fix: stop using "magic" numbers in string operations for the copyannofile2log feature
fix: When using the copylogfromannofile workaround, extract the build ID and build duration and add to the log as these are useful for analysis. The log should now be identical to the stdout file.
fix: Remove extra blank lines from output in copylogfromannofile mode.
/*
* Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#include "byte_pair.h"
#define __BREAKPOINT()
#undef ASSERT
#define ASSERT(c) if(!(c)) \
{ \
__BREAKPOINT() \
}
#include <ctime>
clock_t ClockCompress = 0;
//#define DEBUG_ASSERT
#ifdef DEBUG_ASSERT
void myassert(int c) {
if (!(c)) {
cout <<"myassertion failed" << endl;
}
}
#endif
void CBytePair::Initialize(TUint8* data, TInt size)
{
TUint32 *p;
p = (TUint32*)PairCount;
while(p < (TUint32*)PairCount+0x10000) {
*p = 0xffff0000;
p ++;
}
p = (TUint32*)PairBuffer;
while (p < (TUint32*)PairBuffer + sizeof(PairBuffer) / 4) {
*p = 0xffffffff;
p++;
}
PairBufferNext = 0;
p = (TUint32*)PairPos;
while (p < (TUint32*)PairPos + sizeof(PairPos) /4 ) {
*p = 0xffffffff;
p ++;
}
PairPosNext = 0;
p = (TUint32*)PairLists;
while (p < (TUint32*)PairLists + sizeof(PairLists) / 4) {
*p = 0xffffffff;
p ++;
}
PairListHigh = 0;
CountBytes(data,size);
marker = -1;
LeastCommonByte(marker);
ByteUsed(marker);
TUint8 *pData, *pMask;
TUint16 pair;
pData=data, pMask=Mask;
if (*pData == marker)
*pMask = ByteMarked;
else if (*(pData+1) == marker)
*pMask = ByteTail;
else {
*pMask = ByteHead;
pair = (TUint16)(*pData | *(pData+1) << 8);
InsertPair(pair, 0);
}
for (pData++, pMask++; pData < data+size-1; pData++, pMask++) {
if (*pData == marker){
*pMask = ByteMarked;
continue;
}
if (*(pData+1) == marker){
*pMask = ByteTail;
continue;
}
if ((*pData == *(pData+1)) && (*pData == *(pData-1))&& (*(pMask-1) == ByteHead)){
*pMask = ByteTail;
continue;
}
*pMask = ByteHead;
pair = (TUint16)(*pData | *(pData+1) << 8);
InsertPair(pair,(TUint16)(pData-data));
}
if (*pData == marker)
*pMask = ByteMarked;
else
*pMask = ByteTail;
}
TInt CBytePair::MostCommonPair(TInt& pair)
{
TUint16 index = PairLists[PairListHigh];
TUint16 tmpindex = index;
TUint16 p = PairBuffer[index].Pair;
TInt tieBreak, bestTieBreak;
bestTieBreak = -ByteCount[p&0xff] - ByteCount[p>>8];
while(PairBuffer[tmpindex].Next != PosEnd) {
tmpindex = PairBuffer[tmpindex].Next;
p = PairBuffer[tmpindex].Pair;
tieBreak = -ByteCount[p&0xff]-ByteCount[p>>8];
if(tieBreak>bestTieBreak)
{
index = tmpindex;
bestTieBreak = tieBreak;
}
}
pair = PairBuffer[index].Pair;
return PairListHigh;
}
TInt CBytePair::LeastCommonByte(TInt& byte)
{
TInt bestCount = 0xffff;
TInt bestByte = -1;
TInt b;
for(b=0; b<0x100; b++)
{
TInt f = ByteCount[b];
if(f<bestCount)
{
bestCount = f;
bestByte = b;
}
}
byte = bestByte;
return bestCount;
}
