// Copyright 2014 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. syntax = "proto2"; option optimize_for = LITE_RUNTIME; option java_package = "org.chromium.components.metrics"; option java_outer_classname = "PerfDataProtos"; package metrics; // Stores information from a perf session generated via running: // "perf record" // // See $kernel/tools/perf/design.txt for more details. // This is a read-only copy of the upstream protobuf; "Next tag:" comments are // absent. message PerfDataProto { // Perf event attribute. Stores the event description. // This data structure is defined in the linux kernel: // $kernel/include/uapi/linux/perf_event.h. message PerfEventAttr { // Type of the event. Type is an enumeration and can be one of the values // described at: $kernel/include/linux/perf_event.h. // Example types are: // PERF_TYPE_HARDWARE // PERF_TYPE_SOFTWARE, etc. optional uint32 type = 1; // Size of the event data in bytes. optional uint32 size = 2; // The config stores the CPU-specific counter information. optional uint64 config = 3; // Sample period of the event. Indicates how often the event is // triggered in terms of # of events. After |sample_period| events, an event // will be recorded and stored. optional uint64 sample_period = 4; // Sample frequency of the event. Indicates how often the event is // triggered in terms of # per second. The kernel will try to record // |sample_freq| events per second. optional uint64 sample_freq = 5; // Sample type is a bitfield that records attributes of the sample. Example, // whether an entire callchain was recorded, etc. optional uint64 sample_type = 6; // Bitfield that indicates whether reads on the counter will return the // total time enabled and total time running. optional uint64 read_format = 7; // Indicates whether the counter starts off disabled. optional bool disabled = 8; // Indicates whether child processes inherit the counter. optional bool inherit = 9; // Indicates whether the counter is pinned to a particular CPU. optional bool pinned = 10; // Indicates whether this counter's group has exclusive access to the CPU's // counters. optional bool exclusive = 11; // The following bits restrict events to be counted when the CPU is in user, // kernel, hypervisor or idle modes. optional bool exclude_user = 12; optional bool exclude_kernel = 13; optional bool exclude_hv = 14; optional bool exclude_idle = 15; // Indicates whether mmap events should be recorded. optional bool mmap = 16; // Indicates whether process comm information should be recorded upon // process creation. optional bool comm = 17; // Indicates that we are in frequency mode, not period mode. optional bool freq = 18; // Indicates whether we have per-task counts. optional bool inherit_stat = 19; // Indicates whether we enable perf events after an exec() function call. optional bool enable_on_exec = 20; // Indicates whether we trace fork/exit. optional bool task = 21; // Indicates whether we are using a watermark to wake up. optional bool watermark = 22; // CPUs often "skid" when recording events. That means the instruction // pointer may not be the same as the one that caused the counter overflow. // Indicates the capabilities of the CPU in terms of recording precise // instruction pointer. optional uint32 precise_ip = 23; // Indicates whether we have non-exec mmap data. optional bool mmap_data = 24; // If set, all the event types will have the same sample_type. optional bool sample_id_all = 25; // Indicates whether we are counting events from the host (when running a // VM). optional bool exclude_host = 26; // Exclude events that happen on a guest OS. optional bool exclude_guest = 27; // Contains the number of events after which we wake up. optional uint32 wakeup_events = 28; // Contains the number of bytes after which we wake up. optional uint32 wakeup_watermark = 29; // Information about the type of the breakpoint. optional uint32 bp_type = 30; // Contains the breakpoint address. optional uint64 bp_addr = 31; // This is an extension of config (see above). optional uint64 config1 = 32; // The length of the breakpoint data in bytes. optional uint64 bp_len = 33; // This is an extension of config (see above). optional uint64 config2 = 34; // Contains the type of branch, example: user, kernel, call, return, etc. optional uint64 branch_sample_type = 35; } // Describes a perf.data file attribute. message PerfFileAttr { optional PerfEventAttr attr = 1; // List of perf file attribute ids. Each id describes an event. repeated uint64 ids = 2; } // Protobuf version of the perf_event_type struct found in perf/util/event.h. // Contains the name of the event (such as "cycles" or "branch-misses") and // the event id (which is not unique). message PerfEventType { // Event id. This is not unique across event types. // The combination of the event id and the type field in PerfEventAttr is // unique