// parttypes.cc // Class to manage partition type codes -- a slight variant on MBR type // codes, GUID type codes, and associated names. /* This program is copyright (c) 2009-2014 by Roderick W. Smith. It is distributed under the terms of the GNU GPL version 2, as detailed in the COPYING file. */ #define __STDC_LIMIT_MACROS #ifndef __STDC_CONSTANT_MACROS #define __STDC_CONSTANT_MACROS #endif #include <string.h> #include <stdint.h> #include <stdio.h> #include <iostream> #include "parttypes.h" using namespace std; int PartType::numInstances = 0; AType* PartType::allTypes = NULL; AType* PartType::lastType = NULL; // Constructor. Its main task is to initialize the data list, but only // if this is the first instance, since it's a static linked list. // Partition type codes are MBR type codes multiplied by 0x0100, with // additional related codes taking on following numbers. For instance, // the FreeBSD disklabel code in MBR is 0xa5; here, it's 0xa500, with // additional FreeBSD codes being 0xa501, 0xa502, and so on. This gives // related codes similar numbers and (given appropriate entry positions // in the linked list) keeps them together in the listings generated // by typing "L" at the main gdisk menu. PartType::PartType(void) : GUIDData() { numInstances++; if (numInstances == 1) { AddAllTypes(); } // if } // default constructor PartType::PartType(const PartType & orig) : GUIDData(orig) { numInstances++; if (numInstances == 1) { // should never happen; just being paranoid AddAllTypes(); } // if } // PartType copy constructor PartType::PartType(const GUIDData & orig) : GUIDData(orig) { numInstances++; if (numInstances == 1) { AddAllTypes(); } // if } // PartType copy constructor PartType::~PartType(void) { AType* tempType; numInstances--; if (numInstances == 0) { while (allTypes != NULL) { tempType = allTypes; allTypes = allTypes->next; delete tempType; } // while } // if } // destructor // Add all partition type codes to the internal linked-list structure. // Used by constructors. // See http://www.win.tue.nl/~aeb/partitions/partition_types-1.html // for a list of MBR partition type codes. void PartType::AddAllTypes(void) { // Start with the "unused entry," which should normally appear only // on empty partition table entries.... AddType(0x0000, "00000000-0000-0000-0000-000000000000", "Unused entry", 0); // DOS/Windows partition types, most of which are hidden from the "L" listing // (they're available mainly for MBR-to-GPT conversions). AddType(0x0100, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-12 AddType(0x0400, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-16 < 32M AddType(0x0600, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-16 AddType(0x0700, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 1); // NTFS (or HPFS) AddType(0x0b00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-32 AddType(0x0c00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-32 LBA AddType(0x0c01, "E3C9E316-0B5C-4DB8-817D-F92DF00215AE", "Microsoft reserved"); AddType(0x0e00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // FAT-16 LBA AddType(0x1100, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-12 AddType(0x1400, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-16 < 32M AddType(0x1600, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-16 AddType(0x1700, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden NTFS (or HPFS) AddType(0x1b00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-32 AddType(0x1c00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-32 LBA AddType(0x1e00, "EBD0A0A2-B9E5-4433-87C0-68B6B72699C7", "Microsoft