_DMA_TRANSPARENT,
	.cylinders = drive->cylinders,
	.heads = drive->heads,
	.sectors_per_track = drive->sectors_per_track,
	.sectors = drive->blockdev->blocks,
	.sector_size = drive->blockdev->blksize,
	};

	DBG ( "Get extended drive parameters to %04x:%04x\n",
	ix86->segs.ds, ix86->regs.si );

	copy_to_real ( ix86->segs.ds, ix86->regs.si, &params,
	sizeof ( params ) );
	return 0;
	}

	/**
	* INT 13 handler
	*
	*/
	static __asmcall void int13 ( struct i386_all_regs *ix86 ) {
	int command = ix86->regs.ah;
	unsigned int bios_drive = ix86->regs.dl;
	struct int13_drive *drive;
	int status;

	/* Check BIOS hasn't killed off our drive */
	int13_check_num_drives();

	list_for_each_entry ( drive, &drives, list ) {

	if ( bios_drive != drive->drive ) {
	/* Remap any accesses to this drive's natural number */
	if ( bios_drive == drive->natural_drive ) {
	DBG ( "INT 13,%04x (%02x) remapped to "
	"(%02x)\n", ix86->regs.ax,
	bios_drive, drive->drive );
	ix86->regs.dl = drive->drive;
	return;
	}
	continue;
	}

	DBG ( "INT 13,%04x (%02x): ", ix86->regs.ax, drive->drive );

	switch ( command ) {
	case INT13_RESET:
	status = int13_reset ( drive, ix86 );
	break;
	case INT13_GET_LAST_STATUS:
	status = int13_get_last_status ( drive, ix86 );
	break;
	case INT13_READ_SECTORS:
	status = int13_read_sectors ( drive, ix86 );
	break;
	case INT13_WRITE_SECTORS:
	status = int13_write_sectors ( drive, ix86 );
	break;
	case INT13_GET_PARAMETERS:
	status = int13_get_parameters ( drive, ix86 );
	break;
	case INT13_GET_DISK_TYPE:
	status = int13_get_disk_type ( drive, ix86 );
	break;
	case INT13_EXTENSION_CHECK:
	status = int13_extension_check ( drive, ix86 );
	break;
	case INT13_EXTENDED_READ:
	status = int13_extended_read ( drive, ix86 );
	break;
	case INT13_EXTENDED_WRITE:
	status = int13_extended_write ( drive, ix86 );
	break;
	case INT13_GET_EXTENDED_PARAMETERS:
	status = int13_get_extended_parameters ( drive, ix86 );
	break;
	default:
	DBG ( "* Unrecognised INT 13 *\n" );
	status = -INT13_STATUS_INVALID;
	break;
	}

	/* Store status for INT 13,01 */
	drive->last_status = status;

	/* Negative status indicates an error */
	if ( status < 0 ) {
	status = -status;
	DBG ( "INT 13 returning failure status %x\n", status );
	} else {
	ix86->flags &= ~CF;
	}
	ix86->regs.ah = status;

	/* Set OF to indicate to wrapper not to chain this call */
	ix86->flags \|= OF;

