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hashcat/deps/LZMA-SDK/C/Util/Lzma/LzmaUtil.c

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/* LzmaUtil.c -- Test application for LZMA compression
2021-02-15 : Igor Pavlov : Public domain */
#include "../../Precomp.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "../../CpuArch.h"
#include "../../Alloc.h"
#include "../../7zFile.h"
#include "../../7zVersion.h"
#include "../../LzmaDec.h"
#include "../../LzmaEnc.h"
static const char * const kCantReadMessage = "Cannot read input file";
static const char * const kCantWriteMessage = "Cannot write output file";
static const char * const kCantAllocateMessage = "Cannot allocate memory";
static const char * const kDataErrorMessage = "Data error";
static void PrintHelp(char *buffer)
{
strcat(buffer,
"\nLZMA-C " MY_VERSION_CPU " : " MY_COPYRIGHT_DATE "\n\n"
"Usage: lzma <e|d> inputFile outputFile\n"
" e: encode file\n"
" d: decode file\n");
}
static int PrintError(char *buffer, const char *message)
{
strcat(buffer, "\nError: ");
strcat(buffer, message);
strcat(buffer, "\n");
return 1;
}
static int PrintError_WRes(char *buffer, const char *message, WRes wres)
{
strcat(buffer, "\nError: ");
strcat(buffer, message);
sprintf(buffer + strlen(buffer), "\nSystem error code: %d", (unsigned)wres);
#ifndef _WIN32
{
const char *s = strerror(wres);
if (s)
sprintf(buffer + strlen(buffer), " : %s", s);
}
#endif
strcat(buffer, "\n");
return 1;
}
static int PrintErrorNumber(char *buffer, SRes val)
{
sprintf(buffer + strlen(buffer), "\n7-Zip error code: %d\n", (unsigned)val);
return 1;
}
static int PrintUserError(char *buffer)
{
return PrintError(buffer, "Incorrect command");
}
#define IN_BUF_SIZE (1 << 16)
#define OUT_BUF_SIZE (1 << 16)
static SRes Decode2(CLzmaDec *state, ISeqOutStream *outStream, ISeqInStream *inStream,
UInt64 unpackSize)
{
int thereIsSize = (unpackSize != (UInt64)(Int64)-1);
Byte inBuf[IN_BUF_SIZE];
Byte outBuf[OUT_BUF_SIZE];
size_t inPos = 0, inSize = 0, outPos = 0;
LzmaDec_Init(state);
for (;;)
{
if (inPos == inSize)
{
inSize = IN_BUF_SIZE;
RINOK(inStream->Read(inStream, inBuf, &inSize));
inPos = 0;
}
{
SRes res;
SizeT inProcessed = inSize - inPos;
SizeT outProcessed = OUT_BUF_SIZE - outPos;
ELzmaFinishMode finishMode = LZMA_FINISH_ANY;
ELzmaStatus status;
if (thereIsSize && outProcessed > unpackSize)
{
outProcessed = (SizeT)unpackSize;
finishMode = LZMA_FINISH_END;
}
res = LzmaDec_DecodeToBuf(state, outBuf + outPos, &outProcessed,
inBuf + inPos, &inProcessed, finishMode, &status);
inPos += inProcessed;
outPos += outProcessed;
unpackSize -= outProcessed;
if (outStream)
if (outStream->Write(outStream, outBuf, outPos) != outPos)
return SZ_ERROR_WRITE;
outPos = 0;
if (res != SZ_OK || (thereIsSize && unpackSize == 0))
return res;
if (inProcessed == 0 && outProcessed == 0)
{
if (thereIsSize || status != LZMA_STATUS_FINISHED_WITH_MARK)
return SZ_ERROR_DATA;
return res;
}
}
}
}
static SRes Decode(ISeqOutStream *outStream, ISeqInStream *inStream)
{
UInt64 unpackSize;
int i;
SRes res = 0;
CLzmaDec state;
/* header: 5 bytes of LZMA properties and 8 bytes of uncompressed size */
unsigned char header[LZMA_PROPS_SIZE + 8];
