gptpart.h - LeafOS-Project/android_external_gptfdisk - Gitiles

 //
 // C++ Interface: gptpart
 //
 // Description: Class to implement a single GPT partition
 //
 //
 // Author: Rod Smith <rodsmith@rodsbooks.com>, (C) 2009
 //
 // Copyright: See COPYING file that comes with this distribution
 //
 //
 // 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.

 #ifndef __GPTPART_H
 #define __GPTPART_H

 #include <stdint.h>
 #include <string>
 #include <sys/types.h>
 #include "support.h"
 #include "parttypes.h"
 #include "guid.h"
 #include "attributes.h"

 // Values returned by GPTPart::IsSizedForMBR()
 #define MBR_SIZED_GOOD 0 /* Whole partition under 2^32 sectors */
 #define MBR_SIZED_IFFY 1 /* Partition starts under 2^32 & is less than 2^32, but ends over 2^32 */
 #define MBR_SIZED_BAD  2 /* Partition starts over 2^32, is bigger than 2^32, or otherwise bad */

 /****************************************
  *                                      *
  * GPTPart class and related structures *
  *                                      *
  ****************************************/

 class GPTPart {
    protected:
       // Caution: The non-static data in GPTPart is precisely the right size
       // to enable easy loading of the data directly from disk. If any
       // non-static variables are added to the below, the data size will
       // change and the program will stop working. This can be corrected by
       // adjusting the data-load operation in GPTData::LoadMainTable() and
       // GPTData::LoadSecondTableAsMain() and then removing the GPTPart
       // size check in SizesOK() (in gpt.cc file).
       PartType partitionType;
       GUIDData uniqueGUID;
       uint64_t firstLBA;
       uint64_t lastLBA;
       Attributes attributes;
       uint16_t name[NAME_SIZE];
    public:
       GPTPart(void);
       GPTPart(const GPTPart &);
       ~GPTPart(void);

       // Simple data retrieval:
       PartType & GetType(void) {return partitionType;}
       uint16_t GetHexType(void) const;
       std::string GetTypeName(void);
       UnicodeString GetUTypeName(void);
       const GUIDData GetUniqueGUID(void) const {return uniqueGUID;}
       uint64_t GetFirstLBA(void) const {return firstLBA;}
       uint64_t GetLastLBA(void) const {return lastLBA;}
       uint64_t GetLengthLBA(void) const;
       Attributes GetAttributes(void) {return attributes;}
       void ShowAttributes(uint32_t partNum) {attributes.ShowAttributes(partNum);}
       UnicodeString GetDescription(void);
       int IsUsed(void);
       int IsSizedForMBR(void);

       // Simple data assignment:
       void SetType(PartType t);
       void SetType(uint16_t hex) {partitionType = hex;}
       void SetUniqueGUID(GUIDData u) {uniqueGUID = u;}
       void RandomizeUniqueGUID(void) {uniqueGUID.Randomize();}
       void SetFirstLBA(uint64_t f) {firstLBA = f;}
       void SetLastLBA(uint64_t l) {lastLBA = l;}
       void SetAttributes(uint64_t a) {attributes = a;}
       void SetAttributes(void) {attributes.ChangeAttributes();}
       void SetName(const std::string & theName);
 #ifdef USE_UTF16
       void SetName(const UnicodeString & theName);
 #endif
       void SetDefaultDescription(void);

       // Additional functions
       GPTPart & operator=(const GPTPart & orig);
       bool operator<(const GPTPart &other) const;
       void ShowSummary(int partNum, uint32_t blockSize); // display summary information (1-line)
       void ShowDetails(uint32_t blockSize); // display detailed information (multi-line)
       void BlankPartition(void); // empty partition of data
       int DoTheyOverlap(const GPTPart & other); // returns 1 if there's overlap
       void ReversePartBytes(void); // reverse byte order of all integer fields
       void ReverseNameBytes(void); // reverse byte order of partition's name field

       // Functions requiring user interaction
       void ChangeType(void); // Change the type code
 }; // struct GPTPart

 #endif
	//
	// C++ Interface: gptpart
	//
	// Description: Class to implement a single GPT partition
	//
	//
	// Author: Rod Smith <rodsmith@rodsbooks.com>, (C) 2009
	//
	// Copyright: See COPYING file that comes with this distribution
	//
	//
	// 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.

