package org.jboss.shrinkwrap.impl.base.io.tar.bzip;
import java.io.IOException;
import java.io.InputStream;
public class BZip2CompressorInputStream extends InputStream implements BZip2Constants {
private long bytesRead = 0;
protected void count(int read) {
count((long) read);
}
protected void count(long read) {
if(read != -1) {
bytesRead = bytesRead + read;
}
}
@Deprecated
public int getCount() {
return (int) bytesRead;
}
public long getBytesRead() {
return bytesRead;
}
private int last;
private int origPtr;
private int blockSize100k;
private boolean blockRandomised;
private int bsBuff;
private int bsLive;
private final CRC crc = new CRC();
private int nInUse;
private InputStream in;
private final boolean decompressConcatenated;
private int currentChar = -1;
private static final int EOF = 0;
private static final int START_BLOCK_STATE = 1;
private static final int RAND_PART_A_STATE = 2;
private static final int RAND_PART_B_STATE = 3;
private static final int RAND_PART_C_STATE = 4;
private static final int NO_RAND_PART_A_STATE = 5;
private static final int NO_RAND_PART_B_STATE = 6;
private static final int NO_RAND_PART_C_STATE = 7;
private int currentState = START_BLOCK_STATE;
private int storedBlockCRC, storedCombinedCRC;
private int computedBlockCRC, computedCombinedCRC;
private int su_count;
private int su_ch2;
private int su_chPrev;
private int su_i2;
private int su_j2;
private int su_rNToGo;
private int su_rTPos;
private int su_tPos;
private char su_z;
private BZip2CompressorInputStream.Data data;
public BZip2CompressorInputStream(final InputStream in) throws IOException {
this(in, false);
}
public BZip2CompressorInputStream(final InputStream in,
final boolean decompressConcatenated)
throws IOException {
super();
this.in = in;
this.decompressConcatenated = decompressConcatenated;
init(true);
initBlock();
setupBlock();
}
@Override
public int read() throws IOException {
if (this.in != null) {
int r = read0();
count(r < 0 ? -1 : 1);
return r;
} else {
throw new IOException("stream closed");
}
}
@Override
public int read(final byte[] dest, final int offs, final int len)
throws IOException {
if (offs < 0) {
throw new IndexOutOfBoundsException("offs(" + offs + ") < 0.");
}
if (len < 0) {
throw new IndexOutOfBoundsException("len(" + len + ") < 0.");
}
if (offs + len > dest.length) {
throw new IndexOutOfBoundsException("offs(" + offs + ") + len("
+ len + ") > dest.length(" + dest.length + ").");
}
if (this.in == null) {
throw new IOException("stream closed");
}
final int hi = offs + len;
int destOffs = offs;
for (int b; (destOffs < hi) && ((b = read0()) >= 0);) {
dest[destOffs++] = (byte) b;
}
int c = (destOffs == offs) ? -1 : (destOffs - offs);
count(c);
return c;
}
private void makeMaps() {
final boolean[] inUse = this.data.inUse;
final byte[] seqToUnseq = this.data.seqToUnseq;
int nInUseShadow = 0;
for (int i = 0; i < 256; i++) {
if (inUse[i]) {
seqToUnseq[nInUseShadow++] = (byte) i;
}
}
this.nInUse = nInUseShadow;
}
private int read0() throws IOException {
final int retChar = this.currentChar;
switch (this.currentState) {
case EOF:
return -1;
case START_BLOCK_STATE:
throw new IllegalStateException();
