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skia / external / github.com / google / brotli / 60b2a7ada57f10144549ff79f27912de74941098 / . / csharp / org / brotli / dec / Decode.cs
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/* Copyright 2015 Google Inc. All Rights Reserved.
Distributed under MIT license.
See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
*/
namespace Org.Brotli.Dec
{
/// <summary>API for Brotli decompression.</summary>
internal sealed class Decode
{
private const int DefaultCodeLength = 8;
private const int CodeLengthRepeatCode = 16;
private const int NumLiteralCodes = 256;
private const int NumInsertAndCopyCodes = 704;
private const int NumBlockLengthCodes = 26;
private const int LiteralContextBits = 6;
private const int DistanceContextBits = 2;
private const int HuffmanTableBits = 8;
private const int HuffmanTableMask = unchecked((int)(0xFF));
private const int CodeLengthCodes = 18;
private static readonly int[] CodeLengthCodeOrder = new int[] { 1, 2, 3, 4, 0, 5, 17, 6, 16, 7, 8, 9, 10, 11, 12, 13, 14, 15 };
private const int NumDistanceShortCodes = 16;
private static readonly int[] DistanceShortCodeIndexOffset = new int[] { 3, 2, 1, 0, 3, 3, 3, 3, 3, 3, 2, 2, 2, 2, 2, 2 };
private static readonly int[] DistanceShortCodeValueOffset = new int[] { 0, 0, 0, 0, -1, 1, -2, 2, -3, 3, -1, 1, -2, 2, -3, 3 };
/// <summary>Static Huffman code for the code length code lengths.</summary>
private static readonly int[] FixedTable = new int[] { unchecked((int)(0x020000)), unchecked((int)(0x020004)), unchecked((int)(0x020003)), unchecked((int)(0x030002)), unchecked((int)(0x020000)), unchecked((int)(0x020004)), unchecked((int)(0x020003
)), unchecked((int)(0x040001)), unchecked((int)(0x020000)), unchecked((int)(0x020004)), unchecked((int)(0x020003)), unchecked((int)(0x030002)), unchecked((int)(0x020000)), unchecked((int)(0x020004)), unchecked((int)(0x020003)), unchecked((int
)(0x040005)) };
/// <summary>Decodes a number in the range [0..255], by reading 1 - 11 bits.</summary>
private static int DecodeVarLenUnsignedByte(Org.Brotli.Dec.BitReader br)
{
if (Org.Brotli.Dec.BitReader.ReadBits(br, 1) != 0)
{
int n = Org.Brotli.Dec.BitReader.ReadBits(br, 3);
if (n == 0)
{
return 1;
}
else
{
return Org.Brotli.Dec.BitReader.ReadBits(br, n) + (1 << n);
}
}
return 0;
}
private static void DecodeMetaBlockLength(Org.Brotli.Dec.BitReader br, Org.Brotli.Dec.State state)
{
state.inputEnd = Org.Brotli.Dec.BitReader.ReadBits(br, 1) == 1;
state.metaBlockLength = 0;
state.isUncompressed = false;
state.isMetadata = false;
if (state.inputEnd && Org.Brotli.Dec.BitReader.ReadBits(br, 1) != 0)
{
return;
}
int sizeNibbles = Org.Brotli.Dec.BitReader.ReadBits(br, 2) + 4;
if (sizeNibbles == 7)
{
state.isMetadata = true;
if (Org.Brotli.Dec.BitReader.ReadBits(br, 1) != 0)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Corrupted reserved bit");
}
int sizeBytes = Org.Brotli.Dec.BitReader.ReadBits(br, 2);
if (sizeBytes == 0)
{
return;
}
for (int i = 0; i < sizeBytes; i++)
{
int bits = Org.Brotli.Dec.BitReader.ReadBits(br, 8);
if (bits == 0 && i + 1 == sizeBytes && sizeBytes > 1)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Exuberant nibble");
}
state.metaBlockLength |= bits << (i * 8);
}
}
else
{
for (int i = 0; i < sizeNibbles; i++)
{
int bits = Org.Brotli.Dec.BitReader.ReadBits(br, 4);
if (bits == 0 && i + 1 == sizeNibbles && sizeNibbles > 4)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Exuberant nibble");
