mbr.h - platform/external/gptfdisk - Gitiles

 /* mbr.h -- MBR data structure definitions, types, and functions */

 /* This program is copyright (c) 2009 by Roderick W. Smith. It is distributed
   under the terms of the GNU GPL version 2, as detailed in the COPYING file. */

 #include <stdint.h>
 #include <sys/types.h>
 #include "gptpart.h"
 #include "partnotes.h"
 #include "diskio.h"

 #ifndef __MBRSTRUCTS
 #define __MBRSTRUCTS

 #define MBR_SIGNATURE UINT16_C(0xAA55)
 #define MAX_HEADS 255        /* numbered 0 - 254 */
 #define MAX_SECSPERTRACK 63  /* numbered 1 - 63 */
 #define MAX_CYLINDERS 1024   /* numbered 0 - 1023 */

 // Maximum number of MBR partitions
 #define MAX_MBR_PARTS 128

 using namespace std;

 class PartNotes;

 /****************************************
  *                                      *
  * MBRData class and related structures *
  *                                      *
  ****************************************/

 // Data for a single MBR partition record
 // Note that firstSector and lastSector are in CHS addressing, which
 // splits the bits up in a weird way.
 // On read or write of MBR entries, firstLBA is an absolute disk sector.
 // On read of logical entries, it's relative to the EBR record for that
 // partition. When writing EBR records, it's relative to the extended
 // partition's start.
 #pragma pack(1)
 struct MBRRecord {
    uint8_t status;
    uint8_t firstSector[3];
    uint8_t partitionType;
    uint8_t lastSector[3];
    uint32_t firstLBA; // see above
    uint32_t lengthLBA;
 }; // struct MBRRecord

 // A 512-byte data structure into which the MBR can be loaded in one
 // go. Also used when loading logical partitions.
 #pragma pack(1)
 struct TempMBR {
    uint8_t code[440];
    uint32_t diskSignature;
    uint16_t nulls;
    struct MBRRecord partitions[4];
    uint16_t MBRSignature;
 }; // struct TempMBR

 // Possible states of the MBR
 enum MBRValidity {invalid, gpt, hybrid, mbr};

 // Full data in tweaked MBR format
 class MBRData {
 protected:
    uint8_t code[440];
    uint32_t diskSignature;
    uint16_t nulls;
    // MAX_MBR_PARTS defaults to 128. This array holds both the primary and
    // the logical partitions, to simplify data retrieval for GPT conversions.
    struct MBRRecord partitions[MAX_MBR_PARTS];
    uint16_t MBRSignature;

    // Above are basic MBR data; now add more stuff....
    uint32_t blockSize; // block size (usually 512)
    uint64_t diskSize; // size in blocks
    uint64_t numHeads; // number of heads, in CHS scheme
    uint64_t numSecspTrack; // number of sectors per track, in CHS scheme
    DiskIO* myDisk;
    int canDeleteMyDisk;
    string device;
    MBRValidity state;
    struct MBRRecord* GetPartition(int i); // Return primary or logical partition
 public:
    MBRData(void);
    MBRData(string deviceFilename);
    ~MBRData(void);

    // File I/O functions...
    int ReadMBRData(const string & deviceFilename);
    int ReadMBRData(DiskIO * theDisk, int checkBlockSize = 1);
    // ReadLogicalPart() returns last partition # read to logicals[] array,
    // or -1 if there was a problem....
    int ReadLogicalPart(uint32_t extendedStart, uint32_t diskOffset,
                        int partNum);
    int WriteMBRData(void);
    int WriteMBRData(DiskIO *theDisk);
    int WriteMBRData(const string & deviceFilename);
    int WriteMBRData(struct TempMBR & mbr, DiskIO *theDisk, uint64_t sector);
    void SetDisk(DiskIO *theDisk) {myDisk = theDisk; canDeleteMyDisk = 0;}

    // Display data for user...
    void DisplayMBRData(int maxParts = 4);
    void ShowState(void);

    // Functions that set or get disk metadata (size, CHS geometry, etc.)
    void SetDiskSize(uint64_t ds) {diskSize = ds;}
    MBRValidity GetValidity(void) {return state;}
    void SetHybrid(void) {state = hybrid;} // Set hybrid flag
    void SetCHSGeom(uint32_t h, uint32_t s);
    int LBAtoCHS(uint64_t lba, uint8_t * chs); // Convert LBA to CHS

    // Functions to create, delete, or change partitions
    // Pass EmptyMBR 1 to clear the boot loader code, 0 to leave it intact
    void EmptyMBR(int clearBootloader = 1);
    void EmptyBootloader(void);
    void MakeProtectiveMBR(int clearBoot = 0);
    void MakePart(int num, uint32_t startLBA, uint32_t lengthLBA, int type = 0x07,
                  int bootable = 0);
    int SetPartType(int num, int type);
    int SetPartBootable(int num, int bootable = 1);
    int MakeBiggestPart(int i, int type); // Make partition filling most space
    void DeletePartition(int i);
    int DeleteByLocation(uint64_t start64, uint64_t length64);
    void OptimizeEESize(void);
    void RecomputeCHS(int partNum);
    int CreateLogicals(PartNotes& notes);

    // Functions to find information on free space....
    uint32_t FindFirstAvailable(uint32_t start = 1);
    uint32_t FindLastInFree(uint32_t start);
    uint32_t FindFirstInFree(uint32_t start);
    int IsFree(uint32_t sector);

    // Functions to extract data on specific partitions....
    uint8_t GetStatus(int i);
    uint8_t GetType(int i);
    uint32_t GetFirstSector(int i);
    uint32_t GetLength(int i);
    GPTPart AsGPT(int i);
 }; // struct MBRData