case RAND_PART_A_STATE:
throw new IllegalStateException();
case RAND_PART_B_STATE:
setupRandPartB();
break;
case RAND_PART_C_STATE:
setupRandPartC();
break;
case NO_RAND_PART_A_STATE:
throw new IllegalStateException();
case NO_RAND_PART_B_STATE:
setupNoRandPartB();
break;
case NO_RAND_PART_C_STATE:
setupNoRandPartC();
break;
default:
throw new IllegalStateException();
}
return retChar;
}
private boolean init(boolean isFirstStream) throws IOException {
if (null == in) {
throw new IOException("No InputStream");
}
int magic0 = this.in.read();
if (magic0 == -1 && !isFirstStream) {
return false;
}
int magic1 = this.in.read();
int magic2 = this.in.read();
if (magic0 != 'B' || magic1 != 'Z' || magic2 != 'h') {
throw new IOException(isFirstStream
? "Stream is not in the BZip2 format"
: "Garbage after a valid BZip2 stream");
}
int blockSize = this.in.read();
if ((blockSize < '1') || (blockSize > '9')) {
throw new IOException("BZip2 block size is invalid");
}
this.blockSize100k = blockSize - '0';
this.bsLive = 0;
this.computedCombinedCRC = 0;
return true;
}
private void initBlock() throws IOException {
char magic0;
char magic1;
char magic2;
char magic3;
char magic4;
char magic5;
while (true) {
magic0 = bsGetUByte();
magic1 = bsGetUByte();
magic2 = bsGetUByte();
magic3 = bsGetUByte();
magic4 = bsGetUByte();
magic5 = bsGetUByte();
if (magic0 != 0x17 || magic1 != 0x72 || magic2 != 0x45
|| magic3 != 0x38 || magic4 != 0x50 || magic5 != 0x90) {
break;
}
if (complete()) {
return;
}
}
if (magic0 != 0x31 ||
magic1 != 0x41 ||
magic2 != 0x59 ||
magic3 != 0x26 ||
magic4 != 0x53 ||
magic5 != 0x59
) {
this.currentState = EOF;
throw new IOException("bad block header");
} else {
this.storedBlockCRC = bsGetInt();
this.blockRandomised = bsR(1) == 1;
if (this.data == null) {
this.data = new Data(this.blockSize100k);
}
getAndMoveToFrontDecode();
this.crc.initialiseCRC();
this.currentState = START_BLOCK_STATE;
}
}
private void endBlock() throws IOException {
this.computedBlockCRC = this.crc.getFinalCRC();
if (this.storedBlockCRC != this.computedBlockCRC) {
this.computedCombinedCRC = (this.storedCombinedCRC << 1)
| (this.storedCombinedCRC >>> 31);
this.computedCombinedCRC ^= this.storedBlockCRC;
throw new IOException("BZip2 CRC error");
}
this.computedCombinedCRC = (this.computedCombinedCRC << 1)
| (this.computedCombinedCRC >>> 31);
this.computedCombinedCRC ^= this.computedBlockCRC;
}
private boolean complete() throws IOException {
this.storedCombinedCRC = bsGetInt();
this.currentState = EOF;
this.data = null;
if (this.storedCombinedCRC != this.computedCombinedCRC) {
throw new IOException("BZip2 CRC error");
}
return !decompressConcatenated || !init(false);
}
@Override
public void close() throws IOException {
InputStream inShadow = this.in;
if (inShadow != null) {
try {
if (inShadow != System.in) {
inShadow.close();
}
} finally {
this.data = null;
this.in = null;
}
}
}
private int bsR(final int n) throws IOException {
int bsLiveShadow = this.bsLive;
int bsBuffShadow = this.bsBuff;
if (bsLiveShadow < n) {
final InputStream inShadow = this.in;
do {
int thech = inShadow.read();
if (thech < 0) {
