libinstaller/syslxint.h - platform/external/syslinux - Git at Google

 /* ----------------------------------------------------------------------- *
  *
  *   Copyright 2007-2008 H. Peter Anvin - All Rights Reserved
  *   Copyright 2009-2014 Intel Corporation; author: H. Peter Anvin
  *   Copyright 2011 Paulo Alcantara <pcacjr@gmail.com>
  *
  *   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, Inc., 53 Temple Place Ste 330,
  *   Boston MA 02111-1307, USA; either version 2 of the License, or
  *   (at your option) any later version; incorporated herein by reference.
  *
  * ----------------------------------------------------------------------- */

 #ifndef SYSLXINT_H
 #define SYSLXINT_H

 #include "syslinux.h"

 #if defined(__386__) || defined(__i386__) || defined(__x86_64__)
 # define X86_MEM 1		/* Littleendian and unaligned safe */
 #else
 # define X86_MEM 0
 #endif

 #ifdef __GNUC__
 # ifdef __MINGW32__
    /* gcc 4.7 miscompiles packed structures in MS-bitfield mode */
 #  define PACKED __attribute__((packed,gcc_struct))
 # else
 #  define PACKED __attribute__((packed))
 # endif
 #else
 # error "Need to define PACKED for this compiler"
 #endif

 /*
  * Access functions for littleendian numbers, possibly misaligned.
  */
 static inline uint8_t get_8(const uint8_t * p)
 {
     return *p;
 }

 static inline uint16_t get_16(const uint16_t * p)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     return *p;
 #else
     const uint8_t *pp = (const uint8_t *)p;
     return pp[0] + ((uint16_t)pp[1] << 8);
 #endif
 }

 static inline uint32_t get_32(const uint32_t * p)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     return *p;
 #else
     const uint16_t *pp = (const uint16_t *)p;
     return get_16(&pp[0]) + ((uint32_t)get_16(&pp[1]) << 16);
 #endif
 }

 static inline uint64_t get_64(const uint64_t * p)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     return *p;
 #else
     const uint32_t *pp = (const uint32_t *)p;
     return get_32(&pp[0]) + ((uint64_t)get_32(&pp[1]) << 32);
 #endif
 }

 static inline void set_8(uint8_t *p, uint8_t v)
 {
     *p = v;
 }

 static inline void set_16(uint16_t *p, uint16_t v)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     *p = v;
 #else
     uint8_t *pp = (uint8_t *) p;
     pp[0] = v;
     pp[1] = v >> 8;
 #endif
 }

 static inline void set_32(uint32_t *p, uint32_t v)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     *p = v;
 #else
     uint16_t *pp = (uint16_t *) p;
     set_16(&pp[0], v);
     set_16(&pp[1], v >> 16);
 #endif
 }

 static inline void set_64(uint64_t *p, uint64_t v)
 {
 #if X86_MEM
     /* Littleendian and unaligned-capable */
     *p = v;
 #else
     uint32_t *pp = (uint32_t *) p;
     set_32(&pp[0], v);
     set_32(&pp[1], v >> 32);
 #endif
 }

 /*
  * Special handling for the MS-DOS derivative: syslinux_ldlinux
  * is a "far" object...
  */
 #ifdef __MSDOS__

 uint8_t get_8_sl(const uint8_t _slimg * p);
 uint16_t get_16_sl(const uint16_t _slimg * p);
 uint32_t get_32_sl(const uint32_t _slimg * p);
 uint64_t get_64_sl(const uint64_t _slimg * p);
 void set_8_sl(uint8_t _slimg * p, uint8_t v);
 void set_16_sl(uint16_t _slimg * p, uint16_t v);
 void set_32_sl(uint32_t _slimg * p, uint32_t v);
 void set_64_sl(uint64_t _slimg * p, uint64_t v);
 void memcpy_to_sl(void _slimg *dst, const void *src, size_t len);
 void memcpy_from_sl(void *dst, const void _slimg *src, size_t len);
 void memset_sl(void _slimg *dst, int c, size_t len);