across event types. optional uint64 id = 1; // Event name's md5 prefix. // The event name string was field 2 and has been intentionally left out. optional uint64 name_md5_prefix = 3; } // This message contains information about a perf sample itself, as opposed to // a perf event captured by a sample. message SampleInfo { // Process ID / thread ID from which this sample was taken. optional uint32 pid = 1; optional uint32 tid = 2; // Time this sample was taken (NOT the same as an event time). // It is the number of nanoseconds since bootup. optional uint64 sample_time_ns = 3; // The ID of the sample's event type (cycles, instructions, etc). // The event type IDs are defined in PerfFileAttr. optional uint64 id = 4; // The CPU on which this sample was taken. optional uint32 cpu = 5; } message CommEvent { // Process id. optional uint32 pid = 1; // Thread id. optional uint32 tid = 2; // Comm string's md5 prefix. // The comm string was field 3 and has been intentionally left out. optional uint64 comm_md5_prefix = 4; // Time the sample was taken. // Deprecated, use |sample_info| instead. optional uint64 sample_time = 5 [deprecated = true]; // Info about the perf sample containing this event. optional SampleInfo sample_info = 6; } message MMapEvent { // Process id. optional uint32 pid = 1; // Thread id. optional uint32 tid = 2; // Start address. optional uint64 start = 3; // Length. optional uint64 len = 4; // PG Offset. optional uint64 pgoff = 5; // Not added from original: fields 9-14. // Filename's md5 prefix. // The filename was field 6 and has been intentionally left out. optional uint64 filename_md5_prefix = 7; // Root path's md5 prefix. It helps to categorize filenames we could not // recover by the filename_md5_prefix. // The root_path was field 15 and has been intentionally left out. optional uint64 root_path_md5_prefix = 16; // Info about the perf sample containing this event. optional SampleInfo sample_info = 8; } // The kernel collects the number of events it couldn't send in a stretch and // when possible sends this number in a PERF_RECORD_LOST event, which is // stored in LostEvent. message LostEvent { // ID of the event which has been lost. This should be an id found in a // PerfFileAttr. optional uint64 id = 1; // Number of events that were lost. optional uint64 lost = 2; // Info about the perf sample containing this event. optional SampleInfo sample_info = 3; } message ThrottleEvent { // Time of throttle event, in nanoseconds since system startup. optional uint64 time_ns = 1; // Event ID. optional uint64 id = 2; // Stream ID. optional uint64 stream_id = 3; // Info about the perf sample containing this event. optional SampleInfo sample_info = 4; } message BranchStackEntry { // Branch source address. optional uint64 from_ip = 1; // Branch destination address. optional uint64 to_ip = 2; // Indicates a mispredicted branch. optional bool mispredicted = 3; // Indicates a predicted branch. optional bool predicted = 4; // Indicates running in a hardware transaction optional bool in_transaction = 5; // Indicates aborting a hardware transaction optional bool abort = 6; // Cycle count to last branch optional uint32 cycles = 7; } message SampleEvent { // Instruction pointer. optional uint64 ip = 1; // Process id. optional uint32 pid = 2; // Thread id. optional uint32 tid = 3; // The time after boot when the sample was recorded, in nanoseconds. optional uint64 sample_time_ns = 4; // The address of the sample. optional uint64 addr = 5; // The id of the sample. optional uint64 id = 6; // The stream id of the sample. optional uint64 stream_id = 7; // The period of the sample. optional uint64 period = 8; // The CPU where the event was recorded. optional uint32 cpu = 9; // The raw size of the event in bytes. optional uint32 raw_size = 10; // Not added from original: field 18. // Sample callchain info. repeated uint64 callchain = 11; // Branch stack info. repeated BranchStackEntry branch_stack = 12; // Not added from original: fields 13 and 14. // Sample weight for special events. optional uint64 weight = 15; // Sample data source flags. // Possible flag values: // http://lxr.free-electrons.com/source/include/uapi/linux/perf_event.h#L849 optional uint64 data_src = 16; // Sample transaction flags for special events. // Flag fields: // http://lxr.free-electrons.com/source/include/uapi/linux/perf_event.h#L209 optional uint64 transaction = 17; // Not added from original: fields 19-25. } // ForkEvent is used for both FORK and EXIT events, which have the same data // format. We don't want to call this "ForkOrExitEvent", in case a separate // exit event is introduced in the future. message ForkEvent { // Forked process ID. optional uint32 pid = 1; // Parent process ID. optional uint32 ppid = 2; // Forked process thread ID. optional uint32 tid = 3; // Parent process thread ID. optional uint32 ptid = 4; // Time of