/* * Copyright (C) 2011-2012 Paulo Alcantara * * 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., * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "runlist.h" #ifndef _NTFS_H_ #define _NTFS_H_ struct ntfs_bpb { uint8_t jmp_boot[3]; char oem_name[8]; uint16_t sector_size; uint8_t sec_per_clust; uint16_t res_sectors; uint8_t zero_0[3]; uint16_t zero_1; uint8_t media; uint16_t zero_2; uint16_t unused_0; uint16_t unused_1; uint32_t unused_2; uint32_t zero_3; uint32_t unused_3; uint64_t total_sectors; uint64_t mft_lclust; uint64_t mft_mirr_lclust; int8_t clust_per_mft_record; uint8_t unused_4[3]; uint8_t clust_per_idx_record; uint8_t unused_5[3]; uint64_t vol_serial; uint32_t unused_6; uint8_t pad[428]; /* padding to a sector boundary (512 bytes) */ } __attribute__((__packed__)); /* Function type for an NTFS-version-dependent MFT record lookup */ struct ntfs_mft_record; typedef struct ntfs_mft_record *f_mft_record_lookup(struct fs_info *, uint32_t, block_t *); struct ntfs_sb_info { block_t mft_blk; /* The first MFT record block */ uint64_t mft_lcn; /* LCN of the first MFT record */ unsigned mft_size; /* The MFT size in sectors */ uint64_t mft_record_size; /* MFT record size in bytes */ uint8_t clust_per_idx_record; /* Clusters per Index Record */ unsigned long long clusters; /* Total number of clusters */ unsigned clust_shift; /* Based on sectors */ unsigned clust_byte_shift; /* Based on bytes */ unsigned clust_mask; unsigned clust_size; uint8_t major_ver; /* Major version from $Volume */ uint8_t minor_ver; /* Minor version from $Volume */ /* NTFS-version-dependent MFT record lookup function to use */ f_mft_record_lookup *mft_record_lookup; } __attribute__((__packed__)); /* The NTFS in-memory inode structure */ struct ntfs_inode { int64_t initialized_size; int64_t allocated_size; unsigned long mft_no; /* Number of the mft record / inode */ uint16_t seq_no; /* Sequence number of the mft record */ uint32_t type; /* Attribute type of this inode */ uint8_t non_resident; union { /* Non-resident $DATA attribute */ struct { /* Used only if non_resident flags isn't set */ uint32_t offset; /* Data offset */ } resident; struct { /* Used only if non_resident is set */ struct runlist *rlist; } non_resident; } data; uint32_t start_cluster; /* Starting cluster address */ sector_t start; /* Starting sector */ sector_t offset; /* Current sector offset */ sector_t here; /* Sector corresponding to offset */ }; /* This is structure is used to keep a state for ntfs_readdir() callers. * As NTFS stores directory entries in a complex way, this is structure * ends up saving a state required to find out where we must start from * for the next ntfs_readdir() call. */ struct ntfs_readdir_state { unsigned long mft_no; /* MFT record number */ bool in_idx_root; /* It's true if we're still in the INDEX root */ uint32_t idx_blks_count; /* Number of read INDX blocks */ uint32_t entries_count; /* Number of read INDEX entries */ int64_t last_vcn; /* Last VCN of the INDX block */ }; enum { MAP_UNSPEC, MAP_START = 1 << 0, MAP_END = 1 << 