 #else

 /* Sane system ... */
 static inline uint8_t get_8_sl(const uint8_t _slimg * p)
 {
     return get_8((const uint8_t _force *)p);
 }
 static inline uint16_t get_16_sl(const uint16_t _slimg * p)
 {
     return get_16((const uint16_t _force *)p);
 }
 static inline uint32_t get_32_sl(const uint32_t _slimg * p)
 {
     return get_32((const uint32_t _force *)p);
 }
 static inline uint64_t get_64_sl(const uint64_t _slimg * p)
 {
     return get_64((const uint64_t _force *)p);
 }
 static inline void set_8_sl(uint8_t _slimg * p, uint8_t v)
 {
     set_8((uint8_t _force *)p, v);
 }
 static inline void set_16_sl(uint16_t _slimg * p, uint16_t v)
 {
     set_16((uint16_t _force *)p, v);
 }
 static inline void set_32_sl(uint32_t _slimg * p, uint32_t v)
 {
     set_32((uint32_t _force *)p, v);
 }
 static inline void set_64_sl(uint64_t _slimg * p, uint64_t v)
 {
     set_64((uint64_t _force *)p, v);
 }
 static inline void memcpy_to_sl(void _slimg *dst, const void *src, size_t len)
 {
     memcpy((void _force *)dst, src, len);
 }
 static inline void memcpy_from_sl(void *dst, const void _slimg *src, size_t len)
 {
     memcpy(dst, (const void _force *)src, len);
 }
 static inline void memset_sl(void _slimg *dst, int c, size_t len)
 {
     memset((void _force *)dst, c, len);
 }

 #endif

 #define LDLINUX_MAGIC	0x3eb202fe
 #define BS_MAGIC_VER	(0x1b << 9)

 /* Patch area for disk-based installers */
 struct patch_area {
     uint32_t magic;		/* LDLINUX_MAGIC */
     uint32_t instance;		/* Per-version value */
     uint16_t data_sectors;
     uint16_t adv_sectors;
     uint32_t dwords;
     uint32_t checksum;
     uint16_t maxtransfer;
     uint16_t epaoffset;		/* Pointer to the extended patch area */
 };

 struct ext_patch_area {
     uint16_t advptroffset;	/* ADV pointers */
     uint16_t diroffset;		/* Current directory field */
     uint16_t dirlen;		/* Length of current directory field */
     uint16_t subvoloffset;	/* Subvolume field */
     uint16_t subvollen;		/* Length of subvolume field */
     uint16_t secptroffset;	/* Sector extent pointers */
     uint16_t secptrcnt;		/* Number of sector extent pointers */

     uint16_t sect1ptr0;		/* Boot sector offset of sector 1 ptr LSW */
     uint16_t sect1ptr1;		/* Boot sector offset of sector 1 ptr MSW */
     uint16_t raidpatch;		/* Boot sector RAID mode patch pointer */
 };

 /* Sector extent */
 struct syslinux_extent {
     uint64_t lba;
     uint16_t len;
 } PACKED;

 /* FAT bootsector format, also used by other disk-based derivatives */
 struct fat_boot_sector {
     uint8_t bsJump[3];
     char bsOemName[8];
     uint16_t bsBytesPerSec;
     uint8_t bsSecPerClust;
     uint16_t bsResSectors;
     uint8_t bsFATs;
     uint16_t bsRootDirEnts;
     uint16_t bsSectors;
     uint8_t bsMedia;
     uint16_t bsFATsecs;
     uint16_t bsSecPerTrack;
     uint16_t bsHeads;
     uint32_t bsHiddenSecs;
     uint32_t bsHugeSectors;

