/** * reparse.c - Processing of reparse points * * This module is part of ntfs-3g library, but may also be * integrated in tools running over Linux or Windows * * Copyright (c) 2008-2009 Jean-Pierre Andre * * This program/include file 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/include file 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 (in the main directory of the NTFS-3G * distribution in the file COPYING); if not, write to the Free Software * Foundation,Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_STDLIB_H #include #endif #ifdef HAVE_ERRNO_H #include #endif #ifdef HAVE_STRING_H #include #endif #ifdef HAVE_SYS_STAT_H #include #endif #ifdef HAVE_SETXATTR #include #endif #ifdef HAVE_SYS_SYSMACROS_H #include #endif #include "types.h" #include "debug.h" #include "attrib.h" #include "inode.h" #include "dir.h" #include "volume.h" #include "mft.h" #include "index.h" #include "lcnalloc.h" #include "logging.h" #include "misc.h" #include "reparse.h" /* the definitions in layout.h are wrong, we use names defined in http://msdn.microsoft.com/en-us/library/aa365740(VS.85).aspx */ #define IO_REPARSE_TAG_DFS const_cpu_to_le32(0x8000000A) #define IO_REPARSE_TAG_DFSR const_cpu_to_le32(0x80000012) #define IO_REPARSE_TAG_HSM const_cpu_to_le32(0xC0000004) #define IO_REPARSE_TAG_HSM2 const_cpu_to_le32(0x80000006) #define IO_REPARSE_TAG_MOUNT_POINT const_cpu_to_le32(0xA0000003) #define IO_REPARSE_TAG_SIS const_cpu_to_le32(0x80000007) #define IO_REPARSE_TAG_SYMLINK const_cpu_to_le32(0xA000000C) struct MOUNT_POINT_REPARSE_DATA { /* reparse data for junctions */ le16 subst_name_offset; le16 subst_name_length; le16 print_name_offset; le16 print_name_length; char path_buffer[0]; /* above data assume this is char array */ } ; struct SYMLINK_REPARSE_DATA { /* reparse data for symlinks */ le16 subst_name_offset; le16 subst_name_length; le16 print_name_offset; le16 print_name_length; le32 flags; /* 1 for full target, otherwise 0 */ char path_buffer[0]; /* above data assume this is char array */ } ; struct INODE_STACK { struct INODE_STACK *previous; struct INODE_STACK *next; ntfs_inode *ni; } ; struct REPARSE_INDEX { /* index entry in $Extend/$Reparse */ INDEX_ENTRY_HEADER header; REPARSE_INDEX_KEY key; le32 filling; } ; static const ntfschar dir_junction_head[] = { const_cpu_to_le16('\\'), const_cpu_to_le16('?'), const_cpu_to_le16('?'), const_cpu_to_le16('\\') } ; static const ntfschar vol_junction_head[] = { const_cpu_to_le16('\\'), const_cpu_to_le16('?'), const_cpu_to_le16('?'), const_cpu_to_le16('\\'), const_cpu_to_le16('V'), const_cpu_to_le16('o'), const_cpu_to_le16('l'), const_cpu_to_le16('u'), const_cpu_to_le16('m'), const_cpu_to_le16('e'), const_cpu_to_le16('{'), } ; static ntfschar reparse_index_name[] = { const_cpu_to_le16('$'), const_cpu_to_le16('R') }; static const char mappingdir[] = ".NTFS-3G/"; /* * Fix a file name with doubtful case in some directory index * and return the name with the casing used in directory. * * Should only be used to translate paths stored with case insensitivity * (such as directory junctions) when no case conflict is expected. * If there some ambiguity, the name which collates first is returned. * * The name is converted to upper case and searched the usual way. * The collation rules for file names are such that we should get the * first candidate if any. */ static u64 ntfs_fix_file_name(ntfs_inode *dir_ni, ntfschar *uname, int uname_len) { ntfs_volume *vol = dir_ni->vol; ntfs_index_context *icx; u64 mref; le64 lemref; int lkup; int olderrno; int i; u32 cpuchar; INDEX_ENTRY *entry; FILE_NAME_ATTR *found; struct { FILE_NAME_ATTR attr; ntfschar file_name[NTFS_MAX_NAME_LEN + 1]; } find; mref = (u64)-1; /* default return (not found) */ icx = ntfs_index_ctx_get(dir_ni, NTFS_INDEX_I30, 4); if (icx) { if (uname_len > NTFS_MAX_NAME_LEN) uname_len = NTFS_MAX_NAME_LEN; find.attr.file_name_length = uname_len; for (i=0; iupcase_len) && (le16_to_cpu(vol->upcase[cpuchar]) < cpuchar)) find.attr.file_name[i] = vol->upcase[cpuchar]; else find.attr.file_name[i] = uname[i]; } olderrno = errno; lkup = ntfs_index_lookup((char*)&find, uname_len, icx); if (errno == ENOENT) errno = olderrno; /* * We generally only get the first matching candidate, * so we still have to check whether this is a real match */ if (icx->entry && (icx->entry->ie_flags & INDEX_ENTRY_END)) /* get next entry if reaching end of block */ entry = ntfs_index_next(icx->entry, icx); else entry = icx->entry; if (entry) { found = &entry->key.file_name; if (lkup && !ntfs_names_collate(find.attr.file_name, find.attr.file_name_length, found->file_name, found->file_name_length, 1, IGNORE_CASE, vol->upcase, vol->upcase_len)) lkup = 0; if (!lkup) { /* * name found : * fix original name and return inode */ lemref = *(le64*)((char*)found->file_name - sizeof(INDEX_ENTRY_HEADER) - sizeof(FILE_NAME_ATTR)); mref = le64_to_cpu(lemref); for (i=0; ifile_name_length; i++) uname[i] = found->file_name[i]; } } ntfs_index_ctx_put(icx); } return (mref); } /* * Search for a directory junction or a symbolic link * along the target path, with target defined as a full absolute path * * Returns the path translated to a Linux path * or NULL if the path is not valid */ static char *search_absolute(ntfs_volume *vol, ntfschar *path, int count, BOOL isdir) { ntfs_inode *ni; u64 inum; char *target; int start; int len; target = (char*)NULL; /* default return */ ni = ntfs_inode_open(vol, (MFT_REF)FILE_root); if (ni) { start = 0; do { len = 0; while (((start + len) < count) && (path[start + len] != const_cpu_to_le16('\\'))) len++; inum = ntfs_fix_file_name(ni, &path[start], len); ntfs_inode_close(ni); ni = (ntfs_inode*)NULL; if (inum != (u64)-1) { inum = MREF(inum); ni = ntfs_inode_open(vol, inum); start += len; if (start < count) path[start++] = const_cpu_to_le16('/'); } } while (ni && (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) && (start < count)); if (ni && (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY ? isdir : !isdir)) if (ntfs_ucstombs(path, count, &target, 0) < 0) { if (target) { free(target); target = (char*)NULL; } } if (ni) ntfs_inode_close(ni); } return (target); } /* * Stack the next inode in the path * * Returns the new top of stack * or NULL (with stack unchanged) if there is a problem */ static struct INODE_STACK *stack_inode(struct INODE_STACK *topni, ntfschar *name, int len, BOOL fix) { struct INODE_STACK *curni; u64 inum; if (fix) inum = ntfs_fix_file_name(topni->ni, name, len); else inum = ntfs_inode_lookup_by_name(topni->ni, name, len); if (inum != (u64)-1) { inum = MREF(inum); curni = (struct INODE_STACK*)malloc(sizeof(struct INODE_STACK)); if (curni) { curni->ni = ntfs_inode_open(topni->ni->vol, inum); topni->next = curni; curni->previous = topni; curni->next = (struct INODE_STACK*)NULL; } } else curni = (struct INODE_STACK*)NULL; return (curni); } /* * Destack and close the current inode in the path * * Returns the new top of stack * or NULL (with stack unchanged) if there is a problem */ static struct INODE_STACK *pop_inode(struct INODE_STACK *topni) { struct INODE_STACK *curni; curni = (struct INODE_STACK*)NULL; if (topni->previous) { if (!ntfs_inode_close(topni->ni)) { curni = topni->previous; free(topni); curni->next = (struct INODE_STACK*)NULL; } } else { /* ".." reached the root of fs */ errno = ENOENT; } return (curni); } /* * Search for a symbolic link along the target path, * with the target defined as a relative path * * Returns the path translated to a Linux path * or NULL if the path is not valid */ static char *search_relative(ntfs_volume *vol, ntfschar *path, int count, const char *base, BOOL isdir) { struct INODE_STACK *topni; struct INODE_STACK *curni; char *target; ntfschar *unicode; int unisz; int start; int len; target = (char*)NULL; /* default return */ topni = (struct INODE_STACK*)malloc(sizeof(struct INODE_STACK)); if (topni) { topni->ni = ntfs_inode_open(vol, FILE_root); topni->previous = (struct INODE_STACK*)NULL; topni->next = (struct INODE_STACK*)NULL; } if (topni && topni->ni) { /* * Process the base path */ unicode = (ntfschar*)NULL; unisz = ntfs_mbstoucs(base, &unicode); if ((unisz > 0) && unicode) { start = 1; do { len = 0; while (((start + len) < unisz) && (unicode[start + len] != const_cpu_to_le16('/'))) len++; curni = (struct INODE_STACK*)NULL; if ((start + len) < unisz) { curni = stack_inode(topni, &unicode[start], len, FALSE); if (curni) topni = curni; } else curni = topni; start += len + 1; } while (curni && topni->ni && (topni->ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) && (start < unisz)); free(unicode); if (curni && topni->ni && (topni->ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)) { start = 0; do { len = 0; while (((start + len) < count) && (path[start + len] != const_cpu_to_le16('\\'))) len++; curni = (struct INODE_STACK*)NULL; if ((path[start] == const_cpu_to_le16('.')) && ((len == 1) || ((len == 2) && (path[start+1] == const_cpu_to_le16('.'))))) { /* leave the .. or . in the path */ curni = topni; if (len == 2) { curni = pop_inode(topni); if (curni) topni = curni; } } else { curni = stack_inode(topni, &path[start], len, TRUE); if (curni) topni = curni; } if (topni->ni) { start += len; if (start < count) path[start++] = const_cpu_to_le16('/'); } } while (curni && topni->ni && (topni->ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) && (start < count)); if (curni && topni->ni && (topni->ni->mrec->flags & MFT_RECORD_IS_DIRECTORY ? isdir : !isdir)) { if (ntfs_ucstombs(path, count, &target, 0) < 0) { if (target) { free(target); target = (char*)NULL; } } } } } do { if (topni->ni) ntfs_inode_close(topni->ni); curni = topni; topni = topni->previous; free(curni); } while (topni); } return (target); } /* * Check whether a drive letter has been defined in .NTFS-3G * * Returns 1 if found, * 0 if not found, * -1 if there was an error (described by errno) */ static int ntfs_drive_letter(ntfs_volume *vol, ntfschar letter) { char defines[NTFS_MAX_NAME_LEN + 5]; char *drive; int ret; int sz; int olderrno; ntfs_inode *ni; ret = -1; drive = (char*)NULL; sz = ntfs_ucstombs(&letter, 1, &drive, 0); if (sz > 0) { strcpy(defines,mappingdir); if ((*drive >= 'a') && (*drive <= 'z')) *drive += 'A' - 'a'; strcat(defines,drive); strcat(defines,":"); olderrno = errno; ni = ntfs_pathname_to_inode(vol, NULL, defines); if (ni && !ntfs_inode_close(ni)) ret = 1; else if (errno == ENOENT) { ret = 0; /* avoid errno pollution */ errno = olderrno; } } if (drive) free(drive); return (ret); } /* * Check and translate the target of a junction point or * a full absolute symbolic link. * * A full target definition begins with "\??\" or "\\?