зеркало из https://github.com/mozilla/gecko-dev.git
214 строки
8.0 KiB
C++
214 строки
8.0 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "MemoryBlockCache.h"
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#include "mozilla/Atomics.h"
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#include "mozilla/ClearOnShutdown.h"
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#include "mozilla/Logging.h"
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#include "mozilla/Services.h"
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#include "mozilla/StaticPrefs_media.h"
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#include "nsWeakReference.h"
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#include "prsystem.h"
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namespace mozilla {
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#undef LOG
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LazyLogModule gMemoryBlockCacheLog("MemoryBlockCache");
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#define LOG(x, ...) \
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MOZ_LOG(gMemoryBlockCacheLog, LogLevel::Debug, ("%p " x, this, ##__VA_ARGS__))
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// Combined sizes of all MemoryBlockCache buffers.
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// Initialized to 0 by non-local static initialization.
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// Increases when a buffer grows (during initialization or unexpected OOB
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// writes), decreases when a MemoryBlockCache (with its buffer) is destroyed.
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static Atomic<size_t> gCombinedSizes;
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static int32_t CalculateMaxBlocks(int64_t aContentLength) {
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int64_t maxSize = int64_t(StaticPrefs::media_memory_cache_max_size()) * 1024;
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MOZ_ASSERT(aContentLength <= maxSize);
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MOZ_ASSERT(maxSize % MediaBlockCacheBase::BLOCK_SIZE == 0);
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// Note: It doesn't matter if calculations overflow, Init() would later fail.
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// We want at least enough blocks to contain the original content length.
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const int32_t requiredBlocks = maxSize / MediaBlockCacheBase::BLOCK_SIZE;
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// Allow at least 1s of ultra HD (25Mbps).
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const int32_t workableBlocks =
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25 * 1024 * 1024 / 8 / MediaBlockCacheBase::BLOCK_SIZE;
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return std::max(requiredBlocks, workableBlocks);
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}
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MemoryBlockCache::MemoryBlockCache(int64_t aContentLength)
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// Buffer whole blocks.
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: mInitialContentLength((aContentLength >= 0) ? size_t(aContentLength) : 0),
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mMaxBlocks(CalculateMaxBlocks(aContentLength)),
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mMutex("MemoryBlockCache"),
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mHasGrown(false) {
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if (aContentLength <= 0) {
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LOG("MemoryBlockCache() MEMORYBLOCKCACHE_ERRORS='InitUnderuse'");
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}
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}
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MemoryBlockCache::~MemoryBlockCache() {
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MOZ_ASSERT(gCombinedSizes >= mBuffer.Length());
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size_t sizes = static_cast<size_t>(gCombinedSizes -= mBuffer.Length());
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LOG("~MemoryBlockCache() - destroying buffer of size %zu; combined sizes now "
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"%zu",
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mBuffer.Length(), sizes);
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}
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bool MemoryBlockCache::EnsureBufferCanContain(size_t aContentLength) {
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mMutex.AssertCurrentThreadOwns();
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if (aContentLength == 0) {
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return true;
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}
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const size_t initialLength = mBuffer.Length();
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const size_t desiredLength =
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((aContentLength - 1) / BLOCK_SIZE + 1) * BLOCK_SIZE;
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if (initialLength >= desiredLength) {
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// Already large enough.
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return true;
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}
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// Need larger buffer. If we are allowed more memory, attempt to re-allocate.
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const size_t extra = desiredLength - initialLength;
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// Only check the very first allocation against the combined MemoryBlockCache
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// limit. Further growths will always be allowed, assuming MediaCache won't
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// go over GetMaxBlocks() by too much.
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if (initialLength == 0) {
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// Note: There is a small race between testing `atomic + extra > limit` and
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// committing to it with `atomic += extra` below; but this is acceptable, as
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// in the worst case it may allow a small number of buffers to go past the
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// limit.
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// The alternative would have been to reserve the space first with
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// `atomic += extra` and then undo it with `atomic -= extra` in case of
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// failure; but this would have meant potentially preventing other (small
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// but successful) allocations.
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static const size_t sysmem =
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std::max<size_t>(PR_GetPhysicalMemorySize(), 32 * 1024 * 1024);
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const size_t limit = std::min(
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size_t(StaticPrefs::media_memory_caches_combined_limit_kb()) * 1024,
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sysmem * StaticPrefs::media_memory_caches_combined_limit_pc_sysmem() /
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100);
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const size_t currentSizes = static_cast<size_t>(gCombinedSizes);
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if (currentSizes + extra > limit) {
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LOG("EnsureBufferCanContain(%zu) - buffer size %zu, wanted + %zu = %zu;"
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" combined sizes %zu + %zu > limit %zu",
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aContentLength, initialLength, extra, desiredLength, currentSizes,
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extra, limit);
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return false;
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}
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}
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if (!mBuffer.SetLength(desiredLength, mozilla::fallible)) {
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LOG("EnsureBufferCanContain(%zu) - buffer size %zu, wanted + %zu = %zu, "
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"allocation failed",
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aContentLength, initialLength, extra, desiredLength);
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return false;
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}
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MOZ_ASSERT(mBuffer.Length() == desiredLength);
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const size_t capacity = mBuffer.Capacity();
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const size_t extraCapacity = capacity - desiredLength;
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if (extraCapacity != 0) {
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// Our buffer was given a larger capacity than the requested length, we may
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// as well claim that extra capacity, both for our accounting, and to
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// possibly bypass some future growths that would fit in this new capacity.
