/************************************************************************** libpm.c *************************************************************************** This is the most fundamental Netpbm library. It contains routines not specific to any particular Netpbm format. Some of the subroutines in this library are intended and documented for use by Netpbm users, but most of them are just used by other Netpbm library subroutines. Before May 2001, this function was served by the libpbm library (in addition to being the library for handling the PBM format). **************************************************************************/ #define _SVID_SOURCE /* Make sure P_tmpdir is defined in GNU libc 2.0.7 (_XOPEN_SOURCE 500 does it in other libc's). pm_config.h defines TMPDIR as P_tmpdir in some environments. */ #define _XOPEN_SOURCE 500 /* Make sure ftello, fseeko are defined */ #define _LARGEFILE_SOURCE 1 /* Make sure ftello, fseeko are defined */ #define _LARGEFILE64_SOURCE 1 #define _FILE_OFFSET_BITS 64 /* This means ftello() is really ftello64() and returns a 64 bit file position. Unless the C library doesn't have ftello64(), in which case ftello() is still just ftello(). Likewise for all the other C library file functions. And off_t and fpos_t are 64 bit types instead of 32. Consequently, pm_filepos_t might be 64 bits instead of 32. */ #define _LARGE_FILES /* This does for AIX what _FILE_OFFSET_BITS=64 does for GNU */ #define _LARGE_FILE_API /* This makes the the x64() functions available on AIX */ #include #include #include #include #include #ifdef __DJGPP__ #include #endif #include "pm_c_util.h" #include "version.h" #include "compile.h" #include "nstring.h" #include "shhopt.h" #include "mallocvar.h" #include "pm.h" /* The following are set by pm_init(), then used by subsequent calls to other pm_xxx() functions. */ static const char* pm_progname; static bool pm_showmessages; /* Programs should display informational messages (because the user didn't specify the --quiet option). */ int pm_plain_output; /* Boolean: programs should produce output in plain format */ static jmp_buf * pm_jmpbufP = NULL; /* A description of the point to which the program should hyperjump if a libnetpbm function encounters an error (libnetpbm functions don't normally return in that case). User sets this to something in his own extra-library context. Libnetpbm routines that have something that needs to be cleaned up preempt it. NULL, which is the default value, means when a libnetpbm function encounters an error, it causes the process to exit. */ void pm_setjmpbuf(jmp_buf * const jmpbufP) { pm_jmpbufP = jmpbufP; } void pm_setjmpbufsave(jmp_buf * const jmpbufP, jmp_buf ** const oldJmpbufPP) { *oldJmpbufPP = pm_jmpbufP; pm_jmpbufP = jmpbufP; } void pm_longjmp(void) { if (pm_jmpbufP) longjmp(*pm_jmpbufP, 1); else exit(1); } void pm_usage(const char usage[]) { pm_error("usage: %s %s", pm_progname, usage); } void pm_perror(const char reason[] ) { if (reason != NULL && strlen(reason) != 0) pm_error("%s - errno=%d (%s)", reason, errno, strerror(errno)); else pm_error("Something failed with errno=%d (%s)", errno, strerror(errno)); } void PM_GNU_PRINTF_ATTR(1,2) pm_message(const char format[], ...) { va_list args; va_start(args, format); if (pm_showmessages) { fprintf(stderr, "%s: ", pm_progname); vfprintf(stderr, format, args); fputc('\n', stderr); } va_end(args); } void PM_GNU_PRINTF_ATTR(1,2) pm_error(const char format[], ...) { va_list args; va_start(args, format); fprintf(stderr, "%s: ", pm_progname); vfprintf(stderr, format, args); fputc('\n', stderr); va_end(args); pm_longjmp(); } /* Variable-sized arrays. */ char * pm_allocrow(unsigned int const cols, unsigned int const size) { char * itrow; if (UINT_MAX / cols < size) pm_error("Arithmetic overflow multiplying %u by %u to get the " "size of a row to allocate.", cols, size); itrow = malloc(cols * size); if (itrow == NULL) pm_error("out of memory allocating a row"); return itrow; } void pm_freerow(char * const