// Copyright 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. #ifndef BASE_TRACE_EVENT_MEMORY_DUMP_MANAGER_H_ #define BASE_TRACE_EVENT_MEMORY_DUMP_MANAGER_H_ #include #include #include #include #include #include "base/atomicops.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "base/memory/singleton.h" #include "base/synchronization/lock.h" #include "base/trace_event/memory_allocator_dump.h" #include "base/trace_event/memory_dump_provider_info.h" #include "base/trace_event/memory_dump_request_args.h" #include "base/trace_event/process_memory_dump.h" #include "base/trace_event/trace_event.h" namespace base { class SequencedTaskRunner; class SingleThreadTaskRunner; class Thread; namespace trace_event { class MemoryDumpProvider; // This is the interface exposed to the rest of the codebase to deal with // memory tracing. The main entry point for clients is represented by // RequestDumpPoint(). The extension by Un(RegisterDumpProvider). class BASE_EXPORT MemoryDumpManager { public: using RequestGlobalDumpFunction = RepeatingCallback; static constexpr const char* const kTraceCategory = TRACE_DISABLED_BY_DEFAULT("memory-infra"); // This value is returned as the tracing id of the child processes by // GetTracingProcessId() when tracing is not enabled. static const uint64_t kInvalidTracingProcessId; static MemoryDumpManager* GetInstance(); static std::unique_ptr CreateInstanceForTesting(); // Invoked once per process to listen to trace begin / end events. // Initialization can happen after (Un)RegisterMemoryDumpProvider() calls // and the MemoryDumpManager guarantees to support this. // On the other side, the MemoryDumpManager will not be fully operational // (any CreateProcessDump() will return a failure) until initialized. // Arguments: // is_coordinator: True when current process coordinates the periodic dump // triggering. // request_dump_function: Function to invoke a global dump. Global dump // involves embedder-specific behaviors like multiprocess handshaking. // TODO(primiano): this is only required to trigger global dumps from // the scheduler. Should be removed once they are both moved out of base. void Initialize(RequestGlobalDumpFunction request_dump_function, bool is_coordinator); // (Un)Registers a MemoryDumpProvider instance. // Args: // - mdp: the MemoryDumpProvider instance to be registered. MemoryDumpManager // does NOT take memory ownership of |mdp|, which is expected to either // be a singleton or unregister itself. // - name: a friendly name (duplicates allowed). Used for debugging and // run-time profiling of memory-infra internals. Must be a long-lived // C string. // - task_runner: either a SingleThreadTaskRunner or SequencedTaskRunner. All // the calls to |mdp| will be run on the given |task_runner|. If passed // null |mdp| should be able to handle calls on arbitrary threads. // - options: extra optional arguments. See memory_dump_provider.h. void RegisterDumpProvider(MemoryDumpProvider* mdp, const char* name, scoped_refptr task_runner); void RegisterDumpProvider(MemoryDumpProvider* mdp, const char* name, scoped_refptr task_runner, MemoryDumpProvider::Options options); void RegisterDumpProviderWithSequencedTaskRunner( MemoryDumpProvider* mdp, const char* name, scoped_refptr task_runner, MemoryDumpProvider::Options options); void UnregisterDumpProvider(MemoryDumpProvider* mdp); // Unregisters an unbound dump provider and takes care about its deletion // asynchronously. Can be used only for for dump providers with no // task-runner affinity. // This method takes ownership of the dump provider and guarantees that: // - The |mdp| will be deleted at some point in the near future. // - Its deletion will not happen concurrently with the OnMemoryDump() call. // Note that OnMemoryDump() calls can still happen after this method returns. void UnregisterAndDeleteDumpProviderSoon( std::unique_ptr mdp); // Prepare MemoryDumpManager for CreateProcessDump() calls for tracing-related // modes (i.e. |level_of_detail| != SUMMARY_ONLY). // Also initializes the scheduler with the given config. void SetupForTracing(const TraceConfig::MemoryDumpConfig&); // Tear-down tracing related state. // Non-tracing modes (e.g. SUMMARY_ONLY) will continue to work. void TeardownForTracing(); // Creates a memory dump for the current process and appends it to the trace. // |callback| will be invoked asynchronously upon completion on the same // thread on which CreateProcessDump() was called. This method should only be // used by the memory-infra service while creating a global memory dump. void CreateProcessDump(const MemoryDumpRequestArgs& args, ProcessMemoryDumpCallback callback); // Lets tests see if a dump provider is registered. bool IsDumpProviderRegisteredForTesting(MemoryDumpProvider*); // Returns a unique id for identifying the processes. The id can be // retrieved by child processes only when tracing is enabled. This is // intended to express cross-process sharing of memory dumps on the // child-process side, without having to know its own child process id. uint64_t GetTracingProcessId() const { return tracing_process_id_; } void