//===-- PluginManager.cpp ---------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/Core/PluginManager.h" // C Includes // C++ Includes #include #include #include #include // Other libraries and framework includes #include "llvm/ADT/StringRef.h" #include "llvm/Support/DynamicLibrary.h" // Project includes #include "lldb/Core/Debugger.h" #include "lldb/Core/Error.h" #include "lldb/Host/FileSpec.h" #include "lldb/Host/Host.h" #include "lldb/Host/HostInfo.h" #include "lldb/Interpreter/OptionValueProperties.h" using namespace lldb; using namespace lldb_private; enum PluginAction { ePluginRegisterInstance, ePluginUnregisterInstance, ePluginGetInstanceAtIndex }; typedef bool (*PluginInitCallback)(); typedef void (*PluginTermCallback)(); struct PluginInfo { PluginInfo() : plugin_init_callback(nullptr), plugin_term_callback(nullptr) { } llvm::sys::DynamicLibrary library; PluginInitCallback plugin_init_callback; PluginTermCallback plugin_term_callback; }; typedef std::map PluginTerminateMap; static std::recursive_mutex & GetPluginMapMutex() { static std::recursive_mutex g_plugin_map_mutex; return g_plugin_map_mutex; } static PluginTerminateMap & GetPluginMap () { static PluginTerminateMap g_plugin_map; return g_plugin_map; } static bool PluginIsLoaded (const FileSpec &plugin_file_spec) { std::lock_guard guard(GetPluginMapMutex()); PluginTerminateMap &plugin_map = GetPluginMap (); return plugin_map.find (plugin_file_spec) != plugin_map.end(); } static void SetPluginInfo (const FileSpec &plugin_file_spec, const PluginInfo &plugin_info) { std::lock_guard guard(GetPluginMapMutex()); PluginTerminateMap &plugin_map = GetPluginMap (); assert (plugin_map.find (plugin_file_spec) == plugin_map.end()); plugin_map[plugin_file_spec] = plugin_info; } template static FPtrTy CastToFPtr (void *VPtr) { return reinterpret_cast(reinterpret_cast(VPtr)); } static FileSpec::EnumerateDirectoryResult LoadPluginCallback(void *baton, FileSpec::FileType file_type, const FileSpec &file_spec) { // PluginManager *plugin_manager = (PluginManager *)baton; Error error; // If we have a regular file, a symbolic link or unknown file type, try // and process the file. We must handle unknown as sometimes the directory // enumeration might be enumerating a file system that doesn't have correct // file type information. if (file_type == FileSpec::eFileTypeRegular || file_type == FileSpec::eFileTypeSymbolicLink || file_type == FileSpec::eFileTypeUnknown ) { FileSpec plugin_file_spec (file_spec); plugin_file_spec.ResolvePath(); if (PluginIsLoaded (plugin_file_spec)) return FileSpec::eEnumerateDirectoryResultNext; else { PluginInfo plugin_info; std::string pluginLoadError; plugin_info.library = llvm::sys::DynamicLibrary::getPermanentLibrary (plugin_file_spec.GetPath().c_str(), &pluginLoadError); if (plugin_info.library.isValid()) { bool success = false; plugin_info.plugin_init_callback = CastToFPtr(plugin_info.library.getAddressOfSymbol("LLDBPluginInitialize")); if (plugin_info.plugin_init_callback) { // Call the plug-in "bool LLDBPluginInitialize(void)" function success = plugin_info.plugin_init_callback(); } if (success) { // It is ok for the "LLDBPluginTerminate" symbol to be nullptr plugin_info.plugin_term_callback = CastToFPtr(plugin_info.library.getAddressOfSymbol("LLDBPluginTerminate")); } else { // The initialize function returned FALSE which means the plug-in might not be // compatible, or might be too new or too old, or might not want to run on this // machine. Set it to a default-constructed instance to invalidate it. plugin_info = PluginInfo(); } // Regardless of success or failure, cache the plug-in load // in our plug-in info so we don't try to load it again and // again. SetPluginInfo (plugin_file_spec, plugin_info); return FileSpec::eEnumerateDirectoryResultNext; } } } if (file_type == FileSpec::eFileTypeUnknown || file_type == FileSpec::eFileTypeDirectory || file_type == FileSpec::eFileTypeSymbolicLink ) { // Try and recurse into anything that a directory or symbolic link. // We must also do this for unknown as sometimes the directory enumeration // might be enumerating a file system that doesn't have correct file type // information. return FileSpec::eEnumerateDirectoryResultEnter; } return FileSpec::eEnumerateDirectoryResultNext; } void PluginManager::Initialize () { #if 1 FileSpec dir_spec; const bool find_directories = true; const bool find_files = true; const bool find_other = true; char dir_path[PATH_MAX]; if (HostInfo::GetLLDBPath(ePathTypeLLDBSystemPlugins, dir_spec)) { if (dir_spec.Exists() && dir_spec.GetPath(dir_path, sizeof(dir_path))) { FileSpec::EnumerateDirectory(dir_path, find_directories, find_files, find_other, LoadPluginCallback, nullptr); } } if (HostInfo::GetLLDBPath(ePathTypeLLDBUserPlugins, dir_spec)) { if (dir_spec.Exists() && dir_spec.GetPath(dir_path, sizeof(dir_path))) { FileSpec::EnumerateDirectory(dir_path, find_directories, find_files, find_other, LoadPluginCallback, nullptr); } } #endif } void PluginManager::Terminate () { std::lock_guard guard(GetPluginMapMutex()); PluginTerminateMap &plugin_map = GetPluginMap (); PluginTerminateMap::const_iterator pos, end = plugin_map.end(); for (pos = plugin_map.begin(); pos != end; ++pos) { // Call the plug-in "void LLDBPluginTerminate (void)" function if there // is one (if the symbol was not nullptr). if (pos->second.library.isValid()) { if (pos->second.plugin_term_callback) pos->second.plugin_term_callback(); } } plugin_map.clear(); } #pragma mark ABI struct ABIInstance { ABIInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; ABICreateInstance create_callback; }; typedef std::vector ABIInstances; static std::recursive_mutex & GetABIInstancesMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static ABIInstances & GetABIInstances () { static ABIInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, ABICreateInstance create_callback) { if (create_callback) { ABIInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetABIInstancesMutex()); GetABIInstances ().push_back (instance); return true; } return false; } bool PluginManager::UnregisterPlugin (ABICreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetABIInstancesMutex()); ABIInstances &instances = GetABIInstances (); ABIInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } ABICreateInstance PluginManager::GetABICreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetABIInstancesMutex()); ABIInstances &instances = GetABIInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } ABICreateInstance PluginManager::GetABICreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetABIInstancesMutex()); ABIInstances &instances = GetABIInstances (); ABIInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark Disassembler struct DisassemblerInstance { DisassemblerInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; DisassemblerCreateInstance create_callback; }; typedef std::vector DisassemblerInstances; static std::recursive_mutex & GetDisassemblerMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static DisassemblerInstances & GetDisassemblerInstances () { static DisassemblerInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, DisassemblerCreateInstance create_callback) { if (create_callback) { DisassemblerInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetDisassemblerMutex()); GetDisassemblerInstances ().push_back (instance); return true; } return false; } bool PluginManager::UnregisterPlugin (DisassemblerCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetDisassemblerMutex()); DisassemblerInstances &instances = GetDisassemblerInstances (); DisassemblerInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } DisassemblerCreateInstance PluginManager::GetDisassemblerCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetDisassemblerMutex()); DisassemblerInstances &instances = GetDisassemblerInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } DisassemblerCreateInstance PluginManager::GetDisassemblerCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetDisassemblerMutex()); DisassemblerInstances &instances = GetDisassemblerInstances (); DisassemblerInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark DynamicLoader struct DynamicLoaderInstance { DynamicLoaderInstance() : name(), description(), create_callback(nullptr), debugger_init_callback(nullptr) { } ConstString name; std::string description; DynamicLoaderCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector DynamicLoaderInstances; static std::recursive_mutex & GetDynamicLoaderMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static DynamicLoaderInstances & GetDynamicLoaderInstances () { static DynamicLoaderInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, DynamicLoaderCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { DynamicLoaderInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; std::lock_guard guard(GetDynamicLoaderMutex()); GetDynamicLoaderInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (DynamicLoaderCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetDynamicLoaderMutex()); DynamicLoaderInstances &instances = GetDynamicLoaderInstances (); DynamicLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } DynamicLoaderCreateInstance PluginManager::GetDynamicLoaderCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetDynamicLoaderMutex()); DynamicLoaderInstances &instances = GetDynamicLoaderInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } DynamicLoaderCreateInstance PluginManager::GetDynamicLoaderCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetDynamicLoaderMutex()); DynamicLoaderInstances &instances = GetDynamicLoaderInstances (); DynamicLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark JITLoader struct JITLoaderInstance { JITLoaderInstance() : name(), description(), create_callback(nullptr), debugger_init_callback(nullptr) { } ConstString name; std::string description; JITLoaderCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector JITLoaderInstances; static std::recursive_mutex & GetJITLoaderMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static JITLoaderInstances & GetJITLoaderInstances () { static JITLoaderInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, JITLoaderCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { JITLoaderInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; std::lock_guard guard(GetJITLoaderMutex()); GetJITLoaderInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (JITLoaderCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetJITLoaderMutex()); JITLoaderInstances &instances = GetJITLoaderInstances (); JITLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } JITLoaderCreateInstance PluginManager::GetJITLoaderCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetJITLoaderMutex()); JITLoaderInstances &instances = GetJITLoaderInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } JITLoaderCreateInstance PluginManager::GetJITLoaderCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetJITLoaderMutex()); JITLoaderInstances &instances = GetJITLoaderInstances (); JITLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark EmulateInstruction struct EmulateInstructionInstance { EmulateInstructionInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; EmulateInstructionCreateInstance create_callback; }; typedef std::vector EmulateInstructionInstances; static std::recursive_mutex & GetEmulateInstructionMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static EmulateInstructionInstances & GetEmulateInstructionInstances () { static EmulateInstructionInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, EmulateInstructionCreateInstance create_callback) { if (create_callback) { EmulateInstructionInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetEmulateInstructionMutex()); GetEmulateInstructionInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (EmulateInstructionCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetEmulateInstructionMutex()); EmulateInstructionInstances &instances = GetEmulateInstructionInstances (); EmulateInstructionInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } EmulateInstructionCreateInstance PluginManager::GetEmulateInstructionCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetEmulateInstructionMutex()); EmulateInstructionInstances &instances = GetEmulateInstructionInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } EmulateInstructionCreateInstance PluginManager::GetEmulateInstructionCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetEmulateInstructionMutex()); EmulateInstructionInstances &instances = GetEmulateInstructionInstances (); EmulateInstructionInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark OperatingSystem struct OperatingSystemInstance { OperatingSystemInstance () : name (), description (), create_callback (nullptr), debugger_init_callback (nullptr) { } ConstString name; std::string description; OperatingSystemCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector OperatingSystemInstances; static std::recursive_mutex & GetOperatingSystemMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static OperatingSystemInstances & GetOperatingSystemInstances () { static OperatingSystemInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, OperatingSystemCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { OperatingSystemInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; std::lock_guard guard(GetOperatingSystemMutex()); GetOperatingSystemInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (OperatingSystemCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetOperatingSystemMutex()); OperatingSystemInstances &instances = GetOperatingSystemInstances (); OperatingSystemInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } OperatingSystemCreateInstance PluginManager::GetOperatingSystemCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetOperatingSystemMutex()); OperatingSystemInstances &instances = GetOperatingSystemInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } OperatingSystemCreateInstance PluginManager::GetOperatingSystemCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetOperatingSystemMutex()); OperatingSystemInstances &instances = GetOperatingSystemInstances (); OperatingSystemInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark Language struct LanguageInstance { LanguageInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; LanguageCreateInstance create_callback; }; typedef std::vector LanguageInstances; static std::recursive_mutex & GetLanguageMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static LanguageInstances & GetLanguageInstances () { static LanguageInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, LanguageCreateInstance create_callback) { if (create_callback) { LanguageInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetLanguageMutex()); GetLanguageInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (LanguageCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetLanguageMutex()); LanguageInstances &instances = GetLanguageInstances (); LanguageInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } LanguageCreateInstance PluginManager::GetLanguageCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetLanguageMutex()); LanguageInstances &instances = GetLanguageInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } LanguageCreateInstance PluginManager::GetLanguageCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetLanguageMutex()); LanguageInstances &instances = GetLanguageInstances (); LanguageInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark LanguageRuntime struct LanguageRuntimeInstance { LanguageRuntimeInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; LanguageRuntimeCreateInstance create_callback; LanguageRuntimeGetCommandObject command_callback; }; typedef std::vector LanguageRuntimeInstances; static std::recursive_mutex & GetLanguageRuntimeMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static LanguageRuntimeInstances & GetLanguageRuntimeInstances () { static LanguageRuntimeInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, LanguageRuntimeCreateInstance create_callback, LanguageRuntimeGetCommandObject command_callback) { if (create_callback) { LanguageRuntimeInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.command_callback = command_callback; std::lock_guard guard(GetLanguageRuntimeMutex()); GetLanguageRuntimeInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (LanguageRuntimeCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetLanguageRuntimeMutex()); LanguageRuntimeInstances &instances = GetLanguageRuntimeInstances (); LanguageRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } LanguageRuntimeCreateInstance PluginManager::GetLanguageRuntimeCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetLanguageRuntimeMutex()); LanguageRuntimeInstances &instances = GetLanguageRuntimeInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } LanguageRuntimeGetCommandObject PluginManager::GetLanguageRuntimeGetCommandObjectAtIndex (uint32_t idx) { std::lock_guard guard(GetLanguageRuntimeMutex()); LanguageRuntimeInstances &instances = GetLanguageRuntimeInstances (); if (idx < instances.size()) return instances[idx].command_callback; return nullptr; } LanguageRuntimeCreateInstance PluginManager::GetLanguageRuntimeCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetLanguageRuntimeMutex()); LanguageRuntimeInstances &instances = GetLanguageRuntimeInstances (); LanguageRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark SystemRuntime struct SystemRuntimeInstance { SystemRuntimeInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; SystemRuntimeCreateInstance create_callback; }; typedef std::vector SystemRuntimeInstances; static std::recursive_mutex & GetSystemRuntimeMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static SystemRuntimeInstances & GetSystemRuntimeInstances () { static SystemRuntimeInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, SystemRuntimeCreateInstance create_callback) { if (create_callback) { SystemRuntimeInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetSystemRuntimeMutex()); GetSystemRuntimeInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (SystemRuntimeCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetSystemRuntimeMutex()); SystemRuntimeInstances &instances = GetSystemRuntimeInstances (); SystemRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } SystemRuntimeCreateInstance PluginManager::GetSystemRuntimeCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetSystemRuntimeMutex()); SystemRuntimeInstances &instances = GetSystemRuntimeInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } SystemRuntimeCreateInstance PluginManager::GetSystemRuntimeCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetSystemRuntimeMutex()); SystemRuntimeInstances &instances = GetSystemRuntimeInstances (); SystemRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark ObjectFile struct ObjectFileInstance { ObjectFileInstance() : name(), description(), create_callback(nullptr), create_memory_callback(nullptr), get_module_specifications(nullptr), save_core(nullptr) { } ConstString name; std::string description; ObjectFileCreateInstance create_callback; ObjectFileCreateMemoryInstance create_memory_callback; ObjectFileGetModuleSpecifications get_module_specifications; ObjectFileSaveCore save_core; }; typedef std::vector ObjectFileInstances; static std::recursive_mutex & GetObjectFileMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static ObjectFileInstances & GetObjectFileInstances () { static ObjectFileInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, ObjectFileCreateInstance create_callback, ObjectFileCreateMemoryInstance create_memory_callback, ObjectFileGetModuleSpecifications get_module_specifications, ObjectFileSaveCore save_core) { if (create_callback) { ObjectFileInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.create_memory_callback = create_memory_callback; instance.save_core = save_core; instance.get_module_specifications = get_module_specifications; std::lock_guard guard(GetObjectFileMutex()); GetObjectFileInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (ObjectFileCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); ObjectFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } ObjectFileCreateInstance