TInt CBytePair::Compress(TUint8* dst, TUint8* src, TInt size)
{
clock_t ClockStart = clock();
TUint8 tokens[0x100*3];
TInt tokenCount = 0;
TInt overhead;
TUint8 * dst2 = dst + size*2;
memcpy (dst2, src, size);
Initialize (dst2, size);
//DumpList(dst2, size);
for(TInt r=256; r>0; --r)
{
TInt byte;
TInt byteCount = LeastCommonByte(byte);
if (iFastCompress && byteCount) break;
//if(byteCount) break;
TInt pair;
TInt pairCount = MostCommonPair(pair);
TInt saving = pairCount-byteCount;
//cout << "byte: <" << hex << setw(2) << setfill('0') << byte << ">" << byteCount << endl;
//cout << "pair: <" << hex << setw(4) << setfill('0') << pair << ">" << pairCount << endl;
overhead = 3;
if(tokenCount>=32)
overhead = 2;
if(saving<=overhead)
break;
TUint8* d=tokens+3*tokenCount;
++tokenCount;
*d++ = (TUint8)byte;
ByteUsed(byte);
*d++ = (TUint8)pair;
ByteUsed(pair&0xff);
*d++ = (TUint8)(pair>>8);
ByteUsed(pair>>8);
//++GlobalPairs[pair];
//clock_t ClockReplace1 ,ClockReplace2;
TUint16 index = PairCount[pair].Index;
TUint16 count = PairCount[pair].Count;
TUint16 posindex = PairBuffer[index].Pos;
TUint16 headpos, tailpos, tmppos, bytepos;
TUint16 tmppair;
// Remove pairs
while (posindex != PosEnd) {
headpos = PairPos[posindex].Pos;
tailpos = (TUint16)(headpos + 1);
while (Mask[tailpos] == ByteRemoved){
tailpos ++;
myassert(tailpos < MaxBlockSize);
}
GetPairBackward(dst2, headpos, tmppos, tmppair);
if ((tmppos != PosEnd) && (Mask[tmppos] == ByteHead)) {
RemovePair(tmppair, tmppos);
Mask[tmppos] = ByteTail;
}
if (Mask[tailpos] == ByteHead) {
GetPairForward(dst2, tailpos, size, tmppos, tmppair);
myassert(tmppos!=PosEnd);
RemovePair(tmppair, tmppos);
Mask[tmppos] = ByteTail;
}
posindex = PairPos[posindex].Next;
}
if (byteCount) {
bytepos = ByteIndex[byte];
while(bytepos != PosEnd){
if (Mask[bytepos] == ByteRemoved) {
bytepos = BytePos[bytepos];
continue;
}
GetPairBackward(dst2, bytepos, tmppos, tmppair);
if ((tmppos != PosEnd) && (Mask[tmppos] == ByteHead)) {
RemovePair(tmppair, tmppos);
Mask[tmppos] = ByteTail;
}
if (Mask[bytepos] == ByteHead) {
GetPairForward(dst2, bytepos, size, tmppos, tmppair);
myassert(tmppos!=PosEnd);
RemovePair(tmppair, tmppos);
Mask[tmppos] = ByteTail;
}
bytepos = BytePos[bytepos];
}
}
// Update buffer
posindex = PairBuffer[index].Pos;
while (posindex != PosEnd){
headpos = PairPos[posindex].Pos;
tailpos = (TUint16)(headpos + 1);
while (Mask[tailpos] == ByteRemoved){
tailpos ++;
myassert(tailpos < MaxBlockSize);
}
dst2[headpos] = (TUint8)byte;
dst2[tailpos] = 0xff;
Mask[headpos] = ByteNew;
Mask[tailpos] = ByteRemoved;
posindex = PairPos[posindex].Next;
}
if (byteCount) {
bytepos = ByteIndex[byte];
while(bytepos != PosEnd) {
Mask[bytepos] = ByteMarked;
bytepos = BytePos[bytepos];
}
}
// Insert new pairs
posindex = PairBuffer[index].Pos;
TUint16 firstpos, lastpos;
while (posindex != PosEnd){
