/* * Copyright (C) 2015 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. */ #ifndef SIMPLE_PERF_RECORD_H_ #define SIMPLE_PERF_RECORD_H_ #include #include #include #include #include #include #include #include "CallChainJoiner.h" #include "OfflineUnwinder.h" #include "build_id.h" #include "perf_event.h" namespace simpleperf { enum user_record_type { PERF_RECORD_USER_DEFINED_TYPE_START = 64, PERF_RECORD_ATTR = 64, PERF_RECORD_EVENT_TYPE, PERF_RECORD_TRACING_DATA, PERF_RECORD_BUILD_ID, PERF_RECORD_FINISHED_ROUND, PERF_RECORD_AUXTRACE_INFO = 70, PERF_RECORD_AUXTRACE = 71, SIMPLE_PERF_RECORD_TYPE_START = 32768, SIMPLE_PERF_RECORD_KERNEL_SYMBOL, // TODO: remove DsoRecord and SymbolRecord. SIMPLE_PERF_RECORD_DSO, SIMPLE_PERF_RECORD_SYMBOL, SIMPLE_PERF_RECORD_SPLIT, SIMPLE_PERF_RECORD_SPLIT_END, SIMPLE_PERF_RECORD_EVENT_ID, SIMPLE_PERF_RECORD_CALLCHAIN, SIMPLE_PERF_RECORD_UNWINDING_RESULT, SIMPLE_PERF_RECORD_TRACING_DATA, SIMPLE_PERF_RECORD_DEBUG, }; // perf_event_header uses u16 to store record size. However, that is not // enough for storing records like KERNEL_SYMBOL or TRACING_DATA. So define // a simpleperf_record_header struct to store record header for simpleperf // defined records (type > SIMPLE_PERF_RECORD_TYPE_START). struct simpleperf_record_header { uint32_t type; uint16_t size1; uint16_t size0; }; static_assert(sizeof(simpleperf_record_header) == sizeof(perf_event_header), "simpleperf_record_header should have the same size as perf_event_header"); struct PerfSampleIpType { uint64_t ip; }; struct PerfSampleTidType { uint32_t pid, tid; }; struct PerfSampleTimeType { uint64_t time; }; struct PerfSampleAddrType { uint64_t addr; }; struct PerfSampleIdType { uint64_t id; }; struct PerfSampleStreamIdType { uint64_t stream_id; }; struct PerfSampleCpuType { uint32_t cpu, res; }; struct PerfSamplePeriodType { uint64_t period; }; struct PerfSampleReadType { uint64_t time_enabled = 0; uint64_t time_running = 0; std::vector counts; std::vector ids; }; struct PerfSampleCallChainType { uint64_t ip_nr; uint64_t* ips; }; struct PerfSampleRawType { uint32_t size; const char* data; }; struct BranchStackItemType { uint64_t from; uint64_t to; uint64_t flags; }; struct PerfSampleBranchStackType { uint64_t stack_nr; const BranchStackItemType* stack; }; struct PerfSampleRegsUserType { uint64_t abi; uint64_t reg_mask; uint64_t reg_nr; const uint64_t* regs; }; struct PerfSampleStackUserType { uint64_t size; char* data; uint64_t dyn_size; }; struct RecordHeader { public: uint32_t type; uint16_t misc; uint32_t size; RecordHeader() : type(0), misc(0), size(0) {} bool Parse(const char* p) { auto pheader = reinterpret_cast(p); if (pheader->type < SIMPLE_PERF_RECORD_TYPE_START) { type = pheader->type; misc = pheader->misc; size = pheader->size; } else { auto sheader = reinterpret_cast(p); type = sheader->type; misc = 0; size = (sheader->size1 << 16) | sheader->size0; } if (size < sizeof(perf_event_header)) { LOG(ERROR) << "invalid record"; return false; } return true; } void MoveToBinaryFormat(char*& p) const { if (type < SIMPLE_PERF_RECORD_TYPE_START) { auto pheader = reinterpret_cast(p); pheader->type = type; pheader->misc = misc; CHECK_LT(size, 1u << 16); pheader->size = static_cast(size); } else { auto sheader = reinterpret_cast(p); sheader->type = type; CHECK_EQ(misc, 0u); sheader->size1 = size >> 16; sheader->size0 = size & 0xffff; } p += sizeof(perf_event_header); } }; // SampleId is optional at the end of a record in binary format. Its content is // determined by sample_id_all and sample_type in perf_event_attr. To avoid the // complexity of referring to perf_event_attr each time, we copy sample_id_all // and sample_type inside the SampleId structure. struct SampleId { bool sample_id_all; uint64_t sample_type; PerfSampleTidType tid_data; // Valid if sample_id_all && PERF_SAMPLE_TID. PerfSampleTimeType time_data; // Valid if sample_id_all && PERF_SAMPLE_TIME. PerfSampleIdType id_data; // Valid if sample_id_all && PERF_SAMPLE_ID. PerfSampleStreamIdType stream_id_data; // Valid if sample_id_all && PERF_SAMPLE_STREAM_ID. PerfSampleCpuType cpu_data; // Valid if sample_id_all && PERF_SAMPLE_CPU. SampleId(); // Create the content of sample_id. It depends on the attr we use. size_t CreateContent(const perf_event_attr& attr, uint64_t event_id); // Parse sample_id from binary