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3rdPartyLibraries/iTechSharp/srcbc/util/bzip2/CBZip2InputStream.cs
Devin Jankowski c70248a520 Initial Commit
2023-06-21 12:46:23 -04:00

954 lines
30 KiB
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using System;
using System.IO;
/*
* The Apache Software License, Version 1.1
*
* Copyright (c) 2001-2003 The Apache Software Foundation. All rights
* reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
*
* 3. The end-user documentation included with the redistribution, if
* any, must include the following acknowlegement:
* "This product includes software developed by the
* Apache Software Foundation (http://www.apache.org/)."
* Alternately, this acknowlegement may appear in the software itself,
* if and wherever such third-party acknowlegements normally appear.
*
* 4. The names "Ant" and "Apache Software
* Foundation" must not be used to endorse or promote products derived
* from this software without prior written permission. For written
* permission, please contact apache@apache.org.
*
* 5. Products derived from this software may not be called "Apache"
* nor may "Apache" appear in their names without prior written
* permission of the Apache Group.
*
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
* ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
* <http://www.apache.org/>.
*/
/*
* This package is based on the work done by Keiron Liddle, Aftex Software
* <keiron@aftexsw.com> to whom the Ant project is very grateful for his
* great code.
*/
namespace Org.BouncyCastle.Apache.Bzip2
{
/**
* An input stream that decompresses from the BZip2 format (with the file
* header chars) to be read as any other stream.
*
* @author <a href="mailto:keiron@aftexsw.com">Keiron Liddle</a>
*
* <b>NB:</b> note this class has been modified to read the leading BZ from the
* start of the BZIP2 stream to make it compatible with other PGP programs.
*/
public class CBZip2InputStream : Stream
{
private static void Cadvise() {
//System.out.Println("CRC Error");
//throw new CCoruptionError();
}
private static void BadBGLengths() {
Cadvise();
}
private static void BitStreamEOF() {
Cadvise();
}
private static void CompressedStreamEOF() {
Cadvise();
}
private void MakeMaps() {
int i;
nInUse = 0;
for (i = 0; i < 256; i++) {
if (inUse[i]) {
seqToUnseq[nInUse] = (char) i;
unseqToSeq[i] = (char) nInUse;
nInUse++;
}
}
}
/*
index of the last char in the block, so
the block size == last + 1.
*/
private int last;
/*
index in zptr[] of original string after sorting.
*/
private int origPtr;
/*
always: in the range 0 .. 9.
The current block size is 100000 * this number.
*/
private int blockSize100k;
private bool blockRandomised;
private int bsBuff;
private int bsLive;
private CRC mCrc = new CRC();
private bool[] inUse = new bool[256];
private int nInUse;
private char[] seqToUnseq = new char[256];
private char[] unseqToSeq = new char[256];
private char[] selector = new char[BZip2Constants.MAX_SELECTORS];
private char[] selectorMtf = new char[BZip2Constants.MAX_SELECTORS];
private int[] tt;
private char[] ll8;
/*
freq table collected to save a pass over the data
during decompression.
*/
private int[] unzftab = new int[256];
private int[][] limit = InitIntArray(BZip2Constants.N_GROUPS, BZip2Constants.MAX_ALPHA_SIZE);
private int[][] basev = InitIntArray(BZip2Constants.N_GROUPS, BZip2Constants.MAX_ALPHA_SIZE);
private int[][] perm = InitIntArray(BZip2Constants.N_GROUPS, BZip2Constants.MAX_ALPHA_SIZE);