     union {
 	struct {
 	    uint8_t DriveNumber;
 	    uint8_t Reserved1;
 	    uint8_t BootSignature;
 	    uint32_t VolumeID;
 	    char VolumeLabel[11];
 	    char FileSysType[8];
 	    uint8_t Code[442];
 	} PACKED bs16;
 	struct {
 	    uint32_t FATSz32;
 	    uint16_t ExtFlags;
 	    uint16_t FSVer;
 	    uint32_t RootClus;
 	    uint16_t FSInfo;
 	    uint16_t BkBootSec;
 	    uint8_t Reserved0[12];
 	    uint8_t DriveNumber;
 	    uint8_t Reserved1;
 	    uint8_t BootSignature;
 	    uint32_t VolumeID;
 	    char VolumeLabel[11];
 	    char FileSysType[8];
 	    uint8_t Code[414];
 	} PACKED bs32;
     } PACKED;

     uint32_t bsMagic;
     uint16_t bsForwardPtr;
     uint16_t bsSignature;
 } PACKED;

 /* NTFS bootsector format */
 struct ntfs_boot_sector {
     uint8_t bsJump[3];
     char bsOemName[8];
     uint16_t bsBytesPerSec;
     uint8_t bsSecPerClust;
     uint16_t bsResSectors;
     uint8_t bsZeroed_0[3];
     uint16_t bsZeroed_1;
     uint8_t bsMedia;
     uint16_t bsZeroed_2;
     uint16_t bsUnused_0;
     uint16_t bsUnused_1;
     uint32_t bsUnused_2;
     uint32_t bsZeroed_3;
     uint32_t bsUnused_3;
     uint64_t bsTotalSectors;
     uint64_t bsMFTLogicalClustNr;
     uint64_t bsMFTMirrLogicalClustNr;
     uint8_t bsClustPerMFTrecord;
     uint8_t bsUnused_4[3];
     uint8_t bsClustPerIdxBuf;
     uint8_t bsUnused_5[3];
     uint64_t bsVolSerialNr;
     uint32_t bsUnused_6;

     uint8_t Code[420];

     uint32_t bsMagic;
     uint16_t bsForwardPtr;
     uint16_t bsSignature;
 } PACKED;

 #define FAT_bsHead      bsJump
 #define FAT_bsHeadLen   offsetof(struct fat_boot_sector, bsBytesPerSec)
 #define FAT_bsCode	    bs32.Code	/* The common safe choice */
 #define FAT_bsCodeLen   (offsetof(struct fat_boot_sector, bsSignature) - \
 		     offsetof(struct fat_boot_sector, FAT_bsCode))

 #define NTFS_bsHead     bsJump
 #define NTFS_bsHeadLen  offsetof(struct ntfs_boot_sector, bsOemName)
 #define NTFS_bsCode     Code
 #define NTFS_bsCodeLen  (offsetof(struct ntfs_boot_sector, bsSignature) - \
                             offsetof(struct ntfs_boot_sector, NTFS_bsCode))

 /* Check if there are specific zero fields in an NTFS boot sector */
 static inline int ntfs_check_zero_fields(const struct ntfs_boot_sector *sb)
 {
     return !sb->bsResSectors && (!sb->bsZeroed_0[0] && !sb->bsZeroed_0[1] &&
             !sb->bsZeroed_0[2]) && !sb->bsZeroed_1 && !sb->bsZeroed_2 &&
             !sb->bsZeroed_3;
 }

 static inline int ntfs_check_sb_fields(const struct ntfs_boot_sector *sb)
 {
     return ntfs_check_zero_fields(sb) &&
             (!memcmp(sb->bsOemName, "NTFS    ", 8) ||
              !memcmp(sb->bsOemName, "MSWIN4.0", 8) ||
              !memcmp(sb->bsOemName, "MSWIN4.1", 8));
 }

 static inline int fat_check_sb_fields(const struct fat_boot_sector *sb)
 {
     return sb->bsResSectors && sb->bsFATs &&
             (!memcmp(sb->bs16.FileSysType, "FAT12   ", 8) ||
              !memcmp(sb->bs16.FileSysType, "FAT16   ", 8) ||
              !memcmp(sb->bs16.FileSysType, "FAT     ", 8) ||
              !memcmp(sb->bs32.FileSysType, "FAT32   ", 8));
 }

