/* * Copyright © 2010 Codethink Limited * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . * * Author: Ryan Lortie */ #include "gvdb-reader.h" #include "gvdb-format.h" #include struct _GvdbTable { GBytes *bytes; const gchar *data; gsize size; gboolean byteswapped; gboolean trusted; const guint32_le *bloom_words; guint32 n_bloom_words; guint bloom_shift; const guint32_le *hash_buckets; guint32 n_buckets; struct gvdb_hash_item *hash_items; guint32 n_hash_items; }; static const gchar * gvdb_table_item_get_key (GvdbTable *file, const struct gvdb_hash_item *item, gsize *size) { guint32 start, end; start = guint32_from_le (item->key_start); *size = guint16_from_le (item->key_size); end = start + *size; if G_UNLIKELY (start > end || end > file->size) return NULL; return file->data + start; } static gconstpointer gvdb_table_dereference (GvdbTable *file, const struct gvdb_pointer *pointer, gint alignment, gsize *size) { guint32 start, end; start = guint32_from_le (pointer->start); end = guint32_from_le (pointer->end); if G_UNLIKELY (start > end || end > file->size || start & (alignment - 1)) return NULL; *size = end - start; return file->data + start; } static void gvdb_table_setup_root (GvdbTable *file, const struct gvdb_pointer *pointer) { const struct gvdb_hash_header *header; guint32 n_bloom_words; guint32 n_buckets; gsize size; header = gvdb_table_dereference (file, pointer, 4, &size); if G_UNLIKELY (header == NULL || size < sizeof *header) return; size -= sizeof *header; n_bloom_words = guint32_from_le (header->n_bloom_words); n_buckets = guint32_from_le (header->n_buckets); n_bloom_words &= (1u << 27) - 1; if G_UNLIKELY (n_bloom_words * sizeof (guint32_le) > size) return; file->bloom_words = (gpointer) (header + 1); size -= n_bloom_words * sizeof (guint32_le); file->n_bloom_words = n_bloom_words; if G_UNLIKELY (n_buckets > G_MAXUINT / sizeof (guint32_le) || n_buckets * sizeof (guint32_le) > size) return; file->hash_buckets = file->bloom_words + file->n_bloom_words; size -= n_buckets * sizeof (guint32_le); file->n_buckets = n_buckets; if G_UNLIKELY (size % sizeof (struct gvdb_hash_item)) return; file->hash_items = (gpointer) (file->hash_buckets + n_buckets); file->n_hash_items = size / sizeof (struct gvdb_hash_item); } /** * gvdb_table_new_from_bytes: * @bytes: the #GBytes with the data * @trusted: if the contents of @bytes are trusted * @error: %NULL, or a pointer to a %NULL #GError * * Creates a new #GvdbTable from the contents of @bytes. * * This call can fail if the header contained in @bytes is invalid or if @bytes * is empty; if so, %G_FILE_ERROR_INVAL will be returned. * * You should call gvdb_table_free() on the return result when you no * longer require it. * * Returns: a new #GvdbTable **/ GvdbTable * gvdb_table_new_from_bytes (GBytes *bytes, gboolean trusted, GError **error) { const struct gvdb_header *header; GvdbTable *file; file = g_slice_new0 (GvdbTable); file->bytes = g_bytes_ref (bytes); file->data = g_bytes_get_data (bytes, &file->size); file->trusted = trusted; if (file->size < sizeof (struct gvdb_header)) goto invalid; header = (gpointer) file->data; if (header->signature[0] == GVDB_SIGNATURE0 && header->signature[1] == GVDB_SIGNATURE1 && guint32_from_le (header->version) == 0) file->byteswapped = FALSE; else if (header->signature[0] == GVDB_SWAPPED_SIGNATURE0 && header->signature[1] == GVDB_SWAPPED_SIGNATURE1 && guint32_from_le (header->version) == 0) file->byteswapped = TRUE; else goto invalid; gvdb_table_setup_root (file, &header->root); return file; invalid: g_set_error_literal (error, G_FILE_ERROR, G_FILE_ERROR_INVAL, "invalid gvdb header"); g_bytes_unref (file->bytes); g_slice_free (GvdbTable, file); return NULL; } /** * gvdb_table_new: * @filename: a filename * @trusted: if the contents of @bytes are trusted * @error: %NULL, or a pointer to a %NULL #GError * * Creates a new #GvdbTable using the #GMappedFile for @filename as the * #GBytes. * * This function will fail if the file cannot be opened. * In that case, the #GError that is returned will be an error from * g_mapped_file_new(). * * An empty or corrupt file will result in %G_FILE_ERROR_INVAL. * * Returns: a new #GvdbTable **/ GvdbTable * gvdb_table_new (const gchar *filename, gboolean trusted, GError **error) { GMappedFile *mapped; GvdbTable *table; GBytes *bytes; mapped = g_mapped_file_new (filename, FALSE, error); if (!mapped) return NULL; bytes = g_mapped_file_get_bytes (mapped); table = gvdb_table_new_from_bytes (bytes, trusted, error); g_mapped_file_unref (mapped); g_bytes_unref (bytes); g_prefix_error (error, "%s: ", filename); return table; } static gboolean gvdb_table_bloom_filter (GvdbTable *file, guint32 hash_value) { guint32 word, mask; if (file->n_bloom_words == 0) return TRUE; word = (hash_value / 32) % file->n_bloom_words; mask = 1 << (hash_value & 31); mask |= 1 << ((hash_value >> file->bloom_shift) & 31); return (guint32_from_le (file->bloom_words[word]) & mask) == mask; } static gboolean gvdb_table_check_name (GvdbTable *file, struct gvdb_hash_item *item, const gchar *key, guint key_length) { const gchar *this_key; gsize this_size; guint32 parent; this_key = gvdb_table_item_get_key (file, item, &this_size); if G_UNLIKELY (this_key == NULL || this_size > key_length) return FALSE; key_length -= this_size; if G_UNLIKELY (memcmp (this_key, key + key_length, this_size) != 0) return FALSE; parent = guint32_from_le (item->parent); if (key_length == 0 && parent == 0xffffffffu) return TRUE; if G_LIKELY (parent < file->n_hash_items && this_size > 0) return gvdb_table_check_name (file, &file->hash_items[parent], key, key_length); return FALSE; } static const struct gvdb_hash_item * gvdb_table_lookup (GvdbTable *file, const gchar *key, gchar type) { guint32 hash_value = 5381; guint key_length; guint32 bucket; guint32 lastno; guint32 itemno; if G_UNLIKELY (file->n_buckets == 0 || file->n_hash_items == 0) return NULL; for (key_length = 0; key[key_length]; key_length++) hash_value = (hash_value * 33) + ((signed char *) key)[key_length]; if (!gvdb_table_bloom_filter (file, hash_value)) return NULL; bucket = hash_value % file->n_buckets; itemno = guint32_from_le (file->hash_buckets[bucket]); if (bucket == file->n_buckets - 1 || (lastno = guint32_from_le(file->hash_buckets[bucket + 1])) > file->n_hash_items) lastno = file->n_hash_items; while G_LIKELY (itemno < lastno) { struct gvdb_hash_item *item = &file->hash_items[itemno]; if (hash_value == guint32_from_le (item->hash_value)) if G_LIKELY (gvdb_table_check_name (file, item, key, key_length)) if G_LIKELY (item->type == type) return item; itemno++; } return NULL; } static gboolean gvdb_table_list_from_item (GvdbTable *table, const struct gvdb_hash_item *item, const guint32_le **list, guint *length) { gsize size; *list = gvdb_table_dereference (table, &item->value.pointer, 4, &size); if G_LIKELY (*list == NULL || size % 4) return FALSE; *length = size / 4; return TRUE; } /** * gvdb_table_get_names: * @table: a #GvdbTable * @length: (optional): the number of items returned, or %NULL * * Gets a list of all names contained in @table. * * No call to gvdb_table_get_table(), gvdb_table_list() or * gvdb_table_get_value() will succeed unless it is for one of the * names returned by this function. * * Note that some names that are returned may still fail for all of the * above calls in the case of the corrupted file. Note also that the * returned strings may not be utf8. * * Returns: (array length=length): a %NULL-terminated list of strings, of length @length **/ gchar ** gvdb_table_get_names (GvdbTable *table, gsize *length) { gchar **names; guint n_names; guint filled; guint total; guint i; /* We generally proceed by iterating over the list of items in the * hash table (in order of appearance) recording them into an array. * * Each item has a parent item (except root items). The parent item * forms part of the name of the item. We could go fetching the * parent item chain at the point that we encounter each item but then * we would need to implement some sort of recursion along with checks * for self-referential items. * * Instead, we do a number of passes. Each pass will build up one * level of names (starting from the root). We continue to do passes * until no more items are left. The first