/*-----------------------------------------------------------*/ /*--- A block-sorting, lossless compressor bzip2.c ---*/ /*-----------------------------------------------------------*/ /* ------------------------------------------------------------------ This file is part of bzip2/libbzip2, a program and library for lossless, block-sorting data compression. bzip2/libbzip2 version 1.0.6 of 6 September 2010 Copyright (C) 1996-2010 Julian Seward Please read the WARNING, DISCLAIMER and PATENTS sections in the README file. This program is released under the terms of the license contained in the file LICENSE. ------------------------------------------------------------------ */ /* Place a 1 beside your platform, and 0 elsewhere. Generic 32-bit Unix. Also works on 64-bit Unix boxes. This is the default. */ #define BZ_UNIX 1 /*-- Win32, as seen by Jacob Navia's excellent port of (Chris Fraser & David Hanson)'s excellent lcc compiler. Or with MS Visual C. This is selected automatically if compiled by a compiler which defines _WIN32, not including the Cygwin GCC. --*/ #define BZ_LCCWIN32 0 #if defined(_WIN32) && !defined(__CYGWIN__) #undef BZ_LCCWIN32 #define BZ_LCCWIN32 1 #undef BZ_UNIX #define BZ_UNIX 0 #endif /*---------------------------------------------*/ /*-- Some stuff for all platforms. --*/ #include #include #include #include #include #include #include #include "bzlib.h" #define ERROR_IF_EOF(i) { if ((i) == EOF) ioError(); } #define ERROR_IF_NOT_ZERO(i) { if ((i) != 0) ioError(); } #define ERROR_IF_MINUS_ONE(i) { if ((i) == (-1)) ioError(); } /*---------------------------------------------*/ /*-- Platform-specific stuff. --*/ #if BZ_UNIX # include # include # include # include # include # include # define PATH_SEP '/' # define MY_LSTAT lstat # define MY_STAT stat # define MY_S_ISREG S_ISREG # define MY_S_ISDIR S_ISDIR # define APPEND_FILESPEC(root, name) \ root=snocString((root), (name)) # define APPEND_FLAG(root, name) \ root=snocString((root), (name)) # define SET_BINARY_MODE(fd) /**/ # ifdef __GNUC__ # define NORETURN __attribute__ ((noreturn)) # else # define NORETURN /**/ # endif # ifdef __DJGPP__ # include # include # undef MY_LSTAT # undef MY_STAT # define MY_LSTAT stat # define MY_STAT stat # undef SET_BINARY_MODE # define SET_BINARY_MODE(fd) \ do { \ int retVal = setmode ( fileno ( fd ), \ O_BINARY ); \ ERROR_IF_MINUS_ONE ( retVal ); \ } while ( 0 ) # endif # ifdef __CYGWIN__ # include # include # undef SET_BINARY_MODE # define SET_BINARY_MODE(fd) \ do { \ int retVal = setmode ( fileno ( fd ), \ O_BINARY ); \ ERROR_IF_MINUS_ONE ( retVal ); \ } while ( 0 ) # endif #endif /* BZ_UNIX */ #if BZ_LCCWIN32 # include # include # include # define NORETURN /**/ # define PATH_SEP '\\' # define MY_LSTAT _stat # define MY_STAT _stat # define MY_S_ISREG(x) ((x) & _S_IFREG) # define MY_S_ISDIR(x) ((x) & _S_IFDIR) # define APPEND_FLAG(root, name) \ root=snocString((root), (name)) # define APPEND_FILESPEC(root, name) \ root = snocString ((root), (name)) # define SET_BINARY_MODE(fd) \ do { \ int retVal = setmode ( fileno ( fd ), \ O_BINARY ); \ ERROR_IF_MINUS_ONE ( retVal ); \ } while ( 0 ) #endif /* BZ_LCCWIN32 */ /*---------------------------------------------*/ /*-- Some more stuff for all platforms :-) --*/ typedef char Char; typedef unsigned char Bool; typedef unsigned char UChar; typedef int Int32; typedef unsigned int UInt32; typedef short Int16; typedef unsigned short UInt16; #define True ((Bool)1) #define False ((Bool)0) /*-- IntNative is your platform's `native' int size. Only here to avoid probs with 64-bit platforms. --*/ typedef int IntNative; /*---------------------------------------------------*/ /*--- Misc (file handling) data decls ---*/ /*---------------------------------------------------*/ Int32 verbosity; Bool keepInputFiles, smallMode, deleteOutputOnInterrupt; Bool forceOverwrite, testFailsExist, unzFailsExist, noisy; Int32 numFileNames, numFilesProcessed, blockSize100k; Int32 exitValue; /*-- source modes; F==file, I==stdin, O==stdout --*/ #define SM_I2O 1 #define SM_F2O 2 #define SM_F2F 3 /*-- operation modes --*/ #define OM_Z 1 #define OM_UNZ 2 #define OM_TEST 3 Int32 opMode; Int32 srcMode; #define FILE_NAME_LEN 1034 Int32 longestFileName; Char inName [FILE_NAME_LEN]; Char outName[FILE_NAME_LEN]; Char tmpName[FILE_NAME_LEN]; Char *progName; Char progNameReally[FILE_NAME_LEN]; FILE *outputHandleJustInCase; Int32 workFactor; static void panic ( const Char* ) NORETURN; static void ioError ( void ) NORETURN; static void outOfMemory ( void ) NORETURN; static void configError ( void ) NORETURN; static void crcError ( void ) NORETURN; static void cleanUpAndFail ( Int32 ) NORETURN; static void compressedStreamEOF ( void ) NORETURN; static void copyFileName ( Char*, Char* ); static void* myMalloc ( Int32 ); static void applySavedFileAttrToOutputFile ( IntNative fd ); /*---------------------------------------------------*/ /*--- An implementation of 64-bit ints. Sigh. ---*/ /*--- Roll on widespread deployment of ANSI C9X ! ---*/ /*---------------------------------------------------*/ typedef struct { UChar b[8]; } UInt64; static void uInt64_from_UInt32s ( UInt64* n, UInt32 lo32, UInt32 hi32 ) { n->b[7] = (UChar)((hi32 >> 24) & 0xFF); n->b[6] = (UChar)((hi32 >> 16) & 0xFF); n->b[5] = (UChar)((hi32 >> 8) & 0xFF); n->b[4] = (UChar) (hi32 & 0xFF); n->b[3] = (UChar)((lo32 >> 24) & 0xFF); n->b[2] = (UChar)((lo32 >> 16) & 0xFF); n->b[1] = (UChar)((lo32 >> 8) & 0xFF); n->b[0] = (UChar) (lo32 & 0xFF); } static double uInt64_to_double ( UInt64* n ) { Int32 i; double base = 1.0; double sum = 0.0; for (i = 0; i < 8; i++) { sum += base * (double)(n->b[i]); base *= 256.0; } return sum; } static Bool uInt64_isZero ( UInt64* n ) { Int32 i; for (i = 0; i < 8; i++) if (n->b[i] != 0) return 0; return 1; } /* Divide *n by 10, and return the