 #endif /* SYSLXINT_H */
	/* ----------------------------------------------------------------------- *
	*
	* Copyright 2007-2008 H. Peter Anvin - All Rights Reserved
	* Copyright 2009-2014 Intel Corporation; author: H. Peter Anvin
	* Copyright 2011 Paulo Alcantara <pcacjr@gmail.com>
	*
	* 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, Inc., 53 Temple Place Ste 330,
	* Boston MA 02111-1307, USA; either version 2 of the License, or
	* (at your option) any later version; incorporated herein by reference.
	*
	* ----------------------------------------------------------------------- */

	#ifndef SYSLXINT_H
	#define SYSLXINT_H

	#include "syslinux.h"

	#if defined(__386__) \|\| defined(__i386__) \|\| defined(__x86_64__)
	# define X86_MEM 1 /* Littleendian and unaligned safe */
	#else
	# define X86_MEM 0
	#endif

	#ifdef __GNUC__
	# ifdef __MINGW32__
	/* gcc 4.7 miscompiles packed structures in MS-bitfield mode */
	# define PACKED __attribute__((packed,gcc_struct))
	# else
	# define PACKED __attribute__((packed))
	# endif
	#else
	# error "Need to define PACKED for this compiler"
	#endif

	/*
	* Access functions for littleendian numbers, possibly misaligned.
	*/
	static inline uint8_t get_8(const uint8_t * p)
	{
	return *p;
	}

	static inline uint16_t get_16(const uint16_t * p)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	return *p;
	#else
	const uint8_t pp = (const uint8_t )p;
	return pp[0] + ((uint16_t)pp[1] << 8);
	#endif
	}

	static inline uint32_t get_32(const uint32_t * p)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	return *p;
	#else
	const uint16_t pp = (const uint16_t )p;
	return get_16(&pp[0]) + ((uint32_t)get_16(&pp[1]) << 16);
	#endif
	}

	static inline uint64_t get_64(const uint64_t * p)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	return *p;
	#else
	const uint32_t pp = (const uint32_t )p;
	return get_32(&pp[0]) + ((uint64_t)get_32(&pp[1]) << 32);
	#endif
	}

	static inline void set_8(uint8_t *p, uint8_t v)
	{
	*p = v;
	}

	static inline void set_16(uint16_t *p, uint16_t v)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	*p = v;
	#else
	uint8_t pp = (uint8_t ) p;
	pp[0] = v;
	pp[1] = v >> 8;
	#endif
	}

	static inline void set_32(uint32_t *p, uint32_t v)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	*p = v;
	#else
	uint16_t pp = (uint16_t ) p;
	set_16(&pp[0], v);
	set_16(&pp[1], v >> 16);
	#endif
	}

	static inline void set_64(uint64_t *p, uint64_t v)
	{
	#if X86_MEM
	/* Littleendian and unaligned-capable */
	*p = v;
	#else
	uint32_t pp = (uint32_t ) p;
	set_32(&pp[0], v);
	set_32(&pp[1], v >> 32);
	#endif
	}

	/*
	* Special handling for the MS-DOS derivative: syslinux_ldlinux
	* is a "far" object...
	*/
	#ifdef __MSDOS__

	uint8_t get_8_sl(const uint8_t _slimg * p);
	uint16_t get_16_sl(const uint16_t _slimg * p);
	uint32_t get_32_sl(const uint32_t _slimg * p);
	uint64_t get_64_sl(const uint64_t _slimg * p);
	void set_8_sl(uint8_t _slimg * p, uint8_t v);
	void set_16_sl(uint16_t _slimg * p, uint16_t v);
	void set_32_sl(uint32_t _slimg * p, uint32_t v);
	void set_64_sl(uint64_t _slimg * p, uint64_t v);
	void memcpy_to_sl(void _slimg dst, const void src, size_t len);
	void memcpy_from_sl(void dst, const void _slimg src, size_t len);
	void memset_sl(void _slimg *dst, int c, size_t len);