}
state.metaBlockLength |= bits << (i * 4);
}
}
state.metaBlockLength++;
if (!state.inputEnd)
{
state.isUncompressed = Org.Brotli.Dec.BitReader.ReadBits(br, 1) == 1;
}
}
/// <summary>Decodes the next Huffman code from bit-stream.</summary>
private static int ReadSymbol(int[] table, int offset, Org.Brotli.Dec.BitReader br)
{
int val = (int)((long)(((ulong)br.accumulator) >> br.bitOffset));
offset += val & HuffmanTableMask;
int bits = table[offset] >> 16;
int sym = table[offset] & unchecked((int)(0xFFFF));
if (bits <= HuffmanTableBits)
{
br.bitOffset += bits;
return sym;
}
offset += sym;
int mask = (1 << bits) - 1;
offset += (int)(((uint)(val & mask)) >> HuffmanTableBits);
br.bitOffset += ((table[offset] >> 16) + HuffmanTableBits);
return table[offset] & unchecked((int)(0xFFFF));
}
private static int ReadBlockLength(int[] table, int offset, Org.Brotli.Dec.BitReader br)
{
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int code = ReadSymbol(table, offset, br);
int n = Org.Brotli.Dec.Prefix.BlockLengthNBits[code];
return Org.Brotli.Dec.Prefix.BlockLengthOffset[code] + Org.Brotli.Dec.BitReader.ReadBits(br, n);
}
private static int TranslateShortCodes(int code, int[] ringBuffer, int index)
{
if (code < NumDistanceShortCodes)
{
index += DistanceShortCodeIndexOffset[code];
index &= 3;
return ringBuffer[index] + DistanceShortCodeValueOffset[code];
}
return code - NumDistanceShortCodes + 1;
}
private static void MoveToFront(int[] v, int index)
{
int value = v[index];
for (; index > 0; index--)
{
v[index] = v[index - 1];
}
v[0] = value;
}
private static void InverseMoveToFrontTransform(byte[] v, int vLen)
{
int[] mtf = new int[256];
for (int i = 0; i < 256; i++)
{
mtf[i] = i;
}
for (int i = 0; i < vLen; i++)
{
int index = v[i] & unchecked((int)(0xFF));
v[i] = unchecked((byte)mtf[index]);
if (index != 0)
{
MoveToFront(mtf, index);
}
}
}
private static void ReadHuffmanCodeLengths(int[] codeLengthCodeLengths, int numSymbols, int[] codeLengths, Org.Brotli.Dec.BitReader br)
{
int symbol = 0;
int prevCodeLen = DefaultCodeLength;
int repeat = 0;
int repeatCodeLen = 0;
int space = 32768;
int[] table = new int[32];
Org.Brotli.Dec.Huffman.BuildHuffmanTable(table, 0, 5, codeLengthCodeLengths, CodeLengthCodes);
while (symbol < numSymbols && space > 0)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int p = (int)(((long)(((ulong)br.accumulator) >> br.bitOffset))) & 31;
br.bitOffset += table[p] >> 16;
int codeLen = table[p] & unchecked((int)(0xFFFF));
if (codeLen < CodeLengthRepeatCode)
{
repeat = 0;
codeLengths[symbol++] = codeLen;
if (codeLen != 0)
{
prevCodeLen = codeLen;
space -= 32768 >> codeLen;
}
}
else
{
int extraBits = codeLen - 14;
int newLen = 0;
if (codeLen == CodeLengthRepeatCode)
{
newLen = prevCodeLen;
}
if (repeatCodeLen != newLen)
{
repeat = 0;
repeatCodeLen = newLen;
}
int oldRepeat = repeat;
if (repeat > 0)
{
repeat -= 2;
repeat <<= extraBits;
}
repeat += Org.Brotli.Dec.BitReader.ReadBits(br, extraBits) + 3;
int repeatDelta = repeat - oldRepeat;
if (symbol + repeatDelta > numSymbols)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("symbol + repeatDelta > numSymbols");
}
// COV_NF_LINE
for (int i = 0; i < repeatDelta; i++)
{
codeLengths[symbol++] = repeatCodeLen;
}
if (repeatCodeLen != 0)
{
space -= repeatDelta << (15 - repeatCodeLen);
}
}
}
if (space != 0)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Unused space");
}
// COV_NF_LINE
// TODO: Pass max_symbol to Huffman table builder instead?
