gecko/netwerk/cache2/CacheFileChunk.cpp

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "CacheFileChunk.h"
#include "CacheLog.h"
#include "CacheFile.h"
#include "nsThreadUtils.h"
#include "nsAlgorithm.h"
#include <algorithm>
namespace mozilla {
namespace net {
#define kMinBufSize 512
class NotifyUpdateListenerEvent : public nsRunnable {
public:
NotifyUpdateListenerEvent(CacheFileChunkListener *aCallback,
CacheFileChunk *aChunk)
: mCallback(aCallback)
, mChunk(aChunk)
{
LOG(("NotifyUpdateListenerEvent::NotifyUpdateListenerEvent() [this=%p]",
this));
MOZ_COUNT_CTOR(NotifyUpdateListenerEvent);
}
~NotifyUpdateListenerEvent()
{
LOG(("NotifyUpdateListenerEvent::~NotifyUpdateListenerEvent() [this=%p]",
this));
MOZ_COUNT_DTOR(NotifyUpdateListenerEvent);
}
NS_IMETHOD Run()
{
LOG(("NotifyUpdateListenerEvent::Run() [this=%p]", this));
mCallback->OnChunkUpdated(mChunk);
return NS_OK;
}
protected:
nsCOMPtr<CacheFileChunkListener> mCallback;
nsRefPtr<CacheFileChunk> mChunk;
};
class ValidityPair {
public:
ValidityPair(uint32_t aOffset, uint32_t aLen)
: mOffset(aOffset), mLen(aLen)
{}
ValidityPair& operator=(const ValidityPair& aOther) {
mOffset = aOther.mOffset;
mLen = aOther.mLen;
return *this;
}
bool Overlaps(const ValidityPair& aOther) const {
if ((mOffset <= aOther.mOffset && mOffset + mLen >= aOther.mOffset) ||
(aOther.mOffset <= mOffset && aOther.mOffset + mLen >= mOffset))
return true;
return false;
}
bool LessThan(const ValidityPair& aOther) const {
if (mOffset < aOther.mOffset)
return true;
if (mOffset == aOther.mOffset && mLen < aOther.mLen)
return true;
return false;
}
void Merge(const ValidityPair& aOther) {
MOZ_ASSERT(Overlaps(aOther));
uint32_t offset = std::min(mOffset, aOther.mOffset);
uint32_t end = std::max(mOffset + mLen, aOther.mOffset + aOther.mLen);
mOffset = offset;
mLen = end - offset;
}
uint32_t Offset() { return mOffset; }
uint32_t Len() { return mLen; }
private:
uint32_t mOffset;
uint32_t mLen;
};
NS_IMPL_ADDREF(CacheFileChunk)
NS_IMETHODIMP_(nsrefcnt)
CacheFileChunk::Release()
{
NS_PRECONDITION(0 != mRefCnt, "dup release");
nsrefcnt count = --mRefCnt;
NS_LOG_RELEASE(this, count, "CacheFileChunk");
if (0 == count) {
mRefCnt = 1;
delete (this);
return 0;
}
if (!mRemovingChunk && count == 1) {
mFile->RemoveChunk(this);
}
return count;
}
NS_INTERFACE_MAP_BEGIN(CacheFileChunk)
NS_INTERFACE_MAP_ENTRY(mozilla::net::CacheFileIOListener)
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END_THREADSAFE
CacheFileChunk::CacheFileChunk(CacheFile *aFile, uint32_t aIndex)
: mIndex(aIndex)
, mState(INITIAL)
, mIsDirty(false)
, mRemovingChunk(false)
, mDataSize(0)
, mBuf(nullptr)
, mBufSize(0)
, mRWBuf(nullptr)
, mRWBufSize(0)
, mReadHash(0)
, mFile(aFile)
{
LOG(("CacheFileChunk::CacheFileChunk() [this=%p]", this));
MOZ_COUNT_CTOR(CacheFileChunk);
}
CacheFileChunk::~CacheFileChunk()
{
LOG(("CacheFileChunk::~CacheFileChunk() [this=%p]", this));
MOZ_COUNT_DTOR(CacheFileChunk);
if (mBuf) {
free(mBuf);
mBuf = nullptr;
mBufSize = 0;
}
if (mRWBuf) {
free(mRWBuf);
mRWBuf = nullptr;
mRWBufSize = 0;
}
DoMemoryReport(MemorySize());
}
void
CacheFileChunk::InitNew(CacheFileChunkListener *aCallback)
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::InitNew() [this=%p, listener=%p]", this, aCallback));
MOZ_ASSERT(mState == INITIAL);
MOZ_ASSERT(!mBuf);
MOZ_ASSERT(!mRWBuf);
