forked from OSchip/llvm-project
248 lines
8.4 KiB
C++
248 lines
8.4 KiB
C++
//===- yaml2minidump.cpp - Convert a YAML file to a minidump file ---------===//
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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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#include "llvm/ObjectYAML/MinidumpYAML.h"
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#include "llvm/ObjectYAML/yaml2obj.h"
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#include "llvm/Support/ConvertUTF.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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using namespace llvm::minidump;
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using namespace llvm::MinidumpYAML;
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namespace {
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/// A helper class to manage the placement of various structures into the final
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/// minidump binary. Space for objects can be allocated via various allocate***
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/// methods, while the final minidump file is written by calling the writeTo
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/// method. The plain versions of allocation functions take a reference to the
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/// data which is to be written (and hence the data must be available until
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/// writeTo is called), while the "New" versions allocate the data in an
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/// allocator-managed buffer, which is available until the allocator object is
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/// destroyed. For both kinds of functions, it is possible to modify the
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/// data for which the space has been "allocated" until the final writeTo call.
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/// This is useful for "linking" the allocated structures via their offsets.
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class BlobAllocator {
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public:
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size_t tell() const { return NextOffset; }
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size_t allocateCallback(size_t Size,
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std::function<void(raw_ostream &)> Callback) {
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size_t Offset = NextOffset;
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NextOffset += Size;
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Callbacks.push_back(std::move(Callback));
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return Offset;
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}
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size_t allocateBytes(ArrayRef<uint8_t> Data) {
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return allocateCallback(
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Data.size(), [Data](raw_ostream &OS) { OS << toStringRef(Data); });
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}
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size_t allocateBytes(yaml::BinaryRef Data) {
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return allocateCallback(Data.binary_size(), [Data](raw_ostream &OS) {
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Data.writeAsBinary(OS);
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});
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}
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template <typename T> size_t allocateArray(ArrayRef<T> Data) {
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return allocateBytes({reinterpret_cast<const uint8_t *>(Data.data()),
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sizeof(T) * Data.size()});
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}
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template <typename T, typename RangeType>
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std::pair<size_t, MutableArrayRef<T>>
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allocateNewArray(const iterator_range<RangeType> &Range);
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template <typename T> size_t allocateObject(const T &Data) {
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return allocateArray(makeArrayRef(Data));
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}
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template <typename T, typename... Types>
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std::pair<size_t, T *> allocateNewObject(Types &&... Args) {
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T *Object = new (Temporaries.Allocate<T>()) T(std::forward<Types>(Args)...);
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return {allocateObject(*Object), Object};
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}
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size_t allocateString(StringRef Str);
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void writeTo(raw_ostream &OS) const;
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private:
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size_t NextOffset = 0;
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BumpPtrAllocator Temporaries;
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std::vector<std::function<void(raw_ostream &)>> Callbacks;
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};
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} // namespace
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template <typename T, typename RangeType>
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std::pair<size_t, MutableArrayRef<T>>
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BlobAllocator::allocateNewArray(const iterator_range<RangeType> &Range) {
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size_t Num = std::distance(Range.begin(), Range.end());
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MutableArrayRef<T> Array(Temporaries.Allocate<T>(Num), Num);
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std::uninitialized_copy(Range.begin(), Range.end(), Array.begin());
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return {allocateArray(Array), Array};
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}
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size_t BlobAllocator::allocateString(StringRef Str) {
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SmallVector<UTF16, 32> WStr;
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bool OK = convertUTF8ToUTF16String(Str, WStr);
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assert(OK && "Invalid UTF8 in Str?");
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(void)OK;
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// The utf16 string is null-terminated, but the terminator is not counted in
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// the string size.
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WStr.push_back(0);
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size_t Result =
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allocateNewObject<support::ulittle32_t>(2 * (WStr.size() - 1)).first;
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allocateNewArray<support::ulittle16_t>(make_range(WStr.begin(), WStr.end()));
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return Result;
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}
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void BlobAllocator::writeTo(raw_ostream &OS) const {
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size_t BeginOffset = OS.tell();
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for (const auto &Callback : Callbacks)
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Callback(OS);
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assert(OS.tell() == BeginOffset + NextOffset &&
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"Callbacks wrote an unexpected number of bytes.");
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(void)BeginOffset;
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}
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static LocationDescriptor layout(BlobAllocator &File, yaml::BinaryRef Data) {
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return {support::ulittle32_t(Data.binary_size()),
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support::ulittle32_t(File.allocateBytes(Data))};
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}
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static size_t layout(BlobAllocator &File, MinidumpYAML::ExceptionStream &S) {
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File.allocateObject(S.MDExceptionStream);
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size_t DataEnd = File.tell();
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// Lay out the thread context data, (which is not a part of the stream).
