152 lines
4.7 KiB
C++
152 lines
4.7 KiB
C++
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//===- FDRTraceWriter.cpp - XRay FDR Trace Writer ---------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Test a utility that can write out XRay FDR Mode formatted trace files.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/XRay/FDRTraceWriter.h"
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#include <tuple>
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namespace llvm {
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namespace xray {
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namespace {
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template <size_t Index> struct IndexedWriter {
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template <
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class Tuple,
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std::enable_if_t<(Index <
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std::tuple_size<std::remove_reference_t<Tuple>>::value),
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int> = 0>
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static size_t write(support::endian::Writer &OS, Tuple &&T) {
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OS.write(std::get<Index>(T));
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return sizeof(std::get<Index>(T)) + IndexedWriter<Index + 1>::write(OS, T);
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}
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template <
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class Tuple,
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std::enable_if_t<(Index >=
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std::tuple_size<std::remove_reference_t<Tuple>>::value),
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int> = 0>
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static size_t write(support::endian::Writer &OS, Tuple &&) {
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return 0;
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}
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};
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template <uint8_t Kind, class... Values>
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Error writeMetadata(support::endian::Writer &OS, Values &&... Ds) {
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// The first bit in the first byte of metadata records is always set to 1, so
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// we ensure this is the case when we write out the first byte of the record.
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uint8_t FirstByte = (static_cast<uint8_t>(Kind) << 1) | uint8_t{0x01u};
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auto T = std::make_tuple(std::forward<Values>(std::move(Ds))...);
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// Write in field order.
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OS.write(FirstByte);
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auto Bytes = IndexedWriter<0>::write(OS, T);
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assert(Bytes <= 15 && "Must only ever write at most 16 byte metadata!");
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// Pad out with appropriate numbers of zero's.
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for (; Bytes < 15; ++Bytes)
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OS.write('\0');
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return Error::success();
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}
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} // namespace
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FDRTraceWriter::FDRTraceWriter(raw_ostream &O, const XRayFileHeader &H)
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: OS(O, support::endianness::native) {
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// We need to re-construct a header, by writing the fields we care about for
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// traces, in the format that the runtime would have written.
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uint32_t BitField =
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(H.ConstantTSC ? 0x01 : 0x0) | (H.NonstopTSC ? 0x02 : 0x0);
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// For endian-correctness, we need to write these fields in the order they
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// appear and that we expect, instead of blasting bytes of the struct through.
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OS.write(H.Version);
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OS.write(H.Type);
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OS.write(BitField);
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OS.write(H.CycleFrequency);
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ArrayRef<char> FreeFormBytes(H.FreeFormData,
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sizeof(XRayFileHeader::FreeFormData));
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OS.write(FreeFormBytes);
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}
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FDRTraceWriter::~FDRTraceWriter() {}
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Error FDRTraceWriter::visit(BufferExtents &R) {
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return writeMetadata<7u>(OS, R.size());
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}
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Error FDRTraceWriter::visit(WallclockRecord &R) {
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return writeMetadata<4u>(OS, R.seconds(), R.nanos());
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}
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Error FDRTraceWriter::visit(NewCPUIDRecord &R) {
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return writeMetadata<2u>(OS, R.cpuid(), R.tsc());
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}
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Error FDRTraceWriter::visit(TSCWrapRecord &R) {
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return writeMetadata<3u>(OS, R.tsc());
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}
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Error FDRTraceWriter::visit(CustomEventRecord &R) {
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if (auto E = writeMetadata<5u>(OS, R.size(), R.tsc(), R.cpu()))
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return E;
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auto D = R.data();
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ArrayRef<char> Bytes(D.data(), D.size());
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OS.write(Bytes);
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return Error::success();
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}
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Error FDRTraceWriter::visit(CustomEventRecordV5 &R) {
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if (auto E = writeMetadata<5u>(OS, R.size(), R.delta()))
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return E;
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auto D = R.data();
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ArrayRef<char> Bytes(D.data(), D.size());
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OS.write(Bytes);
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return Error::success();
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}
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Error FDRTraceWriter::visit(TypedEventRecord &R) {
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if (auto E = writeMetadata<8u>(OS, R.size(), R.delta(), R.eventType()))
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return E;
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auto D = R.data();
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ArrayRef<char> Bytes(D.data(), D.size());
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OS.write(Bytes);
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return Error::success();
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}
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Error FDRTraceWriter::visit(CallArgRecord &R) {
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return writeMetadata<6u>(OS, R.arg());
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}
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Error FDRTraceWriter::visit(PIDRecord &R) {
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return writeMetadata<9u>(OS, R.pid());
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}
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Error FDRTraceWriter::visit(NewBufferRecord &R) {
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return writeMetadata<0u>(OS, R.tid());
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}
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Error FDRTraceWriter::visit(EndBufferRecord &R) {
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return writeMetadata<1u>(OS, 0);
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}
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Error FDRTraceWriter::visit(FunctionRecord &R) {
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// Write out the data in "field" order, to be endian-aware.
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uint32_t TypeRecordFuncId = uint32_t{R.functionId() & ~uint32_t{0x0Fu << 28}};
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TypeRecordFuncId <<= 3;
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TypeRecordFuncId |= static_cast<uint32_t>(R.recordType());
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TypeRecordFuncId <<= 1;
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TypeRecordFuncId &= ~uint32_t{0x01};
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OS.write(TypeRecordFuncId);
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OS.write(R.delta());
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return Error::success();
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}
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} // namespace xray
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} // namespace llvm
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