// Copyright 2015 The Chromium Authors // 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_REQUEST_ARGS_H_ #define BASE_TRACE_EVENT_MEMORY_DUMP_REQUEST_ARGS_H_ // This file defines the types and structs used to issue memory dump requests. // These are also used in the IPCs for coordinating inter-process memory dumps. #include #include #include #include "base/base_export.h" #include "base/functional/callback.h" #include "base/process/process_handle.h" namespace base { namespace trace_event { class ProcessMemoryDump; // Captures the reason why a memory dump is being requested. This is to allow // selective enabling of dumps, filtering and post-processing. Keep this // consistent with memory_instrumentation.mojo and // memory_instrumentation_struct_traits.{h,cc} enum class MemoryDumpType { kPeriodicInterval, // Dumping memory at periodic intervals. kExplicitlyTriggered, // Non maskable dump request. kSummaryOnly, // Calculate just the summary & don't add to the trace. kLast = kSummaryOnly }; // Tells the MemoryDumpProvider(s) how much detailed their dumps should be. // Keep this consistent with memory_instrumentation.mojo and // memory_instrumentation_struct_traits.{h,cc} enum class MemoryDumpLevelOfDetail : uint32_t { kFirst, // For background tracing mode. The dump time is quick, and typically just the // totals are expected. Suballocations need not be specified. Dump name must // contain only pre-defined strings and string arguments cannot be added. kBackground = kFirst, // For the levels below, MemoryDumpProvider instances must guarantee that the // total size reported in the root node is consistent. Only the granularity of // the child MemoryAllocatorDump(s) differs with the levels. // Few entries, typically a fixed number, per dump. kLight, // Unrestricted amount of entries per dump. kDetailed, kLast = kDetailed }; // Tells the MemoryDumpProvider(s) if they should try to make the result // more deterministic by forcing garbage collection. // Keep this consistent with memory_instrumentation.mojo and // memory_instrumentation_struct_traits.{h,cc} enum class MemoryDumpDeterminism : uint32_t { kNone, kForceGc }; // Keep this consistent with memory_instrumentation.mojo and // memory_instrumentation_struct_traits.{h,cc} struct BASE_EXPORT MemoryDumpRequestArgs { // Globally unique identifier. In multi-process dumps, all processes issue a // local dump with the same guid. This allows the trace importers to // reconstruct the global dump. uint64_t dump_guid; MemoryDumpType dump_type; MemoryDumpLevelOfDetail level_of_detail; MemoryDumpDeterminism determinism; }; // Args for ProcessMemoryDump and passed to OnMemoryDump calls for memory dump // providers. Dump providers are expected to read the args for creating dumps. struct MemoryDumpArgs { // Specifies how detailed the dumps should be. MemoryDumpLevelOfDetail level_of_detail; // Specifies whether the dumps should be more deterministic. MemoryDumpDeterminism determinism; // Globally unique identifier. In multi-process dumps, all processes issue a // local dump with the same guid. This allows the trace importers to // reconstruct the global dump. uint64_t dump_guid; }; using ProcessMemoryDumpCallback = OnceCallback< void(bool success, uint64_t dump_guid, std::unique_ptr)>; BASE_EXPORT const char* MemoryDumpTypeToString(const MemoryDumpType& dump_type); BASE_EXPORT MemoryDumpType StringToMemoryDumpType(const std::string& str); BASE_EXPORT const char* MemoryDumpLevelOfDetailToString( const MemoryDumpLevelOfDetail& level_of_detail); BASE_EXPORT MemoryDumpLevelOfDetail StringToMemoryDumpLevelOfDetail(const std::string& str); } // namespace trace_event } // namespace base #endif // BASE_TRACE_EVENT_MEMORY_DUMP_REQUEST_ARGS_H_