DebugInfo/MSF/MappedBlockStream.cpp

a3225b04SZachary Turner//===- MappedBlockStream.cpp - Reads stream data from an MSF file ---------===//
a3225b04SZachary Turner//
2946cd70SChandler Carruth// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
2946cd70SChandler Carruth// See https://llvm.org/LICENSE.txt for license information.
2946cd70SChandler Carruth// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
a3225b04SZachary Turner//
a3225b04SZachary Turner//===----------------------------------------------------------------------===//
a3225b04SZachary Turner
a3225b04SZachary Turner#include "llvm/DebugInfo/MSF/MappedBlockStream.h"
2db0cfa6SEugene Zelenko#include "llvm/ADT/ArrayRef.h"
a3225b04SZachary Turner#include "llvm/DebugInfo/MSF/MSFCommon.h"
9fb9d71dSZachary Turner#include "llvm/Support/BinaryStreamWriter.h"
2db0cfa6SEugene Zelenko#include "llvm/Support/Endian.h"
2db0cfa6SEugene Zelenko#include "llvm/Support/Error.h"
2db0cfa6SEugene Zelenko#include "llvm/Support/MathExtras.h"
2db0cfa6SEugene Zelenko#include <algorithm>
2db0cfa6SEugene Zelenko#include <cassert>
2db0cfa6SEugene Zelenko#include <cstdint>
2db0cfa6SEugene Zelenko#include <cstring>
2db0cfa6SEugene Zelenko#include <utility>
2db0cfa6SEugene Zelenko#include <vector>
a3225b04SZachary Turner
a3225b04SZachary Turnerusing namespace llvm;
a3225b04SZachary Turnerusing namespace llvm::msf;
a3225b04SZachary Turner
a3225b04SZachary Turnernamespace {
2db0cfa6SEugene Zelenko
a3225b04SZachary Turnertemplate <typename Base> class MappedBlockStreamImpl : public Base {
a3225b04SZachary Turnerpublic:
a3225b04SZachary Turner  template <typename... Args>
a3225b04SZachary Turner  MappedBlockStreamImpl(Args &&... Params)
a3225b04SZachary Turner      : Base(std::forward<Args>(Params)...) {}
a3225b04SZachary Turner};
2db0cfa6SEugene Zelenko
2db0cfa6SEugene Zelenko} // end anonymous namespace
a3225b04SZachary Turner
*646299d1SNico Weberusing Interval = std::pair<uint64_t, uint64_t>;
2db0cfa6SEugene Zelenko
a3225b04SZachary Turnerstatic Interval intersect(const Interval &I1, const Interval &I2) {
a3225b04SZachary Turner  return std::make_pair(std::max(I1.first, I2.first),
a3225b04SZachary Turner                        std::min(I1.second, I2.second));
a3225b04SZachary Turner}
a3225b04SZachary Turner
c4e4b7e3SZachary TurnerMappedBlockStream::MappedBlockStream(uint32_t BlockSize,
a3225b04SZachary Turner                                     const MSFStreamLayout &Layout,
5b74ff33SZachary Turner                                     BinaryStreamRef MsfData,
5b74ff33SZachary Turner                                     BumpPtrAllocator &Allocator)
5b74ff33SZachary Turner    : BlockSize(BlockSize), StreamLayout(Layout), MsfData(MsfData),
5b74ff33SZachary Turner      Allocator(Allocator) {}
a3225b04SZachary Turner
5b74ff33SZachary Turnerstd::unique_ptr<MappedBlockStream> MappedBlockStream::createStream(
5b74ff33SZachary Turner    uint32_t BlockSize, const MSFStreamLayout &Layout, BinaryStreamRef MsfData,
5b74ff33SZachary Turner    BumpPtrAllocator &Allocator) {
0eaee545SJonas Devlieghere  return std::make_unique<MappedBlockStreamImpl<MappedBlockStream>>(
5b74ff33SZachary Turner      BlockSize, Layout, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
120faca4SZachary Turnerstd::unique_ptr<MappedBlockStream> MappedBlockStream::createIndexedStream(
5b74ff33SZachary Turner    const MSFLayout &Layout, BinaryStreamRef MsfData, uint32_t StreamIndex,
5b74ff33SZachary Turner    BumpPtrAllocator &Allocator) {
a5b43589SBob Haarman  assert(StreamIndex < Layout.StreamMap.size() && "Invalid stream index");
a3225b04SZachary Turner  MSFStreamLayout SL;
a3225b04SZachary Turner  SL.Blocks = Layout.StreamMap[StreamIndex];
a3225b04SZachary Turner  SL.Length = Layout.StreamSizes[StreamIndex];
0eaee545SJonas Devlieghere  return std::make_unique<MappedBlockStreamImpl<MappedBlockStream>>(