	return;
	}
	}

	/**
	* Hook INT 13 handler
	*
	*/
	static void hook_int13 ( void ) {
	/* Assembly wrapper to call int13(). int13() sets OF if we
	* should not chain to the previous handler. (The wrapper
	* clears CF and OF before calling int13()).
	*/
	__asm__ __volatile__ (
	TEXT16_CODE ( "\nint13_wrapper:\n\t"
	/* Preserve %ax and %dx for future reference */
	"pushw %%bp\n\t"
	"movw %%sp, %%bp\n\t"
	"pushw %%ax\n\t"
	"pushw %%dx\n\t"
	/* Clear OF, set CF, call int13() */
	"orb $0, %%al\n\t"
	"stc\n\t"
	"pushl %0\n\t"
	"pushw %%cs\n\t"
	"call prot_call\n\t"
	/* Chain if OF not set */
	"jo 1f\n\t"
	"pushfw\n\t"
	"lcall *%%cs:int13_vector\n\t"
	"\n1:\n\t"
	/* Overwrite flags for iret */
	"pushfw\n\t"
	"popw 6(%%bp)\n\t"
	/* Fix up %dl:
	*
	* INT 13,15 : do nothing
	* INT 13,08 : load with number of drives
	* all others: restore original value
	*/
	"cmpb $0x15, -1(%%bp)\n\t"
	"je 2f\n\t"
	"movb -4(%%bp), %%dl\n\t"
	"cmpb $0x08, -1(%%bp)\n\t"
	"jne 2f\n\t"
	"pushw %%ds\n\t"
	"pushw %1\n\t"
	"popw %%ds\n\t"
	"movb %c2, %%dl\n\t"
	"popw %%ds\n\t"
	/* Return */
	"\n2:\n\t"
	"movw %%bp, %%sp\n\t"
	"popw %%bp\n\t"
	"iret\n\t" )
	: : "i" ( int13 ), "i" ( BDA_SEG ), "i" ( BDA_NUM_DRIVES ) );

	hook_bios_interrupt ( 0x13, ( unsigned int ) int13_wrapper,
	&int13_vector );
	}

	/**
	* Unhook INT 13 handler
	*/
	static void unhook_int13 ( void ) {
	unhook_bios_interrupt ( 0x13, ( unsigned int ) int13_wrapper,
	&int13_vector );
	}

	/**
	* Guess INT 13 drive geometry
	*
	* @v drive Emulated drive
	*
	* Guesses the drive geometry by inspecting the partition table.
	*/
	static void guess_int13_geometry ( struct int13_drive *drive ) {
	struct master_boot_record mbr;
	struct partition_table_entry *partition;
	unsigned int guessed_heads = 255;
	unsigned int guessed_sectors_per_track = 63;
	unsigned long blocks;
	unsigned long blocks_per_cyl;
	unsigned int i;

	/* Don't even try when the blksize is invalid for C/H/S access */
	if ( drive->blockdev->blksize != INT13_BLKSIZE )
	return;

	/* Scan through partition table and modify guesses for heads
	* and sectors_per_track if we find any used partitions.
	*/
	if ( drive->blockdev->op->read ( drive->blockdev, 0, 1,
	virt_to_user ( &mbr ) ) == 0 ) {
	for ( i = 0 ; i < 4 ; i++ ) {
	partition = &mbr.partitions[i];
	if ( ! partition->type )
	continue;
	guessed_heads =
	( PART_HEAD ( partition->chs_end ) + 1 );
	guessed_sectors_per_track =
	PART_SECTOR ( partition->chs_end );
	DBG ( "Guessing C/H/S xx/%d/%d based on partition "
	"%d\n", guessed_heads,
	guessed_sectors_per_track, ( i + 1 ) );
	}
	} else {
	DBG ( "Could not read partition table to guess geometry\n" );
	}

	/* Apply guesses if no geometry already specified */
	if ( ! drive->heads )
	drive->heads = guessed_heads;
	if ( ! drive->sectors_per_track )
	drive->sectors_per_track = guessed_sectors_per_track;
	if ( ! drive->cylinders ) {
	/* Avoid attempting a 64-bit divide on a 32-bit system */
	blocks = ( ( drive->blockdev->blocks <= ULONG_MAX ) ?
	drive->blockdev->blocks : ULONG_MAX );
	blocks_per_cyl = ( drive->heads * drive->sectors_per_track );
	assert ( blocks_per_cyl != 0 );
	drive->cylinders = ( blocks / blocks_per_cyl );
	if ( drive->cylinders > 1024 )
	drive->cylinders = 1024;
	}
	}

	/**
	* Register INT 13 emulated drive
	*
	* @v drive Emulated drive
	*
	* Registers the drive with the INT 13 emulation subsystem, and hooks
	* the INT 13 interrupt vector (if not already hooked).
	*
	* The underlying block device must be valid. A drive number and
	* geometry will be assigned if left blank.
	*/
	void register_int13_drive ( struct int13_drive *drive ) {
	uint8_t num_drives;