Org.Brotli.Dec.Utils.FillWithZeroes(codeLengths, symbol, numSymbols - symbol);
}
// TODO: Use specialized versions for smaller tables.
internal static void ReadHuffmanCode(int alphabetSize, int[] table, int offset, Org.Brotli.Dec.BitReader br)
{
bool ok = true;
int simpleCodeOrSkip;
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
// TODO: Avoid allocation.
int[] codeLengths = new int[alphabetSize];
simpleCodeOrSkip = Org.Brotli.Dec.BitReader.ReadBits(br, 2);
if (simpleCodeOrSkip == 1)
{
// Read symbols, codes & code lengths directly.
int maxBitsCounter = alphabetSize - 1;
int maxBits = 0;
int[] symbols = new int[4];
int numSymbols = Org.Brotli.Dec.BitReader.ReadBits(br, 2) + 1;
while (maxBitsCounter != 0)
{
maxBitsCounter >>= 1;
maxBits++;
}
// TODO: uncomment when codeLengths is reused.
// Utils.fillWithZeroes(codeLengths, 0, alphabetSize);
for (int i = 0; i < numSymbols; i++)
{
symbols[i] = Org.Brotli.Dec.BitReader.ReadBits(br, maxBits) % alphabetSize;
codeLengths[symbols[i]] = 2;
}
codeLengths[symbols[0]] = 1;
switch (numSymbols)
{
case 1:
{
break;
}
case 2:
{
ok = symbols[0] != symbols[1];
codeLengths[symbols[1]] = 1;
break;
}
case 3:
{
ok = symbols[0] != symbols[1] && symbols[0] != symbols[2] && symbols[1] != symbols[2];
break;
}
case 4:
default:
{
ok = symbols[0] != symbols[1] && symbols[0] != symbols[2] && symbols[0] != symbols[3] && symbols[1] != symbols[2] && symbols[1] != symbols[3] && symbols[2] != symbols[3];
if (Org.Brotli.Dec.BitReader.ReadBits(br, 1) == 1)
{
codeLengths[symbols[2]] = 3;
codeLengths[symbols[3]] = 3;
}
else
{
codeLengths[symbols[0]] = 2;
}
break;
}
}
}
else
{
// Decode Huffman-coded code lengths.
int[] codeLengthCodeLengths = new int[CodeLengthCodes];
int space = 32;
int numCodes = 0;
for (int i = simpleCodeOrSkip; i < CodeLengthCodes && space > 0; i++)
{
int codeLenIdx = CodeLengthCodeOrder[i];
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int p = (int)((long)(((ulong)br.accumulator) >> br.bitOffset)) & 15;
// TODO: Demultiplex FIXED_TABLE.
br.bitOffset += FixedTable[p] >> 16;
int v = FixedTable[p] & unchecked((int)(0xFFFF));
codeLengthCodeLengths[codeLenIdx] = v;
if (v != 0)
{
space -= (32 >> v);
numCodes++;
}
}
ok = (numCodes == 1 || space == 0);
ReadHuffmanCodeLengths(codeLengthCodeLengths, alphabetSize, codeLengths, br);
}
if (!ok)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Can't readHuffmanCode");
}
// COV_NF_LINE
Org.Brotli.Dec.Huffman.BuildHuffmanTable(table, offset, HuffmanTableBits, codeLengths, alphabetSize);
}
private static int DecodeContextMap(int contextMapSize, byte[] contextMap, Org.Brotli.Dec.BitReader br)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
int numTrees = DecodeVarLenUnsignedByte(br) + 1;
if (numTrees == 1)
{
Org.Brotli.Dec.Utils.FillWithZeroes(contextMap, 0, contextMapSize);
return numTrees;
}
bool useRleForZeros = Org.Brotli.Dec.BitReader.ReadBits(br, 1) == 1;
int maxRunLengthPrefix = 0;
if (useRleForZeros)
{
maxRunLengthPrefix = Org.Brotli.Dec.BitReader.ReadBits(br, 4) + 1;
}
int[] table = new int[Org.Brotli.Dec.Huffman.HuffmanMaxTableSize];
ReadHuffmanCode(numTrees + maxRunLengthPrefix, table, 0, br);
for (int i = 0; i < contextMapSize; )
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int code = ReadSymbol(table, 0, br);
if (code == 0)
{
contextMap[i] = 0;
i++;
}
else if (code <= maxRunLengthPrefix)
{
int reps = (1 << code) + Org.Brotli.Dec.BitReader.ReadBits(br, code);
while (reps != 0)
{
if (i >= contextMapSize)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Corrupted context map");
}
// COV_NF_LINE
contextMap[i] = 0;
i++;
reps--;
}
}
else
{