5b74ff33SZachary Turner      Layout.SB->BlockSize, SL, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary Turnerstd::unique_ptr<MappedBlockStream>
a3225b04SZachary TurnerMappedBlockStream::createDirectoryStream(const MSFLayout &Layout,
5b74ff33SZachary Turner                                         BinaryStreamRef MsfData,
5b74ff33SZachary Turner                                         BumpPtrAllocator &Allocator) {
a3225b04SZachary Turner  MSFStreamLayout SL;
a3225b04SZachary Turner  SL.Blocks = Layout.DirectoryBlocks;
a3225b04SZachary Turner  SL.Length = Layout.SB->NumDirectoryBytes;
5b74ff33SZachary Turner  return createStream(Layout.SB->BlockSize, SL, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
8cf51c34SZachary Turnerstd::unique_ptr<MappedBlockStream>
8cf51c34SZachary TurnerMappedBlockStream::createFpmStream(const MSFLayout &Layout,
5b74ff33SZachary Turner                                   BinaryStreamRef MsfData,
5b74ff33SZachary Turner                                   BumpPtrAllocator &Allocator) {
c3d8eec9SZachary Turner  MSFStreamLayout SL(getFpmStreamLayout(Layout));
5b74ff33SZachary Turner  return createStream(Layout.SB->BlockSize, SL, MsfData, Allocator);
8cf51c34SZachary Turner}
8cf51c34SZachary Turner
*646299d1SNico WeberError MappedBlockStream::readBytes(uint64_t Offset, uint64_t Size,
120faca4SZachary Turner                                   ArrayRef<uint8_t> &Buffer) {
a3225b04SZachary Turner  // Make sure we aren't trying to read beyond the end of the stream.
96c6985bSZachary Turner  if (auto EC = checkOffsetForRead(Offset, Size))
d0b44fa7SZachary Turner    return EC;
a3225b04SZachary Turner
a3225b04SZachary Turner  if (tryReadContiguously(Offset, Size, Buffer))
a3225b04SZachary Turner    return Error::success();
a3225b04SZachary Turner
a3225b04SZachary Turner  auto CacheIter = CacheMap.find(Offset);
a3225b04SZachary Turner  if (CacheIter != CacheMap.end()) {
a3225b04SZachary Turner    // Try to find an alloc that was large enough for this request.
a3225b04SZachary Turner    for (auto &Entry : CacheIter->second) {
a3225b04SZachary Turner      if (Entry.size() >= Size) {
a3225b04SZachary Turner        Buffer = Entry.slice(0, Size);
a3225b04SZachary Turner        return Error::success();
a3225b04SZachary Turner      }
a3225b04SZachary Turner    }
a3225b04SZachary Turner  }
a3225b04SZachary Turner
a3225b04SZachary Turner  // We couldn't find a buffer that started at the correct offset (the most
a3225b04SZachary Turner  // common scenario).  Try to see if there is a buffer that starts at some
a3225b04SZachary Turner  // other offset but overlaps the desired range.
a3225b04SZachary Turner  for (auto &CacheItem : CacheMap) {
a3225b04SZachary Turner    Interval RequestExtent = std::make_pair(Offset, Offset + Size);
a3225b04SZachary Turner
a3225b04SZachary Turner    // We already checked this one on the fast path above.
a3225b04SZachary Turner    if (CacheItem.first == Offset)
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner    // If the initial extent of the cached item is beyond the ending extent
a3225b04SZachary Turner    // of the request, there is no overlap.
a3225b04SZachary Turner    if (CacheItem.first >= Offset + Size)
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner
a3225b04SZachary Turner    // We really only have to check the last item in the list, since we append
a3225b04SZachary Turner    // in order of increasing length.
a3225b04SZachary Turner    if (CacheItem.second.empty())
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner
a3225b04SZachary Turner    auto CachedAlloc = CacheItem.second.back();
a3225b04SZachary Turner    // If the initial extent of the request is beyond the ending extent of
a3225b04SZachary Turner    // the cached item, there is no overlap.
