// // LADSPAInfo.C - Class for indexing information on LADSPA Plugins // // Copyleft (C) 2002 Mike Rawes // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define HAVE_LIBLRDF 1 #ifdef HAVE_LIBLRDF #include #endif #include "LADSPAInfo.h" using namespace std; LADSPAInfo::LADSPAInfo(bool override, const char *path_list) { if (strlen(path_list) > 0) { m_ExtraPaths = strdup(path_list); } else { m_ExtraPaths = NULL; } m_LADSPAPathOverride = override; RescanPlugins(); } LADSPAInfo::~LADSPAInfo() { CleanUp(); } void LADSPAInfo::RescanPlugins(void) { // Clear out what we've got CleanUp(); if (!m_LADSPAPathOverride) { // Get $LADPSA_PATH, if available char *ladspa_path = getenv("LADSPA_PATH"); if (ladspa_path) { ScanPathList(ladspa_path, &LADSPAInfo::ExaminePluginLibrary); } else { cerr << "WARNING: LADSPA_PATH environment variable not set" << endl; cerr << " Assuming /usr/lib/ladspa:/usr/local/lib/ladspa" << endl; ScanPathList("/usr/lib/ladspa:/usr/local/lib/ladspa", &LADSPAInfo::ExaminePluginLibrary); } } // Check any supplied extra paths if (m_ExtraPaths) { ScanPathList(m_ExtraPaths, &LADSPAInfo::ExaminePluginLibrary); } // Do we have any plugins now? if (m_Plugins.size() == 0) { cerr << "WARNING: No plugins found" << endl; } else { cerr << m_Plugins.size() << " plugins found in " << m_Libraries.size() << " libraries" << endl; #ifdef HAVE_LIBLRDF // Got some plugins. Now search for RDF data lrdf_init(); char *rdf_path = getenv("LADSPA_RDF_PATH"); if (rdf_path) { // Examine rdf info ScanPathList(rdf_path, &LADSPAInfo::ExamineRDFFile); } else { cerr << "WARNING: LADSPA_RDF_PATH environment variable not set" << endl; cerr << " Assuming /usr/share/ladspa/rdf:/usr/local/share/ladspa/rdf" << endl; // Examine rdf info ScanPathList("/usr/share/ladspa/rdf:/usr/local/share/ladspa/rdf", &LADSPAInfo::ExamineRDFFile); } MetadataRDFDescend(LADSPA_BASE "Plugin", 0); // See which plugins were not added to an rdf group, and add them // all into the top level 'LADSPA' one list rdf_p; // Get indices of plugins added to groups for (vector::iterator ri = m_RDFURIs.begin(); ri != m_RDFURIs.end(); ri++) { rdf_p.insert(rdf_p.begin(), ri->Plugins.begin(), ri->Plugins.end()); } // Add all uncategorized plugins to top level group, subclassed by their // library's basename. rdf_p.unique(); rdf_p.sort(); unsigned long last_p = 0; for (list::iterator p = rdf_p.begin(); p != rdf_p.end(); p++) { if ((*p - last_p) > 1) { for (unsigned long i = last_p + 1; i < *p; i++) { // URI 0 is top-level "LADSPA" group m_RDFURIs[0].Plugins.push_back(i); } } last_p = *p; } while (++last_p < m_Plugins.size()) { // URI 0 is top-level "LADSPA" group m_RDFURIs[0].Plugins.push_back(last_p); } lrdf_cleanup(); #else // No RDF. Add all plugins to top-level group RDFURIInfo ri; ri.URI = ""; ri.Label = "LADSPA"; m_RDFURIs.push_back(ri); m_RDFLabelLookup["LADSPA"] = 0; for (unsigned long i = 0; i < m_Plugins.size(); i++) { // Add plugin index m_RDFURIs[0].Plugins.push_back(i); } #endif } } void LADSPAInfo::UnloadAllLibraries(void) { // Blank descriptors for (vector::iterator i = m_Plugins.begin(); i != m_Plugins.end(); i++) { if (i->Descriptor) i->Descriptor = NULL; } // Unload DLLs, for (vector::iterator i = m_Libraries.begin(); i != m_Libraries.end(); i++) { if (i->Handle) { dlclose(i->Handle); i->Handle = NULL; } i->RefCount = 0; } } const LADSPA_Descriptor * LADSPAInfo::GetDescriptorByID(unsigned long unique_id) { if (m_IDLookup.find(unique_id) == m_IDLookup.end()) { cerr << "LADSPA Plugin ID " << unique_id << " not found!" << endl; return NULL; } // Got plugin index unsigned long plugin_index = m_IDLookup[unique_id]; PluginInfo *pi = &(m_Plugins[plugin_index]); LibraryInfo *li = &(m_Libraries[pi->LibraryIndex]); if (!