cgpt/cgpt.h - mirrors/cros/chromiumos/platform/vboot_reference - Git at Google

 // Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_
 #define VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_

 #include <fcntl.h>
 #ifndef HAVE_MACOS
 #include <features.h>
 #endif
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include "cgpt_endian.h"
 #include "cgptlib.h"
 #include "gpt.h"

 struct legacy_partition {
   uint8_t  status;
   uint8_t  f_head;
   uint8_t  f_sect;
   uint8_t  f_cyl;
   uint8_t  type;
   uint8_t  l_head;
   uint8_t  l_sect;
   uint8_t  l_cyl;
   uint32_t f_lba;
   uint32_t num_sect;
 } __attribute__((packed));

 // syslinux uses this format:
 struct pmbr {
   uint8_t                 bootcode[424];
   Guid                    boot_guid;
   uint32_t                disk_id;
   uint8_t                 magic[2];     // 0x1d, 0x9a
   struct legacy_partition part[4];
   uint8_t                 sig[2];       // 0x55, 0xaa
 } __attribute__((packed));

 void PMBRToStr(struct pmbr *pmbr, char *str, unsigned int buflen);

 // Handle to the drive storing the GPT.
 struct drive {
   uint64_t size;    /* total size (in bytes) */
   GptData gpt;
   struct pmbr pmbr;
   int fd;       /* file descriptor */
 };

 // Opens a block device or file, loads raw GPT data from it.
 // 'mode' should be O_RDONLY or O_RDWR.
 // If 'drive_size' is 0, both the partitions and GPT structs reside on the same
 // 'drive_path'.
 // Otherwise, 'drive_size' is taken as the size of the device that all
 // partitions will reside on, and 'drive_path' is where we store GPT structs.
 //
 // Returns CGPT_FAILED if any error happens.
 // Returns CGPT_OK if success and information are stored in 'drive'. */
 int DriveOpen(const char *drive_path, struct drive *drive, int mode,
               uint64_t drive_size);
 int DriveClose(struct drive *drive, int update_as_needed);
 int CheckValid(const struct drive *drive);

 /* Loads sectors from 'drive'.
  * *buf is pointed to an allocated memory when returned, and should be
  * freed.
  *
  *   drive -- open drive.
  *   buf -- pointer to buffer pointer
  *   sector -- offset of starting sector (in sectors)
  *   sector_bytes -- bytes per sector
  *   sector_count -- number of sectors to load
  *
  * Returns CGPT_OK for successful. Aborts if any error occurs.
  */
 int Load(struct drive *drive, uint8_t **buf,
                 const uint64_t sector,
                 const uint64_t sector_bytes,
                 const uint64_t sector_count);

 /* Saves sectors to 'drive'.
  *
  *   drive -- open drive
  *   buf -- pointer to buffer
  *   sector -- starting sector offset
  *   sector_bytes -- bytes per sector
  *   sector_count -- number of sector to save
  *
  * Returns CGPT_OK for successful, CGPT_FAILED for failed.
  */
 int Save(struct drive *drive, const uint8_t *buf,
                 const uint64_t sector,
                 const uint64_t sector_bytes,
                 const uint64_t sector_count);


 /* GUID conversion functions. Accepted format:
  *
  *   "C12A7328-F81F-11D2-BA4B-00A0C93EC93B"
  *
  * At least GUID_STRLEN bytes should be reserved in 'str' (included the tailing
  * '\0').
  */
 #define GUID_STRLEN 37
 int StrToGuid(const char *str, Guid *guid);
 void GuidToStr(const Guid *guid, char *str, unsigned int buflen);
 int GuidEqual(const Guid *guid1, const Guid *guid2);
 int IsZero(const Guid *guid);

 /* Constant global type values to compare against */
 extern const Guid guid_chromeos_firmware;
 extern const Guid guid_chromeos_kernel;
 extern const Guid guid_chromeos_rootfs;
 extern const Guid guid_linux_data;
 extern const Guid guid_chromeos_reserved;
 extern const Guid guid_efi;
 extern const Guid guid_unused;

 int ReadPMBR(struct drive *drive);
 int WritePMBR(struct drive *drive);