1, MAP_ALLOCATED = 1 << 2, MAP_UNALLOCATED = 1 << 3, MAP_MASK = 0x0000000F, }; struct mapping_chunk { uint64_t vcn; int64_t lcn; uint64_t len; uint32_t flags; }; /* System defined attributes (32-bit) * Each attribute type has a corresponding attribute name (in Unicode) */ enum { NTFS_AT_UNUSED = 0x00, NTFS_AT_STANDARD_INFORMATION = 0x10, NTFS_AT_ATTR_LIST = 0x20, NTFS_AT_FILENAME = 0x30, NTFS_AT_OBJ_ID = 0x40, NTFS_AT_SECURITY_DESCP = 0x50, NTFS_AT_VOL_NAME = 0x60, NTFS_AT_VOL_INFO = 0x70, NTFS_AT_DATA = 0x80, NTFS_AT_INDEX_ROOT = 0x90, NTFS_AT_INDEX_ALLOCATION = 0xA0, NTFS_AT_BITMAP = 0xB0, NTFS_AT_REPARSE_POINT = 0xC0, NTFS_AT_EA_INFO = 0xD0, NTFS_AT_EA = 0xE0, NTFS_AT_PROPERTY_SET = 0xF0, NTFS_AT_LOGGED_UTIL_STREAM = 0x100, NTFS_AT_FIRST_USER_DEFINED_ATTR = 0x1000, NTFS_AT_END = 0xFFFFFFFF, }; /* NTFS File Permissions (also called attributes in DOS terminology) */ enum { NTFS_FILE_ATTR_READONLY = 0x00000001, NTFS_FILE_ATTR_HIDDEN = 0x00000002, NTFS_FILE_ATTR_SYSTEM = 0x00000004, NTFS_FILE_ATTR_DIRECTORY = 0x00000010, NTFS_FILE_ATTR_ARCHIVE = 0x00000020, NTFS_FILE_ATTR_DEVICE = 0x00000040, NTFS_FILE_ATTR_NORMAL = 0x00000080, NTFS_FILE_ATTR_TEMPORARY = 0x00000100, NTFS_FILE_ATTR_SPARSE_FILE = 0x00000200, NTFS_FILE_ATTR_REPARSE_POINT = 0x00000400, NTFS_FILE_ATTR_COMPRESSED = 0x00000800, NTFS_FILE_ATTR_OFFLINE = 0x00001000, NTFS_FILE_ATTR_NOT_CONTENT_INDEXED = 0x00002000, NTFS_FILE_ATTR_ENCRYPTED = 0x00004000, NTFS_FILE_ATTR_VALID_FLAGS = 0x00007FB7, NTFS_FILE_ATTR_VALID_SET_FLAGS = 0x000031A7, NTFS_FILE_ATTR_DUP_FILE_NAME_INDEX_PRESENT = 0x10000000, NTFS_FILE_ATTR_DUP_VIEW_INDEX_PRESENT = 0x20000000, }; /* * Magic identifiers present at the beginning of all ntfs record containing * records (like mft records for example). */ enum { /* Found in $MFT/$DATA */ NTFS_MAGIC_FILE = 0x454C4946, /* MFT entry */ NTFS_MAGIC_INDX = 0x58444E49, /* Index buffer */ NTFS_MAGIC_HOLE = 0x454C4F48, /* Found in $LogFile/$DATA */ NTFS_MAGIC_RSTR = 0x52545352, NTFS_MAGIC_RCRD = 0x44524352, /* Found in $LogFile/$DATA (May be found in $MFT/$DATA, also ?) */ NTFS_MAGIC_CHKDSK = 0x444B4843, /* Found in all ntfs record containing records. */ NTFS_MAGIC_BAAD = 0x44414142, NTFS_MAGIC_EMPTY = 0xFFFFFFFF, /* Record is empty */ }; struct ntfs_record { uint32_t magic; uint16_t usa_ofs; uint16_t usa_count; } __attribute__((__packed__)) NTFS_RECORD; /* The $MFT metadata file types */ enum ntfs_system_file { FILE_MFT = 0, FILE_MFTMirr = 1, FILE_LogFile = 2, FILE_Volume = 3, FILE_AttrDef = 4, FILE_root = 5, FILE_Bitmap = 6, FILE_Boot = 7, FILE_BadClus = 8, FILE_Secure = 9, FILE_UpCase = 10, FILE_Extend = 11, FILE_reserved12 = 12, FILE_reserved13 = 13, FILE_reserved14 = 14, FILE_reserved15 = 15, FILE_reserved16 = 16, }; enum { MFT_RECORD_IN_USE = 0x0001, MFT_RECORD_IS_DIRECTORY = 0x0002, } __attribute__((__packed__)); struct ntfs_mft_record { uint32_t magic; uint16_t usa_ofs; uint16_t usa_count; uint64_t lsn; uint16_t seq_no; uint16_t link_count; uint16_t attrs_offset; uint16_t flags; /* MFT record flags */ uint32_t bytes_in_use; uint32_t