/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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 "mozilla/XPCOM.h" #include "FileBlockCache.h" #include "VideoUtils.h" namespace mozilla { nsresult FileBlockCache::Open(PRFileDesc* aFD) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); NS_ENSURE_TRUE(aFD != nsnull, NS_ERROR_FAILURE); { MonitorAutoLock mon(mFileMonitor); mFD = aFD; } { MonitorAutoLock mon(mDataMonitor); nsresult res = NS_NewThread(getter_AddRefs(mThread), nsnull, MEDIA_THREAD_STACK_SIZE); mIsOpen = NS_SUCCEEDED(res); return res; } } FileBlockCache::FileBlockCache() : mFileMonitor("nsMediaCache.Writer.IO.Monitor"), mFD(nsnull), mFDCurrentPos(0), mDataMonitor("nsMediaCache.Writer.Data.Monitor"), mIsWriteScheduled(false), mIsOpen(false) { MOZ_COUNT_CTOR(FileBlockCache); } FileBlockCache::~FileBlockCache() { NS_ASSERTION(!mIsOpen, "Should Close() FileBlockCache before destroying"); { // Note, mThread will be shutdown by the time this runs, so we won't // block while taking mFileMonitor. MonitorAutoLock mon(mFileMonitor); if (mFD) { PR_Close(mFD); mFD = nsnull; } } MOZ_COUNT_DTOR(FileBlockCache); } void FileBlockCache::Close() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); MonitorAutoLock mon(mDataMonitor); mIsOpen = false; if (mThread) { // We must shut down the thread in another runnable. This is called // while we're shutting down the media cache, and nsIThread::Shutdown() // can cause events to run before it completes, which could end up // opening more streams, while the media cache is shutting down and // releasing memory etc! Also note we close mFD in the destructor so // as to not disturb any IO that's currently running. nsCOMPtr event = new ShutdownThreadEvent(mThread); mThread = nsnull; NS_DispatchToMainThread(event); } } nsresult FileBlockCache::WriteBlock(PRUint32 aBlockIndex, const PRUint8* aData) { MonitorAutoLock mon(mDataMonitor); if (!mIsOpen) return NS_ERROR_FAILURE; // Check if we've already got a pending write scheduled for this block. mBlockChanges.EnsureLengthAtLeast(aBlockIndex + 1); bool blockAlreadyHadPendingChange = mBlockChanges[aBlockIndex] != nsnull; mBlockChanges[aBlockIndex] = new BlockChange(aData); if (!blockAlreadyHadPendingChange || !mChangeIndexList.Contains(aBlockIndex)) { // We either didn't already have a pending change for this block, or we // did but we didn't have an entry for it in mChangeIndexList (we're in the process // of writing it and have removed the block's index out of mChangeIndexList // in Run() but not finished writing the block to file yet). Add the blocks // index to the end of mChangeIndexList to ensure the block is written as // as soon as possible. mChangeIndexList.PushBack(aBlockIndex); } NS_ASSERTION(mChangeIndexList.Contains(aBlockIndex), "Must have entry for new block"); EnsureWriteScheduled(); return NS_OK; } void FileBlockCache::EnsureWriteScheduled() { mDataMonitor.AssertCurrentThreadOwns(); if (!mIsWriteScheduled) { mThread->Dispatch(this, NS_DISPATCH_NORMAL); mIsWriteScheduled = true; } } nsresult FileBlockCache::Seek(PRInt64 aOffset) { mFileMonitor.AssertCurrentThreadOwns(); if (mFDCurrentPos != aOffset) { PROffset64 result = PR_Seek64(mFD, aOffset, PR_SEEK_SET); if (result != aOffset) { NS_WARNING("Failed to seek media cache file"); return NS_ERROR_FAILURE; } mFDCurrentPos = result; } return NS_OK; } nsresult FileBlockCache::ReadFromFile(PRInt32 aOffset, PRUint8* aDest, PRInt32 aBytesToRead, PRInt32& aBytesRead) { mFileMonitor.AssertCurrentThreadOwns(); nsresult res = Seek(aOffset); if (NS_FAILED(res)) return res; aBytesRead = PR_Read(mFD, aDest, aBytesToRead); if (aBytesRead <= 0) return NS_ERROR_FAILURE; mFDCurrentPos += aBytesRead; return NS_OK; } nsresult FileBlockCache::WriteBlockToFile(PRInt32 aBlockIndex, const PRUint8* aBlockData) { mFileMonitor.AssertCurrentThreadOwns(); nsresult rv = Seek(aBlockIndex * BLOCK_SIZE); if (NS_FAILED(rv)) return rv; PRInt32 amount = PR_Write(mFD, aBlockData, BLOCK_SIZE); if (amount < BLOCK_SIZE) { NS_WARNING("Failed to write media cache block!"); return NS_ERROR_FAILURE; } mFDCurrentPos += BLOCK_SIZE; return NS_OK; } nsresult FileBlockCache::MoveBlockInFile(PRInt32 aSourceBlockIndex, PRInt32 aDestBlockIndex) { mFileMonitor.AssertCurrentThreadOwns(); PRUint8 buf[BLOCK_SIZE]; PRInt32 bytesRead = 0; if (NS_FAILED(ReadFromFile(aSourceBlockIndex * BLOCK_SIZE, buf, BLOCK_SIZE, bytesRead))) { return NS_ERROR_FAILURE; } return WriteBlockToFile(aDestBlockIndex, buf); } nsresult FileBlockCache::Run() { MonitorAutoLock mon(mDataMonitor); NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); NS_ASSERTION(!mChangeIndexList.IsEmpty(), "Only dispatch when there's work to do"); NS_ASSERTION(mIsWriteScheduled, "Should report write running or scheduled."); while (!mChangeIndexList.IsEmpty()) { if (!mIsOpen) { // We've been closed, abort, discarding unwritten changes. mIsWriteScheduled = false; return NS_ERROR_FAILURE; } // Process each pending change. We pop