// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "tools/gn/import_manager.h" #include "tools/gn/err.h" #include "tools/gn/parse_tree.h" #include "tools/gn/scheduler.h" #include "tools/gn/scope_per_file_provider.h" #include "tools/gn/trace.h" namespace { // Returns a newly-allocated scope on success, null on failure. std::unique_ptr UncachedImport(const Settings* settings, const SourceFile& file, const ParseNode* node_for_err, Err* err) { ScopedTrace load_trace(TraceItem::TRACE_IMPORT_LOAD, file.value()); const ParseNode* node = g_scheduler->input_file_manager()->SyncLoadFile( node_for_err->GetRange(), settings->build_settings(), file, err); if (!node) return nullptr; std::unique_ptr scope(new Scope(settings->base_config())); scope->set_source_dir(file.GetDir()); // Don't allow ScopePerFileProvider to provide target-related variables. // These will be relative to the imported file, which is probably not what // people mean when they use these. ScopePerFileProvider per_file_provider(scope.get(), false); scope->SetProcessingImport(); node->Execute(scope.get(), err); if (err->has_error()) { // If there was an error, append the caller location so the error message // displays a why the file was imported (esp. useful for failed asserts). err->AppendSubErr(Err(node_for_err, "whence it was imported.")); return nullptr; } scope->ClearProcessingImport(); return scope; } } // namespace struct ImportManager::ImportInfo { ImportInfo() {} ~ImportInfo() {} // This lock protects the unique_ptr. Once the scope is computed, // it is const and can be accessed read-only outside of the lock. base::Lock load_lock; std::unique_ptr scope; // The result of loading the import. If the load failed, the scope will be // null but this will be set to error. In this case the thread should not // attempt to load the file, even if the scope is null. Err load_result; }; ImportManager::ImportManager() { } ImportManager::~ImportManager() { } bool ImportManager::DoImport(const SourceFile& file, const ParseNode* node_for_err, Scope* scope, Err* err) { // See if we have a cached import, but be careful to actually do the scope // copying outside of the lock. ImportInfo* import_info = nullptr; { base::AutoLock lock(imports_lock_); std::unique_ptr& info_ptr = imports_[file]; if (!info_ptr) info_ptr.reset(new ImportInfo); // Promote the ImportInfo to outside of the imports lock. import_info = info_ptr.get(); } // Now use the per-import-file lock to block this thread if another thread // is already processing the import. const Scope* import_scope = nullptr; { base::TimeTicks import_block_begin = base::TimeTicks::Now(); base::AutoLock lock(import_info->load_lock); if (!import_info->scope) { // Only load if the import hasn't already failed. if (!import_info->load_result.has_error()) { import_info->scope = UncachedImport( scope->settings(), file, node_for_err, &import_info->load_result); } if (import_info->load_result.has_error()) { *err = import_info->load_result; return false; } } else { // Add trace if this thread was blocked for a long period of time and did // not load the import itself. base::TimeTicks import_block_end = base::TimeTicks::Now(); constexpr auto kImportBlockTraceThreshold = base::TimeDelta::FromMilliseconds(20); if (TracingEnabled() && import_block_end - import_block_begin > kImportBlockTraceThreshold) { auto* import_block_trace = new TraceItem(TraceItem::TRACE_IMPORT_BLOCK, file.value(), base::PlatformThread::CurrentId()); import_block_trace->set_begin(import_block_begin); import_block_trace->set_end(import_block_end); AddTrace(import_block_trace); } } // Promote the now-read-only scope to outside the load lock. import_scope = import_info->scope.get(); } Scope::MergeOptions options; options.skip_private_vars = true; options.mark_dest_used = true; // Don't require all imported values be used. return import_scope->NonRecursiveMergeTo(scope, options, node_for_err, "import", err); } std::vector ImportManager::GetImportedFiles() const { std::vector imported_files; imported_files.resize(imports_.size()); std::transform(imports_.begin(), imports_.end(), imported_files.begin(), [](const ImportMap::value_type& val) { return val.first; }); return imported_files; }