remainder. */ static Int32 uInt64_qrm10 ( UInt64* n ) { UInt32 rem, tmp; Int32 i; rem = 0; for (i = 7; i >= 0; i--) { tmp = rem * 256 + n->b[i]; n->b[i] = tmp / 10; rem = tmp % 10; } return rem; } /* ... and the Whole Entire Point of all this UInt64 stuff is so that we can supply the following function. */ static void uInt64_toAscii ( char* outbuf, UInt64* n ) { Int32 i, q; UChar buf[32]; Int32 nBuf = 0; UInt64 n_copy = *n; do { q = uInt64_qrm10 ( &n_copy ); buf[nBuf] = q + '0'; nBuf++; } while (!uInt64_isZero(&n_copy)); outbuf[nBuf] = 0; for (i = 0; i < nBuf; i++) outbuf[i] = buf[nBuf-i-1]; } /*---------------------------------------------------*/ /*--- Processing of complete files and streams ---*/ /*---------------------------------------------------*/ /*---------------------------------------------*/ static Bool myfeof ( FILE* f ) { Int32 c = fgetc ( f ); if (c == EOF) return True; ungetc ( c, f ); return False; } /*---------------------------------------------*/ static void compressStream ( FILE *stream, FILE *zStream ) { BZFILE* bzf = NULL; UChar ibuf[5000]; Int32 nIbuf; UInt32 nbytes_in_lo32, nbytes_in_hi32; UInt32 nbytes_out_lo32, nbytes_out_hi32; Int32 bzerr, bzerr_dummy, ret; SET_BINARY_MODE(stream); SET_BINARY_MODE(zStream); if (ferror(stream)) goto errhandler_io; if (ferror(zStream)) goto errhandler_io; bzf = BZ2_bzWriteOpen ( &bzerr, zStream, blockSize100k, verbosity, workFactor ); if (bzerr != BZ_OK) goto errhandler; if (verbosity >= 2) fprintf ( stderr, "\n" ); while (True) { if (myfeof(stream)) break; nIbuf = fread ( ibuf, sizeof(UChar), 5000, stream ); if (ferror(stream)) goto errhandler_io; if (nIbuf > 0) BZ2_bzWrite ( &bzerr, bzf, (void*)ibuf, nIbuf ); if (bzerr != BZ_OK) goto errhandler; } BZ2_bzWriteClose64 ( &bzerr, bzf, 0, &nbytes_in_lo32, &nbytes_in_hi32, &nbytes_out_lo32, &nbytes_out_hi32 ); if (bzerr != BZ_OK) goto errhandler; if (ferror(zStream)) goto errhandler_io; ret = fflush ( zStream ); if (ret == EOF) goto errhandler_io; if (zStream != stdout) { Int32 fd = fileno ( zStream ); if (fd < 0) goto errhandler_io; applySavedFileAttrToOutputFile ( fd ); ret = fclose ( zStream ); outputHandleJustInCase = NULL; if (ret == EOF) goto errhandler_io; } outputHandleJustInCase = NULL; if (ferror(stream)) goto errhandler_io; ret = fclose ( stream ); if (ret == EOF) goto errhandler_io; if (verbosity >= 1) { if (nbytes_in_lo32 == 0 && nbytes_in_hi32 == 0) { fprintf ( stderr, " no data compressed.\n"); } else { Char buf_nin[32], buf_nout[32]; UInt64 nbytes_in, nbytes_out; double nbytes_in_d, nbytes_out_d; uInt64_from_UInt32s ( &nbytes_in, nbytes_in_lo32, nbytes_in_hi32 ); uInt64_from_UInt32s ( &nbytes_out, nbytes_out_lo32, nbytes_out_hi32 ); nbytes_in_d = uInt64_to_double ( &nbytes_in ); nbytes_out_d = uInt64_to_double ( &nbytes_out ); uInt64_toAscii ( buf_nin, &nbytes_in ); uInt64_toAscii ( buf_nout, &nbytes_out ); fprintf ( stderr, "%6.3f:1, %6.3f bits/byte, " "%5.2f%% saved, %s in, %s out.\n", nbytes_in_d / nbytes_out_d, (8.0 * nbytes_out_d) / nbytes_in_d, 100.0 * (1.0 - nbytes_out_d / nbytes_in_d), buf_nin, buf_nout ); } } return; errhandler: BZ2_bzWriteClose64 ( &bzerr_dummy, bzf, 1, &nbytes_in_lo32, &nbytes_in_hi32, &nbytes_out_lo32, &nbytes_out_hi32 ); switch (bzerr) { case BZ_CONFIG_ERROR: configError(); break; case BZ_MEM_ERROR: outOfMemory (); break; case BZ_IO_ERROR: errhandler_io: ioError(); break; default: panic ( "compress:unexpected error" ); } panic ( "compress:end" ); /*notreached*/ } /*---------------------------------------------*/ static Bool uncompressStream ( FILE *zStream, FILE *stream ) { BZFILE* bzf = NULL; Int32 bzerr, bzerr_dummy, ret, nread, streamNo, i; UChar obuf[5000]; UChar unused[BZ_MAX_UNUSED]; Int32 nUnused; void* unusedTmpV; UChar* unusedTmp; nUnused = 0; streamNo = 0; SET_BINARY_MODE(stream); SET_BINARY_MODE(zStream); if (ferror(stream)) goto errhandler_io; if (ferror(zStream)) goto errhandler_io; while (True) { bzf = BZ2_bzReadOpen ( &bzerr, zStream, verbosity, (int)smallMode, unused, nUnused ); if (bzf == NULL || bzerr != BZ_OK) goto errhandler; streamNo++; while (bzerr == BZ_OK) { nread = BZ2_bzRead ( &bzerr, bzf, obuf, 5000 ); if (bzerr == BZ_DATA_ERROR_MAGIC) goto trycat; if ((bzerr == BZ_OK || bzerr == BZ_STREAM_END) && nread > 0) fwrite ( obuf, sizeof(UChar), nread, stream ); if (ferror(stream)) goto errhandler_io; } if (bzerr != BZ_STREAM_END) goto errhandler; BZ2_bzReadGetUnused ( &bzerr, bzf, &unusedTmpV, &nUnused ); if (bzerr != BZ_OK) panic ( "decompress:bzReadGetUnused" ); unusedTmp = (UChar*)unusedTmpV; for (i = 0; i < nUnused; i++) unused[i] = unusedTmp[i]; BZ2_bzReadClose ( &bzerr, bzf ); if (bzerr != BZ_OK) panic ( "decompress:bzReadGetUnused" ); if (nUnused == 0 && myfeof(zStream)) break; } closeok: if (ferror(zStream)) goto errhandler_io; if (stream != stdout) { Int32 fd = fileno ( stream ); if (fd < 0) goto errhandler_io; applySavedFileAttrToOutputFile ( fd ); } ret = fclose ( zStream ); if (ret == EOF) goto errhandler_io; if (ferror(stream)) goto errhandler_io; ret = fflush ( stream ); if (ret != 0) goto errhandler_io; if (stream != stdout) { ret = fclose ( stream ); outputHandleJustInCase = NULL; if (ret == EOF) goto errhandler_io; } outputHandleJustInCase = NULL; if (verbosity >= 2) fprintf ( stderr, "\n " ); return True; trycat: if (forceOverwrite) { rewind(zStream); while (True) { if (myfeof(zStream)) break; nread = fread ( obuf, sizeof(UChar), 5000, zStream ); if (ferror(zStream)) goto errhandler_io; if (nread > 0) fwrite ( obuf, sizeof(UChar), nread, stream ); if (ferror(stream)) goto errhandler_io; } goto closeok; } errhandler: BZ2_bzReadClose ( &bzerr_dummy, bzf ); switch (bzerr) { case BZ_CONFIG_ERROR: configError(); break; case BZ_IO_ERROR: errhandler_io: ioError(); break; case BZ_DATA_ERROR: crcError(); case BZ_MEM_ERROR: outOfMemory(); case BZ_UNEXPECTED_EOF: compressedStreamEOF(); case BZ_DATA_ERROR_MAGIC: if (zStream != stdin) fclose(zStream); if (stream != stdout) fclose(stream); if (streamNo == 1) { return False; } else { if (noisy) fprintf ( stderr, "\n%s: %s: trailing garbage after EOF ignored\n", progName, inName ); return True; } default: panic ( "decompress:unexpected error" ); } panic ( "decompress:end" ); return True; /*notreached*/ } /*---------------------------------------------*/ static Bool testStream ( FILE *zStream ) { BZFILE* bzf = NULL; Int32 bzerr, bzerr_dummy, ret, nread, streamNo, i; UChar obuf[5000]; UChar unused[BZ_MAX_UNUSED]; Int32 nUnused; void* unusedTmpV; UChar* unusedTmp; nUnused = 0; streamNo = 0; SET_BINARY_MODE(zStream); if (ferror(zStream)) goto errhandler_io; while (True) { bzf = BZ2_bzReadOpen ( &bzerr, zStream, verbosity, (int)smallMode, unused, nUnused ); if (bzf == NULL || bzerr != BZ_OK) goto errhandler; streamNo++; while (bzerr == BZ_OK) { nread = BZ2_bzRead ( &bzerr, bzf, obuf, 5000 ); if (bzerr == BZ_DATA_ERROR_MAGIC) goto errhandler; } if (bzerr != BZ_STREAM_END) goto errhandler; BZ2_bzReadGetUnused ( &bzerr, bzf, &unusedTmpV, &nUnused ); if (bzerr != BZ_OK) panic ( "test:bzReadGetUnused" ); unusedTmp = (UChar*)unusedTmpV; for (i = 0; i < nUnused; i++) unused[i] = unusedTmp[i]; BZ2_bzReadClose ( &bzerr, bzf ); if (bzerr != BZ_OK) panic ( "test:bzReadGetUnused" ); if (nUnused == 0 && myfeof(zStream)) break; } if (ferror(zStream)) goto errhandler_io; ret = fclose ( zStream ); if (ret == EOF) goto errhandler_io; if (verbosity >= 2) fprintf ( stderr, "\n " ); return True; errhandler: BZ2_bzReadClose ( &bzerr_dummy, bzf ); if (verbosity == 0) fprintf ( stderr, "%s: %s: ", progName, inName ); switch (bzerr) { case BZ_CONFIG_ERROR: configError(); break; case BZ_IO_ERROR: errhandler_io: ioError(); break; case BZ_DATA_ERROR: fprintf ( stderr, "data integrity (CRC) error in data\n" ); return False; case BZ_MEM_ERROR: outOfMemory(); case BZ_UNEXPECTED_EOF: fprintf ( stderr, "file ends unexpectedly\n" ); return False; case BZ_DATA_ERROR_MAGIC: if (zStream != stdin) fclose(zStream); if (streamNo == 1) { fprintf ( stderr, "bad magic number (file not created by bzip2)\n" ); return False; } else { if (noisy) fprintf ( stderr, "trailing garbage after EOF ignored\n" ); return True; } default: panic ( "test:unexpected error" ); } panic ( "test:end" ); return True; /*notreached*/ } /*---------------------------------------------------*/ /*--- Error [non-] handling grunge ---*/ /*---------------------------------------------------*/ /*---------------------------------------------*/ static void setExit ( Int32 v ) { if (v > exitValue) exitValue = v; } /*---------------------------------------------*/ static void cadvise ( void ) { if (noisy) fprintf ( stderr, "\nIt is possible that the compressed file(s) have become corrupted.\n" "You can use the -tvv option to test integrity of such files.\n\n" "You can use the `bzip2recover' program to attempt to recover\n" "data from undamaged sections of corrupted files.\n\n" ); } /*---------------------------------------------*/ static void showFileNames ( void ) { if (noisy) fprintf ( stderr, "\tInput file = %s, output file = %s\n", inName, outName ); } /*---------------------------------------------*/ static void cleanUpAndFail ( Int32 ec ) { IntNative retVal; struct MY_STAT statBuf; if ( srcMode == SM_F2F && opMode != OM_TEST && deleteOutputOnInterrupt ) { /* Check whether input file still exists. Delete output file only if input exists to avoid loss of data. Joerg Prante, 5 January 2002. (JRS 06-Jan-2002: other changes in 1.0.2 mean this is less likely to happen. But to be ultra-paranoid, we do the check anyway.) */ retVal = MY_STAT ( inName, &statBuf ); if (retVal == 0) { if (noisy) fprintf ( stderr, "%s: Deleting output file %s, if it exists.\n", progName, outName ); if (outputHandleJustInCase != NULL) fclose ( outputHandleJustInCase ); retVal = remove ( outName ); if (retVal != 0) fprintf ( stderr, "%s: WARNING: deletion of output file " "(apparently) failed.\n", progName ); } else { fprintf ( stderr, "%s: WARNING: deletion of output file suppressed\n", progName ); fprintf ( stderr, "%s: since input file no longer exists. Output file\n", progName ); fprintf ( stderr, "%s: `%s' may be incomplete.\n", progName, outName ); fprintf ( stderr, "%s: I suggest doing an integrity test (bzip2 -tv)" " of it.\n", progName ); } } if (noisy && numFileNames > 0 && numFilesProcessed < numFileNames) { fprintf ( stderr, "%s: WARNING: some files have not been processed:\n" "%s: %d specified on command line, %d not processed yet.\n\n", progName, progName, numFileNames, numFileNames - numFilesProcessed ); } setExit(ec); exit(exitValue); } /*---------------------------------------------*/ static void panic ( const Char* s ) { fprintf ( stderr, "\n%s: PANIC -- internal consistency error:\n" "\t%s\n" "\tThis is a BUG. Please report it to me at:\n" "\tjseward@acm.org\n", progName, s ); showFileNames(); cleanUpAndFail( 3 ); } /*---------------------------------------------*/ static void crcError ( void ) { fprintf ( stderr, "\n%s: Data integrity error when decompressing.\n", progName ); showFileNames(); cadvise(); cleanUpAndFail( 2 ); } /*---------------------------------------------*/ static void compressedStreamEOF ( void ) { if (noisy) { fprintf ( stderr, "\n%s: Compressed file ends unexpectedly;\n\t" "perhaps it is corrupted? *Possible* reason follows.\n", progName ); perror ( progName ); showFileNames(); cadvise(); } cleanUpAndFail( 2 ); } /*---------------------------------------------*/ static void ioError ( void ) { fprintf ( stderr, "\n%s: I/O or other error, bailing out. " "Possible reason follows.\n", progName ); perror ( progName ); showFileNames(); cleanUpAndFail( 1 ); } /*---------------------------------------------*/ static void mySignalCatcher ( IntNative n ) { fprintf ( stderr, "\n%s: Control-C or similar caught, quitting.