mirror of
https://github.com/capstone-engine/llvm-capstone.git
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3dbbbcc80e
Follow-up of rL341226. Fixes "Expected<T> must be checked before access or destruction"
478 lines
18 KiB
C++
478 lines
18 KiB
C++
//===- Trace.cpp - XRay Trace Loading implementation. ---------------------===//
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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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// XRay log reader implementation.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/XRay/Trace.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/Support/DataExtractor.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/FileSystem.h"
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#include "llvm/XRay/BlockIndexer.h"
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#include "llvm/XRay/BlockVerifier.h"
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#include "llvm/XRay/FDRRecordConsumer.h"
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#include "llvm/XRay/FDRRecordProducer.h"
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#include "llvm/XRay/FDRRecords.h"
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#include "llvm/XRay/FDRTraceExpander.h"
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#include "llvm/XRay/FileHeaderReader.h"
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#include "llvm/XRay/YAMLXRayRecord.h"
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#include <memory>
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#include <vector>
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using namespace llvm;
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using namespace llvm::xray;
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using llvm::yaml::Input;
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namespace {
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using XRayRecordStorage =
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std::aligned_storage<sizeof(XRayRecord), alignof(XRayRecord)>::type;
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Error loadNaiveFormatLog(StringRef Data, bool IsLittleEndian,
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XRayFileHeader &FileHeader,
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std::vector<XRayRecord> &Records) {
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if (Data.size() < 32)
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return make_error<StringError>(
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"Not enough bytes for an XRay log.",
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std::make_error_code(std::errc::invalid_argument));
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if (Data.size() - 32 == 0 || Data.size() % 32 != 0)
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return make_error<StringError>(
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"Invalid-sized XRay data.",
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std::make_error_code(std::errc::invalid_argument));
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DataExtractor Reader(Data, IsLittleEndian, 8);
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uint64_t OffsetPtr = 0;
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auto FileHeaderOrError = readBinaryFormatHeader(Reader, OffsetPtr);
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if (!FileHeaderOrError)
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return FileHeaderOrError.takeError();
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FileHeader = std::move(FileHeaderOrError.get());
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// Each record after the header will be 32 bytes, in the following format:
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//
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// (2) uint16 : record type
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// (1) uint8 : cpu id
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// (1) uint8 : type
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// (4) sint32 : function id
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// (8) uint64 : tsc
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// (4) uint32 : thread id
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// (4) uint32 : process id
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// (8) - : padding
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while (Reader.isValidOffset(OffsetPtr)) {
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if (!Reader.isValidOffsetForDataOfSize(OffsetPtr, 32))
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Not enough bytes to read a full record at offset %" PRId64 ".",
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OffsetPtr);
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auto PreReadOffset = OffsetPtr;
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auto RecordType = Reader.getU16(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading record type at offset %" PRId64 ".", OffsetPtr);
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switch (RecordType) {
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case 0: { // Normal records.
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Records.emplace_back();
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auto &Record = Records.back();
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Record.RecordType = RecordType;
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PreReadOffset = OffsetPtr;
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Record.CPU = Reader.getU8(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading CPU field at offset %" PRId64 ".", OffsetPtr);
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PreReadOffset = OffsetPtr;
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auto Type = Reader.getU8(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading record type field at offset %" PRId64 ".",
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OffsetPtr);
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switch (Type) {
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case 0:
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Record.Type = RecordTypes::ENTER;
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break;
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case 1:
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Record.Type = RecordTypes::EXIT;
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break;
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case 2:
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Record.Type = RecordTypes::TAIL_EXIT;
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break;
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case 3:
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Record.Type = RecordTypes::ENTER_ARG;
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break;
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default:
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Unknown record type '%d' at offset %" PRId64 ".", Type, OffsetPtr);
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}
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PreReadOffset = OffsetPtr;
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Record.FuncId = Reader.getSigned(&OffsetPtr, sizeof(int32_t));
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading function id field at offset %" PRId64 ".",
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OffsetPtr);
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PreReadOffset = OffsetPtr;
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Record.TSC = Reader.getU64(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading TSC field at offset %" PRId64 ".", OffsetPtr);
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PreReadOffset = OffsetPtr;
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Record.TId = Reader.getU32(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading thread id field at offset %" PRId64 ".", OffsetPtr);
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PreReadOffset = OffsetPtr;
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Record.PId = Reader.getU32(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading process id at offset %" PRId64 ".", OffsetPtr);
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break;
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}
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case 1: { // Arg payload record.