PluginManager::GetObjectFileCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } ObjectFileCreateMemoryInstance PluginManager::GetObjectFileCreateMemoryCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); if (idx < instances.size()) return instances[idx].create_memory_callback; return nullptr; } ObjectFileGetModuleSpecifications PluginManager::GetObjectFileGetModuleSpecificationsCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); if (idx < instances.size()) return instances[idx].get_module_specifications; return nullptr; } ObjectFileCreateInstance PluginManager::GetObjectFileCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); ObjectFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } ObjectFileCreateMemoryInstance PluginManager::GetObjectFileCreateMemoryCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); ObjectFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_memory_callback; } } return nullptr; } Error PluginManager::SaveCore (const lldb::ProcessSP &process_sp, const FileSpec &outfile) { Error error; std::lock_guard guard(GetObjectFileMutex()); ObjectFileInstances &instances = GetObjectFileInstances (); ObjectFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->save_core && pos->save_core (process_sp, outfile, error)) return error; } error.SetErrorString("no ObjectFile plugins were able to save a core for this process"); return error; } #pragma mark ObjectContainer struct ObjectContainerInstance { ObjectContainerInstance() : name(), description(), create_callback(nullptr), get_module_specifications(nullptr) { } ConstString name; std::string description; ObjectContainerCreateInstance create_callback; ObjectFileGetModuleSpecifications get_module_specifications; }; typedef std::vector ObjectContainerInstances; static std::recursive_mutex & GetObjectContainerMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static ObjectContainerInstances & GetObjectContainerInstances () { static ObjectContainerInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, ObjectContainerCreateInstance create_callback, ObjectFileGetModuleSpecifications get_module_specifications) { if (create_callback) { ObjectContainerInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.get_module_specifications = get_module_specifications; std::lock_guard guard(GetObjectContainerMutex()); GetObjectContainerInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (ObjectContainerCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetObjectContainerMutex()); ObjectContainerInstances &instances = GetObjectContainerInstances (); ObjectContainerInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } ObjectContainerCreateInstance PluginManager::GetObjectContainerCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetObjectContainerMutex()); ObjectContainerInstances &instances = GetObjectContainerInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } ObjectContainerCreateInstance PluginManager::GetObjectContainerCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetObjectContainerMutex()); ObjectContainerInstances &instances = GetObjectContainerInstances (); ObjectContainerInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } ObjectFileGetModuleSpecifications PluginManager::GetObjectContainerGetModuleSpecificationsCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetObjectContainerMutex()); ObjectContainerInstances &instances = GetObjectContainerInstances (); if (idx < instances.size()) return instances[idx].get_module_specifications; return nullptr; } #pragma mark LogChannel struct LogInstance { LogInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; LogChannelCreateInstance create_callback; }; typedef std::vector LogInstances; static std::recursive_mutex & GetLogMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static LogInstances & GetLogInstances () { static LogInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, LogChannelCreateInstance create_callback) { if (create_callback) { LogInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard gard(GetLogMutex()); GetLogInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (LogChannelCreateInstance create_callback) { if (create_callback) { std::lock_guard gard(GetLogMutex()); LogInstances &instances = GetLogInstances (); LogInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } const char * PluginManager::GetLogChannelCreateNameAtIndex (uint32_t idx) { std::lock_guard gard(GetLogMutex()); LogInstances &instances = GetLogInstances (); if (idx < instances.size()) return instances[idx].name.GetCString(); return nullptr; } LogChannelCreateInstance PluginManager::GetLogChannelCreateCallbackAtIndex (uint32_t idx) { std::lock_guard gard(GetLogMutex()); LogInstances &instances = GetLogInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } LogChannelCreateInstance PluginManager::GetLogChannelCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard gard(GetLogMutex()); LogInstances &instances = GetLogInstances (); LogInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark Platform struct PlatformInstance { PlatformInstance() : name(), description(), create_callback(nullptr), debugger_init_callback(nullptr) { } ConstString name; std::string description; PlatformCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector PlatformInstances; static std::recursive_mutex & GetPlatformInstancesMutex() { static std::recursive_mutex g_platform_instances_mutex; return g_platform_instances_mutex; } static PlatformInstances & GetPlatformInstances () { static PlatformInstances g_platform_instances; return g_platform_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, PlatformCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; GetPlatformInstances ().push_back (instance); return true; } return false; } const char * PluginManager::GetPlatformPluginNameAtIndex (uint32_t idx) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); if (idx < instances.size()) return instances[idx].name.GetCString(); return nullptr; } const char * PluginManager::GetPlatformPluginDescriptionAtIndex (uint32_t idx) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); if (idx < instances.size()) return instances[idx].description.c_str(); return nullptr; } bool PluginManager::UnregisterPlugin (PlatformCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); PlatformInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } PlatformCreateInstance PluginManager::GetPlatformCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } PlatformCreateInstance PluginManager::GetPlatformCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); PlatformInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } size_t PluginManager::AutoCompletePlatformName (const char *name, StringList &matches) { if (name) { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); llvm::StringRef name_sref(name); PlatformInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { llvm::StringRef plugin_name (pos->name.GetCString()); if (plugin_name.startswith(name_sref)) matches.AppendString (plugin_name.data()); } } return matches.GetSize(); } #pragma mark Process struct ProcessInstance { ProcessInstance() : name(), description(), create_callback(nullptr), debugger_init_callback(nullptr) { } ConstString name; std::string description; ProcessCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector ProcessInstances; static std::recursive_mutex & GetProcessMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static ProcessInstances & GetProcessInstances () { static ProcessInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, ProcessCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { ProcessInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; std::lock_guard guard(GetProcessMutex()); GetProcessInstances ().push_back (instance); } return false; } const char * PluginManager::GetProcessPluginNameAtIndex (uint32_t idx) { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances (); if (idx < instances.size()) return instances[idx].name.GetCString(); return nullptr; } const char * PluginManager::GetProcessPluginDescriptionAtIndex (uint32_t idx) { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances (); if (idx < instances.size()) return instances[idx].description.c_str(); return nullptr; } bool PluginManager::UnregisterPlugin (ProcessCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances (); ProcessInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } ProcessCreateInstance PluginManager::GetProcessCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } ProcessCreateInstance PluginManager::GetProcessCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances (); ProcessInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark ScriptInterpreter struct ScriptInterpreterInstance { ScriptInterpreterInstance() : name() , language(lldb::eScriptLanguageNone) , description() , create_callback(nullptr) { } ConstString name; lldb::ScriptLanguage language; std::string description; ScriptInterpreterCreateInstance create_callback; }; typedef std::vector ScriptInterpreterInstances; static std::recursive_mutex & GetScriptInterpreterMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static ScriptInterpreterInstances & GetScriptInterpreterInstances() { static ScriptInterpreterInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, lldb::ScriptLanguage script_language, ScriptInterpreterCreateInstance create_callback) { if (!create_callback) return false; ScriptInterpreterInstance instance; assert((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.language = script_language; std::lock_guard guard(GetScriptInterpreterMutex()); GetScriptInterpreterInstances().push_back(instance); return false; } bool PluginManager::UnregisterPlugin(ScriptInterpreterCreateInstance create_callback) { if (!create_callback) return false; std::lock_guard guard(GetScriptInterpreterMutex()); ScriptInterpreterInstances &instances = GetScriptInterpreterInstances(); ScriptInterpreterInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++pos) { if (pos->create_callback != create_callback) continue; instances.erase(pos); return true; } return false; } ScriptInterpreterCreateInstance PluginManager::GetScriptInterpreterCreateCallbackAtIndex(uint32_t idx) { std::lock_guard guard(GetScriptInterpreterMutex()); ScriptInterpreterInstances &instances = GetScriptInterpreterInstances(); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } lldb::ScriptInterpreterSP PluginManager::GetScriptInterpreterForLanguage(lldb::ScriptLanguage script_lang, CommandInterpreter &interpreter) { std::lock_guard guard(GetScriptInterpreterMutex()); ScriptInterpreterInstances &instances = GetScriptInterpreterInstances(); ScriptInterpreterInstances::iterator pos, end = instances.end(); ScriptInterpreterCreateInstance none_instance = nullptr; for (pos = instances.begin(); pos != end; ++pos) { if (pos->language == lldb::eScriptLanguageNone) none_instance = pos->create_callback; if (script_lang == pos->language) return pos->create_callback(interpreter); } // If we didn't find one, return the ScriptInterpreter for the null language. assert(none_instance != nullptr); return none_instance(interpreter); } #pragma mark SymbolFile struct SymbolFileInstance { SymbolFileInstance() : name(), description(), create_callback(nullptr), debugger_init_callback(nullptr) { } ConstString name; std::string description; SymbolFileCreateInstance create_callback; DebuggerInitializeCallback debugger_init_callback; }; typedef std::vector SymbolFileInstances; static std::recursive_mutex & GetSymbolFileMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static SymbolFileInstances & GetSymbolFileInstances () { static SymbolFileInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, SymbolFileCreateInstance create_callback, DebuggerInitializeCallback debugger_init_callback) { if (create_callback) { SymbolFileInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.debugger_init_callback = debugger_init_callback; std::lock_guard guard(GetSymbolFileMutex()); GetSymbolFileInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (SymbolFileCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetSymbolFileMutex()); SymbolFileInstances &instances = GetSymbolFileInstances (); SymbolFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } SymbolFileCreateInstance PluginManager::GetSymbolFileCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetSymbolFileMutex()); SymbolFileInstances &instances = GetSymbolFileInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } SymbolFileCreateInstance PluginManager::GetSymbolFileCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetSymbolFileMutex()); SymbolFileInstances &instances = GetSymbolFileInstances (); SymbolFileInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark SymbolVendor struct SymbolVendorInstance { SymbolVendorInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; SymbolVendorCreateInstance create_callback; }; typedef std::vector SymbolVendorInstances; static std::recursive_mutex & GetSymbolVendorMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static SymbolVendorInstances & GetSymbolVendorInstances () { static SymbolVendorInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, SymbolVendorCreateInstance create_callback) { if (create_callback) { SymbolVendorInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetSymbolVendorMutex()); GetSymbolVendorInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (SymbolVendorCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetSymbolVendorMutex()); SymbolVendorInstances &instances = GetSymbolVendorInstances (); SymbolVendorInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } SymbolVendorCreateInstance PluginManager::GetSymbolVendorCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetSymbolVendorMutex()); SymbolVendorInstances &instances = GetSymbolVendorInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } SymbolVendorCreateInstance PluginManager::GetSymbolVendorCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetSymbolVendorMutex()); SymbolVendorInstances &instances = GetSymbolVendorInstances (); SymbolVendorInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark UnwindAssembly struct UnwindAssemblyInstance { UnwindAssemblyInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; UnwindAssemblyCreateInstance create_callback; }; typedef std::vector UnwindAssemblyInstances; static std::recursive_mutex & GetUnwindAssemblyMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static UnwindAssemblyInstances & GetUnwindAssemblyInstances () { static UnwindAssemblyInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, UnwindAssemblyCreateInstance create_callback) { if (create_callback) { UnwindAssemblyInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetUnwindAssemblyMutex()); GetUnwindAssemblyInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (UnwindAssemblyCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetUnwindAssemblyMutex()); UnwindAssemblyInstances &instances = GetUnwindAssemblyInstances (); UnwindAssemblyInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } UnwindAssemblyCreateInstance PluginManager::GetUnwindAssemblyCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetUnwindAssemblyMutex()); UnwindAssemblyInstances &instances = GetUnwindAssemblyInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } UnwindAssemblyCreateInstance PluginManager::GetUnwindAssemblyCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetUnwindAssemblyMutex()); UnwindAssemblyInstances &instances = GetUnwindAssemblyInstances (); UnwindAssemblyInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark MemoryHistory struct MemoryHistoryInstance { MemoryHistoryInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; MemoryHistoryCreateInstance create_callback; }; typedef std::vector MemoryHistoryInstances; static std::recursive_mutex & GetMemoryHistoryMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static MemoryHistoryInstances & GetMemoryHistoryInstances () { static MemoryHistoryInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, MemoryHistoryCreateInstance create_callback) { if (create_callback) { MemoryHistoryInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; std::lock_guard guard(GetMemoryHistoryMutex()); GetMemoryHistoryInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (MemoryHistoryCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetMemoryHistoryMutex()); MemoryHistoryInstances &instances = GetMemoryHistoryInstances (); MemoryHistoryInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } MemoryHistoryCreateInstance PluginManager::GetMemoryHistoryCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetMemoryHistoryMutex()); MemoryHistoryInstances &instances = GetMemoryHistoryInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } MemoryHistoryCreateInstance PluginManager::GetMemoryHistoryCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetMemoryHistoryMutex()); MemoryHistoryInstances &instances = GetMemoryHistoryInstances (); MemoryHistoryInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark InstrumentationRuntime struct InstrumentationRuntimeInstance { InstrumentationRuntimeInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; InstrumentationRuntimeCreateInstance create_callback; InstrumentationRuntimeGetType get_type_callback; }; typedef std::vector InstrumentationRuntimeInstances; static std::recursive_mutex & GetInstrumentationRuntimeMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static InstrumentationRuntimeInstances & GetInstrumentationRuntimeInstances () { static InstrumentationRuntimeInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin(const ConstString &name, const char *description, InstrumentationRuntimeCreateInstance create_callback, InstrumentationRuntimeGetType get_type_callback) { if (create_callback) { InstrumentationRuntimeInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.get_type_callback = get_type_callback; std::lock_guard guard(GetInstrumentationRuntimeMutex()); GetInstrumentationRuntimeInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (InstrumentationRuntimeCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetInstrumentationRuntimeMutex()); InstrumentationRuntimeInstances &instances = GetInstrumentationRuntimeInstances (); InstrumentationRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } InstrumentationRuntimeGetType PluginManager::GetInstrumentationRuntimeGetTypeCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetInstrumentationRuntimeMutex()); InstrumentationRuntimeInstances &instances = GetInstrumentationRuntimeInstances (); if (idx < instances.size()) return instances[idx].get_type_callback; return nullptr; } InstrumentationRuntimeCreateInstance PluginManager::GetInstrumentationRuntimeCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetInstrumentationRuntimeMutex()); InstrumentationRuntimeInstances &instances = GetInstrumentationRuntimeInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } InstrumentationRuntimeCreateInstance PluginManager::GetInstrumentationRuntimeCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetInstrumentationRuntimeMutex()); InstrumentationRuntimeInstances &instances = GetInstrumentationRuntimeInstances (); InstrumentationRuntimeInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } #pragma mark TypeSystem struct TypeSystemInstance { TypeSystemInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; TypeSystemCreateInstance create_callback; TypeSystemEnumerateSupportedLanguages enumerate_callback; }; typedef std::vector TypeSystemInstances; static std::recursive_mutex & GetTypeSystemMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static TypeSystemInstances & GetTypeSystemInstances () { static TypeSystemInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, TypeSystemCreateInstance create_callback, TypeSystemEnumerateSupportedLanguages enumerate_supported_languages_callback) { if (create_callback) { TypeSystemInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.enumerate_callback = enumerate_supported_languages_callback; std::lock_guard guard(GetTypeSystemMutex()); GetTypeSystemInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (TypeSystemCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetTypeSystemMutex()); TypeSystemInstances &instances = GetTypeSystemInstances (); TypeSystemInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } TypeSystemCreateInstance PluginManager::GetTypeSystemCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetTypeSystemMutex()); TypeSystemInstances &instances = GetTypeSystemInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } TypeSystemCreateInstance PluginManager::GetTypeSystemCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetTypeSystemMutex()); TypeSystemInstances &instances = GetTypeSystemInstances (); TypeSystemInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } TypeSystemEnumerateSupportedLanguages PluginManager::GetTypeSystemEnumerateSupportedLanguagesCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetTypeSystemMutex()); TypeSystemInstances &instances = GetTypeSystemInstances (); if (idx < instances.size()) return instances[idx].enumerate_callback; return nullptr; } TypeSystemEnumerateSupportedLanguages PluginManager::GetTypeSystemEnumerateSupportedLanguagesCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetTypeSystemMutex()); TypeSystemInstances &instances = GetTypeSystemInstances (); TypeSystemInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->enumerate_callback; } } return nullptr; } #pragma mark REPL struct REPLInstance { REPLInstance() : name(), description(), create_callback(nullptr) { } ConstString name; std::string description; REPLCreateInstance create_callback; REPLEnumerateSupportedLanguages enumerate_languages_callback; }; typedef std::vector REPLInstances; static std::recursive_mutex & GetREPLMutex() { static std::recursive_mutex g_instances_mutex; return g_instances_mutex; } static REPLInstances & GetREPLInstances () { static REPLInstances g_instances; return g_instances; } bool PluginManager::RegisterPlugin (const ConstString &name, const char *description, REPLCreateInstance create_callback, REPLEnumerateSupportedLanguages enumerate_languages_callback) { if (create_callback) { REPLInstance instance; assert ((bool)name); instance.name = name; if (description && description[0]) instance.description = description; instance.create_callback = create_callback; instance.enumerate_languages_callback = enumerate_languages_callback; std::lock_guard guard(GetREPLMutex()); GetREPLInstances ().push_back (instance); } return false; } bool PluginManager::UnregisterPlugin (REPLCreateInstance create_callback) { if (create_callback) { std::lock_guard guard(GetREPLMutex()); REPLInstances &instances = GetREPLInstances (); REPLInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->create_callback == create_callback) { instances.erase(pos); return true; } } } return false; } REPLCreateInstance PluginManager::GetREPLCreateCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetREPLMutex()); REPLInstances &instances = GetREPLInstances (); if (idx < instances.size()) return instances[idx].create_callback; return nullptr; } REPLCreateInstance PluginManager::GetREPLCreateCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetREPLMutex()); REPLInstances &instances = GetREPLInstances (); REPLInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->create_callback; } } return nullptr; } REPLEnumerateSupportedLanguages PluginManager::GetREPLEnumerateSupportedLanguagesCallbackAtIndex (uint32_t idx) { std::lock_guard guard(GetREPLMutex()); REPLInstances &instances = GetREPLInstances (); if (idx < instances.size()) return instances[idx].enumerate_languages_callback; return nullptr; } REPLEnumerateSupportedLanguages PluginManager::GetREPLSystemEnumerateSupportedLanguagesCallbackForPluginName (const ConstString &name) { if (name) { std::lock_guard guard(GetREPLMutex()); REPLInstances &instances = GetREPLInstances (); REPLInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (name == pos->name) return pos->enumerate_languages_callback; } } return nullptr; } #pragma mark PluginManager void PluginManager::DebuggerInitialize (Debugger &debugger) { // Initialize the DynamicLoader plugins { std::lock_guard guard(GetDynamicLoaderMutex()); DynamicLoaderInstances &instances = GetDynamicLoaderInstances (); DynamicLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->debugger_init_callback) pos->debugger_init_callback (debugger); } } // Initialize the JITLoader plugins { std::lock_guard guard(GetJITLoaderMutex()); JITLoaderInstances &instances = GetJITLoaderInstances (); JITLoaderInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->debugger_init_callback) pos->debugger_init_callback (debugger); } } // Initialize the Platform plugins { std::lock_guard guard(GetPlatformInstancesMutex()); PlatformInstances &instances = GetPlatformInstances (); PlatformInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->debugger_init_callback) pos->debugger_init_callback (debugger); } } // Initialize the Process plugins { std::lock_guard guard(GetProcessMutex()); ProcessInstances &instances = GetProcessInstances(); ProcessInstances::iterator pos, end = instances.end(); for (pos = instances.begin(); pos != end; ++ pos) { if (pos->debugger_init_callback) pos->debugger_init_callback (debugger); } } // Initialize the SymbolFile plugins { std::lock_guard guard(GetSymbolFileMutex()); for (auto& sym_file: GetSymbolFileInstances()) { if (sym_file.debugger_init_callback) sym_file.debugger_init_callback (debugger); } } // Initialize the OperatingSystem plugins { std::lock_guard guard(GetOperatingSystemMutex()); for (auto &os : GetOperatingSystemInstances()) { if (os.debugger_init_callback) os.debugger_init_callback(debugger); } } } // This is the preferred new way to register plugin specific settings. e.g. // This will put a plugin's settings under e.g. "plugin...SETTINGNAME". static lldb::OptionValuePropertiesSP GetDebuggerPropertyForPlugins (Debugger &debugger, const ConstString &plugin_type_name, const ConstString &plugin_type_desc, bool can_create) { lldb::OptionValuePropertiesSP parent_properties_sp (debugger.GetValueProperties()); if (parent_properties_sp) { static ConstString g_property_name("plugin"); OptionValuePropertiesSP plugin_properties_sp = parent_properties_sp->GetSubProperty(nullptr, g_property_name); if (!plugin_properties_sp && can_create) { plugin_properties_sp.reset (new OptionValueProperties (g_property_name)); parent_properties_sp->AppendProperty (g_property_name, ConstString("Settings specify to plugins."), true, plugin_properties_sp); } if (plugin_properties_sp) { lldb::OptionValuePropertiesSP plugin_type_properties_sp = plugin_properties_sp->GetSubProperty(nullptr, plugin_type_name); if (!plugin_type_properties_sp && can_create) { plugin_type_properties_sp.reset (new OptionValueProperties (plugin_type_name)); plugin_properties_sp->AppendProperty (plugin_type_name, plugin_type_desc, true, plugin_type_properties_sp); } return plugin_type_properties_sp; } } return