set_tracing_process_id(uint64_t tracing_process_id) { tracing_process_id_ = tracing_process_id; } // Returns the name for a the allocated_objects dump. Use this to declare // suballocator dumps from other dump providers. // It will return nullptr if there is no dump provider for the system // allocator registered (which is currently the case for Mac OS). const char* system_allocator_pool_name() const { return kSystemAllocatorPoolName; } // When set to true, calling |RegisterMemoryDumpProvider| is a no-op. void set_dumper_registrations_ignored_for_testing(bool ignored) { dumper_registrations_ignored_for_testing_ = ignored; } scoped_refptr GetDumpThreadTaskRunner(); private: friend std::default_delete; // For the testing instance. friend struct DefaultSingletonTraits; friend class MemoryDumpManagerTest; FRIEND_TEST_ALL_PREFIXES(MemoryDumpManagerTest, NoStackOverflowWithTooManyMDPs); // Holds the state of a process memory dump that needs to be carried over // across task runners in order to fulfill an asynchronous CreateProcessDump() // request. At any time exactly one task runner owns a // ProcessMemoryDumpAsyncState. struct ProcessMemoryDumpAsyncState { ProcessMemoryDumpAsyncState( MemoryDumpRequestArgs req_args, const MemoryDumpProviderInfo::OrderedSet& dump_providers, ProcessMemoryDumpCallback callback, scoped_refptr dump_thread_task_runner); ~ProcessMemoryDumpAsyncState(); // A ProcessMemoryDump to collect data from MemoryDumpProviders. std::unique_ptr process_memory_dump; // The arguments passed to the initial CreateProcessDump() request. const MemoryDumpRequestArgs req_args; // An ordered sequence of dump providers that have to be invoked to complete // the dump. This is a copy of |dump_providers_| at the beginning of a dump // and becomes empty at the end, when all dump providers have been invoked. std::vector> pending_dump_providers; // Callback passed to the initial call to CreateProcessDump(). ProcessMemoryDumpCallback callback; // The thread on which FinishAsyncProcessDump() (and hence |callback|) // should be invoked. This is the thread on which the initial // CreateProcessDump() request was called. const scoped_refptr callback_task_runner; // The thread on which unbound dump providers should be invoked. // This is essentially |dump_thread_|.task_runner() but needs to be kept // as a separate variable as it needs to be accessed by arbitrary dumpers' // threads outside of the lock_ to avoid races when disabling tracing. // It is immutable for all the duration of a tracing session. const scoped_refptr dump_thread_task_runner; private: DISALLOW_COPY_AND_ASSIGN(ProcessMemoryDumpAsyncState); }; static const int kMaxConsecutiveFailuresCount; static const char* const kSystemAllocatorPoolName; MemoryDumpManager(); virtual ~MemoryDumpManager(); static void SetInstanceForTesting(MemoryDumpManager* instance); // Lazily initializes dump_thread_ and returns its TaskRunner. scoped_refptr GetOrCreateBgTaskRunnerLocked() EXCLUSIVE_LOCKS_REQUIRED(lock_); // Calls InvokeOnMemoryDump() for the each MDP that belongs to the current // task runner and switches to the task runner of the next MDP. Handles // failures in MDP and thread hops, and always calls FinishAsyncProcessDump() // at the end. void ContinueAsyncProcessDump( ProcessMemoryDumpAsyncState* owned_pmd_async_state); // Invokes OnMemoryDump() of the given MDP. Should be called on the MDP task // runner. void InvokeOnMemoryDump(MemoryDumpProviderInfo* mdpinfo, ProcessMemoryDump* pmd); void FinishAsyncProcessDump( std::unique_ptr pmd_async_state); // Helper for RegierDumpProvider* functions. void RegisterDumpProviderInternal( MemoryDumpProvider* mdp, const char* name, scoped_refptr task_runner, const MemoryDumpProvider::Options& options); // Helper for the public UnregisterDumpProvider* functions. void UnregisterDumpProviderInternal(MemoryDumpProvider* mdp, bool take_mdp_ownership_and_delete_async); bool can_request_global_dumps() const { return !request_dump_function_.is_null(); } // An ordered set of registered MemoryDumpProviderInfo(s), sorted by task // runner affinity (MDPs belonging to the same task runners are adjacent). MemoryDumpProviderInfo::OrderedSet dump_providers_ GUARDED_BY(lock_); // Function provided by the embedder to handle global dump requests. RequestGlobalDumpFunction request_dump_function_; // True when current process coordinates the periodic dump triggering. bool is_coordinator_ GUARDED_BY(lock_); // Protects from concurrent accesses to the local state, eg: to guard against // disabling logging while dumping on another thread. Lock lock_; // Thread used for MemoryDumpProviders which don't specify a task runner // affinity. std::unique_ptr dump_thread_ GUARDED_BY(lock_); // The unique id of the child process. This is created only for tracing and is // expected to be valid only when tracing is enabled. uint64_t tracing_process_id_; // When true, calling |RegisterMemoryDumpProvider| is a no-op. bool dumper_registrations_ignored_for_testing_; DISALLOW_COPY_AND_ASSIGN(MemoryDumpManager); }; } // namespace trace_event } // namespace base #endif // BASE_TRACE_EVENT_MEMORY_DUMP_MANAGER_H_