/* MBRPart class, part of GPT fdisk program family. Copyright (C) 2011 Roderick W. Smith 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 (at your option) 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef MBRPART_H #define MBRPART_H #include #define MAX_HEADS 255 /* numbered 0 - 254 */ #define MAX_SECSPERTRACK 63 /* numbered 1 - 63 */ #define MAX_CYLINDERS 1024 /* numbered 0 - 1023 */ #define NONE 0 /* don't include partition when writing */ #define PRIMARY 1 /* write partition as primary */ #define LOGICAL 2 /* write partition as logical */ #define EBR 4 /* sector is used as an EBR or MBR */ #define INVALID 8 /* sector number is too large for disk */ // 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 #pragma pack () class MBRPart { protected: uint8_t status; uint8_t firstSector[3]; uint8_t partitionType; uint8_t lastSector[3]; uint32_t firstLBA; // see above uint32_t lengthLBA; int includeAs; // PRIMARY, LOGICAL, or NONE int canBeLogical; int canBePrimary; static uint32_t numHeads; static uint32_t numSecspTrack; static uint64_t diskSize; static uint32_t blockSize; static int numInstances; public: MBRPart(); MBRPart(const MBRPart& other); virtual ~MBRPart(); virtual MBRPart& operator=(const MBRPart& orig); virtual MBRPart& operator=(const struct MBRRecord& orig); bool operator<(const MBRPart &other) const; // Set information on partitions or disks... void SetGeometry(uint32_t heads, uint32_t sectors, uint64_t ds, uint32_t bs); void Empty(void); void SetStartLBA(uint64_t s); void SetLengthLBA(uint64_t l); void SetLocation(uint64_t start, uint64_t length); int SetType(uint8_t typeCode, int isExtended = 0); void SetStatus(uint8_t s) {status = s;} void SetInclusion(int status = PRIMARY) {includeAs = status;} void SetCanBeLogical(int c) {canBeLogical = c;} void SetCanBePrimary(int c) {canBePrimary = c;} void StoreInStruct(struct MBRRecord *theStruct); // Get information on partitions or disk.... uint8_t GetType(void) {return partitionType;} uint8_t GetStatus(void) {return status;} uint64_t GetStartLBA(void) {return firstLBA;} uint64_t GetLengthLBA(void) {return lengthLBA;} uint64_t GetLastLBA(void) const; uint8_t GetInclusion(void) {return includeAs;} int CanBeLogical(void) {return canBeLogical;} int CanBePrimary(void) {return canBePrimary;} int DoTheyOverlap (const MBRPart& other); // Adjust information on partitions or disks... int RecomputeCHS(void); int LBAtoCHS(uint32_t lba, uint8_t * chs); void ReverseByteOrder(void); // User I/O... void ShowData(int isGpt); }; // MBRPart #endif // MBRPART_H