contextMap[i] = unchecked((byte)(code - maxRunLengthPrefix));
i++;
}
}
if (Org.Brotli.Dec.BitReader.ReadBits(br, 1) == 1)
{
InverseMoveToFrontTransform(contextMap, contextMapSize);
}
return numTrees;
}
private static void DecodeBlockTypeAndLength(Org.Brotli.Dec.State state, int treeType)
{
Org.Brotli.Dec.BitReader br = state.br;
int[] ringBuffers = state.blockTypeRb;
int offset = treeType * 2;
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int blockType = ReadSymbol(state.blockTypeTrees, treeType * Org.Brotli.Dec.Huffman.HuffmanMaxTableSize, br);
state.blockLength[treeType] = ReadBlockLength(state.blockLenTrees, treeType * Org.Brotli.Dec.Huffman.HuffmanMaxTableSize, br);
if (blockType == 1)
{
blockType = ringBuffers[offset + 1] + 1;
}
else if (blockType == 0)
{
blockType = ringBuffers[offset];
}
else
{
blockType -= 2;
}
if (blockType >= state.numBlockTypes[treeType])
{
blockType -= state.numBlockTypes[treeType];
}
ringBuffers[offset] = ringBuffers[offset + 1];
ringBuffers[offset + 1] = blockType;
}
private static void DecodeLiteralBlockSwitch(Org.Brotli.Dec.State state)
{
DecodeBlockTypeAndLength(state, 0);
int literalBlockType = state.blockTypeRb[1];
state.contextMapSlice = literalBlockType << LiteralContextBits;
state.literalTreeIndex = state.contextMap[state.contextMapSlice] & unchecked((int)(0xFF));
state.literalTree = state.hGroup0.trees[state.literalTreeIndex];
int contextMode = state.contextModes[literalBlockType];
state.contextLookupOffset1 = Org.Brotli.Dec.Context.LookupOffsets[contextMode];
state.contextLookupOffset2 = Org.Brotli.Dec.Context.LookupOffsets[contextMode + 1];
}
private static void DecodeCommandBlockSwitch(Org.Brotli.Dec.State state)
{
DecodeBlockTypeAndLength(state, 1);
state.treeCommandOffset = state.hGroup1.trees[state.blockTypeRb[3]];
}
private static void DecodeDistanceBlockSwitch(Org.Brotli.Dec.State state)
{
DecodeBlockTypeAndLength(state, 2);
state.distContextMapSlice = state.blockTypeRb[5] << DistanceContextBits;
}
private static void MaybeReallocateRingBuffer(Org.Brotli.Dec.State state)
{
int newSize = state.maxRingBufferSize;
if ((long)newSize > state.expectedTotalSize)
{
/* TODO: Handle 2GB+ cases more gracefully. */
int minimalNewSize = (int)state.expectedTotalSize + state.customDictionary.Length;
while ((newSize >> 1) > minimalNewSize)
{
newSize >>= 1;
}
if (!state.inputEnd && newSize < 16384 && state.maxRingBufferSize >= 16384)
{
newSize = 16384;
}
}
if (newSize <= state.ringBufferSize)
{
return;
}
int ringBufferSizeWithSlack = newSize + Org.Brotli.Dec.Dictionary.MaxTransformedWordLength;
byte[] newBuffer = new byte[ringBufferSizeWithSlack];
if (state.ringBuffer != null)
{
System.Array.Copy(state.ringBuffer, 0, newBuffer, 0, state.ringBufferSize);
}
else if (state.customDictionary.Length != 0)
{
/* Prepend custom dictionary, if any. */
int length = state.customDictionary.Length;
int offset = 0;
if (length > state.maxBackwardDistance)
{
offset = length - state.maxBackwardDistance;
length = state.maxBackwardDistance;
}
System.Array.Copy(state.customDictionary, offset, newBuffer, 0, length);
state.pos = length;
state.bytesToIgnore = length;
}
state.ringBuffer = newBuffer;
state.ringBufferSize = newSize;
}
/// <summary>Reads next metablock header.</summary>
/// <param name="state">decoding state</param>
private static void ReadMetablockInfo(Org.Brotli.Dec.State state)
{
Org.Brotli.Dec.BitReader br = state.br;
if (state.inputEnd)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.Finished;
state.bytesToWrite = state.pos;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
return;
}
// TODO: Reset? Do we need this?
