// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #pragma once #include #include #include #include #include #include "rocksdb/options.h" #include "rocksdb/rocksdb_namespace.h" #include "rocksdb/status.h" #include "rocksdb/trace_record.h" #include "rocksdb/utilities/replayer.h" namespace ROCKSDB_NAMESPACE { // This file contains Tracer and Replayer classes that enable capturing and // replaying RocksDB traces. class ColumnFamilyHandle; class ColumnFamilyData; class DB; class DBImpl; class Env; class Slice; class SystemClock; class TraceReader; class TraceWriter; class WriteBatch; struct ReadOptions; struct TraceOptions; struct WriteOptions; extern const std::string kTraceMagic; const unsigned int kTraceTimestampSize = 8; const unsigned int kTraceTypeSize = 1; const unsigned int kTracePayloadLengthSize = 4; const unsigned int kTraceMetadataSize = kTraceTimestampSize + kTraceTypeSize + kTracePayloadLengthSize; static const int kTraceFileMajorVersion = 0; static const int kTraceFileMinorVersion = 2; // The data structure that defines a single trace. struct Trace { uint64_t ts; // timestamp TraceType type; // Each bit in payload_map stores which corresponding struct member added in // the payload. Each TraceType has its corresponding payload struct. For // example, if bit at position 0 is set in write payload, then the write batch // will be addedd. uint64_t payload_map = 0; // Each trace type has its own payload_struct, which will be serialized in the // payload. std::string payload; void reset() { ts = 0; type = kTraceMax; payload_map = 0; payload.clear(); } }; enum TracePayloadType : char { // Each member of all query payload structs should have a corresponding flag // here. Make sure to add them sequentially in the order of it is added. kEmptyPayload = 0, kWriteBatchData = 1, kGetCFID = 2, kGetKey = 3, kIterCFID = 4, kIterKey = 5, kIterLowerBound = 6, kIterUpperBound = 7, kMultiGetSize = 8, kMultiGetCFIDs = 9, kMultiGetKeys = 10, }; class TracerHelper { public: // Parse the string with major and minor version only static Status ParseVersionStr(std::string& v_string, int* v_num); // Parse the trace file version and db version in trace header static Status ParseTraceHeader(const Trace& header, int* trace_version, int* db_version); // Encode a version 0.1 trace object into the given string. static void EncodeTrace(const Trace& trace, std::string* encoded_trace); // Decode a string into the given trace object. static Status DecodeTrace(const std::string& encoded_trace, Trace* trace); // Decode a string into the given trace header. static Status DecodeHeader(const std::string& encoded_trace, Trace* header); // Set the payload map based on the payload type static bool SetPayloadMap(uint64_t& payload_map, const TracePayloadType payload_type); // Decode a Trace object into the corresponding TraceRecord. // Return Status::OK() if nothing is wrong, record will be set accordingly. // Return Status::NotSupported() if the trace type is not support, or the // corresponding error status, record will be set to nullptr. static Status DecodeTraceRecord(Trace* trace, int trace_file_version, std::unique_ptr* record); }; // Tracer captures all RocksDB operations using a user-provided TraceWriter. // Every RocksDB operation is written as a single trace. Each trace will have a // timestamp and type, followed by the trace payload. class Tracer { public: Tracer(SystemClock* clock, const TraceOptions& trace_options, std::unique_ptr&& trace_writer); ~Tracer(); // Trace all write operations -- Put, Merge, Delete, SingleDelete, Write Status Write(WriteBatch* write_batch); // Trace Get operations. Status Get(ColumnFamilyHandle* cfname, const Slice& key); // Trace Iterators. Status IteratorSeek(const uint32_t& cf_id, const Slice& key, const Slice& lower_bound, const Slice upper_bound); Status IteratorSeekForPrev(const uint32_t& cf_id, const Slice& key, const Slice& lower_bound, const Slice upper_bound); // Trace MultiGet Status MultiGet(const size_t num_keys, ColumnFamilyHandle** column_families, const Slice* keys); Status MultiGet(const size_t num_keys, ColumnFamilyHandle* column_family, const Slice* keys); Status MultiGet(const std::vector& column_family, const std::vector& keys); // Returns true if the trace is over the configured max trace file limit. // False otherwise. bool IsTraceFileOverMax(); // Returns true if the order of write trace records must match the order of // the corresponding records logged to WAL and applied to the DB. bool IsWriteOrderPreserved() { return trace_options_.preserve_write_order; } // Writes a trace footer at the end of the tracing Status Close(); private: // Write a trace header at the beginning, typically on initiating a trace, // with some metadata like a magic number, trace version, RocksDB version, and // trace format. Status WriteHeader(); // Write a trace footer, typically on ending a trace, with some metadata. Status WriteFooter(); // Write a single trace using the provided TraceWriter to the underlying // system, say, a filesystem or a streaming service. Status WriteTrace(const Trace& trace); // Helps in filtering and sampling of traces. // Returns true if a trace should be skipped, false otherwise. bool ShouldSkipTrace(const TraceType& type); SystemClock* clock_; TraceOptions trace_options_; std::unique_ptr trace_writer_; uint64_t trace_request_count_; Status trace_write_status_; }; } // namespace ROCKSDB_NAMESPACE