 /* Convert possibly unterminated UTF16 string to UTF8.
  * Caller must prepare enough space for UTF8, which could be up to
  * twice the byte length of UTF16 string plus the terminating '\0'.
  *
  * Return: CGPT_OK --- all character are converted successfully.
  *         CGPT_FAILED --- convert error, i.e. output buffer is too short.
  */
 int UTF16ToUTF8(const uint16_t *utf16, unsigned int maxinput,
                 uint8_t *utf8, unsigned int maxoutput);

 /* Convert null-terminated UTF8 string to UTF16.
  * Caller must prepare enough space for UTF16, which is the byte length of UTF8
  * plus the terminating 0x0000.
  *
  * Return: CGPT_OK --- all character are converted successfully.
  *         CGPT_FAILED --- convert error, i.e. output buffer is too short.
  */
 int UTF8ToUTF16(const uint8_t *utf8, uint16_t *utf16, unsigned int maxoutput);

 /* Helper functions for supported GPT types. */
 int ResolveType(const Guid *type, char *buf);
 int SupportedType(const char *name, Guid *type);
 void PrintTypes(void);
 void EntryDetails(GptEntry *entry, uint32_t index, int raw);

 uint32_t GetNumberOfEntries(const struct drive *drive);
 GptEntry *GetEntry(GptData *gpt, int secondary, uint32_t entry_index);

 void SetLegacyBoot(struct drive *drive, int secondary, uint32_t entry_index,
                    int legacy_boot);
 int GetLegacyBoot(struct drive *drive, int secondary, uint32_t entry_index);
 void SetPriority(struct drive *drive, int secondary, uint32_t entry_index,
                  int priority);
 int GetPriority(struct drive *drive, int secondary, uint32_t entry_index);
 void SetTries(struct drive *drive, int secondary, uint32_t entry_index,
               int tries);
 int GetTries(struct drive *drive, int secondary, uint32_t entry_index);
 void SetSuccessful(struct drive *drive, int secondary, uint32_t entry_index,
                    int success);
 int GetSuccessful(struct drive *drive, int secondary, uint32_t entry_index);

 void SetRaw(struct drive *drive, int secondary, uint32_t entry_index,
            uint32_t raw);

 void UpdateAllEntries(struct drive *drive);

 uint8_t RepairHeader(GptData *gpt, const uint32_t valid_headers);
 uint8_t RepairEntries(GptData *gpt, const uint32_t valid_entries);
 void UpdateCrc(GptData *gpt);
 int IsSynonymous(const GptHeader* a, const GptHeader* b);

 int IsUnused(struct drive *drive, int secondary, uint32_t index);
 int IsKernel(struct drive *drive, int secondary, uint32_t index);

 // Optional. Applications that need this must provide an implementation.
 //
 // Explanation:
 //   Some external utilities need to manipulate the GPT, but don't create new
 //   partitions from scratch. The cgpt executable uses libuuid to provide this
 //   functionality, but we don't want to have to build or install a separate
 //   instance of that library just for the 32-bit static post-install tool,
 //   which doesn't need this function.
 int GenerateGuid(Guid *newguid);

 // For usage and error messages.
 void Error(const char *format, ...);
 void Warning(const char *format, ...);

 // Command functions.
 int check_int_parse(char option, const char *buf);
 int check_int_limit(char option, int val, int low, int high);
 int cmd_show(int argc, char *argv[]);
 int cmd_repair(int argc, char *argv[]);
 int cmd_create(int argc, char *argv[]);
 int cmd_add(int argc, char *argv[]);
 int cmd_boot(int argc, char *argv[]);
 int cmd_find(int argc, char *argv[]);
 int cmd_prioritize(int argc, char *argv[]);
 int cmd_legacy(int argc, char *argv[]);

 #define ARRAY_COUNT(array) (sizeof(array)/sizeof((array)[0]))
 const char *GptError(int errnum);

 // Size in chars of the GPT Entry's PartitionName field
 #define GPT_PARTNAME_LEN 72

 /* The standard "assert" macro goes away when NDEBUG is defined. This doesn't.
  */
 #define require(A) do { \
   if (!(A)) { \
     fprintf(stderr, "condition (%s) failed at %s:%d\n", \
             #A, __FILE__, __LINE__); \
     exit(1); } \
   } while (0)

