// Copyright (c) 2012 The Chromium OS 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 CHROMIUMOS_WIDE_PROFILING_PERF_READER_H_
#define CHROMIUMOS_WIDE_PROFILING_PERF_READER_H_
#include <stdint.h>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <unordered_set>
#include <vector>
#include "base/macros.h"
#include "compat/proto.h"
#include "compat/string.h"
#include "kernel/perf_event.h"
#include "perf_serializer.h"
#include "sample_info_reader.h"
namespace quipper {
// Based on code in tools/perf/util/header.c, the metadata are of the following
// formats:
typedef u32 num_siblings_type;
class DataReader;
class DataWriter;
struct PerfFileAttr;
class PerfReader {
public:
PerfReader();
~PerfReader();
// Copy stored contents to |*perf_data_proto|. Appends a timestamp. Returns
// true on success.
bool Serialize(PerfDataProto* perf_data_proto) const;
// Read in contents from a protobuf. Returns true on success.
bool Deserialize(const PerfDataProto& perf_data_proto);
bool ReadFile(const string& filename);
bool ReadFromVector(const std::vector<char>& data);
bool ReadFromString(const string& str);
bool ReadFromPointer(const char* data, size_t size);
bool ReadFromData(DataReader* data);
bool WriteFile(const string& filename);
bool WriteToVector(std::vector<char>* data);
bool WriteToString(string* str);
bool WriteToPointer(char* buffer, size_t size);
// Stores the mapping from filenames to build ids in build_id_events_.
// Returns true on success.
// Note: If |filenames_to_build_ids| contains a mapping for a filename for
// which there is already a build_id_event in build_id_events_, a duplicate
// build_id_event will be created, and the old build_id_event will NOT be
// deleted.
bool InjectBuildIDs(const std::map<string, string>& filenames_to_build_ids);
// Replaces existing filenames with filenames from |build_ids_to_filenames|
// by joining on build ids. If a build id in |build_ids_to_filenames| is not
// present in this parser, it is ignored.
bool Localize(const std::map<string, string>& build_ids_to_filenames);
// Same as Localize, but joins on filenames instead of build ids.
bool LocalizeUsingFilenames(const std::map<string, string>& filename_map);
// Stores a list of unique filenames found in MMAP/MMAP2 events into
// |filenames|. Any existing data in |filenames| will be lost.
void GetFilenames(std::vector<string>* filenames) const;
void GetFilenamesAsSet(std::set<string>* filenames) const;
// Uses build id events to populate |filenames_to_build_ids|.
// Any existing data in |filenames_to_build_ids| will be lost.
// Note: A filename returned by GetFilenames need not be present in this map,
// since there may be no build id event corresponding to the MMAP/MMAP2.
void GetFilenamesToBuildIDs(
std::map<string, string>* filenames_to_build_ids) const;
// Sort all events in |proto_| by timestamps if they are available. Otherwise
// event order is unchanged.
void MaybeSortEventsByTime();
// Accessors and mutators.
// This is a plain accessor for the internal protobuf storage. It is meant for
// exposing the internals. This is not initialized until Read*() or
// Deserialize() has been called.
//
// Call Serialize() instead of this function to acquire an "official" protobuf
// with a timestamp.
const PerfDataProto& proto() const { return *proto_; }
const RepeatedPtrField<PerfDataProto_PerfFileAttr>& attrs() const {
return proto_->file_attrs();
}
const RepeatedPtrField<PerfDataProto_PerfEventType>& event_types() const {
return proto_->event_types();
}
const RepeatedPtrField<PerfDataProto_PerfEvent>& events() const {
return proto_->events();
}
// WARNING: Modifications to the protobuf events may change the amount of
// space required to store the corresponding raw event. If that happens, the
// caller is responsible for correctly updating the size in the event header.
RepeatedPtrField<PerfDataProto_PerfEvent>* mutable_events() {
return proto_->mutable_events();
}
const RepeatedPtrField<PerfDataProto_PerfBuildID>& build_ids() const {
return proto_->build_ids();
}
RepeatedPtrField<PerfDataProto_PerfBuildID>* mutable_build_ids() {
return proto_->mutable_build_ids();
}
const string& tracing_data() const {
return proto_->tracing_data().tracing_data();
}
const PerfDataProto_StringMetadata& string_metadata() const {
return proto_->string_metadata();
}
uint64_t metadata_mask() const { return proto_->metadata_mask().Get(0); }
private:
bool ReadHeader(DataReader* data);
bool ReadAttrsSection(DataReader* data);
bool ReadAttr(DataReader* data);
bool ReadEventAttr(DataReader* data, perf_event_attr* attr);
bool ReadUniqueIDs(DataReader* data, size_t num_ids, std::vector<u64>* ids);
bool ReadEventTypesSection(DataReader* data);
// if event_size == 0, then not in an event.
bool ReadEventType(DataReader* data, int attr_idx, size_t event_size);
bool ReadDataSection(DataReader* data);
// Reads metadata in normal mode.
bool ReadMetadata(DataReader* data);
// The following functions read various types of metadata.
bool ReadTracingMetadata(DataReader* data, size_t size);
bool ReadBuildIDMetadata(DataReader* data, size_t size);
// Reads contents of a build ID event or block beyond the header. Useful for
// reading build IDs in piped mode, where the header must be read first in
// order to determine that it is a build ID event.
bool ReadBuildIDMetadataWithoutHeader(DataReader* data,
const perf_event_header& header);
// Reads and serializes trace data following PERF_RECORD_AUXTRACE event.
bool ReadAuxtraceTraceData(DataReader* data,
PerfDataProto_PerfEvent* proto_event);
// Reads a singular string metadata field (with preceding size field) from
// |data| and writes the string and its Md5sum prefix into |dest|.
