// Copyright (c) 2015 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 "base/trace_event/trace_config.h" #include #include #include "base/json/json_reader.h" #include "base/json/json_writer.h" #include "base/memory/ptr_util.h" #include "base/strings/string_split.h" #include "base/trace_event/memory_dump_manager.h" #include "base/trace_event/memory_dump_request_args.h" #include "base/trace_event/trace_event.h" namespace base { namespace trace_event { namespace { // String options that can be used to initialize TraceOptions. const char kRecordUntilFull[] = "record-until-full"; const char kRecordContinuously[] = "record-continuously"; const char kRecordAsMuchAsPossible[] = "record-as-much-as-possible"; const char kTraceToConsole[] = "trace-to-console"; const char kEnableSystrace[] = "enable-systrace"; const char kEnableArgumentFilter[] = "enable-argument-filter"; // String parameters that can be used to parse the trace config string. const char kRecordModeParam[] = "record_mode"; const char kTraceBufferSizeInEvents[] = "trace_buffer_size_in_events"; const char kEnableSystraceParam[] = "enable_systrace"; const char kEnableArgumentFilterParam[] = "enable_argument_filter"; // String parameters that is used to parse memory dump config in trace config // string. const char kMemoryDumpConfigParam[] = "memory_dump_config"; const char kAllowedDumpModesParam[] = "allowed_dump_modes"; const char kTriggersParam[] = "triggers"; const char kTriggerModeParam[] = "mode"; const char kMinTimeBetweenDumps[] = "min_time_between_dumps_ms"; const char kTriggerTypeParam[] = "type"; const char kPeriodicIntervalLegacyParam[] = "periodic_interval_ms"; const char kHeapProfilerOptions[] = "heap_profiler_options"; const char kBreakdownThresholdBytes[] = "breakdown_threshold_bytes"; // String parameters used to parse category event filters. const char kEventFiltersParam[] = "event_filters"; const char kFilterPredicateParam[] = "filter_predicate"; const char kFilterArgsParam[] = "filter_args"; // String parameter used to parse process filter. const char kIncludedProcessesParam[] = "included_process_ids"; class ConvertableTraceConfigToTraceFormat : public base::trace_event::ConvertableToTraceFormat { public: explicit ConvertableTraceConfigToTraceFormat(const TraceConfig& trace_config) : trace_config_(trace_config) {} ~ConvertableTraceConfigToTraceFormat() override = default; void AppendAsTraceFormat(std::string* out) const override { out->append(trace_config_.ToString()); } private: const TraceConfig trace_config_; }; std::set GetDefaultAllowedMemoryDumpModes() { std::set all_modes; for (uint32_t mode = static_cast(MemoryDumpLevelOfDetail::FIRST); mode <= static_cast(MemoryDumpLevelOfDetail::LAST); mode++) { all_modes.insert(static_cast(mode)); } return all_modes; } } // namespace TraceConfig::MemoryDumpConfig::HeapProfiler::HeapProfiler() : breakdown_threshold_bytes(kDefaultBreakdownThresholdBytes) {} void TraceConfig::MemoryDumpConfig::HeapProfiler::Clear() { breakdown_threshold_bytes = kDefaultBreakdownThresholdBytes; } void TraceConfig::ResetMemoryDumpConfig( const TraceConfig::MemoryDumpConfig& memory_dump_config) { memory_dump_config_.Clear(); memory_dump_config_ = memory_dump_config; } TraceConfig::MemoryDumpConfig::MemoryDumpConfig() = default; TraceConfig::MemoryDumpConfig::MemoryDumpConfig( const MemoryDumpConfig& other) = default; TraceConfig::MemoryDumpConfig::~MemoryDumpConfig() = default; void TraceConfig::MemoryDumpConfig::Clear() { allowed_dump_modes.clear(); triggers.clear(); heap_profiler_options.Clear(); } void TraceConfig::MemoryDumpConfig::Merge( const TraceConfig::MemoryDumpConfig& config) { triggers.insert(triggers.end(), config.triggers.begin(), config.triggers.end()); allowed_dump_modes.insert(config.allowed_dump_modes.begin(), config.allowed_dump_modes.end()); heap_profiler_options.breakdown_threshold_bytes = std::min(heap_profiler_options.breakdown_threshold_bytes, config.heap_profiler_options.breakdown_threshold_bytes); } TraceConfig::ProcessFilterConfig::ProcessFilterConfig() = default; TraceConfig::ProcessFilterConfig::ProcessFilterConfig( const ProcessFilterConfig& other) = default; TraceConfig::ProcessFilterConfig::ProcessFilterConfig( const std::unordered_set& included_process_ids) : included_process_ids_(included_process_ids) {} TraceConfig::ProcessFilterConfig::~ProcessFilterConfig() = default; void TraceConfig::ProcessFilterConfig::Clear() { included_process_ids_.clear(); } void TraceConfig::ProcessFilterConfig::Merge( const ProcessFilterConfig& config) { included_process_ids_.insert(config.included_process_ids_.begin(), config.included_process_ids_.end()); } void TraceConfig::ProcessFilterConfig::InitializeFromConfigDict( const base::DictionaryValue& dict) { included_process_ids_.clear(); const Value* value = dict.FindKeyOfType(kIncludedProcessesParam, Value::Type::LIST); if (!value) return; for (auto& pid_value : value->GetList()) { if (pid_value.is_int()) included_process_ids_.insert(pid_value.GetInt()); } } void TraceConfig::ProcessFilterConfig::ToDict(DictionaryValue* dict) const { if (included_process_ids_.empty()) return; Value* list = dict->SetKey(kIncludedProcessesParam, Value(Value::Type::LIST)); std::set ordered_set(included_process_ids_.begin(), included_process_ids_.end()); for (auto process_id : ordered_set) list->GetList().emplace_back(static_cast(process_id)); } bool TraceConfig::ProcessFilterConfig::IsEnabled( base::ProcessId process_id) const { return included_process_ids_.empty() || included_process_ids_.count(process_id); } TraceConfig::EventFilterConfig::EventFilterConfig( const std::string& predicate_name) : predicate_name_(predicate_name) {} TraceConfig::EventFilterConfig::~EventFilterConfig() = default; TraceConfig::EventFilterConfig::EventFilterConfig(const EventFilterConfig& tc) { *this = tc; } TraceConfig::EventFilterConfig& TraceConfig::EventFilterConfig::operator=( const TraceConfig::EventFilterConfig& rhs) { if (this == &rhs) return *this; predicate_name_ = rhs.predicate_name_; category_filter_ = rhs.category_filter_; if (rhs.args_) args_ = rhs.args_->CreateDeepCopy(); return *this; } void TraceConfig::EventFilterConfig::InitializeFromConfigDict( const base::DictionaryValue* event_filter) { category_filter_.InitializeFromConfigDict(*event_filter); const base::DictionaryValue* args_dict = nullptr; if (event_filter->GetDictionary(kFilterArgsParam, &args_dict)) args_ = args_dict->CreateDeepCopy(); } void TraceConfig::EventFilterConfig::SetCategoryFilter( const TraceConfigCategoryFilter& category_filter) { category_filter_ = category_filter; } void TraceConfig::EventFilterConfig::ToDict( DictionaryValue* filter_dict) const { filter_dict->SetString(kFilterPredicateParam, predicate_name()); category_filter_.ToDict(filter_dict); if (args_) filter_dict->Set(kFilterArgsParam, args_->CreateDeepCopy()); } bool TraceConfig::EventFilterConfig::GetArgAsSet( const char* key, std::unordered_set* out_set) const { const ListValue* list = nullptr; if (!args_->GetList(key, &list)) return false; for (size_t i = 0; i < list->GetSize(); ++i) { std::string value; if (list->GetString(i, &value)) out_set->insert(value); } return true; } bool TraceConfig::EventFilterConfig::IsCategoryGroupEnabled( const StringPiece& category_group_name) const { return category_filter_.IsCategoryGroupEnabled(category_group_name); } // static std::string TraceConfig::TraceRecordModeToStr(TraceRecordMode record_mode) { switch (record_mode) { case RECORD_UNTIL_FULL: return kRecordUntilFull; case RECORD_CONTINUOUSLY: return kRecordContinuously; case RECORD_AS_MUCH_AS_POSSIBLE: return kRecordAsMuchAsPossible; case ECHO_TO_CONSOLE: return kTraceToConsole; default: NOTREACHED(); } return kRecordUntilFull; } TraceConfig::TraceConfig() { InitializeDefault(); } TraceConfig::TraceConfig(StringPiece category_filter_string, StringPiece