bytes_allocated; uint64_t base_mft_record; uint16_t next_attr_instance; uint16_t reserved; uint32_t mft_record_no; } __attribute__((__packed__)); /* 48 bytes */ /* This is the version without the NTFS 3.1+ specific fields */ struct ntfs_mft_record_old { uint32_t magic; uint16_t usa_ofs; uint16_t usa_count; uint64_t lsn; uint16_t seq_no; uint16_t link_count; uint16_t attrs_offset; uint16_t flags; /* MFT record flags */ uint32_t bytes_in_use; uint32_t bytes_allocated; uint64_t base_mft_record; uint16_t next_attr_instance; } __attribute__((__packed__)); /* 42 bytes */ enum { ATTR_DEF_INDEXABLE = 0x02, ATTR_DEF_MULTIPLE = 0x04, ATTR_DEF_NOT_ZERO = 0x08, ATTR_DEF_INDEXED_UNIQUE = 0x10, ATTR_DEF_NAMED_UNIQUE = 0x20, ATTR_DEF_RESIDENT = 0x40, ATTR_DEF_ALWAYS_LOG = 0x80, }; struct ntfs_attr_record { uint32_t type; /* Attr. type code */ uint32_t len; uint8_t non_resident; uint8_t name_len; uint16_t name_offset; uint16_t flags; /* Attr. flags */ uint16_t instance; union { struct { /* Resident attribute */ uint32_t value_len; uint16_t value_offset; uint8_t flags; /* Flags of resident attributes */ int8_t reserved; } __attribute__((__packed__)) resident; struct { /* Non-resident attributes */ uint64_t lowest_vcn; uint64_t highest_vcn; uint16_t mapping_pairs_offset; uint8_t compression_unit; uint8_t reserved[5]; int64_t allocated_size; int64_t data_size; /* Byte size of the attribute value. * Note: it can be larger than * allocated_size if attribute value is * compressed or sparse. */ int64_t initialized_size; int64_t compressed_size; } __attribute__((__packed__)) non_resident; } __attribute__((__packed__)) data; } __attribute__((__packed__)); /* Attribute: Attribute List (0x20) * Note: it can be either resident or non-resident */ struct ntfs_attr_list_entry { uint32_t type; uint16_t length; uint8_t name_length; uint8_t name_offset; uint64_t lowest_vcn; uint64_t mft_ref; uint16_t instance; uint16_t name[0]; } __attribute__((__packed__)); #define NTFS_MAX_FILE_NAME_LEN 255 /* Possible namespaces for filenames in ntfs (8-bit) */ enum { FILE_NAME_POSIX = 0x00, FILE_NAME_WIN32 = 0x01, FILE_NAME_DOS = 0x02, FILE_NAME_WIN32_AND_DOS = 0x03, } __attribute__((__packed__)); /* Attribute: Filename (0x30) * Note: always resident */ struct ntfs_filename_attr { uint64_t parent_directory; int64_t ctime; int64_t atime; int64_t mtime; int64_t rtime; uint64_t allocated_size; uint64_t data_size; uint32_t file_attrs; union { struct { uint16_t packed_ea_size; uint16_t reserved; /* reserved for alignment */ } __attribute__((__packed__)) ea; struct { uint32_t reparse_point_tag; } __attribute__((__packed__)) rp; } __attribute__((__packed__)) type; uint8_t file_name_len; uint8_t file_name_type; uint16_t file_name[0]; /* File name in Unicode */ } __attribute__((__packed__)); /* Attribute: Volume Name (0x60) * Note: always resident * Note: Present only in FILE_volume */ struct ntfs_vol_name { uint16_t name[0]; /* The name of the volume in Unicode */ } __attribute__((__packed__)); /* Attribute: Volume Information (0x70) * Note: always resident * Note: present