/* * Carla Plugin discovery * Copyright (C) 2011-2016 Filipe Coelho * * 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 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. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ #include "CarlaBackendUtils.hpp" #include "CarlaLibUtils.hpp" #include "CarlaMathUtils.hpp" #include "CarlaMIDI.h" #include "LinkedList.hpp" #if defined(CARLA_OS_MAC) || defined(CARLA_OS_WIN) # define USE_JUCE_PROCESSORS # include "juce_audio_processors/juce_audio_processors.h" #endif #ifdef BUILD_BRIDGE # undef HAVE_FLUIDSYNTH # undef HAVE_LINUXSAMPLER #endif #include "CarlaLadspaUtils.hpp" #include "CarlaDssiUtils.cpp" #include "CarlaLv2Utils.hpp" #include "CarlaVstUtils.hpp" // need to include this before linuxsampler #define CARLA_UTILS_CACHED_PLUGINS_ONLY #include "CarlaUtils.cpp" #ifdef HAVE_FLUIDSYNTH # include #endif #ifdef HAVE_LINUXSAMPLER # include "linuxsampler/EngineFactory.h" #endif #include #include "juce_core/juce_core.h" #define DISCOVERY_OUT(x, y) std::cout << "\ncarla-discovery::" << x << "::" << y << std::endl; using juce::CharPointer_UTF8; using juce::File; using juce::String; using juce::StringArray; CARLA_BACKEND_USE_NAMESPACE // -------------------------------------------------------------------------- // Dummy values to test plugins with static const uint32_t kBufferSize = 512; static const double kSampleRate = 44100.0; static const int32_t kSampleRatei = 44100; static const float kSampleRatef = 44100.0f; // -------------------------------------------------------------------------- // Don't print ELF/EXE related errors since discovery can find multi-architecture binaries static void print_lib_error(const char* const filename) { const char* const error(lib_error(filename)); if (error != nullptr && std::strstr(error, "wrong ELF class") == nullptr && std::strstr(error, "Bad EXE format") == nullptr) DISCOVERY_OUT("error", error); } #ifndef CARLA_OS_MAC // -------------------------------------------------------------------------- // VST stuff // Check if plugin is currently processing static bool gVstIsProcessing = false; // Check if plugin needs idle static bool gVstNeedsIdle = false; // Check if plugin wants midi static bool gVstWantsMidi = false; // Check if plugin wants time static bool gVstWantsTime = false; // Current uniqueId for VST shell plugins static intptr_t gVstCurrentUniqueId = 0; // Supported Carla features static intptr_t vstHostCanDo(const char* const feature) { carla_debug("vstHostCanDo(\"%s\")", feature); if (std::strcmp(feature, "supplyIdle") == 0) return 1; if (std::strcmp(feature, "sendVstEvents") == 0) return 1; if (std::strcmp(feature, "sendVstMidiEvent") == 0) return 1; if (std::strcmp(feature, "sendVstMidiEventFlagIsRealtime") == 0) return 1; if (std::strcmp(feature, "sendVstTimeInfo") == 0) { gVstWantsTime = true; return 1; } if (std::strcmp(feature, "receiveVstEvents") == 0) return 1; if (std::strcmp(feature, "receiveVstMidiEvent") == 0) return 1; if (std::strcmp(feature, "receiveVstTimeInfo") == 0) return -1; if (std::strcmp(feature, "reportConnectionChanges") == 0) return -1; if (std::strcmp(feature, "acceptIOChanges") == 0) return 1; if (std::strcmp(feature, "sizeWindow") == 0) return 1; if (std::strcmp(feature, "offline") == 0) return -1; if (std::strcmp(feature, "openFileSelector") == 0) return -1; if (std::strcmp(feature, "closeFileSelector") == 0) return -1; if (std::strcmp(feature, "startStopProcess") == 0) return 1; if (std::strcmp(feature, "supportShell") == 0) return 1; if (std::strcmp(feature, "shellCategory") == 0) return 1; // non-official features found in some plugins: // "asyncProcessing" // "editFile" // unimplemented carla_stderr("vstHostCanDo(\"%s\") - unknown feature", feature); return 0; } // Host-side callback static intptr_t VSTCALLBACK vstHostCallback(AEffect* const effect, const int32_t opcode, const int32_t index, const intptr_t value, void* const ptr, const float opt) { carla_debug("vstHostCallback(%p, %i:%s, %i, " P_INTPTR ", %p, %f)", effect, opcode, vstMasterOpcode2str(opcode), index, value, ptr, opt); static VstTimeInfo timeInfo; intptr_t ret = 0; switch (opcode) { case audioMasterAutomate: ret = 1; break; case audioMasterVersion: ret = kVstVersion; break; case audioMasterCurrentId: ret = gVstCurrentUniqueId; break; case DECLARE_VST_DEPRECATED(audioMasterWantMidi): if (gVstWantsMidi) { DISCOVERY_OUT("warning", "Plugin requested MIDI more than once"); } gVstWantsMidi = true; ret = 1; break; case audioMasterGetTime: if (! gVstIsProcessing) { DISCOVERY_OUT("warning", "Plugin requested timeInfo out of process"); } if (! gVstWantsTime) { DISCOVERY_OUT("warning", "Plugin requested timeInfo but didn't ask if host could do \"sendVstTimeInfo\""); } carla_zeroStruct(timeInfo); timeInfo.sampleRate = kSampleRate; // Tempo timeInfo.tempo = 120.0; timeInfo.flags |= kVstTempoValid; // Time Signature timeInfo.timeSigNumerator = 4; timeInfo.timeSigDenominator = 4; timeInfo.flags |= kVstTimeSigValid; ret = (intptr_t)&timeInfo; break; case DECLARE_VST_DEPRECATED(audioMasterTempoAt): ret = 120 * 10000; break; case DECLARE_VST_DEPRECATED(audioMasterGetNumAutomatableParameters): ret = carla_minPositive(effect->numParams, static_cast(MAX_DEFAULT_PARAMETERS)); break; case DECLARE_VST_DEPRECATED(audioMasterGetParameterQuantization): ret = 1; // full