/**************************************************************************** * Copyright (C) 2010 * by Dimok * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any * damages arising from the use of this software. * * Permission is granted to anyone to use this software for any * purpose, including commercial applications, and to alter it and * redistribute it freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you * must not claim that you wrote the original software. If you use * this software in a product, an acknowledgment in the product * documentation would be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and * must not be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any source * distribution. * * for WiiXplorer 2010 ***************************************************************************/ #ifndef PARTITION_HANDLE_H #define PARTITION_HANDLE_H #include #include "safe_vector.hpp" #include "libwbfs/libwbfs.h" #include #define MAX_PARTITIONS 32 /* Maximum number of partitions that can be found */ #define MAX_MOUNTS 10 /* Maximum number of mounts available at one time */ #define MAX_SYMLINK_DEPTH 10 /* Maximum search depth when resolving symbolic links */ #define MBR_SIGNATURE 0x55AA #define EBR_SIGNATURE MBR_SIGNATURE #define VBR_SIGNATURE MBR_SIGNATURE #define GPT_SIGNATURE "EFI PART" #define PARTITION_BOOTABLE 0x80 /* Bootable (active) */ #define PARTITION_NONBOOTABLE 0x00 /* Non-bootable */ #define BYTES_PER_SECTOR 512 /* Default in libogc */ enum SIG_OFFSETS { BPB_NTFS_ADDR = 0x3, BPB_FAT16_ADDR = 0x36, BPB_EXT2_ADDR = 0x38, BPB_FAT32_ADDR = 0x52, }; static const char FAT_SIGNATURE[3] = {'F', 'A', 'T'}; static const char NTFS_SIGNATURE[4] = {'N', 'T', 'F', 'S'}; static const char WBFS_SIGNATURE[4] = {'W', 'B', 'F', 'S'}; static const char EXT_SIGNATURE[2] = {0x53, 0xEF}; typedef struct _PARTITION_RECORD { u8 status; /* Partition status; see above */ u8 chs_start[3]; /* Cylinder-head-sector address to first block of partition */ u8 type; /* Partition type; see above */ u8 chs_end[3]; /* Cylinder-head-sector address to last block of partition */ u32 lba_start; /* Local block address to first sector of partition */ u32 block_count; /* Number of blocks in partition */ } __attribute__((__packed__)) PARTITION_RECORD; typedef struct _MASTER_BOOT_RECORD { u8 code_area[440]; /* Code area; normally empty */ u8 disk_guid[4]; /* Disk signature (optional) */ u8 reserved[2]; /* Usually zeroed */ PARTITION_RECORD partitions[4]; /* 4 primary partitions */ u16 signature; /* MBR signature; 0xAA55 */ } __attribute__((__packed__)) MASTER_BOOT_RECORD; typedef struct _EXTENDED_BOOT_RECORD { u8 code_area[446]; /* Code area; normally empty */ PARTITION_RECORD partition; /* Primary partition */ PARTITION_RECORD next_ebr; /* Next extended boot record in the chain */ u8 reserved[32]; /* Normally empty */ u16 signature; /* EBR signature; 0xAA55 */ } __attribute__((__packed__)) EXTENDED_BOOT_RECORD; typedef struct _GUID_PARTITION_ENTRY { u8 Type_GUID[16]; /* Partition type GUID */ u8 Unique_GUID[16]; /* Unique partition GUID */ u64 First_LBA; /* First LBA (little-endian) */ u64 Last_LBA; /* Last LBA (inclusive, usually odd) */ u64 Attributes; /* GUID Attribute flags (e.g. bit 60 denotes read-only) */ char Name[72]; /* Partition name (36 UTF-16LE code units) */ } __attribute__((__packed__)) GUID_PARTITION_ENTRY; typedef struct _GPT_PARTITION_TABLE { char magic[8]; /* "EFI PART" */ u32 Revision; u32 Header_Size; /* Size of this header */ u32 CheckSum; u32 Reserved; /* Must be 0 */ u64 Header_LBA; /* Location of this header, always 1 in primary copy */ u64 Backup_Header_LBA; /* Location of backup header, always max lba - 1 */ u64 First_Usable_LBA; /* Primary GPT partition table's last LBA + 1 */ u64 Last_Usable_LBA; /* Secondary GPT partition table's first LBA - 1 */ u8 GUID[16]; /* Disk GUID (also referred as UUID on UNIXes) */ u64 Table_LBA; /* Always 2 in primary copy, or Header_LBA + 1. Secondary copy is Backup_Header_LBA - 1 */ u32 Num_Entries; /* Number of entries in the partition info array */ u32 Entry_Size; /* Size of each array entry, usually 128 */ u32 Entries_CheckSum; /* CRC32 of partition array */ u8 Zeroes[420]; /* Pad to a total 512 byte LBA or sizeof 1 LBA */ GUID_PARTITION_ENTRY partitions[128]; /* Max 128 Partition Entries */ } __attribute__((__packed__)) GPT_PARTITION_TABLE; typedef struct _PartitionFS { const char * FSName; u32 LBA_Start; u32 SecCount; bool Bootable; u8 PartitionType; u8 PartitionNum; u32 EBR_Sector; wbfs_t *wbfshandle; } PartitionFS; typedef struct _BIOS_PARAMETER_BLOCK { u16 Bytes_Per_Sector; /* Size of a sector in bytes. */ u8 