\n", progName ); cleanUpAndFail(1); } /*---------------------------------------------*/ static void mySIGSEGVorSIGBUScatcher ( IntNative n ) { if (opMode == OM_Z) fprintf ( stderr, "\n%s: Caught a SIGSEGV or SIGBUS whilst compressing.\n" "\n" " Possible causes are (most likely first):\n" " (1) This computer has unreliable memory or cache hardware\n" " (a surprisingly common problem; try a different machine.)\n" " (2) A bug in the compiler used to create this executable\n" " (unlikely, if you didn't compile bzip2 yourself.)\n" " (3) A real bug in bzip2 -- I hope this should never be the case.\n" " The user's manual, Section 4.3, has more info on (1) and (2).\n" " \n" " If you suspect this is a bug in bzip2, or are unsure about (1)\n" " or (2), feel free to report it to me at: jseward@acm.org.\n" " Section 4.3 of the user's manual describes the info a useful\n" " bug report should have. If the manual is available on your\n" " system, please try and read it before mailing me. If you don't\n" " have the manual or can't be bothered to read it, mail me anyway.\n" "\n", progName ); else fprintf ( stderr, "\n%s: Caught a SIGSEGV or SIGBUS whilst decompressing.\n" "\n" " Possible causes are (most likely first):\n" " (1) The compressed data is corrupted, and bzip2's usual checks\n" " failed to detect this. Try bzip2 -tvv my_file.bz2.\n" " (2) This computer has unreliable memory or cache hardware\n" " (a surprisingly common problem; try a different machine.)\n" " (3) A bug in the compiler used to create this executable\n" " (unlikely, if you didn't compile bzip2 yourself.)\n" " (4) A real bug in bzip2 -- I hope this should never be the case.\n" " The user's manual, Section 4.3, has more info on (2) and (3).\n" " \n" " If you suspect this is a bug in bzip2, or are unsure about (2)\n" " or (3), feel free to report it to me at: jseward@acm.org.\n" " Section 4.3 of the user's manual describes the info a useful\n" " bug report should have. If the manual is available on your\n" " system, please try and read it before mailing me. If you don't\n" " have the manual or can't be bothered to read it, mail me anyway.\n" "\n", progName ); showFileNames(); if (opMode == OM_Z) cleanUpAndFail( 3 ); else { cadvise(); cleanUpAndFail( 2 ); } } /*---------------------------------------------*/ static void outOfMemory ( void ) { fprintf ( stderr, "\n%s: couldn't allocate enough memory\n", progName ); showFileNames(); cleanUpAndFail(1); } /*---------------------------------------------*/ static void configError ( void ) { fprintf ( stderr, "bzip2: I'm not configured correctly for this platform!\n" "\tI require Int32, Int16 and Char to have sizes\n" "\tof 4, 2 and 1 bytes to run properly, and they don't.\n" "\tProbably you can fix this by defining them correctly,\n" "\tand recompiling. Bye!\n" ); setExit(3); exit(exitValue); } /*---------------------------------------------------*/ /*--- The main driver machinery ---*/ /*---------------------------------------------------*/ /* All rather crufty. The main problem is that input files are stat()d multiple times before use. This should be cleaned up. */ /*---------------------------------------------*/ static void pad ( Char *s ) { Int32 i; if ( (Int32)strlen(s) >= longestFileName ) return; for (i = 1; i <= longestFileName - (Int32)strlen(s); i++) fprintf ( stderr, " " ); } /*---------------------------------------------*/ static void copyFileName ( Char* to, Char* from ) { if ( strlen(from) > FILE_NAME_LEN-10 ) { fprintf ( stderr, "bzip2: file name\n`%s'\n" "is suspiciously (more than %d chars) long.\n" "Try using a reasonable file name instead. Sorry! :-)\n", from, FILE_NAME_LEN-10 ); setExit(1); exit(exitValue); } strncpy(to,from,FILE_NAME_LEN-10); to[FILE_NAME_LEN-10]='\0'; } /*---------------------------------------------*/ static Bool fileExists ( Char* name ) { FILE *tmp = fopen ( name, "rb" ); Bool exists = (tmp != NULL); if (tmp != NULL) fclose ( tmp ); return exists; } /*---------------------------------------------*/ /* Open an output file safely with O_EXCL and good permissions. This avoids a race condition in versions < 1.0.2, in which the file was first opened and then had its interim permissions set safely. We instead use open() to create the file with the interim permissions required. (--- --- rw-). For non-Unix platforms, if we are not worrying about security issues, simple this simply behaves like fopen. */ static FILE* fopen_output_safely ( Char* name, const char* mode ) { # if BZ_UNIX FILE* fp; IntNative fh; fh = open(name, O_WRONLY|O_CREAT|O_EXCL, S_IWUSR|S_IRUSR); if (fh == -1) return NULL; fp = fdopen(fh, mode); if (fp == NULL) close(fh); return fp; # else return fopen(name, mode); # endif } /*---------------------------------------------*/ /*-- if in doubt, return True --*/ static Bool notAStandardFile ( Char* name ) { IntNative i; struct MY_STAT statBuf; i = MY_LSTAT ( name, &statBuf ); if (i != 0) return True; if (MY_S_ISREG(statBuf.st_mode)) return False; return True; } /*---------------------------------------------*/ /*-- rac 11/21/98 see if file has hard links to it --*/ static Int32 countHardLinks ( Char* name ) { IntNative i; struct MY_STAT statBuf; i = MY_LSTAT ( name, &statBuf ); if (i != 0) return 0; return (statBuf.st_nlink - 1); } /*---------------------------------------------*/ /* Copy modification date, access date, permissions and owner from the source to destination file. We have to copy this meta-info off into fileMetaInfo before starting to compress / decompress it, because doing it afterwards means we get the wrong access time. To complicate matters, in compress() and decompress() below, the sequence of tests preceding the call to saveInputFileMetaInfo() involves