\" * * The fully defined target is redefined as a relative link, * - either to the target if found on the same device. * - or into the /.NTFS-3G directory for the user to define * In the first situation, the target is translated to case-sensitive path. * * returns the target converted to a relative symlink * or NULL if there were some problem, as described by errno */ static char *ntfs_get_fulllink(ntfs_volume *vol, ntfschar *junction, int count, const char *path, BOOL isdir) { char *target; char *fulltarget; int i; int sz; int level; const char *p; char *q; enum { DIR_JUNCTION, VOL_JUNCTION, NO_JUNCTION } kind; target = (char*)NULL; fulltarget = (char*)NULL; /* * For a valid directory junction we want \??\x:\ * where \ is an individual char and x a non-null char */ if ((count >= 7) && !memcmp(junction,dir_junction_head,8) && junction[4] && (junction[5] == const_cpu_to_le16(':')) && (junction[6] == const_cpu_to_le16('\\'))) kind = DIR_JUNCTION; else /* * For a valid volume junction we want \\?\Volume{ * and a final \ (where \ is an individual char) */ if ((count >= 12) && !memcmp(junction,vol_junction_head,22) && (junction[count-1] == const_cpu_to_le16('\\'))) kind = VOL_JUNCTION; else kind = NO_JUNCTION; /* * Directory junction with an explicit path and * no specific definition for the drive letter : * try to interpret as a target on the same volume */ if ((kind == DIR_JUNCTION) && (count >= 7) && junction[7] && !ntfs_drive_letter(vol, junction[4])) { target = search_absolute(vol,&junction[7],count - 7, isdir); if (target) { level = 0; for (p=path; *p; p++) if (*p == '/') level++; fulltarget = (char*)ntfs_malloc(3*level + strlen(target) + 1); if (fulltarget) { fulltarget[0] = 0; if (level > 1) { for (i=1; i 0) && target) { /* reverse slashes */ for (q=target; *q; q++) if (*q == '\\') *q = '/'; /* force uppercase drive letter */ if ((target[1] == ':') && (target[0] >= 'a') && (target[0] <= 'z')) target[0] += 'A' - 'a'; level = 0; for (p=path; *p; p++) if (*p == '/') level++; fulltarget = (char*)ntfs_malloc(3*level + sizeof(mappingdir) + strlen(target) - 3); if (fulltarget) { fulltarget[0] = 0; if (level > 1) { for (i=1; i= 3) && junction[0] && (junction[1] == const_cpu_to_le16(':')) && (junction[2] == const_cpu_to_le16('\\'))) kind = FULL_PATH; else /* * For an absolute path we want an initial \ */ if ((count >= 0) && (junction[0] == const_cpu_to_le16('\\'))) kind = ABS_PATH; else kind = REJECTED_PATH; /* * Full path, with a drive letter and * no specific definition for the drive letter : * try to interpret as a target on the same volume. * Do the same for an abs path with no drive letter. */ if (((kind == FULL_PATH) && (count >= 3) && junction[3] && !ntfs_drive_letter(vol, junction[0])) || (kind == ABS_PATH)) { if (kind == ABS_PATH) target = search_absolute(vol, &junction[1], count - 1, isdir); else target = search_absolute(vol, &junction[3], count - 3, isdir); if (target) { level = 0; for (p=path; *p; p++) if (*p == '/') level++; fulltarget = (char*)ntfs_malloc(3*level + strlen(target) + 1); if (fulltarget) { fulltarget[0] = 0; if (level > 1) { for (i=1; i 0) && target) { /* reverse slashes */ for (q=target; *q; q++) if (*q == '\\') *q = '/'; /* force uppercase drive letter */ if ((target[1] == ':') && (target[0] >= 'a') && (target[0] <= 'z')) target[0] += 'A' - 'a'; level = 0; for (p=path; *p; p++) if (*p == '/') level++; fulltarget = (char*)ntfs_malloc(3*level + sizeof(mappingdir) + strlen(target) - 3); if (fulltarget) { fulltarget[0] = 0; if (level > 1) { for (i=1; imrec->flags & MFT_RECORD_IS_DIRECTORY) != const_cpu_to_le16(0); vol = ni->vol; reparse_attr = (REPARSE_POINT*)ntfs_attr_readall(ni, AT_REPARSE_POINT,(ntfschar*)NULL, 0, &attr_size); if (reparse_attr && attr_size) { switch (reparse_attr->reparse_tag) { case IO_REPARSE_TAG_MOUNT_POINT : mount_point_data = (struct MOUNT_POINT_REPARSE_DATA*) reparse_attr->reparse_data; offs = le16_to_cpu(mount_point_data->subst_name_offset); lth = le16_to_cpu(mount_point_data->subst_name_length); /* consistency checks */ if (isdir && ((le16_to_cpu(reparse_attr->reparse_data_length) + 8) == attr_size) && ((int)((sizeof(REPARSE_POINT) + sizeof(struct MOUNT_POINT_REPARSE_DATA) + offs + lth)) <= attr_size)) { target = ntfs_get_fulllink(vol, (ntfschar*)&mount_point_data->path_buffer[offs], lth/2, org_path, isdir); if (target) bad = FALSE; } break; case IO_REPARSE_TAG_SYMLINK : symlink_data = (struct SYMLINK_REPARSE_DATA*) reparse_attr->reparse_data; offs = le16_to_cpu(symlink_data->subst_name_offset); lth = le16_to_cpu(symlink_data->subst_name_length); p = (ntfschar*)&symlink_data->path_buffer[offs]; /* * Predetermine the kind of target, * the called function has to make a full check */ if (*p++ == const_cpu_to_le16('\\')) { if ((*p == const_cpu_to_le16('?')) || (*p == const_cpu_to_le16('\\'))) kind = FULL_TARGET; else kind = ABS_TARGET; } else if (*p == const_cpu_to_le16(':')) kind = ABS_TARGET; else kind = REL_TARGET; p--; /* consistency checks */ if (((le16_to_cpu(reparse_attr->reparse_data_length) + 8) == attr_size) && ((int)((sizeof(REPARSE_POINT) + sizeof(struct SYMLINK_REPARSE_DATA) + offs + lth)) <= attr_size)) { switch (kind) { case FULL_TARGET : if (!(symlink_data->flags & const_cpu_to_le32(1))) { target = ntfs_get_fulllink(vol, p, lth/2, org_path, isdir); if (target) bad = FALSE; } break; case ABS_TARGET : if (symlink_data->flags & const_cpu_to_le32(1)) { target = ntfs_get_abslink(vol, p, lth/2, org_path, isdir); if (target) bad = FALSE; } break; case REL_TARGET : if (symlink_data->flags & const_cpu_to_le32(1)) { target = ntfs_get_rellink(vol, p, lth/2, org_path, isdir); if (target) bad = FALSE; } break; } } break; } free(reparse_attr); } *pattr_size = attr_size; if (bad) errno = EOPNOTSUPP; return (target); } /* * Check whether a reparse point looks like a junction point * or a symbolic link. * Should only be called for files or directories with reparse data * * The validity of the target is not checked. */ BOOL ntfs_possible_symlink(ntfs_inode *ni) { s64 attr_size = 0; REPARSE_POINT *reparse_attr; BOOL possible; possible = FALSE; reparse_attr = (REPARSE_POINT*)ntfs_attr_readall(ni, AT_REPARSE_POINT,(ntfschar*)NULL, 0, &attr_size); if (reparse_attr && attr_size) { switch (reparse_attr->reparse_tag) { case IO_REPARSE_TAG_MOUNT_POINT : case IO_REPARSE_TAG_SYMLINK : possible = TRUE; default : ; } free(reparse_attr); } return (possible); } #ifdef HAVE_SETXATTR /* extended attributes interface required */ /* * Set the index for new reparse data * * Returns 0 if success * -1 if failure, explained by errno */ static int set_reparse_index(ntfs_inode *ni, ntfs_index_context *xr, le32 reparse_tag) { struct REPARSE_INDEX indx; u64 file_id_cpu; le64 file_id; le16 seqn; seqn = ni->mrec->sequence_number; file_id_cpu = MK_MREF(ni->mft_no,le16_to_cpu(seqn)); file_id = cpu_to_le64(file_id_cpu); indx.header.data_offset = const_cpu_to_le16( sizeof(INDEX_ENTRY_HEADER) + sizeof(REPARSE_INDEX_KEY)); indx.header.data_length = const_cpu_to_le16(0); indx.header.reservedV = const_cpu_to_le32(0); indx.header.length = const_cpu_to_le16( sizeof(struct REPARSE_INDEX)); indx.header.key_length = const_cpu_to_le16( sizeof(REPARSE_INDEX_KEY)); indx.header.flags = const_cpu_to_le16(0); indx.header.reserved = const_cpu_to_le16(0); indx.key.reparse_tag = reparse_tag; /* danger on