basic data", 0); // Hidden FAT-16 LBA AddType(0x2700, "DE94BBA4-06D1-4D40-A16A-BFD50179D6AC", "Windows RE"); // Open Network Install Environment (ONIE) specific types. // See http://www.onie.org/ and // https://github.com/onie/onie/blob/master/rootconf/x86_64/sysroot-lib-onie/onie-blkdev-common AddType(0x3000, "7412F7D5-A156-4B13-81DC-867174929325", "ONIE boot"); AddType(0x3001, "D4E6E2CD-4469-46F3-B5CB-1BFF57AFC149", "ONIE config"); // PowerPC reference platform boot partition AddType(0x4100, "9E1A2D38-C612-4316-AA26-8B49521E5A8B", "PowerPC PReP boot"); // Windows LDM ("dynamic disk") types AddType(0x4200, "AF9B60A0-1431-4F62-BC68-3311714A69AD", "Windows LDM data"); // Logical disk manager AddType(0x4201, "5808C8AA-7E8F-42E0-85D2-E1E90434CFB3", "Windows LDM metadata"); // Logical disk manager // An oddball IBM filesystem.... AddType(0x7501, "37AFFC90-EF7D-4E96-91C3-2D7AE055B174", "IBM GPFS"); // General Parallel File System (GPFS) // ChromeOS-specific partition types... // Values taken from vboot_reference/firmware/lib/cgptlib/include/gpt.h in // ChromeOS source code, retrieved 12/23/2010. They're also at // http://www.chromium.org/chromium-os/chromiumos-design-docs/disk-format. // These have no MBR equivalents, AFAIK, so I'm using 0x7Fxx values, since they're close // to the Linux values. AddType(0x7f00, "FE3A2A5D-4F32-41A7-B725-ACCC3285A309", "ChromeOS kernel"); AddType(0x7f01, "3CB8E202-3B7E-47DD-8A3C-7FF2A13CFCEC", "ChromeOS root"); AddType(0x7f02, "2E0A753D-9E48-43B0-8337-B15192CB1B5E", "ChromeOS reserved"); // Linux-specific partition types.... AddType(0x8200, "0657FD6D-A4AB-43C4-84E5-0933C84B4F4F", "Linux swap"); // Linux swap (or Solaris on MBR) AddType(0x8300, "0FC63DAF-8483-4772-8E79-3D69D8477DE4", "Linux filesystem"); // Linux native AddType(0x8301, "8DA63339-0007-60C0-C436-083AC8230908", "Linux reserved"); // See http://www.freedesktop.org/software/systemd/man/systemd-gpt-auto-generator.html // and http://www.freedesktop.org/wiki/Specifications/DiscoverablePartitionsSpec/ AddType(0x8302, "933AC7E1-2EB4-4F13-B844-0E14E2AEF915", "Linux /home"); // Linux /home (auto-mounted by systemd) AddType(0x8303, "44479540-F297-41B2-9AF7-D131D5F0458A", "Linux x86 root (/)"); // Linux / on x86 (auto-mounted by systemd) AddType(0x8304, "4F68BCE3-E8CD-4DB1-96E7-FBCAF984B709", "Linux x86-64 root (/)"); // Linux / on x86-64 (auto-mounted by systemd) AddType(0x8305, "B921B045-1DF0-41C3-AF44-4C6F280D3FAE", "Linux ARM64 root (/)"); // Linux / on 64-bit ARM (auto-mounted by systemd) AddType(0x8306, "3B8F8425-20E0-4F3B-907F-1A25A76F98E8", "Linux /srv"); // Linux /srv (auto-mounted by systemd) // Used by Intel Rapid Start technology AddType(0x8400, "D3BFE2DE-3DAF-11DF-BA40-E3A556D89593", "Intel Rapid Start"); // Another Linux type code.... AddType(0x8e00, "E6D6D379-F507-44C2-A23C-238F2A3DF928", "Linux LVM"); // FreeBSD partition types.... // Note: Rather than extract FreeBSD disklabel data, convert FreeBSD // partitions in-place, and let FreeBSD sort out the details.... AddType(0xa500, "516E7CB4-6ECF-11D6-8FF8-00022D09712B", "FreeBSD disklabel"); AddType(0xa501, "83BD6B9D-7F41-11DC-BE0B-001560B84F0F", "FreeBSD boot"); AddType(0xa502, "516E7CB5-6ECF-11D6-8FF8-00022D09712B", "FreeBSD swap"); AddType(0xa503, "516E7CB6-6ECF-11D6-8FF8-00022D09712B", "FreeBSD UFS"); AddType(0xa504, "516E7CBA-6ECF-11D6-8FF8-00022D09712B", "FreeBSD ZFS"); AddType(0xa505, "516E7CB8-6ECF-11D6-8FF8-00022D09712B", "FreeBSD Vinum/RAID"); // Midnight BSD partition types.... AddType(0xa580, "85D5E45A-237C-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD data"); AddType(0xa581, "85D5E45E-237C-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD boot"); AddType(0xa582, "85D5E45B-237C-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD swap"); AddType(0xa583, "0394Ef8B-237E-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD UFS"); AddType(0xa584, "85D5E45D-237C-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD ZFS"); AddType(0xa585, "85D5E45C-237C-11E1-B4B3-E89A8F7FC3A7", "Midnight BSD Vinum"); // A MacOS partition type, separated from others by NetBSD partition types... AddType(0xa800, "55465300-0000-11AA-AA11-00306543ECAC", "Apple UFS"); // Mac OS X // NetBSD partition types. Note that the main entry sets it up as a // FreeBSD disklabel. I'm not 100% certain this is the correct behavior. AddType(0xa900, "516E7CB4-6ECF-11D6-8FF8-00022D09712B", "FreeBSD disklabel", 0); // NetBSD disklabel AddType(0xa901, "49F48D32-B10E-11DC-B99B-0019D1879648", "NetBSD swap"); AddType(0xa902, "49F48D5A-B10E-11DC-B99B-0019D1879648", "NetBSD FFS"); AddType(0xa903, "49F48D82-B10E-11DC-B99B-0019D1879648", "NetBSD LFS"); AddType(0xa904, "2DB519C4-B10F-11DC-B99B-0019D1879648", "NetBSD concatenated"); AddType(0xa905, "2DB519EC-B10F-11DC-B99B-0019D1879648", "NetBSD encrypted"); AddType(0xa906, "49F48DAA-B10E-11DC-B99B-0019D1879648", "NetBSD RAID"); // Mac OS partition types (See also 0xa800, above).... AddType(0xab00, "426F6F74-0000-11AA-AA11-00306543ECAC", "Apple boot"); AddType(0xaf00, "48465300-0000-11AA-AA11-00306543ECAC", "Apple HFS/HFS+"); AddType(0xaf01, "52414944-0000-11AA-AA11-00306543ECAC", "Apple RAID"); AddType(0xaf02, "52414944-5F4F-11AA-AA11-00306543ECAC", "Apple RAID offline"); AddType(0xaf03, "4C616265-6C00-11AA-AA11-00306543ECAC", "Apple label"); AddType(0xaf04, "5265636F-7665-11AA-AA11-00306543ECAC", "AppleTV recovery"); AddType(0xaf05, "53746F72-6167-11AA-AA11-00306543ECAC", "Apple Core Storage"); // Solaris partition types (one of which is shared with MacOS) AddType(0xbe00, "6A82CB45-1DD2-11B2-99A6-080020736631", "Solaris boot"); AddType(0xbf00, "6A85CF4D-1DD2-11B2-99A6-080020736631", "Solaris root"); AddType(0xbf01, "6A898CC3-1DD2-11B2-99A6-080020736631", "Solaris /usr & Mac ZFS"); // Solaris/MacOS AddType(0xbf02, "6A87C46F-1DD2-11B2-99A6-080020736631", "Solaris swap"); AddType(0xbf03, "6A8B642B-1DD2-11B2-99A6-080020736631", "Solaris backup"); AddType(0xbf04, "6A8EF2E9-1DD2-11B2-99A6-080020736631", "Solaris /var"); AddType(0xbf05, "6A90BA39-1DD2-11B2-99A6-080020736631", "Solaris /home"); AddType(0xbf06, "6A9283A5-1DD2-11B2-99A6-080020736631", "Solaris alternate sector"); AddType(0xbf07, "6A945A3B-1DD2-11B2-99A6-080020736631", "Solaris Reserved 1"); AddType(0xbf08, "6A9630D1-1DD2-11B2-99A6-080020736631", "Solaris Reserved 2"); AddType(0xbf09, "6A980767-1DD2-11B2-99A6-080020736631", "Solaris Reserved 3"); AddType(0xbf0a, "6A96237F-1DD2-11B2-99A6-080020736631", "Solaris Reserved 4"); AddType(0xbf0b, "6A8D2AC7-1DD2-11B2-99A6-080020736631", "Solaris Reserved 5"); // I can find no MBR equivalents for these, but they're on the // Wikipedia page for GPT, so here we go.... AddType(0xc001, "75894C1E-3AEB-11D3-B7C1-7B03A0000000", "HP-UX data"); AddType(0xc002, "E2A1E728-32E3-11D6-A682-7B03A0000000", "HP-UX service"); // See http://www.freedesktop.org/wiki/Specifications/BootLoaderSpec AddType(0xea00, "BC13C2FF-59E6-4262-A352-B275FD6F7172", "Freedesktop $BOOT"); // Type code for Haiku; uses BeOS MBR code as hex code base AddType(0xeb00, "42465331-3BA3-10F1-802A-4861696B7521", "Haiku BFS"); // Manufacturer-specific ESP-like partitions (in order in which they were