calling fileExists(), which in turn establishes its result by attempting to fopen() the file, and if successful, immediately fclose()ing it again. So we have to assume that the fopen() call does not cause the access time field to be updated. Reading of the man page for stat() (man 2 stat) on RedHat 7.2 seems to imply that merely doing open() will not affect the access time. Therefore we merely need to hope that the C library only does open() as a result of fopen(), and not any kind of read()-ahead cleverness. It sounds pretty fragile to me. Whether this carries across robustly to arbitrary Unix-like platforms (or even works robustly on this one, RedHat 7.2) is unknown to me. Nevertheless ... */ #if BZ_UNIX static struct MY_STAT fileMetaInfo; #endif static void saveInputFileMetaInfo ( Char *srcName ) { # if BZ_UNIX IntNative retVal; /* Note use of stat here, not lstat. */ retVal = MY_STAT( srcName, &fileMetaInfo ); ERROR_IF_NOT_ZERO ( retVal ); # endif } static void applySavedTimeInfoToOutputFile ( Char *dstName ) { # if BZ_UNIX IntNative retVal; struct utimbuf uTimBuf; uTimBuf.actime = fileMetaInfo.st_atime; uTimBuf.modtime = fileMetaInfo.st_mtime; retVal = utime ( dstName, &uTimBuf ); ERROR_IF_NOT_ZERO ( retVal ); # endif } static void applySavedFileAttrToOutputFile ( IntNative fd ) { # if BZ_UNIX IntNative retVal; retVal = fchmod ( fd, fileMetaInfo.st_mode ); ERROR_IF_NOT_ZERO ( retVal ); (void) fchown ( fd, fileMetaInfo.st_uid, fileMetaInfo.st_gid ); /* chown() will in many cases return with EPERM, which can be safely ignored. */ # endif } /*---------------------------------------------*/ static Bool containsDubiousChars ( Char* name ) { # if BZ_UNIX /* On unix, files can contain any characters and the file expansion * is performed by the shell. */ return False; # else /* ! BZ_UNIX */ /* On non-unix (Win* platforms), wildcard characters are not allowed in * filenames. */ for (; *name != '\0'; name++) if (*name == '?' || *name == '*') return True; return False; # endif /* BZ_UNIX */ } /*---------------------------------------------*/ #define BZ_N_SUFFIX_PAIRS 4 const Char* zSuffix[BZ_N_SUFFIX_PAIRS] = { ".bz2", ".bz", ".tbz2", ".tbz" }; const Char* unzSuffix[BZ_N_SUFFIX_PAIRS] = { "", "", ".tar", ".tar" }; static Bool hasSuffix ( Char* s, const Char* suffix ) { Int32 ns = strlen(s); Int32 nx = strlen(suffix); if (ns < nx) return False; if (strcmp(s + ns - nx, suffix) == 0) return True; return False; } static Bool mapSuffix ( Char* name, const Char* oldSuffix, const Char* newSuffix ) { if (!hasSuffix(name,oldSuffix)) return False; name[strlen(name)-strlen(oldSuffix)] = 0; strcat ( name, newSuffix ); return True; } /*---------------------------------------------*/ static void compress ( Char *name ) { FILE *inStr; FILE *outStr; Int32 n, i; struct MY_STAT statBuf; deleteOutputOnInterrupt = False; if (name == NULL && srcMode != SM_I2O) panic ( "compress: bad modes\n" ); switch (srcMode) { case SM_I2O: copyFileName ( inName, (Char*)"(stdin)" ); copyFileName ( outName, (Char*)"(stdout)" ); break; case SM_F2F: copyFileName ( inName, name ); copyFileName ( outName, name ); strcat ( outName, ".bz2" ); break; case SM_F2O: copyFileName ( inName, name ); copyFileName ( outName, (Char*)"(stdout)" ); break; } if ( srcMode != SM_I2O && containsDubiousChars ( inName ) ) { if (noisy) fprintf ( stderr, "%s: There are no files matching `%s'.\n", progName, inName ); setExit(1); return; } if ( srcMode != SM_I2O && !fileExists ( inName ) ) { fprintf ( stderr, "%s: Can't open input file %s: %s.\n", progName, inName, strerror(errno) ); setExit(1); return; } for (i = 0; i < BZ_N_SUFFIX_PAIRS; i++) { if (hasSuffix(inName, zSuffix[i])) { if (noisy) fprintf ( stderr, "%s: Input file %s already has %s suffix.\n", progName, inName, zSuffix[i] ); setExit(1); return; } } if ( srcMode == SM_F2F || srcMode == SM_F2O ) { MY_STAT(inName, &statBuf); if ( MY_S_ISDIR(statBuf.st_mode) ) { fprintf( stderr, "%s: Input file %s is a directory.\n", progName,inName); setExit(1); return; } } if ( srcMode == SM_F2F && !forceOverwrite && notAStandardFile ( inName )) { if (noisy) fprintf ( stderr, "%s: Input file %s is not a normal file.\n", progName, inName ); setExit(1); return; } if ( srcMode == SM_F2F && fileExists ( outName ) ) { if (forceOverwrite) { remove(outName); } else { fprintf ( stderr, "%s: Output file %s already exists.\n", progName, outName ); setExit(1); return; } } if ( srcMode == SM_F2F && !forceOverwrite && (n=countHardLinks ( inName )) > 0) { fprintf ( stderr, "%s: Input file %s has %d other link%s.\n", progName, inName, n, n > 1 ? "s" : "" ); setExit(1); return; } if ( srcMode == SM_F2F ) { /* Save the file's meta-info before we open it. Doing it later means we mess up the access times. */ saveInputFileMetaInfo ( inName ); } switch ( srcMode ) { case SM_I2O: inStr = stdin; outStr = stdout; if ( isatty ( fileno ( stdout ) ) ) { fprintf ( stderr, "%s: I won't write compressed data to a terminal.\n", progName ); fprintf ( stderr, "%s: For help, type: `%s --help'.\n", progName, progName ); setExit(1); return; }; break; case SM_F2O: inStr = fopen ( inName, "rb" ); outStr = stdout; if ( isatty ( fileno ( stdout ) ) ) { fprintf ( stderr, "%s: I won't write compressed data to a terminal.\n", progName ); fprintf ( stderr, "%s: For help, type: `%s --help'.\n", progName, progName ); if ( inStr != NULL ) fclose ( inStr ); setExit(1); return; }; if ( inStr == NULL ) { fprintf ( stderr, "%s: Can't open input file %s: %s.\n", progName, inName, strerror(errno) ); setExit(1); return; }; break; case SM_F2F: inStr = fopen ( inName, "rb" ); outStr = fopen_output_safely ( outName, "wb" ); if ( outStr == NULL) { fprintf ( stderr, "%s: Can't create output file %s: %s.\n", progName, outName, strerror(errno) ); if ( inStr != NULL ) fclose ( inStr ); setExit(1); return; } if ( inStr == NULL ) { fprintf ( stderr, "%s: Can't open input file %s: %s.