	#ifndef __GPTPART_H
	#define __GPTPART_H

	#include <stdint.h>
	#include <string>
	#include <sys/types.h>
	#include "support.h"
	#include "parttypes.h"
	#include "guid.h"
	#include "attributes.h"

	// Values returned by GPTPart::IsSizedForMBR()
	#define MBR_SIZED_GOOD 0 /* Whole partition under 2^32 sectors */
	#define MBR_SIZED_IFFY 1 /* Partition starts under 2^32 & is less than 2^32, but ends over 2^32 */
	#define MBR_SIZED_BAD 2 /* Partition starts over 2^32, is bigger than 2^32, or otherwise bad */

	/****************************************
	* *
	* GPTPart class and related structures *
	* *
	****************************************/

	class GPTPart {
	protected:
	// Caution: The non-static data in GPTPart is precisely the right size
	// to enable easy loading of the data directly from disk. If any
	// non-static variables are added to the below, the data size will
	// change and the program will stop working. This can be corrected by
	// adjusting the data-load operation in GPTData::LoadMainTable() and
	// GPTData::LoadSecondTableAsMain() and then removing the GPTPart
	// size check in SizesOK() (in gpt.cc file).
	PartType partitionType;
	GUIDData uniqueGUID;
	uint64_t firstLBA;
	uint64_t lastLBA;
	Attributes attributes;
	uint16_t name[NAME_SIZE];
	public:
	GPTPart(void);
	GPTPart(const GPTPart &);
	~GPTPart(void);

	// Simple data retrieval:
	PartType & GetType(void) {return partitionType;}
	uint16_t GetHexType(void) const;
	std::string GetTypeName(void);
	UnicodeString GetUTypeName(void);
	const GUIDData GetUniqueGUID(void) const {return uniqueGUID;}
	uint64_t GetFirstLBA(void) const {return firstLBA;}
	uint64_t GetLastLBA(void) const {return lastLBA;}
	uint64_t GetLengthLBA(void) const;
	Attributes GetAttributes(void) {return attributes;}
	void ShowAttributes(uint32_t partNum) {attributes.ShowAttributes(partNum);}
	UnicodeString GetDescription(void);
	int IsUsed(void);
	int IsSizedForMBR(void);

	// Simple data assignment:
	void SetType(PartType t);
	void SetType(uint16_t hex) {partitionType = hex;}
	void SetUniqueGUID(GUIDData u) {uniqueGUID = u;}
	void RandomizeUniqueGUID(void) {uniqueGUID.Randomize();}
	void SetFirstLBA(uint64_t f) {firstLBA = f;}
	void SetLastLBA(uint64_t l) {lastLBA = l;}
	void SetAttributes(uint64_t a) {attributes = a;}
	void SetAttributes(void) {attributes.ChangeAttributes();}
	void SetName(const std::string & theName);
	#ifdef USE_UTF16
	void SetName(const UnicodeString & theName);
	#endif
	void SetDefaultDescription(void);

	// Additional functions
	GPTPart & operator=(const GPTPart & orig);
	bool operator<(const GPTPart &other) const;
	void ShowSummary(int partNum, uint32_t blockSize); // display summary information (1-line)
	void ShowDetails(uint32_t blockSize); // display detailed information (multi-line)
	void BlankPartition(void); // empty partition of data
	int DoTheyOverlap(const GPTPart & other); // returns 1 if there's overlap
	void ReversePartBytes(void); // reverse byte order of all integer fields
	void ReverseNameBytes(void); // reverse byte order of partition's name field

	// Functions requiring user interaction
	void ChangeType(void); // Change the type code
	}; // struct GPTPart

	#endif