private int[] minLens = new int[BZip2Constants.N_GROUPS];
private Stream bsStream;
private bool streamEnd = false;
private int currentChar = -1;
private const int START_BLOCK_STATE = 1;
private const int RAND_PART_A_STATE = 2;
private const int RAND_PART_B_STATE = 3;
private const int RAND_PART_C_STATE = 4;
private const int NO_RAND_PART_A_STATE = 5;
private const int NO_RAND_PART_B_STATE = 6;
private const int NO_RAND_PART_C_STATE = 7;
private int currentState = START_BLOCK_STATE;
private int storedBlockCRC, storedCombinedCRC;
private int computedBlockCRC, computedCombinedCRC;
int i2, count, chPrev, ch2;
int i, tPos;
int rNToGo = 0;
int rTPos = 0;
int j2;
char z;
public CBZip2InputStream(Stream zStream) {
ll8 = null;
tt = null;
BsSetStream(zStream);
Initialize();
InitBlock();
SetupBlock();
}
internal static int[][] InitIntArray(int n1, int n2) {
int[][] a = new int[n1][];
for (int k = 0; k < n1; ++k) {
a[k] = new int[n2];
}
return a;
}
internal static char[][] InitCharArray(int n1, int n2) {
char[][] a = new char[n1][];
for (int k = 0; k < n1; ++k) {
a[k] = new char[n2];
}
return a;
}
public override int ReadByte() {
if (streamEnd) {
return -1;
} else {
int retChar = currentChar;
switch (currentState) {
case START_BLOCK_STATE:
break;
case RAND_PART_A_STATE:
break;
case RAND_PART_B_STATE:
SetupRandPartB();
break;
case RAND_PART_C_STATE:
SetupRandPartC();
break;
case NO_RAND_PART_A_STATE:
break;
case NO_RAND_PART_B_STATE:
SetupNoRandPartB();
break;
case NO_RAND_PART_C_STATE:
SetupNoRandPartC();
break;
default:
break;
}
return retChar;
}
}
private void Initialize() {
char magic3, magic4;
magic3 = BsGetUChar();
magic4 = BsGetUChar();
if (magic3 != 'B' && magic4 != 'Z')
{
throw new IOException("Not a BZIP2 marked stream");
}
magic3 = BsGetUChar();
magic4 = BsGetUChar();
if (magic3 != 'h' || magic4 < '1' || magic4 > '9') {
BsFinishedWithStream();
streamEnd = true;
return;
}
SetDecompressStructureSizes(magic4 - '0');
computedCombinedCRC = 0;
}
private void InitBlock() {
char magic1, magic2, magic3, magic4;
char magic5, magic6;
magic1 = BsGetUChar();
magic2 = BsGetUChar();
magic3 = BsGetUChar();
magic4 = BsGetUChar();
magic5 = BsGetUChar();
magic6 = BsGetUChar();
if (magic1 == 0x17 && magic2 == 0x72 && magic3 == 0x45
&& magic4 == 0x38 && magic5 == 0x50 && magic6 == 0x90) {
Complete();
return;
}
if (magic1 != 0x31 || magic2 != 0x41 || magic3 != 0x59
|| magic4 != 0x26 || magic5 != 0x53 || magic6 != 0x59) {
BadBlockHeader();
streamEnd = true;
return;
}
storedBlockCRC = BsGetInt32();
if (BsR(1) == 1) {
blockRandomised = true;
} else {
blockRandomised = false;
}
// currBlockNo++;
GetAndMoveToFrontDecode();
mCrc.InitialiseCRC();
currentState = START_BLOCK_STATE;
}
private void EndBlock() {
computedBlockCRC = mCrc.GetFinalCRC();
/* A bad CRC is considered a fatal error. */
if (storedBlockCRC != computedBlockCRC) {
CrcError();
}
computedCombinedCRC = (computedCombinedCRC << 1)
| (int)(((uint)computedCombinedCRC) >> 31);
computedCombinedCRC ^= computedBlockCRC;
}
private void Complete() {
storedCombinedCRC = BsGetInt32();
if (storedCombinedCRC != computedCombinedCRC) {
CrcError();
}
BsFinishedWithStream();
streamEnd = true;
}
private static void BlockOverrun() {
Cadvise();
}
private static void BadBlockHeader() {
Cadvise();
}
private static void CrcError() {
Cadvise();
}
private void BsFinishedWithStream() {
try {
if (this.bsStream != null) {
this.bsStream.Close();
this.bsStream = null;
}
} catch {
//ignore
}
}
private void BsSetStream(Stream f) {