 #endif
	/* mbr.h -- MBR data structure definitions, types, and functions */

	/* This program is copyright (c) 2009 by Roderick W. Smith. It is distributed
	under the terms of the GNU GPL version 2, as detailed in the COPYING file. */

	#include <stdint.h>
	#include <sys/types.h>
	#include "gptpart.h"
	#include "partnotes.h"
	#include "diskio.h"

	#ifndef __MBRSTRUCTS
	#define __MBRSTRUCTS

	#define MBR_SIGNATURE UINT16_C(0xAA55)
	#define MAX_HEADS 255 /* numbered 0 - 254 */
	#define MAX_SECSPERTRACK 63 /* numbered 1 - 63 */
	#define MAX_CYLINDERS 1024 /* numbered 0 - 1023 */

	// Maximum number of MBR partitions
	#define MAX_MBR_PARTS 128

	using namespace std;

	class PartNotes;

	/****************************************
	* *
	* MBRData class and related structures *
	* *
	****************************************/

	// Data for a single MBR partition record
	// Note that firstSector and lastSector are in CHS addressing, which
	// splits the bits up in a weird way.
	// On read or write of MBR entries, firstLBA is an absolute disk sector.
	// On read of logical entries, it's relative to the EBR record for that
	// partition. When writing EBR records, it's relative to the extended
	// partition's start.
	#pragma pack(1)
	struct MBRRecord {
	uint8_t status;
	uint8_t firstSector[3];
	uint8_t partitionType;
	uint8_t lastSector[3];
	uint32_t firstLBA; // see above
	uint32_t lengthLBA;
	}; // struct MBRRecord

	// A 512-byte data structure into which the MBR can be loaded in one
	// go. Also used when loading logical partitions.
	#pragma pack(1)
	struct TempMBR {
	uint8_t code[440];
	uint32_t diskSignature;
	uint16_t nulls;
	struct MBRRecord partitions[4];
	uint16_t MBRSignature;
	}; // struct TempMBR

	// Possible states of the MBR
	enum MBRValidity {invalid, gpt, hybrid, mbr};

	// Full data in tweaked MBR format
	class MBRData {
	protected:
	uint8_t code[440];
	uint32_t diskSignature;
	uint16_t nulls;
	// MAX_MBR_PARTS defaults to 128. This array holds both the primary and
	// the logical partitions, to simplify data retrieval for GPT conversions.
	struct MBRRecord partitions[MAX_MBR_PARTS];
	uint16_t MBRSignature;

	// Above are basic MBR data; now add more stuff....
	uint32_t blockSize; // block size (usually 512)
	uint64_t diskSize; // size in blocks
	uint64_t numHeads; // number of heads, in CHS scheme
	uint64_t numSecspTrack; // number of sectors per track, in CHS scheme
	DiskIO* myDisk;
	int canDeleteMyDisk;
	string device;
	MBRValidity state;
	struct MBRRecord* GetPartition(int i); // Return primary or logical partition
	public:
	MBRData(void);
	MBRData(string deviceFilename);
	~MBRData(void);

	// File I/O functions...
	int ReadMBRData(const string & deviceFilename);
	int ReadMBRData(DiskIO * theDisk, int checkBlockSize = 1);
	// ReadLogicalPart() returns last partition # read to logicals[] array,
	// or -1 if there was a problem....
	int ReadLogicalPart(uint32_t extendedStart, uint32_t diskOffset,
	int partNum);
	int WriteMBRData(void);
	int WriteMBRData(DiskIO *theDisk);
	int WriteMBRData(const string & deviceFilename);
	int WriteMBRData(struct TempMBR & mbr, DiskIO *theDisk, uint64_t sector);
	void SetDisk(DiskIO *theDisk) {myDisk = theDisk; canDeleteMyDisk = 0;}

	// Display data for user...
	void DisplayMBRData(int maxParts = 4);
	void ShowState(void);

	// Functions that set or get disk metadata (size, CHS geometry, etc.)
	void SetDiskSize(uint64_t ds) {diskSize = ds;}
	MBRValidity GetValidity(void) {return state;}
	void SetHybrid(void) {state = hybrid;} // Set hybrid flag
	void SetCHSGeom(uint32_t h, uint32_t s);
	int LBAtoCHS(uint64_t lba, uint8_t * chs); // Convert LBA to CHS

	// Functions to create, delete, or change partitions
	// Pass EmptyMBR 1 to clear the boot loader code, 0 to leave it intact
	void EmptyMBR(int clearBootloader = 1);
	void EmptyBootloader(void);
	void MakeProtectiveMBR(int clearBoot = 0);
	void MakePart(int num, uint32_t startLBA, uint32_t lengthLBA, int type = 0x07,
	int bootable = 0);
	int SetPartType(int num, int type);
	int SetPartBootable(int num, int bootable = 1);
	int MakeBiggestPart(int i, int type); // Make partition filling most space
	void DeletePartition(int i);
	int DeleteByLocation(uint64_t start64, uint64_t length64);
	void OptimizeEESize(void);
	void RecomputeCHS(int partNum);
	int CreateLogicals(PartNotes& notes);

	// Functions to find information on free space....
	uint32_t FindFirstAvailable(uint32_t start = 1);
	uint32_t FindLastInFree(uint32_t start);
	uint32_t FindFirstInFree(uint32_t start);
	int IsFree(uint32_t sector);

	// Functions to extract data on specific partitions....
	uint8_t GetStatus(int i);
	uint8_t GetType(int i);
	uint32_t GetFirstSector(int i);
	uint32_t GetLength(int i);
	GPTPart AsGPT(int i);
	}; // struct MBRData

	#endif