ciderpress/app/Squeeze.cpp

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/*
* CiderPress
* Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved.
* See the file LICENSE for distribution terms.
*/
/*
* Implementation of SQueeze (RLE+Huffman) compression.
*
* This was ripped fairly directly from Squeeze.c in NufxLib. Because
* there's relatively little code, and providing direct access to the
* compression functions already in NuLib is a little unwieldy, I've just
* cut & pasted the necessary pieces here.
*/
#include "stdafx.h"
#include "Squeeze.h"
#include "NufxArchive.h"
#define kSqBufferSize 8192 /* must hold full SQ header, and % 128 */
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#define kNuSQMagic 0xff76 /* magic value for file header */
#define kNuSQRLEDelim 0x90 /* RLE delimiter */
#define kNuSQEOFToken 256 /* distinguished stop symbol */
#define kNuSQNumVals 257 /* 256 symbols + stop */
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/*
* ===========================================================================
* Unsqueeze
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* ===========================================================================
*/
/*
* State during uncompression.
*/
typedef struct USQState {
unsigned long dataInBuffer;
unsigned char* dataPtr;
int bitPosn;
int bits;
/*
* Decoding tree; first "nodeCount" values are populated. Positive
* values are indices to another node in the tree, negative values
* are literals (+1 because "negative zero" doesn't work well).
*/
int nodeCount;
struct {
short child[2]; /* left/right kids, must be signed 16-bit */
} decTree[kNuSQNumVals-1];
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} USQState;
/*
* Decode the next symbol from the Huffman stream.
*/
static NuError USQDecodeHuffSymbol(USQState* pUsqState, int* pVal)
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{
short val = 0;
int bits, bitPosn;
bits = pUsqState->bits; /* local copy */
bitPosn = pUsqState->bitPosn;
do {
if (++bitPosn > 7) {
/* grab the next byte and use that */
bits = *pUsqState->dataPtr++;
bitPosn = 0;
if (!pUsqState->dataInBuffer--)
return kNuErrBufferUnderrun;
val = pUsqState->decTree[val].child[1 & bits];
} else {
/* still got bits; shift right and use it */
val = pUsqState->decTree[val].child[1 & (bits >>= 1)];
}
} while (val >= 0);
/* val is negative literal; add one to make it zero-based then negate it */
*pVal = -(val + 1);
pUsqState->bits = bits;
pUsqState->bitPosn = bitPosn;
return kNuErrNone;
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}
/*
* Read two bytes of signed data out of the buffer.
*/
static inline NuError USQReadShort(USQState* pUsqState, short* pShort)
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{
if (pUsqState->dataInBuffer < 2)
return kNuErrBufferUnderrun;
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*pShort = *pUsqState->dataPtr++;
*pShort |= (*pUsqState->dataPtr++) << 8;
pUsqState->dataInBuffer -= 2;
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return kNuErrNone;
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}
/*
* Wrapper for fread(). Note the arguments resemble read(2) rather
* than fread(3S).
*/
static NuError SQRead(FILE* fp, void* buf, size_t nbyte)
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{
size_t result;
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ASSERT(buf != NULL);
ASSERT(nbyte > 0);
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ASSERT(fp != NULL);
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errno = 0;
result = fread(buf, 1, nbyte, fp);
if (result != nbyte)
return errno ? (NuError)errno : kNuErrFileRead;
return kNuErrNone;
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}
NuError UnSqueeze(FILE* fp, unsigned long realEOF, ExpandBuffer* outExp,
bool fullSqHeader, int blockSize)
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{
/*
* Because we have a stop symbol, knowing the uncompressed length of
* the file is not essential.