a3225b04SZachary Turner    Interval CachedExtent =
a3225b04SZachary Turner        std::make_pair(CacheItem.first, CacheItem.first + CachedAlloc.size());
a3225b04SZachary Turner    if (RequestExtent.first >= CachedExtent.first + CachedExtent.second)
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner
a3225b04SZachary Turner    Interval Intersection = intersect(CachedExtent, RequestExtent);
a3225b04SZachary Turner    // Only use this if the entire request extent is contained in the cached
a3225b04SZachary Turner    // extent.
a3225b04SZachary Turner    if (Intersection != RequestExtent)
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner
*646299d1SNico Weber    uint64_t CacheRangeOffset =
a3225b04SZachary Turner        AbsoluteDifference(CachedExtent.first, Intersection.first);
a3225b04SZachary Turner    Buffer = CachedAlloc.slice(CacheRangeOffset, Size);
a3225b04SZachary Turner    return Error::success();
a3225b04SZachary Turner  }
a3225b04SZachary Turner
a3225b04SZachary Turner  // Otherwise allocate a large enough buffer in the pool, memcpy the data
a3225b04SZachary Turner  // into it, and return an ArrayRef to that.  Do not touch existing pool
a3225b04SZachary Turner  // allocations, as existing clients may be holding a pointer which must
a3225b04SZachary Turner  // not be invalidated.
5b74ff33SZachary Turner  uint8_t *WriteBuffer = static_cast<uint8_t *>(Allocator.Allocate(Size, 8));
a3225b04SZachary Turner  if (auto EC = readBytes(Offset, MutableArrayRef<uint8_t>(WriteBuffer, Size)))
a3225b04SZachary Turner    return EC;
a3225b04SZachary Turner
a3225b04SZachary Turner  if (CacheIter != CacheMap.end()) {
a3225b04SZachary Turner    CacheIter->second.emplace_back(WriteBuffer, Size);
a3225b04SZachary Turner  } else {
a3225b04SZachary Turner    std::vector<CacheEntry> List;
a3225b04SZachary Turner    List.emplace_back(WriteBuffer, Size);
a3225b04SZachary Turner    CacheMap.insert(std::make_pair(Offset, List));
a3225b04SZachary Turner  }
a3225b04SZachary Turner  Buffer = ArrayRef<uint8_t>(WriteBuffer, Size);
a3225b04SZachary Turner  return Error::success();
a3225b04SZachary Turner}
a3225b04SZachary Turner
*646299d1SNico WeberError MappedBlockStream::readLongestContiguousChunk(uint64_t Offset,
120faca4SZachary Turner                                                    ArrayRef<uint8_t> &Buffer) {
a3225b04SZachary Turner  // Make sure we aren't trying to read beyond the end of the stream.
96c6985bSZachary Turner  if (auto EC = checkOffsetForRead(Offset, 1))
d0b44fa7SZachary Turner    return EC;
d0b44fa7SZachary Turner
*646299d1SNico Weber  uint64_t First = Offset / BlockSize;
*646299d1SNico Weber  uint64_t Last = First;
a3225b04SZachary Turner
c4e4b7e3SZachary Turner  while (Last < getNumBlocks() - 1) {
a3225b04SZachary Turner    if (StreamLayout.Blocks[Last] != StreamLayout.Blocks[Last + 1] - 1)
a3225b04SZachary Turner      break;
a3225b04SZachary Turner    ++Last;
a3225b04SZachary Turner  }
a3225b04SZachary Turner
*646299d1SNico Weber  uint64_t OffsetInFirstBlock = Offset % BlockSize;
*646299d1SNico Weber  uint64_t BytesFromFirstBlock = BlockSize - OffsetInFirstBlock;
*646299d1SNico Weber  uint64_t BlockSpan = Last - First + 1;
*646299d1SNico Weber  uint64_t ByteSpan = BytesFromFirstBlock + (BlockSpan - 1) * BlockSize;
a3225b04SZachary Turner
a3225b04SZachary Turner  ArrayRef<uint8_t> BlockData;
*646299d1SNico Weber  uint64_t MsfOffset = blockToOffset(StreamLayout.Blocks[First], BlockSize);
a3225b04SZachary Turner  if (auto EC = MsfData.readBytes(MsfOffset, BlockSize, BlockData))
a3225b04SZachary Turner    return EC;
a3225b04SZachary Turner
a3225b04SZachary Turner  BlockData = BlockData.drop_front(OffsetInFirstBlock);
a3225b04SZachary Turner  Buffer = ArrayRef<uint8_t>(BlockData.data(), ByteSpan);
a3225b04SZachary Turner  return Error::success();
a3225b04SZachary Turner}
a3225b04SZachary Turner
*646299d1SNico Weberuint64_t MappedBlockStream::getLength() { return StreamLayout.Length; }
a3225b04SZachary Turner
*646299d1SNico Weberbool MappedBlockStream::tryReadContiguously(uint64_t Offset, uint64_t Size,
120faca4SZachary Turner                                            ArrayRef<uint8_t> &Buffer) {
36efbfa6SZachary Turner  if (Size == 0) {
36efbfa6SZachary Turner    Buffer = ArrayRef<uint8_t>();
36efbfa6SZachary Turner    return true;
36efbfa6SZachary Turner  }
a3225b04SZachary Turner  // Attempt to fulfill the request with a reference directly into the stream.