added) AddType(0xed00, "F4019732-066E-4E12-8273-346C5641494F", "Sony system partition"); AddType(0xed01, "BFBFAFE7-A34F-448A-9A5B-6213EB736C22", "Lenovo system partition"); // EFI system and related partitions AddType(0xef00, "C12A7328-F81F-11D2-BA4B-00A0C93EC93B", "EFI System"); // Parted identifies these as having the "boot flag" set AddType(0xef01, "024DEE41-33E7-11D3-9D69-0008C781F39F", "MBR partition scheme"); // Used to nest MBR in GPT AddType(0xef02, "21686148-6449-6E6F-744E-656564454649", "BIOS boot partition"); // Used by GRUB // Ceph type codes; see https://github.com/ceph/ceph/blob/9bcc42a3e6b08521694b5c0228b2c6ed7b3d312e/src/ceph-disk#L76-L81 AddType(0xf800, "4FBD7E29-9D25-41B8-AFD0-062C0CEFF05D", "Ceph OSD"); // Ceph Object Storage Daemon AddType(0xf801, "4FBD7E29-9D25-41B8-AFD0-5EC00CEFF05D", "Ceph dm-crypt OSD"); // Ceph Object Storage Daemon (encrypted) AddType(0xf802, "BFBFAFE7-A34F-448A-9A5B-6213EB736C22", "Ceph journal"); AddType(0xf803, "45B0969E-9B03-4F30-B4C6-5EC00CEFF106", "Ceph dm-crypt journal"); AddType(0xf804, "89C57F98-2FE5-4DC0-89C1-F3AD0CEFF2BE", "Ceph disk in creation"); AddType(0xf805, "89C57F98-2FE5-4DC0-89C1-5EC00CEFF2BE", "Ceph dm-crypt disk in creation"); // VMWare ESX partition types codes AddType(0xfb00, "AA31E02A-400F-11DB-9590-000C2911D1B8", "VMWare VMFS"); AddType(0xfb01, "9198EFFC-31C0-11DB-8F78-000C2911D1B8", "VMWare reserved"); AddType(0xfc00, "9D275380-40AD-11DB-BF97-000C2911D1B8", "VMWare kcore crash protection"); // A straggler Linux partition type.... AddType(0xfd00, "A19D880F-05FC-4D3B-A006-743F0F84911E", "Linux RAID"); // Note: DO NOT use the 0xffff code; that's reserved to indicate an // unknown GUID type code. } // PartType::AddAllTypes() // Add a single type to the linked list of types. Returns 1 if operation // succeeds, 0 otherwise. int PartType::AddType(uint16_t mbrType, const char * guidData, const char * name, int toDisplay) { AType* tempType; int allOK = 1; tempType = new AType; if (tempType != NULL) { tempType->MBRType = mbrType; tempType->GUIDType = guidData; tempType->name = name; tempType->display = toDisplay; tempType->next = NULL; if (allTypes == NULL) { // first entry allTypes = tempType; } else { lastType->next = tempType; } // if/else lastType = tempType; } else { cerr << "Unable to allocate memory in PartType::AddType()! Partition type list will\n"; cerr << "be incomplete!\n"; allOK = 0; } // if/else return allOK; } // GUID::AddType(const char* variant) // Assignment operator by string. If the original string is short, // interpret it as a gdisk hex code; if it's longer, interpret it as // a direct entry of a GUID value. If a short string isn't a hex // number, do nothing. PartType & PartType::operator=(const string & orig) { uint32_t hexCode; if (orig.length() < 32) { if (IsHex(orig)) { sscanf(orig.c_str(), "%x", &hexCode); *this = hexCode; } } else { GUIDData::operator=(orig); } // if/else hexCode or GUID return *this; } // PartType::operator=(const char * orig) // Assignment from C-style string; rely on C++ casting.... PartType & PartType::operator=(const char * orig) { return operator=((string) orig); } // PartType::operator=(const char * orig) // Assign a GUID based on my custom 2-byte (16-bit) MBR hex ID variant PartType & PartType::operator=(uint16_t ID) { AType* theItem = allTypes; int found = 0; // Now search the type list for a match to the ID.... while ((theItem != NULL) && (!found)) { if (theItem->MBRType == ID) { GUIDData::operator=(theItem->GUIDType); found = 1; } else { theItem = theItem->next; } // if/else } // while if (!found) { // Assign a default