(pi->Descriptor)) { LADSPA_Descriptor_Function desc_func = GetDescriptorFunctionForLibrary(pi->LibraryIndex); if (desc_func) pi->Descriptor = desc_func(pi->Index); } if (pi->Descriptor) { // Success, so increment ref counter for library li->RefCount++; } return pi->Descriptor; } void LADSPAInfo::DiscardDescriptorByID(unsigned long unique_id) { if (m_IDLookup.find(unique_id) == m_IDLookup.end()) { cerr << "LADSPA Plugin ID " << unique_id << " not found!" << endl; } else { // Get plugin index unsigned long plugin_index = m_IDLookup[unique_id]; PluginInfo *pi = &(m_Plugins[plugin_index]); LibraryInfo *li = &(m_Libraries[pi->LibraryIndex]); pi->Descriptor = NULL; // Decrement reference counter for library, and unload if last if (li->RefCount > 0) { li->RefCount--; if (li->RefCount == 0) { // Unload library dlclose(li->Handle); li->Handle = NULL; } } } } // **************************************************************************** // ** SSM Specific Functions ** // **************************************************************************** unsigned long LADSPAInfo::GetIDFromFilenameAndLabel(std::string filename, std::string label) { bool library_loaded = false; if (m_FilenameLookup.find(filename) == m_FilenameLookup.end()) { cerr << "LADSPA Library " << filename << " not found!" << endl; return 0; } unsigned long library_index = m_FilenameLookup[filename]; if (!(m_Libraries[library_index].Handle)) library_loaded = true; LADSPA_Descriptor_Function desc_func = GetDescriptorFunctionForLibrary(library_index); if (!desc_func) { return 0; } // Search for label in library const LADSPA_Descriptor *desc; for (unsigned long i = 0; (desc = desc_func(i)) != NULL; i++) { string l = desc->Label; if (l == label) { // If we had to load the library, unload it unsigned long id = desc->UniqueID; if (library_loaded) { dlclose(m_Libraries[library_index].Handle); m_Libraries[library_index].Handle = NULL; } return id; } } cerr << "Plugin " << label << " not found in library " << filename << endl; return 0; } const vector LADSPAInfo::GetMenuList(void) { m_SSMMenuList.clear(); DescendGroup("", "LADSPA", 1); return m_SSMMenuList; } unsigned long LADSPAInfo::GetPluginListEntryByID(unsigned long unique_id) { unsigned long j = 0; for (vector::iterator i = m_SSMMenuList.begin(); i != m_SSMMenuList.end(); i++, j++) { if (i->UniqueID == unique_id) return j; } return m_SSMMenuList.size(); } // **************************************************************************** // ** Private Member Functions ** // **************************************************************************** // Build a list of plugins by group, suitable for SSM LADSPA Plugin drop-down // The top-level "LADSPA" group is not included void LADSPAInfo::DescendGroup(string prefix, const string group, unsigned int depth) { list groups = GetSubGroups(group); if (prefix.length() > 0) { // Add an explicit '/' as we're creating sub-menus from groups prefix += "/"; } for (list::iterator g = groups.begin(); g != groups.end(); g++) { string name; // Escape '/' and '|' characters size_t x = g->find_first_of("/|"); if (x == string::npos) { name = *g; } else { size_t last_x = 0; while (x < string::npos) { name += g->substr(last_x, x - last_x) + '\\' + (*g)[x]; last_x = x + 1; x = g->find_first_of("/|", x + 1); } name += g->substr(last_x, x - last_x); } DescendGroup(prefix + name, *g, depth + 1); } if (m_RDFLabelLookup.find(group) != m_RDFLabelLookup.end()) { unsigned long uri_index = m_RDFLabelLookup[group]; // Create group for unclassified plugins if (prefix.length() == 0) { prefix = "Unclassified/"; depth = depth + 1; } // Temporary list (for sorting the plugins by name) list plugins; for (vector::iterator p = m_RDFURIs[uri_index].Plugins.begin(); p != m_RDFURIs[uri_index].Plugins.end(); p++) { PluginInfo *pi = &(m_Plugins[*p]); string name; // Escape '/' and '|' characters size_t x = pi->Name.find_first_of("/|"); if (x == string::npos) { name = pi->Name; } else { size_t last_x = 0; while (x < string::npos) { name += pi->Name.substr(last_x, x - last_x) + '\\' + pi->Name[x]; last_x = x + 1; x = pi->Name.find_first_of("/|", x + 1); } name += pi->Name.substr(last_x, x - last_x); } PluginEntry pe; pe.Depth = depth; pe.UniqueID = pi->UniqueID; pe.Name = prefix + name; plugins.push_back(pe); } plugins.sort(); // Deal with duplicates by numbering them for (list::iterator i = plugins.begin(); i != plugins.end(); ) { string name = i->Name; i++; unsigned long n = 2; while ((i != plugins.end()) && (i->Name == name)) { stringstream s; s << n; i->Name = name + " (" + s.str() + ")"; n++; i++; } } // Add all ordered entries to the Menu List // This ensures that plugins appear after groups for (list::iterator p = plugins.begin(); p != plugins.end(); p++) { m_SSMMenuList.push_back(*p); } } } // Get list of groups that are within given group. The root group is // always "LADSPA" list LADSPAInfo::GetSubGroups(const string group) { list groups; unsigned long uri_index; if (m_RDFLabelLookup.find(group) == m_RDFLabelLookup.end()) { return groups; } else { uri_index = m_RDFLabelLookup[group]; } for (vector::iterator sg = m_RDFURIs[uri_index].Children.begin(); sg != m_RDFURIs[uri_index].Children.end(); sg++) { groups.push_back(m_RDFURIs[*sg].Label); } groups.sort(); return groups; } // Unload any loaded DLLs and clear vectors etc void LADSPAInfo::CleanUp(void) { m_MaxInputPortCount = 0; m_IDLookup.clear(); m_Plugins.clear(); // Unload loaded dlls for (vector::iterator i = m_Libraries.begin(); i != m_Libraries.end(); i++) { if (i->Handle) dlclose(i->Handle); } m_Libraries.clear(); m_Paths.clear(); m_RDFURILookup.clear(); m_RDFURIs.clear(); if (m_ExtraPaths) { free(m_ExtraPaths); m_ExtraPaths = NULL; } } // Given a colon-separated list of paths, examine the contents of each // path, examining any regular files using the given member function, // which currently can be: // // ExaminePluginLibrary - add plugin library info from plugins // ExamineRDFFile - add plugin information from .rdf/.rdfs files void LADSPAInfo::ScanPathList(const char *path_list, void (LADSPAInfo::*ExamineFunc)(const string, const string)) { const char *start; const char *end; int extra; char *path; string basename; DIR *dp; struct dirent *ep; struct stat sb; // This does the same kind of thing as strtok, but strtok won't // like the const start = path_list; while (*start != '\0') { while (*start == ':') start++; end = start; while (*end != ':' && *end != '\0') end++; if (end - start > 0) { extra = (*(end - 1) == '/') ? 0 : 1; path = (char *)malloc(end - start + 1 + extra); if (path) { strncpy(path, start, end - start); if (extra == 1) path[end - start] = '/'; path[end - start + extra] = '\0'; dp = opendir(path); if (!dp) { cerr << "WARNING: Could not open path " << path << endl; } else { while ((ep = readdir(dp))) { // Stat file to get type basename = ep->d_name; if (!stat((path + basename).c_str(), &sb)) { // We only want regular files if (S_ISREG(sb.st_mode)) (*this.