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mBuffer.SetLength(capacity);
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}
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const size_t newSizes = gCombinedSizes += (extra + extraCapacity);
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LOG("EnsureBufferCanContain(%zu) - buffer size %zu + requested %zu + bonus "
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"%zu = %zu; combined sizes %zu",
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aContentLength, initialLength, extra, extraCapacity, capacity, newSizes);
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mHasGrown = true;
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return true;
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}
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nsresult MemoryBlockCache::Init() {
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LOG("Init()");
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MutexAutoLock lock(mMutex);
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MOZ_ASSERT(mBuffer.IsEmpty());
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// Attempt to pre-allocate buffer for expected content length.
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if (!EnsureBufferCanContain(mInitialContentLength)) {
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LOG("Init() MEMORYBLOCKCACHE_ERRORS='InitAllocation'");
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return NS_ERROR_FAILURE;
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}
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return NS_OK;
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}
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void MemoryBlockCache::Flush() {
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LOG("Flush()");
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MutexAutoLock lock(mMutex);
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MOZ_ASSERT(mBuffer.Length() >= mInitialContentLength);
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memset(mBuffer.Elements(), 0, mBuffer.Length());
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mHasGrown = false;
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}
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nsresult MemoryBlockCache::WriteBlock(uint32_t aBlockIndex,
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Span<const uint8_t> aData1,
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Span<const uint8_t> aData2) {
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MutexAutoLock lock(mMutex);
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size_t offset = BlockIndexToOffset(aBlockIndex);
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if (offset + aData1.Length() + aData2.Length() > mBuffer.Length() &&
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!mHasGrown) {
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LOG("WriteBlock() MEMORYBLOCKCACHE_ERRORS='WriteBlockOverflow'");
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}
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if (!EnsureBufferCanContain(offset + aData1.Length() + aData2.Length())) {
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LOG("WriteBlock() MEMORYBLOCKCACHE_ERRORS='WriteBlockCannotGrow'");
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return NS_ERROR_FAILURE;
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}
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memcpy(mBuffer.Elements() + offset, aData1.Elements(), aData1.Length());
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if (aData2.Length() > 0) {
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memcpy(mBuffer.Elements() + offset + aData1.Length(), aData2.Elements(),
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aData2.Length());
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}
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return NS_OK;
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}
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nsresult MemoryBlockCache::Read(int64_t aOffset, uint8_t* aData,
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int32_t aLength, int32_t* aBytes) {
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MutexAutoLock lock(mMutex);
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MOZ_ASSERT(aOffset >= 0);
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if (aOffset + aLength > int64_t(mBuffer.Length())) {
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LOG("Read() MEMORYBLOCKCACHE_ERRORS='ReadOverrun'");
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return NS_ERROR_FAILURE;
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}
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memcpy(aData, mBuffer.Elements() + aOffset, aLength);
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*aBytes = aLength;
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return NS_OK;
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}
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nsresult MemoryBlockCache::MoveBlock(int32_t aSourceBlockIndex,
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int32_t aDestBlockIndex) {
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MutexAutoLock lock(mMutex);
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size_t sourceOffset = BlockIndexToOffset(aSourceBlockIndex);
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size_t destOffset = BlockIndexToOffset(aDestBlockIndex);
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if (sourceOffset + BLOCK_SIZE > mBuffer.Length()) {
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LOG("MoveBlock() MEMORYBLOCKCACHE_ERRORS='MoveBlockSourceOverrun'");
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return NS_ERROR_FAILURE;
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}
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if (destOffset + BLOCK_SIZE > mBuffer.Length() && !mHasGrown) {
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LOG("MoveBlock() MEMORYBLOCKCACHE_ERRORS='MoveBlockDestOverflow'");
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}
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if (!EnsureBufferCanContain(destOffset + BLOCK_SIZE)) {
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LOG("MoveBlock() MEMORYBLOCKCACHE_ERRORS='MoveBlockCannotGrow'");
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return NS_ERROR_FAILURE;
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}
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memcpy(mBuffer.Elements() + destOffset, mBuffer.Elements() + sourceOffset,
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BLOCK_SIZE);
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return NS_OK;
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}
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} // End namespace mozilla.
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// avoid redefined macro in unified build
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#undef LOG
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