a3225b04SZachary Turner  // This can work even if the request crosses a block boundary, provided that
a3225b04SZachary Turner  // all subsequent blocks are contiguous.  For example, a 10k read with a 4k
a3225b04SZachary Turner  // block size can be filled with a reference if, from the starting offset,
a3225b04SZachary Turner  // 3 blocks in a row are contiguous.
*646299d1SNico Weber  uint64_t BlockNum = Offset / BlockSize;
*646299d1SNico Weber  uint64_t OffsetInBlock = Offset % BlockSize;
*646299d1SNico Weber  uint64_t BytesFromFirstBlock = std::min(Size, BlockSize - OffsetInBlock);
*646299d1SNico Weber  uint64_t NumAdditionalBlocks =
2db0cfa6SEugene Zelenko      alignTo(Size - BytesFromFirstBlock, BlockSize) / BlockSize;
a3225b04SZachary Turner
*646299d1SNico Weber  uint64_t RequiredContiguousBlocks = NumAdditionalBlocks + 1;
*646299d1SNico Weber  uint64_t E = StreamLayout.Blocks[BlockNum];
*646299d1SNico Weber  for (uint64_t I = 0; I < RequiredContiguousBlocks; ++I, ++E) {
a3225b04SZachary Turner    if (StreamLayout.Blocks[I + BlockNum] != E)
a3225b04SZachary Turner      return false;
a3225b04SZachary Turner  }
a3225b04SZachary Turner
a3225b04SZachary Turner  // Read out the entire block where the requested offset starts.  Then drop
a3225b04SZachary Turner  // bytes from the beginning so that the actual starting byte lines up with
a3225b04SZachary Turner  // the requested starting byte.  Then, since we know this is a contiguous
a3225b04SZachary Turner  // cross-block span, explicitly resize the ArrayRef to cover the entire
a3225b04SZachary Turner  // request length.
a3225b04SZachary Turner  ArrayRef<uint8_t> BlockData;
*646299d1SNico Weber  uint64_t FirstBlockAddr = StreamLayout.Blocks[BlockNum];
*646299d1SNico Weber  uint64_t MsfOffset = blockToOffset(FirstBlockAddr, BlockSize);
a3225b04SZachary Turner  if (auto EC = MsfData.readBytes(MsfOffset, BlockSize, BlockData)) {
a3225b04SZachary Turner    consumeError(std::move(EC));
a3225b04SZachary Turner    return false;
a3225b04SZachary Turner  }
a3225b04SZachary Turner  BlockData = BlockData.drop_front(OffsetInBlock);
a3225b04SZachary Turner  Buffer = ArrayRef<uint8_t>(BlockData.data(), Size);
a3225b04SZachary Turner  return true;
a3225b04SZachary Turner}
a3225b04SZachary Turner
*646299d1SNico WeberError MappedBlockStream::readBytes(uint64_t Offset,
120faca4SZachary Turner                                   MutableArrayRef<uint8_t> Buffer) {
*646299d1SNico Weber  uint64_t BlockNum = Offset / BlockSize;
*646299d1SNico Weber  uint64_t OffsetInBlock = Offset % BlockSize;
a3225b04SZachary Turner
a3225b04SZachary Turner  // Make sure we aren't trying to read beyond the end of the stream.