*ExamineFunc)(path, basename); } } closedir(dp); } free(path); } } start = end; } } // Check given file is a valid LADSPA Plugin library // // If so, add path, library and plugin info // to the m_Paths, m_Libraries and m_Plugins vectors. // void LADSPAInfo::ExaminePluginLibrary(const string path, const string basename) { void *handle; LADSPA_Descriptor_Function desc_func; const LADSPA_Descriptor *desc; string fullpath = path + basename; // We're not executing any code, so be lazy about resolving symbols handle = dlopen(fullpath.c_str(), RTLD_LAZY); if (!handle) { cerr << "WARNING: File " << fullpath << " could not be examined" << endl; cerr << "dlerror() output:" << endl; cerr << dlerror() << endl; } else { // It's a DLL, so now see if it's a LADSPA plugin library desc_func = (LADSPA_Descriptor_Function)dlsym(handle, "ladspa_descriptor"); if (!desc_func) { // Is DLL, but not a LADSPA one cerr << "WARNING: DLL " << fullpath << " has no ladspa_descriptor function" << endl; cerr << "dlerror() output:" << endl; cerr << dlerror() << endl; } else { // Got ladspa_descriptor, so we can now get plugin info bool library_added = false; unsigned long i = 0; desc = desc_func(i); while (desc) { // First, check that it's not a dupe if (m_IDLookup.find(desc->UniqueID) != m_IDLookup.end()) { unsigned long plugin_index = m_IDLookup[desc->UniqueID]; unsigned long library_index = m_Plugins[plugin_index].LibraryIndex; unsigned long path_index = m_Libraries[library_index].PathIndex; cerr << "WARNING: Duplicated Plugin ID (" << desc->UniqueID << ") found:" << endl; cerr << " Plugin " << m_Plugins[plugin_index].Index << " in library: " << m_Paths[path_index] << m_Libraries[library_index].Basename << " [First instance found]" << endl; cerr << " Plugin " << i << " in library: " << fullpath << " [Duplicate not added]" << endl; } else { if (CheckPlugin(desc)) { // Add path if not already added unsigned long path_index; vector::iterator p = find(m_Paths.begin(), m_Paths.end(), path); if (p == m_Paths.end()) { path_index = m_Paths.size(); m_Paths.push_back(path); } else { path_index = p - m_Paths.begin(); } // Add library info if not already added if (!library_added) { LibraryInfo li; li.PathIndex = path_index; li.Basename = basename; li.RefCount = 0; li.Handle = NULL; m_Libraries.push_back(li); library_added = true; } // Add plugin info PluginInfo pi; pi.LibraryIndex = m_Libraries.size() - 1; pi.Index = i; pi.UniqueID = desc->UniqueID; pi.Label = desc->Label; pi.Name = desc->Name; pi.Descriptor = NULL; m_Plugins.push_back(pi); // Find number of input ports unsigned long in_port_count = 0; for (unsigned long p = 0; p < desc->PortCount; p++) { if (LADSPA_IS_PORT_INPUT(desc->PortDescriptors[p])) { in_port_count++; } } if (in_port_count > m_MaxInputPortCount) { m_MaxInputPortCount = in_port_count; } // Add to index m_IDLookup[desc->UniqueID] = m_Plugins.size() - 1; } else { cerr << "WARNING: Plugin " << desc->UniqueID << " not added" << endl; } } desc = desc_func(++i); } } dlclose(handle); } } #ifdef HAVE_LIBLRDF // Examine given RDF plugin meta-data file void LADSPAInfo::ExamineRDFFile(const std::string path, const std::string basename) { string fileuri = "file://" + path + basename; if (lrdf_read_file(fileuri.c_str())) { cerr << "WARNING: File " << path + basename << " could not be parsed [Ignored]" << endl; } } // Recursively add rdf information for plugins that have been // found from scanning LADSPA_PATH void