bool ReadSingleStringMetadata(
DataReader* data, size_t max_readable_size,
PerfDataProto_StringMetadata_StringAndMd5sumPrefix* dest) const;
// Reads a string metadata with multiple string fields (each with preceding
// size field) from |data|. Writes each string field and its Md5sum prefix
// into |dest_array|. Writes the combined string fields (joined into one
// string into |dest_single|.
bool ReadRepeatedStringMetadata(
DataReader* data, size_t max_readable_size,
RepeatedPtrField<PerfDataProto_StringMetadata_StringAndMd5sumPrefix>*
dest_array,
PerfDataProto_StringMetadata_StringAndMd5sumPrefix* dest_single) const;
bool ReadUint32Metadata(DataReader* data, u32 type, size_t size);
bool ReadUint64Metadata(DataReader* data, u32 type, size_t size);
bool ReadCPUTopologyMetadata(DataReader* data);
bool ReadNUMATopologyMetadata(DataReader* data);
bool ReadPMUMappingsMetadata(DataReader* data, size_t size);
bool ReadGroupDescMetadata(DataReader* data);
bool ReadEventDescMetadata(DataReader* data);
// Read perf data from file perf output data.
bool ReadFileData(DataReader* data);
// Read perf data from piped perf output data.
bool ReadPipedData(DataReader* data);
// Returns the size in bytes that would be written by any of the methods that
// write the entire perf data file (WriteFile, WriteToPointer, etc).
size_t GetSize() const;
// Populates |*header| with the proper contents based on the perf data that
// has been read.
void GenerateHeader(struct perf_file_header* header) const;
// Like WriteToPointer, but does not check if the buffer is large enough.
bool WriteToPointerWithoutCheckingSize(char* buffer, size_t size);
bool WriteHeader(const struct perf_file_header& header,
DataWriter* data) const;
bool WriteAttrs(const struct perf_file_header& header,
DataWriter* data) const;
bool WriteData(const struct perf_file_header& header, DataWriter* data) const;
bool WriteMetadata(const struct perf_file_header& header,
DataWriter* data) const;
// For writing the various types of metadata.
bool WriteBuildIDMetadata(u32 type, DataWriter* data) const;
bool WriteSingleStringMetadata(
const PerfDataProto_StringMetadata_StringAndMd5sumPrefix& src,
DataWriter* data) const;
bool WriteRepeatedStringMetadata(
const RepeatedPtrField<
PerfDataProto_StringMetadata_StringAndMd5sumPrefix>& src_array,
DataWriter* data) const;
bool WriteUint32Metadata(u32 type, DataWriter* data) const;
bool WriteUint64Metadata(u32 type, DataWriter* data) const;
bool WriteEventDescMetadata(DataWriter* data) const;
bool WriteCPUTopologyMetadata(DataWriter* data) const;
bool WriteNUMATopologyMetadata(DataWriter* data) const;
bool WritePMUMappingsMetadata(DataWriter* data) const;
bool WriteGroupDescMetadata(DataWriter* data) const;
// For reading event blocks within piped perf data.
bool ReadAttrEventBlock(DataReader* data, size_t size);
// Swaps byte order for non-header fields of the data structure pointed to by
// |event|, if |is_cross_endian| is true. Otherwise leaves the data the same.
void MaybeSwapEventFields(event_t* event, bool is_cross_endian);
// Returns the number of types of metadata stored and written to output data.
size_t GetNumSupportedMetadata() const;
// For computing the sizes of the various types of metadata.
size_t GetBuildIDMetadataSize() const;
size_t GetStringMetadataSize() const;
size_t GetUint32MetadataSize() const;
size_t GetUint64MetadataSize() const;
size_t GetEventDescMetadataSize() const;
size_t GetCPUTopologyMetadataSize() const;
size_t GetNUMATopologyMetadataSize() const;
size_t GetPMUMappingsMetadataSize() const;
size_t GetGroupDescMetadataSize() const;
// Returns true if we should write the number of strings for the string
// metadata of type |type|.
bool NeedsNumberOfStringData(u32 type) const;
// Replaces existing filenames in MMAP/MMAP2 events based on |filename_map|.
// This method does not change |build_id_events_|.
bool LocalizeMMapFilenames(const std::map<string, string>& filename_map);
// Stores a PerfFileAttr in |proto_| and updates |serializer_|.
void AddPerfFileAttr(const PerfFileAttr& attr);
bool get_metadata_mask_bit(uint32_t bit) const {
return metadata_mask() & (1 << bit);
}
void set_metadata_mask_bit(uint32_t bit) {
proto_->set_metadata_mask(0, metadata_mask() | (1 << bit));
}
// The file header is either a normal header or a piped header.
union {
struct perf_file_header header_;
struct perf_pipe_file_header piped_header_;
};
// Store the perf data as a protobuf.
Arena arena_;
PerfDataProto* proto_;
// Attribute ids that have been added to |proto_|, for deduplication.
std::unordered_set<u64> file_attrs_seen_;
// Whether the incoming data is from a machine with a different endianness. We
// got rid of this flag in the past but now we need to store this so it can be
// passed to |serializer_|.
bool is_cross_endian_;
// For serializing individual events.
PerfSerializer serializer_;
// When writing to a new perf data file, this is used to hold the generated
// file header, which may differ from the input file header, if any.
struct perf_file_header out_header_;
DISALLOW_COPY_AND_ASSIGN(PerfReader);
};
} // namespace quipper
#endif // CHROMIUMOS_WIDE_PROFILING_PERF_READER_H_