	#else

	/* Sane system ... */
	static inline uint8_t get_8_sl(const uint8_t _slimg * p)
	{
	return get_8((const uint8_t _force *)p);
	}
	static inline uint16_t get_16_sl(const uint16_t _slimg * p)
	{
	return get_16((const uint16_t _force *)p);
	}
	static inline uint32_t get_32_sl(const uint32_t _slimg * p)
	{
	return get_32((const uint32_t _force *)p);
	}
	static inline uint64_t get_64_sl(const uint64_t _slimg * p)
	{
	return get_64((const uint64_t _force *)p);
	}
	static inline void set_8_sl(uint8_t _slimg * p, uint8_t v)
	{
	set_8((uint8_t _force *)p, v);
	}
	static inline void set_16_sl(uint16_t _slimg * p, uint16_t v)
	{
	set_16((uint16_t _force *)p, v);
	}
	static inline void set_32_sl(uint32_t _slimg * p, uint32_t v)
	{
	set_32((uint32_t _force *)p, v);
	}
	static inline void set_64_sl(uint64_t _slimg * p, uint64_t v)
	{
	set_64((uint64_t _force *)p, v);
	}
	static inline void memcpy_to_sl(void _slimg dst, const void src, size_t len)
	{
	memcpy((void _force *)dst, src, len);
	}
	static inline void memcpy_from_sl(void dst, const void _slimg src, size_t len)
	{
	memcpy(dst, (const void _force *)src, len);
	}
	static inline void memset_sl(void _slimg *dst, int c, size_t len)
	{
	memset((void _force *)dst, c, len);
	}

	#endif

	#define LDLINUX_MAGIC 0x3eb202fe
	#define BS_MAGIC_VER (0x1b << 9)

	/* Patch area for disk-based installers */
	struct patch_area {
	uint32_t magic; /* LDLINUX_MAGIC */
	uint32_t instance; /* Per-version value */
	uint16_t data_sectors;
	uint16_t adv_sectors;
	uint32_t dwords;
	uint32_t checksum;
	uint16_t maxtransfer;
	uint16_t epaoffset; /* Pointer to the extended patch area */
	};

	struct ext_patch_area {
	uint16_t advptroffset; /* ADV pointers */
	uint16_t diroffset; /* Current directory field */
	uint16_t dirlen; /* Length of current directory field */
	uint16_t subvoloffset; /* Subvolume field */
	uint16_t subvollen; /* Length of subvolume field */
	uint16_t secptroffset; /* Sector extent pointers */
	uint16_t secptrcnt; /* Number of sector extent pointers */

	uint16_t sect1ptr0; /* Boot sector offset of sector 1 ptr LSW */
	uint16_t sect1ptr1; /* Boot sector offset of sector 1 ptr MSW */
	uint16_t raidpatch; /* Boot sector RAID mode patch pointer */
	};

	/* Sector extent */
	struct syslinux_extent {
	uint64_t lba;
	uint16_t len;
	} PACKED;

	/* FAT bootsector format, also used by other disk-based derivatives */
	struct fat_boot_sector {
	uint8_t bsJump[3];
	char bsOemName[8];
	uint16_t bsBytesPerSec;
	uint8_t bsSecPerClust;
	uint16_t bsResSectors;
	uint8_t bsFATs;
	uint16_t bsRootDirEnts;
	uint16_t bsSectors;
	uint8_t bsMedia;
	uint16_t bsFATsecs;
	uint16_t bsSecPerTrack;
	uint16_t bsHeads;
	uint32_t bsHiddenSecs;
	uint32_t bsHugeSectors;