firstpos = PairPos[posindex].Pos;
lastpos = firstpos;
if (Mask[firstpos] == ByteNew) {
while ((firstpos > 0) && ((Mask[firstpos] == ByteNew) || (Mask[firstpos] == ByteRemoved)))
firstpos --;
while (Mask[firstpos] != ByteNew)
firstpos ++;
while ((lastpos < MaxBlockSize-1) && ((Mask[lastpos] == ByteNew)||(Mask[lastpos] == ByteRemoved)))
lastpos ++;
while (Mask[lastpos] != ByteNew)
lastpos --;
GetPairForward(dst2, lastpos, size, tmppos, tmppair);
if (tmppos != PosEnd) {
Mask[lastpos] = ByteHead;
InsertPair(tmppair, tmppos);
}else {
Mask[lastpos] = ByteTail;
}
GetPairBackward(dst2, firstpos, tmppos, tmppair);
if (tmppos != PosEnd) {
Mask[tmppos] = ByteHead;
InsertPair(tmppair, tmppos);
}
while (firstpos < lastpos) {
tmppair = (TUint16)(dst2[firstpos] | dst2[firstpos]<<8);
InsertPair(tmppair, firstpos);
Mask[firstpos] = ByteHead;
tmppos = (TUint16)(firstpos + 1);
while (Mask[tmppos] == ByteRemoved)
tmppos ++;
myassert(tmppos <= lastpos);
if (tmppos == lastpos)
break;
Mask[tmppos] = ByteTail;
firstpos = (TUint16)(tmppos + 1);
while ((firstpos < lastpos) && (Mask[firstpos] == ByteRemoved))
firstpos ++;
}
}
posindex = PairPos[posindex].Next;
}
// Remove the pair from PairLists
if (PairBuffer[index].Prev == PosHead){
if (PairBuffer[index].Next == PosEnd) {
PairLists[count] = PosEnd;
} else {
PairLists[count] = PairBuffer[index].Next;
PairBuffer[PairBuffer[index].Next].Prev = PosHead;
}
} else {
if (PairBuffer[index].Next == PosEnd){
PairBuffer[PairBuffer[index].Prev].Next = PosEnd;
} else {
PairBuffer[PairBuffer[index].Prev].Next = PairBuffer[index].Next;
PairBuffer[PairBuffer[index].Next].Prev = PairBuffer[index].Prev;
}
}
while (PairLists[PairListHigh] == PosEnd)
PairListHigh --;
myassert(PairListHigh >= 1);
PairBuffer[index].Next = PosEnd;
PairBuffer[index].Prev = PosEnd;
PairCount[pair].Count = 0;
PairCount[pair].Index = PosEnd;
//cout << "Pair: <" << pair << "> completed" << endl;
//DumpList(dst2,size);
//for (int i=0;i<100;i++)
// cout << " ";
//cout << endl;
}
// sort tokens with a bubble sort...
for(TInt x=0; x<tokenCount-1; x++)
for(TInt y=x+1; y<tokenCount; y++)
if(tokens[x*3]>tokens[y*3])
{
TInt z = tokens[x*3];
tokens[x*3] = tokens[y*3];
tokens[y*3] = (TUint8)z;
z = tokens[x*3+1];
tokens[x*3+1] = tokens[y*3+1];
tokens[y*3+1] = (TUint8)z;
z = tokens[x*3+2];
tokens[x*3+2] = tokens[y*3+2];
tokens[y*3+2] = (TUint8)z;
}
TUint8* originalDst = dst;
*dst++ = (TUint8)tokenCount;
TInt tmpTokenCount = tokenCount;
if(tokenCount)
{
*dst++ = (TUint8)marker;
if(tokenCount<32)
{
memcpy(dst,tokens,tokenCount*3);
dst += tokenCount*3;
}
else
{
TUint8* bitMask = dst;
memset(bitMask,0,32);
dst += 32;
TUint8* d=tokens;
do
{
TInt t=*d++;
bitMask[t>>3] |= (1<<(t&7));
*dst++ = *d++;
*dst++ = *d++;
}
while(--tokenCount);
}
}
if (tmpTokenCount == 0) {
memcpy(dst,dst2,size);
