-
Notifications
You must be signed in to change notification settings - Fork 0
/
gpt.h
216 lines (191 loc) · 7.89 KB
/
gpt.h
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
/* gpt.h -- GPT and data structure definitions, types, and
functions */
/* This program is copyright (c) 2009-2011 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 "support.h"
#include "mbr.h"
#include "bsd.h"
#include "gptpart.h"
#ifndef __GPTSTRUCTS
#define __GPTSTRUCTS
// Default values for sector alignment
#define DEFAULT_ALIGNMENT 2048
#define MAX_ALIGNMENT 65536
#define MIN_AF_ALIGNMENT 8
// Below constant corresponds to a ~279GiB (300GB) disk, since the
// smallest Advanced Format drive I know of is 320GB in size
#define SMALLEST_ADVANCED_FORMAT UINT64_C(585937500)
using namespace std;
/****************************************
* *
* GPTData class and related structures *
* *
****************************************/
// Validity state of GPT data
enum GPTValidity {gpt_valid, gpt_corrupt, gpt_invalid};
// Which set of partition data to use
enum WhichToUse {use_gpt, use_mbr, use_bsd, use_new, use_abort};
// Header (first 512 bytes) of GPT table
#pragma pack(1)
struct GPTHeader {
uint64_t signature;
uint32_t revision;
uint32_t headerSize;
uint32_t headerCRC;
uint32_t reserved;
uint64_t currentLBA;
uint64_t backupLBA;
uint64_t firstUsableLBA;
uint64_t lastUsableLBA;
GUIDData diskGUID;
uint64_t partitionEntriesLBA;
uint32_t numParts;
uint32_t sizeOfPartitionEntries;
uint32_t partitionEntriesCRC;
unsigned char reserved2[GPT_RESERVED];
}; // struct GPTHeader
#pragma pack ()
// Data in GPT format
class GPTData {
protected:
struct GPTHeader mainHeader;
GPTPart *partitions;
uint32_t numParts; // # of partitions the table can hold
struct GPTHeader secondHeader;
MBRData protectiveMBR;
string device; // device filename
DiskIO myDisk;
uint32_t blockSize; // device logical block size
uint32_t physBlockSize; // device physical block size (or 0 if it can't be determined)
uint64_t diskSize; // size of device, in logical blocks
GPTValidity state; // is GPT valid?
int justLooking; // Set to 1 if program launched with "-l" or if read-only
int mainCrcOk;
int secondCrcOk;
int mainPartsCrcOk;
int secondPartsCrcOk;
int apmFound; // set to 1 if APM detected
int bsdFound; // set to 1 if BSD disklabel detected in MBR
uint32_t sectorAlignment; // Start partitions at multiples of sectorAlignment
int beQuiet;
WhichToUse whichWasUsed;
int LoadHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector, int *crcOk);
int LoadPartitionTable(const struct GPTHeader & header, DiskIO & disk, uint64_t sector = 0);
int CheckTable(struct GPTHeader *header);
int SaveHeader(struct GPTHeader *header, DiskIO & disk, uint64_t sector);
int SavePartitionTable(DiskIO & disk, uint64_t sector);
public:
// Basic necessary functions....
GPTData(void);
GPTData(const GPTData &);
GPTData(string deviceFilename);
virtual ~GPTData(void);
GPTData & operator=(const GPTData & orig);
// Verify (or update) data integrity
int Verify(void);
int CheckGPTSize(void);
int CheckHeaderValidity(void);
int CheckHeaderCRC(struct GPTHeader* header, int warn = 0);
void RecomputeCRCs(void);
void RebuildMainHeader(void);
void RebuildSecondHeader(void);
int VerifyMBR(void) {return protectiveMBR.FindOverlaps();}
int FindHybridMismatches(void);
int FindOverlaps(void);
int FindInsanePartitions(void);
// Load or save data from/to disk
int SetDisk(const string & deviceFilename);
DiskIO* GetDisk(void) {return &myDisk;}
int LoadMBR(const string & f) {return protectiveMBR.ReadMBRData(f);}
int WriteProtectiveMBR(void) {return protectiveMBR.WriteMBRData(&myDisk);}
void PartitionScan(void);
int LoadPartitions(const string & deviceFilename);
int ForceLoadGPTData(void);
int LoadMainTable(void);
int LoadSecondTableAsMain(void);
int SaveGPTData(int quiet = 0);
int SaveGPTBackup(const string & filename);
int LoadGPTBackup(const string & filename);
int SaveMBR(void);
int DestroyGPT(void);
int DestroyMBR(void);
// Display data....