trace_options_string) { InitializeFromStrings(category_filter_string, trace_options_string); } TraceConfig::TraceConfig(StringPiece category_filter_string, TraceRecordMode record_mode) { InitializeFromStrings(category_filter_string, TraceConfig::TraceRecordModeToStr(record_mode)); } TraceConfig::TraceConfig(const DictionaryValue& config) { InitializeFromConfigDict(config); } TraceConfig::TraceConfig(StringPiece config_string) { if (!config_string.empty()) InitializeFromConfigString(config_string); else InitializeDefault(); } TraceConfig::TraceConfig(const TraceConfig& tc) = default; TraceConfig::~TraceConfig() = default; TraceConfig& TraceConfig::operator=(const TraceConfig& rhs) { if (this == &rhs) return *this; record_mode_ = rhs.record_mode_; trace_buffer_size_in_events_ = rhs.trace_buffer_size_in_events_; enable_systrace_ = rhs.enable_systrace_; enable_argument_filter_ = rhs.enable_argument_filter_; category_filter_ = rhs.category_filter_; process_filter_config_ = rhs.process_filter_config_; memory_dump_config_ = rhs.memory_dump_config_; event_filters_ = rhs.event_filters_; return *this; } std::string TraceConfig::ToString() const { std::unique_ptr dict = ToDict(); std::string json; JSONWriter::Write(*dict, &json); return json; } std::unique_ptr TraceConfig::AsConvertableToTraceFormat() const { return std::make_unique(*this); } std::string TraceConfig::ToCategoryFilterString() const { return category_filter_.ToFilterString(); } bool TraceConfig::IsCategoryGroupEnabled( const StringPiece& category_group_name) const { // TraceLog should call this method only as part of enabling/disabling // categories. return category_filter_.IsCategoryGroupEnabled(category_group_name); } void TraceConfig::Merge(const TraceConfig& config) { if (record_mode_ != config.record_mode_ || enable_systrace_ != config.enable_systrace_ || enable_argument_filter_ != config.enable_argument_filter_) { DLOG(ERROR) << "Attempting to merge trace config with a different " << "set of options."; } DCHECK_EQ(trace_buffer_size_in_events_, config.trace_buffer_size_in_events_) << "Cannot change trace buffer size"; category_filter_.Merge(config.category_filter_); memory_dump_config_.Merge(config.memory_dump_config_); process_filter_config_.Merge(config.process_filter_config_); event_filters_.insert(event_filters_.end(), config.event_filters().begin(), config.event_filters().end()); } void TraceConfig::Clear() { record_mode_ = RECORD_UNTIL_FULL; trace_buffer_size_in_events_ = 0; enable_systrace_ = false; enable_argument_filter_ = false; category_filter_.Clear(); memory_dump_config_.Clear(); process_filter_config_.Clear(); event_filters_.clear(); } void TraceConfig::InitializeDefault() { record_mode_ = RECORD_UNTIL_FULL; trace_buffer_size_in_events_ = 0; enable_systrace_ = false; enable_argument_filter_ = false; } void TraceConfig::InitializeFromConfigDict(const DictionaryValue& dict) { record_mode_ = RECORD_UNTIL_FULL; std::string record_mode; if (dict.GetString(kRecordModeParam, &record_mode)) { if (record_mode == kRecordUntilFull) { record_mode_ = RECORD_UNTIL_FULL; } else if (record_mode == kRecordContinuously) { record_mode_ = RECORD_CONTINUOUSLY; } else if (record_mode == kTraceToConsole) { record_mode_ = ECHO_TO_CONSOLE; } else if (record_mode == kRecordAsMuchAsPossible) { record_mode_ = RECORD_AS_MUCH_AS_POSSIBLE; } } int buffer_size = 0; trace_buffer_size_in_events_ = dict.GetInteger(kTraceBufferSizeInEvents, &buffer_size) ? buffer_size : 0; bool val; enable_systrace_ = dict.GetBoolean(kEnableSystraceParam, &val) ? val : false; enable_argument_filter_ = dict.GetBoolean(kEnableArgumentFilterParam, &val) ? val : false; category_filter_.InitializeFromConfigDict(dict); process_filter_config_.InitializeFromConfigDict(dict); const base::ListValue* category_event_filters = nullptr; if (dict.GetList(kEventFiltersParam, &category_event_filters)) SetEventFiltersFromConfigList(*category_event_filters); if (category_filter_.IsCategoryEnabled(MemoryDumpManager::kTraceCategory)) { // If