single float precision break; case DECLARE_VST_DEPRECATED(audioMasterNeedIdle): if (gVstNeedsIdle) { DISCOVERY_OUT("warning", "Plugin requested idle more than once"); } gVstNeedsIdle = true; ret = 1; break; case audioMasterGetSampleRate: ret = kSampleRatei; break; case audioMasterGetBlockSize: ret = kBufferSize; break; case DECLARE_VST_DEPRECATED(audioMasterWillReplaceOrAccumulate): ret = 1; // replace break; case audioMasterGetCurrentProcessLevel: ret = gVstIsProcessing ? kVstProcessLevelRealtime : kVstProcessLevelUser; break; case audioMasterGetAutomationState: ret = kVstAutomationOff; break; case audioMasterGetVendorString: CARLA_SAFE_ASSERT_BREAK(ptr != nullptr); std::strcpy((char*)ptr, "falkTX"); ret = 1; break; case audioMasterGetProductString: CARLA_SAFE_ASSERT_BREAK(ptr != nullptr); std::strcpy((char*)ptr, "Carla-Discovery"); ret = 1; break; case audioMasterGetVendorVersion: ret = CARLA_VERSION_HEX; break; case audioMasterCanDo: CARLA_SAFE_ASSERT_BREAK(ptr != nullptr); ret = vstHostCanDo((const char*)ptr); break; case audioMasterGetLanguage: ret = kVstLangEnglish; break; default: carla_stdout("vstHostCallback(%p, %i:%s, %i, " P_INTPTR ", %p, %f)", effect, opcode, vstMasterOpcode2str(opcode), index, value, ptr, opt); break; } return ret; } #endif // ! CARLA_OS_MAC #ifdef HAVE_LINUXSAMPLER // -------------------------------------------------------------------------- // LinuxSampler stuff class LinuxSamplerScopedEngine { public: LinuxSamplerScopedEngine(const char* const filename, const char* const stype) : fEngine(nullptr) { using namespace LinuxSampler; try { fEngine = EngineFactory::Create(stype); } catch (const Exception& e) { DISCOVERY_OUT("error", e.what()); return; } if (fEngine == nullptr) return; InstrumentManager* const insMan(fEngine->GetInstrumentManager()); if (insMan == nullptr) { DISCOVERY_OUT("error", "Failed to get LinuxSampler instrument manager"); return; } std::vector ids; try { ids = insMan->GetInstrumentFileContent(filename); } catch (const InstrumentManagerException& e) { DISCOVERY_OUT("error", e.what()); return; } if (ids.size() == 0) { DISCOVERY_OUT("error", "Failed to find any instruments"); return; } InstrumentManager::instrument_info_t info; try { info = insMan->GetInstrumentInfo(ids[0]); } catch (const InstrumentManagerException& e) { DISCOVERY_OUT("error", e.what()); return; } outputInfo(&info, nullptr, ids.size() > 1); } ~LinuxSamplerScopedEngine() { if (fEngine != nullptr) { LinuxSampler::EngineFactory::Destroy(fEngine); fEngine = nullptr; } } static void outputInfo(const LinuxSampler::InstrumentManager::instrument_info_t* const info, const char* const basename, const bool has16Outs) { CarlaString name; const char* label; if (info != nullptr) { name = info->InstrumentName.c_str(); label = info->Product.c_str(); } else { name = basename; label = basename; } // 2 channels DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", PLUGIN_IS_SYNTH); DISCOVERY_OUT("name", name.buffer()); DISCOVERY_OUT("label", label); if (info != nullptr) DISCOVERY_OUT("maker", info->Artists); DISCOVERY_OUT("audio.outs", 2); DISCOVERY_OUT("midi.ins", 1); DISCOVERY_OUT("end", "------------"); // 16 channels if (name.isEmpty() || ! has16Outs) return; name += " (16 outputs)"; DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", PLUGIN_IS_SYNTH); DISCOVERY_OUT("name", name.buffer()); DISCOVERY_OUT("label", label); if (info != nullptr) DISCOVERY_OUT("maker", info->Artists); DISCOVERY_OUT("audio.outs", 32); DISCOVERY_OUT("midi.ins", 1); DISCOVERY_OUT("end", "------------"); } private: LinuxSampler::Engine* fEngine; CARLA_PREVENT_HEAP_ALLOCATION CARLA_DECLARE_NON_COPY_CLASS(LinuxSamplerScopedEngine) }; #endif // HAVE_LINUXSAMPLER // ------------------------------ Plugin Checks ----------------------------- static void do_cached_check(const PluginType type) { const char* const plugPath = (type == PLUGIN_LV2) ? std::getenv("LV2_PATH") : nullptr; const uint count = carla_get_cached_plugin_count(type, plugPath); for (uint i=0; ihints); DISCOVERY_OUT("name", pinfo->name); DISCOVERY_OUT("maker", pinfo->maker); DISCOVERY_OUT("label", pinfo->label); DISCOVERY_OUT("audio.ins", pinfo->audioIns); DISCOVERY_OUT("audio.outs", pinfo->audioOuts); DISCOVERY_OUT("midi.ins", pinfo->midiIns); DISCOVERY_OUT("midi.outs", pinfo->midiOuts); DISCOVERY_OUT("parameters.ins", pinfo->parameterIns); DISCOVERY_OUT("parameters.outs", pinfo->parameterOuts); DISCOVERY_OUT("end", "------------"); } } static void do_ladspa_check(lib_t& libHandle, const char* const filename, const bool doInit) { LADSPA_Descriptor_Function descFn = lib_symbol(libHandle, "ladspa_descriptor"); if (descFn == nullptr) { DISCOVERY_OUT("error", "Not a LADSPA plugin"); return; } const LADSPA_Descriptor* descriptor; { descriptor = descFn(0); if (descriptor == nullptr) { DISCOVERY_OUT("error", "Binary doesn't contain any plugins"); return; } if (doInit && descriptor->instantiate != nullptr && descriptor->cleanup != nullptr) { LADSPA_Handle handle = descriptor->instantiate(descriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init first LADSPA plugin"); return; } descriptor->cleanup(handle); lib_close(libHandle); libHandle = lib_open(filename); if (libHandle == nullptr) { print_lib_error(filename); return; } descFn = lib_symbol(libHandle, "ladspa_descriptor"); if (descFn == nullptr) { DISCOVERY_OUT("error", "Not a LADSPA plugin (#2)"); return; } } } unsigned long i = 0; while ((descriptor = descFn(i++)) != nullptr) { if (descriptor->instantiate == nullptr) { DISCOVERY_OUT("error", "Plugin '" << descriptor->Name << "' has no instantiate()"); continue; } if (descriptor->cleanup == nullptr) { DISCOVERY_OUT("error", "Plugin '" << descriptor->Name << "' has no cleanup()"); continue; } if (descriptor->run == nullptr) { DISCOVERY_OUT("error", "Plugin '" << descriptor->Name << "' has no run()"); continue; } if (! LADSPA_IS_HARD_RT_CAPABLE(descriptor->Properties)) { DISCOVERY_OUT("warning", "Plugin '" << descriptor->Name << "' is not hard real-time capable"); } uint hints = 0x0; int audioIns = 0; int audioOuts = 0; int audioTotal = 0; int parametersIns = 0; int parametersOuts = 0; int parametersTotal = 0; if (LADSPA_IS_HARD_RT_CAPABLE(descriptor->Properties)) hints |= PLUGIN_IS_RTSAFE; for (unsigned long j=0; j < descriptor->PortCount; ++j) { CARLA_ASSERT(descriptor->PortNames[j] != nullptr); const LADSPA_PortDescriptor portDescriptor = descriptor->PortDescriptors[j]; if (LADSPA_IS_PORT_AUDIO(portDescriptor)) { if (LADSPA_IS_PORT_INPUT(portDescriptor)) audioIns += 1; else if (LADSPA_IS_PORT_OUTPUT(portDescriptor)) audioOuts += 1; audioTotal += 1; } else if (LADSPA_IS_PORT_CONTROL(portDescriptor)) { if (LADSPA_IS_PORT_INPUT(portDescriptor)) parametersIns += 1; else if (LADSPA_IS_PORT_OUTPUT(portDescriptor) && std::strcmp(descriptor->PortNames[j], "latency") != 0 && std::strcmp(descriptor->PortNames[j], "_latency") != 0) parametersOuts += 1; parametersTotal += 1; } } if (doInit) { // ----------------------------------------------------------------------- // start crash-free plugin test LADSPA_Handle handle = descriptor->instantiate(descriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init LADSPA plugin"); continue; } // Test quick init and cleanup descriptor->cleanup(handle); handle = descriptor->instantiate(descriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init LADSPA plugin (#2)"); continue; } LADSPA_Data bufferAudio[kBufferSize][audioTotal]; LADSPA_Data bufferParams[parametersTotal]; LADSPA_Data min, max, def; for (unsigned long j=0, iA=0, iC=0; j < descriptor->PortCount; ++j) { const LADSPA_PortDescriptor portDescriptor = descriptor->PortDescriptors[j]; const LADSPA_PortRangeHint portRangeHints = descriptor->PortRangeHints[j]; const char* const portName = descriptor->PortNames[j]; if (LADSPA_IS_PORT_AUDIO(portDescriptor)) { carla_zeroFloats(bufferAudio[iA], kBufferSize); descriptor->connect_port(handle, j, bufferAudio[iA++]); } else if (LADSPA_IS_PORT_CONTROL(portDescriptor)) { // min value if (LADSPA_IS_HINT_BOUNDED_BELOW(portRangeHints.HintDescriptor)) min = portRangeHints.LowerBound; else min = 0.0f; // max value if (LADSPA_IS_HINT_BOUNDED_ABOVE(portRangeHints.HintDescriptor)) max = portRangeHints.UpperBound; else max = 1.0f; if (min > max) { DISCOVERY_OUT("warning", "Parameter '" << portName << "' is broken: min > max"); max = min + 0.1f; } else if (carla_isEqual(min, max)) { DISCOVERY_OUT("warning", "Parameter '" << portName << "' is broken: max == min"); max = min + 0.1f; } // default value def = get_default_ladspa_port_value(portRangeHints.HintDescriptor, min, max); if (LADSPA_IS_HINT_SAMPLE_RATE(portRangeHints.HintDescriptor)) { min *= kSampleRatef; max *= kSampleRatef; def *= kSampleRatef; } if (LADSPA_IS_PORT_OUTPUT(portDescriptor) && (std::strcmp(portName, "latency") == 0 || std::strcmp(portName, "_latency") == 0)) { // latency parameter def = 0.0f; } else { if (def < min) def = min; else if (def > max) def = max; } bufferParams[iC] = def; descriptor->connect_port(handle, j, &bufferParams[iC++]); } } if (descriptor->activate != nullptr) descriptor->activate(handle); descriptor->run(handle, kBufferSize); if (descriptor->deactivate != nullptr) descriptor->deactivate(handle); descriptor->cleanup(handle); // end crash-free plugin test // ----------------------------------------------------------------------- } DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", hints); DISCOVERY_OUT("name", descriptor->Name); DISCOVERY_OUT("label", descriptor->Label); DISCOVERY_OUT("maker", descriptor->Maker); DISCOVERY_OUT("uniqueId", descriptor->UniqueID); DISCOVERY_OUT("audio.ins", audioIns); DISCOVERY_OUT("audio.outs", audioOuts); DISCOVERY_OUT("parameters.ins", parametersIns); DISCOVERY_OUT("parameters.outs", parametersOuts); DISCOVERY_OUT("end", "------------"); } } static void do_dssi_check(lib_t& libHandle, const char* const filename, const bool doInit) { DSSI_Descriptor_Function descFn = lib_symbol(libHandle, "dssi_descriptor"); if (descFn == nullptr) { DISCOVERY_OUT("error", "Not a DSSI plugin"); return; } const DSSI_Descriptor* descriptor; { descriptor = descFn(0); if (descriptor == nullptr) { DISCOVERY_OUT("error", "Binary doesn't contain any plugins"); return; } const LADSPA_Descriptor* const ldescriptor(descriptor->LADSPA_Plugin); if (ldescriptor == nullptr) { DISCOVERY_OUT("error", "DSSI plugin doesn't provide the LADSPA interface"); return; } if (doInit && ldescriptor->instantiate != nullptr && ldescriptor->cleanup != nullptr) { LADSPA_Handle handle = ldescriptor->instantiate(ldescriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init first LADSPA plugin"); return; } ldescriptor->cleanup(handle); lib_close(libHandle); libHandle = lib_open(filename); if (libHandle == nullptr) { print_lib_error(filename); return; } descFn = lib_symbol(libHandle, "dssi_descriptor"); if (descFn == nullptr) { DISCOVERY_OUT("error", "Not a DSSI plugin (#2)"); return; } } } unsigned long i = 0; while ((descriptor = descFn(i++)) != nullptr) { const LADSPA_Descriptor* const ldescriptor(descriptor->LADSPA_Plugin); if (ldescriptor == nullptr) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' has no LADSPA interface"); continue; } if (descriptor->DSSI_API_Version != DSSI_VERSION_MAJOR) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' uses an unsupported DSSI spec version " << descriptor->DSSI_API_Version); continue; } if (ldescriptor->instantiate == nullptr) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' has no instantiate()"); continue; } if (ldescriptor->cleanup == nullptr) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' has no cleanup()"); continue; } if (ldescriptor->run == nullptr && descriptor->run_synth == nullptr) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' has no run() or run_synth()"); continue; } if (descriptor->run_synth == nullptr && descriptor->run_multiple_synths != nullptr) { DISCOVERY_OUT("error", "Plugin '" << ldescriptor->Name << "' requires run_multiple_synths which is not supported"); continue; } if (! LADSPA_IS_HARD_RT_CAPABLE(ldescriptor->Properties)) { DISCOVERY_OUT("warning", "Plugin '" << ldescriptor->Name << "' is not hard real-time capable"); } uint hints = 0x0; int audioIns = 0; int audioOuts = 0; int audioTotal = 0; int midiIns = 0; int parametersIns = 0; int parametersOuts = 0; int parametersTotal = 0; if (LADSPA_IS_HARD_RT_CAPABLE(ldescriptor->Properties)) hints |= PLUGIN_IS_RTSAFE; for (unsigned long j=0; j < ldescriptor->PortCount; ++j) { CARLA_ASSERT(ldescriptor->PortNames[j] != nullptr); const LADSPA_PortDescriptor portDescriptor = ldescriptor->PortDescriptors[j]; if (LADSPA_IS_PORT_AUDIO(portDescriptor)) { if (LADSPA_IS_PORT_INPUT(portDescriptor)) audioIns += 1; else if (LADSPA_IS_PORT_OUTPUT(portDescriptor)) audioOuts += 1; audioTotal += 1; } else if (LADSPA_IS_PORT_CONTROL(portDescriptor)) { if (LADSPA_IS_PORT_INPUT(portDescriptor)) parametersIns += 1; else if (LADSPA_IS_PORT_OUTPUT(portDescriptor) && std::strcmp(ldescriptor->PortNames[j], "latency") != 0 && std::strcmp(ldescriptor->PortNames[j], "_latency") != 0) parametersOuts += 1; parametersTotal += 1; } } if (descriptor->run_synth != nullptr) midiIns = 1; if (midiIns > 0 && audioIns == 0 && audioOuts > 0) hints |= PLUGIN_IS_SYNTH; if (const char* const ui = find_dssi_ui(filename, ldescriptor->Label)) { hints |= PLUGIN_HAS_CUSTOM_UI; delete[] ui; } if (doInit) { // ----------------------------------------------------------------------- // start crash-free plugin test LADSPA_Handle handle = ldescriptor->instantiate(ldescriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init DSSI plugin"); continue; } // Test quick init and cleanup ldescriptor->cleanup(handle); handle = ldescriptor->instantiate(ldescriptor, kSampleRatei); if (handle == nullptr) { DISCOVERY_OUT("error", "Failed to init DSSI plugin (#2)"); continue; } LADSPA_Data bufferAudio[kBufferSize][audioTotal]; LADSPA_Data bufferParams[parametersTotal]; LADSPA_Data min, max, def; for (unsigned long j=0, iA=0, iC=0; j < ldescriptor->PortCount; ++j) { const LADSPA_PortDescriptor portDescriptor = ldescriptor->PortDescriptors[j]; const LADSPA_PortRangeHint portRangeHints = ldescriptor->PortRangeHints[j]; const char* const portName = ldescriptor->PortNames[j]; if (LADSPA_IS_PORT_AUDIO(portDescriptor)) { carla_zeroFloats(bufferAudio[iA], kBufferSize); ldescriptor->connect_port(handle, j, bufferAudio[iA++]); } else if (LADSPA_IS_PORT_CONTROL(portDescriptor)) { // min value if (LADSPA_IS_HINT_BOUNDED_BELOW(portRangeHints.HintDescriptor)) min = portRangeHints.LowerBound; else min = 0.0f; // max value if (LADSPA_IS_HINT_BOUNDED_ABOVE(portRangeHints.HintDescriptor)) max = portRangeHints.UpperBound; else max = 1.0f; if (min > max) { DISCOVERY_OUT("warning", "Parameter '" << portName << "' is broken: min > max"); max = min + 0.1f; } else if (carla_isEqual(min, max)) { DISCOVERY_OUT("warning", "Parameter '" << portName << "' is broken: max == min"); max = min + 0.1f; } // default value def = get_default_ladspa_port_value(portRangeHints.HintDescriptor, min, max); if (LADSPA_IS_HINT_SAMPLE_RATE(portRangeHints.HintDescriptor)) { min *= kSampleRatef; max *= kSampleRatef; def *= kSampleRatef; } if (LADSPA_IS_PORT_OUTPUT(portDescriptor) && (std::strcmp(portName, "latency") == 0 || std::strcmp(portName, "_latency") == 0)) { // latency parameter def = 0.0f; } else { if (def < min) def = min; else if (def > max) def = max; } bufferParams[iC] = def; ldescriptor->connect_port(handle, j, &bufferParams[iC++]); } } // select first midi-program if available if (descriptor->get_program != nullptr && descriptor->select_program != nullptr) { if (const DSSI_Program_Descriptor* const pDesc = descriptor->get_program(handle, 0)) descriptor->select_program(handle, pDesc->Bank, pDesc->Program); } if (ldescriptor->activate != nullptr) ldescriptor->activate(handle); if (descriptor->run_synth != nullptr) { snd_seq_event_t midiEvents[2]; carla_zeroStructs(midiEvents, 2); const unsigned long midiEventCount = 