// TODO: cleanup includes #include "cache_manager.h" #include "clang_complete.h" #include "code_complete_cache.h" #include "file_consumer.h" #include "import_manager.h" #include "import_pipeline.h" #include "include_complete.h" #include "indexer.h" #include "language_server_api.h" #include "lex_utils.h" #include "lru_cache.h" #include "match.h" #include "message_handler.h" #include "options.h" #include "platform.h" #include "project.h" #include "query.h" #include "query_utils.h" #include "queue_manager.h" #include "semantic_highlight_symbol_cache.h" #include "serializer.h" #include "standard_includes.h" #include "test.h" #include "threaded_queue.h" #include "timer.h" #include "timestamp_manager.h" #include "work_thread.h" #include "working_files.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // TODO: provide a feature like 'https://github.com/goldsborough/clang-expand', // ie, a fully linear view of a function with inline function calls expanded. // We can probably use vscode decorators to achieve it. // TODO: implement ThreadPool type which monitors CPU usage / number of work // items per second completed and scales up/down number of running threads. namespace { std::vector kEmptyArgs; // If true stdout will be printed to stderr. bool g_log_stdin_stdout_to_stderr = false; // This function returns true if e2e timing should be displayed for the given // IpcId. bool ShouldDisplayIpcTiming(IpcId id) { switch (id) { case IpcId::TextDocumentPublishDiagnostics: case IpcId::CqueryPublishInactiveRegions: case IpcId::Unknown: return false; default: return true; } } REGISTER_IPC_MESSAGE(Ipc_CancelRequest); } // namespace //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // QUERYDB MAIN //////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// bool QueryDbMainLoop(Config* config, QueryDatabase* db, MultiQueueWaiter* waiter, Project* project, FileConsumerSharedState* file_consumer_shared, ImportManager* import_manager, TimestampManager* timestamp_manager, SemanticHighlightSymbolCache* semantic_cache, WorkingFiles* working_files, ClangCompleteManager* clang_complete, IncludeComplete* include_complete, CodeCompleteCache* global_code_complete_cache, CodeCompleteCache* non_global_code_complete_cache, CodeCompleteCache* signature_cache) { auto* queue = QueueManager::instance(); bool did_work = false; std::vector> messages = queue->for_querydb.DequeueAll(); for (auto& message : messages) { did_work = true; for (MessageHandler* handler : *MessageHandler::message_handlers) { if (handler->GetId() == message->method_id) { handler->Run(std::move(message)); break; } } if (message) { LOG_S(FATAL) << "Exiting; unhandled IPC message " << IpcIdToString(message->method_id); exit(1); } } // TODO: consider rate-limiting and checking for IPC messages so we don't // block requests / we can serve partial requests. if (QueryDb_ImportMain(config, db, import_manager, semantic_cache, working_files)) { did_work = true; } return did_work; } void RunQueryDbThread(const std::string& bin_name, Config* config, MultiQueueWaiter* waiter) { Project project; SemanticHighlightSymbolCache semantic_cache; WorkingFiles working_files; FileConsumerSharedState file_consumer_shared; ClangCompleteManager clang_complete( config, &project, &working_files, std::bind(&EmitDiagnostics, &working_files, std::placeholders::_1, std::placeholders::_2), std::bind(&IndexWithTuFromCodeCompletion, &file_consumer_shared, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3, std::placeholders::_4)); IncludeComplete include_complete(config, &project); auto global_code_complete_cache = MakeUnique(); auto non_global_code_complete_cache = MakeUnique(); auto signature_cache = MakeUnique(); ImportManager import_manager; ImportPipelineStatus import_pipeline_status; TimestampManager timestamp_manager; QueryDatabase db; // Setup shared references. for (MessageHandler* handler : *MessageHandler::message_handlers) { handler->config = config; handler->db = &db; handler->waiter = waiter; handler->project = &project; handler->file_consumer_shared = &file_consumer_shared; handler->import_manager = &import_manager; handler->import_pipeline_status = &import_pipeline_status; handler->timestamp_manager = ×tamp_manager; handler->semantic_cache = &semantic_cache; handler->working_files = &working_files; handler->clang_complete = &clang_complete; handler->include_complete = &include_complete; handler->global_code_complete_cache = global_code_complete_cache.get(); handler->non_global_code_complete_cache = non_global_code_complete_cache.get(); handler->signature_cache = signature_cache.get(); } // Run query db main loop. SetCurrentThreadName("querydb"); while (true) { bool did_work = QueryDbMainLoop( config, &db, waiter, &project, &file_consumer_shared, &import_manager, ×tamp_manager, &semantic_cache, &working_files, &clang_complete, &include_complete, global_code_complete_cache.get(), non_global_code_complete_cache.get(), signature_cache.get()); // Cleanup and free any unused memory. FreeUnusedMemory(); if (!did_work) { auto* queue = QueueManager::instance(); waiter->Wait({&QueueManager::instance()->for_querydb, &queue->do_id_map, &queue->on_indexed}); } } } //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // STDIN MAIN ////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // Separate thread whose only job is to read from stdin and // dispatch read commands to the actual indexer program. This // cannot be done on the main thread because reading from std::cin // blocks. // // |ipc| is connected to a server. void LaunchStdinLoop(Config* config, std::unordered_map* request_times) { // If flushing cin requires flushing cout there could be deadlocks in some // clients. std::cin.tie(nullptr); WorkThread::StartThread("stdin", [request_times]() { auto* queue = QueueManager::instance(); while (true) { std::unique_ptr message = MessageRegistry::instance()->ReadMessageFromStdin( g_log_stdin_stdout_to_stderr); // Message parsing can fail if we don't recognize the method. if (!message) continue; // Cache |method_id| so we can access it after moving |message|. IpcId method_id = message->method_id; (*request_times)[message->method_id] = Timer(); switch (method_id) { case IpcId::Initialized: { // TODO: don't send output until we get this notification break; } case IpcId::CancelRequest: { // TODO: support cancellation break; } case IpcId::Exit: case IpcId::Initialize: case IpcId::TextDocumentDidOpen: case IpcId::CqueryTextDocumentDidView: case IpcId::TextDocumentDidChange: case IpcId::TextDocumentDidClose: case IpcId::TextDocumentDidSave: case IpcId::TextDocumentRename: case IpcId::TextDocumentCompletion: case IpcId::TextDocumentSignatureHelp: case IpcId::TextDocumentDefinition: case IpcId::TextDocumentDocumentHighlight: case IpcId::TextDocumentHover: case IpcId::TextDocumentReferences: case IpcId::TextDocumentDocumentSymbol: case IpcId::TextDocumentDocumentLink: case IpcId::TextDocumentCodeAction: case IpcId::TextDocumentCodeLens: case IpcId::WorkspaceSymbol: case IpcId::CqueryFreshenIndex: case IpcId::CqueryTypeHierarchyTree: case IpcId::CqueryCallTreeInitial: case IpcId::CqueryCallTreeExpand: case IpcId::CqueryVars: case IpcId::CqueryCallers: case IpcId::CqueryBase: case IpcId::CqueryDerived: case IpcId::CqueryIndexFile: case IpcId::CqueryWait: { queue->for_querydb.Enqueue(std::move(message)); break; } default: { LOG_S(ERROR) << "Unhandled IPC message " << IpcIdToString(method_id); exit(1); } } // If the message was to exit then querydb will take care of the actual // exit. Stop reading from stdin since it might be detached. if (method_id == IpcId::Exit) break; } }); } void LaunchStdoutThread(std::unordered_map* request_times, MultiQueueWaiter* waiter) { WorkThread::StartThread("stdout", [=]() { auto* queue = QueueManager::instance(); while (true) { std::vector messages = queue->for_stdout.DequeueAll(); if (messages.empty()) { waiter->Wait({&queue->for_stdout}); continue; } for (auto& message : messages) { if (ShouldDisplayIpcTiming(message.id)) { Timer time = (*request_times)[message.id]; time.ResetAndPrint("[e2e] Running " + std::string(IpcIdToString(message.id))); } if (g_log_stdin_stdout_to_stderr) { std::ostringstream sstream; sstream << "[COUT] |"; sstream << message.content; sstream << "|\n"; std::cerr << sstream.str(); std::cerr.flush(); } std::cout << message.content; std::cout.flush(); } } }); } void LanguageServerMain(const std::string& bin_name, Config* config, MultiQueueWaiter* waiter) { std::unordered_map request_times; LaunchStdinLoop(config, &request_times); // We run a dedicated thread for writing to stdout because there can be an // unknown number of delays when output information. LaunchStdoutThread(&request_times, waiter); // Start querydb which takes over this thread. The querydb will launch // indexer threads as needed. RunQueryDbThread(bin_name, config, waiter); } //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // MAIN //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// int main(int argc, char** argv) { std::unordered_map options = ParseOptions(argc, argv); if (!HasOption(options, "--log-all-to-stderr")) loguru::g_stderr_verbosity = loguru::Verbosity_WARNING; loguru::g_flush_interval_ms = 0; loguru::init(argc, argv); MultiQueueWaiter waiter; QueueManager::CreateInstance(&waiter); // bool loop = true; // while (loop) // std::this_thread::sleep_for(std::chrono::milliseconds(10)); // std::this_thread::sleep_for(std::chrono::seconds(10)); PlatformInit(); IndexInit(); bool print_help = true; if (HasOption(options, "--log-file")) { loguru::add_file(options["--log-file"].c_str(), loguru::Truncate, loguru::Verbosity_MAX); } if (HasOption(options, "--log-stdin-stdout-to-stderr")) g_log_stdin_stdout_to_stderr = true; if (HasOption(options, "--clang-sanity-check")) { print_help = false; ClangSanityCheck(); } if (HasOption(options, "--test-unit")) { print_help = false; doctest::Context context; context.applyCommandLine(argc, argv); int res = context.run(); if (res != 0 || context.shouldExit()) return res; } if (HasOption(options, "--test-index")) { print_help = false; RunIndexTests(options["--test-index"]); } if (HasOption(options, "--enable-comments")) { // TODO Place this global variable into config extern bool g_enable_comments; g_enable_comments = true; } if (HasOption(options, "--language-server")) { print_help = false; // std::cerr << "Running language server" << std::endl; auto config = MakeUnique(); LanguageServerMain(argv[0], config.get(), &waiter); return 0; } if (HasOption(options, "--wait-for-input")) { std::cerr << std::endl << "[Enter] to exit" << std::endl; std::cin.get(); } if (print_help) { std::cout << R"help(cquery is a low-latency C/C++/Objective-C language server. Command line options: --language-server Run as a language server. This implements the language server spec over STDIN and STDOUT. --test-unit Run unit tests. --test-index Run index tests. opt_filter_path can be used to specify which test to run (ie, "foo" will run all tests which contain "foo" in the path). If not provided all tests are run. --log-stdin-stdout-to-stderr Print stdin and stdout messages to stderr. This is a aid for developing new language clients, as it makes it easier to figure out how the client is interacting with cquery. --log-file Emit diagnostic logging to the given path, which is taken literally, ie, it will be relative to the current working directory. --log-all-to-stderr Write all log messages to STDERR. --clang-sanity-check Run a simple index test. Verifies basic clang functionality. Needs to be executed from the cquery root checkout directory. --wait-for-input If true, cquery will wait for an '[Enter]' before exiting. Useful on windows. --help Print this help information. Configuration: When opening up a directory, cquery will look for a compile_commands.json file emitted by your preferred build system. If not present, cquery will use a recursive directory listing instead. Command line flags can be provided by adding a file named `.cquery` in the top-level directory. Each line in that file is a separate argument. There are also a number of configuration options available when initializing the language server - your editor should have tooling to describe those options. See |Config| in this source code for a detailed list of all currently supported options. )help"; } return 0; }