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auto &Record = Records.back();
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// We skip the next two bytes of the record, because we don't need the
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// type and the CPU record for arg payloads.
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OffsetPtr += 2;
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PreReadOffset = OffsetPtr;
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int32_t FuncId = Reader.getSigned(&OffsetPtr, sizeof(int32_t));
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading function id field at offset %" PRId64 ".",
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OffsetPtr);
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PreReadOffset = OffsetPtr;
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auto TId = Reader.getU32(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading thread id field at offset %" PRId64 ".", OffsetPtr);
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PreReadOffset = OffsetPtr;
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auto PId = Reader.getU32(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading process id field at offset %" PRId64 ".",
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OffsetPtr);
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// Make a check for versions above 3 for the Pid field
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if (Record.FuncId != FuncId || Record.TId != TId ||
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(FileHeader.Version >= 3 ? Record.PId != PId : false))
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Corrupted log, found arg payload following non-matching "
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"function+thread record. Record for function %d != %d at offset "
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"%" PRId64 ".",
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Record.FuncId, FuncId, OffsetPtr);
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PreReadOffset = OffsetPtr;
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auto Arg = Reader.getU64(&OffsetPtr);
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if (OffsetPtr == PreReadOffset)
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Failed reading argument payload at offset %" PRId64 ".",
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OffsetPtr);
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Record.CallArgs.push_back(Arg);
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break;
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}
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default:
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return createStringError(
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std::make_error_code(std::errc::executable_format_error),
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"Unknown record type '%d' at offset %" PRId64 ".", RecordType,
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OffsetPtr);
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}
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// Advance the offset pointer enough bytes to align to 32-byte records for
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// basic mode logs.
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OffsetPtr += 8;
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}
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return Error::success();
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}
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/// Reads a log in FDR mode for version 1 of this binary format. FDR mode is
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/// defined as part of the compiler-rt project in xray_fdr_logging.h, and such
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/// a log consists of the familiar 32 bit XRayHeader, followed by sequences of
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/// of interspersed 16 byte Metadata Records and 8 byte Function Records.
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///
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/// The following is an attempt to document the grammar of the format, which is
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/// parsed by this function for little-endian machines. Since the format makes
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/// use of BitFields, when we support big-endian architectures, we will need to
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/// adjust not only the endianness parameter to llvm's RecordExtractor, but also
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/// the bit twiddling logic, which is consistent with the little-endian
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/// convention that BitFields within a struct will first be packed into the
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/// least significant bits the address they belong to.
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///
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/// We expect a format complying with the grammar in the following pseudo-EBNF
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/// in Version 1 of the FDR log.
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///
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/// FDRLog: XRayFileHeader ThreadBuffer*
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/// XRayFileHeader: 32 bytes to identify the log as FDR with machine metadata.
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/// Includes BufferSize
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/// ThreadBuffer: NewBuffer WallClockTime NewCPUId FunctionSequence EOB
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/// BufSize: 8 byte unsigned integer indicating how large the buffer is.
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/// NewBuffer: 16 byte metadata record with Thread Id.
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/// WallClockTime: 16 byte metadata record with human readable time.
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/// Pid: 16 byte metadata record with Pid
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/// NewCPUId: 16 byte metadata record with CPUId and a 64 bit TSC reading.
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/// EOB: 16 byte record in a thread buffer plus mem garbage to fill BufSize.
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/// FunctionSequence: NewCPUId | TSCWrap | FunctionRecord
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/// TSCWrap: 16 byte metadata record with a full 64 bit TSC reading.
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/// FunctionRecord: 8 byte record with FunctionId, entry/exit, and TSC delta.
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///
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/// In Version 2, we make the following changes:
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///
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/// ThreadBuffer: BufferExtents NewBuffer WallClockTime NewCPUId
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/// FunctionSequence
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/// BufferExtents: 16 byte metdata record describing how many usable bytes are
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/// in the buffer. This is measured from the start of the buffer
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/// and must always be at least 48 (bytes).
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///
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/// In Version 3, we make the following changes:
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///
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/// ThreadBuffer: BufferExtents NewBuffer WallClockTime Pid NewCPUId
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/// FunctionSequence
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/// EOB: *deprecated*
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///
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/// In Version 4, we make the following changes:
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///
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/// CustomEventRecord now includes the CPU data.