2; midiEvents[0].type = SND_SEQ_EVENT_NOTEON; midiEvents[0].data.note.note = 64; midiEvents[0].data.note.velocity = 100; midiEvents[1].type = SND_SEQ_EVENT_NOTEOFF; midiEvents[1].data.note.note = 64; midiEvents[1].data.note.velocity = 0; midiEvents[1].time.tick = kBufferSize/2; descriptor->run_synth(handle, kBufferSize, midiEvents, midiEventCount); } else ldescriptor->run(handle, kBufferSize); if (ldescriptor->deactivate != nullptr) ldescriptor->deactivate(handle); ldescriptor->cleanup(handle); // end crash-free plugin test // ----------------------------------------------------------------------- } DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", hints); DISCOVERY_OUT("name", ldescriptor->Name); DISCOVERY_OUT("label", ldescriptor->Label); DISCOVERY_OUT("maker", ldescriptor->Maker); DISCOVERY_OUT("uniqueId", ldescriptor->UniqueID); DISCOVERY_OUT("audio.ins", audioIns); DISCOVERY_OUT("audio.outs", audioOuts); DISCOVERY_OUT("midi.ins", midiIns); DISCOVERY_OUT("parameters.ins", parametersIns); DISCOVERY_OUT("parameters.outs", parametersOuts); DISCOVERY_OUT("end", "------------"); } } static void do_lv2_check(const char* const bundle, const bool doInit) { Lv2WorldClass& lv2World(Lv2WorldClass::getInstance()); Lilv::Node bundleNode(lv2World.new_file_uri(nullptr, bundle)); CARLA_SAFE_ASSERT_RETURN(bundleNode.is_uri(),); CarlaString sBundle(bundleNode.as_uri()); if (! sBundle.endsWith("/")) sBundle += "/"; // Load bundle lv2World.load_bundle(sBundle); // Load plugins in this bundle const Lilv::Plugins lilvPlugins(lv2World.get_all_plugins()); // Get all plugin URIs in this bundle StringArray URIs; LILV_FOREACH(plugins, it, lilvPlugins) { Lilv::Plugin lilvPlugin(lilv_plugins_get(lilvPlugins, it)); if (const char* const uri = lilvPlugin.get_uri().as_string()) URIs.addIfNotAlreadyThere(String(uri)); } if (URIs.size() == 0) { DISCOVERY_OUT("warning", "LV2 Bundle doesn't provide any plugins"); return; } // Get & check every plugin-instance for (int i=0, count=URIs.size(); i < count; ++i) { const LV2_RDF_Descriptor* const rdfDescriptor(lv2_rdf_new(URIs[i].toRawUTF8(), false)); if (rdfDescriptor == nullptr || rdfDescriptor->URI == nullptr) { DISCOVERY_OUT("error", "Failed to find LV2 plugin '" << URIs[i].toRawUTF8() << "'"); continue; } if (doInit) { // test if DLL is loadable, twice const lib_t libHandle1 = lib_open(rdfDescriptor->Binary); if (libHandle1 == nullptr) { print_lib_error(rdfDescriptor->Binary); delete rdfDescriptor; continue; } lib_close(libHandle1); const lib_t libHandle2 = lib_open(rdfDescriptor->Binary); if (libHandle2 == nullptr) { print_lib_error(rdfDescriptor->Binary); delete rdfDescriptor; continue; } lib_close(libHandle2); } // test if we support all required ports and features { bool supported = true; for (uint32_t j=0; j < rdfDescriptor->PortCount && supported; ++j) { const LV2_RDF_Port* const rdfPort(&rdfDescriptor->Ports[j]); if (is_lv2_port_supported(rdfPort->Types)) { pass(); } else if (! LV2_IS_PORT_OPTIONAL(rdfPort->Properties)) { DISCOVERY_OUT("error", "Plugin '" << rdfDescriptor->URI << "' requires a non-supported port type (portName: '" << rdfPort->Name << "')"); supported = false; break; } } for (uint32_t j=0; j < rdfDescriptor->FeatureCount && supported; ++j) { const LV2_RDF_Feature& feature(rdfDescriptor->Features[j]); if (std::strcmp(feature.URI, LV2_DATA_ACCESS_URI) == 0 || std::strcmp(feature.URI, LV2_INSTANCE_ACCESS_URI) == 0) { DISCOVERY_OUT("warning", "Plugin '" << rdfDescriptor->URI << "' DSP wants UI feature '" << feature.URI << "', ignoring this"); } else if (feature.Required && ! is_lv2_feature_supported(feature.URI)) { DISCOVERY_OUT("error", "Plugin '" << rdfDescriptor->URI << "' requires a non-supported feature '" << feature.URI << "'"); supported = false; break; } } if (! supported) { delete rdfDescriptor; continue; } } uint hints = 0x0; int audioIns = 0; int audioOuts = 0; int midiIns = 0; int midiOuts = 0; int parametersIns = 0; int parametersOuts = 0; for (uint32_t j=0; j < rdfDescriptor->FeatureCount; ++j) { const LV2_RDF_Feature* const rdfFeature(&rdfDescriptor->Features[j]); if (std::strcmp(rdfFeature->URI, LV2_CORE__hardRTCapable) == 0) hints |= PLUGIN_IS_RTSAFE; } for (uint32_t j=0; j < rdfDescriptor->PortCount; ++j) { const LV2_RDF_Port* const rdfPort(&rdfDescriptor->Ports[j]); if (LV2_IS_PORT_AUDIO(rdfPort->Types)) { if (LV2_IS_PORT_INPUT(rdfPort->Types)) audioIns += 1; else if (LV2_IS_PORT_OUTPUT(rdfPort->Types)) audioOuts += 1; } else if (LV2_IS_PORT_CONTROL(rdfPort->Types)) { if (LV2_IS_PORT_DESIGNATION_LATENCY(rdfPort->Designation)) { pass(); } else if (LV2_IS_PORT_DESIGNATION_SAMPLE_RATE(rdfPort->Designation)) { pass(); } else if (LV2_IS_PORT_DESIGNATION_FREEWHEELING(rdfPort->Designation)) { pass(); } else if (LV2_IS_PORT_DESIGNATION_TIME(rdfPort->Designation)) { pass(); } else { if (LV2_IS_PORT_INPUT(rdfPort->Types)) parametersIns += 1; else if (LV2_IS_PORT_OUTPUT(rdfPort->Types)) parametersOuts += 1; } } else if (LV2_PORT_SUPPORTS_MIDI_EVENT(rdfPort->Types)) { if (LV2_IS_PORT_INPUT(rdfPort->Types)) midiIns += 1; else if (LV2_IS_PORT_OUTPUT(rdfPort->Types)) midiOuts += 1; } } if (LV2_IS_INSTRUMENT(rdfDescriptor->Type[0], rdfDescriptor->Type[1])) hints |= PLUGIN_IS_SYNTH; if (rdfDescriptor->UICount > 0) hints |= PLUGIN_HAS_CUSTOM_UI; DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", hints); if (rdfDescriptor->Name != nullptr) DISCOVERY_OUT("name", rdfDescriptor->Name); if (rdfDescriptor->Author != nullptr) DISCOVERY_OUT("maker", rdfDescriptor->Author); DISCOVERY_OUT("uri", rdfDescriptor->URI); DISCOVERY_OUT("uniqueId", rdfDescriptor->UniqueID); DISCOVERY_OUT("audio.ins", audioIns); DISCOVERY_OUT("audio.outs", audioOuts); DISCOVERY_OUT("midi.ins", midiIns); DISCOVERY_OUT("midi.outs", midiOuts); DISCOVERY_OUT("parameters.ins", parametersIns); DISCOVERY_OUT("parameters.outs", parametersOuts); DISCOVERY_OUT("end", "------------"); delete rdfDescriptor; } } #ifndef CARLA_OS_MAC static void do_vst_check(lib_t& libHandle, const bool doInit) { VST_Function vstFn = lib_symbol(libHandle, "VSTPluginMain"); if (vstFn == nullptr) { vstFn = lib_symbol(libHandle, "main"); if (vstFn == nullptr) { DISCOVERY_OUT("error", "Not a VST plugin"); return; } } AEffect* effect = vstFn(vstHostCallback); if (effect == nullptr || effect->magic != kEffectMagic) { DISCOVERY_OUT("error", "Failed to init VST plugin, or VST magic failed"); return; } if (effect->uniqueID == 0) { DISCOVERY_OUT("error", "Plugin doesn't have an Unique ID"); effect->dispatcher(effect, effClose, 0, 0, nullptr, 0.0f); return; } effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdentify), 0, 0, nullptr, 0.0f); effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effSetBlockSizeAndSampleRate), 0, kBufferSize, nullptr, kSampleRate); effect->dispatcher(effect, effSetSampleRate, 0, 0, nullptr, kSampleRate); effect->dispatcher(effect, effSetBlockSize, 0, kBufferSize, nullptr, 0.0f); effect->dispatcher(effect, effSetProcessPrecision, 0, kVstProcessPrecision32, nullptr, 0.0f); effect->dispatcher(effect, effOpen, 0, 0, nullptr, 0.0f); if (effect->numPrograms > 0) effect->dispatcher(effect, effSetProgram, 0, 0, nullptr, 0.0f); const bool isShell = (effect->dispatcher(effect, effGetPlugCategory, 0, 0, nullptr, 0.0f) == kPlugCategShell); gVstCurrentUniqueId = effect->uniqueID; char strBuf[STR_MAX+1]; CarlaString cName; CarlaString cProduct; CarlaString cVendor; LinkedList uniqueIds; if (isShell) { for (;;) { carla_zeroChars(strBuf, STR_MAX+1); gVstCurrentUniqueId = effect->dispatcher(effect, effShellGetNextPlugin, 0, 0, strBuf, 0.0f); if (gVstCurrentUniqueId == 0) break; uniqueIds.append(gVstCurrentUniqueId); } effect->dispatcher(effect, effClose, 0, 0, nullptr, 0.0f); effect = nullptr; } else { uniqueIds.append(gVstCurrentUniqueId); } for (LinkedList::Itenerator it = uniqueIds.begin2(); it.valid(); it.next()) { gVstCurrentUniqueId = it.getValue(0); if (effect == nullptr) { effect = vstFn(vstHostCallback); effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdentify), 0, 0, nullptr, 0.0f); effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effSetBlockSizeAndSampleRate), 0, kBufferSize, nullptr, kSampleRate); effect->dispatcher(effect, effSetSampleRate, 0, 0, nullptr, kSampleRate); effect->dispatcher(effect, effSetBlockSize, 0, kBufferSize, nullptr, 0.0f); effect->dispatcher(effect, effSetProcessPrecision, 0, kVstProcessPrecision32, nullptr, 0.0f); effect->dispatcher(effect, effOpen, 0, 0, nullptr, 0.0f); if (effect->numPrograms > 0) effect->dispatcher(effect, effSetProgram, 0, 0, nullptr, 0.0f); } // get name carla_zeroChars(strBuf, STR_MAX+1); if (effect->dispatcher(effect, effGetEffectName, 0, 0, strBuf, 0.0f) == 1) cName = strBuf; else cName.clear(); // get product carla_zeroChars(strBuf, STR_MAX+1); if (effect->dispatcher(effect, effGetProductString, 0, 0, strBuf, 0.0f) == 1) cProduct = strBuf; else cProduct.clear(); // get vendor carla_zeroChars(strBuf, STR_MAX+1); if (effect->dispatcher(effect, effGetVendorString, 0, 0, strBuf, 0.0f) == 1) cVendor = strBuf; else cVendor.clear(); // get everything else uint hints = 0x0; int audioIns = effect->numInputs; int audioOuts = effect->numOutputs; int midiIns = 0; int midiOuts = 0; int parameters = effect->numParams; if (effect->flags & effFlagsHasEditor) hints |= PLUGIN_HAS_CUSTOM_UI; if (effect->flags & effFlagsIsSynth) hints |= PLUGIN_IS_SYNTH; if (vstPluginCanDo(effect, "receiveVstEvents") || vstPluginCanDo(effect, "receiveVstMidiEvent") || (effect->flags & effFlagsIsSynth) != 0) midiIns = 1; if (vstPluginCanDo(effect, "sendVstEvents") || vstPluginCanDo(effect, "sendVstMidiEvent")) midiOuts = 1; // ----------------------------------------------------------------------- // start crash-free plugin test if (doInit) { if (gVstNeedsIdle) effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdle), 0, 0, nullptr, 0.0f); effect->dispatcher(effect, effMainsChanged, 0, 1, nullptr, 0.0f); effect->dispatcher(effect, effStartProcess, 0, 0, nullptr, 0.0f); if (gVstNeedsIdle) effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdle), 0, 0, nullptr, 0.0f); // Plugin might call wantMidi() during resume if (midiIns == 0 && gVstWantsMidi) { midiIns = 1; } float* bufferAudioIn[audioIns]; for (int j=0; j < audioIns; ++j) { bufferAudioIn[j] = new float[kBufferSize]; carla_zeroFloats(bufferAudioIn[j], kBufferSize); } float* bufferAudioOut[audioOuts]; for (int j=0; j < audioOuts; ++j) { bufferAudioOut[j] = new float[kBufferSize]; carla_zeroFloats(bufferAudioOut[j], kBufferSize); } struct VstEventsFixed { int32_t numEvents; intptr_t reserved; VstEvent* data[2]; VstEventsFixed() : numEvents(0), reserved(0) { data[0] = data[1] = nullptr; } } events; VstMidiEvent