state.hGroup0.codes = null;
state.hGroup0.trees = null;
state.hGroup1.codes = null;
state.hGroup1.trees = null;
state.hGroup2.codes = null;
state.hGroup2.trees = null;
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
DecodeMetaBlockLength(br, state);
if (state.metaBlockLength == 0 && !state.isMetadata)
{
return;
}
if (state.isUncompressed || state.isMetadata)
{
Org.Brotli.Dec.BitReader.JumpToByteBoundary(br);
state.runningState = state.isMetadata ? Org.Brotli.Dec.RunningState.ReadMetadata : Org.Brotli.Dec.RunningState.CopyUncompressed;
}
else
{
state.runningState = Org.Brotli.Dec.RunningState.CompressedBlockStart;
}
if (state.isMetadata)
{
return;
}
state.expectedTotalSize += state.metaBlockLength;
if (state.ringBufferSize < state.maxRingBufferSize)
{
MaybeReallocateRingBuffer(state);
}
}
private static void ReadMetablockHuffmanCodesAndContextMaps(Org.Brotli.Dec.State state)
{
Org.Brotli.Dec.BitReader br = state.br;
for (int i = 0; i < 3; i++)
{
state.numBlockTypes[i] = DecodeVarLenUnsignedByte(br) + 1;
state.blockLength[i] = 1 << 28;
if (state.numBlockTypes[i] > 1)
{
ReadHuffmanCode(state.numBlockTypes[i] + 2, state.blockTypeTrees, i * Org.Brotli.Dec.Huffman.HuffmanMaxTableSize, br);
ReadHuffmanCode(NumBlockLengthCodes, state.blockLenTrees, i * Org.Brotli.Dec.Huffman.HuffmanMaxTableSize, br);
state.blockLength[i] = ReadBlockLength(state.blockLenTrees, i * Org.Brotli.Dec.Huffman.HuffmanMaxTableSize, br);
}
}
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
state.distancePostfixBits = Org.Brotli.Dec.BitReader.ReadBits(br, 2);
state.numDirectDistanceCodes = NumDistanceShortCodes + (Org.Brotli.Dec.BitReader.ReadBits(br, 4) << state.distancePostfixBits);
state.distancePostfixMask = (1 << state.distancePostfixBits) - 1;
int numDistanceCodes = state.numDirectDistanceCodes + (48 << state.distancePostfixBits);
// TODO: Reuse?
state.contextModes = new byte[state.numBlockTypes[0]];
for (int i = 0; i < state.numBlockTypes[0]; )
{
/* Ensure that less than 256 bits read between readMoreInput. */
int limit = System.Math.Min(i + 96, state.numBlockTypes[0]);
for (; i < limit; ++i)
{
state.contextModes[i] = unchecked((byte)(Org.Brotli.Dec.BitReader.ReadBits(br, 2) << 1));
}
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
}
// TODO: Reuse?
state.contextMap = new byte[state.numBlockTypes[0] << LiteralContextBits];
int numLiteralTrees = DecodeContextMap(state.numBlockTypes[0] << LiteralContextBits, state.contextMap, br);
state.trivialLiteralContext = true;
for (int j = 0; j < state.numBlockTypes[0] << LiteralContextBits; j++)
{
if (state.contextMap[j] != j >> LiteralContextBits)
{
state.trivialLiteralContext = false;
break;
}
}
// TODO: Reuse?
state.distContextMap = new byte[state.numBlockTypes[2] << DistanceContextBits];
int numDistTrees = DecodeContextMap(state.numBlockTypes[2] << DistanceContextBits, state.distContextMap, br);
Org.Brotli.Dec.HuffmanTreeGroup.Init(state.hGroup0, NumLiteralCodes, numLiteralTrees);
Org.Brotli.Dec.HuffmanTreeGroup.Init(state.hGroup1, NumInsertAndCopyCodes, state.numBlockTypes[1]);
Org.Brotli.Dec.HuffmanTreeGroup.Init(state.hGroup2, numDistanceCodes, numDistTrees);
Org.Brotli.Dec.HuffmanTreeGroup.Decode(state.hGroup0, br);
Org.Brotli.Dec.HuffmanTreeGroup.Decode(state.hGroup1, br);
Org.Brotli.Dec.HuffmanTreeGroup.Decode(state.hGroup2, br);
state.contextMapSlice = 0;
state.distContextMapSlice = 0;
state.contextLookupOffset1 = Org.Brotli.Dec.Context.LookupOffsets[state.contextModes[0]];
state.contextLookupOffset2 = Org.Brotli.Dec.Context.LookupOffsets[state.contextModes[0] + 1];
state.literalTreeIndex = 0;
state.literalTree = state.hGroup0.trees[0];
state.treeCommandOffset = state.hGroup1.trees[0];
// TODO: == 0?
state.blockTypeRb[0] = state.blockTypeRb[2] = state.blockTypeRb[4] = 1;
state.blockTypeRb[1] = state.blockTypeRb[3] = state.blockTypeRb[5] = 0;
}
private static void CopyUncompressedData(Org.Brotli.Dec.State state)
{
Org.Brotli.Dec.BitReader br = state.br;
byte[] ringBuffer = state.ringBuffer;
// Could happen if block ends at ring buffer end.
