/* -*- mode: C; c-file-style: "gnu" -*- */ /* xdgmimealias.c: Private file. mmappable caches for mime data * * More info can be found at http://www.freedesktop.org/standards/ * * Copyright (C) 2005 Matthias Clasen * * SPDX-License-Identifier: LGPL-2.1-or-later or AFL-2.0 */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include /* for ntohl/ntohs */ #ifdef HAVE_MMAP #include #else #warning Building xdgmime without MMAP support. Binary "mime.cache" files will not be used. #endif #include #include #include "xdgmimecache.h" #include "xdgmimeint.h" #ifndef MAX #define MAX(a,b) ((a) > (b) ? (a) : (b)) #endif #ifndef FALSE #define FALSE (0) #endif #ifndef TRUE #define TRUE (!FALSE) #endif #ifndef _O_BINARY #define _O_BINARY 0 #endif #ifndef MAP_FAILED #define MAP_FAILED ((void *) -1) #endif #ifndef S_ISREG #define S_ISREG(m) (((m) & _S_IFMT) == _S_IFREG) #endif #define MAJOR_VERSION 1 #define MINOR_VERSION_MIN 1 #define MINOR_VERSION_MAX 2 struct _XdgMimeCache { int ref_count; int minor; size_t size; char *buffer; }; #define GET_UINT16(cache,offset) (ntohs(*(xdg_uint16_t*)((cache) + (offset)))) #define GET_UINT32(cache,offset) (ntohl(*(xdg_uint32_t*)((cache) + (offset)))) // Validates that it is safe to call GET_UINT32() at // cache->buffer[offset + (n * record_size)]. Ensures that offset is aligned to // a 4-byte boundary, and that offset+(n*record_size) does not overflow. // `record_size` values are known constants and never 0. #define OUT_OF_BOUNDS(offset,n,record_size,max) \ (((offset) & 0x3) || (offset) > (max) || (n) > ((max) - (offset)) / (record_size)) XdgMimeCache * _xdg_mime_cache_ref (XdgMimeCache *cache) { cache->ref_count++; return cache; } void _xdg_mime_cache_unref (XdgMimeCache *cache) { cache->ref_count--; if (cache->ref_count == 0) { #ifdef HAVE_MMAP munmap (cache->buffer, cache->size); #endif free (cache); } } XdgMimeCache * _xdg_mime_cache_new_from_file (const char *file_name) { XdgMimeCache *cache = NULL; #ifdef HAVE_MMAP int fd = -1; struct stat st; char *buffer = NULL; int minor; /* Open the file and map it into memory */ do { fd = open (file_name, O_RDONLY|_O_BINARY, 0); } while (fd == -1 && errno == EINTR); if (fd < 0) return NULL; // A valid cache must be at least 40 bytes for the header. if (fstat (fd, &st) < 0 || st.st_size < 40) goto done; buffer = (char *) mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0); if (buffer == MAP_FAILED) goto done; minor = GET_UINT16 (buffer, 2); /* Verify version */ if (GET_UINT16 (buffer, 0) != MAJOR_VERSION || (minor < MINOR_VERSION_MIN || minor > MINOR_VERSION_MAX)) { munmap (buffer, st.st_size); goto done; } cache = (XdgMimeCache *) malloc (sizeof (XdgMimeCache)); cache->minor = minor; cache->ref_count = 1; cache->buffer = buffer; cache->size = st.st_size; done: if (fd != -1) close (fd); #else /* HAVE_MMAP */ cache = (XdgMimeCache *) malloc (sizeof (XdgMimeCache)); cache->minor = 0; cache->ref_count = 1; cache->buffer = NULL; cache->size = 0; #endif /* HAVE_MMAP */ return cache; } static int cache_magic_matchlet_compare_to_data (XdgMimeCache *cache, xdg_uint32_t offset, const void *data, size_t len) { xdg_uint32_t range_start = GET_UINT32 (cache->buffer, offset); xdg_uint32_t range_length = GET_UINT32 (cache->buffer, offset + 4); xdg_uint32_t data_length = GET_UINT32 (cache->buffer, offset + 12); xdg_uint32_t data_offset = GET_UINT32 (cache->buffer, offset + 16); xdg_uint32_t mask_offset = GET_UINT32 (cache->buffer, offset + 20); xdg_uint32_t i, j; for (i = range_start; i < range_start + range_length; i++) { int valid_matchlet = TRUE; if (i + data_length > len) return FALSE; if (mask_offset) { for (j = 0; j < data_length; j++) { if ((((unsigned char *)cache->buffer)[data_offset + j] & ((unsigned char *)cache->buffer)[mask_offset + j]) != ((((unsigned char *) data)[j + i]) & ((unsigned char *)cache->buffer)[mask_offset + j])) { valid_matchlet = FALSE; break; } } } else { valid_matchlet = memcmp(cache->buffer + data_offset, (unsigned char *)data + i, data_length) == 0; } if (valid_matchlet) return TRUE; } return FALSE; } static int cache_magic_matchlet_compare (XdgMimeCache *cache, xdg_uint32_t offset, const void *data, size_t len) { xdg_uint32_t n_children = GET_UINT32 (cache->buffer, offset + 24); xdg_uint32_t child_offset = GET_UINT32 (cache->buffer, offset + 28); if (OUT_OF_BOUNDS (child_offset, n_children, 32, cache->size)) return FALSE; xdg_uint32_t i; if (cache_magic_matchlet_compare_to_data (cache, offset, data, len)) { if (n_children == 0) return TRUE; for (i = 0; i < n_children; i++) { if (cache_magic_matchlet_compare (cache, child_offset + 32 * i, data, len)) return TRUE; } } return FALSE; } static const char * cache_magic_compare_to_data (XdgMimeCache *cache, xdg_uint32_t offset, const void *data, size_t len, int *prio) { xdg_uint32_t priority = GET_UINT32 (cache->buffer, offset); xdg_uint32_t mimetype_offset = GET_UINT32 (cache->buffer, offset + 4); xdg_uint32_t n_matchlets = GET_UINT32 (cache->buffer, offset + 8); xdg_uint32_t matchlet_offset = GET_UINT32 (cache->buffer, offset + 12); if (OUT_OF_BOUNDS (matchlet_offset, n_matchlets, 32, cache->size)) return NULL; xdg_uint32_t i; for (i = 0; i < n_matchlets; i++) { if (cache_magic_matchlet_compare (cache, matchlet_offset + i * 32, data, len)) { *prio = priority; return cache->buffer + mimetype_offset; } } return NULL; } static const char * cache_magic_lookup_data (XdgMimeCache *cache, const void *data, size_t len, int *prio) { xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; xdg_uint32_t j; *prio = 0; list_offset = GET_UINT32 (cache->buffer, 24); if (OUT_OF_BOUNDS (list_offset, 1, 12, cache->size)) return NULL; n_entries = GET_UINT32 (cache->buffer, list_offset); offset = GET_UINT32 (cache->buffer, list_offset + 8); if (OUT_OF_BOUNDS (offset, n_entries, 16, cache->size)) return NULL; for (j = 0; j < n_entries; j++) { const char *match; match = cache_magic_compare_to_data (cache, offset + 16 * j, data, len, prio); if (match) return match; } return NULL; } static const char * cache_alias_lookup (const char *alias) { const char *ptr; int i, min, max, mid, cmp; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 4); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 8, cache->size)) continue; min = 0; max = n_entries - 1; while (max >= min) { mid = (min + max) / 2; offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * mid); ptr = cache->buffer + offset; cmp = strcmp (ptr, alias); if (cmp < 0) min = mid + 1; else if (cmp > 0) max = mid - 1; else { offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * mid + 4); return cache->buffer + offset; } } } return NULL; } typedef struct { const char *mime; int weight; } MimeWeight; static int cache_glob_lookup_literal (const char *file_name, const char *mime_types[], int n_mime_types, int case_sensitive_check) { const char *ptr; int i, min, max, mid, cmp; assert (n_mime_types > 0); for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 12); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 12, cache->size)) continue; min = 0; max = n_entries - 1; while (max >= min) { mid = (min + max) / 2; offset = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * mid); ptr = cache->buffer + offset; cmp = strcmp (ptr, file_name); if (cmp < 0) min = mid + 1; else if (cmp > 0) max = mid - 1; else { int weight = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * mid + 8); int case_sensitive = weight & 0x100; weight = weight & 0xff; if (case_sensitive_check || !case_sensitive) { offset = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * mid + 4); mime_types[0] = (const char *)(cache->buffer + offset); return 1; } return 0; } } } return 0; } static int cache_glob_lookup_fnmatch (const char *file_name, MimeWeight mime_types[], int n_mime_types, int case_sensitive_check) { const char *mime_type; const char *ptr; int i, n; xdg_uint32_t j; n = 0; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 20); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 12, cache->size)) continue; for (j = 0; j < n_entries && n < n_mime_types; j++) { xdg_uint32_t offset = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * j); xdg_uint32_t mimetype_offset = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * j + 4); int weight = GET_UINT32 (cache->buffer, list_offset + 4 + 12 * j + 8); int case_sensitive = weight & 0x100; weight = weight & 0xff; ptr = cache->buffer + offset; mime_type = cache->buffer + mimetype_offset; if (case_sensitive_check || !case_sensitive) { /* FIXME: Not UTF-8 safe */ if (fnmatch (ptr, file_name, 0) == 0) { mime_types[n].mime = mime_type; mime_types[n].weight = weight; n++; } } } if (n == n_mime_types) break; } return n; } static int cache_glob_node_lookup_suffix (XdgMimeCache *cache, xdg_uint32_t n_entries, xdg_uint32_t offset, const char *file_name, int len, int case_sensitive_check, MimeWeight mime_types[], int n_mime_types) { xdg_unichar_t character; xdg_unichar_t match_char; xdg_uint32_t mimetype_offset; xdg_uint32_t n_children; xdg_uint32_t child_offset; int weight; int case_sensitive; xdg_uint32_t i; int min, max, mid, n; character = file_name[len - 1]; assert (character != 0); min = 0; max = n_entries - 1; while (max >= min) { mid = (min + max) / 2; match_char = GET_UINT32 (cache->buffer, offset + 12 * mid); if (match_char < character) min = mid + 1; else if (match_char > character) max = mid - 1; else { len--; n = 0; n_children = GET_UINT32 (cache->buffer, offset + 12 * mid + 4); child_offset = GET_UINT32 (cache->buffer, offset + 12 * mid + 8); if (OUT_OF_BOUNDS (child_offset, n_children, 12, cache->size)) continue; if (len > 0) { n = cache_glob_node_lookup_suffix (cache, n_children, child_offset, file_name, len, case_sensitive_check, mime_types, n_mime_types); } if (n == 0) { i = 0; while (n < n_mime_types && i < n_children) { match_char = GET_UINT32 (cache->buffer, child_offset + 12 * i); if (match_char != 0) break; mimetype_offset = GET_UINT32 (cache->buffer, child_offset + 12 * i + 4); weight = GET_UINT32 (cache->buffer, child_offset + 12 * i + 8); case_sensitive = weight & 0x100; weight = weight & 0xff; if (case_sensitive_check || !case_sensitive) { mime_types[n].mime = cache->buffer + mimetype_offset; mime_types[n].weight = weight; n++; } i++; } } return n; } } return 0; } static int cache_glob_lookup_suffix (const char *file_name, int len, int ignore_case, MimeWeight mime_types[], int n_mime_types) { int i, n; n = 0; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 16); if (OUT_OF_BOUNDS (list_offset, 1, 8, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); offset = GET_UINT32 (cache->buffer, list_offset + 4); if (OUT_OF_BOUNDS (offset, n_entries, 12, cache->size)) continue; n += cache_glob_node_lookup_suffix (cache, n_entries, offset, file_name, len, ignore_case, mime_types + n, n_mime_types - n); if (n == n_mime_types) break; } return n; } static int compare_mime_weight (const void *a, const void *b) { const MimeWeight *aa = (const MimeWeight *)a; const MimeWeight *bb = (const MimeWeight *)b; return bb->weight - aa->weight; } #define ISUPPER(c) ((c) >= 'A' && (c) <= 'Z') static char * ascii_tolower (const char *str) { char *p, *lower; lower = strdup (str); p = lower; while (*p != 0) { char c = *p; *p++ = ISUPPER (c) ? c - 