bsStream = f;
bsLive = 0;
bsBuff = 0;
}
private int BsR(int n) {
int v;
while (bsLive < n) {
int zzi;
char thech = '\0';
try {
thech = (char) bsStream.ReadByte();
} catch (IOException) {
CompressedStreamEOF();
}
if (thech == '\uffff') {
CompressedStreamEOF();
}
zzi = thech;
bsBuff = (bsBuff << 8) | (zzi & 0xff);
bsLive += 8;
}
v = (bsBuff >> (bsLive - n)) & ((1 << n) - 1);
bsLive -= n;
return v;
}
private char BsGetUChar() {
return (char) BsR(8);
}
private int BsGetint() {
int u = 0;
u = (u << 8) | BsR(8);
u = (u << 8) | BsR(8);
u = (u << 8) | BsR(8);
u = (u << 8) | BsR(8);
return u;
}
private int BsGetIntVS(int numBits) {
return (int) BsR(numBits);
}
private int BsGetInt32() {
return (int) BsGetint();
}
private void HbCreateDecodeTables(int[] limit, int[] basev,
int[] perm, char[] length,
int minLen, int maxLen, int alphaSize) {
int pp, i, j, vec;
pp = 0;
for (i = minLen; i <= maxLen; i++) {
for (j = 0; j < alphaSize; j++) {
if (length[j] == i) {
perm[pp] = j;
pp++;
}
}
}
for (i = 0; i < BZip2Constants.MAX_CODE_LEN; i++) {
basev[i] = 0;
}
for (i = 0; i < alphaSize; i++) {
basev[length[i] + 1]++;
}
for (i = 1; i < BZip2Constants.MAX_CODE_LEN; i++) {
basev[i] += basev[i - 1];
}
for (i = 0; i < BZip2Constants.MAX_CODE_LEN; i++) {
limit[i] = 0;
}
vec = 0;
for (i = minLen; i <= maxLen; i++) {
vec += (basev[i + 1] - basev[i]);
limit[i] = vec - 1;
vec <<= 1;
}
for (i = minLen + 1; i <= maxLen; i++) {
basev[i] = ((limit[i - 1] + 1) << 1) - basev[i];
}
}
private void RecvDecodingTables() {
char[][] len = InitCharArray(BZip2Constants.N_GROUPS, BZip2Constants.MAX_ALPHA_SIZE);
int i, j, t, nGroups, nSelectors, alphaSize;
int minLen, maxLen;
bool[] inUse16 = new bool[16];
/* Receive the mapping table */
for (i = 0; i < 16; i++) {
if (BsR(1) == 1) {
inUse16[i] = true;
} else {
inUse16[i] = false;
}
}
for (i = 0; i < 256; i++) {
inUse[i] = false;
}
for (i = 0; i < 16; i++) {
if (inUse16[i]) {
for (j = 0; j < 16; j++) {
if (BsR(1) == 1) {
inUse[i * 16 + j] = true;
}
}
}
}
MakeMaps();
alphaSize = nInUse + 2;
/* Now the selectors */
nGroups = BsR(3);
nSelectors = BsR(15);
for (i = 0; i < nSelectors; i++) {
j = 0;
while (BsR(1) == 1) {
j++;
}
selectorMtf[i] = (char) j;
}
/* Undo the MTF values for the selectors. */
{
char[] pos = new char[BZip2Constants.N_GROUPS];
char tmp, v;
for (v = '\0'; v < nGroups; v++) {
pos[v] = v;
}
for (i = 0; i < nSelectors; i++) {
v = selectorMtf[i];
tmp = pos[v];
while (v > 0) {
pos[v] = pos[v - 1];
v--;
}
pos[0] = tmp;
selector[i] = tmp;
}
}
/* Now the coding tables */
for (t = 0; t < nGroups; t++) {
int curr = BsR(5);
for (i = 0; i < alphaSize; i++) {
while (BsR(1) == 1) {
if (BsR(1) == 0) {
curr++;
} else {
curr--;
}
}
len[t][i] = (char) curr;
}
}
/* Create the Huffman decoding tables */
for (t = 0; t < nGroups; t++) {
minLen = 32;
maxLen = 0;
for (i = 0; i < alphaSize; i++) {
if (len[t][i] > maxLen) {
maxLen = len[t][i];
}
if (len[t][i] < minLen) {
minLen = len[t][i];
}
}
HbCreateDecodeTables(limit[t], basev[t], perm[t], len[t], minLen,
maxLen, alphaSize);
minLens[t] = minLen;
}
}
private void GetAndMoveToFrontDecode() {
char[] yy = new char[256];
int i, j, nextSym, limitLast;
int EOB, groupNo, groupPos;
limitLast = BZip2Constants.baseBlockSize * blockSize100k;
origPtr = BsGetIntVS(24);
RecvDecodingTables();
EOB = nInUse + 1;
groupNo = -1;
groupPos = 0;
/*
Setting up the unzftab entries here is not strictly
necessary, but it does save having to do it later
in a separate pass, and so saves a block's worth of
cache misses.