only in FILE_Volume */ struct ntfs_vol_info { uint64_t reserved; uint8_t major_ver; uint8_t minor_ver; uint16_t flags; /* Volume flags */ } __attribute__((__packed__)); /* Attribute: Data attribute (0x80) * Note: can be either resident or non-resident */ struct ntfs_data_attr { uint8_t data[0]; } __attribute__((__packed__)); /* Index header flags (8-bit) */ enum { SMALL_INDEX = 0, LARGE_INDEX = 1, LEAF_NODE = 0, INDEX_NODE = 1, NODE_MASK = 1, } __attribute__((__packed__)); /* Header for the indexes, describing the INDEX_ENTRY records, which * follow the struct ntfs_idx_header. */ struct ntfs_idx_header { uint32_t entries_offset; uint32_t index_len; uint32_t allocated_size; uint8_t flags; /* Index header flags */ uint8_t reserved[3]; /* Align to 8-byte boundary */ } __attribute__((__packed__)); /* Attribute: Index Root (0x90) * Note: always resident */ struct ntfs_idx_root { uint32_t type; /* It is $FILE_NAME for directories, zero for view indexes. * No other values allowed. */ uint32_t collation_rule; uint32_t index_block_size; uint8_t clust_per_index_block; uint8_t reserved[3]; struct ntfs_idx_header index; } __attribute__((__packed__)); /* Attribute: Index allocation (0xA0) * Note: always non-resident, of course! :-) */ struct ntfs_idx_allocation { uint32_t magic; uint16_t usa_ofs; /* Update Sequence Array offsets */ uint16_t usa_count; /* Update Sequence Array number in bytes */ int64_t lsn; int64_t index_block_vcn; /* Virtual cluster number of the index block */ struct ntfs_idx_header index; } __attribute__((__packed__)); enum { INDEX_ENTRY_NODE = 1, INDEX_ENTRY_END = 2, /* force enum bit width to 16-bit */ INDEX_ENTRY_SPACE_FILTER = 0xFFFF, } __attribute__((__packed__)); struct ntfs_idx_entry_header { union { struct { /* Only valid when INDEX_ENTRY_END is not set */ uint64_t indexed_file; } __attribute__((__packed__)) dir; struct { /* Used for views/indexes to find the entry's data */ uint16_t data_offset; uint16_t data_len; uint32_t reservedV; } __attribute__((__packed__)) vi; } __attribute__((__packed__)) data; uint16_t len; uint16_t key_len; uint16_t flags; /* Index entry flags */ uint16_t reserved; /* Align to 8-byte boundary */ } __attribute__((__packed__)); struct ntfs_idx_entry { union { struct { /* Only valid when INDEX_ENTRY_END is not set */ uint64_t indexed_file; } __attribute__((__packed__)) dir; struct { /* Used for views/indexes to find the entry's data */ uint16_t data_offset; uint16_t data_len; uint32_t reservedV; } __attribute__((__packed__)) vi; } __attribute__((__packed__)) data; uint16_t len; uint16_t key_len; uint16_t flags; /* Index entry flags */ uint16_t reserved; /* Align to 8-byte boundary */ union { struct ntfs_filename_attr file_name; //SII_INDEX_KEY sii; //SDH_INDEX_KEY sdh; //GUID object_id; //REPARSE_INDEX_KEY reparse; //SID sid; uint32_t owner_id; } __attribute__((__packed__)) key; } __attribute__((__packed__)); static inline struct ntfs_sb_info *NTFS_SB(struct fs_info *fs) { return fs->fs_info; } #define NTFS_PVT(i) ((struct ntfs_inode *)((i)->pvt)) #endif /* _NTFS_H_ */