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// TODO: This usually (always?) matches the thread context of the
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// corresponding thread, and may overlap memory regions as well. We could
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// add a level of indirection to the MinidumpYAML format (like an array of
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// Blobs that the LocationDescriptors index into) to be able to distinguish
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// the cases where location descriptions overlap vs happen to reference
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// identical data.
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S.MDExceptionStream.ThreadContext = layout(File, S.ThreadContext);
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return DataEnd;
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}
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static void layout(BlobAllocator &File, MemoryListStream::entry_type &Range) {
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Range.Entry.Memory = layout(File, Range.Content);
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}
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static void layout(BlobAllocator &File, ModuleListStream::entry_type &M) {
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M.Entry.ModuleNameRVA = File.allocateString(M.Name);
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M.Entry.CvRecord = layout(File, M.CvRecord);
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M.Entry.MiscRecord = layout(File, M.MiscRecord);
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}
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static void layout(BlobAllocator &File, ThreadListStream::entry_type &T) {
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T.Entry.Stack.Memory = layout(File, T.Stack);
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T.Entry.Context = layout(File, T.Context);
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}
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template <typename EntryT>
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static size_t layout(BlobAllocator &File,
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MinidumpYAML::detail::ListStream<EntryT> &S) {
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File.allocateNewObject<support::ulittle32_t>(S.Entries.size());
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for (auto &E : S.Entries)
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File.allocateObject(E.Entry);
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size_t DataEnd = File.tell();
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// Lay out the auxiliary data, (which is not a part of the stream).
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DataEnd = File.tell();
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for (auto &E : S.Entries)
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layout(File, E);
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return DataEnd;
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}
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static Directory layout(BlobAllocator &File, Stream &S) {
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Directory Result;
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Result.Type = S.Type;
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Result.Location.RVA = File.tell();
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Optional<size_t> DataEnd;
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switch (S.Kind) {
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case Stream::StreamKind::Exception:
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DataEnd = layout(File, cast<MinidumpYAML::ExceptionStream>(S));
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break;
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case Stream::StreamKind::MemoryInfoList: {
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MemoryInfoListStream &InfoList = cast<MemoryInfoListStream>(S);
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File.allocateNewObject<minidump::MemoryInfoListHeader>(
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sizeof(minidump::MemoryInfoListHeader), sizeof(minidump::MemoryInfo),
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InfoList.Infos.size());
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File.allocateArray(makeArrayRef(InfoList.Infos));
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break;
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}
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case Stream::StreamKind::MemoryList:
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DataEnd = layout(File, cast<MemoryListStream>(S));
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break;
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case Stream::StreamKind::ModuleList:
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DataEnd = layout(File, cast<ModuleListStream>(S));
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break;
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case Stream::StreamKind::RawContent: {
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RawContentStream &Raw = cast<RawContentStream>(S);
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File.allocateCallback(Raw.Size, [&Raw](raw_ostream &OS) {
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Raw.Content.writeAsBinary(OS);
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assert(Raw.Content.binary_size() <= Raw.Size);
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OS << std::string(Raw.Size - Raw.Content.binary_size(), '\0');
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});
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break;
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}
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case Stream::StreamKind::SystemInfo: {
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SystemInfoStream &SystemInfo = cast<SystemInfoStream>(S);
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File.allocateObject(SystemInfo.Info);
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// The CSD string is not a part of the stream.
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DataEnd = File.tell();
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SystemInfo.Info.CSDVersionRVA = File.allocateString(SystemInfo.CSDVersion);
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break;
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}
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case Stream::StreamKind::TextContent:
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File.allocateArray(arrayRefFromStringRef(cast<TextContentStream>(S).Text));
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break;
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case Stream::StreamKind::ThreadList:
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DataEnd = layout(File, cast<ThreadListStream>(S));
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break;
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}
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// If DataEnd is not set, we assume everything we generated is a part of the
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// stream.
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Result.Location.DataSize =
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DataEnd.getValueOr(File.tell()) - Result.Location.RVA;
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return Result;
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}
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namespace llvm {
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namespace yaml {
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bool yaml2minidump(MinidumpYAML::Object &Obj, raw_ostream &Out,
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ErrorHandler /*EH*/) {
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BlobAllocator File;
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File.allocateObject(Obj.Header);
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std::vector<Directory> StreamDirectory(Obj.Streams.size());
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Obj.Header.StreamDirectoryRVA =
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File.allocateArray(makeArrayRef(StreamDirectory));
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Obj.Header.NumberOfStreams = StreamDirectory.size();
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for (auto &Stream : enumerate(Obj.Streams))
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StreamDirectory[Stream.index()] = layout(File, *Stream.value());
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File.writeTo(Out);
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return true;
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}
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} // namespace yaml
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} // namespace llvm
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