*/
for (i = 0; i <= 255; i++) {
unzftab[i] = 0;
}
for (i = 0; i <= 255; i++) {
yy[i] = (char) i;
}
last = -1;
{
int zt, zn, zvec, zj;
if (groupPos == 0) {
groupNo++;
groupPos = BZip2Constants.G_SIZE;
}
groupPos--;
zt = selector[groupNo];
zn = minLens[zt];
zvec = BsR(zn);
while (zvec > limit[zt][zn]) {
zn++;
{
{
while (bsLive < 1) {
int zzi;
char thech = '\0';
try {
thech = (char) bsStream.ReadByte();
} catch (IOException) {
CompressedStreamEOF();
}
if (thech == '\uffff') {
CompressedStreamEOF();
}
zzi = thech;
bsBuff = (bsBuff << 8) | (zzi & 0xff);
bsLive += 8;
}
}
zj = (bsBuff >> (bsLive - 1)) & 1;
bsLive--;
}
zvec = (zvec << 1) | zj;
}
nextSym = perm[zt][zvec - basev[zt][zn]];
}
while (true) {
if (nextSym == EOB) {
break;
}
if (nextSym == BZip2Constants.RUNA || nextSym == BZip2Constants.RUNB) {
char ch;
int s = -1;
int N = 1;
do {
if (nextSym == BZip2Constants.RUNA) {
s = s + (0 + 1) * N;
} else if (nextSym == BZip2Constants.RUNB) {
s = s + (1 + 1) * N;
}
N = N * 2;
{
int zt, zn, zvec, zj;
if (groupPos == 0) {
groupNo++;
groupPos = BZip2Constants.G_SIZE;
}
groupPos--;
zt = selector[groupNo];
zn = minLens[zt];
zvec = BsR(zn);
while (zvec > limit[zt][zn]) {
zn++;
{
{
while (bsLive < 1) {
int zzi;
char thech = '\0';
try {
thech = (char) bsStream.ReadByte();
} catch (IOException) {
CompressedStreamEOF();
}
if (thech == '\uffff') {
CompressedStreamEOF();
}
zzi = thech;
bsBuff = (bsBuff << 8) | (zzi & 0xff);
bsLive += 8;
}
}
zj = (bsBuff >> (bsLive - 1)) & 1;
bsLive--;
}
zvec = (zvec << 1) | zj;
}
nextSym = perm[zt][zvec - basev[zt][zn]];
}
} while (nextSym == BZip2Constants.RUNA || nextSym == BZip2Constants.RUNB);
s++;
ch = seqToUnseq[yy[0]];
unzftab[ch] += s;
while (s > 0) {
last++;
ll8[last] = ch;
s--;
}
if (last >= limitLast) {
BlockOverrun();
}
continue;
} else {
char tmp;
last++;
if (last >= limitLast) {
BlockOverrun();
}
tmp = yy[nextSym - 1];
unzftab[seqToUnseq[tmp]]++;
ll8[last] = seqToUnseq[tmp];
/*
This loop is hammered during decompression,
hence the unrolling.
for (j = nextSym-1; j > 0; j--) yy[j] = yy[j-1];
*/
j = nextSym - 1;
for (; j > 3; j -= 4) {
yy[j] = yy[j - 1];
yy[j - 1] = yy[j - 2];
yy[j - 2] = yy[j - 3];
yy[j - 3] = yy[j - 4];
}
for (; j > 0; j--) {
yy[j] = yy[j - 1];
}
yy[0] = tmp;
{
int zt, zn, zvec, zj;
if (groupPos == 0) {
groupNo++;
groupPos = BZip2Constants.G_SIZE;
}
groupPos--;
zt = selector[groupNo];
zn = minLens[zt];
zvec = BsR(zn);
while (zvec > limit[zt][zn]) {
zn++;
{
{
while (bsLive < 1) {
int zzi;
char thech = '\0';
try {
thech = (char) bsStream.ReadByte();
} catch (IOException) {
CompressedStreamEOF();
}
zzi = thech;
bsBuff = (bsBuff << 8) | (zzi & 0xff);
bsLive += 8;
}
}
zj = (bsBuff >> (bsLive - 1)) & 1;
bsLive--;
}
zvec = (zvec << 1) | zj;
}
nextSym = perm[zt][zvec - basev[zt][zn]];
}
continue;
}
}
}
private void SetupBlock() {
int[] cftab = new int[257];
char ch;
cftab[0] = 0;
for (i = 1; i <= 256; i++) {
cftab[i] = unzftab[i - 1];
}
for (i = 1; i <= 256; i++) {
cftab[i] += cftab[i - 1];
}
for (i = 0; i <= last; i++) {
ch = (char) ll8[i];
tt[cftab[ch]] = i;
cftab[ch]++;