\n", progName, inName, strerror(errno) ); if ( outStr != NULL ) fclose ( outStr ); setExit(1); return; }; break; default: panic ( "compress: bad srcMode" ); break; } if (verbosity >= 1) { fprintf ( stderr, " %s: ", inName ); pad ( inName ); fflush ( stderr ); } /*--- Now the input and output handles are sane. Do the Biz. ---*/ outputHandleJustInCase = outStr; deleteOutputOnInterrupt = True; compressStream ( inStr, outStr ); outputHandleJustInCase = NULL; /*--- If there was an I/O error, we won't get here. ---*/ if ( srcMode == SM_F2F ) { applySavedTimeInfoToOutputFile ( outName ); deleteOutputOnInterrupt = False; if ( !keepInputFiles ) { IntNative retVal = remove ( inName ); ERROR_IF_NOT_ZERO ( retVal ); } } deleteOutputOnInterrupt = False; } /*---------------------------------------------*/ static void uncompress ( Char *name ) { FILE *inStr; FILE *outStr; Int32 n, i; Bool magicNumberOK; Bool cantGuess; struct MY_STAT statBuf; deleteOutputOnInterrupt = False; if (name == NULL && srcMode != SM_I2O) panic ( "uncompress: bad modes\n" ); cantGuess = False; switch (srcMode) { case SM_I2O: copyFileName ( inName, (Char*)"(stdin)" ); copyFileName ( outName, (Char*)"(stdout)" ); break; case SM_F2F: copyFileName ( inName, name ); copyFileName ( outName, name ); for (i = 0; i < BZ_N_SUFFIX_PAIRS; i++) if (mapSuffix(outName,zSuffix[i],unzSuffix[i])) goto zzz; cantGuess = True; strcat ( outName, ".out" ); break; case SM_F2O: copyFileName ( inName, name ); copyFileName ( outName, (Char*)"(stdout)" ); break; } zzz: if ( srcMode != SM_I2O && containsDubiousChars ( inName ) ) { if (noisy) fprintf ( stderr, "%s: There are no files matching `%s'.\n", progName, inName ); setExit(1); return; } if ( srcMode != SM_I2O && !fileExists ( inName ) ) { fprintf ( stderr, "%s: Can't open input file %s: %s.\n", progName, inName, strerror(errno) ); setExit(1); return; } if ( srcMode == SM_F2F || srcMode == SM_F2O ) { MY_STAT(inName, &statBuf); if ( MY_S_ISDIR(statBuf.st_mode) ) { fprintf( stderr, "%s: Input file %s is a directory.\n", progName,inName); setExit(1); return; } } if ( srcMode == SM_F2F && !forceOverwrite && notAStandardFile ( inName )) { if (noisy) fprintf ( stderr, "%s: Input file %s is not a normal file.\n", progName, inName ); setExit(1); return; } if ( /* srcMode == SM_F2F implied && */ cantGuess ) { if (noisy) fprintf ( stderr, "%s: Can't guess original name for %s -- using %s\n", progName, inName, outName ); /* just a warning, no return */ } if ( srcMode == SM_F2F && fileExists ( outName ) ) { if (forceOverwrite) { remove(outName); } else { fprintf ( stderr, "%s: Output file %s already exists.\n", progName, outName ); setExit(1); return; } } if ( srcMode == SM_F2F && !forceOverwrite && (n=countHardLinks ( inName ) ) > 0) { fprintf ( stderr, "%s: Input file %s has %d other link%s.\n", progName, inName, n, n > 1 ? "s" : "" ); setExit(1); return; } if ( srcMode == SM_F2F ) { /* Save the file's meta-info before we open it. Doing it later means we mess up the access times. */ saveInputFileMetaInfo ( inName ); } switch ( srcMode ) { case SM_I2O: inStr = stdin; outStr = stdout; if ( isatty ( fileno ( stdin ) ) ) { fprintf ( stderr, "%s: I won't read compressed data from a terminal.\n", progName ); fprintf ( stderr, "%s: For help, type: `%s --help'.\n", progName, progName ); setExit(1); return; }; break; case SM_F2O: inStr = fopen ( inName, "rb" ); outStr = stdout; if ( inStr == NULL ) { fprintf ( stderr, "%s: Can't open input file %s:%s.\n", progName, inName, strerror(errno) ); if ( inStr != NULL ) fclose ( inStr ); setExit(1); return; }; break; case SM_F2F: inStr = fopen ( inName, "rb" ); outStr = fopen_output_safely ( outName, "wb" ); if ( outStr == NULL) { fprintf ( stderr, "%s: Can't create output file %s: %s.\n", progName, outName, strerror(errno) ); if ( inStr != NULL ) fclose ( inStr ); setExit(1); return; } if ( inStr == NULL ) { fprintf ( stderr, "%s: Can't open input file %s: %s.\n", progName, inName, strerror(errno) ); if ( outStr != NULL ) fclose ( outStr ); setExit(1); return; }; break; default: panic ( "uncompress: bad srcMode" ); break; } if (verbosity >= 1) { fprintf ( stderr, " %s: ", inName ); pad ( inName ); fflush ( stderr ); } /*--- Now the input and output handles are sane. Do the Biz. ---*/ outputHandleJustInCase = outStr; deleteOutputOnInterrupt = True; magicNumberOK = uncompressStream ( inStr, outStr ); outputHandleJustInCase = NULL; /*--- If there was an I/O error, we won't get here. ---*/ if ( magicNumberOK ) { if ( srcMode == SM_F2F ) { applySavedTimeInfoToOutputFile ( outName ); deleteOutputOnInterrupt = False; if ( !keepInputFiles ) { IntNative retVal = remove ( inName ); ERROR_IF_NOT_ZERO ( retVal ); } } } else { unzFailsExist = True; deleteOutputOnInterrupt = False; if ( srcMode == SM_F2F ) { IntNative retVal = remove ( outName ); ERROR_IF_NOT_ZERO ( retVal ); } } deleteOutputOnInterrupt = False; if ( magicNumberOK ) { if (verbosity >= 1) fprintf ( stderr, "done\n" ); } else { setExit(2); if (verbosity >= 1) fprintf ( stderr, "not a bzip2 file.\n" ); else fprintf ( stderr, "%s: %s is not a bzip2 file.\n", progName, inName ); } } /*---------------------------------------------*/ static void testf ( Char *name ) { FILE *inStr; Bool allOK; struct MY_STAT statBuf; deleteOutputOnInterrupt = False; if (name == NULL && srcMode != SM_I2O) panic ( "testf: bad modes\n" ); copyFileName ( outName, (Char*)"(none)" ); switch (srcMode) { case SM_I2O: copyFileName ( inName, (Char*)"(stdin)" ); break; case SM_F2F: copyFileName ( inName, name ); break; case SM_F2O: copyFileName ( inName, name ); break; } if ( srcMode != SM_I2O && containsDubiousChars ( inName ) ) { if (noisy) fprintf ( stderr, "%s: There are no files matching `%s'.