void ShowAPMState(void);
void ShowGPTState(void);
void DisplayGPTData(void);
void DisplayMBRData(void) {protectiveMBR.DisplayMBRData();}
void ShowPartDetails(uint32_t partNum);
// Convert between GPT and other formats
virtual WhichToUse UseWhichPartitions(void);
void XFormPartitions(void);
int XFormDisklabel(uint32_t partNum);
int XFormDisklabel(BSDData* disklabel);
int OnePartToMBR(uint32_t gptPart, int mbrPart); // add one partition to MBR. Returns 1 if successful
// Adjust GPT structures WITHOUT user interaction...
int SetGPTSize(uint32_t numEntries, int fillGPTSectors = 1);
int MoveMainTable(uint64_t pteSector);
void BlankPartitions(void);
int DeletePartition(uint32_t partNum);
uint32_t CreatePartition(uint32_t partNum, uint64_t startSector, uint64_t endSector);
void SortGPT(void);
int SwapPartitions(uint32_t partNum1, uint32_t partNum2);
int ClearGPTData(void);
void MoveSecondHeaderToEnd();
int SetName(uint32_t partNum, const UnicodeString & theName);
void SetDiskGUID(GUIDData newGUID);
int SetPartitionGUID(uint32_t pn, GUIDData theGUID);
void RandomizeGUIDs(void);
int ChangePartType(uint32_t pn, PartType theGUID);
void MakeProtectiveMBR(void) {protectiveMBR.MakeProtectiveMBR();}
void RecomputeCHS(void);
int Align(uint64_t* sector);
void SetProtectiveMBR(BasicMBRData & newMBR) {protectiveMBR = newMBR;}
// Return data about the GPT structures....
WhichToUse GetState(void) {return whichWasUsed;}
int GetPartRange(uint32_t* low, uint32_t* high);
int FindFirstFreePart(void);
uint32_t GetNumParts(void) {return mainHeader.numParts;}
uint64_t GetTableSizeInSectors(void) {return (((numParts * GPT_SIZE) / blockSize) +
(((numParts * GPT_SIZE) % blockSize) != 0)); }
uint64_t GetMainHeaderLBA(void) {return mainHeader.currentLBA;}
uint64_t GetSecondHeaderLBA(void) {return secondHeader.currentLBA;}
uint64_t GetMainPartsLBA(void) {return mainHeader.partitionEntriesLBA;}
uint64_t GetSecondPartsLBA(void) {return secondHeader.partitionEntriesLBA;}
uint64_t GetFirstUsableLBA(void) {return mainHeader.firstUsableLBA;}
uint64_t GetLastUsableLBA(void) {return mainHeader.lastUsableLBA;}
uint32_t CountParts(void);
bool ValidPartNum (const uint32_t partNum);
const GPTPart & operator[](uint32_t partNum) const;
const GUIDData & GetDiskGUID(void) const;
uint32_t GetBlockSize(void) {return blockSize;}
// Find information about free space
uint64_t FindFirstAvailable(uint64_t start = 0);
uint64_t FindFirstUsedLBA(void);
uint64_t FindFirstInLargest(void);
uint64_t FindLastAvailable();
uint64_t FindLastInFree(uint64_t start);
uint64_t FindFreeBlocks(uint32_t *numSegments, uint64_t *largestSegment);
int IsFree(uint64_t sector, uint32_t *partNum = NULL);
int IsFreePartNum(uint32_t partNum);
int IsUsedPartNum(uint32_t partNum);
// Change how functions work, or return information on same
void SetAlignment(uint32_t n);
uint32_t ComputeAlignment(void); // Set alignment based on current partitions
uint32_t GetAlignment(void) {return sectorAlignment;}
void JustLooking(int i = 1) {justLooking = i;}
void BeQuiet(int i = 1) {beQuiet = i;}
WhichToUse WhichWasUsed(void) {return whichWasUsed;}
// Endianness functions
void ReverseHeaderBytes(struct GPTHeader* header);
void ReversePartitionBytes(); // for endianness
// Attributes functions
int ManageAttributes(int partNum, const string & command, const string & bits);
void ShowAttributes(const uint32_t partNum);
void GetAttribute(const uint32_t partNum, const string& attributeBits);
}; // class GPTData
// Function prototypes....
int SizesOK(void);
#endif