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///
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/// In Version 5, we make the following changes:
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///
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/// CustomEventRecord and TypedEventRecord now use TSC delta encoding similar to
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/// what FunctionRecord instances use, and we no longer need to include the CPU
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/// id in the CustomEventRecord.
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///
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Error loadFDRLog(StringRef Data, bool IsLittleEndian,
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XRayFileHeader &FileHeader, std::vector<XRayRecord> &Records) {
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if (Data.size() < 32)
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return createStringError(std::make_error_code(std::errc::invalid_argument),
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"Not enough bytes for an XRay FDR log.");
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DataExtractor DE(Data, IsLittleEndian, 8);
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uint64_t OffsetPtr = 0;
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auto FileHeaderOrError = readBinaryFormatHeader(DE, OffsetPtr);
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if (!FileHeaderOrError)
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return FileHeaderOrError.takeError();
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FileHeader = std::move(FileHeaderOrError.get());
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// First we load the records into memory.
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std::vector<std::unique_ptr<Record>> FDRRecords;
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{
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FileBasedRecordProducer P(FileHeader, DE, OffsetPtr);
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LogBuilderConsumer C(FDRRecords);
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while (DE.isValidOffsetForDataOfSize(OffsetPtr, 1)) {
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auto R = P.produce();
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if (!R)
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return R.takeError();
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if (auto E = C.consume(std::move(R.get())))
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return E;
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}
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}
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// Next we index the records into blocks.
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BlockIndexer::Index Index;
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{
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BlockIndexer Indexer(Index);
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for (auto &R : FDRRecords)
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if (auto E = R->apply(Indexer))
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return E;
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if (auto E = Indexer.flush())
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return E;
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}
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// Then we verify the consistency of the blocks.
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{
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for (auto &PTB : Index) {
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auto &Blocks = PTB.second;
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for (auto &B : Blocks) {
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BlockVerifier Verifier;
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for (auto *R : B.Records)
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if (auto E = R->apply(Verifier))
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return E;
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if (auto E = Verifier.verify())
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return E;
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}
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}
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}
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// This is now the meat of the algorithm. Here we sort the blocks according to
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// the Walltime record in each of the blocks for the same thread. This allows
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// us to more consistently recreate the execution trace in temporal order.
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// After the sort, we then reconstitute `Trace` records using a stateful
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// visitor associated with a single process+thread pair.
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{
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for (auto &PTB : Index) {
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auto &Blocks = PTB.second;
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llvm::sort(Blocks, [](const BlockIndexer::Block &L,
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const BlockIndexer::Block &R) {
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return (L.WallclockTime->seconds() < R.WallclockTime->seconds() &&
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L.WallclockTime->nanos() < R.WallclockTime->nanos());
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});
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auto Adder = [&](const XRayRecord &R) { Records.push_back(R); };
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TraceExpander Expander(Adder, FileHeader.Version);
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for (auto &B : Blocks) {
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for (auto *R : B.Records)
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if (auto E = R->apply(Expander))
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return E;
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}
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if (auto E = Expander.flush())
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return E;
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}
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}
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return Error::success();
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}
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Error loadYAMLLog(StringRef Data, XRayFileHeader &FileHeader,
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std::vector<XRayRecord> &Records) {
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YAMLXRayTrace Trace;
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Input In(Data);
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In >> Trace;
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if (In.error())
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return make_error<StringError>("Failed loading YAML Data.", In.error());
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FileHeader.Version = Trace.Header.Version;
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FileHeader.Type = Trace.Header.Type;
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FileHeader.ConstantTSC = Trace.Header.ConstantTSC;
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FileHeader.NonstopTSC = Trace.Header.NonstopTSC;
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FileHeader.CycleFrequency = Trace.Header.CycleFrequency;
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if (FileHeader.Version != 1)
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return make_error<StringError>(
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Twine("Unsupported XRay file version: ") + Twine(FileHeader.Version),
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std::make_error_code(std::errc::invalid_argument));
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Records.clear();
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std::transform(Trace.Records.begin(), Trace.Records.end(),
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std::back_inserter(Records), [&](const YAMLXRayRecord &R) {
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return XRayRecord{R.RecordType, R.CPU, R.Type,
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R.FuncId, R.TSC, R.TId,
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R.PId, R.CallArgs, R.Data};
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});
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return Error::success();
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}
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} // namespace
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Expected<Trace> llvm::xray::loadTraceFile(StringRef Filename, bool Sort) {
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Expected<sys::fs::file_t> FdOrErr = sys::fs::openNativeFileForRead(Filename);
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if (!FdOrErr)
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return FdOrErr.takeError();
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uint64_t FileSize;
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if (auto EC = sys::fs::file_size(Filename, FileSize)) {
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return make_error<StringError>(
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Twine("Cannot read log from '") + Filename + "'", EC);
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}
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if (FileSize < 4) {
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return make_error<StringError>(
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Twine("File '") + Filename + "' too small for XRay.",
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std::make_error_code(std::errc::executable_format_error));
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}
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// Map the opened file into memory and use a StringRef to access it later.