lldb::OptionValuePropertiesSP(); } // This is deprecated way to register plugin specific settings. e.g. // ".plugin..SETTINGNAME" // and Platform generic settings would be under "platform.SETTINGNAME". static lldb::OptionValuePropertiesSP GetDebuggerPropertyForPluginsOldStyle (Debugger &debugger, const ConstString &plugin_type_name, const ConstString &plugin_type_desc, bool can_create) { static ConstString g_property_name("plugin"); lldb::OptionValuePropertiesSP parent_properties_sp (debugger.GetValueProperties()); if (parent_properties_sp) { OptionValuePropertiesSP plugin_properties_sp = parent_properties_sp->GetSubProperty(nullptr, plugin_type_name); if (!plugin_properties_sp && can_create) { plugin_properties_sp.reset (new OptionValueProperties (plugin_type_name)); parent_properties_sp->AppendProperty (plugin_type_name, plugin_type_desc, true, plugin_properties_sp); } if (plugin_properties_sp) { lldb::OptionValuePropertiesSP plugin_type_properties_sp = plugin_properties_sp->GetSubProperty(nullptr, g_property_name); if (!plugin_type_properties_sp && can_create) { plugin_type_properties_sp.reset (new OptionValueProperties (g_property_name)); plugin_properties_sp->AppendProperty (g_property_name, ConstString("Settings specific to plugins"), true, plugin_type_properties_sp); } return plugin_type_properties_sp; } } return lldb::OptionValuePropertiesSP(); } namespace { typedef lldb::OptionValuePropertiesSP GetDebuggerPropertyForPluginsPtr (Debugger&, const ConstString&, const ConstString&, bool can_create); lldb::OptionValuePropertiesSP GetSettingForPlugin (Debugger &debugger, const ConstString &setting_name, const ConstString &plugin_type_name, GetDebuggerPropertyForPluginsPtr get_debugger_property= GetDebuggerPropertyForPlugins) { lldb::OptionValuePropertiesSP properties_sp; lldb::OptionValuePropertiesSP plugin_type_properties_sp (get_debugger_property (debugger, plugin_type_name, ConstString(), // not creating to so we don't need the description false)); if (plugin_type_properties_sp) properties_sp = plugin_type_properties_sp->GetSubProperty (nullptr, setting_name); return properties_sp; } bool CreateSettingForPlugin (Debugger &debugger, const ConstString &plugin_type_name, const ConstString &plugin_type_desc, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property, GetDebuggerPropertyForPluginsPtr get_debugger_property = GetDebuggerPropertyForPlugins) { if (properties_sp) { lldb::OptionValuePropertiesSP plugin_type_properties_sp (get_debugger_property ( debugger, plugin_type_name, plugin_type_desc, true)); if (plugin_type_properties_sp) { plugin_type_properties_sp->AppendProperty (properties_sp->GetName(), description, is_global_property, properties_sp); return true; } } return false; } const char* kDynamicLoaderPluginName("dynamic-loader"); const char* kPlatformPluginName("platform"); const char* kProcessPluginName("process"); const char* kSymbolFilePluginName("symbol-file"); const char* kJITLoaderPluginName("jit-loader"); } // anonymous namespace lldb::OptionValuePropertiesSP PluginManager::GetSettingForDynamicLoaderPlugin (Debugger &debugger, const ConstString &setting_name) { return GetSettingForPlugin(debugger, setting_name, ConstString(kDynamicLoaderPluginName)); } bool PluginManager::CreateSettingForDynamicLoaderPlugin (Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { return CreateSettingForPlugin(debugger, ConstString(kDynamicLoaderPluginName), ConstString("Settings for dynamic loader plug-ins"), properties_sp, description, is_global_property); } lldb::OptionValuePropertiesSP PluginManager::GetSettingForPlatformPlugin (Debugger &debugger, const ConstString &setting_name) { return GetSettingForPlugin(debugger, setting_name, ConstString(kPlatformPluginName), GetDebuggerPropertyForPluginsOldStyle); } bool PluginManager::CreateSettingForPlatformPlugin (Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { return CreateSettingForPlugin(debugger, ConstString(kPlatformPluginName), ConstString("Settings for platform plug-ins"), properties_sp, description, is_global_property, GetDebuggerPropertyForPluginsOldStyle); } lldb::OptionValuePropertiesSP PluginManager::GetSettingForProcessPlugin (Debugger &debugger, const ConstString &setting_name) { return GetSettingForPlugin(debugger, setting_name, ConstString(kProcessPluginName)); } bool PluginManager::CreateSettingForProcessPlugin (Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { return CreateSettingForPlugin(debugger, ConstString(kProcessPluginName), ConstString("Settings for process plug-ins"), properties_sp, description, is_global_property); } lldb::OptionValuePropertiesSP PluginManager::GetSettingForSymbolFilePlugin (Debugger &debugger, const ConstString &setting_name) { return GetSettingForPlugin(debugger, setting_name, ConstString(kSymbolFilePluginName)); } bool PluginManager::CreateSettingForSymbolFilePlugin (Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { return CreateSettingForPlugin(debugger, ConstString(kSymbolFilePluginName), ConstString("Settings for symbol file plug-ins"), properties_sp, description, is_global_property); } lldb::OptionValuePropertiesSP PluginManager::GetSettingForJITLoaderPlugin (Debugger &debugger, const ConstString &setting_name) { return GetSettingForPlugin(debugger, setting_name, ConstString(kJITLoaderPluginName)); } bool PluginManager::CreateSettingForJITLoaderPlugin (Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { return CreateSettingForPlugin(debugger, ConstString(kJITLoaderPluginName), ConstString("Settings for JIT loader plug-ins"), properties_sp, description, is_global_property); } static const char *kOperatingSystemPluginName("os"); lldb::OptionValuePropertiesSP PluginManager::GetSettingForOperatingSystemPlugin(Debugger &debugger, const ConstString &setting_name) { lldb::OptionValuePropertiesSP properties_sp; lldb::OptionValuePropertiesSP plugin_type_properties_sp( GetDebuggerPropertyForPlugins(debugger, ConstString(kOperatingSystemPluginName), ConstString(), // not creating to so we don't need the description false)); if (plugin_type_properties_sp) properties_sp = plugin_type_properties_sp->GetSubProperty(nullptr, setting_name); return properties_sp; } bool PluginManager::CreateSettingForOperatingSystemPlugin(Debugger &debugger, const lldb::OptionValuePropertiesSP &properties_sp, const ConstString &description, bool is_global_property) { if (properties_sp) { lldb::OptionValuePropertiesSP plugin_type_properties_sp( GetDebuggerPropertyForPlugins(debugger, ConstString(kOperatingSystemPluginName), ConstString("Settings for operating system plug-ins"), true)); if (plugin_type_properties_sp) { plugin_type_properties_sp->AppendProperty(properties_sp->GetName(), description, is_global_property, properties_sp); return true; } } return false; }