'A' + 'a' : c; } return lower; } static int filter_out_dupes (MimeWeight mimes[], int n_mimes) { int last; int i, j; last = n_mimes; for (i = 0; i < last; i++) { j = i + 1; while (j < last) { if (strcmp (mimes[i].mime, mimes[j].mime) == 0) { mimes[i].weight = MAX (mimes[i].weight, mimes[j].weight); last--; mimes[j].mime = mimes[last].mime; mimes[j].weight = mimes[last].weight; } else j++; } } return last; } static int cache_glob_lookup_file_name (const char *file_name, const char *mime_types[], int n_mime_types) { int n; MimeWeight mimes[10]; int n_mimes = 10; int i; int len; char *lower_case; assert (file_name != NULL && n_mime_types > 0); /* First, check the literals */ lower_case = ascii_tolower (file_name); n = cache_glob_lookup_literal (lower_case, mime_types, n_mime_types, FALSE); if (n > 0) { free (lower_case); return n; } n = cache_glob_lookup_literal (file_name, mime_types, n_mime_types, TRUE); if (n > 0) { free (lower_case); return n; } len = strlen (file_name); n = cache_glob_lookup_suffix (lower_case, len, FALSE, mimes, n_mimes); if (n < 2) n += cache_glob_lookup_suffix (file_name, len, TRUE, mimes + n, n_mimes - n); /* Last, try fnmatch */ if (n == 0) n = cache_glob_lookup_fnmatch (lower_case, mimes, n_mimes, FALSE); if (n < 2) n += cache_glob_lookup_fnmatch (file_name, mimes + n, n_mimes - n, TRUE); n = filter_out_dupes (mimes, n); free (lower_case); qsort (mimes, n, sizeof (MimeWeight), compare_mime_weight); if (n_mime_types < n) n = n_mime_types; for (i = 0; i < n; i++) mime_types[i] = mimes[i].mime; return n; } int _xdg_mime_cache_get_max_buffer_extents (void) { xdg_uint32_t offset; xdg_uint32_t max_extent; int i; max_extent = 0; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; if (cache->buffer == NULL) continue; offset = GET_UINT32 (cache->buffer, 24); if (OUT_OF_BOUNDS (offset, 1, 8, cache->size)) continue; max_extent = MAX (max_extent, GET_UINT32 (cache->buffer, offset + 4)); } return max_extent; } static const char * cache_get_mime_type_for_data (const void *data, size_t len, int *result_prio, const char *mime_types[], int n_mime_types) { const char *mime_type; int i, n, priority; priority = 0; mime_type = NULL; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; int prio; const char *match; if (cache->buffer == NULL) continue; match = cache_magic_lookup_data (cache, data, len, &prio); if (prio > priority) { priority = prio; mime_type = match; } } if (result_prio) *result_prio = priority; if (priority > 0) { /* Pick glob-result R where mime_type inherits from R */ for (n = 0; n < n_mime_types; n++) { if (mime_types[n] && _xdg_mime_cache_mime_type_subclass (mime_types[n], mime_type, NULL)) return mime_types[n]; } if (n == 0) { /* No globs: return magic match */ return mime_type; } } /* Pick first glob result, as fallback */ for (n = 0; n < n_mime_types; n++) { if (mime_types[n]) return mime_types[n]; } return NULL; } const char * _xdg_mime_cache_get_mime_type_for_data (const void *data, size_t len, int *result_prio) { return cache_get_mime_type_for_data (data, len, result_prio, NULL, 0); } const char * _xdg_mime_cache_get_mime_type_for_file (const char *file_name, struct stat *statbuf) { const char *mime_type; const char *mime_types[10]; FILE *file; unsigned char *data; int max_extent; int bytes_read; struct stat buf; const char *base_name; int n; if (file_name == NULL) return NULL; if (! _xdg_utf8_validate (file_name)) return NULL; base_name = _xdg_get_base_name (file_name); n = cache_glob_lookup_file_name (base_name, mime_types, 10); if (n == 1) return mime_types[0]; if (!statbuf) { if (stat (file_name, &buf) != 0) return XDG_MIME_TYPE_UNKNOWN; statbuf = &buf; } if (statbuf->st_size == 0) return XDG_MIME_TYPE_EMPTY; if (!S_ISREG (statbuf->st_mode)) return