mBuf = static_cast<char *>(moz_xmalloc(kMinBufSize));
mBufSize = kMinBufSize;
mDataSize = 0;
mState = READY;
mIsDirty = true;
DoMemoryReport(MemorySize());
}
nsresult
CacheFileChunk::Read(CacheFileHandle *aHandle, uint32_t aLen,
CacheHashUtils::Hash16_t aHash,
CacheFileChunkListener *aCallback)
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::Read() [this=%p, handle=%p, len=%d, listener=%p]",
this, aHandle, aLen, aCallback));
MOZ_ASSERT(mState == INITIAL);
MOZ_ASSERT(!mBuf);
MOZ_ASSERT(!mRWBuf);
MOZ_ASSERT(aLen);
nsresult rv;
mRWBuf = static_cast<char *>(moz_xmalloc(aLen));
mRWBufSize = aLen;
DoMemoryReport(MemorySize());
rv = CacheFileIOManager::Read(aHandle, mIndex * kChunkSize, mRWBuf, aLen,
this);
if (NS_FAILED(rv)) {
mState = READING; // TODO: properly handle error states
// mState = ERROR;
NS_ENSURE_SUCCESS(rv, rv);
}
mState = READING;
mListener = aCallback;
mDataSize = aLen;
mReadHash = aHash;
return NS_OK;
}
nsresult
CacheFileChunk::Write(CacheFileHandle *aHandle,
CacheFileChunkListener *aCallback)
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::Write() [this=%p, handle=%p, listener=%p]",
this, aHandle, aCallback));
MOZ_ASSERT(mState == READY);
MOZ_ASSERT(!mRWBuf);
MOZ_ASSERT(mBuf);
MOZ_ASSERT(mDataSize); // Don't write chunk when it is empty
nsresult rv;
mRWBuf = mBuf;
mRWBufSize = mBufSize;
mBuf = nullptr;
mBufSize = 0;
rv = CacheFileIOManager::Write(aHandle, mIndex * kChunkSize, mRWBuf,
mDataSize, false, this);
if (NS_FAILED(rv)) {
mState = WRITING; // TODO: properly handle error states
// mState = ERROR;
NS_ENSURE_SUCCESS(rv, rv);
}
mState = WRITING;
mListener = aCallback;
mIsDirty = false;
return NS_OK;
}
void
CacheFileChunk::WaitForUpdate(CacheFileChunkListener *aCallback)
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::WaitForUpdate() [this=%p, listener=%p]",
this, aCallback));
MOZ_ASSERT(mFile->mOutput);
MOZ_ASSERT(IsReady());
#ifdef DEBUG
for (uint32_t i = 0 ; i < mUpdateListeners.Length() ; i++) {
MOZ_ASSERT(mUpdateListeners[i]->mCallback != aCallback);
}
#endif
ChunkListenerItem *item = new ChunkListenerItem();
item->mTarget = NS_GetCurrentThread();
item->mCallback = aCallback;
mUpdateListeners.AppendElement(item);
}
nsresult
CacheFileChunk::CancelWait(CacheFileChunkListener *aCallback)
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::CancelWait() [this=%p, listener=%p]", this, aCallback));
MOZ_ASSERT(IsReady());
uint32_t i;
for (i = 0 ; i < mUpdateListeners.Length() ; i++) {
ChunkListenerItem *item = mUpdateListeners[i];
if (item->mCallback == aCallback) {
mUpdateListeners.RemoveElementAt(i);
delete item;
break;
}
}
#ifdef DEBUG
for ( ; i < mUpdateListeners.Length() ; i++) {
MOZ_ASSERT(mUpdateListeners[i]->mCallback != aCallback);
}
#endif
return NS_OK;
}
nsresult
CacheFileChunk::NotifyUpdateListeners()
{
mFile->AssertOwnsLock();
LOG(("CacheFileChunk::NotifyUpdateListeners() [this=%p]", this));
MOZ_ASSERT(IsReady());
nsresult rv, rv2;
rv = NS_OK;
for (uint32_t i = 0 ; i < mUpdateListeners.Length() ; i++) {
ChunkListenerItem *item = mUpdateListeners[i];
LOG(("CacheFileChunk::NotifyUpdateListeners() - Notifying listener %p "
"[this=%p]", item->mCallback.get(), this));
nsRefPtr<NotifyUpdateListenerEvent> ev;
ev = new NotifyUpdateListenerEvent(item->mCallback, this);
rv2 = item->mTarget->Dispatch(ev, NS_DISPATCH_NORMAL);