fork event in nanoseconds since bootup. optional uint64 fork_time_ns = 5; // Info about the perf sample containing this event. optional SampleInfo sample_info = 11; } message EventHeader { // Type of event. optional uint32 type = 1; optional uint32 misc = 2; // Size of event. optional uint32 size = 3; } message PerfEvent { optional EventHeader header = 1; oneof event_type { MMapEvent mmap_event = 2; SampleEvent sample_event = 3; CommEvent comm_event = 4; // FORK and EXIT events are structurally identical. They only differ by // the event type. But using two distinct fields allows us to // differentiate between them without having to check the event type under // |header|. ForkEvent fork_event = 5; ForkEvent exit_event = 9; LostEvent lost_event = 6; ThrottleEvent throttle_event = 7; // Not added from original: fields 8, 11-24. } // Time after boot in nanoseconds corresponding to the event. optional uint64 timestamp = 10; } message PerfEventStats { // Total number of events read from perf data. optional uint32 num_events_read = 1; // Total number of various types of events. optional uint32 num_sample_events = 2; optional uint32 num_mmap_events = 3; optional uint32 num_fork_events = 4; optional uint32 num_exit_events = 5; // Number of sample events that were successfully mapped by the address // mapper, a quipper module that is used to obscure addresses and convert // them to DSO name + offset. Sometimes it fails to process sample events. // This field allows us to track the success rate of the address mapper. optional uint32 num_sample_events_mapped = 6; // Whether address remapping was enabled. optional bool did_remap = 7; } message PerfBuildID { // Misc field in perf_event_header. // Indicates whether the file is mapped in kernel mode or user mode. optional uint32 misc = 1; // Process ID. optional uint32 pid = 2; // Build id. Should always contain kBuildIDArraySize bytes of data. // perf_reader.h defines kBuildIDArraySize = 20. optional bytes build_id_hash = 3; // Filename Md5sum prefix. // The filename was field 4 and has been intentionally left out. optional uint64 filename_md5_prefix = 5; // Not added from original: field 6. } message PerfPMUMappingsMetadata { // Mapping type. // It is a number the kernel uses to map to PMU devices when initializing // them. It is used to reconstruct the event type across different machines. optional uint32 type = 1; // The mapping name, field 2, has been intentionally left out. // Mapping name's md5 prefix. optional uint64 name_md5_prefix = 3; } message PerfHybridTopologyMetadata { // The pmu name, field 1, has been intentionally left out. // The 16 most significant bytes of the pmu name's md5 prefix. optional uint64 pmu_name_md5_prefix = 2; // The string version of cpus, field 3, has been intentionally left out. // A range of cpu numbers for this pmu. repeated uint32 cpu_list = 4 [packed = true]; } repeated PerfFileAttr file_attrs = 1; repeated PerfEvent events = 2; repeated PerfEventType event_types = 10; // Time when quipper generated this perf data / protobuf, given as seconds // since the epoch. optional uint64 timestamp_sec = 3; // Records some stats about the serialized perf events. optional PerfEventStats stats = 4; // Not added from original: repeated uint64 metadata_mask = 5; // Not added from original: optional PerfTracingMetadata tracing_data = 14; // Build ID metadata. repeated PerfBuildID build_ids = 7; // Not added from original: repeated PerfUint32Metadata uint32_metadata = 8; // Not added from original: repeated PerfUint64Metadata uint64_metadata = 9; // Not added from original: // optional PerfCPUTopologyMetadata cpu_topology = 11; // Not added from original: // repeated PerfNodeTopologyMetadata numa_topology = 12; repeated PerfPMUMappingsMetadata pmu_mappings = 15; // Not added from original: repeated PerfGroupDescMetadata group_desc = 16; repeated PerfHybridTopologyMetadata hybrid_topology = 17; message StringMetadata { message StringAndMd5sumPrefix { // The string value was field 1 and has been intentionally left out. // The string value's md5sum prefix. optional uint64 value_md5_prefix = 2; } // Not added from original: optional StringAndMd5sumPrefix hostname = 1; // Not added from original: // optional StringAndMd5sumPrefix kernel_version =2; // Not added from original: optional StringAndMd5sumPrefix perf_version = 3; // Not added from original: optional StringAndMd5sumPrefix architecture = 4; // Not added from original: // optional StringAndMd5sumPrefix cpu_description = 5; // Not added from original: optional StringAndMd5sumPrefix cpu_id = 6; // Not added from original: // repeated StringAndMd5sumPrefix perf_command_line_token = 7; // The command line stored as a single string. optional StringAndMd5sumPrefix perf_command_line_whole = 8; } // All the string metadata from the perf data file. optional StringMetadata string_metadata = 13; }