XDG_MIME_TYPE_UNKNOWN; /* FIXME: Need to make sure that max_extent isn't totally broken. This could * be large and need getting from a stream instead of just reading it all * in. */ max_extent = _xdg_mime_cache_get_max_buffer_extents (); data = malloc (max_extent); if (data == NULL) return XDG_MIME_TYPE_UNKNOWN; file = fopen (file_name, "r"); if (file == NULL) { free (data); return XDG_MIME_TYPE_UNKNOWN; } bytes_read = fread (data, 1, max_extent, file); if (ferror (file)) { free (data); fclose (file); return XDG_MIME_TYPE_UNKNOWN; } mime_type = cache_get_mime_type_for_data (data, bytes_read, NULL, mime_types, n); if (!mime_type) mime_type = _xdg_binary_or_text_fallback (data, bytes_read); free (data); fclose (file); return mime_type; } const char * _xdg_mime_cache_get_mime_type_from_file_name (const char *file_name) { const char *mime_type; if (cache_glob_lookup_file_name (file_name, &mime_type, 1)) return mime_type; else return XDG_MIME_TYPE_UNKNOWN; } int _xdg_mime_cache_get_mime_types_from_file_name (const char *file_name, const char *mime_types[], int n_mime_types) { return cache_glob_lookup_file_name (file_name, mime_types, n_mime_types); } #if 1 static int ends_with (const char *str, const char *suffix) { int length; int suffix_length; length = strlen (str); suffix_length = strlen (suffix); if (length < suffix_length) return 0; if (strcmp (str + length - suffix_length, suffix) == 0) return 1; return 0; } static int is_super_type (const char *mime) { return ends_with (mime, "/*"); } #endif int _xdg_mime_cache_mime_type_subclass (const char *mime, const char *base, const char ***seen) { const char *umime, *ubase, *parent; const char **first_seen = NULL, **new_seen; xdg_uint32_t j; int i, k, min, max, med, cmp, ret = 0; umime = _xdg_mime_cache_unalias_mime_type (mime); ubase = _xdg_mime_cache_unalias_mime_type (base); if (strcmp (umime, ubase) == 0) return 1; /* We really want to handle text/ * in GtkFileFilter, so we just * turn on the supertype matching */ #if 1 /* Handle supertypes */ if (is_super_type (ubase) && xdg_mime_media_type_equal (umime, ubase)) return 1; #endif /* Handle special cases text/plain and application/octet-stream */ if (strcmp (ubase, "text/plain") == 0 && strncmp (umime, "text/", 5) == 0) return 1; if (strcmp (ubase, "application/octet-stream") == 0 && strncmp (umime, "inode/", 6) != 0) return 1; if (!seen) { first_seen = calloc (1, sizeof (char *)); seen = &first_seen; } for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset, n_parents, parent_offset; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 8); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 8, cache->size)) continue; min = 0; max = n_entries - 1; while (max >= min) { med = (min + max)/2; offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * med); cmp = strcmp (cache->buffer + offset, umime); if (cmp < 0) min = med + 1; else if (cmp > 0) max = med - 1; else { offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * med + 4); n_parents = GET_UINT32 (cache->buffer, offset); for (j = 0; j < n_parents; j++) { parent_offset = GET_UINT32 (cache->buffer, offset + 4 + 4 * j); parent = cache->buffer + parent_offset; /* Detect and avoid buggy circular relationships */ for (k = 0; (*seen)[k] != NULL; k++) if (parent == (*seen)[k]) goto next_parent; new_seen = realloc (*seen, (k + 2) * sizeof (char *)); if (!new_seen) goto done; new_seen[k] = parent; new_seen[k + 1] = NULL; *seen = new_seen; if (_xdg_mime_cache_mime_type_subclass (parent, ubase, seen)) { ret = 1; goto done; } next_parent: continue; } break; } } } done: free (first_seen); return ret; } const char * _xdg_mime_cache_unalias_mime_type (const char *mime) { const char *lookup; lookup = cache_alias_lookup (mime); if (lookup) return