value.... operator=(DEFAULT_GPT_TYPE); cout.setf(ios::uppercase); cout.fill('0'); cout << "Exact type match not found for type code "; cout.width(4); cout << hex << ID << "; assigning type code for\n'" << TypeName() << "'\n" << dec; cout.fill(' '); } // if (!found) return *this; } // PartType::operator=(uint16_t ID) // Return the English description of the partition type (e.g., "Linux filesystem") string PartType::TypeName(void) const { AType* theItem = allTypes; int found = 0; string typeName; while ((theItem != NULL) && (!found)) { if (theItem->GUIDType == *this) { // found it! typeName = theItem->name; found = 1; } else { theItem = theItem->next; } // if/else } // while if (!found) { typeName = "Unknown"; } // if (!found) return typeName; } // PartType::TypeName() #ifdef USE_UTF16 // Return the Unicode description of the partition type (e.g., "Linux filesystem") UnicodeString PartType::UTypeName(void) const { AType* theItem = allTypes; int found = 0; UnicodeString typeName; while ((theItem != NULL) && (!found)) { if (theItem->GUIDType == *this) { // found it! typeName = theItem->name.c_str(); found = 1; } else { theItem = theItem->next; } // if/else } // while if (!found) { typeName = "Unknown"; } // if (!found) return typeName; } // PartType::TypeName() #endif // Return the custom GPT fdisk 2-byte (16-bit) hex code for this GUID partition type // Note that this function ignores entries for which the display variable // is set to 0. This enables control of which values get returned when // there are multiple possibilities, but opens the algorithm up to the // potential for problems should the data in the list be bad. uint16_t PartType::GetHexType() const { AType* theItem = allTypes; int found = 0; uint16_t theID = 0xFFFF; while ((theItem != NULL) && (!found)) { if ((theItem->GUIDType == *this) && (theItem->display == 1)) { // found it! theID = theItem->MBRType; found = 1; } else { theItem = theItem->next; } // if/else } // while if (!found) { theID = 0xFFFF; } // if (!found) return theID; } // PartType::GetHex() // Displays the available types and my extended MBR codes for same.... // Note: This function assumes an 80-column display. On wider displays, // it stops at under 80 columns; on narrower displays, lines will wrap // in an ugly way. The maxLines value is the maximum number of lines // to display before prompting to continue, or 0 (or a negative value) // for no limit. void PartType::ShowAllTypes(int maxLines) const { int colCount = 1, lineCount = 1; size_t i; AType* thisType = allTypes; string line; cout.unsetf(ios::uppercase); while (thisType != NULL) { if (thisType->display == 1) { // show it cout.fill('0'); cout.width(4); cout << hex << thisType->MBRType << " "; cout << thisType->name.substr(0, 20); for (i = 0; i < (20 - (thisType->name.substr(0, 20).length())); i++) cout << " "; if ((colCount % 3) == 0) { if (thisType->next) { cout << "\n"; if ((maxLines > 0) && (lineCount++ % maxLines) == 0) { cout << "Press the <Enter> key to see more codes: "; getline(cin, line); } // if reached screen line limit } // if there's another entry following this one } else { cout << " "; } colCount++; } // if thisType = thisType->next; } // while cout.fill(' '); cout << "\n" << dec; } // PartType::ShowAllTypes(int maxLines) // Returns 1 if code is a valid extended MBR code, 0 if it's not int PartType::Valid(uint16_t code) const { AType* thisType = allTypes; int found = 0; while ((thisType != NULL) && (!found)) { if (thisType->MBRType == code) { found = 1; } // if thisType = thisType->next; } // while return found; } // PartType::Valid()