LADSPAInfo::MetadataRDFDescend(const char * uri, unsigned long parent) { unsigned long this_uri_index; // Check URI not already added if (m_RDFURILookup.find(uri) == m_RDFURILookup.end()) { // Not found RDFURIInfo ri; ri.URI = uri; if (ri.URI == LADSPA_BASE "Plugin") { // Add top level group as "LADSPA" // This will always happen, even if there are no .rdf files read by liblrdf // or if there is no liblrdf support ri.Label = "LADSPA"; } else { char * label = lrdf_get_label(uri); if (label) { ri.Label = label; } else { ri.Label = "(No label)"; } } // Add any instances found lrdf_uris * instances = lrdf_get_instances(uri); if (instances) { for (unsigned long j = 0; j < instances->count; j++) { unsigned long uid = lrdf_get_uid(instances->items[j]); if (m_IDLookup.find(uid) != m_IDLookup.end()) { ri.Plugins.push_back(m_IDLookup[uid]); } } } lrdf_free_uris(instances); m_RDFURIs.push_back(ri); this_uri_index = m_RDFURIs.size() - 1; m_RDFURILookup[ri.URI] = this_uri_index; m_RDFLabelLookup[ri.Label] = this_uri_index; } else { // Already added this_uri_index = m_RDFURILookup[uri]; } // Only add parent - child info if this uri is NOT the first (root) uri if (this_uri_index > 0) { m_RDFURIs[this_uri_index].Parents.push_back(parent); m_RDFURIs[parent].Children.push_back(this_uri_index); } lrdf_uris * uris = lrdf_get_subclasses(uri); if (uris) { for (unsigned long i = 0; i < uris->count; i++) { MetadataRDFDescend(uris->items[i], this_uri_index); } } lrdf_free_uris(uris); } #endif bool LADSPAInfo::CheckPlugin(const LADSPA_Descriptor *desc) { #define test(t, m) { \ if (!(t)) { \ cerr << m << endl; \ return false; \ } \ } test(desc->instantiate, "WARNING: Plugin has no instatiate function"); test(desc->connect_port, "WARNING: Warning: Plugin has no connect_port funciton"); test(desc->run, "WARNING: Plugin has no run function"); test(!(desc->run_adding != 0 && desc->set_run_adding_gain == 0), "WARNING: Plugin has run_adding but no set_run_adding_gain"); test(!(desc->run_adding == 0 && desc->set_run_adding_gain != 0), "WARNING: Plugin has set_run_adding_gain but no run_adding"); test(desc->cleanup, "WARNING: Plugin has no cleanup function"); test(!LADSPA_IS_INPLACE_BROKEN(desc->Properties), "WARNING: Plugin cannot use in place processing"); test(desc->PortCount, "WARNING: Plugin has no ports"); return true; } LADSPA_Descriptor_Function LADSPAInfo::GetDescriptorFunctionForLibrary(unsigned long library_index) { LibraryInfo *li = &(m_Libraries[library_index]); if (!(li->Handle)) { // Need full path string fullpath = m_Paths[li->PathIndex]; fullpath.append(li->Basename); // Immediate symbol resolution, as plugin code is likely to be executed li->Handle = dlopen(fullpath.c_str(), RTLD_NOW); if (!(li->Handle)) { // Plugin library changed since last path scan cerr << "WARNING: Plugin library " << fullpath << " cannot be loaded" << endl; cerr << "Rescan of plugins recommended" << endl; cerr << "dlerror() output:" << endl; cerr << dlerror() << endl; return NULL; } } // Got handle so now verify that it's a LADSPA plugin library const LADSPA_Descriptor_Function desc_func = (LADSPA_Descriptor_Function)dlsym(li->Handle, "ladspa_descriptor"); if (!desc_func) { // Is DLL, but not a LADSPA one (changed since last path scan?) cerr << "WARNING: DLL " << m_Paths[li->PathIndex] << li->Basename << " has no ladspa_descriptor function" << endl; cerr << "Rescan of plugins recommended" << endl; cerr << "dlerror() output:" << endl; cerr << dlerror() << endl; // Unload library dlclose(li->Handle); return NULL; } return desc_func; }