throw new IOException("unexpected end of stream");
}
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
} while (bsLiveShadow < n);
this.bsBuff = bsBuffShadow;
}
this.bsLive = bsLiveShadow - n;
return (bsBuffShadow >> (bsLiveShadow - n)) & ((1 << n) - 1);
}
private boolean bsGetBit() throws IOException {
int bsLiveShadow = this.bsLive;
int bsBuffShadow = this.bsBuff;
if (bsLiveShadow < 1) {
int thech = this.in.read();
if (thech < 0) {
throw new IOException("unexpected end of stream");
}
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
this.bsBuff = bsBuffShadow;
}
this.bsLive = bsLiveShadow - 1;
return ((bsBuffShadow >> (bsLiveShadow - 1)) & 1) != 0;
}
private char bsGetUByte() throws IOException {
return (char) bsR(8);
}
private int bsGetInt() throws IOException {
return (((((bsR(8) << 8) | bsR(8)) << 8) | bsR(8)) << 8) | bsR(8);
}
private static void hbCreateDecodeTables(final int[] limit,
final int[] base, final int[] perm, final char[] length,
final int minLen, final int maxLen, final int alphaSize) {
for (int i = minLen, pp = 0; i <= maxLen; i++) {
for (int j = 0; j < alphaSize; j++) {
if (length[j] == i) {
perm[pp++] = j;
}
}
}
for (int i = MAX_CODE_LEN; --i > 0;) {
base[i] = 0;
limit[i] = 0;
}
for (int i = 0; i < alphaSize; i++) {
base[length[i] + 1]++;
}
for (int i = 1, b = base[0]; i < MAX_CODE_LEN; i++) {
b += base[i];
base[i] = b;
}
for (int i = minLen, vec = 0, b = base[i]; i <= maxLen; i++) {
final int nb = base[i + 1];
vec += nb - b;
b = nb;
limit[i] = vec - 1;
vec <<= 1;
}
for (int i = minLen + 1; i <= maxLen; i++) {
base[i] = ((limit[i - 1] + 1) << 1) - base[i];
}
}
private void recvDecodingTables() throws IOException {
final Data dataShadow = this.data;
final boolean[] inUse = dataShadow.inUse;
final byte[] pos = dataShadow.recvDecodingTables_pos;
final byte[] selector = dataShadow.selector;
final byte[] selectorMtf = dataShadow.selectorMtf;
int inUse16 = 0;
for (int i = 0; i < 16; i++) {
if (bsGetBit()) {
inUse16 |= 1 << i;
}
}
for (int i = 256; --i >= 0;) {
inUse[i] = false;
}
for (int i = 0; i < 16; i++) {
if ((inUse16 & (1 << i)) != 0) {
final int i16 = i << 4;
for (int j = 0; j < 16; j++) {
if (bsGetBit()) {
inUse[i16 + j] = true;
}
}
}
}
makeMaps();
final int alphaSize = this.nInUse + 2;
final int nGroups = bsR(3);
final int nSelectors = bsR(15);
for (int i = 0; i < nSelectors; i++) {
int j = 0;
while (bsGetBit()) {
j++;
}
selectorMtf[i] = (byte) j;
}
for (int v = nGroups; --v >= 0;) {
pos[v] = (byte) v;
}
for (int i = 0; i < nSelectors; i++) {
int v = selectorMtf[i] & 0xff;
final byte tmp = pos[v];
while (v > 0) {
pos[v] = pos[v - 1];
v--;
}
pos[0] = tmp;
selector[i] = tmp;
}
final char[][] len = dataShadow.temp_charArray2d;
for (int t = 0; t < nGroups; t++) {
int curr = bsR(5);
final char[] len_t = len[t];
for (int i = 0; i < alphaSize; i++) {
while (bsGetBit()) {
curr += bsGetBit() ? -1 : 1;
}
len_t[i] = (char) curr;
}
}
createHuffmanDecodingTables(alphaSize, nGroups);
}
private void createHuffmanDecodingTables(final int alphaSize,
final int nGroups) {
final Data dataShadow = this.data;
final char[][] len = dataShadow.temp_charArray2d;
final int[] minLens = dataShadow.minLens;
