#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===- Minidump.h - Minidump object file implementation ---------*- 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 // //===----------------------------------------------------------------------===// #ifndef LLVM_OBJECT_MINIDUMP_H #define LLVM_OBJECT_MINIDUMP_H #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/iterator.h" #include "llvm/BinaryFormat/Minidump.h" #include "llvm/Object/Binary.h" #include "llvm/Support/Error.h" namespace llvm { namespace object { /// A class providing access to the contents of a minidump file. class MinidumpFile : public Binary { public: /// Construct a new MinidumpFile object from the given memory buffer. Returns /// an error if this file cannot be identified as a minidump file, or if its /// contents are badly corrupted (i.e. we cannot read the stream directory). static Expected> create(MemoryBufferRef Source); static bool classof(const Binary *B) { return B->isMinidump(); } /// Returns the contents of the minidump header. const minidump::Header &header() const { return Header; } /// Returns the list of streams (stream directory entries) in this file. ArrayRef streams() const { return Streams; } /// Returns the raw contents of the stream given by the directory entry. ArrayRef getRawStream(const minidump::Directory &Stream) const { return getData().slice(Stream.Location.RVA, Stream.Location.DataSize); } /// Returns the raw contents of the stream of the given type, or None if the /// file does not contain a stream of this type. Optional> getRawStream(minidump::StreamType Type) const; /// Returns the raw contents of an object given by the LocationDescriptor. An /// error is returned if the descriptor points outside of the minidump file. Expected> getRawData(minidump::LocationDescriptor Desc) const { return getDataSlice(getData(), Desc.RVA, Desc.DataSize); } /// Returns the minidump string at the given offset. An error is returned if /// we fail to parse the string, or the string is invalid UTF16. Expected getString(size_t Offset) const; /// Returns the contents of the SystemInfo stream, cast to the appropriate /// type. An error is returned if the file does not contain this stream, or /// the stream is smaller than the size of the SystemInfo structure. The /// internal consistency of the stream is not checked in any way. Expected getSystemInfo() const { return getStream(minidump::StreamType::SystemInfo); } /// Returns the module list embedded in the ModuleList stream. An error is /// returned if the file does not contain this stream, or if the stream is /// not large enough to contain the number of modules declared in the stream /// header. The consistency of the Module entries themselves is not checked in /// any way. Expected> getModuleList() const { return getListStream(minidump::StreamType::ModuleList); } /// Returns the thread list embedded in the ThreadList stream. An error is /// returned if the file does not contain this stream, or if the stream is /// not large enough to contain the number of threads declared in the stream /// header. The consistency of the Thread entries themselves is not checked in /// any way. Expected> getThreadList() const { return getListStream(minidump::StreamType::ThreadList); } /// Returns the contents of the Exception stream. An error is returned if the /// file does not contain this stream, or the stream is smaller than the size /// of the ExceptionStream structure. The internal consistency of the stream /// is not checked in any way. Expected getExceptionStream() const { return getStream( minidump::StreamType::Exception); } /// Returns the list of descriptors embedded in the MemoryList stream. The /// descriptors provide the content of interesting regions of memory at the /// time the minidump was taken. An error is returned if the file does not /// contain this stream, or if the stream is not large enough to contain the /// number of memory descriptors declared in the stream header. The /// consistency of the MemoryDescriptor entries themselves is not checked in /// any way. Expected> getMemoryList() const { return getListStream( minidump::StreamType::MemoryList); } class MemoryInfoIterator : public iterator_facade_base { public: MemoryInfoIterator(ArrayRef Storage, size_t Stride) : Storage(Storage), Stride(Stride) { assert(Storage.size() % Stride == 0); } bool operator==(const MemoryInfoIterator &R) const { return Storage.size() == R.Storage.size(); } const minidump::MemoryInfo &operator*() const { assert(Storage.size() >= sizeof(minidump::MemoryInfo)); return *reinterpret_cast(Storage.data()); } MemoryInfoIterator &operator++() { Storage = Storage.drop_front(Stride); return *this; } private: ArrayRef Storage; size_t Stride; }; /// Returns the list of descriptors embedded in the MemoryInfoList stream. The /// descriptors provide properties (e.g. permissions) of interesting regions /// of memory at the time the minidump was taken. An error is returned if the /// file does not contain this stream, or if the stream is not large enough to /// contain the number of memory descriptors declared in the stream header. /// The consistency of the MemoryInfoList entries themselves is not checked /// in any way. Expected> getMemoryInfoList() const; private: static Error createError(StringRef Str) { return make_error(Str, object_error::parse_failed); } static Error createEOFError() { return make_error("Unexpected EOF", object_error::unexpected_eof); } /// Return a slice of the given data array, with bounds checking. static Expected> getDataSlice(ArrayRef Data, size_t Offset, size_t Size); /// Return the slice of the given data array as an array of objects of the /// given type. The function checks that the input array is large enough to /// contain the correct number of objects of the given type. template static Expected> getDataSliceAs(ArrayRef Data, size_t Offset, size_t Count); MinidumpFile(MemoryBufferRef Source, const minidump::Header &Header, ArrayRef Streams, DenseMap StreamMap) : Binary(ID_Minidump, Source), Header(Header), Streams(Streams), StreamMap(std::move(StreamMap)) {} ArrayRef getData() const { return arrayRefFromStringRef(Data.getBuffer()); } /// Return the stream of the given type, cast to the appropriate type. Checks /// that the stream is large enough to hold an object of this type. template Expected getStream(minidump::StreamType Stream) const; /// Return the contents of a stream which contains a list of fixed-size items, /// prefixed by the list size. template Expected> getListStream(minidump::StreamType Stream) const; const minidump::Header &Header; ArrayRef Streams; DenseMap StreamMap; }; template Expected MinidumpFile::getStream(minidump::StreamType Type) const { if (Optional> Stream = getRawStream(Type)) { if (Stream->size() >= sizeof(T)) return *reinterpret_cast(Stream->data()); return createEOFError(); } return createError("No such stream"); } template Expected> MinidumpFile::getDataSliceAs(ArrayRef Data, size_t Offset, size_t Count) { // Check for overflow. if (Count > std::numeric_limits::max() / sizeof(T)) return createEOFError(); Expected> Slice = getDataSlice(Data, Offset, sizeof(T) * Count); if (!Slice) return Slice.takeError(); return ArrayRef(reinterpret_cast(Slice->data()), Count); } } // end namespace object } // end namespace llvm #endif // LLVM_OBJECT_MINIDUMP_H #ifdef __GNUC__ #pragma GCC diagnostic pop #endif