processors which require proper alignment ! */ memcpy(&indx.key.file_id, &file_id, 8); indx.filling = const_cpu_to_le32(0); ntfs_index_ctx_reinit(xr); return (ntfs_ie_add(xr,(INDEX_ENTRY*)&indx)); } #endif /* HAVE_SETXATTR */ /* * Remove a reparse data index entry if attribute present * * Returns the size of existing reparse data * (the existing reparse tag is returned) * -1 if failure, explained by errno */ static int remove_reparse_index(ntfs_attr *na, ntfs_index_context *xr, le32 *preparse_tag) { REPARSE_INDEX_KEY key; u64 file_id_cpu; le64 file_id; s64 size; le16 seqn; int ret; ret = na->data_size; if (ret) { /* read the existing reparse_tag */ size = ntfs_attr_pread(na, 0, 4, preparse_tag); if (size == 4) { seqn = na->ni->mrec->sequence_number; file_id_cpu = MK_MREF(na->ni->mft_no,le16_to_cpu(seqn)); file_id = cpu_to_le64(file_id_cpu); key.reparse_tag = *preparse_tag; /* danger on processors which require proper alignment ! */ memcpy(&key.file_id, &file_id, 8); if (!ntfs_index_lookup(&key, sizeof(REPARSE_INDEX_KEY), xr)) ret = ntfs_index_rm(xr); } else { ret = -1; errno = ENODATA; } } return (ret); } /* * Open the $Extend/$Reparse file and its index * * Return the index context if opened * or NULL if an error occurred (errno tells why) * * The index has to be freed and inode closed when not needed any more. */ static ntfs_index_context *open_reparse_index(ntfs_volume *vol) { ntfs_inode *ni; ntfs_index_context *xr; ni = ntfs_pathname_to_inode(vol, NULL, "$Extend/$Reparse"); if (ni) { xr = ntfs_index_ctx_get(ni, reparse_index_name, 2); if (!xr) { ntfs_inode_close(ni); } } else xr = (ntfs_index_context*)NULL; return (xr); } #ifdef HAVE_SETXATTR /* extended attributes interface required */ /* * Update the reparse data and index * * The reparse data attribute should have been created, and * an existing index is expected if there is an existing value. * * Returns 0 if success * -1 if failure, explained by errno * If could not remove the existing index, nothing is done, * If could not write the new data, no index entry is inserted * If failed to insert the index, data is removed */ static int update_reparse_data(ntfs_inode *ni, ntfs_index_context *xr, const char *value, size_t size) { int res; int written; int oldsize; ntfs_attr *na; le32 reparse_tag; res = 0; na = ntfs_attr_open(ni, AT_REPARSE_POINT, AT_UNNAMED, 0); if (na) { /* remove the existing reparse data */ oldsize = remove_reparse_index(na,xr,&reparse_tag); if (oldsize < 0) res = -1; else { /* resize attribute */ res = ntfs_attr_truncate(na, (s64)size); /* overwrite value if any */ if (!res && value) { written = (int)ntfs_attr_pwrite(na, (s64)0, (s64)size, value); if (written != (s64)size) { ntfs_log_error("Failed to update " "reparse data\n"); errno = EIO; res = -1; } } if (!res && set_reparse_index(ni,xr, ((const REPARSE_POINT*)value)->reparse_tag) && (oldsize > 0)) { /* * If cannot index, try to remove the reparse * data and log the error. There will be an * inconsistency if removal fails. */ ntfs_attr_rm(na); ntfs_log_error("Failed to index reparse data." " Possible corruption.