simpleperf/report_sample.proto - platform/system/extras - Git at Google

 // The file format generated by 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 {
   // Wall clock time for current sample.
   // By default, it is perf clock used in kernel.
   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;
   }

   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 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;
 }

 message Record {
   oneof record_data {
     Sample sample = 1;
     LostSituation lost = 2;
     File file = 3;
     Thread thread = 4;
     MetaInfo meta_info = 5;
   }
 }
	// The file format generated by 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 {
	// Wall clock time for current sample.
	// By default, it is perf clock used in kernel.
	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;
	}

	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 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;
	}

	message Record {
	oneof record_data {
	Sample sample = 1;
	LostSituation lost = 2;
	File file = 3;
	Thread thread = 4;
	MetaInfo meta_info = 5;
	}
	}