if (state.metaBlockLength <= 0)
{
Org.Brotli.Dec.BitReader.Reload(br);
state.runningState = Org.Brotli.Dec.RunningState.BlockStart;
return;
}
int chunkLength = System.Math.Min(state.ringBufferSize - state.pos, state.metaBlockLength);
Org.Brotli.Dec.BitReader.CopyBytes(br, ringBuffer, state.pos, chunkLength);
state.metaBlockLength -= chunkLength;
state.pos += chunkLength;
if (state.pos == state.ringBufferSize)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.CopyUncompressed;
state.bytesToWrite = state.ringBufferSize;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
return;
}
Org.Brotli.Dec.BitReader.Reload(br);
state.runningState = Org.Brotli.Dec.RunningState.BlockStart;
}
private static bool WriteRingBuffer(Org.Brotli.Dec.State state)
{
/* Ignore custom dictionary bytes. */
if (state.bytesToIgnore != 0)
{
state.bytesWritten += state.bytesToIgnore;
state.bytesToIgnore = 0;
}
int toWrite = System.Math.Min(state.outputLength - state.outputUsed, state.bytesToWrite - state.bytesWritten);
if (toWrite != 0)
{
System.Array.Copy(state.ringBuffer, state.bytesWritten, state.output, state.outputOffset + state.outputUsed, toWrite);
state.outputUsed += toWrite;
state.bytesWritten += toWrite;
}
return state.outputUsed < state.outputLength;
}
internal static void SetCustomDictionary(Org.Brotli.Dec.State state, byte[] data)
{
state.customDictionary = (data == null) ? new byte[0] : data;
}
/// <summary>Actual decompress implementation.</summary>
internal static void Decompress(Org.Brotli.Dec.State state)
{
if (state.runningState == Org.Brotli.Dec.RunningState.Uninitialized)
{
throw new System.InvalidOperationException("Can't decompress until initialized");
}
if (state.runningState == Org.Brotli.Dec.RunningState.Closed)
{
throw new System.InvalidOperationException("Can't decompress after close");
}
Org.Brotli.Dec.BitReader br = state.br;
int ringBufferMask = state.ringBufferSize - 1;
byte[] ringBuffer = state.ringBuffer;
while (state.runningState != Org.Brotli.Dec.RunningState.Finished)
{
switch (state.runningState)
{
case Org.Brotli.Dec.RunningState.BlockStart:
{
// TODO: extract cases to methods for the better readability.
if (state.metaBlockLength < 0)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Invalid metablock length");
}
ReadMetablockInfo(state);
/* Ring-buffer would be reallocated here. */
ringBufferMask = state.ringBufferSize - 1;
ringBuffer = state.ringBuffer;
continue;
}
case Org.Brotli.Dec.RunningState.CompressedBlockStart:
{
ReadMetablockHuffmanCodesAndContextMaps(state);
state.runningState = Org.Brotli.Dec.RunningState.MainLoop;
goto case Org.Brotli.Dec.RunningState.MainLoop;
}
case Org.Brotli.Dec.RunningState.MainLoop:
{
// Fall through
if (state.metaBlockLength <= 0)
{
state.runningState = Org.Brotli.Dec.RunningState.BlockStart;
continue;
}
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
if (state.blockLength[1] == 0)
{
DecodeCommandBlockSwitch(state);
}
state.blockLength[1]--;
Org.Brotli.Dec.BitReader.FillBitWindow(br);
int cmdCode = ReadSymbol(state.hGroup1.codes, state.treeCommandOffset, br);
int rangeIdx = (int)(((uint)cmdCode) >> 6);
state.distanceCode = 0;
if (rangeIdx >= 2)
{
rangeIdx -= 2;
state.distanceCode = -1;
}
int insertCode = Org.Brotli.Dec.Prefix.InsertRangeLut[rangeIdx] + (((int)(((uint)cmdCode) >> 3)) & 7);
int copyCode = Org.Brotli.Dec.Prefix.CopyRangeLut[rangeIdx] + (cmdCode & 7);