	union {
	struct {
	uint8_t DriveNumber;
	uint8_t Reserved1;
	uint8_t BootSignature;
	uint32_t VolumeID;
	char VolumeLabel[11];
	char FileSysType[8];
	uint8_t Code[442];
	} PACKED bs16;
	struct {
	uint32_t FATSz32;
	uint16_t ExtFlags;
	uint16_t FSVer;
	uint32_t RootClus;
	uint16_t FSInfo;
	uint16_t BkBootSec;
	uint8_t Reserved0[12];
	uint8_t DriveNumber;
	uint8_t Reserved1;
	uint8_t BootSignature;
	uint32_t VolumeID;
	char VolumeLabel[11];
	char FileSysType[8];
	uint8_t Code[414];
	} PACKED bs32;
	} PACKED;

	uint32_t bsMagic;
	uint16_t bsForwardPtr;
	uint16_t bsSignature;
	} PACKED;

	/* NTFS bootsector format */
	struct ntfs_boot_sector {
	uint8_t bsJump[3];
	char bsOemName[8];
	uint16_t bsBytesPerSec;
	uint8_t bsSecPerClust;
	uint16_t bsResSectors;
	uint8_t bsZeroed_0[3];
	uint16_t bsZeroed_1;
	uint8_t bsMedia;
	uint16_t bsZeroed_2;
	uint16_t bsUnused_0;
	uint16_t bsUnused_1;
	uint32_t bsUnused_2;
	uint32_t bsZeroed_3;
	uint32_t bsUnused_3;
	uint64_t bsTotalSectors;
	uint64_t bsMFTLogicalClustNr;
	uint64_t bsMFTMirrLogicalClustNr;
	uint8_t bsClustPerMFTrecord;
	uint8_t bsUnused_4[3];
	uint8_t bsClustPerIdxBuf;
	uint8_t bsUnused_5[3];
	uint64_t bsVolSerialNr;
	uint32_t bsUnused_6;

	uint8_t Code[420];

	uint32_t bsMagic;
	uint16_t bsForwardPtr;
	uint16_t bsSignature;
	} PACKED;

	#define FAT_bsHead bsJump
	#define FAT_bsHeadLen offsetof(struct fat_boot_sector, bsBytesPerSec)
	#define FAT_bsCode bs32.Code /* The common safe choice */
	#define FAT_bsCodeLen (offsetof(struct fat_boot_sector, bsSignature) - \
	offsetof(struct fat_boot_sector, FAT_bsCode))

	#define NTFS_bsHead bsJump
	#define NTFS_bsHeadLen offsetof(struct ntfs_boot_sector, bsOemName)
	#define NTFS_bsCode Code
	#define NTFS_bsCodeLen (offsetof(struct ntfs_boot_sector, bsSignature) - \
	offsetof(struct ntfs_boot_sector, NTFS_bsCode))

	/* Check if there are specific zero fields in an NTFS boot sector */
	static inline int ntfs_check_zero_fields(const struct ntfs_boot_sector *sb)
	{
	return !sb->bsResSectors && (!sb->bsZeroed_0[0] && !sb->bsZeroed_0[1] &&
	!sb->bsZeroed_0[2]) && !sb->bsZeroed_1 && !sb->bsZeroed_2 &&
	!sb->bsZeroed_3;
	}

	static inline int ntfs_check_sb_fields(const struct ntfs_boot_sector *sb)
	{
	return ntfs_check_zero_fields(sb) &&
	(!memcmp(sb->bsOemName, "NTFS ", 8) \|\|
	!memcmp(sb->bsOemName, "MSWIN4.0", 8) \|\|
	!memcmp(sb->bsOemName, "MSWIN4.1", 8));
	}

	static inline int fat_check_sb_fields(const struct fat_boot_sector *sb)
	{
	return sb->bsResSectors && sb->bsFATs &&
	(!memcmp(sb->bs16.FileSysType, "FAT12 ", 8) \|\|
	!memcmp(sb->bs16.FileSysType, "FAT16 ", 8) \|\|
	!memcmp(sb->bs16.FileSysType, "FAT ", 8) \|\|
	!memcmp(sb->bs32.FileSysType, "FAT32 ", 8));
	}

	#endif /* SYSLXINT_H */