Sectors_Per_Cluster; /* Size of a cluster in sectors. */ u16 ReservedSsectors; /* zero on ntfs */ u8 Fats; /* zero on ntfs */ u16 Root_Entries; /* zero on ntfs */ u16 FatSectors; /* Number of sectors in volume. (FAT) Zero on ntfs */ u8 Media_Type; /* 0xf8 = hard disk */ u16 Sectors_Per_Fat; /* zero on ntfs*/ u16 Sectors_Per_Track; /* Required to boot Windows. (0x0d) */ u16 Heads; /* Required to boot Windows. (0x0f) */ u32 Hidden_Sectors; /* Offset to the start of the partition (0x11) in sectors. */ u32 Large_Sectors; /* Number of sectors in volume if Sectors is 0 (FAT) Zero on ntfs (0x15) */ } __attribute__((__packed__)) BIOS_PARAMETER_BLOCK; /* 25 (0x19) bytes */ typedef struct _VOLUME_BOOT_RECORD { u8 Jump[3]; /* Irrelevant (jump to boot up code).*/ char Name[8]; /* Magic "NTFS ". */ BIOS_PARAMETER_BLOCK bpb; /* See BIOS_PARAMETER_BLOCK. (0x0b) */ u8 Drive_Type; /* 0x00 floppy, 0x80 hard disk */ u8 Current_Head; /* zero on ntfs */ u8 Extended_Boot_Signature; /* 0x80 on ntfs (Doesnt show this in M$ docs)*/ u8 Reserved0; /* zero on ntfs */ s64 Number_of_Sectors; /* Number of sectors in volume. (NTFS)(0x28)*/ s64 MFT; /* Cluster location of mft data. */ s64 MFT_Mirror; /* Cluster location of copy of mft. */ s8 Clusters_Per_MFT; /* Mft record size in clusters. */ u8 Reserved1[3]; /* zero */ s8 Clusters_Per_Index; /* Index block size in clusters. */ u8 Reserved2[3]; /* zero */ u64 Volume_Serial_Number; /* Irrelevant (serial number). */ u8 Checksum[4]; /* Boot sector checksum. */ u8 Bootstrap[426]; /* Irrelevant (boot up code). (0x54) */ u16 Signature; /* End of bootsector magic. LE 0xaa55 */ } __attribute__((__packed__)) VOLUME_BOOT_RECORD; /* 512 (0x200) bytes */ class PartitionHandle { public: //! Constructor reads the MBR and all EBRs and lists up the Partitions PartitionHandle(const DISC_INTERFACE *discio); //! Destructor unmounts drives ~PartitionHandle(); //! Is Drive inserted bool IsInserted() { if(!interface) return false; else return interface->isInserted(); }; //! Is the partition Mounted bool IsMounted(int pos); //! Mount a specific Partition bool Mount(int pos, const char * name); //! UnMount a specific Partition void UnMount(int pos); //! UnMount all Partition void UnMountAll() { for(u32 i = 0; i < PartitionList.size(); ++i) UnMount(i); }; //! Get the Mountname const char * MountName(int pos) { if(pos < 0 || pos >= (int) MountNameList.size() || !MountNameList[pos].size()) return NULL; else return MountNameList[pos].c_str(); }; //! Get the Name of the FileSystem e.g. "FAT32" const char * GetFSName(int pos) { if(valid(pos)) return PartitionList[pos].FSName; else return NULL; }; //! Get the LBA where the partition is located u32 GetLBAStart(int pos) { if(valid(pos)) return PartitionList[pos].LBA_Start; else return 0; }; //! Get the partition size in sectors of this partition u32 GetSecCount(int pos) { if(valid(pos)) return PartitionList[pos].SecCount; else return 0; }; //! Check if the partition is Active or NonBootable bool IsActive(int pos) { if(valid(pos)) return PartitionList[pos].Bootable; else return false; }; //! Get the partition type int GetPartitionType(int pos) { if(valid(pos)) return PartitionList[pos].PartitionType; else return -1; }; //! Get the entrie number in MBR of this partition int GetPartitionNum(int pos) { if(valid(pos)) return PartitionList[pos].PartitionNum; else return -1; }; //! Get the EBR sector where this partition is described int GetEBRSector(int pos) { if(valid(pos)) return PartitionList[pos].EBR_Sector; else return 0; }; //! Get the count of found partitions int GetPartitionCount() { return PartitionList.size(); }; //! Get the partition size in bytes u64 GetSize(int pos) { if(valid(pos)) return (u64) PartitionList[pos].SecCount*BYTES_PER_SECTOR; else return 0; }; //! Get the wbfs mount handle wbfs_t * GetWbfsHandle(int pos) { if(valid(pos)) return PartitionList[pos].wbfshandle; else return 0; }; //! Set the wbfs mount handle bool SetWbfsHandle(int pos, wbfs_t * wbfshandle) { if(valid(pos)) {PartitionList[pos].wbfshandle = wbfshandle; return true;} else return false; }; //! Get the whole partition record struct PartitionFS * GetPartitionRecord(int pos) { if(valid(pos)) return &PartitionList[pos]; else return NULL; }; //! Get the disc interface of this handle const DISC_INTERFACE * GetDiscInterface() { return interface; }; protected: bool valid(int pos) { return (pos >= 0 && pos < (int) PartitionList.size()); } bool CheckRAW(VOLUME_BOOT_RECORD * vbr); int FindPartitions(); void CheckEBR(u8 PartNum, sec_t ebr_lba); bool CheckGPT(void); const DISC_INTERFACE *interface; safe_vector PartitionList; safe_vector MountNameList; }; #endif