state.insertLength = Org.Brotli.Dec.Prefix.InsertLengthOffset[insertCode] + Org.Brotli.Dec.BitReader.ReadBits(br, Org.Brotli.Dec.Prefix.InsertLengthNBits[insertCode]);
state.copyLength = Org.Brotli.Dec.Prefix.CopyLengthOffset[copyCode] + Org.Brotli.Dec.BitReader.ReadBits(br, Org.Brotli.Dec.Prefix.CopyLengthNBits[copyCode]);
state.j = 0;
state.runningState = Org.Brotli.Dec.RunningState.InsertLoop;
goto case Org.Brotli.Dec.RunningState.InsertLoop;
}
case Org.Brotli.Dec.RunningState.InsertLoop:
{
// Fall through
if (state.trivialLiteralContext)
{
while (state.j < state.insertLength)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
if (state.blockLength[0] == 0)
{
DecodeLiteralBlockSwitch(state);
}
state.blockLength[0]--;
Org.Brotli.Dec.BitReader.FillBitWindow(br);
ringBuffer[state.pos] = unchecked((byte)ReadSymbol(state.hGroup0.codes, state.literalTree, br));
state.j++;
if (state.pos++ == ringBufferMask)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.InsertLoop;
state.bytesToWrite = state.ringBufferSize;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
break;
}
}
}
else
{
int prevByte1 = ringBuffer[(state.pos - 1) & ringBufferMask] & unchecked((int)(0xFF));
int prevByte2 = ringBuffer[(state.pos - 2) & ringBufferMask] & unchecked((int)(0xFF));
while (state.j < state.insertLength)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
if (state.blockLength[0] == 0)
{
DecodeLiteralBlockSwitch(state);
}
int literalTreeIndex = state.contextMap[state.contextMapSlice + (Org.Brotli.Dec.Context.Lookup[state.contextLookupOffset1 + prevByte1] | Org.Brotli.Dec.Context.Lookup[state.contextLookupOffset2 + prevByte2])] & unchecked((int)(0xFF));
state.blockLength[0]--;
prevByte2 = prevByte1;
Org.Brotli.Dec.BitReader.FillBitWindow(br);
prevByte1 = ReadSymbol(state.hGroup0.codes, state.hGroup0.trees[literalTreeIndex], br);
ringBuffer[state.pos] = unchecked((byte)prevByte1);
state.j++;
if (state.pos++ == ringBufferMask)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.InsertLoop;
state.bytesToWrite = state.ringBufferSize;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
break;
}
}
}
if (state.runningState != Org.Brotli.Dec.RunningState.InsertLoop)
{
continue;
}
state.metaBlockLength -= state.insertLength;
if (state.metaBlockLength <= 0)
{
state.runningState = Org.Brotli.Dec.RunningState.MainLoop;
continue;
}
if (state.distanceCode < 0)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
if (state.blockLength[2] == 0)
{
DecodeDistanceBlockSwitch(state);
}
state.blockLength[2]--;
Org.Brotli.Dec.BitReader.FillBitWindow(br);
state.distanceCode = ReadSymbol(state.hGroup2.codes, state.hGroup2.trees[state.distContextMap[state.distContextMapSlice + (state.copyLength > 4 ? 3 : state.copyLength - 2)] & unchecked((int)(0xFF))], br);
if (state.distanceCode >= state.numDirectDistanceCodes)
{
state.distanceCode -= state.numDirectDistanceCodes;
int postfix = state.distanceCode & state.distancePostfixMask;
state.distanceCode = (int)(((uint)state.distanceCode) >> state.distancePostfixBits);
int n = ((int)(((uint)state.distanceCode) >> 1)) + 1;
int offset = ((2 + (state.distanceCode & 1)) << n) - 4;
state.distanceCode = state.numDirectDistanceCodes + postfix + ((offset + Org.Brotli.Dec.BitReader.ReadBits(br, n)) << state.distancePostfixBits);
}
}
// Convert the distance code to the actual distance by possibly looking up past distances
// from the ringBuffer.