*/
NuError err = kNuErrNone;
USQState usqState;
unsigned long compRemaining, getSize;
unsigned short magic, fileChecksum, checksum; // fullSqHeader only
short nodeCount;
int i, inrep;
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unsigned char* tmpBuf = NULL;
unsigned char lastc = 0;
tmpBuf = (unsigned char*) malloc(kSqBufferSize);
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if (tmpBuf == NULL) {
err = kNuErrMalloc;
goto bail;
}
usqState.dataInBuffer = 0;
usqState.dataPtr = tmpBuf;
compRemaining = realEOF;
if ((fullSqHeader && compRemaining < 8) ||
(!fullSqHeader && compRemaining < 3))
{
err = kNuErrBadData;
LOGI("too short to be valid SQ data");
goto bail;
}
/*
* Round up to the nearest 128-byte boundary. We need to read
* everything out of the file in case this is a streaming archive.
* Because the compressed data has an embedded stop symbol, it's okay
* to "overrun" the expansion code.
*/
if (blockSize != 0) {
compRemaining =
((compRemaining + blockSize-1) / blockSize) * blockSize;
}
/* want to grab up to kSqBufferSize bytes */
if (compRemaining > kSqBufferSize)
getSize = kSqBufferSize;
else
getSize = compRemaining;
/*
* Grab a big chunk. "compRemaining" is the amount of compressed
* data left in the file, usqState.dataInBuffer is the amount of
* compressed data left in the buffer.
*
* For BNY, we want to read 128-byte blocks.
*/
if (getSize) {
ASSERT(getSize <= kSqBufferSize);
err = SQRead(fp, usqState.dataPtr, getSize);
if (err != kNuErrNone) {
LOGI("failed reading compressed data (%ld bytes)", getSize);
goto bail;
}
usqState.dataInBuffer += getSize;
if (getSize > compRemaining)
compRemaining = 0;
else
compRemaining -= getSize;
}
/* reset dataPtr */
usqState.dataPtr = tmpBuf;
/*
* Read the header. We assume that the header will fit in the
* compression buffer ( sq allowed 300+ for the filename, plus
* 257*2 for the tree, plus misc).
*/
ASSERT(kSqBufferSize > 1200);
if (fullSqHeader) {
err = USQReadShort(&usqState, (short*)&magic);
if (err != kNuErrNone)
goto bail;
if (magic != kNuSQMagic) {
err = kNuErrBadData;
LOGI("bad magic number in SQ block");
goto bail;
}
err = USQReadShort(&usqState, (short*)&fileChecksum);
if (err != kNuErrNone)
goto bail;
checksum = 0;
/* skip over the filename */
while (*usqState.dataPtr++ != '\0')
usqState.dataInBuffer--;
usqState.dataInBuffer--;
}
err = USQReadShort(&usqState, &nodeCount);
if (err != kNuErrNone)
goto bail;
if (nodeCount < 0 || nodeCount >= kNuSQNumVals) {
err = kNuErrBadData;
LOGI("invalid decode tree in SQ (%d nodes)", nodeCount);
goto bail;
}
usqState.nodeCount = nodeCount;
/* initialize for possibly empty tree (only happens on an empty file) */
usqState.decTree[0].child[0] = -(kNuSQEOFToken+1);
usqState.decTree[0].child[1] = -(kNuSQEOFToken+1);
/* read the nodes, ignoring "read errors" until we're done */
for (i = 0; i < nodeCount; i++) {
err = USQReadShort(&usqState, &usqState.decTree[i].child[0]);
err = USQReadShort(&usqState, &usqState.decTree[i].child[1]);
}
if (err != kNuErrNone) {
err = kNuErrBadData;
LOGI("SQ data looks truncated at tree");
goto bail;
}
usqState.bitPosn = 99; /* force an immediate read */
/*
* Start pulling data out of the file. We have to Huffman-decode
* the input, and then feed that into an RLE expander.
*
* A completely lopsided (and broken) Huffman tree could require
* 256 tree descents, so we want to try to ensure we have at least 256
* bits in the buffer. Otherwise, we could get a false buffer underrun
* indication back from DecodeHuffSymbol.