 #endif  // VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_
	// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_
	#define VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_

	#include <fcntl.h>
	#ifndef HAVE_MACOS
	#include <features.h>
	#endif
	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include "cgpt_endian.h"
	#include "cgptlib.h"
	#include "gpt.h"

	struct legacy_partition {
	uint8_t status;
	uint8_t f_head;
	uint8_t f_sect;
	uint8_t f_cyl;
	uint8_t type;
	uint8_t l_head;
	uint8_t l_sect;
	uint8_t l_cyl;
	uint32_t f_lba;
	uint32_t num_sect;
	} __attribute__((packed));

	// syslinux uses this format:
	struct pmbr {
	uint8_t bootcode[424];
	Guid boot_guid;
	uint32_t disk_id;
	uint8_t magic[2]; // 0x1d, 0x9a
	struct legacy_partition part[4];
	uint8_t sig[2]; // 0x55, 0xaa
	} __attribute__((packed));

	void PMBRToStr(struct pmbr pmbr, char str, unsigned int buflen);

	// Handle to the drive storing the GPT.
	struct drive {
	uint64_t size; /* total size (in bytes) */
	GptData gpt;
	struct pmbr pmbr;
	int fd; /* file descriptor */
	};

	// Opens a block device or file, loads raw GPT data from it.
	// 'mode' should be O_RDONLY or O_RDWR.
	// If 'drive_size' is 0, both the partitions and GPT structs reside on the same
	// 'drive_path'.
	// Otherwise, 'drive_size' is taken as the size of the device that all
	// partitions will reside on, and 'drive_path' is where we store GPT structs.
	//
	// Returns CGPT_FAILED if any error happens.
	// Returns CGPT_OK if success and information are stored in 'drive'. */
	int DriveOpen(const char drive_path, struct drive drive, int mode,
	uint64_t drive_size);
	int DriveClose(struct drive *drive, int update_as_needed);
	int CheckValid(const struct drive *drive);

	/* Loads sectors from 'drive'.
	* *buf is pointed to an allocated memory when returned, and should be
	* freed.
	*
	* drive -- open drive.
	* buf -- pointer to buffer pointer
	* sector -- offset of starting sector (in sectors)
	* sector_bytes -- bytes per sector
	* sector_count -- number of sectors to load
	*
	* Returns CGPT_OK for successful. Aborts if any error occurs.
	*/
	int Load(struct drive drive, uint8_t *buf,
	const uint64_t sector,
	const uint64_t sector_bytes,
	const uint64_t sector_count);

	/* Saves sectors to 'drive'.
	*
	* drive -- open drive
	* buf -- pointer to buffer
	* sector -- starting sector offset
	* sector_bytes -- bytes per sector
	* sector_count -- number of sector to save
	*
	* Returns CGPT_OK for successful, CGPT_FAILED for failed.
	*/
	int Save(struct drive drive, const uint8_t buf,
	const uint64_t sector,
	const uint64_t sector_bytes,
	const uint64_t sector_count);


	/* GUID conversion functions. Accepted format:
	*
	* "C12A7328-F81F-11D2-BA4B-00A0C93EC93B"
	*
	* At least GUID_STRLEN bytes should be reserved in 'str' (included the tailing
	* '\0').
	*/
	#define GUID_STRLEN 37
	int StrToGuid(const char str, Guid guid);
	void GuidToStr(const Guid guid, char str, unsigned int buflen);
	int GuidEqual(const Guid guid1, const Guid guid2);
	int IsZero(const Guid *guid);

	/* Constant global type values to compare against */
	extern const Guid guid_chromeos_firmware;
	extern const Guid guid_chromeos_kernel;
	extern const Guid guid_chromeos_rootfs;
	extern const Guid guid_linux_data;
	extern const Guid guid_chromeos_reserved;
	extern const Guid guid_efi;
	extern const Guid guid_unused;

	int ReadPMBR(struct drive *drive);
	int WritePMBR(struct drive *drive);