dst += size;
} else {
TUint16 pos = 0;
for (TUint8 *p=dst2; p < dst2+size; p++, pos++) {
if (Mask[pos] == ByteRemoved)
continue;
if (Mask[pos]== ByteMarked){
*dst++ = (TUint8)marker;
}
*dst++ = *p;
}
}
ClockCompress += clock() - ClockStart;
return (dst-originalDst);
}
TInt CBytePair::Decompress(TUint8* dst, TInt dstSize, TUint8* src, TInt srcSize, TUint8*& srcNext)
{
TUint8* dstStart = dst;
TUint8* dstEnd = dst+dstSize;
TUint8* srcEnd = src+srcSize;
TUint32 LUT[0x100/2];
TUint8* LUT0 = (TUint8*)LUT;
TUint8* LUT1 = LUT0+0x100;
TUint8 stack[0x100];
TUint8* stackStart = stack+sizeof(stack);
TUint8* sp = stackStart;
TUint32 marker = ~0u;
TInt numTokens;
TUint32 p1;
TUint32 p2;
TUint32* l = (TUint32*)LUT;
TUint32 b = 0x03020100;
TUint32 step = 0x04040404;
do
{
*l++ = b;
b += step;
}
while(b>step);
if(src>=srcEnd)
goto error;
numTokens = *src++;
if(numTokens)
{
if(src>=srcEnd)
goto error;
marker = *src++;
LUT0[marker] = (TUint8)~marker;
if(numTokens<32)
{
TUint8* tokenEnd = src+3*numTokens;
if(tokenEnd>srcEnd)
goto error;
do
{
TInt b = *src++;
TInt p1 = *src++;
TInt p2 = *src++;
LUT0[b] = (TUint8)p1;
LUT1[b] = (TUint8)p2;
}
while(src<tokenEnd);
}
else
{
TUint8* bitMask = src;
src += 32;
if(src>srcEnd)
goto error;
TInt b=0;
do
{
TUint8 mask = bitMask[b>>3];
if(mask&(1<<(b&7)))
{
if(src>srcEnd)
goto error;
TInt p1 = *src++;
if(src>srcEnd)
goto error;
TInt p2 = *src++;
LUT0[b] = (TUint8)p1;
LUT1[b] = (TUint8)p2;
--numTokens;
}
++b;
}
while(b<0x100);
if(numTokens)
goto error;
}
}
if(src>=srcEnd)
goto error;
b = *src++;
if(dst>=dstEnd)
goto error;
p1 = LUT0[b];
if(p1!=b)
goto not_single;
next:
if(src>=srcEnd)
goto done_s;
b = *src++;
*dst++ = (TUint8)p1;
if(dst>=dstEnd)
goto done_d;
p1 = LUT0[b];
if(p1==b)
goto next;
not_single:
if(b==marker)
goto do_marker;
do_pair:
p2 = LUT1[b];
b = p1;
p1 = LUT0[b];
if(sp<=stack)
goto error;
*--sp = (TUint8)p2;
recurse:
if(b!=p1)
goto do_pair;
if(sp==stackStart)
goto next;
b = *sp++;
if(dst>=dstEnd)
goto error;
*dst++ = (TUint8)p1;
p1 = LUT0[b];
goto recurse;
do_marker:
if(src>=srcEnd)
goto error;
p1 = *src++;
goto next;
error:
srcNext = 0;
return KErrCorrupt;
done_s:
*dst++ = (TUint8)p1;
srcNext = src;
return dst-dstStart;
done_d:
if(dst>=dstEnd)
--src;
srcNext = src;
return dst-dstStart;
}
TInt BytePairCompress(TUint8* dst, TUint8* src, TInt size, CBytePair *aBPE)
{
TUint8 PakBuffer[MaxBlockSize*4];
TUint8 UnpakBuffer[MaxBlockSize];
ASSERT(size<=MaxBlockSize);
TInt compressedSize = aBPE->Compress(PakBuffer,src,size);
TUint8* pakEnd;
TInt us = aBPE->Decompress(UnpakBuffer,MaxBlockSize,PakBuffer,compressedSize,pakEnd);
ASSERT(us==size)
ASSERT(pakEnd==PakBuffer+compressedSize)
ASSERT(!memcmp(src,UnpakBuffer,size))
if(compressedSize>=size)
return KErrTooBig;
memcpy(dst,PakBuffer,compressedSize);
return compressedSize;
}