format in the buffer pointed by p. bool ReadFromBinaryFormat(const perf_event_attr& attr, const char* p, const char* end); // Write the binary format of sample_id to the buffer pointed by p. void WriteToBinaryFormat(char*& p) const; void Dump(size_t indent) const; size_t Size() const; }; // Usually one record contains the following three parts in order in binary // format: // RecordHeader (at the head of a record, containing type and size info) // data depends on the record type // SampleId (optional part at the end of a record) // We hold the common parts (RecordHeader and SampleId) in the base class // Record, and hold the type specific data part in classes derived from Record. struct Record { RecordHeader header; SampleId sample_id; Record() : binary_(nullptr), own_binary_(false) {} Record(Record&& other) noexcept; virtual ~Record() { if (own_binary_) { delete[] binary_; } } virtual bool Parse(const perf_event_attr& attr, char* p, char* end) = 0; void OwnBinary() { own_binary_ = true; } uint32_t type() const { return header.type; } uint16_t misc() const { return header.misc; } uint32_t size() const { return header.size; } static uint32_t header_size() { return sizeof(perf_event_header); } bool InKernel() const { uint16_t cpumode = header.misc & PERF_RECORD_MISC_CPUMODE_MASK; return cpumode == PERF_RECORD_MISC_KERNEL || cpumode == PERF_RECORD_MISC_GUEST_KERNEL; } void SetTypeAndMisc(uint32_t type, uint16_t misc) { header.type = type; header.misc = misc; } void SetSize(uint32_t size) { header.size = size; } void Dump(size_t indent = 0) const; const char* Binary() const { return binary_; } char* BinaryForTestingOnly() { return binary_; } virtual uint64_t Timestamp() const; virtual uint32_t Cpu() const; virtual uint64_t Id() const; protected: bool ParseHeader(char*& p, char*& end); void UpdateBinary(char* new_binary); virtual void DumpData(size_t) const = 0; char* binary_; bool own_binary_; DISALLOW_COPY_AND_ASSIGN(Record); }; struct MmapRecord : public Record { struct MmapRecordDataType { uint32_t pid, tid; uint64_t addr; uint64_t len; uint64_t pgoff; }; const MmapRecordDataType* data; const char* filename; MmapRecord() {} MmapRecord(const perf_event_attr& attr, bool in_kernel, uint32_t pid, uint32_t tid, uint64_t addr, uint64_t len, uint64_t pgoff, const std::string& filename, uint64_t event_id, uint64_t time = 0); bool Parse(const perf_event_attr& attr, char* p, char* end) override; void SetDataAndFilename(const MmapRecordDataType& data, const std::string& filename); protected: void DumpData(size_t indent) const override; }; struct Mmap2Record : public Record { struct Mmap2RecordDataType { uint32_t pid, tid; uint64_t addr; uint64_t len; uint64_t pgoff; uint32_t maj; uint32_t min; uint64_t ino; uint64_t ino_generation; uint32_t prot, flags; }; const Mmap2RecordDataType* data; const char* filename; Mmap2Record() {} Mmap2Record(const perf_event_attr& attr, bool in_kernel, uint32_t pid, uint32_t tid, uint64_t addr, uint64_t len, uint64_t pgoff, uint32_t prot, const std::string& filename, uint64_t event_id, uint64_t time = 0); bool Parse(const perf_event_attr& attr, char* p, char* end) override; void SetDataAndFilename(const Mmap2RecordDataType& data, const std::string& filename); protected: void DumpData(size_t indent) const override; }; struct CommRecord : public Record { struct CommRecordDataType { uint32_t pid, tid; }; const CommRecordDataType* data; const char* comm; CommRecord() {} CommRecord(const perf_event_attr& attr, uint32_t pid, uint32_t tid, const std::string& comm, uint64_t event_id, uint64_t time); bool Parse(const perf_event_attr& attr, char* p, char* end) override; void SetCommandName(const std::string& name); protected: void DumpData(size_t indent) const override; }; struct ExitOrForkRecord : public Record { struct ExitOrForkRecordDataType { uint32_t pid, ppid; uint32_t tid, ptid; uint64_t time; }; const ExitOrForkRecordDataType* data; ExitOrForkRecord() : data(nullptr) {} bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct ExitRecord : public ExitOrForkRecord {}; struct ForkRecord : public ExitOrForkRecord { ForkRecord() {} ForkRecord(const perf_event_attr& attr, uint32_t pid, uint32_t tid, uint32_t ppid, uint32_t ptid, uint64_t event_id); }; struct LostRecord : public Record { uint64_t id; uint64_t lost; bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct SampleRecord : public Record { uint64_t sample_type; // sample_type is a bit mask determining which fields // below are valid. uint64_t read_format; PerfSampleIpType ip_data; // Valid if PERF_SAMPLE_IP. PerfSampleTidType tid_data; // Valid if PERF_SAMPLE_TID. PerfSampleTimeType time_data; // Valid if PERF_SAMPLE_TIME. PerfSampleAddrType addr_data; // Valid if PERF_SAMPLE_ADDR. PerfSampleIdType id_data; // Valid if PERF_SAMPLE_ID. PerfSampleStreamIdType stream_id_data; // Valid if PERF_SAMPLE_STREAM_ID. PerfSampleCpuType cpu_data; // Valid if PERF_SAMPLE_CPU. PerfSamplePeriodType period_data; // Valid if PERF_SAMPLE_PERIOD. PerfSampleReadType read_data; // Valid if PERF_SAMPLE_READ. PerfSampleCallChainType callchain_data; // Valid if PERF_SAMPLE_CALLCHAIN. PerfSampleRawType raw_data; // Valid if PERF_SAMPLE_RAW. PerfSampleBranchStackType branch_stack_data; // Valid if PERF_SAMPLE_BRANCH_STACK. PerfSampleRegsUserType regs_user_data; // Valid if PERF_SAMPLE_REGS_USER. PerfSampleStackUserType stack_user_data; // Valid if PERF_SAMPLE_STACK_USER. SampleRecord() {} SampleRecord(const perf_event_attr& attr, uint64_t id, uint64_t ip, uint32_t pid, uint32_t tid, uint64_t time, uint32_t cpu, uint64_t period, const PerfSampleReadType& read_data, const std::vector& ips, const std::vector& stack, uint64_t dyn_stack_size); bool Parse(const perf_event_attr& attr, char* p, char* end) override; void ReplaceRegAndStackWithCallChain(const std::vector& ips); // Remove kernel callchain, return true if there is a user space callchain left, otherwise // return false. bool ExcludeKernelCallChain(); bool HasUserCallChain() const; void UpdateUserCallChain(const std::vector& user_ips); uint64_t Timestamp() const override; uint32_t Cpu() const override; uint64_t Id() const override; uint64_t GetValidStackSize() const { // Invaid stack data has been removed by RecordReadThread::PushRecordToRecordBuffer(). return stack_user_data.size; } void AdjustCallChainGeneratedByKernel(); std::vector GetCallChain(size_t* kernel_ip_count) const; protected: void BuildBinaryWithNewCallChain(uint32_t new_size, const std::vector& ips); void DumpData(size_t indent) const override; }; struct AuxRecord : public Record { struct DataType { uint64_t aux_offset; uint64_t aux_size; uint64_t flags; }* data; bool Parse(const perf_event_attr& attr, char* p, char* end) override; bool Unformatted() const { return data->flags & PERF_AUX_FLAG_CORESIGHT_FORMAT_RAW; } protected: void DumpData(size_t indent) const override; }; struct SwitchRecord : public Record { bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t) const override {} }; struct SwitchCpuWideRecord : public Record { PerfSampleTidType tid_data; bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; // BuildIdRecord is defined in user-space, stored in BuildId feature section in // record file. struct BuildIdRecord : public Record { uint32_t pid; BuildId build_id; const char* filename; BuildIdRecord() {} BuildIdRecord(bool in_kernel, uint32_t pid, const BuildId& build_id, const std::string& filename); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct AuxTraceInfoRecord : public Record { // magic values to be compatible with linux perf static constexpr uint32_t AUX_TYPE_ETM = 3; static constexpr uint64_t MAGIC_ETM4 = 0x4040404040404040ULL; static constexpr uint64_t MAGIC_ETE = 0x5050505050505050ULL; struct ETM4Info { uint64_t magic; uint64_t cpu; uint64_t nrtrcparams; uint64_t trcconfigr; uint64_t trctraceidr; uint64_t trcidr0; uint64_t trcidr1; uint64_t trcidr2; uint64_t trcidr8; uint64_t trcauthstatus; }; struct ETEInfo { uint64_t magic; uint64_t cpu; uint64_t nrtrcparams; uint64_t trcconfigr; uint64_t trctraceidr; uint64_t trcidr0; uint64_t trcidr1; uint64_t trcidr2; uint64_t trcidr8; uint64_t trcauthstatus; uint64_t trcdevarch; }; struct DataType { uint32_t aux_type; uint32_t reserved; uint64_t version; uint32_t nr_cpu; uint32_t pmu_type; uint64_t snapshot; uint64_t info[0]; }* data; AuxTraceInfoRecord() {} AuxTraceInfoRecord(const DataType& data, const std::vector& ete_info); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct AuxTraceRecord : public Record { struct DataType { uint64_t aux_size; uint64_t offset; uint64_t reserved0; // reference uint32_t idx; uint32_t tid; uint32_t cpu; uint32_t reserved1; }* data; // AuxTraceRecord