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std::error_code EC;
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sys::fs::mapped_file_region MappedFile(
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*FdOrErr, sys::fs::mapped_file_region::mapmode::readonly, FileSize, 0,
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EC);
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sys::fs::closeFile(*FdOrErr);
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if (EC) {
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return make_error<StringError>(
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Twine("Cannot read log from '") + Filename + "'", EC);
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}
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auto Data = StringRef(MappedFile.data(), MappedFile.size());
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// TODO: Lift the endianness and implementation selection here.
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DataExtractor LittleEndianDE(Data, true, 8);
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auto TraceOrError = loadTrace(LittleEndianDE, Sort);
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if (!TraceOrError) {
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DataExtractor BigEndianDE(Data, false, 8);
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consumeError(TraceOrError.takeError());
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TraceOrError = loadTrace(BigEndianDE, Sort);
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}
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return TraceOrError;
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}
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Expected<Trace> llvm::xray::loadTrace(const DataExtractor &DE, bool Sort) {
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// Attempt to detect the file type using file magic. We have a slight bias
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// towards the binary format, and we do this by making sure that the first 4
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// bytes of the binary file is some combination of the following byte
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// patterns: (observe the code loading them assumes they're little endian)
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//
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// 0x01 0x00 0x00 0x00 - version 1, "naive" format
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// 0x01 0x00 0x01 0x00 - version 1, "flight data recorder" format
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// 0x02 0x00 0x01 0x00 - version 2, "flight data recorder" format
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//
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// YAML files don't typically have those first four bytes as valid text so we
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// try loading assuming YAML if we don't find these bytes.
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//
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// Only if we can't load either the binary or the YAML format will we yield an
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// error.
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DataExtractor HeaderExtractor(DE.getData(), DE.isLittleEndian(), 8);
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uint64_t OffsetPtr = 0;
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uint16_t Version = HeaderExtractor.getU16(&OffsetPtr);
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uint16_t Type = HeaderExtractor.getU16(&OffsetPtr);
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enum BinaryFormatType { NAIVE_FORMAT = 0, FLIGHT_DATA_RECORDER_FORMAT = 1 };
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Trace T;
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switch (Type) {
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case NAIVE_FORMAT:
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if (Version == 1 || Version == 2 || Version == 3) {
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if (auto E = loadNaiveFormatLog(DE.getData(), DE.isLittleEndian(),
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T.FileHeader, T.Records))
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return std::move(E);
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} else {
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return make_error<StringError>(
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Twine("Unsupported version for Basic/Naive Mode logging: ") +
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Twine(Version),
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std::make_error_code(std::errc::executable_format_error));
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}
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break;
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case FLIGHT_DATA_RECORDER_FORMAT:
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if (Version >= 1 && Version <= 5) {
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if (auto E = loadFDRLog(DE.getData(), DE.isLittleEndian(), T.FileHeader,
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T.Records))
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return std::move(E);
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} else {
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return make_error<StringError>(
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Twine("Unsupported version for FDR Mode logging: ") + Twine(Version),
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std::make_error_code(std::errc::executable_format_error));
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}
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break;
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default:
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if (auto E = loadYAMLLog(DE.getData(), T.FileHeader, T.Records))
|
|
return std::move(E);
|
|
}
|
|
|
|
if (Sort)
|
|
llvm::stable_sort(T.Records, [&](const XRayRecord &L, const XRayRecord &R) {
|
|
return L.TSC < R.TSC;
|
|
});
|
|
|
|
return std::move(T);
|
|
}
|