96c6985bSZachary Turner  if (auto EC = checkOffsetForRead(Offset, Buffer.size()))
d0b44fa7SZachary Turner    return EC;
a3225b04SZachary Turner
*646299d1SNico Weber  uint64_t BytesLeft = Buffer.size();
*646299d1SNico Weber  uint64_t BytesWritten = 0;
a3225b04SZachary Turner  uint8_t *WriteBuffer = Buffer.data();
a3225b04SZachary Turner  while (BytesLeft > 0) {
*646299d1SNico Weber    uint64_t StreamBlockAddr = StreamLayout.Blocks[BlockNum];
a3225b04SZachary Turner
a3225b04SZachary Turner    ArrayRef<uint8_t> BlockData;
*646299d1SNico Weber    uint64_t Offset = blockToOffset(StreamBlockAddr, BlockSize);
a3225b04SZachary Turner    if (auto EC = MsfData.readBytes(Offset, BlockSize, BlockData))
a3225b04SZachary Turner      return EC;
a3225b04SZachary Turner
a3225b04SZachary Turner    const uint8_t *ChunkStart = BlockData.data() + OffsetInBlock;
*646299d1SNico Weber    uint64_t BytesInChunk = std::min(BytesLeft, BlockSize - OffsetInBlock);
a3225b04SZachary Turner    ::memcpy(WriteBuffer + BytesWritten, ChunkStart, BytesInChunk);
a3225b04SZachary Turner
a3225b04SZachary Turner    BytesWritten += BytesInChunk;
a3225b04SZachary Turner    BytesLeft -= BytesInChunk;
a3225b04SZachary Turner    ++BlockNum;
a3225b04SZachary Turner    OffsetInBlock = 0;
a3225b04SZachary Turner  }
a3225b04SZachary Turner
a3225b04SZachary Turner  return Error::success();
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary Turnervoid MappedBlockStream::invalidateCache() { CacheMap.shrink_and_clear(); }
a3225b04SZachary Turner
*646299d1SNico Webervoid MappedBlockStream::fixCacheAfterWrite(uint64_t Offset,
a3225b04SZachary Turner                                           ArrayRef<uint8_t> Data) const {
a3225b04SZachary Turner  // If this write overlapped a read which previously came from the pool,
a3225b04SZachary Turner  // someone may still be holding a pointer to that alloc which is now invalid.
a3225b04SZachary Turner  // Compute the overlapping range and update the cache entry, so any
a3225b04SZachary Turner  // outstanding buffers are automatically updated.
a3225b04SZachary Turner  for (const auto &MapEntry : CacheMap) {
a3225b04SZachary Turner    // If the end of the written extent precedes the beginning of the cached
a3225b04SZachary Turner    // extent, ignore this map entry.
a3225b04SZachary Turner    if (Offset + Data.size() < MapEntry.first)
a3225b04SZachary Turner      continue;
a3225b04SZachary Turner    for (const auto &Alloc : MapEntry.second) {
a3225b04SZachary Turner      // If the end of the cached extent precedes the beginning of the written
a3225b04SZachary Turner      // extent, ignore this alloc.
a3225b04SZachary Turner      if (MapEntry.first + Alloc.size() < Offset)
a3225b04SZachary Turner        continue;
a3225b04SZachary Turner
a3225b04SZachary Turner      // If we get here, they are guaranteed to overlap.
a3225b04SZachary Turner      Interval WriteInterval = std::make_pair(Offset, Offset + Data.size());
a3225b04SZachary Turner      Interval CachedInterval =
a3225b04SZachary Turner          std::make_pair(MapEntry.first, MapEntry.first + Alloc.size());
a3225b04SZachary Turner      // If they overlap, we need to write the new data into the overlapping
a3225b04SZachary Turner      // range.
