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//===-- xray_records.h ------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file is a part of XRay, a dynamic runtime instrumentation system. // // This header exposes some record types useful for the XRay in-memory logging // implementation. // //===----------------------------------------------------------------------===// #ifndef XRAY_XRAY_RECORDS_H #define XRAY_XRAY_RECORDS_H #include <cstdint> namespace __xray { enum FileTypes { NAIVE_LOG = 0, FDR_LOG = 1, }; // FDR mode use of the union field in the XRayFileHeader. struct alignas(16) FdrAdditionalHeaderData { uint64_t ThreadBufferSize; }; static_assert(sizeof(FdrAdditionalHeaderData) == 16, "FdrAdditionalHeaderData != 16 bytes"); // This data structure is used to describe the contents of the file. We use this // for versioning the supported XRay file formats. struct alignas(32) XRayFileHeader { uint16_t Version = 0; // The type of file we're writing out. See the FileTypes enum for more // information. This allows different implementations of the XRay logging to // have different files for different information being stored. uint16_t Type = 0; // What follows are a set of flags that indicate useful things for when // reading the data in the file. bool ConstantTSC : 1; bool NonstopTSC : 1; // The frequency by which TSC increases per-second. alignas(8) uint64_t CycleFrequency = 0; union { char FreeForm[16]; // The current civiltime timestamp, as retrieved from 'clock_gettime'. This // allows readers of the file to determine when the file was created or // written down. struct timespec TS; struct FdrAdditionalHeaderData FdrData; }; } __attribute__((packed)); static_assert(sizeof(XRayFileHeader) == 32, "XRayFileHeader != 32 bytes"); enum RecordTypes { NORMAL = 0, ARG_PAYLOAD = 1, }; struct alignas(32) XRayRecord { // This is the type of the record being written. We use 16 bits to allow us to // treat this as a discriminant, and so that the first 4 bytes get packed // properly. See RecordTypes for more supported types. uint16_t RecordType = RecordTypes::NORMAL; // The CPU where the thread is running. We assume number of CPUs <= 256. uint8_t CPU = 0; // The type of the event. One of the following: // ENTER = 0 // EXIT = 1 // TAIL_EXIT = 2 // ENTER_ARG = 3 uint8_t Type = 0; // The function ID for the record. int32_t FuncId = 0; // Get the full 8 bytes of the TSC when we get the log record. uint64_t TSC = 0; // The thread ID for the currently running thread. uint32_t TId = 0; // The ID of process that is currently running uint32_t PId = 0; // Use some bytes in the end of the record for buffers. char Buffer[8] = {}; } __attribute__((packed)); static_assert(sizeof(XRayRecord) == 32, "XRayRecord != 32 bytes"); struct alignas(32) XRayArgPayload { // We use the same 16 bits as a discriminant for the records in the log here // too, and so that the first 4 bytes are packed properly. uint16_t RecordType = RecordTypes::ARG_PAYLOAD; // Add a few bytes to pad. uint8_t Padding[2] = {}; // The function ID for the record. int32_t FuncId = 0; // The thread ID for the currently running thread. uint32_t TId = 0; // The ID of process that is currently running uint32_t PId = 0; // The argument payload. uint64_t Arg = 0; // The rest of this record ought to be left as padding. uint8_t TailPadding[8] = {}; } __attribute__((packed)); static_assert(sizeof(XRayArgPayload) == 32, "XRayArgPayload != 32 bytes"); } // namespace __xray #endif // XRAY_XRAY_RECORDS_H