if (NS_FAILED(rv2) && NS_SUCCEEDED(rv))
rv = rv2;
delete item;
}
mUpdateListeners.Clear();
return rv;
}
uint32_t
CacheFileChunk::Index()
{
return mIndex;
}
CacheHashUtils::Hash16_t
CacheFileChunk::Hash()
{
mFile->AssertOwnsLock();
MOZ_ASSERT(mBuf);
MOZ_ASSERT(!mListener);
MOZ_ASSERT(IsReady());
return CacheHashUtils::Hash16(BufForReading(), mDataSize);
}
uint32_t
CacheFileChunk::DataSize()
{
mFile->AssertOwnsLock();
return mDataSize;
}
void
CacheFileChunk::UpdateDataSize(uint32_t aOffset, uint32_t aLen, bool aEOF)
{
mFile->AssertOwnsLock();
MOZ_ASSERT(!aEOF, "Implement me! What to do with opened streams?");
MOZ_ASSERT(aOffset <= mDataSize);
LOG(("CacheFileChunk::UpdateDataSize() [this=%p, offset=%d, len=%d, EOF=%d]",
this, aOffset, aLen, aEOF));
mIsDirty = true;
int64_t fileSize = kChunkSize * mIndex + aOffset + aLen;
bool notify = false;
if (fileSize > mFile->mDataSize)
mFile->mDataSize = fileSize;
if (aOffset + aLen > mDataSize) {
mDataSize = aOffset + aLen;
notify = true;
}
if (mState == READY || mState == WRITING) {
MOZ_ASSERT(mValidityMap.Length() == 0);
if (notify)
NotifyUpdateListeners();
return;
}
// We're still waiting for data from the disk. This chunk cannot be used by
// input stream, so there must be no update listener. We also need to keep
// track of where the data is written so that we can correctly merge the new
// data with the old one.
MOZ_ASSERT(mUpdateListeners.Length() == 0);
MOZ_ASSERT(mState == READING);
ValidityPair pair(aOffset, aLen);
if (mValidityMap.Length() == 0) {
mValidityMap.AppendElement(pair);
return;
}
// Find out where to place this pair into the map, it can overlap with
// one preceding pair and all subsequent pairs.
uint32_t pos = 0;
for (pos = mValidityMap.Length() ; pos > 0 ; pos--) {
if (mValidityMap[pos-1].LessThan(pair)) {
if (mValidityMap[pos-1].Overlaps(pair)) {
// Merge with the preceding pair
mValidityMap[pos-1].Merge(pair);
pos--; // Point to the updated pair
}
else {
if (pos == mValidityMap.Length())
mValidityMap.AppendElement(pair);
else
mValidityMap.InsertElementAt(pos, pair);
}
break;
}
}
if (!pos)
mValidityMap.InsertElementAt(0, pair);
// Now pos points to merged or inserted pair, check whether it overlaps with
// subsequent pairs.
while (pos + 1 < mValidityMap.Length()) {
if (mValidityMap[pos].Overlaps(mValidityMap[pos + 1])) {
mValidityMap[pos].Merge(mValidityMap[pos + 1]);
mValidityMap.RemoveElementAt(pos + 1);
}
else {
break;
}
}
}
nsresult
CacheFileChunk::OnFileOpened(CacheFileHandle *aHandle, nsresult aResult)
{
MOZ_CRASH("CacheFileChunk::OnFileOpened should not be called!");
return NS_ERROR_UNEXPECTED;
}
nsresult
CacheFileChunk::OnDataWritten(CacheFileHandle *aHandle, const char *aBuf,
nsresult aResult)
{
LOG(("CacheFileChunk::OnDataWritten() [this=%p, handle=%p, result=0x%08x]",
this, aHandle, aResult));
nsCOMPtr<CacheFileChunkListener> listener;
{
CacheFileAutoLock lock(mFile);
MOZ_ASSERT(mState == WRITING);
MOZ_ASSERT(mListener);
#if 0
// TODO: properly handle error states
if (NS_FAILED(aResult)) {
mState = ERROR;
}
else {
#endif
mState = READY;
if (!mBuf) {
mBuf = mRWBuf;
mBufSize = mRWBufSize;
}
else {
free(mRWBuf);
}
mRWBuf = nullptr;
mRWBufSize = 0;
DoMemoryReport(MemorySize());
#if 0
}
#endif
mListener.swap(listener);
}
listener->OnChunkWritten(aResult, this);
return NS_OK;
}
nsresult
CacheFileChunk::OnDataRead(CacheFileHandle *aHandle, char *aBuf,