a3225b04SZachary Turner      auto Intersection = intersect(WriteInterval, CachedInterval);
a3225b04SZachary Turner      assert(Intersection.first <= Intersection.second);
a3225b04SZachary Turner
*646299d1SNico Weber      uint64_t Length = Intersection.second - Intersection.first;
*646299d1SNico Weber      uint64_t SrcOffset =
a3225b04SZachary Turner          AbsoluteDifference(WriteInterval.first, Intersection.first);
*646299d1SNico Weber      uint64_t DestOffset =
a3225b04SZachary Turner          AbsoluteDifference(CachedInterval.first, Intersection.first);
a3225b04SZachary Turner      ::memcpy(Alloc.data() + DestOffset, Data.data() + SrcOffset, Length);
a3225b04SZachary Turner    }
a3225b04SZachary Turner  }
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary TurnerWritableMappedBlockStream::WritableMappedBlockStream(
c4e4b7e3SZachary Turner    uint32_t BlockSize, const MSFStreamLayout &Layout,
5b74ff33SZachary Turner    WritableBinaryStreamRef MsfData, BumpPtrAllocator &Allocator)
5b74ff33SZachary Turner    : ReadInterface(BlockSize, Layout, MsfData, Allocator),
5b74ff33SZachary Turner      WriteInterface(MsfData) {}
a3225b04SZachary Turner
a3225b04SZachary Turnerstd::unique_ptr<WritableMappedBlockStream>
c4e4b7e3SZachary TurnerWritableMappedBlockStream::createStream(uint32_t BlockSize,
a3225b04SZachary Turner                                        const MSFStreamLayout &Layout,
5b74ff33SZachary Turner                                        WritableBinaryStreamRef MsfData,
5b74ff33SZachary Turner                                        BumpPtrAllocator &Allocator) {
0eaee545SJonas Devlieghere  return std::make_unique<MappedBlockStreamImpl<WritableMappedBlockStream>>(
5b74ff33SZachary Turner      BlockSize, Layout, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary Turnerstd::unique_ptr<WritableMappedBlockStream>
a3225b04SZachary TurnerWritableMappedBlockStream::createIndexedStream(const MSFLayout &Layout,
120faca4SZachary Turner                                               WritableBinaryStreamRef MsfData,
5b74ff33SZachary Turner                                               uint32_t StreamIndex,
5b74ff33SZachary Turner                                               BumpPtrAllocator &Allocator) {
a5b43589SBob Haarman  assert(StreamIndex < Layout.StreamMap.size() && "Invalid stream index");
a3225b04SZachary Turner  MSFStreamLayout SL;
a3225b04SZachary Turner  SL.Blocks = Layout.StreamMap[StreamIndex];
a3225b04SZachary Turner  SL.Length = Layout.StreamSizes[StreamIndex];
5b74ff33SZachary Turner  return createStream(Layout.SB->BlockSize, SL, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary Turnerstd::unique_ptr<WritableMappedBlockStream>
a3225b04SZachary TurnerWritableMappedBlockStream::createDirectoryStream(
5b74ff33SZachary Turner    const MSFLayout &Layout, WritableBinaryStreamRef MsfData,
5b74ff33SZachary Turner    BumpPtrAllocator &Allocator) {
a3225b04SZachary Turner  MSFStreamLayout SL;
a3225b04SZachary Turner  SL.Blocks = Layout.DirectoryBlocks;
a3225b04SZachary Turner  SL.Length = Layout.SB->NumDirectoryBytes;
5b74ff33SZachary Turner  return createStream(Layout.SB->BlockSize, SL, MsfData, Allocator);
a3225b04SZachary Turner}
a3225b04SZachary Turner
8cf51c34SZachary Turnerstd::unique_ptr<WritableMappedBlockStream>
8cf51c34SZachary TurnerWritableMappedBlockStream::createFpmStream(const MSFLayout &Layout,
5b74ff33SZachary Turner                                           WritableBinaryStreamRef MsfData,
9fb9d71dSZachary Turner                                           BumpPtrAllocator &Allocator,
9fb9d71dSZachary Turner                                           bool AltFpm) {
9fb9d71dSZachary Turner  // We only want to give the user a stream containing the bytes of the FPM that
9fb9d71dSZachary Turner  // are actually valid, but we want to initialize all of the bytes, even those
9fb9d71dSZachary Turner  // that come from reserved FPM blocks where the entire block is unused.  To do
9fb9d71dSZachary Turner  // this, we first create the full layout, which gives us a stream with all
9fb9d71dSZachary Turner  // bytes and all blocks, and initialize everything to 0xFF (all blocks in the
9fb9d71dSZachary Turner  // file are unused).  Then we create the minimal layout (which contains only a
9fb9d71dSZachary Turner  // subset of the bytes previously initialized), and return that to the user.