midiEvents[2]; carla_zeroStructs(midiEvents, 2); midiEvents[0].type = kVstMidiType; midiEvents[0].byteSize = sizeof(VstMidiEvent); midiEvents[0].midiData[0] = char(MIDI_STATUS_NOTE_ON); midiEvents[0].midiData[1] = 64; midiEvents[0].midiData[2] = 100; midiEvents[1].type = kVstMidiType; midiEvents[1].byteSize = sizeof(VstMidiEvent); midiEvents[1].midiData[0] = char(MIDI_STATUS_NOTE_OFF); midiEvents[1].midiData[1] = 64; midiEvents[1].deltaFrames = kBufferSize/2; events.numEvents = 2; events.data[0] = (VstEvent*)&midiEvents[0]; events.data[1] = (VstEvent*)&midiEvents[1]; // processing gVstIsProcessing = true; if (midiIns > 0) effect->dispatcher(effect, effProcessEvents, 0, 0, &events, 0.0f); if ((effect->flags & effFlagsCanReplacing) > 0 && effect->processReplacing != nullptr && effect->processReplacing != effect->DECLARE_VST_DEPRECATED(process)) effect->processReplacing(effect, bufferAudioIn, bufferAudioOut, kBufferSize); else if (effect->DECLARE_VST_DEPRECATED(process) != nullptr) effect->DECLARE_VST_DEPRECATED(process)(effect, bufferAudioIn, bufferAudioOut, kBufferSize); else DISCOVERY_OUT("error", "Plugin doesn't have a process function"); gVstIsProcessing = false; effect->dispatcher(effect, effStopProcess, 0, 0, nullptr, 0.0f); effect->dispatcher(effect, effMainsChanged, 0, 0, nullptr, 0.0f); if (gVstNeedsIdle) effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdle), 0, 0, nullptr, 0.0f); for (int j=0; j < audioIns; ++j) delete[] bufferAudioIn[j]; for (int j=0; j < audioOuts; ++j) delete[] bufferAudioOut[j]; } // end crash-free plugin test // ----------------------------------------------------------------------- DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", hints); DISCOVERY_OUT("name", cName.buffer()); DISCOVERY_OUT("label", cProduct.buffer()); DISCOVERY_OUT("maker", cVendor.buffer()); DISCOVERY_OUT("uniqueId", gVstCurrentUniqueId); DISCOVERY_OUT("audio.ins", audioIns); DISCOVERY_OUT("audio.outs", audioOuts); DISCOVERY_OUT("midi.ins", midiIns); DISCOVERY_OUT("midi.outs", midiOuts); DISCOVERY_OUT("parameters.ins", parameters); DISCOVERY_OUT("end", "------------"); gVstWantsMidi = false; gVstWantsTime = false; if (! isShell) break; effect->dispatcher(effect, effClose, 0, 0, nullptr, 0.0f); effect = nullptr; } uniqueIds.clear(); if (effect == nullptr) return; if (gVstNeedsIdle) effect->dispatcher(effect, DECLARE_VST_DEPRECATED(effIdle), 0, 0, nullptr, 0.0f); effect->dispatcher(effect, effClose, 0, 0, nullptr, 0.0f); } #endif // ! CARLA_OS_MAC #ifdef USE_JUCE_PROCESSORS static void do_juce_check(const char* const filename_, const char* const stype, const bool doInit) { CARLA_SAFE_ASSERT_RETURN(stype != nullptr && stype[0] != 0,) // FIXME carla_debug("do_juce_check(%s, %s, %s)", filename_, stype, bool2str(doInit)); using namespace juce; juce::String filename; #ifdef CARLA_OS_WIN // Fix for wine usage if (juce_isRunningInWine() && filename_[0] == '/') { filename = filename_; filename.replace("/", "\\"); filename = "Z:" + filename; } else #endif filename = File(filename_).getFullPathName(); juce::ScopedPointer pluginFormat; /* */ if (std::strcmp(stype, "VST2") == 0) { #if JUCE_PLUGINHOST_VST pluginFormat = new VSTPluginFormat(); #else DISCOVERY_OUT("error", "VST support not available"); #endif } else if (std::strcmp(stype, "VST3") == 0) { #if JUCE_PLUGINHOST_VST3 pluginFormat = new VST3PluginFormat(); #else DISCOVERY_OUT("error", "VST3 support not available"); #endif } else if (std::strcmp(stype, "AU") == 0) { #if JUCE_PLUGINHOST_AU pluginFormat = new AudioUnitPluginFormat(); #else DISCOVERY_OUT("error", "AU support not available"); #endif } if (pluginFormat == nullptr) { DISCOVERY_OUT("error", stype << " support not available"); return; } #ifdef CARLA_OS_WIN CARLA_SAFE_ASSERT_RETURN(File(filename).existsAsFile(),); #endif CARLA_SAFE_ASSERT_RETURN(pluginFormat->fileMightContainThisPluginType(filename),); OwnedArray results; pluginFormat->findAllTypesForFile(results, filename); if (results.size() == 0) { DISCOVERY_OUT("error", "No plugins found"); return; } for (PluginDescription **it = results.begin(), **end = results.end(); it != end; ++it) { PluginDescription* const desc(*it); uint hints = 0x0; int audioIns = desc->numInputChannels; int audioOuts = desc->numOutputChannels; int midiIns = 0; int midiOuts = 0; int parameters = 0; if (desc->isInstrument) hints |= PLUGIN_IS_SYNTH; if (doInit) { if (AudioPluginInstance* const instance = pluginFormat->createInstanceFromDescription(*desc, kSampleRate, kBufferSize)) { instance->refreshParameterList(); parameters = instance->getNumParameters(); if (instance->hasEditor()) hints |= PLUGIN_HAS_CUSTOM_UI; if (instance->acceptsMidi()) midiIns = 1; if (instance->producesMidi()) midiOuts = 1; delete instance; } } DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", hints); DISCOVERY_OUT("name", desc->descriptiveName); DISCOVERY_OUT("label", desc->name); DISCOVERY_OUT("maker", desc->manufacturerName); DISCOVERY_OUT("uniqueId", desc->uid); DISCOVERY_OUT("audio.ins", audioIns); DISCOVERY_OUT("audio.outs", audioOuts); DISCOVERY_OUT("midi.ins", midiIns); DISCOVERY_OUT("midi.outs", midiOuts); DISCOVERY_OUT("parameters.ins", parameters); DISCOVERY_OUT("end", "------------"); } } #endif static void do_fluidsynth_check(const char* const filename, const bool