dump triggers not set, the client is using the legacy with just // category enabled. So, use the default periodic dump config. const DictionaryValue* memory_dump_config = nullptr; if (dict.GetDictionary(kMemoryDumpConfigParam, &memory_dump_config)) SetMemoryDumpConfigFromConfigDict(*memory_dump_config); else SetDefaultMemoryDumpConfig(); } } void TraceConfig::InitializeFromConfigString(StringPiece config_string) { auto dict = DictionaryValue::From(JSONReader::Read(config_string)); if (dict) InitializeFromConfigDict(*dict); else InitializeDefault(); } void TraceConfig::InitializeFromStrings(StringPiece category_filter_string, StringPiece trace_options_string) { if (!category_filter_string.empty()) category_filter_.InitializeFromString(category_filter_string); record_mode_ = RECORD_UNTIL_FULL; trace_buffer_size_in_events_ = 0; enable_systrace_ = false; enable_argument_filter_ = false; if (!trace_options_string.empty()) { std::vector split = SplitString(trace_options_string, ",", TRIM_WHITESPACE, SPLIT_WANT_ALL); for (const std::string& token : split) { if (token == kRecordUntilFull) { record_mode_ = RECORD_UNTIL_FULL; } else if (token == kRecordContinuously) { record_mode_ = RECORD_CONTINUOUSLY; } else if (token == kTraceToConsole) { record_mode_ = ECHO_TO_CONSOLE; } else if (token == kRecordAsMuchAsPossible) { record_mode_ = RECORD_AS_MUCH_AS_POSSIBLE; } else if (token == kEnableSystrace) { enable_systrace_ = true; } else if (token == kEnableArgumentFilter) { enable_argument_filter_ = true; } } } if (category_filter_.IsCategoryEnabled(MemoryDumpManager::kTraceCategory)) { SetDefaultMemoryDumpConfig(); } } void TraceConfig::SetMemoryDumpConfigFromConfigDict( const DictionaryValue& memory_dump_config) { // Set allowed dump modes. memory_dump_config_.allowed_dump_modes.clear(); const ListValue* allowed_modes_list; if (memory_dump_config.GetList(kAllowedDumpModesParam, &allowed_modes_list)) { for (size_t i = 0; i < allowed_modes_list->GetSize(); ++i) { std::string level_of_detail_str; allowed_modes_list->GetString(i, &level_of_detail_str); memory_dump_config_.allowed_dump_modes.insert( StringToMemoryDumpLevelOfDetail(level_of_detail_str)); } } else { // If allowed modes param is not given then allow all modes by default. memory_dump_config_.allowed_dump_modes = GetDefaultAllowedMemoryDumpModes(); } // Set triggers memory_dump_config_.triggers.clear(); const ListValue* trigger_list = nullptr; if (memory_dump_config.GetList(kTriggersParam, &trigger_list) && trigger_list->GetSize() > 0) { for (size_t i = 0; i < trigger_list->GetSize(); ++i) { const DictionaryValue* trigger = nullptr; if (!trigger_list->GetDictionary(i, &trigger)) continue; MemoryDumpConfig::Trigger dump_config; int interval = 0; if (!trigger->GetInteger(kMinTimeBetweenDumps, &interval)) { // If "min_time_between_dumps_ms" param was not given, then the trace // config uses old format where only periodic dumps are supported. trigger->GetInteger(kPeriodicIntervalLegacyParam, &interval); dump_config.trigger_type = MemoryDumpType::PERIODIC_INTERVAL; } else { std::string trigger_type_str; trigger->GetString(kTriggerTypeParam, &trigger_type_str); dump_config.trigger_type = StringToMemoryDumpType(trigger_type_str); } DCHECK_GT(interval, 0); dump_config.min_time_between_dumps_ms = static_cast(interval); std::string level_of_detail_str; trigger->GetString(kTriggerModeParam, &level_of_detail_str); dump_config.level_of_detail = StringToMemoryDumpLevelOfDetail(level_of_detail_str); memory_dump_config_.triggers.push_back(dump_config); } } // Set heap profiler options const DictionaryValue* heap_profiler_options = nullptr; if (memory_dump_config.GetDictionary(kHeapProfilerOptions, &heap_profiler_options)) { int min_size_bytes = 0; if (heap_profiler_options->GetInteger(kBreakdownThresholdBytes, &min_size_bytes) && min_size_bytes >= 0) { memory_dump_config_.heap_profiler_options.breakdown_threshold_bytes = static_cast(min_size_bytes); } else { memory_dump_config_.heap_profiler_options.breakdown_threshold_bytes = MemoryDumpConfig::HeapProfiler::kDefaultBreakdownThresholdBytes; } } } void TraceConfig::SetDefaultMemoryDumpConfig() { memory_dump_config_.Clear(); memory_dump_config_.allowed_dump_modes = GetDefaultAllowedMemoryDumpModes(); } void TraceConfig::SetProcessFilterConfig(const ProcessFilterConfig& config) { process_filter_config_ = config; } void TraceConfig::SetEventFiltersFromConfigList( const base::ListValue& category_event_filters) { event_filters_.clear(); for (size_t event_filter_index = 0; event_filter_index < category_event_filters.GetSize(); ++event_filter_index) { const base::DictionaryValue* event_filter = nullptr; if (!category_event_filters.GetDictionary(event_filter_index, &event_filter)) continue; std::string predicate_name; CHECK(event_filter->GetString(kFilterPredicateParam, &predicate_name)) << "Invalid predicate name in category event filter."; EventFilterConfig new_config(predicate_name); new_config.InitializeFromConfigDict(event_filter); event_filters_.push_back(new_config); } } std::unique_ptr TraceConfig::ToDict() const { auto dict = std::make_unique(); dict->SetString(kRecordModeParam, TraceConfig::TraceRecordModeToStr(record_mode_)); dict->SetBoolean(kEnableSystraceParam, enable_systrace_); dict->SetBoolean(kEnableArgumentFilterParam, enable_argument_filter_); if (trace_buffer_size_in_events_ > 0) dict->SetInteger(kTraceBufferSizeInEvents, trace_buffer_size_in_events_); category_filter_.ToDict(dict.get()); process_filter_config_.ToDict(dict.get()); if (!event_filters_.empty()) { std::unique_ptr filter_list(new base::ListValue()); for (const EventFilterConfig& filter : event_filters_) { std::unique_ptr filter_dict( new base::DictionaryValue()); filter.ToDict(filter_dict.get()); filter_list->Append(std::move(filter_dict)); } dict->Set(kEventFiltersParam, std::move(filter_list)); } if (category_filter_.IsCategoryEnabled(MemoryDumpManager::kTraceCategory)) { auto allowed_modes = std::make_unique(); for (auto dump_mode : memory_dump_config_.allowed_dump_modes) allowed_modes->AppendString(MemoryDumpLevelOfDetailToString(dump_mode)); auto memory_dump_config = std::make_unique(); memory_dump_config->Set(kAllowedDumpModesParam, std::move(allowed_modes)); auto triggers_list = std::make_unique(); for (const auto& config : memory_dump_config_.triggers) { auto trigger_dict = std::make_unique(); trigger_dict->SetString(kTriggerTypeParam, MemoryDumpTypeToString(config.trigger_type)); trigger_dict->SetInteger( kMinTimeBetweenDumps, static_cast(config.min_time_between_dumps_ms)); trigger_dict->SetString( kTriggerModeParam, MemoryDumpLevelOfDetailToString(config.level_of_detail)); triggers_list->Append(std::move(trigger_dict)); } // Empty triggers will still be specified explicitly since it means that // the periodic dumps are not enabled. memory_dump_config->Set(kTriggersParam, std::move(triggers_list)); if (memory_dump_config_.heap_profiler_options.breakdown_threshold_bytes != MemoryDumpConfig::HeapProfiler::kDefaultBreakdownThresholdBytes) { auto options = std::make_unique(); options->SetInteger( kBreakdownThresholdBytes, memory_dump_config_.heap_profiler_options.breakdown_threshold_bytes); memory_dump_config->Set(kHeapProfilerOptions, std::move(options)); } dict->Set(kMemoryDumpConfigParam, std::move(memory_dump_config)); } return dict; } std::string TraceConfig::ToTraceOptionsString() const { std::string ret; switch (record_mode_) { case RECORD_UNTIL_FULL: ret = kRecordUntilFull; break; case RECORD_CONTINUOUSLY: ret = kRecordContinuously; break; case RECORD_AS_MUCH_AS_POSSIBLE: ret = kRecordAsMuchAsPossible; break; case ECHO_TO_CONSOLE: ret = kTraceToConsole; break; default: NOTREACHED(); } if (enable_systrace_) ret = ret + "," + kEnableSystrace; if (enable_argument_filter_) ret = ret + "," + kEnableArgumentFilter; return ret; } } // namespace trace_event } // namespace base