lookup; return mime; } char ** _xdg_mime_cache_list_mime_parents (const char *mime) { int i, l, p; xdg_uint32_t j, k; char *all_parents[128]; /* we'll stop at 128 */ char **result; mime = xdg_mime_unalias_mime_type (mime); p = 0; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 8); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 8, cache->size)) continue; for (j = 0; j < n_entries; j++) { xdg_uint32_t mimetype_offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * j); xdg_uint32_t parents_offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * j + 4); if (strcmp (cache->buffer + mimetype_offset, mime) == 0) { xdg_uint32_t parent_mime_offset; xdg_uint32_t n_parents = GET_UINT32 (cache->buffer, parents_offset); for (k = 0; k < n_parents && p < 127; k++) { parent_mime_offset = GET_UINT32 (cache->buffer, parents_offset + 4 + 4 * k); /* Don't add same parent multiple times. * This can happen for instance if the same type is listed in multiple directories */ for (l = 0; l < p; l++) { if (strcmp (all_parents[l], cache->buffer + parent_mime_offset) == 0) break; } if (l == p) all_parents[p++] = cache->buffer + parent_mime_offset; } break; } } } all_parents[p++] = NULL; result = (char **) malloc (p * sizeof (char *)); memcpy (result, all_parents, p * sizeof (char *)); return result; } static const char * cache_lookup_icon (const char *mime, size_t header) { const char *ptr; int i, min, max, mid, cmp; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; if (cache->buffer == NULL) continue; if (OUT_OF_BOUNDS (header, 1, 4, cache->size)) continue; list_offset = GET_UINT32 (cache->buffer, header); if (OUT_OF_BOUNDS (list_offset, 1, 4, cache->size)) continue; n_entries = GET_UINT32 (cache->buffer, list_offset); if (OUT_OF_BOUNDS (list_offset + 4, n_entries, 8, cache->size)) continue; min = 0; max = n_entries - 1; while (max >= min) { mid = (min + max) / 2; offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * mid); ptr = cache->buffer + offset; cmp = strcmp (ptr, mime); if (cmp < 0) min = mid + 1; else if (cmp > 0) max = mid - 1; else { offset = GET_UINT32 (cache->buffer, list_offset + 4 + 8 * mid + 4); return cache->buffer + offset; } } } return NULL; } const char * _xdg_mime_cache_get_generic_icon (const char *mime) { return cache_lookup_icon (mime, 36); } const char * _xdg_mime_cache_get_icon (const char *mime) { return cache_lookup_icon (mime, 32); } static void dump_glob_node (XdgMimeCache *cache, xdg_uint32_t offset, int depth) { xdg_unichar_t character; xdg_uint32_t mime_offset; xdg_uint32_t n_children; xdg_uint32_t child_offset; xdg_uint32_t k; int i; character = GET_UINT32 (cache->buffer, offset); mime_offset = GET_UINT32 (cache->buffer, offset + 4); n_children = GET_UINT32 (cache->buffer, offset + 8); child_offset = GET_UINT32 (cache->buffer, offset + 12); if (OUT_OF_BOUNDS (child_offset, n_children, 20, cache->size)) return; for (i = 0; i < depth; i++) printf (" "); printf ("%c", character); if (mime_offset) printf (" - %s", cache->buffer + mime_offset); printf ("\n"); if (child_offset) { for (k = 0; k < n_children; k++) dump_glob_node (cache, child_offset + 20 * k, depth + 1); } } void _xdg_mime_cache_glob_dump (void) { xdg_uint32_t i, j; for (i = 0; _caches[i]; i++) { XdgMimeCache *cache = _caches[i]; xdg_uint32_t list_offset; xdg_uint32_t n_entries; xdg_uint32_t offset; if (cache->buffer == NULL) continue; list_offset = GET_UINT32 (cache->buffer, 16); if (OUT_OF_BOUNDS (list_offset, 1, 8, cache->size)) return; n_entries = GET_UINT32 (cache->buffer, list_offset); offset = GET_UINT32 (cache->buffer, list_offset + 4); if (OUT_OF_BOUNDS (offset, n_entries, 20, cache->size)) return; for (j = 0; j < n_entries; j++) dump_glob_node (cache, offset + 20 * j, 0); } }