/* GStreamer * Copyright (C) 2006 Josep Torra * 2006 Mathieu Garcia * 2006,2007 Stefan Kost * * gstregistrybinary.c: GstRegistryBinary object, support routines * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* FIXME: * - Add random key to libgstreamer during build and only accept registry, * if key matches (or is the version check enough) * - keep registry binary blob and reference strings * - don't free/unmmap contents when leaving gst_registry_binary_read_cache() * - free at gst_deinit() / _priv_gst_registry_cleanup() ? * - GstPlugin: * - GST_PLUGIN_FLAG_CONST * -GstPluginFeature, GstIndexFactory, GstElementFactory * - needs Flags (GST_PLUGIN_FEATURE_FLAG_CONST) * - can we turn loaded into flag? * - why do we collect a list of binary chunks and not write immediately * - because we need to process subchunks, before we can set e.g. nr_of_items * in parent chunk * - need more robustness * - don't parse beyond mem-block size * - include md5-sum ? */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_UNISTD_H #include #endif #include #include #if defined (_MSC_VER) && _MSC_VER >= 1400 #include #endif #include #include #include #include #include #include #include #include #include #include #include /* for g_stat(), g_mapped_file(), ... */ #include "glib-compat-private.h" #define GST_CAT_DEFAULT GST_CAT_REGISTRY /* macros */ #define unpack_element(_inptr, _outptr, _element) \ _outptr = (_element *)_inptr; \ _inptr += sizeof (_element) #define unpack_const_string(_inptr, _outptr) \ _outptr = g_intern_string ((const gchar *)_inptr); \ _inptr += strlen(_outptr) + 1 #define unpack_string(_inptr, _outptr) \ _outptr = g_strdup ((gchar *)_inptr); \ _inptr += strlen(_outptr) + 1 #if !GST_HAVE_UNALIGNED_ACCESS # define alignment32(_address) (gsize)_address%4 # define align32(_ptr) _ptr += (( alignment32(_ptr) == 0) ? 0 : 4-alignment32(_ptr)) #else # define alignment32(_address) 0 # define align32(_ptr) do {} while(0) #endif /* Registry saving */ /* * gst_registry_binary_write: * * Write from a memory location to the registry cache file * * Returns: %TRUE for success */ inline static gboolean gst_registry_binary_write (GstRegistry * registry, const void *mem, const gssize size, unsigned long *file_position, gboolean align) { #if !GST_HAVE_UNALIGNED_ACCESS gchar padder[] = { 0, 0, 0, 0 }; int padsize = 0; /* Padding to insert the struct that requiere word alignment */ if ((align) && (alignment32 (*file_position) != 0)) { padsize = 4 - alignment32 (*file_position); if (write (registry->cache_file, padder, padsize) != padsize) { GST_ERROR ("Failed to write binary registry padder"); return FALSE; } *file_position = *file_position + padsize; } #endif if (write (registry->cache_file, mem, size) != size) { GST_ERROR ("Failed to write binary registry element"); return FALSE; } *file_position = *file_position + size; return TRUE; } /* * gst_registry_binary_initialize_magic: * * Initialize the GstBinaryRegistryMagic, setting both our magic number and * gstreamer major/minor version */ inline static gboolean gst_registry_binary_initialize_magic (GstBinaryRegistryMagic * m) { if (!strncpy (m->magic, GST_MAGIC_BINARY_REGISTRY_STR, GST_MAGIC_BINARY_REGISTRY_LEN) || !strncpy (m->version, GST_MAJORMINOR, GST_MAGIC_BINARY_VERSION_LEN)) { GST_ERROR ("Failed to write magic to the registry magic structure"); return FALSE; } return TRUE; } /* * gst_registry_binary_save_const_string: * * Store a const string in a binary chunk. * * Returns: %TRUE for success */ inline static gboolean gst_registry_binary_save_const_string (GList ** list, const gchar * str) { GstBinaryChunk *chunk; chunk = g_malloc (sizeof (GstBinaryChunk)); chunk->data = (gpointer) str; chunk->size = strlen ((gchar *) chunk->data) + 1; chunk->flags = GST_BINARY_REGISTRY_FLAG_CONST; chunk->align = FALSE; *list = g_list_prepend (*list, chunk); return TRUE; } /* * gst_registry_binary_save_string: * * Store a string in a binary chunk. * * Returns: %TRUE for success */ inline static gboolean gst_registry_binary_save_string (GList ** list, gchar * str) { GstBinaryChunk *chunk; chunk = g_malloc (sizeof (GstBinaryChunk)); chunk->data = str; chunk->size = strlen ((gchar *) chunk->data) + 1; chunk->flags = GST_BINARY_REGISTRY_FLAG_NONE; chunk->align = FALSE; *list = g_list_prepend (*list, chunk); return TRUE; } /* * gst_registry_binary_save_data: * * Store some data in a binary chunk. * * Returns: the initialized chunk */ inline static GstBinaryChunk * gst_registry_binary_make_data (gpointer data, gulong size) { GstBinaryChunk *chunk; chunk = g_malloc (sizeof (GstBinaryChunk)); chunk->data = data; chunk->size = size; chunk->flags = GST_BINARY_REGISTRY_FLAG_NONE; chunk->align = TRUE; return chunk; } /* * gst_registry_binary_save_pad_template: * * Store pad_templates in binary chunks. * * Returns: %TRUE for success */ static gboolean gst_registry_binary_save_pad_template (GList ** list, GstStaticPadTemplate * template) { GstBinaryPadTemplate *pt; GstBinaryChunk *chk; pt = g_malloc (sizeof (GstBinaryPadTemplate)); chk = gst_registry_binary_make_data (pt, sizeof (GstBinaryPadTemplate)); pt->presence = template->presence; pt->direction = template->direction; /* pack pad template strings */ gst_registry_binary_save_const_string (list, (gchar *) (template->static_caps.string)); gst_registry_binary_save_const_string (list, template->name_template); *list = g_list_prepend (*list, chk); return TRUE; } /* * gst_registry_binary_save_feature: * * Store features in binary chunks. * * Returns: %TRUE for success */ static gboolean gst_registry_binary_save_feature (GList ** list, GstPluginFeature * feature) { const gchar *type_name = g_type_name (G_OBJECT_TYPE (feature)); GstBinaryPluginFeature *pf = NULL; GstBinaryChunk *chk = NULL; GList *walk; if (!type_name) { GST_ERROR ("NULL feature type_name, aborting."); return FALSE; } if (GST_IS_ELEMENT_FACTORY (feature)) { GstBinaryElementFactory *ef; GstElementFactory *factory = GST_ELEMENT_FACTORY (feature); ef = g_malloc (sizeof (GstBinaryElementFactory)); chk = gst_registry_binary_make_data (ef, sizeof (GstBinaryElementFactory)); ef->npadtemplates = ef->ninterfaces = ef->nuriprotocols = 0; pf = (GstBinaryPluginFeature *) ef; /* save interfaces */ for (walk = factory->interfaces; walk; walk = g_list_next (walk), ef->ninterfaces++) { gst_registry_binary_save_const_string (list, (gchar *) walk->data); } GST_DEBUG ("Saved %d Interfaces", ef->ninterfaces); /* save uritypes */ if (GST_URI_TYPE_IS_VALID (factory->uri_type)) { if (factory->uri_protocols) { GstBinaryChunk *subchk; gchar **protocol; subchk = gst_registry_binary_make_data (&factory->uri_type, sizeof (factory->uri_type)); subchk->flags = GST_BINARY_REGISTRY_FLAG_CONST; protocol = factory->uri_protocols; while (*protocol) { gst_registry_binary_save_const_string (list, *protocol++); ef->nuriprotocols++; } *list = g_list_prepend (*list, subchk); GST_DEBUG ("Saved %d UriTypes", ef->nuriprotocols); } else { g_warning ("GStreamer feature '%s' is URI handler but does not provide" " any protocols it can handle", feature->name); } } /* save pad-templates */ for (walk = factory->staticpadtemplates; walk; walk = g_list_next (walk), ef->npadtemplates++) { GstStaticPadTemplate *template = walk->data; if (!gst_registry_binary_save_pad_template (list, template)) { GST_ERROR ("Can't fill pad template, aborting."); goto fail; } } /* pack element factory strings */ gst_registry_binary_save_const_string (list, factory->details.author); gst_registry_binary_save_const_string (list, factory->details.description); gst_registry_binary_save_const_string (list, factory->details.klass); gst_registry_binary_save_const_string (list, factory->details.longname); } else if (GST_IS_TYPE_FIND_FACTORY (feature)) { GstBinaryTypeFindFactory *tff; GstTypeFindFactory *factory = GST_TYPE_FIND_FACTORY (feature); gchar *str; /* we copy the caps here so we can simplify them before saving. This is a lot * faster when loading them later on */ GstCaps *copy = gst_caps_copy (factory->caps); tff = g_malloc (sizeof (GstBinaryTypeFindFactory)); chk = gst_registry_binary_make_data (tff, sizeof (GstBinaryTypeFindFactory)); tff->nextensions = 0; pf = (GstBinaryPluginFeature *) tff; /* save extensions */ if (factory->extensions) { while (factory->extensions[tff->nextensions]) { gst_registry_binary_save_const_string (list, factory->extensions[tff->nextensions++]); } } /* save caps */ gst_caps_do_simplify (copy); str = gst_caps_to_string (copy); gst_caps_unref (copy); gst_registry_binary_save_string (list, str); } #ifndef GST_DISABLE_INDEX else if (GST_IS_INDEX_FACTORY (feature)) { GstIndexFactory *factory = GST_INDEX_FACTORY (feature); pf = g_malloc (sizeof (GstBinaryPluginFeature)); chk = gst_registry_binary_make_data (pf, sizeof (GstBinaryPluginFeature)); pf->rank = feature->rank; /* pack element factory strings */ gst_registry_binary_save_const_string (list, factory->longdesc); } #endif else { GST_WARNING ("unhandled feature type '%s'", type_name); } if (pf) { pf->rank = feature->rank; *list = g_list_prepend (*list, chk); /* pack plugin feature strings */ gst_registry_binary_save_const_string (list, feature->name); gst_registry_binary_save_const_string (list, (gchar *) type_name); return TRUE; } /* Errors */ fail: g_free (chk); g_free (pf); return FALSE; } /* * gst_registry_binary_save_plugin: * * Adapt a GstPlugin to our GstBinaryPluginElement structure, and write it to * the registry file. */ static gboolean gst_registry_binary_save_plugin (GList ** list, GstRegistry * registry, GstPlugin * plugin) { GstBinaryPluginElement *pe; GstBinaryChunk *chk; GList *plugin_features = NULL; GList *walk; pe = g_malloc (sizeof (GstBinaryPluginElement)); chk = gst_registry_binary_make_data (pe, sizeof (GstBinaryPluginElement)); pe->file_size = plugin->file_size; pe->file_mtime = plugin->file_mtime; pe->nfeatures = 0; /* pack plugin features */ plugin_features = gst_registry_get_feature_list_by_plugin (registry, plugin->desc.name); for (walk = plugin_features; walk; walk = g_list_next (walk), pe->nfeatures++) { GstPluginFeature *feature = GST_PLUGIN_FEATURE (walk->data); if (!gst_registry_binary_save_feature (list, feature)) { GST_ERROR ("Can't fill plugin feature, aborting."); goto fail; } } GST_DEBUG ("Save plugin '%s' with %d features", plugin->desc.name, pe->nfeatures); gst_plugin_feature_list_free (plugin_features); /* pack plugin element strings */ gst_registry_binary_save_const_string (list, plugin->desc.origin); gst_registry_binary_save_const_string (list, plugin->desc.package); gst_registry_binary_save_const_string (list, plugin->desc.source); gst_registry_binary_save_const_string (list, plugin->desc.license); gst_registry_binary_save_const_string (list, plugin->desc.version); gst_registry_binary_save_const_string (list, plugin->filename); gst_registry_binary_save_const_string (list, plugin->desc.description); gst_registry_binary_save_const_string (list, plugin->desc.name); *list = g_list_prepend (*list, chk); GST_DEBUG ("Found %d features in plugin \"%s\"", pe->nfeatures, plugin->desc.name); return TRUE; /* Errors */ fail: gst_plugin_feature_list_free (plugin_features); g_free (chk); g_free (pe); return FALSE; } /** * gst_registry_binary_write_cache: * @registry: a #GstRegistry * @location: a filename * * Write the @registry to a cache to file at given @location. * * Returns: %TRUE on success. */ gboolean gst_registry_binary_write_cache (GstRegistry * registry, const char *location) { GList *walk; gchar *tmp_location; GstBinaryRegistryMagic *magic; GstBinaryChunk *magic_chunk; GList *to_write = NULL; unsigned long file_position = 0; GST_INFO ("Building binary registry cache image"); g_return_val_if_fail (GST_IS_REGISTRY (registry), FALSE); tmp_location = g_strconcat (location, ".tmpXXXXXX", NULL); registry->cache_file = g_mkstemp (tmp_location); if (registry->cache_file == -1) { gchar *dir; /* oops, I bet the directory doesn't exist */ dir = g_path_get_dirname (location); g_mkdir_with_parents (dir, 0777); g_free (dir); /* the previous g_mkstemp call overwrote the XXXXXX placeholder ... */ g_free (tmp_location); tmp_location = g_strconcat (location, ".tmpXXXXXX", NULL); registry->cache_file = g_mkstemp (tmp_location); if (registry->cache_file == -1) { GST_DEBUG ("g_mkstemp() failed: %s", g_strerror (errno)); g_free (tmp_location); return FALSE; } } magic = g_malloc (sizeof (GstBinaryRegistryMagic)); if (!gst_registry_binary_initialize_magic (magic)) goto fail; magic_chunk = g_malloc (sizeof (GstBinaryChunk)); magic_chunk->data = magic; magic_chunk->size = sizeof (GstBinaryRegistryMagic); magic_chunk->flags = GST_BINARY_REGISTRY_FLAG_NONE; magic_chunk->align = TRUE; /* iterate trough the list of plugins and fit them into binary structures */ for (walk = registry->plugins; walk; walk = g_list_next (walk)) { GstPlugin *plugin = GST_PLUGIN (walk->data); if (!plugin->filename) continue; if (plugin->flags & GST_PLUGIN_FLAG_CACHED) { int ret; struct stat statbuf; ret = g_stat (plugin->filename, &statbuf); if ((ret = g_stat (plugin->filename, &statbuf)) < 0 || plugin->file_mtime != statbuf.st_mtime || plugin->file_size != statbuf.st_size) continue; } if (!gst_registry_binary_save_plugin (&to_write, registry, plugin)) { GST_ERROR ("Can't write binary plugin information for \"%s\"", plugin->filename); } } to_write = g_list_prepend (to_write, magic_chunk); GST_INFO ("Writing binary registry cache"); /* write out data chunks */ for (walk = to_write; walk; walk = g_list_next (walk)) { GstBinaryChunk *cur = walk->data; if (!gst_registry_binary_write (registry, cur->data, cur->size, &file_position, cur->align)) { if (!(cur->flags & GST_BINARY_REGISTRY_FLAG_CONST)) g_free (cur->data); g_free (cur); g_list_free (to_write); goto fail; } if (!(cur->flags & GST_BINARY_REGISTRY_FLAG_CONST)) g_free (cur->data); g_free (cur); } g_list_free (to_write); if (close (registry->cache_file) < 0) goto close_failed; if (g_file_test (tmp_location, G_FILE_TEST_EXISTS)) { #ifdef WIN32 g_remove (location); #endif if (g_rename (tmp_location, location) < 0) goto rename_failed; } else { /* FIXME: shouldn't we return FALSE here? */ } g_free (tmp_location); GST_INFO ("Wrote binary registry cache"); return TRUE; /* Errors */ fail: { (void) close (registry->cache_file); /* fall through */ } fail_after_close: { g_remove (tmp_location); g_free (tmp_location); return FALSE; } close_failed: { GST_ERROR ("close() failed: %s", g_strerror (errno)); goto fail_after_close; } rename_failed: { GST_ERROR ("g_rename() failed: %s", g_strerror (errno)); goto fail_after_close; } } /* Registry loading */ /* * gst_registry_binary_check_magic: * * Check GstBinaryRegistryMagic validity. * Return FALSE if something is wrong */ static gboolean gst_registry_binary_check_magic (gchar ** in) { GstBinaryRegistryMagic *m; align32 (*in); GST_DEBUG ("Reading/casting for GstBinaryRegistryMagic at address %p", *in); unpack_element (*in, m, GstBinaryRegistryMagic); if (m == NULL || m->magic == NULL || m->version == NULL) { GST_WARNING ("Binary registry magic structure is broken"); return FALSE; } if (strncmp (m->magic, GST_MAGIC_BINARY_REGISTRY_STR, GST_MAGIC_BINARY_REGISTRY_LEN) != 0) { GST_WARNING ("Binary registry magic is different : %02x%02x%02x%02x != %02x%02x%02x%02x", GST_MAGIC_BINARY_REGISTRY_STR[0] & 0xff, GST_MAGIC_BINARY_REGISTRY_STR[1] & 0xff, GST_MAGIC_BINARY_REGISTRY_STR[2] & 0xff, GST_MAGIC_BINARY_REGISTRY_STR[3] & 0xff, m->magic[0] & 0xff, m->magic[1] & 0xff, m->magic[2] & 0xff, m->magic[3] & 0xff); return FALSE; } if (strncmp (m->version, GST_MAJORMINOR, GST_MAGIC_BINARY_VERSION_LEN)) { GST_WARNING ("Binary registry magic version is different : %s != %s", GST_MAJORMINOR, m->version); return FALSE; } return TRUE; } /* * gst_registry_binary_load_pad_template: * * Make a new GstStaticPadTemplate from current GstBinaryPadTemplate structure * * Returns: new GstStaticPadTemplate */ static gboolean gst_registry_binary_load_pad_template (GstElementFactory * factory, gchar ** in) { GstBinaryPadTemplate *pt; GstStaticPadTemplate *template; align32 (*in); GST_DEBUG ("Reading/casting for GstBinaryPadTemplate at address %p", *in); unpack_element (*in, pt, GstBinaryPadTemplate); template = g_new0 (GstStaticPadTemplate, 1); template->presence = pt->presence; template->direction = pt->direction; /* unpack pad template strings */ unpack_const_string (*in, template->name_template); unpack_string (*in, template->static_caps.string); __gst_element_factory_add_static_pad_template (factory, template); GST_DEBUG ("Added pad_template %s", template->name_template); return TRUE; } /* * gst_registry_binary_load_feature: * * Make a new GstPluginFeature from current binary plugin feature structure * * Returns: new GstPluginFeature */ static gboolean gst_registry_binary_load_feature (GstRegistry * registry, gchar ** in, const gchar * plugin_name) { GstBinaryPluginFeature *pf = NULL; GstPluginFeature *feature; gchar *type_name = NULL, *str; GType type; guint i; /* unpack plugin feature strings */ unpack_string (*in, type_name); if (!type_name || !*(type_name)) return FALSE; GST_DEBUG ("Plugin '%s' feature typename : '%s'", plugin_name, type_name); if (!(type = g_type_from_name (type_name))) { GST_ERROR ("Unknown type from typename '%s' for plugin '%s'", type_name, plugin_name); return FALSE; } if ((feature = g_object_new (type, NULL)) == NULL) { GST_ERROR ("Can't create feature from type"); return FALSE; } if (!GST_IS_PLUGIN_FEATURE (feature)) { GST_ERROR ("typename : '%s' is not a plgin feature", type_name); goto fail; } /* unpack more plugin feature strings */ unpack_string (*in, feature->name); if (GST_IS_ELEMENT_FACTORY (feature)) { GstBinaryElementFactory *ef; GstElementFactory *factory = GST_ELEMENT_FACTORY (feature); align32 (*in); GST_LOG ("Reading/casting for GstBinaryElementFactory at address %p", *in); unpack_element (*in, ef, GstBinaryElementFactory); pf = (GstBinaryPluginFeature *) ef; /* unpack element factory strings */ unpack_string (*in, factory->details.longname); unpack_string (*in, factory->details.klass); unpack_string (*in, factory->details.description); unpack_string (*in, factory->details.author); GST_DEBUG ("Element factory : '%s' with npadtemplates=%d", factory->details.longname, ef->npadtemplates); /* load pad templates */ for (i = 0; i < ef->npadtemplates; i++) { if (!gst_registry_binary_load_pad_template (factory, in)) { GST_ERROR ("Error while loading binary pad template"); goto fail; } } /* load uritypes */ if (ef->nuriprotocols) { GST_DEBUG ("Reading %d UriTypes at address %p", ef->nuriprotocols, *in); align32 (*in); factory->uri_type = *((guint *) * in); *in += sizeof (factory->uri_type); //unpack_element(*in, &factory->uri_type, factory->uri_type); factory->uri_protocols = g_new0 (gchar *, ef->nuriprotocols + 1); for (i = 0; i < ef->nuriprotocols; i++) { unpack_string (*in, str); factory->uri_protocols[i] = str; } } /* load interfaces */ GST_DEBUG ("Reading %d Interfaces at address %p", ef->ninterfaces, *in); for (i = 0; i < ef->ninterfaces; i++) { unpack_string (*in, str); __gst_element_factory_add_interface (factory, str); g_free (str); } } else if (GST_IS_TYPE_FIND_FACTORY (feature)) { GstBinaryTypeFindFactory *tff; GstTypeFindFactory *factory = GST_TYPE_FIND_FACTORY (feature); align32 (*in); GST_DEBUG ("Reading/casting for GstBinaryPluginFeature at address %p", *in); unpack_element (*in, tff, GstBinaryTypeFindFactory); pf = (GstBinaryPluginFeature *) tff; /* load caps */ unpack_string (*in, str); factory->caps = gst_caps_from_string (str); g_free (str); /* load extensions */ if (tff->nextensions) { GST_DEBUG ("Reading %d Typefind extensions at address %p", tff->nextensions, *in); factory->extensions = g_new0 (gchar *, tff->nextensions + 1); for (i = 0; i < tff->nextensions; i++) { unpack_string (*in, str); factory->extensions[i] = str; } } } #ifndef GST_DISABLE_INDEX else if (GST_IS_INDEX_FACTORY (feature)) { GstIndexFactory *factory = GST_INDEX_FACTORY (feature); align32 (*in); GST_DEBUG ("Reading/casting for GstBinaryPluginFeature at address %p", *in); unpack_element (*in, pf, GstBinaryPluginFeature); /* unpack index factory strings */ unpack_string (*in, factory->longdesc); } #endif feature->rank = pf->rank; /* should already be the interned string, but better make sure */ feature->plugin_name = g_intern_string (plugin_name); gst_registry_add_feature (registry, feature); GST_DEBUG ("Added feature %s", feature->name); g_free (type_name); return TRUE; /* Errors */ fail: g_free (type_name); if (GST_IS_OBJECT (feature)) gst_object_unref (feature); else g_object_unref (feature); return FALSE; } /* * gst_registry_binary_load_plugin: * * Make a new GstPlugin from current GstBinaryPluginElement structure * and save it to the GstRegistry. Return an offset to the next * GstBinaryPluginElement structure. */ static gboolean gst_registry_binary_load_plugin (GstRegistry * registry, gchar ** in) { GstBinaryPluginElement *pe; GstPlugin *plugin = NULL; guint i; align32 (*in); GST_LOG ("Reading/casting for GstBinaryPluginElement at address %p", *in); unpack_element (*in, pe, GstBinaryPluginElement); if (pe->nfeatures < 0) { GST_ERROR ("The number of feature structure is not valid !"); return FALSE; } if (pe->file_mtime < 0 || pe->file_size < 0) { GST_ERROR ("Plugin time or file size is not valid !"); return FALSE; } plugin = g_object_new (GST_TYPE_PLUGIN, NULL); /* TODO: also set GST_PLUGIN_FLAG_CONST */ plugin->flags |= GST_PLUGIN_FLAG_CACHED; plugin->file_mtime = pe->file_mtime; plugin->file_size = pe->file_size; /* unpack plugin element strings */ unpack_const_string (*in, plugin->desc.name); unpack_string (*in, plugin->desc.description); unpack_string (*in, plugin->filename); unpack_const_string (*in, plugin->desc.version); unpack_const_string (*in, plugin->desc.license); unpack_const_string (*in, plugin->desc.source); unpack_const_string (*in, plugin->desc.package); unpack_const_string (*in, plugin->desc.origin); GST_LOG ("read strings for '%s'", plugin->desc.name); plugin->basename = g_path_get_basename (plugin->filename); gst_registry_add_plugin (registry, plugin); GST_INFO ("Added plugin '%s' plugin with %d features from binary registry", plugin->desc.name, pe->nfeatures); for (i = 0; i < pe->nfeatures; i++) { if (!gst_registry_binary_load_feature (registry, in, plugin->desc.name)) { GST_ERROR ("Error while loading binary feature"); goto fail; } } return TRUE; /* Errors */ fail: gst_object_unref (plugin); return FALSE; } /** * gst_registry_binary_read_cache: * @registry: a #GstRegistry * @location: a filename * * Read the contents of the binary cache file at @location into @registry. * * Returns: %TRUE on success. */ gboolean gst_registry_binary_read_cache (GstRegistry * registry, const char *location) { GMappedFile *mapped = NULL; GTimer *timer = NULL; gchar *contents = NULL; gchar *in = NULL; gdouble seconds; gsize size; GError *err = NULL; gboolean res = FALSE; /* make sure these types exist */ GST_TYPE_ELEMENT_FACTORY; GST_TYPE_TYPE_FIND_FACTORY; #ifndef GST_DISABLE_INDEX GST_TYPE_INDEX_FACTORY; #endif timer = g_timer_new (); mapped = g_mapped_file_new (location, FALSE, &err); if (err != NULL) { GST_INFO ("Unable to mmap file %s : %s", location, err->message); g_error_free (err); err = NULL; g_file_get_contents (location, &contents, &size, &err); if (err != NULL) { GST_INFO ("Unable to read file %s : %s", location, err->message); g_timer_destroy (timer); g_error_free (err); return FALSE; } } else { if ((contents = g_mapped_file_get_contents (mapped)) == NULL) { GST_ERROR ("Can't load file %s : %s", location, g_strerror (errno)); goto Error; } /* check length for header */ size = g_mapped_file_get_length (mapped); } /* in is a cursor pointer, we initialize it with the begin of registry and is updated on each read */ in = contents; GST_DEBUG ("File data at address %p", in); if (size < sizeof (GstBinaryRegistryMagic)) { GST_ERROR ("No or broken registry header"); goto Error; } /* check if header is valid */ if (!gst_registry_binary_check_magic (&in)) { GST_ERROR ("Binary registry type not recognized (invalid magic) for file at %s", location); goto Error; } /* check if there are plugins in the file */ if (!(((gsize) in + sizeof (GstBinaryPluginElement)) < (gsize) contents + size)) { GST_INFO ("No binary plugins structure to read"); /* empty file, this is not an error */ } else { for (; ((gsize) in + sizeof (GstBinaryPluginElement)) < (gsize) contents + size;) { GST_DEBUG ("reading binary registry %" G_GSIZE_FORMAT "(%x)/%" G_GSIZE_FORMAT, (gsize) in - (gsize) contents, (guint) ((gsize) in - (gsize) contents), size); if (!gst_registry_binary_load_plugin (registry, &in)) { GST_ERROR ("Problem while reading binary registry"); goto Error; } } } g_timer_stop (timer); seconds = g_timer_elapsed (timer, NULL); GST_INFO ("loaded %s in %lf seconds", location, seconds); res = TRUE; /* TODO: once we re-use the pointers to registry contents return here */ Error: g_timer_destroy (timer); if (mapped) { g_mapped_file_free (mapped); } else { g_free (contents); } return res; } /* FIXME 0.11: these are here for backwards compatibility */ gboolean gst_registry_xml_read_cache (GstRegistry * registry, const char *location) { return FALSE; } gboolean gst_registry_xml_write_cache (GstRegistry * registry, const char *location) { return FALSE; }