/* Read and parse header */
RINOK(SeqInStream_Read(inStream, header, sizeof(header)));
unpackSize = 0;
for (i = 0; i < 8; i++)
unpackSize += (UInt64)header[LZMA_PROPS_SIZE + i] << (i * 8);
LzmaDec_Construct(&state);
RINOK(LzmaDec_Allocate(&state, header, LZMA_PROPS_SIZE, &g_Alloc));
res = Decode2(&state, outStream, inStream, unpackSize);
LzmaDec_Free(&state, &g_Alloc);
return res;
}
static SRes Encode(ISeqOutStream *outStream, ISeqInStream *inStream, UInt64 fileSize, char *rs)
{
CLzmaEncHandle enc;
SRes res;
CLzmaEncProps props;
UNUSED_VAR(rs);
enc = LzmaEnc_Create(&g_Alloc);
if (enc == 0)
return SZ_ERROR_MEM;
LzmaEncProps_Init(&props);
res = LzmaEnc_SetProps(enc, &props);
if (res == SZ_OK)
{
Byte header[LZMA_PROPS_SIZE + 8];
size_t headerSize = LZMA_PROPS_SIZE;
int i;
res = LzmaEnc_WriteProperties(enc, header, &headerSize);
for (i = 0; i < 8; i++)
header[headerSize++] = (Byte)(fileSize >> (8 * i));
if (outStream->Write(outStream, header, headerSize) != headerSize)
res = SZ_ERROR_WRITE;
else
{
if (res == SZ_OK)
res = LzmaEnc_Encode(enc, outStream, inStream, NULL, &g_Alloc, &g_Alloc);
}
}
LzmaEnc_Destroy(enc, &g_Alloc, &g_Alloc);
return res;
}
static int main2(int numArgs, const char *args[], char *rs)
{
CFileSeqInStream inStream;
CFileOutStream outStream;
char c;
int res;
int encodeMode;
2019-07-15 13:16:24 +00:00
BoolInt useOutFile = False;
FileSeqInStream_CreateVTable(&inStream);
File_Construct(&inStream.file);
inStream.wres = 0;
FileOutStream_CreateVTable(&outStream);
File_Construct(&outStream.file);
outStream.wres = 0;
if (numArgs == 1)
{
PrintHelp(rs);
return 0;
}
if (numArgs < 3 || numArgs > 4 || strlen(args[1]) != 1)
return PrintUserError(rs);
c = args[1][0];
encodeMode = (c == 'e' || c == 'E');
if (!encodeMode && c != 'd' && c != 'D')
return PrintUserError(rs);
{
size_t t4 = sizeof(UInt32);
size_t t8 = sizeof(UInt64);
if (t4 != 4 || t8 != 8)
return PrintError(rs, "Incorrect UInt32 or UInt64");
}
{
WRes wres = InFile_Open(&inStream.file, args[2]);
if (wres != 0)
return PrintError_WRes(rs, "Cannot open input file", wres);
}
if (numArgs > 3)
{
WRes wres;
useOutFile = True;
wres = OutFile_Open(&outStream.file, args[3]);
if (wres != 0)
return PrintError_WRes(rs, "Cannot open output file", wres);
}
else if (encodeMode)
PrintUserError(rs);
if (encodeMode)
{
UInt64 fileSize;
WRes wres = File_GetLength(&inStream.file, &fileSize);
if (wres != 0)
return PrintError_WRes(rs, "Cannot get file length", wres);
res = Encode(&outStream.vt, &inStream.vt, fileSize, rs);
}
else
{
res = Decode(&outStream.vt, useOutFile ? &inStream.vt : NULL);
}
if (useOutFile)
File_Close(&outStream.file);
File_Close(&inStream.file);
if (res != SZ_OK)
{
if (res == SZ_ERROR_MEM)
return PrintError(rs, kCantAllocateMessage);
else if (res == SZ_ERROR_DATA)
return PrintError(rs, kDataErrorMessage);
else if (res == SZ_ERROR_WRITE)
return PrintError_WRes(rs, kCantWriteMessage, outStream.wres);
else if (res == SZ_ERROR_READ)
return PrintError_WRes(rs, kCantReadMessage, inStream.wres);
return PrintErrorNumber(rs, res);
}
return 0;
}
int MY_CDECL main(int numArgs, const char *args[])
{
char rs[800] = { 0 };
int res = main2(numArgs, args, rs);
fputs(rs, stdout);
return res;
}