final int[][] limit = dataShadow.limit;
final int[][] base = dataShadow.base;
final int[][] perm = dataShadow.perm;
for (int t = 0; t < nGroups; t++) {
int minLen = 32;
int maxLen = 0;
final char[] len_t = len[t];
for (int i = alphaSize; --i >= 0;) {
final char lent = len_t[i];
if (lent > maxLen) {
maxLen = lent;
}
if (lent < minLen) {
minLen = lent;
}
}
hbCreateDecodeTables(limit[t], base[t], perm[t], len[t], minLen,
maxLen, alphaSize);
minLens[t] = minLen;
}
}
private void getAndMoveToFrontDecode() throws IOException {
this.origPtr = bsR(24);
recvDecodingTables();
final InputStream inShadow = this.in;
final Data dataShadow = this.data;
final byte[] ll8 = dataShadow.ll8;
final int[] unzftab = dataShadow.unzftab;
final byte[] selector = dataShadow.selector;
final byte[] seqToUnseq = dataShadow.seqToUnseq;
final char[] yy = dataShadow.getAndMoveToFrontDecode_yy;
final int[] minLens = dataShadow.minLens;
final int[][] limit = dataShadow.limit;
final int[][] base = dataShadow.base;
final int[][] perm = dataShadow.perm;
final int limitLast = this.blockSize100k * 100000;
for (int i = 256; --i >= 0;) {
yy[i] = (char) i;
unzftab[i] = 0;
}
int groupNo = 0;
int groupPos = G_SIZE - 1;
final int eob = this.nInUse + 1;
int nextSym = getAndMoveToFrontDecode0(0);
int bsBuffShadow = this.bsBuff;
int bsLiveShadow = this.bsLive;
int lastShadow = -1;
int zt = selector[groupNo] & 0xff;
int[] base_zt = base[zt];
int[] limit_zt = limit[zt];
int[] perm_zt = perm[zt];
int minLens_zt = minLens[zt];
while (nextSym != eob) {
if ((nextSym == RUNA) || (nextSym == RUNB)) {
int s = -1;
for (int n = 1; true; n <<= 1) {
if (nextSym == RUNA) {
s += n;
} else if (nextSym == RUNB) {
s += n << 1;
} else {
break;
}
if (groupPos == 0) {
groupPos = G_SIZE - 1;
zt = selector[++groupNo] & 0xff;
base_zt = base[zt];
limit_zt = limit[zt];
perm_zt = perm[zt];
minLens_zt = minLens[zt];
} else {
groupPos--;
}
int zn = minLens_zt;
while (bsLiveShadow < zn) {
final int thech = inShadow.read();
if (thech >= 0) {
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
continue;
} else {
throw new IOException("unexpected end of stream");
}
}
int zvec = (bsBuffShadow >> (bsLiveShadow - zn))
& ((1 << zn) - 1);
bsLiveShadow -= zn;
while (zvec > limit_zt[zn]) {
zn++;
while (bsLiveShadow < 1) {
final int thech = inShadow.read();
if (thech >= 0) {
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
continue;
} else {
throw new IOException(
"unexpected end of stream");
}
}
bsLiveShadow--;
zvec = (zvec << 1)
| ((bsBuffShadow >> bsLiveShadow) & 1);
}
nextSym = perm_zt[zvec - base_zt[zn]];
}
final byte ch = seqToUnseq[yy[0]];
unzftab[ch & 0xff] += s + 1;
while (s-- >= 0) {
ll8[++lastShadow] = ch;
}
if (lastShadow >= limitLast) {
throw new IOException("block overrun");
}
} else {
if (++lastShadow >= limitLast) {
throw new IOException("block overrun");
}
final char tmp = yy[nextSym - 1];
unzftab[seqToUnseq[tmp] & 0xff]++;
ll8[lastShadow] = seqToUnseq[tmp];
if (nextSym <= 16) {
for (int j = nextSym - 1; j > 0;) {
yy[j] = yy[--j];
}
} else {
System.arraycopy(yy, 0, yy, 1, nextSym - 1);
}
yy[0] = tmp;
if (groupPos == 0) {
groupPos = G_SIZE - 1;