nsresult aResult)
{
LOG(("CacheFileChunk::OnDataRead() [this=%p, handle=%p, result=0x%08x]",
this, aHandle, aResult));
nsCOMPtr<CacheFileChunkListener> listener;
{
CacheFileAutoLock lock(mFile);
MOZ_ASSERT(mState == READING);
MOZ_ASSERT(mListener);
if (NS_SUCCEEDED(aResult)) {
CacheHashUtils::Hash16_t hash = CacheHashUtils::Hash16(mRWBuf,
mRWBufSize);
if (hash != mReadHash) {
LOG(("CacheFileChunk::OnDataRead() - Hash mismatch! Hash of the data is"
" %hx, hash in metadata is %hx. [this=%p, idx=%d]",
hash, mReadHash, this, mIndex));
aResult = NS_ERROR_FILE_CORRUPTED;
}
else {
if (!mBuf) {
// Just swap the buffers if we don't have mBuf yet
MOZ_ASSERT(mDataSize == mRWBufSize);
mBuf = mRWBuf;
mBufSize = mRWBufSize;
mRWBuf = nullptr;
mRWBufSize = 0;
} else {
// Merge data with write buffer
if (mRWBufSize < mBufSize) {
mRWBuf = static_cast<char *>(moz_xrealloc(mRWBuf, mBufSize));
mRWBufSize = mBufSize;
}
for (uint32_t i = 0 ; i < mValidityMap.Length() ; i++) {
memcpy(mRWBuf + mValidityMap[i].Offset(),
mBuf + mValidityMap[i].Offset(), mValidityMap[i].Len());
}
free(mBuf);
mBuf = mRWBuf;
mBufSize = mRWBufSize;
mRWBuf = nullptr;
mRWBufSize = 0;
DoMemoryReport(MemorySize());
}
}
}
if (NS_FAILED(aResult)) {
#if 0
// TODO: properly handle error states
mState = ERROR;
#endif
mState = READY;
mDataSize = 0;
}
else {
mState = READY;
}
mListener.swap(listener);
}
listener->OnChunkRead(aResult, this);
return NS_OK;
}
nsresult
CacheFileChunk::OnFileDoomed(CacheFileHandle *aHandle, nsresult aResult)
{
MOZ_CRASH("CacheFileChunk::OnFileDoomed should not be called!");
return NS_ERROR_UNEXPECTED;
}
nsresult
CacheFileChunk::OnEOFSet(CacheFileHandle *aHandle, nsresult aResult)
{
MOZ_CRASH("CacheFileChunk::OnEOFSet should not be called!");
return NS_ERROR_UNEXPECTED;
}
bool
CacheFileChunk::IsReady()
{
mFile->AssertOwnsLock();
return (mState == READY || mState == WRITING);
}
bool
CacheFileChunk::IsDirty()
{
mFile->AssertOwnsLock();
return mIsDirty;
}
char *
CacheFileChunk::BufForWriting()
{
mFile->AssertOwnsLock();
MOZ_ASSERT(mBuf); // Writer should always first call EnsureBufSize()
MOZ_ASSERT((mState == READY && !mRWBuf) ||
(mState == WRITING && mRWBuf) ||
(mState == READING && mRWBuf));
return mBuf;
}
const char *
CacheFileChunk::BufForReading()
{
mFile->AssertOwnsLock();
MOZ_ASSERT((mState == READY && mBuf && !mRWBuf) ||
(mState == WRITING && mRWBuf));
return mBuf ? mBuf : mRWBuf;
}
void
CacheFileChunk::EnsureBufSize(uint32_t aBufSize)
{
mFile->AssertOwnsLock();
if (mBufSize >= aBufSize)
return;
bool copy = false;
if (!mBuf && mState == WRITING) {
// We need to duplicate the data that is being written on the background
// thread, so make sure that all the data fits into the new buffer.
copy = true;
if (mRWBufSize > aBufSize)
aBufSize = mRWBufSize;
}
// find smallest power of 2 greater than or equal to aBufSize
aBufSize--;
aBufSize |= aBufSize >> 1;
aBufSize |= aBufSize >> 2;
aBufSize |= aBufSize >> 4;
aBufSize |= aBufSize >> 8;
aBufSize |= aBufSize >> 16;
aBufSize++;
const uint32_t minBufSize = kMinBufSize;
const uint32_t maxBufSize = kChunkSize;
aBufSize = clamped(aBufSize, minBufSize, maxBufSize);
mBuf = static_cast<char *>(moz_xrealloc(mBuf, aBufSize));
mBufSize = aBufSize;
if (copy)
memcpy(mBuf, mRWBuf, mRWBufSize);
DoMemoryReport(MemorySize());
}
} // net
} // mozilla