\n"); } } ntfs_attr_close(na); NInoSetDirty(ni); } else res = -1; return (res); } #endif /* HAVE_SETXATTR */ /* * Delete a reparse index entry * * Returns 0 if success * -1 if failure, explained by errno */ int ntfs_delete_reparse_index(ntfs_inode *ni) { ntfs_index_context *xr; ntfs_inode *xrni; ntfs_attr *na; le32 reparse_tag; int res; res = 0; na = ntfs_attr_open(ni, AT_REPARSE_POINT, AT_UNNAMED, 0); if (na) { /* * read the existing reparse data (the tag is enough) * and un-index it */ xr = open_reparse_index(ni->vol); if (xr) { if (remove_reparse_index(na,xr,&reparse_tag) < 0) res = -1; xrni = xr->ni; ntfs_index_entry_mark_dirty(xr); NInoSetDirty(xrni); ntfs_index_ctx_put(xr); ntfs_inode_close(xrni); } ntfs_attr_close(na); } return (res); } #ifdef HAVE_SETXATTR /* extended attributes interface required */ /* * Get the ntfs reparse data into an extended attribute * * Returns the reparse data size * and the buffer is updated if it is long enough */ int ntfs_get_ntfs_reparse_data(const char *path __attribute__((unused)), char *value, size_t size, ntfs_inode *ni) { REPARSE_POINT *reparse_attr; s64 attr_size; attr_size = 0; /* default to no data and no error */ if (ni) { if (ni->flags & FILE_ATTR_REPARSE_POINT) { reparse_attr = (REPARSE_POINT*)ntfs_attr_readall(ni, AT_REPARSE_POINT,(ntfschar*)NULL, 0, &attr_size); if (reparse_attr) { if (attr_size <= (s64)size) { if (value) memcpy(value,reparse_attr, attr_size); else errno = EINVAL; } free(reparse_attr); } } else errno = ENODATA; } return (attr_size ? (int)attr_size : -errno); } /* * Set the reparse data from an extended attribute * * Warning : the new data is not checked * * Returns 0, or -1 if there is a problem */ int ntfs_set_ntfs_reparse_data(const char *path __attribute__((unused)), const char *value, size_t size, int flags, ntfs_inode *ni) { int res; u8 dummy; ntfs_inode *xrni; ntfs_index_context *xr; res = 0; if (ni && value && (size >= 4)) { xr = open_reparse_index(ni->vol); if (xr) { if (!ntfs_attr_exist(ni,AT_REPARSE_POINT, AT_UNNAMED,0)) { if (!(flags & XATTR_REPLACE)) { /* * no reparse data attribute : add one, * apparently, this does not feed the new value in * Note : NTFS version must be >= 3 */ if (ni->vol->major_ver >= 3) { res = ntfs_attr_add(ni, AT_REPARSE_POINT, AT_UNNAMED,0,&dummy, (s64)0); if (!res) ni->flags |= FILE_ATTR_REPARSE_POINT; NInoSetDirty(ni); } else { errno = EOPNOTSUPP; res = -1; } } else { errno = ENODATA; res = -1; } } else { if (flags & XATTR_CREATE) { errno = EEXIST; res = -1; } } if (!res) { /* update value and index */ res = update_reparse_data(ni,xr,value,size); } xrni = xr->ni; ntfs_index_entry_mark_dirty(xr); NInoSetDirty(xrni); ntfs_index_ctx_put(xr); ntfs_inode_close(xrni); } else { res = -1; } } else { errno = EINVAL; res = -1; } return (res ? -1 : 0); } /* * Remove the reparse data * * Returns 0, or -1 if there is a problem */ int ntfs_remove_ntfs_reparse_data(const char *path __attribute__((unused)), ntfs_inode *ni) { int res; int olderrno; ntfs_attr *na; ntfs_inode *xrni; ntfs_index_context *xr; le32 reparse_tag; res = 0; if (ni) { /* * open and delete the reparse data */ na = ntfs_attr_open(ni, AT_REPARSE_POINT, AT_UNNAMED,0); if (na) { /* first remove index (reparse data needed) */ xr = open_reparse_index(ni->vol); if (xr) { if (remove_reparse_index(na,xr, &reparse_tag) < 0) { res = -1; } else { /* now remove attribute */ res = ntfs_attr_rm(na); if (!res) { ni->flags &= ~FILE_ATTR_REPARSE_POINT; } else { /* * If we could not remove the * attribute, try to restore the * index and log the error. There * will be an inconsistency if * the reindexing fails. */ set_reparse_index(ni, xr, reparse_tag); ntfs_log_error( "Failed to remove reparse data." " Possible corruption.\n"); } } xrni = xr->ni; ntfs_index_entry_mark_dirty(xr); NInoSetDirty(xrni); ntfs_index_ctx_put(xr); ntfs_inode_close(xrni); } olderrno = errno; ntfs_attr_close(na); /* avoid errno pollution */ if (errno == ENOENT) errno = olderrno; } else { errno = ENODATA; res = -1; } NInoSetDirty(ni); } else { errno = EINVAL; res = -1; } return (res ? -1 : 0); } #endif /* HAVE_SETXATTR */