is followed by aux tracing data with size data->aux_size. // The location of aux tracing data in memory or file is kept in location. struct AuxDataLocation { const char* addr = nullptr; uint64_t file_offset = 0; } location; AuxTraceRecord() {} AuxTraceRecord(uint64_t aux_size, uint64_t offset, uint32_t idx, uint32_t tid, uint32_t cpu); bool Parse(const perf_event_attr& attr, char* p, char* end) override; uint32_t Cpu() const override { return data->cpu; } static size_t Size() { return sizeof(perf_event_header) + sizeof(DataType); } protected: void DumpData(size_t indent) const override; }; struct KernelSymbolRecord : public Record { uint32_t kallsyms_size; const char* kallsyms; KernelSymbolRecord() {} explicit KernelSymbolRecord(const std::string& kallsyms); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct DsoRecord : public Record { uint64_t dso_type; uint64_t dso_id; uint64_t min_vaddr; const char* dso_name; DsoRecord() {} DsoRecord(uint64_t dso_type, uint64_t dso_id, const std::string& dso_name, uint64_t min_vaddr); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct SymbolRecord : public Record { uint64_t addr; uint64_t len; uint64_t dso_id; const char* name; SymbolRecord() {} SymbolRecord(uint64_t addr, uint64_t len, const std::string& name, uint64_t dso_id); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct TracingDataRecord : public Record { uint32_t data_size; const char* data; TracingDataRecord() {} explicit TracingDataRecord(const std::vector& tracing_data); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct EventIdRecord : public Record { uint64_t count; struct EventIdData { uint64_t attr_id; uint64_t event_id; } const* data; EventIdRecord() {} explicit EventIdRecord(const std::vector& data); bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; struct CallChainRecord : public Record { uint32_t pid; uint32_t tid; uint64_t chain_type; uint64_t time; uint64_t ip_nr; uint64_t* ips; uint64_t* sps; CallChainRecord() {} CallChainRecord(pid_t pid, pid_t tid, simpleperf::CallChainJoiner::ChainType type, uint64_t time, const std::vector& ips, const std::vector& sps); bool Parse(const perf_event_attr& attr, char* p, char* end) override; uint64_t Timestamp() const override { return time; } protected: void DumpData(size_t indent) const override; }; struct UnwindingResultRecord : public Record { uint64_t time; UnwindingResult unwinding_result; PerfSampleRegsUserType regs_user_data; PerfSampleStackUserType stack_user_data; struct CallChain { uint64_t length = 0; uint64_t* ips = nullptr; uint64_t* sps = nullptr; } callchain; UnwindingResultRecord() {} UnwindingResultRecord(uint64_t time, const simpleperf::UnwindingResult& unwinding_result, const PerfSampleRegsUserType& regs_user_data, const PerfSampleStackUserType& stack_user_data, const std::vector& ips, const std::vector& sps); bool Parse(const perf_event_attr& attr, char* p, char* end) override; uint64_t Timestamp() const override { return time; } protected: void DumpData(size_t indent) const override; }; // Add a debug string in the recording file. struct DebugRecord : public Record { uint64_t time = 0; char* s = nullptr; DebugRecord() {} DebugRecord(uint64_t time, const std::string& s); bool Parse(const perf_event_attr& attr, char* p, char* end) override; uint64_t Timestamp() const override { return time; } protected: void DumpData(size_t indent) const override; }; // UnknownRecord is used for unknown record types, it makes sure all unknown // records are not changed when modifying perf.data. struct UnknownRecord : public Record { const char* data; bool Parse(const perf_event_attr& attr, char* p, char* end) override; protected: void DumpData(size_t indent) const override; }; // Read record from the buffer pointed by [p]. But the record doesn't own // the buffer. std::unique_ptr ReadRecordFromBuffer(const perf_event_attr& attr, uint32_t type, char* p, char* end); // Read records from the buffer pointed by [buf]. None of the records own // the buffer. std::vector> ReadRecordsFromBuffer(const perf_event_attr& attr, char* buf, size_t buf_size); // Read one record from the buffer pointed by [p]. But the record doesn't // own the buffer. std::unique_ptr ReadRecordFromBuffer(const perf_event_attr& attr, char* p, char* end); } // namespace simpleperf #endif // SIMPLE_PERF_RECORD_H_