zt = selector[++groupNo] & 0xff;
base_zt = base[zt];
limit_zt = limit[zt];
perm_zt = perm[zt];
minLens_zt = minLens[zt];
} else {
groupPos--;
}
int zn = minLens_zt;
while (bsLiveShadow < zn) {
final int thech = inShadow.read();
if (thech >= 0) {
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
continue;
} else {
throw new IOException("unexpected end of stream");
}
}
int zvec = (bsBuffShadow >> (bsLiveShadow - zn))
& ((1 << zn) - 1);
bsLiveShadow -= zn;
while (zvec > limit_zt[zn]) {
zn++;
while (bsLiveShadow < 1) {
final int thech = inShadow.read();
if (thech >= 0) {
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
continue;
} else {
throw new IOException("unexpected end of stream");
}
}
bsLiveShadow--;
zvec = (zvec << 1) | ((bsBuffShadow >> bsLiveShadow) & 1);
}
nextSym = perm_zt[zvec - base_zt[zn]];
}
}
this.last = lastShadow;
this.bsLive = bsLiveShadow;
this.bsBuff = bsBuffShadow;
}
private int getAndMoveToFrontDecode0(final int groupNo) throws IOException {
final InputStream inShadow = this.in;
final Data dataShadow = this.data;
final int zt = dataShadow.selector[groupNo] & 0xff;
final int[] limit_zt = dataShadow.limit[zt];
int zn = dataShadow.minLens[zt];
int zvec = bsR(zn);
int bsLiveShadow = this.bsLive;
int bsBuffShadow = this.bsBuff;
while (zvec > limit_zt[zn]) {
zn++;
while (bsLiveShadow < 1) {
final int thech = inShadow.read();
if (thech >= 0) {
bsBuffShadow = (bsBuffShadow << 8) | thech;
bsLiveShadow += 8;
continue;
} else {
throw new IOException("unexpected end of stream");
}
}
bsLiveShadow--;
zvec = (zvec << 1) | ((bsBuffShadow >> bsLiveShadow) & 1);
}
this.bsLive = bsLiveShadow;
this.bsBuff = bsBuffShadow;
return dataShadow.perm[zt][zvec - dataShadow.base[zt][zn]];
}
private void setupBlock() throws IOException {
if (this.data == null) {
return;
}
final int[] cftab = this.data.cftab;
final int[] tt = this.data.initTT(this.last + 1);
final byte[] ll8 = this.data.ll8;
cftab[0] = 0;
System.arraycopy(this.data.unzftab, 0, cftab, 1, 256);
for (int i = 1, c = cftab[0]; i <= 256; i++) {
c += cftab[i];
cftab[i] = c;
}
for (int i = 0, lastShadow = this.last; i <= lastShadow; i++) {
tt[cftab[ll8[i] & 0xff]++] = i;
}
if ((this.origPtr < 0) || (this.origPtr >= tt.length)) {
throw new IOException("stream corrupted");
}
this.su_tPos = tt[this.origPtr];
this.su_count = 0;
this.su_i2 = 0;
this.su_ch2 = 256;
if (this.blockRandomised) {
this.su_rNToGo = 0;
this.su_rTPos = 0;
setupRandPartA();
} else {
setupNoRandPartA();
}
}
private void setupRandPartA() throws IOException {
if (this.su_i2 <= this.last) {
this.su_chPrev = this.su_ch2;
int su_ch2Shadow = this.data.ll8[this.su_tPos] & 0xff;
this.su_tPos = this.data.tt[this.su_tPos];
if (this.su_rNToGo == 0) {
this.su_rNToGo = Rand.rNums(this.su_rTPos) - 1;
if (++this.su_rTPos == 512) {
this.su_rTPos = 0;
}
} else {
this.su_rNToGo--;
}
this.su_ch2 = su_ch2Shadow ^= (this.su_rNToGo == 1) ? 1 : 0;
this.su_i2++;
this.currentChar = su_ch2Shadow;
this.currentState = RAND_PART_B_STATE;
this.crc.updateCRC(su_ch2Shadow);
} else {
endBlock();
initBlock();
setupBlock();
}
}
private void setupNoRandPartA() throws IOException {
if (this.su_i2 <= this.last) {