state.distance = TranslateShortCodes(state.distanceCode, state.distRb, state.distRbIdx);
if (state.distance < 0)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Negative distance");
}
// COV_NF_LINE
if (state.maxDistance != state.maxBackwardDistance && state.pos < state.maxBackwardDistance)
{
state.maxDistance = state.pos;
}
else
{
state.maxDistance = state.maxBackwardDistance;
}
state.copyDst = state.pos;
if (state.distance > state.maxDistance)
{
state.runningState = Org.Brotli.Dec.RunningState.Transform;
continue;
}
if (state.distanceCode > 0)
{
state.distRb[state.distRbIdx & 3] = state.distance;
state.distRbIdx++;
}
if (state.copyLength > state.metaBlockLength)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Invalid backward reference");
}
// COV_NF_LINE
state.j = 0;
state.runningState = Org.Brotli.Dec.RunningState.CopyLoop;
goto case Org.Brotli.Dec.RunningState.CopyLoop;
}
case Org.Brotli.Dec.RunningState.CopyLoop:
{
// fall through
int src = (state.pos - state.distance) & ringBufferMask;
int dst = state.pos;
int copyLength = state.copyLength - state.j;
if ((src + copyLength < ringBufferMask) && (dst + copyLength < ringBufferMask))
{
for (int k = 0; k < copyLength; ++k)
{
ringBuffer[dst++] = ringBuffer[src++];
}
state.j += copyLength;
state.metaBlockLength -= copyLength;
state.pos += copyLength;
}
else
{
for (; state.j < state.copyLength; )
{
ringBuffer[state.pos] = ringBuffer[(state.pos - state.distance) & ringBufferMask];
state.metaBlockLength--;
state.j++;
if (state.pos++ == ringBufferMask)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.CopyLoop;
state.bytesToWrite = state.ringBufferSize;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
break;
}
}
}
if (state.runningState == Org.Brotli.Dec.RunningState.CopyLoop)
{
state.runningState = Org.Brotli.Dec.RunningState.MainLoop;
}
continue;
}
case Org.Brotli.Dec.RunningState.Transform:
{
if (state.copyLength >= Org.Brotli.Dec.Dictionary.MinWordLength && state.copyLength <= Org.Brotli.Dec.Dictionary.MaxWordLength)
{
int offset = Org.Brotli.Dec.Dictionary.OffsetsByLength[state.copyLength];
int wordId = state.distance - state.maxDistance - 1;
int shift = Org.Brotli.Dec.Dictionary.SizeBitsByLength[state.copyLength];
int mask = (1 << shift) - 1;
int wordIdx = wordId & mask;
int transformIdx = (int)(((uint)wordId) >> shift);
offset += wordIdx * state.copyLength;
if (transformIdx < Org.Brotli.Dec.Transform.Transforms.Length)
{
int len = Org.Brotli.Dec.Transform.TransformDictionaryWord(ringBuffer, state.copyDst, Org.Brotli.Dec.Dictionary.GetData(), offset, state.copyLength, Org.Brotli.Dec.Transform.Transforms[transformIdx]);
state.copyDst += len;
state.pos += len;
state.metaBlockLength -= len;
if (state.copyDst >= state.ringBufferSize)
{
state.nextRunningState = Org.Brotli.Dec.RunningState.CopyWrapBuffer;
state.bytesToWrite = state.ringBufferSize;
state.bytesWritten = 0;
state.runningState = Org.Brotli.Dec.RunningState.Write;
continue;
}
}
else
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Invalid backward reference");
}
}
else
{
// COV_NF_LINE
throw new Org.Brotli.Dec.BrotliRuntimeException("Invalid backward reference");
}
// COV_NF_LINE
state.runningState = Org.Brotli.Dec.RunningState.MainLoop;
continue;
}
case Org.Brotli.Dec.RunningState.CopyWrapBuffer:
{
System.Array.Copy(ringBuffer, state.ringBufferSize, ringBuffer, 0, state.copyDst - state.ringBufferSize);
state.runningState = Org.Brotli.Dec.RunningState.MainLoop;
continue;
}
case Org.Brotli.Dec.RunningState.ReadMetadata:
{
while (state.metaBlockLength > 0)
{
Org.Brotli.Dec.BitReader.ReadMoreInput(br);
// Optimize
Org.Brotli.Dec.BitReader.ReadBits(br, 8);
state.metaBlockLength--;
}
state.runningState = Org.Brotli.Dec.RunningState.BlockStart;
continue;
}
case Org.Brotli.Dec.RunningState.CopyUncompressed:
{
CopyUncompressedData(state);
continue;
}
case Org.Brotli.Dec.RunningState.Write:
{
if (!WriteRingBuffer(state))
{
// Output buffer is full.
return;
}
if (state.pos >= state.maxBackwardDistance)
{
state.maxDistance = state.maxBackwardDistance;
}
state.pos &= ringBufferMask;
state.runningState = state.nextRunningState;
continue;
}
default:
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Unexpected state " + state.runningState);
}
}
}
if (state.runningState == Org.Brotli.Dec.RunningState.Finished)
{
if (state.metaBlockLength < 0)
{
throw new Org.Brotli.Dec.BrotliRuntimeException("Invalid metablock length");
}
Org.Brotli.Dec.BitReader.JumpToByteBoundary(br);
Org.Brotli.Dec.BitReader.CheckHealth(state.br, true);
}
}
}
}