mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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217 lines
7.3 KiB
C++
217 lines
7.3 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
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#if !defined(WebMBufferedParser_h_)
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#define WebMBufferedParser_h_
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#include "nsISupportsImpl.h"
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#include "nsTArray.h"
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#include "mozilla/ReentrantMonitor.h"
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namespace mozilla {
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namespace dom {
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class TimeRanges;
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}
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// Stores a stream byte offset and the scaled timecode of the block at
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// that offset. The timecode must be scaled by the stream's timecode
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// scale before use.
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struct WebMTimeDataOffset
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{
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WebMTimeDataOffset(int64_t aOffset, uint64_t aTimecode)
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: mOffset(aOffset), mTimecode(aTimecode)
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{}
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bool operator==(int64_t aOffset) const {
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return mOffset == aOffset;
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}
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bool operator<(int64_t aOffset) const {
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return mOffset < aOffset;
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}
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int64_t mOffset;
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uint64_t mTimecode;
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};
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// A simple WebM parser that produces data offset to timecode pairs as it
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// consumes blocks. A new parser is created for each distinct range of data
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// received and begins parsing from the first WebM cluster within that
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// range. Old parsers are destroyed when their range merges with a later
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// parser or an already parsed range. The parser may start at any position
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// within the stream.
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struct WebMBufferedParser
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{
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WebMBufferedParser(int64_t aOffset)
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: mStartOffset(aOffset), mCurrentOffset(aOffset), mState(CLUSTER_SYNC), mClusterIDPos(0)
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{}
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// Steps the parser through aLength bytes of data. Always consumes
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// aLength bytes. Updates mCurrentOffset before returning. Acquires
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// aReentrantMonitor before using aMapping.
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void Append(const unsigned char* aBuffer, uint32_t aLength,
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nsTArray<WebMTimeDataOffset>& aMapping,
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ReentrantMonitor& aReentrantMonitor);
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bool operator==(int64_t aOffset) const {
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return mCurrentOffset == aOffset;
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}
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bool operator<(int64_t aOffset) const {
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return mCurrentOffset < aOffset;
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}
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// The offset at which this parser started parsing. Used to merge
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// adjacent parsers, in which case the later parser adopts the earlier
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// parser's mStartOffset.
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int64_t mStartOffset;
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// Current offset with the stream. Updated in chunks as Append() consumes
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// data.
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int64_t mCurrentOffset;
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private:
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enum State {
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// Parser start state. Scans forward searching for stream sync by
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// matching CLUSTER_ID with the curernt byte. The match state is stored
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// in mClusterIDPos. Once this reaches sizeof(CLUSTER_ID), stream may
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// have sync. The parser then advances to read the cluster size and
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// timecode.
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CLUSTER_SYNC,
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/*
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The the parser states below assume that CLUSTER_SYNC has found a valid
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sync point within the data. If parsing fails in these states, the
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parser returns to CLUSTER_SYNC to find a new sync point.
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*/
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// Read the first byte of a variable length integer. The first byte
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// encodes both the variable integer's length and part of the value.
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// The value read so far is stored in mVInt and the length is stored in
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// mVIntLength. The number of bytes left to read is stored in
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// mVIntLeft.
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READ_VINT,
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// Reads the remaining mVIntLeft bytes into mVInt.
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READ_VINT_REST,
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// Check that the next element is TIMECODE_ID. The cluster timecode is
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// required to be the first element in a cluster. Advances to READ_VINT
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// to read the timecode's length into mVInt.
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TIMECODE_SYNC,
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// mVInt holds the length of the variable length unsigned integer
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// containing the cluster timecode. Read mVInt bytes into
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// mClusterTimecode.
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READ_CLUSTER_TIMECODE,
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// Skips elements with a cluster until BLOCKGROUP_ID or SIMPLEBLOCK_ID
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// is found. If BLOCKGROUP_ID is found, the parser returns to
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// ANY_BLOCK_ID searching for a BLOCK_ID. Once a block or simpleblock
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// is found, the current data offset is stored in mBlockOffset. If the
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// current byte is the beginning of a four byte variant integer, it
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// indicates the parser has reached a top-level element ID and the
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// parser returns to CLUSTER_SYNC.
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ANY_BLOCK_SYNC,
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// Start reading a block. Blocks and simpleblocks are parsed the same
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// way as the initial layouts are identical. mBlockSize is initialized
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// from mVInt (holding the element size), and mBlockTimecode(Length) is
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// initialized for parsing.
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READ_BLOCK,
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// Reads mBlockTimecodeLength bytes of data into mBlockTimecode. When
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// mBlockTimecodeLength reaches 0, the timecode has been read. The sum
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// of mClusterTimecode and mBlockTimecode is stored as a pair with
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// mBlockOffset into the offset-to-time map.
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READ_BLOCK_TIMECODE,
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// Skip mSkipBytes of data before resuming parse at mNextState.
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SKIP_DATA,
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// Skip the content of an element. mVInt holds the element length.
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SKIP_ELEMENT
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};
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// Current state machine action.
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State mState;
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// Next state machine action. SKIP_DATA and READ_VINT_REST advance to
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// mNextState when the current action completes.
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State mNextState;
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// Match position within CLUSTER_ID. Used to find sync within arbitrary
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// data.
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uint32_t mClusterIDPos;
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// Variable length integer read from data.
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uint64_t mVInt;
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// Encoding length of mVInt. This is the total number of bytes used to
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// encoding mVInt's value.
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uint32_t mVIntLength;
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// Number of bytes of mVInt left to read. mVInt is complete once this
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// reaches 0.
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uint32_t mVIntLeft;
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// Size of the block currently being parsed. Any unused data within the
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// block is skipped once the block timecode has been parsed.
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uint64_t mBlockSize;
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// Cluster-level timecode.
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uint64_t mClusterTimecode;
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// Start offset of the block currently being parsed. Used as the byte
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// offset for the offset-to-time mapping once the block timecode has been
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// parsed.
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int64_t mBlockOffset;
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// Block-level timecode. This is summed with mClusterTimecode to produce
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// an absolute timecode for the offset-to-time mapping.
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int16_t mBlockTimecode;
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// Number of bytes of mBlockTimecode left to read.
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uint32_t mBlockTimecodeLength;
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// Count of bytes left to skip before resuming parse at mNextState.
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// Mostly used to skip block payload data after reading a block timecode.
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uint32_t mSkipBytes;
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};
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class WebMBufferedState
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{
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NS_INLINE_DECL_REFCOUNTING(WebMBufferedState)
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public:
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WebMBufferedState() : mReentrantMonitor("WebMBufferedState") {
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MOZ_COUNT_CTOR(WebMBufferedState);
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}
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~WebMBufferedState() {
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MOZ_COUNT_DTOR(WebMBufferedState);
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}
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void NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset);
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bool CalculateBufferedForRange(int64_t aStartOffset, int64_t aEndOffset,
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uint64_t* aStartTime, uint64_t* aEndTime);
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private:
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// Synchronizes access to the mTimeMapping array.
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ReentrantMonitor mReentrantMonitor;
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// Sorted (by offset) map of data offsets to timecodes. Populated
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// on the main thread as data is received and parsed by WebMBufferedParsers.
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nsTArray<WebMTimeDataOffset> mTimeMapping;
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// Sorted (by offset) live parser instances. Main thread only.
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nsTArray<WebMBufferedParser> mRangeParsers;
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};
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} // namespace mozilla
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#endif
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