	/* Give drive a default geometry if none specified */
	guess_int13_geometry ( drive );

	/* Assign natural drive number */
	get_real ( num_drives, BDA_SEG, BDA_NUM_DRIVES );
	drive->natural_drive = ( num_drives \| 0x80 );

	/* Assign drive number */
	if ( ( drive->drive & 0xff ) == 0xff ) {
	/* Drive number == -1 => use natural drive number */
	drive->drive = drive->natural_drive;
	} else {
	/* Use specified drive number (+0x80 if necessary) */
	drive->drive \|= 0x80;
	}

	DBG ( "Registered INT13 drive %02x (naturally %02x) with C/H/S "
	"geometry %d/%d/%d\n", drive->drive, drive->natural_drive,
	drive->cylinders, drive->heads, drive->sectors_per_track );

	/* Hook INT 13 vector if not already hooked */
	if ( list_empty ( &drives ) )
	hook_int13();

	/* Add to list of emulated drives */
	list_add ( &drive->list, &drives );

	/* Update BIOS drive count */
	int13_set_num_drives();
	}

	/**
	* Unregister INT 13 emulated drive
	*
	* @v drive Emulated drive
	*
	* Unregisters the drive from the INT 13 emulation subsystem. If this
	* is the last emulated drive, the INT 13 vector is unhooked (if
	* possible).
	*/
	void unregister_int13_drive ( struct int13_drive *drive ) {
	/* Remove from list of emulated drives */
	list_del ( &drive->list );

	/* Should adjust BIOS drive count, but it's difficult to do so
	* reliably.
	*/

	DBG ( "Unregistered INT13 drive %02x\n", drive->drive );

	/* Unhook INT 13 vector if no more drives */
	if ( list_empty ( &drives ) )
	unhook_int13();
	}

	/**
	* Attempt to boot from an INT 13 drive
	*
	* @v drive Drive number
	* @ret rc Return status code
	*
	* This boots from the specified INT 13 drive by loading the Master
	* Boot Record to 0000:7c00 and jumping to it. INT 18 is hooked to
	* capture an attempt by the MBR to boot the next device. (This is
	* the closest thing to a return path from an MBR).
	*
	* Note that this function can never return success, by definition.
	*/
	int int13_boot ( unsigned int drive ) {
	struct memory_map memmap;
	int status, signature;
	int discard_c, discard_d;
	int rc;

	DBG ( "Booting from INT 13 drive %02x\n", drive );

	/* Use INT 13 to read the boot sector */
	__asm__ __volatile__ ( REAL_CODE ( "pushw %%es\n\t"
	"pushw $0\n\t"
	"popw %%es\n\t"
	"stc\n\t"
	"sti\n\t"
	"int $0x13\n\t"
	"sti\n\t" /* BIOS bugs */
	"jc 1f\n\t"
	"xorl %%eax, %%eax\n\t"
	"\n1:\n\t"
	"movzwl %%es:0x7dfe, %%ebx\n\t"
	"popw %%es\n\t" )
	: "=a" ( status ), "=b" ( signature ),
	"=c" ( discard_c ), "=d" ( discard_d )
	: "a" ( 0x0201 ), "b" ( 0x7c00 ),
	"c" ( 1 ), "d" ( drive ) );
	if ( status )
	return -EIO;

	/* Check signature is correct */
	if ( signature != be16_to_cpu ( 0x55aa ) ) {
	DBG ( "Invalid disk signature %#04x (should be 0x55aa)\n",
	cpu_to_be16 ( signature ) );
	return -ENOEXEC;
	}

	/* Dump out memory map prior to boot, if memmap debugging is
	* enabled. Not required for program flow, but we have so
	* many problems that turn out to be memory-map related that
	* it's worth doing.
	*/
	get_memmap ( &memmap );

	/* Jump to boot sector */
	if ( ( rc = call_bootsector ( 0x0, 0x7c00, drive ) ) != 0 ) {
	DBG ( "INT 13 drive %02x boot returned: %s\n",
	drive, strerror ( rc ) );
	return rc;
	}

	return -ECANCELED; /* -EIMPOSSIBLE */
	}