9fb9d71dSZachary Turner  MSFStreamLayout MinLayout(getFpmStreamLayout(Layout, false, AltFpm));
9fb9d71dSZachary Turner
9fb9d71dSZachary Turner  MSFStreamLayout FullLayout(getFpmStreamLayout(Layout, true, AltFpm));
9fb9d71dSZachary Turner  auto Result =
9fb9d71dSZachary Turner      createStream(Layout.SB->BlockSize, FullLayout, MsfData, Allocator);
9fb9d71dSZachary Turner  if (!Result)
9fb9d71dSZachary Turner    return Result;
9fb9d71dSZachary Turner  std::vector<uint8_t> InitData(Layout.SB->BlockSize, 0xFF);
9fb9d71dSZachary Turner  BinaryStreamWriter Initializer(*Result);
9fb9d71dSZachary Turner  while (Initializer.bytesRemaining() > 0)
9fb9d71dSZachary Turner    cantFail(Initializer.writeBytes(InitData));
9fb9d71dSZachary Turner  return createStream(Layout.SB->BlockSize, MinLayout, MsfData, Allocator);
8cf51c34SZachary Turner}
8cf51c34SZachary Turner
*646299d1SNico WeberError WritableMappedBlockStream::readBytes(uint64_t Offset, uint64_t Size,
120faca4SZachary Turner                                           ArrayRef<uint8_t> &Buffer) {
a3225b04SZachary Turner  return ReadInterface.readBytes(Offset, Size, Buffer);
a3225b04SZachary Turner}
a3225b04SZachary Turner
a3225b04SZachary TurnerError WritableMappedBlockStream::readLongestContiguousChunk(
*646299d1SNico Weber    uint64_t Offset, ArrayRef<uint8_t> &Buffer) {
a3225b04SZachary Turner  return ReadInterface.readLongestContiguousChunk(Offset, Buffer);
a3225b04SZachary Turner}
a3225b04SZachary Turner
*646299d1SNico Weberuint64_t WritableMappedBlockStream::getLength() {
a3225b04SZachary Turner  return ReadInterface.getLength();
a3225b04SZachary Turner}
a3225b04SZachary Turner
*646299d1SNico WeberError WritableMappedBlockStream::writeBytes(uint64_t Offset,
120faca4SZachary Turner                                            ArrayRef<uint8_t> Buffer) {
a3225b04SZachary Turner  // Make sure we aren't trying to write beyond the end of the stream.
96c6985bSZachary Turner  if (auto EC = checkOffsetForWrite(Offset, Buffer.size()))
d0b44fa7SZachary Turner    return EC;
a3225b04SZachary Turner
*646299d1SNico Weber  uint64_t BlockNum = Offset / getBlockSize();
*646299d1SNico Weber  uint64_t OffsetInBlock = Offset % getBlockSize();
a3225b04SZachary Turner
*646299d1SNico Weber  uint64_t BytesLeft = Buffer.size();
*646299d1SNico Weber  uint64_t BytesWritten = 0;
a3225b04SZachary Turner  while (BytesLeft > 0) {
*646299d1SNico Weber    uint64_t StreamBlockAddr = getStreamLayout().Blocks[BlockNum];
*646299d1SNico Weber    uint64_t BytesToWriteInChunk =
a3225b04SZachary Turner        std::min(BytesLeft, getBlockSize() - OffsetInBlock);
a3225b04SZachary Turner
a3225b04SZachary Turner    const uint8_t *Chunk = Buffer.data() + BytesWritten;
a3225b04SZachary Turner    ArrayRef<uint8_t> ChunkData(Chunk, BytesToWriteInChunk);
*646299d1SNico Weber    uint64_t MsfOffset = blockToOffset(StreamBlockAddr, getBlockSize());
a3225b04SZachary Turner    MsfOffset += OffsetInBlock;
a3225b04SZachary Turner    if (auto EC = WriteInterface.writeBytes(MsfOffset, ChunkData))
a3225b04SZachary Turner      return EC;
a3225b04SZachary Turner
a3225b04SZachary Turner    BytesLeft -= BytesToWriteInChunk;
a3225b04SZachary Turner    BytesWritten += BytesToWriteInChunk;
a3225b04SZachary Turner    ++BlockNum;
a3225b04SZachary Turner    OffsetInBlock = 0;
a3225b04SZachary Turner  }
a3225b04SZachary Turner
a3225b04SZachary Turner  ReadInterface.fixCacheAfterWrite(Offset, Buffer);
a3225b04SZachary Turner
a3225b04SZachary Turner  return Error::success();
a3225b04SZachary Turner}
a3225b04SZachary Turner
120faca4SZachary TurnerError WritableMappedBlockStream::commit() { return WriteInterface.commit(); }