doInit) { #ifdef HAVE_FLUIDSYNTH const String jfilename = String(CharPointer_UTF8(filename)); const File file(jfilename); if (! file.existsAsFile()) { DISCOVERY_OUT("error", "Requested file is not valid or does not exist"); return; } if (! fluid_is_soundfont(filename)) { DISCOVERY_OUT("error", "Not a SF2 file"); return; } int programs = 0; if (doInit) { fluid_settings_t* const f_settings = new_fluid_settings(); CARLA_SAFE_ASSERT_RETURN(f_settings != nullptr,); fluid_synth_t* const f_synth = new_fluid_synth(f_settings); CARLA_SAFE_ASSERT_RETURN(f_synth != nullptr,); const int f_id = fluid_synth_sfload(f_synth, filename, 0); if (f_id < 0) { DISCOVERY_OUT("error", "Failed to load SF2 file"); return; } if (fluid_sfont_t* const f_sfont = fluid_synth_get_sfont_by_id(f_synth, static_cast(f_id))) { fluid_preset_t f_preset; f_sfont->iteration_start(f_sfont); for (; f_sfont->iteration_next(f_sfont, &f_preset);) ++programs; } delete_fluid_synth(f_synth); delete_fluid_settings(f_settings); } CarlaString name(file.getFileNameWithoutExtension().toRawUTF8()); CarlaString label(name); // 2 channels DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", PLUGIN_IS_SYNTH); DISCOVERY_OUT("name", name.buffer()); DISCOVERY_OUT("label", label.buffer()); DISCOVERY_OUT("audio.outs", 2); DISCOVERY_OUT("midi.ins", 1); DISCOVERY_OUT("parameters.ins", 13); // defined in Carla DISCOVERY_OUT("parameters.outs", 1); DISCOVERY_OUT("end", "------------"); // 16 channels if (doInit && (name.isEmpty() || programs <= 1)) return; name += " (16 outputs)"; DISCOVERY_OUT("init", "-----------"); DISCOVERY_OUT("build", BINARY_NATIVE); DISCOVERY_OUT("hints", PLUGIN_IS_SYNTH); DISCOVERY_OUT("name", name.buffer()); DISCOVERY_OUT("label", label.buffer()); DISCOVERY_OUT("audio.outs", 32); DISCOVERY_OUT("midi.ins", 1); DISCOVERY_OUT("parameters.ins", 13); // defined in Carla DISCOVERY_OUT("parameters.outs", 1); DISCOVERY_OUT("end", "------------"); #else // HAVE_FLUIDSYNTH DISCOVERY_OUT("error", "SF2 support not available"); return; // unused (void)filename; (void)doInit; #endif } static void do_linuxsampler_check(const char* const filename, const char* const stype, const bool doInit) { #ifdef HAVE_LINUXSAMPLER const String jfilename = String(CharPointer_UTF8(filename)); const File file(jfilename); if (! file.existsAsFile()) { DISCOVERY_OUT("error", "Requested file is not valid or does not exist"); return; } if (doInit) const LinuxSamplerScopedEngine engine(filename, stype); else LinuxSamplerScopedEngine::outputInfo(nullptr, file.getFileNameWithoutExtension().toRawUTF8(), std::strcmp(stype, "gig") == 0); #else // HAVE_LINUXSAMPLER DISCOVERY_OUT("error", stype << " support not available"); return; // unused (void)filename; (void)doInit; #endif } // ------------------------------ main entry point ------------------------------ int main(int argc, char* argv[]) { if (argc != 3) { carla_stdout("usage: %s ", argv[0]); return 1; } const char* const stype = argv[1]; const char* const filename = argv[2]; const PluginType type = getPluginTypeFromString(stype); CarlaString filenameCheck(filename); filenameCheck.toLower(); if (type != PLUGIN_GIG && type != PLUGIN_SF2 && type != PLUGIN_SFZ) { if (filenameCheck.contains("fluidsynth", true)) { DISCOVERY_OUT("info", "skipping fluidsynth based plugin"); return 0; } if (filenameCheck.contains("linuxsampler", true) || filenameCheck.endsWith("ls16.so")) { DISCOVERY_OUT("info", "skipping linuxsampler based plugin"); return 0; } } bool openLib = false; lib_t handle = nullptr; switch (type) { case PLUGIN_LADSPA: case PLUGIN_DSSI: #ifndef CARLA_OS_MAC case PLUGIN_VST2: openLib = true; #endif default: break; } if (openLib) { handle = lib_open(filename); if (handle == nullptr) { print_lib_error(filename); return 1; } } // never do init for dssi-vst, takes too long and it's crashy bool doInit = ! filenameCheck.contains("dssi-vst", true); if (doInit && getenv("CARLA_DISCOVERY_NO_PROCESSING_CHECKS") != nullptr) doInit = false; if (doInit && handle != nullptr) { // test fast loading & unloading DLL without initializing the plugin(s) if (! lib_close(handle)) { print_lib_error(filename); return 1; } handle = lib_open(filename); if (handle == nullptr) { print_lib_error(filename); return 1; } } if (std::strcmp(filename, ":all") == 0) { do_cached_check(type); return 0; } switch (type) { case PLUGIN_LADSPA: do_ladspa_check(handle, filename, doInit); break; case PLUGIN_DSSI: do_dssi_check(handle, filename, doInit); break; case PLUGIN_LV2: do_lv2_check(filename, doInit); break; case PLUGIN_VST2: #ifdef CARLA_OS_MAC do_juce_check(filename, "VST2", doInit); #else do_vst_check(handle, doInit); #endif break; case PLUGIN_VST3: #ifdef USE_JUCE_PROCESSORS do_juce_check(filename, "VST3", doInit); #else DISCOVERY_OUT("error", "VST3 support not available"); #endif break; case PLUGIN_AU: #ifdef USE_JUCE_PROCESSORS do_juce_check(filename, "AU", doInit); #else DISCOVERY_OUT("error", "AU support not available"); #endif break; case PLUGIN_GIG: do_linuxsampler_check(filename, "gig", doInit); break; case PLUGIN_SF2: do_fluidsynth_check(filename, doInit); break; case PLUGIN_SFZ: do_linuxsampler_check(filename, "sfz", doInit); break; default: break; } if (openLib && handle != nullptr) lib_close(handle); return 0; } // --------------------------------------------------------------------------