this.su_chPrev = this.su_ch2;
int su_ch2Shadow = this.data.ll8[this.su_tPos] & 0xff;
this.su_ch2 = su_ch2Shadow;
this.su_tPos = this.data.tt[this.su_tPos];
this.su_i2++;
this.currentChar = su_ch2Shadow;
this.currentState = NO_RAND_PART_B_STATE;
this.crc.updateCRC(su_ch2Shadow);
} else {
this.currentState = NO_RAND_PART_A_STATE;
endBlock();
initBlock();
setupBlock();
}
}
private void setupRandPartB() throws IOException {
if (this.su_ch2 != this.su_chPrev) {
this.currentState = RAND_PART_A_STATE;
this.su_count = 1;
setupRandPartA();
} else if (++this.su_count >= 4) {
this.su_z = (char) (this.data.ll8[this.su_tPos] & 0xff);
this.su_tPos = this.data.tt[this.su_tPos];
if (this.su_rNToGo == 0) {
this.su_rNToGo = Rand.rNums(this.su_rTPos) - 1;
if (++this.su_rTPos == 512) {
this.su_rTPos = 0;
}
} else {
this.su_rNToGo--;
}
this.su_j2 = 0;
this.currentState = RAND_PART_C_STATE;
if (this.su_rNToGo == 1) {
this.su_z ^= 1;
}
setupRandPartC();
} else {
this.currentState = RAND_PART_A_STATE;
setupRandPartA();
}
}
private void setupRandPartC() throws IOException {
if (this.su_j2 < this.su_z) {
this.currentChar = this.su_ch2;
this.crc.updateCRC(this.su_ch2);
this.su_j2++;
} else {
this.currentState = RAND_PART_A_STATE;
this.su_i2++;
this.su_count = 0;
setupRandPartA();
}
}
private void setupNoRandPartB() throws IOException {
if (this.su_ch2 != this.su_chPrev) {
this.su_count = 1;
setupNoRandPartA();
} else if (++this.su_count >= 4) {
this.su_z = (char) (this.data.ll8[this.su_tPos] & 0xff);
this.su_tPos = this.data.tt[this.su_tPos];
this.su_j2 = 0;
setupNoRandPartC();
} else {
setupNoRandPartA();
}
}
private void setupNoRandPartC() throws IOException {
if (this.su_j2 < this.su_z) {
int su_ch2Shadow = this.su_ch2;
this.currentChar = su_ch2Shadow;
this.crc.updateCRC(su_ch2Shadow);
this.su_j2++;
this.currentState = NO_RAND_PART_C_STATE;
} else {
this.su_i2++;
this.su_count = 0;
setupNoRandPartA();
}
}
private static final class Data extends Object {
final boolean[] inUse = new boolean[256];
final byte[] seqToUnseq = new byte[256];
final byte[] selector = new byte[MAX_SELECTORS];
final byte[] selectorMtf = new byte[MAX_SELECTORS];
final int[] unzftab = new int[256];
final int[][] limit = new int[N_GROUPS][MAX_ALPHA_SIZE];
final int[][] base = new int[N_GROUPS][MAX_ALPHA_SIZE];
final int[][] perm = new int[N_GROUPS][MAX_ALPHA_SIZE];
final int[] minLens = new int[N_GROUPS];
final int[] cftab = new int[257];
final char[] getAndMoveToFrontDecode_yy = new char[256];
final char[][] temp_charArray2d = new char[N_GROUPS][MAX_ALPHA_SIZE];
final byte[] recvDecodingTables_pos = new byte[N_GROUPS];
int[] tt;
byte[] ll8;
Data(int blockSize100k) {
super();
this.ll8 = new byte[blockSize100k * BZip2Constants.BASEBLOCKSIZE];
}
int[] initTT(int length) {
int[] ttShadow = this.tt;
if ((ttShadow == null) || (ttShadow.length < length)) {
this.tt = ttShadow = new int[length];
}
return ttShadow;
}
}
public static boolean matches(byte[] signature, int length) {
if (length < 3) {
return false;
}
if (signature[0] != 'B') {
return false;
}
if (signature[1] != 'Z') {
return false;
}
if (signature[2] != 'h') {
return false;
}
return true;
}
}