pass will only add root * items and each further pass will only add items whose direct parent * is an item added in the immediately previous pass. It's also * possible that items get filled if they follow their parent within a * particular pass. * * At most we will have a number of passes equal to the depth of the * tree. Self-referential items will never be filled in (since their * parent will have never been filled in). We continue until we have * a pass that fills in no additional items. * * This takes an O(n) algorithm and turns it into O(n*m) where m is * the depth of the tree, but in all sane cases the tree won't be very * deep and the constant factor of this algorithm is lower (and the * complexity of coding it, as well). */ n_names = table->n_hash_items; names = g_new0 (gchar *, n_names + 1); /* 'names' starts out all-NULL. On each pass we record the number * of items changed from NULL to non-NULL in 'filled' so we know if we * should repeat the loop. 'total' counts the total number of items * filled. If 'total' ends up equal to 'n_names' then we know that * 'names' has been completely filled. */ total = 0; do { /* Loop until we have filled no more entries */ filled = 0; for (i = 0; i < n_names; i++) { const struct gvdb_hash_item *item = &table->hash_items[i]; const gchar *name; gsize name_length; guint32 parent; /* already got it on a previous pass */ if (names[i] != NULL) continue; parent = guint32_from_le (item->parent); if (parent == 0xffffffffu) { /* it's a root item */ name = gvdb_table_item_get_key (table, item, &name_length); if (name != NULL) { names[i] = g_strndup (name, name_length); filled++; } } else if (parent < n_names && names[parent] != NULL) { /* It's a non-root item whose parent was filled in already. * * Calculate the name of this item by combining it with * its parent name. */ name = gvdb_table_item_get_key (table, item, &name_length); if (name != NULL) { const gchar *parent_name = names[parent]; gsize parent_length; gchar *fullname; parent_length = strlen (parent_name); fullname = g_malloc (parent_length + name_length + 1); memcpy (fullname, parent_name, parent_length); memcpy (fullname + parent_length, name, name_length); fullname[parent_length + name_length] = '\0'; names[i] = fullname; filled++; } } } total += filled; } while (filled && total < n_names); /* If the table was corrupted then 'names' may have holes in it. * Collapse those. */ if G_UNLIKELY (total != n_names) { GPtrArray *fixed_names; fixed_names = g_ptr_array_sized_new (n_names + 1 /* NULL terminator */); for (i = 0; i < n_names; i++) if (names[i] != NULL) g_ptr_array_add (fixed_names, names[i]); g_free (names); n_names = fixed_names->len; g_ptr_array_add (fixed_names, NULL); names = (gchar **) g_ptr_array_free (fixed_names, FALSE); } if (length) { G_STATIC_ASSERT (sizeof (*length) >= sizeof (n_names)); *length = n_names; } return names; } /** * gvdb_table_list: * @file: a #GvdbTable * @key: a string * * List all of the keys that appear below @key. The nesting of keys * within the hash file is defined by the program that created the hash * file. One thing is constant: each item in the returned array can be * concatenated to @key to obtain the full name of that key. * * It is not possible to tell from this function if a given key is * itself a path, a value, or another hash table; you are expected to * know this for yourself. * * You should call g_strfreev() on the return result when you no longer * require it. * * Returns: a %NULL-terminated string array **/ gchar ** gvdb_table_list (GvdbTable *file, const gchar *key) { const struct gvdb_hash_item *item; const guint32_le *list; gchar **strv; guint length; guint i; if ((item = gvdb_table_lookup (file, key, 'L')) == NULL) return NULL; if (!gvdb_table_list_from_item (file, item, &list, &length)) return NULL; strv = g_new (gchar *, length + 1); for (i = 0; i < length; i++) { guint32 itemno = guint32_from_le (list[i]); if (itemno < file->n_hash_items) { const struct gvdb_hash_item *item; const gchar *string; gsize strsize; item = file->hash_items + itemno; string = gvdb_table_item_get_key (file, item, &strsize); if (string != NULL) strv[i] = g_strndup (string, strsize); else strv[i] = g_malloc0 (1); } else strv[i] = g_malloc0 (1); } strv[i] = NULL; return strv; } /** * gvdb_table_has_value: * @file: a #GvdbTable * @key: a string * * Checks for a value named @key in @file. * * Note: this function does not consider non-value nodes (other hash * tables, for example). * * Returns: %TRUE if @key is in the table **/ gboolean gvdb_table_has_value (GvdbTable *file, const gchar *key) { static const struct gvdb_hash_item *item; gsize size; item = gvdb_table_lookup (file, key, 'v'); if (item == NULL) return FALSE; return gvdb_table_dereference (file, &item->value.pointer, 8, &size) != NULL; } static GVariant * gvdb_table_value_from_item (GvdbTable *table, const struct gvdb_hash_item *item) { GVariant *variant, *value; gconstpointer data; GBytes *bytes; gsize size; data = gvdb_table_dereference (table, &item->value.pointer, 8, &size); if G_UNLIKELY (data == NULL) return NULL; bytes = g_bytes_new_from_bytes (table->bytes, ((gchar *) data) - table->data, size); variant = g_variant_new_from_bytes (G_VARIANT_TYPE_VARIANT, bytes, table->trusted); value = g_variant_get_variant (variant); g_variant_unref (variant); g_bytes_unref (bytes); return value; } /** * gvdb_table_get_value: * @file: a #GvdbTable * @key: a string * * Looks up a value named @key in @file. * * If the value is not found then %NULL is returned. Otherwise, a new * #GVariant instance is returned. The #GVariant does not depend on the * continued existence of @file. * * You should call g_variant_unref() on the return result when you no * longer require it. * * Returns: a #GVariant, or %NULL **/ GVariant * gvdb_table_get_value (GvdbTable *file, const gchar *key) { const struct gvdb_hash_item *item; GVariant *value; if ((item = gvdb_table_lookup (file, key, 'v')) == NULL) return NULL; value = gvdb_table_value_from_item (file, item); if (value && file->byteswapped) { GVariant *tmp; tmp = g_variant_byteswap (value); g_variant_unref (value); value = tmp; } return value; } /** * gvdb_table_get_raw_value: * @table: a #GvdbTable * @key: a string * * Looks up a value named @key in @file. * * This call is equivalent to gvdb_table_get_value() except that it * never byteswaps the value. * * Returns: a #GVariant, or %NULL **/ GVariant * gvdb_table_get_raw_value (GvdbTable *table, const gchar *key) { const struct gvdb_hash_item *item; if ((item = gvdb_table_lookup (table, key, 'v')) == NULL) return NULL; return gvdb_table_value_from_item (table, item); } /** * gvdb_table_get_table: * @file: a #GvdbTable * @key: a string * * Looks up the hash table named @key in @file. * * The toplevel hash table in a #GvdbTable can contain reference to * child hash tables (and those can contain further references...). * * If @key is not found in @file then %NULL is returned. Otherwise, a * new #GvdbTable is returned, referring to the child hashtable as * contained in the file. This newly-created #GvdbTable does not depend * on the continued existence of @file. * * You should call gvdb_table_free() on the return result when you no * longer require it. * * Returns: a new #GvdbTable, or %NULL **/ GvdbTable * gvdb_table_get_table (GvdbTable *file, const gchar *key) { const struct gvdb_hash_item *item; GvdbTable *new; item = gvdb_table_lookup (file, key, 'H'); if (item == NULL) return NULL; new = g_slice_new0 (GvdbTable); new->bytes = g_bytes_ref (file->bytes); new->byteswapped = file->byteswapped; new->trusted = file->trusted; new->data = file->data; new->size = file->size; gvdb_table_setup_root (new, &item->value.pointer); return new; } /** * gvdb_table_free: * @file: a #GvdbTable * * Frees @file. **/ void gvdb_table_free (GvdbTable *file) { g_bytes_unref (file->bytes); g_slice_free (GvdbTable, file); } /** * gvdb_table_is_valid: * @table: a #GvdbTable * * Checks if the table is still valid. * * An on-disk GVDB can be marked as invalid. This happens when the file * has been replaced. The appropriate action is typically to reopen the * file. * * Returns: %TRUE if @table is still valid **/ gboolean gvdb_table_is_valid (GvdbTable *table) { return !!*table->data; }