/* * Copyright (C) 2022 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // The file format generated by cmd_report_sample.proto is as below: // char magic[10] = "SIMPLEPERF"; // LittleEndian16(version) = 1; // LittleEndian32(record_size_0) // message Record(record_0) (having record_size_0 bytes) // LittleEndian32(record_size_1) // message Record(record_1) (having record_size_1 bytes) // ... // LittleEndian32(record_size_N) // message Record(record_N) (having record_size_N bytes) // LittleEndian32(0) syntax = "proto2"; option optimize_for = LITE_RUNTIME; package simpleperf_report_proto; option java_package = "com.android.tools.profiler.proto"; option java_outer_classname = "SimpleperfReport"; message Sample { // Monotonic clock time in nanoseconds. On kernel < 4.1, it's perf clock instead. optional uint64 time = 1; optional int32 thread_id = 2; message CallChainEntry { // virtual address of the instruction in elf file optional uint64 vaddr_in_file = 1; // index of the elf file containing the instruction optional uint32 file_id = 2; // symbol_id refers to the name of the function containing the instruction. // If the function name is found, it is a valid index in the symbol table // of File with 'id' field being file_id, otherwise it is -1. optional int32 symbol_id = 3; enum ExecutionType { // methods belong to native libraries, AOT compiled JVM code and ART methods not used near // JVM methods NATIVE_METHOD = 0; INTERPRETED_JVM_METHOD = 1; JIT_JVM_METHOD = 2; // ART methods used near JVM methods. It's shown only when --show-art-frames is used. ART_METHOD = 3; } optional ExecutionType execution_type = 4 [default = NATIVE_METHOD]; } repeated CallChainEntry callchain = 3; // Simpleperf generates one sample whenever a specified amount of events happen // while running a monitored thread. So each sample belongs to one event type. // Event type can be cpu-cycles, cpu-clock, sched:sched_switch or other types. // By using '-e' option, we can ask simpleperf to record samples for one or more // event types. // Each event type generates samples independently. But recording more event types // will cost more cpu time generating samples, which may affect the monitored threads // and sample lost rate. // event_count field shows the count of the events (belong to the sample's event type) // that have happened since last sample (belong to the sample's event type) for the // same thread. However, if there are lost samples between current sample and previous // sample, the event_count is the count of events from the last lost sample. optional uint64 event_count = 4; // An index in meta_info.event_type, shows which event type current sample belongs to. optional uint32 event_type_id = 5; message UnwindingResult { // error code provided by libunwindstack, in // https://cs.android.com/android/platform/superproject/+/master:system/unwinding/libunwindstack/include/unwindstack/Error.h optional uint32 raw_error_code = 1; // error addr provided by libunwindstack optional uint64 error_addr = 2; // error code interpreted by simpleperf enum ErrorCode { ERROR_NONE = 0; // No error ERROR_UNKNOWN = 1; // Error not interpreted by simpleperf, see raw_error_code ERROR_NOT_ENOUGH_STACK = 2; // Simpleperf doesn't record enough stack data ERROR_MEMORY_INVALID = 3; // Memory read failed ERROR_UNWIND_INFO = 4; // No debug info in binary to support unwinding ERROR_INVALID_MAP = 5; // Unwind in an invalid map ERROR_MAX_FRAME_EXCEEDED = 6; // Stopped at MAX_UNWINDING_FRAMES, which is 512. ERROR_REPEATED_FRAME = 7; // The last frame has the same pc/sp as the next. ERROR_INVALID_ELF = 8; // Unwind in an invalid elf file } optional ErrorCode error_code = 3; } // Unwinding result is provided for samples without a complete callchain, when recorded with // --keep-failed-unwinding-result or --keep-failed-unwinding-debug-info. optional UnwindingResult unwinding_result = 6; } message LostSituation { optional uint64 sample_count = 1; optional uint64 lost_count = 2; } message File { // unique id for each file, starting from 0, and add 1 each time. optional uint32 id = 1; // file path, like /system/lib/libc.so. optional string path = 2; // symbol table of the file. repeated string symbol = 3; // mangled symbol table of the file. repeated string mangled_symbol = 4; } message Thread { optional uint32 thread_id = 1; optional uint32 process_id = 2; optional string thread_name = 3; } message MetaInfo { repeated string event_type = 1; optional string app_package_name = 2; optional string app_type = 3; // debuggable, profileable or non_profileable optional string android_sdk_version = 4; optional string android_build_type = 5; // user, userdebug or eng // True if the profile is recorded with --trace-offcpu option. optional bool trace_offcpu = 6; } // Thread context switch info. It is available when MetaInfo.trace_offcpu = true. message ContextSwitch { // If true, the thread is scheduled on cpu, otherwise it is scheduled off cpu. optional bool switch_on = 1; // Monotonic clock time in nanoseconds. On kernel < 4.1, it's perf clock instead. optional uint64 time = 2; optional uint32 thread_id = 3; } message Record { oneof record_data { Sample sample = 1; LostSituation lost = 2; File file = 3; Thread thread = 4; MetaInfo meta_info = 5; ContextSwitch context_switch = 6; } }