\n", progName, inName ); setExit(1); return; } if ( srcMode != SM_I2O && !fileExists ( inName ) ) { fprintf ( stderr, "%s: Can't open input %s: %s.\n", progName, inName, strerror(errno) ); setExit(1); return; } if ( srcMode != SM_I2O ) { MY_STAT(inName, &statBuf); if ( MY_S_ISDIR(statBuf.st_mode) ) { fprintf( stderr, "%s: Input file %s is a directory.\n", progName,inName); setExit(1); return; } } switch ( srcMode ) { case SM_I2O: if ( isatty ( fileno ( stdin ) ) ) { fprintf ( stderr, "%s: I won't read compressed data from a terminal.\n", progName ); fprintf ( stderr, "%s: For help, type: `%s --help'.\n", progName, progName ); setExit(1); return; }; inStr = stdin; break; case SM_F2O: case SM_F2F: inStr = fopen ( inName, "rb" ); if ( inStr == NULL ) { fprintf ( stderr, "%s: Can't open input file %s:%s.\n", progName, inName, strerror(errno) ); setExit(1); return; }; break; default: panic ( "testf: bad srcMode" ); break; } if (verbosity >= 1) { fprintf ( stderr, " %s: ", inName ); pad ( inName ); fflush ( stderr ); } /*--- Now the input handle is sane. Do the Biz. ---*/ outputHandleJustInCase = NULL; allOK = testStream ( inStr ); if (allOK && verbosity >= 1) fprintf ( stderr, "ok\n" ); if (!allOK) testFailsExist = True; } /*---------------------------------------------*/ static void license ( void ) { fprintf ( stderr, "bzip2, a block-sorting file compressor. " "Version %s.\n" " \n" " Copyright (C) 1996-2010 by Julian Seward.\n" " \n" " This program is free software; you can redistribute it and/or modify\n" " it under the terms set out in the LICENSE file, which is included\n" " in the bzip2-1.0.6 source distribution.\n" " \n" " This program is distributed in the hope that it will be useful,\n" " but WITHOUT ANY WARRANTY; without even the implied warranty of\n" " MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n" " LICENSE file for more details.\n" " \n", BZ2_bzlibVersion() ); } /*---------------------------------------------*/ static void usage ( Char *fullProgName ) { fprintf ( stderr, "bzip2, a block-sorting file compressor. " "Version %s.\n" "\n usage: %s [flags and input files in any order]\n" "\n" " -h --help print this message\n" " -d --decompress force decompression\n" " -z --compress force compression\n" " -k --keep keep (don't delete) input files\n" " -f --force overwrite existing output files\n" " -t --test test compressed file integrity\n" " -c --stdout output to standard out\n" " -q --quiet suppress noncritical error messages\n" " -v --verbose be verbose (a 2nd -v gives more)\n" " -L --license display software version & license\n" " -V --version display software version & license\n" " -s --small use less memory (at most 2500k)\n" " -1 .. -9 set block size to 100k .. 900k\n" " --fast alias for -1\n" " --best alias for -9\n" "\n" " If invoked as `bzip2', default action is to compress.\n" " as `bunzip2', default action is to decompress.\n" " as `bzcat', default action is to decompress to stdout.\n" "\n" " If no file names are given, bzip2 compresses or decompresses\n" " from standard input to standard output. You can combine\n" " short flags, so `-v -4' means the same as -v4 or -4v, &c.\n" # if BZ_UNIX "\n" # endif , BZ2_bzlibVersion(), fullProgName ); } /*---------------------------------------------*/ static void redundant ( Char* flag ) { fprintf ( stderr, "%s: %s is redundant in versions 0.9.5 and above\n", progName, flag ); } /*---------------------------------------------*/ /*-- All the garbage from here to main() is purely to implement a linked list of command-line arguments, into which main() copies argv[1 .. argc-1]. The purpose of this exercise is to facilitate the expansion of wildcard characters * and ? in filenames for OSs which don't know how to do it themselves, like MSDOS, Windows 95 and NT. The actual Dirty Work is done by the platform- specific macro APPEND_FILESPEC. --*/ typedef struct zzzz { Char *name; struct zzzz *link; } Cell; /*---------------------------------------------*/ static void *myMalloc ( Int32 n ) { void* p; p = malloc ( (size_t)n ); if (p == NULL) outOfMemory (); return p; } /*---------------------------------------------*/ static Cell *mkCell ( void ) { Cell *c; c = (Cell*) myMalloc ( sizeof ( Cell ) ); c->name = NULL; c->link = NULL; return c; } /*---------------------------------------------*/ static Cell *snocString ( Cell *root, Char *name ) { if (root == NULL) { Cell *tmp = mkCell(); tmp->name = (Char*) myMalloc ( 5 + strlen(name) ); strcpy ( tmp->name, name ); return tmp; } else { Cell *tmp = root; while (tmp->link != NULL) tmp = tmp->link; tmp->link = snocString ( tmp->link, name ); return root; } } /*---------------------------------------------*/ static void addFlagsFromEnvVar ( Cell** argList, Char* varName ) { Int32 i, j, k; Char *envbase, *p; envbase = getenv(varName); if (envbase != NULL) { p = envbase; i = 0; while (True) { if (p[i] == 0) break; p += i; i = 0; while (isspace((Int32)(p[0]))) p++; while (p[i] != 0 && !isspace((Int32)(p[i]))) i++; if (i > 0) { k = i; if (k > FILE_NAME_LEN-10) k = FILE_NAME_LEN-10; for (j = 0; j < k; j++) tmpName[j] = p[j]; tmpName[k] = 0; APPEND_FLAG(*argList, tmpName); } } } } /*---------------------------------------------*/ #define ISFLAG(s) (strcmp(aa->name, (s))==0) IntNative main ( IntNative argc, Char *argv[] ) { Int32 i, j; Char *tmp; Cell *argList; Cell *aa; Bool decode; /*-- Be really really really paranoid :-) --*/ if (sizeof(Int32) != 4 || sizeof(UInt32) != 4 || sizeof(Int16) != 2 || sizeof(UInt16) != 2 || sizeof(Char) != 1 || sizeof(UChar) != 1) configError(); /*-- Initialise --*/ outputHandleJustInCase = NULL; smallMode = False; keepInputFiles = False; forceOverwrite = False; noisy = True; verbosity = 0; blockSize100k = 9; testFailsExist = False; unzFailsExist = False; numFileNames = 0; numFilesProcessed = 0; workFactor = 30; deleteOutputOnInterrupt = False; exitValue = 0; i = j = 0; /* avoid bogus warning from egcs-1.1.X */ /*-- Set up signal handlers for mem access errors --*/ signal (SIGSEGV, mySIGSEGVorSIGBUScatcher); # if BZ_UNIX # ifndef __DJGPP__ signal (SIGBUS, mySIGSEGVorSIGBUScatcher); # endif # endif copyFileName ( inName, (Char*)"(none)" ); copyFileName ( outName, (Char*)"(none)" ); copyFileName ( progNameReally, argv[0] ); progName = &progNameReally[0]; for (tmp = &progNameReally[0]; *tmp != '\0'; tmp++) if (*tmp == PATH_SEP) progName = tmp + 1; /*-- Copy flags from env var BZIP2, and expand filename wildcards in arg list. --*/ argList = NULL; addFlagsFromEnvVar ( &argList, (Char*)"BZIP2" ); addFlagsFromEnvVar ( &argList, (Char*)"BZIP" ); for (i = 1; i <= argc-1; i++) APPEND_FILESPEC(argList, argv[i]); /*-- Find the length of the longest filename --*/ longestFileName = 7; numFileNames = 0; decode = True; for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) { decode = False; continue; } if (aa->name[0] == '-' && decode) continue; numFileNames++; if (longestFileName < (Int32)strlen(aa->name) ) longestFileName = (Int32)strlen(aa->name); } /*-- Determine source modes; flag handling may change this too. --*/ if (numFileNames == 0) srcMode = SM_I2O; else srcMode = SM_F2F; /*-- Determine what to do (compress/uncompress/test/cat). --*/ /*-- Note that subsequent flag handling may change this. --*/ opMode = OM_Z; if ( (strstr ( progName, "unzip" ) != 0) || (strstr ( progName, "UNZIP" ) != 0) ) opMode = OM_UNZ; if ( (strstr ( progName, "z2cat" ) != 0) || (strstr ( progName, "Z2CAT" ) != 0) || (strstr ( progName, "zcat" ) != 0) || (strstr ( progName, "ZCAT" ) != 0) ) { opMode = OM_UNZ; srcMode = (numFileNames == 0) ? SM_I2O : SM_F2O; } /*-- Look at the flags. --*/ for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) break; if (aa->name[0] == '-' && aa->name[1] != '-') { for (j = 1; aa->name[j] != '\0'; j++) { switch (aa->name[j]) { case 'c': srcMode = SM_F2O; break; case 'd': opMode = OM_UNZ; break; case 'z': opMode = OM_Z; break; case 'f': forceOverwrite = True; break; case 't': opMode = OM_TEST; break; case 'k': keepInputFiles = True; break; case 's': smallMode = True; break; case 'q': noisy = False; break; case '1': blockSize100k = 1; break; case '2': blockSize100k = 2; break; case '3': blockSize100k = 3; break; case '4': blockSize100k = 4; break; case '5': blockSize100k = 5; break; case '6': blockSize100k = 6; break; case '7': blockSize100k = 7; break; case '8': blockSize100k = 8; break; case '9': blockSize100k = 9; break; case 'V': case 'L': license(); break; case 'v': verbosity++; break; case 'h': usage ( progName ); exit ( 0 ); break; default: fprintf ( stderr, "%s: Bad flag `%s'\n", progName, aa->name ); usage ( progName ); exit ( 1 ); break; } } } } /*-- And again ... --*/ for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) break; if (ISFLAG("--stdout")) srcMode = SM_F2O; else if (ISFLAG("--decompress")) opMode = OM_UNZ; else if (ISFLAG("--compress")) opMode = OM_Z; else if (ISFLAG("--force")) forceOverwrite = True; else if (ISFLAG("--test")) opMode = OM_TEST; else if (ISFLAG("--keep")) keepInputFiles = True; else if (ISFLAG("--small")) smallMode = True; else if (ISFLAG("--quiet")) noisy = False; else if (ISFLAG("--version")) license(); else if (ISFLAG("--license")) license(); else if (ISFLAG("--exponential")) workFactor = 1; else if (ISFLAG("--repetitive-best")) redundant(aa->name); else if (ISFLAG("--repetitive-fast")) redundant(aa->name); else if (ISFLAG("--fast")) blockSize100k = 1; else if (ISFLAG("--best")) blockSize100k = 9; else if (ISFLAG("--verbose")) verbosity++; else if (ISFLAG("--help")) { usage ( progName ); exit ( 0 ); } else if (strncmp ( aa->name, "--", 2) == 0) { fprintf ( stderr, "%s: Bad flag `%s'\n", progName, aa->name ); usage ( progName ); exit ( 1 ); } } if (verbosity > 4) verbosity = 4; if (opMode == OM_Z && smallMode && blockSize100k > 2) blockSize100k = 2; if (opMode == OM_TEST && srcMode == SM_F2O) { fprintf ( stderr, "%s: -c and -t cannot be used together.\n", progName ); exit ( 1 ); } if (srcMode == SM_F2O && numFileNames == 0) srcMode = SM_I2O; if (opMode != OM_Z) blockSize100k = 0; if (srcMode == SM_F2F) { signal (SIGINT, mySignalCatcher); signal (SIGTERM, mySignalCatcher); # if BZ_UNIX signal (SIGHUP, mySignalCatcher); # endif } if (opMode == OM_Z) { if (srcMode == SM_I2O) { compress ( NULL ); } else { decode = True; for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) { decode = False; continue; } if (aa->name[0] == '-' && decode) continue; numFilesProcessed++; compress ( aa->name ); } } } else if (opMode == OM_UNZ) { unzFailsExist = False; if (srcMode == SM_I2O) { uncompress ( NULL ); } else { decode = True; for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) { decode = False; continue; } if (aa->name[0] == '-' && decode) continue; numFilesProcessed++; uncompress ( aa->name ); } } if (unzFailsExist) { setExit(2); exit(exitValue); } } else { testFailsExist = False; if (srcMode == SM_I2O) { testf ( NULL ); } else { decode = True; for (aa = argList; aa != NULL; aa = aa->link) { if (ISFLAG("--")) { decode = False; continue; } if (aa->name[0] == '-' && decode) continue; numFilesProcessed++; testf ( aa->name ); } } if (testFailsExist) { if (noisy) { fprintf ( stderr, "\n" "You can use the `bzip2recover' program to attempt to recover\n" "data from undamaged sections of corrupted files.\n\n" ); } setExit(2); exit(exitValue); } } /* Free the argument list memory to mollify leak detectors (eg) Purify, Checker. Serves no other useful purpose. */ aa = argList; while (aa != NULL) { Cell* aa2 = aa->link; if (aa->name != NULL) free(aa->name); free(aa); aa = aa2; } return exitValue; } /*-----------------------------------------------------------*/ /*--- end bzip2.c ---*/ /*-----------------------------------------------------------*/