	/* Convert possibly unterminated UTF16 string to UTF8.
	* Caller must prepare enough space for UTF8, which could be up to
	* twice the byte length of UTF16 string plus the terminating '\0'.
	*
	* Return: CGPT_OK --- all character are converted successfully.
	* CGPT_FAILED --- convert error, i.e. output buffer is too short.
	*/
	int UTF16ToUTF8(const uint16_t *utf16, unsigned int maxinput,
	uint8_t *utf8, unsigned int maxoutput);

	/* Convert null-terminated UTF8 string to UTF16.
	* Caller must prepare enough space for UTF16, which is the byte length of UTF8
	* plus the terminating 0x0000.
	*
	* Return: CGPT_OK --- all character are converted successfully.
	* CGPT_FAILED --- convert error, i.e. output buffer is too short.
	*/
	int UTF8ToUTF16(const uint8_t utf8, uint16_t utf16, unsigned int maxoutput);

	/* Helper functions for supported GPT types. */
	int ResolveType(const Guid type, char buf);
	int SupportedType(const char name, Guid type);
	void PrintTypes(void);
	void EntryDetails(GptEntry *entry, uint32_t index, int raw);

	uint32_t GetNumberOfEntries(const struct drive *drive);
	GptEntry GetEntry(GptData gpt, int secondary, uint32_t entry_index);

	void SetLegacyBoot(struct drive *drive, int secondary, uint32_t entry_index,
	int legacy_boot);
	int GetLegacyBoot(struct drive *drive, int secondary, uint32_t entry_index);
	void SetPriority(struct drive *drive, int secondary, uint32_t entry_index,
	int priority);
	int GetPriority(struct drive *drive, int secondary, uint32_t entry_index);
	void SetTries(struct drive *drive, int secondary, uint32_t entry_index,
	int tries);
	int GetTries(struct drive *drive, int secondary, uint32_t entry_index);
	void SetSuccessful(struct drive *drive, int secondary, uint32_t entry_index,
	int success);
	int GetSuccessful(struct drive *drive, int secondary, uint32_t entry_index);

	void SetRaw(struct drive *drive, int secondary, uint32_t entry_index,
	uint32_t raw);

	void UpdateAllEntries(struct drive *drive);

	uint8_t RepairHeader(GptData *gpt, const uint32_t valid_headers);
	uint8_t RepairEntries(GptData *gpt, const uint32_t valid_entries);
	void UpdateCrc(GptData *gpt);
	int IsSynonymous(const GptHeader* a, const GptHeader* b);

	int IsUnused(struct drive *drive, int secondary, uint32_t index);
	int IsKernel(struct drive *drive, int secondary, uint32_t index);

	// Optional. Applications that need this must provide an implementation.
	//
	// Explanation:
	// Some external utilities need to manipulate the GPT, but don't create new
	// partitions from scratch. The cgpt executable uses libuuid to provide this
	// functionality, but we don't want to have to build or install a separate
	// instance of that library just for the 32-bit static post-install tool,
	// which doesn't need this function.
	int GenerateGuid(Guid *newguid);

	// For usage and error messages.
	void Error(const char *format, ...);
	void Warning(const char *format, ...);

	// Command functions.
	int check_int_parse(char option, const char *buf);
	int check_int_limit(char option, int val, int low, int high);
	int cmd_show(int argc, char *argv[]);
	int cmd_repair(int argc, char *argv[]);
	int cmd_create(int argc, char *argv[]);
	int cmd_add(int argc, char *argv[]);
	int cmd_boot(int argc, char *argv[]);
	int cmd_find(int argc, char *argv[]);
	int cmd_prioritize(int argc, char *argv[]);
	int cmd_legacy(int argc, char *argv[]);

	#define ARRAY_COUNT(array) (sizeof(array)/sizeof((array)[0]))
	const char *GptError(int errnum);

	// Size in chars of the GPT Entry's PartitionName field
	#define GPT_PARTNAME_LEN 72

	/* The standard "assert" macro goes away when NDEBUG is defined. This doesn't.
	*/
	#define require(A) do { \
	if (!(A)) { \
	fprintf(stderr, "condition (%s) failed at %s:%d\n", \
	#A, __FILE__, __LINE__); \
	exit(1); } \
	} while (0)

	#endif // VBOOT_REFERENCE_UTILITY_CGPT_CGPT_H_