*
* The SQ sources actually guarantee that a code will fit entirely
* in 16 bits, but there's no reason not to use the larger value.
*/
inrep = false;
while (1) {
int val;
if (usqState.dataInBuffer < 65 && compRemaining) {
/*
* Less than 256 bits, but there's more in the file.
*
* First thing we do is slide the old data to the start of
* the buffer.
*/
if (usqState.dataInBuffer) {
ASSERT(tmpBuf != usqState.dataPtr);
memmove(tmpBuf, usqState.dataPtr, usqState.dataInBuffer);
}
usqState.dataPtr = tmpBuf;
/*
* Next we read as much as we can.
*/
if (kSqBufferSize - usqState.dataInBuffer < compRemaining)
getSize = kSqBufferSize - usqState.dataInBuffer;
else
getSize = compRemaining;
ASSERT(getSize <= kSqBufferSize);
//LOGI("Reading from offset=%ld (compRem=%ld)",
// ftell(fp), compRemaining);
err = SQRead(fp, usqState.dataPtr + usqState.dataInBuffer,
getSize);
if (err != kNuErrNone) {
LOGI("failed reading compressed data (%ld bytes, err=%d)",
getSize, err);
goto bail;
}
usqState.dataInBuffer += getSize;
if (getSize > compRemaining)
compRemaining = 0;
else
compRemaining -= getSize;
ASSERT(compRemaining < 32767*65536);
ASSERT(usqState.dataInBuffer <= kSqBufferSize);
}
err = USQDecodeHuffSymbol(&usqState, &val);
if (err != kNuErrNone) {
LOGI("failed decoding huff symbol");
goto bail;
}
if (val == kNuSQEOFToken)
break;
/*
* Feed the symbol into the RLE decoder.
*/
if (inrep) {
/*
* Last char was RLE delim, handle this specially. We use
* --val instead of val-- because we already emitted the
* first occurrence of the char (right before the RLE delim).
*/
if (val == 0) {
/* special case -- just an escaped RLE delim */
lastc = kNuSQRLEDelim;
val = 2;
}
while (--val) {
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/*if (pCrc != NULL)
*pCrc = Nu_CalcCRC16(*pCrc, &lastc, 1);*/
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if (outExp != NULL)
outExp->Putc(lastc);
if (fullSqHeader) {
checksum += lastc;
}
}
inrep = false;
} else {
/* last char was ordinary */
if (val == kNuSQRLEDelim) {
/* set a flag and catch the count the next time around */
inrep = true;
} else {
lastc = val;
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/*if (pCrc != NULL)
*pCrc = Nu_CalcCRC16(*pCrc, &lastc, 1);*/
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if (outExp != NULL)
outExp->Putc(lastc);
if (fullSqHeader) {
checksum += lastc;
}
}
}
}
if (inrep) {
err = kNuErrBadData;
LOGI("got stop symbol when run length expected");
goto bail;
}
if (fullSqHeader) {
/* verify the checksum stored in the SQ file */
if (checksum != fileChecksum) {
err = kNuErrBadDataCRC;
LOGI("expected 0x%04x, got 0x%04x (SQ)", fileChecksum, checksum);
goto bail;
} else {
LOGI("--- SQ checksums match (0x%04x)", checksum);
}
}
/*
* Gobble up any unused bytes in the last 128-byte block. There
* shouldn't be more than that left over.
*/
if (compRemaining > kSqBufferSize) {
err = kNuErrBadData;
LOGI("wow: found %ld bytes left over", compRemaining);
goto bail;
}
if (compRemaining) {
LOGI("+++ slurping up last %ld bytes", compRemaining);
err = SQRead(fp, tmpBuf, compRemaining);
if (err != kNuErrNone) {
LOGI("failed reading leftovers");
goto bail;
}
}
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bail:
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//if (outfp != NULL)
// fflush(outfp);
free(tmpBuf);
return err;
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}