}
cftab = null;
tPos = tt[origPtr];
count = 0;
i2 = 0;
ch2 = 256; /* not a char and not EOF */
if (blockRandomised) {
rNToGo = 0;
rTPos = 0;
SetupRandPartA();
} else {
SetupNoRandPartA();
}
}
private void SetupRandPartA() {
if (i2 <= last) {
chPrev = ch2;
ch2 = ll8[tPos];
tPos = tt[tPos];
if (rNToGo == 0) {
rNToGo = BZip2Constants.rNums[rTPos];
rTPos++;
if (rTPos == 512) {
rTPos = 0;
}
}
rNToGo--;
ch2 ^= (int) ((rNToGo == 1) ? 1 : 0);
i2++;
currentChar = ch2;
currentState = RAND_PART_B_STATE;
mCrc.UpdateCRC(ch2);
} else {
EndBlock();
InitBlock();
SetupBlock();
}
}
private void SetupNoRandPartA() {
if (i2 <= last) {
chPrev = ch2;
ch2 = ll8[tPos];
tPos = tt[tPos];
i2++;
currentChar = ch2;
currentState = NO_RAND_PART_B_STATE;
mCrc.UpdateCRC(ch2);
} else {
EndBlock();
InitBlock();
SetupBlock();
}
}
private void SetupRandPartB() {
if (ch2 != chPrev) {
currentState = RAND_PART_A_STATE;
count = 1;
SetupRandPartA();
} else {
count++;
if (count >= 4) {
z = ll8[tPos];
tPos = tt[tPos];
if (rNToGo == 0) {
rNToGo = BZip2Constants.rNums[rTPos];
rTPos++;
if (rTPos == 512) {
rTPos = 0;
}
}
rNToGo--;
z ^= (char)((rNToGo == 1) ? 1 : 0);
j2 = 0;
currentState = RAND_PART_C_STATE;
SetupRandPartC();
} else {
currentState = RAND_PART_A_STATE;
SetupRandPartA();
}
}
}
private void SetupRandPartC() {
if (j2 < (int) z) {
currentChar = ch2;
mCrc.UpdateCRC(ch2);
j2++;
} else {
currentState = RAND_PART_A_STATE;
i2++;
count = 0;
SetupRandPartA();
}
}
private void SetupNoRandPartB() {
if (ch2 != chPrev) {
currentState = NO_RAND_PART_A_STATE;
count = 1;
SetupNoRandPartA();
} else {
count++;
if (count >= 4) {
z = ll8[tPos];
tPos = tt[tPos];
currentState = NO_RAND_PART_C_STATE;
j2 = 0;
SetupNoRandPartC();
} else {
currentState = NO_RAND_PART_A_STATE;
SetupNoRandPartA();
}
}
}
private void SetupNoRandPartC() {
if (j2 < (int) z) {
currentChar = ch2;
mCrc.UpdateCRC(ch2);
j2++;
} else {
currentState = NO_RAND_PART_A_STATE;
i2++;
count = 0;
SetupNoRandPartA();
}
}
private void SetDecompressStructureSizes(int newSize100k) {
if (!(0 <= newSize100k && newSize100k <= 9 && 0 <= blockSize100k
&& blockSize100k <= 9)) {
// throw new IOException("Invalid block size");
}
blockSize100k = newSize100k;
if (newSize100k == 0) {
return;
}
int n = BZip2Constants.baseBlockSize * newSize100k;
ll8 = new char[n];
tt = new int[n];
}
public override void Flush() {
}
public override int Read(byte[] buffer, int offset, int count) {
int c = -1;
int k;
for (k = 0; k < count; ++k) {
c = ReadByte();
if (c == -1)
break;
buffer[k + offset] = (byte)c;
}
return k;
}
public override long Seek(long offset, SeekOrigin origin) {
return 0;
}
public override void SetLength(long value) {
}
public override void Write(byte[] buffer, int offset, int count) {
}
public override bool CanRead {
get {
return true;
}
}
public override bool CanSeek {
get {
return false;
}
}
public override bool CanWrite {
get {
return false;
}
}
public override long Length {
get {
return 0;
}
}
public override long Position {
get {
return 0;
}
set {
}
}
}
}
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