the index out of the change // list, but leave the BlockChange in mBlockChanges until the change // is written to file. This is so that any read which happens while // we drop mDataMonitor to write will refer to the data's source in // memory, rather than the not-yet up to date data written to file. // This also ensures we will insert a new index into mChangeIndexList // when this happens. // Hold a reference to the change, in case another change // overwrites the mBlockChanges entry for this block while we drop // mDataMonitor to take mFileMonitor. PRInt32 blockIndex = mChangeIndexList.PopFront(); nsRefPtr change = mBlockChanges[blockIndex]; NS_ABORT_IF_FALSE(change, "Change index list should only contain entries for blocks with changes"); { MonitorAutoUnlock unlock(mDataMonitor); MonitorAutoLock lock(mFileMonitor); if (change->IsWrite()) { WriteBlockToFile(blockIndex, change->mData.get()); } else if (change->IsMove()) { MoveBlockInFile(change->mSourceBlockIndex, blockIndex); } } // If a new change has not been made to the block while we dropped // mDataMonitor, clear reference to the old change. Otherwise, the old // reference has been cleared already. if (mBlockChanges[blockIndex] == change) { mBlockChanges[blockIndex] = nsnull; } } mIsWriteScheduled = false; return NS_OK; } nsresult FileBlockCache::Read(PRInt64 aOffset, PRUint8* aData, PRInt32 aLength, PRInt32* aBytes) { MonitorAutoLock mon(mDataMonitor); if (!mFD || (aOffset / BLOCK_SIZE) > PR_INT32_MAX) return NS_ERROR_FAILURE; PRInt32 bytesToRead = aLength; PRInt64 offset = aOffset; PRUint8* dst = aData; while (bytesToRead > 0) { PRInt32 blockIndex = static_cast(offset / BLOCK_SIZE); PRInt32 start = offset % BLOCK_SIZE; PRInt32 amount = NS_MIN(BLOCK_SIZE - start, bytesToRead); // If the block is not yet written to file, we can just read from // the memory buffer, otherwise we need to read from file. PRInt32 bytesRead = 0; nsRefPtr change = mBlockChanges[blockIndex]; if (change && change->IsWrite()) { // Block isn't yet written to file. Read from memory buffer. const PRUint8* blockData = change->mData.get(); memcpy(dst, blockData + start, amount); bytesRead = amount; } else { if (change && change->IsMove()) { // The target block is the destination of a not-yet-completed move // action, so read from the move's source block from file. Note we // *don't* follow a chain of moves here, as a move's source index // is resolved when MoveBlock() is called, and the move's source's // block could be have itself been subject to a move (or write) // which happened *after* this move was recorded. blockIndex = mBlockChanges[blockIndex]->mSourceBlockIndex; } // Block has been written to file, either as the source block of a move, // or as a stable (all changes made) block. Read the data directly // from file. nsresult res; { MonitorAutoUnlock unlock(mDataMonitor); MonitorAutoLock lock(mFileMonitor); res = ReadFromFile(blockIndex * BLOCK_SIZE + start, dst, amount, bytesRead); } NS_ENSURE_SUCCESS(res,res); } dst += bytesRead; offset += bytesRead; bytesToRead -= bytesRead; } *aBytes = aLength - bytesToRead; return NS_OK; } nsresult FileBlockCache::MoveBlock(PRInt32 aSourceBlockIndex, PRInt32 aDestBlockIndex) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); MonitorAutoLock mon(mDataMonitor); if (!mIsOpen) return NS_ERROR_FAILURE; mBlockChanges.EnsureLengthAtLeast(NS_MAX(aSourceBlockIndex, aDestBlockIndex) + 1); // The source block's contents may be the destination of another pending // move, which in turn can be the destination of another pending move, // etc. Resolve the final source block, so that if one of the blocks in // the chain of moves is overwritten, we don't lose the reference to the // contents of the destination block. PRInt32 sourceIndex = aSourceBlockIndex; BlockChange* sourceBlock = nsnull; while ((sourceBlock = mBlockChanges[sourceIndex]) && sourceBlock->IsMove()) { sourceIndex = sourceBlock->mSourceBlockIndex; } if (mBlockChanges[aDestBlockIndex] == nsnull || !mChangeIndexList.Contains(aDestBlockIndex)) { // Only add another entry to the change index list if we don't already // have one for this block. We won't have an entry when either there's // no pending change for this block, or if there is a pending change for // this block and we're in the process of writing it (we've popped the // block's index out of mChangeIndexList in Run() but not finished writing // the block to file yet. mChangeIndexList.PushBack(aDestBlockIndex); } // If the source block hasn't yet been written to file then the dest block // simply contains that same write. Resolve this as a write instead. if (sourceBlock && sourceBlock->IsWrite()) { mBlockChanges[aDestBlockIndex] = new BlockChange(sourceBlock->mData.get()); } else { mBlockChanges[aDestBlockIndex] = new BlockChange(sourceIndex); } EnsureWriteScheduled(); NS_ASSERTION(mChangeIndexList.Contains(aDestBlockIndex), "Should have scheduled block for change"); return NS_OK; } } // End namespace mozilla.