itrow) { free(itrow); } char** pm_allocarray(int const cols, int const rows, int const size ) { /*---------------------------------------------------------------------------- Allocate an array of 'rows' rows of 'cols' columns each, with each element 'size' bytes. We use a special format where we tack on an extra element to the row index to indicate the format of the array. We have two ways of allocating the space: fragmented and unfragmented. In both, the row index (plus the extra element) is in one block of memory. In the fragmented format, each row is also in an independent memory block, and the extra row pointer is NULL. In the unfragmented format, all the rows are in a single block of memory called the row heap and the extra row pointer is the address of that block. We use unfragmented format if possible, but if the allocation of the row heap fails, we fall back to fragmented. -----------------------------------------------------------------------------*/ char** rowIndex; char * rowheap; MALLOCARRAY(rowIndex, rows + 1); if (rowIndex == NULL) pm_error("out of memory allocating row index (%u rows) for an array", rows); if (cols != 0 && rows != 0 && UINT_MAX / cols / rows < size) /* Too big even to request the memory ! */ rowheap = NULL; else rowheap = malloc((unsigned int)rows * cols * size); if (rowheap == NULL) { /* We couldn't get the whole heap in one block, so try fragmented format. */ unsigned int row; rowIndex[rows] = NULL; /* Declare it fragmented format */ for (row = 0; row < rows; ++row) { rowIndex[row] = pm_allocrow(cols, size); if (rowIndex[row] == NULL) pm_error("out of memory allocating Row %u " "(%u columns, %u bytes per tuple) " "of an array", row, cols, size); } } else { /* It's unfragmented format */ unsigned int row; rowIndex[rows] = rowheap; /* Declare it unfragmented format */ for (row = 0; row < rows; ++row) rowIndex[row] = &(rowheap[row * cols * size]); } return rowIndex; } void pm_freearray(char ** const rowIndex, int const rows) { void * const rowheap = rowIndex[rows]; if (rowheap != NULL) free(rowheap); else { unsigned int row; for (row = 0; row < rows; ++row) pm_freerow(rowIndex[row]); } free(rowIndex); } /* Case-insensitive keyword matcher. */ int pm_keymatch(char * const strarg, const char * const keywordarg, int const minchars) { int len; const char *keyword; char *str; str = strarg; keyword = keywordarg; len = strlen( str ); if ( len < minchars ) return 0; while ( --len >= 0 ) { register char c1, c2; c1 = *str++; c2 = *keyword++; if ( c2 == '\0' ) return 0; if ( ISUPPER( c1 ) ) c1 = tolower( c1 ); if ( ISUPPER( c2 ) ) c2 = tolower( c2 ); if ( c1 != c2 ) return 0; } return 1; } /* Log base two hacks. */ int pm_maxvaltobits(int const maxval) { if ( maxval <= 1 ) return 1; else if ( maxval <= 3 ) return 2; else if ( maxval <= 7 ) return 3; else if ( maxval <= 15 ) return 4; else if ( maxval <= 31 ) return 5; else if ( maxval <= 63 ) return 6; else if ( maxval <= 127 ) return 7; else if ( maxval <= 255 ) return 8; else if ( maxval <= 511 ) return 9; else if ( maxval <= 1023 ) return 10; else if ( maxval <= 2047 ) return 11; else if ( maxval <= 4095 ) return 12; else if ( maxval <= 8191 ) return 13; else if ( maxval <= 16383 ) return 14; else if ( maxval <= 32767 ) return 15; else if ( (long) maxval <= 65535L ) return 16; else pm_error( "maxval of %d is too large!", maxval ); return -1; /* Should never come here */ } int pm_bitstomaxval(int const bits) { return ( 1 << bits ) - 1; } unsigned int PURE_FN_ATTR pm_lcm(unsigned int const x, unsigned int const y, unsigned int const z, unsigned int const limit) { /*---------------------------------------------------------------------------- Compute the least common multiple of 'x', 'y', and 'z'. If it's bigger than 'limit', though, just return 'limit'. -----------------------------------------------------------------------------*/ unsigned int biggest; unsigned int candidate; if (x == 0 || y == 0 || z == 0) pm_error("pm_lcm(): Least common multiple of zero taken."); biggest = MAX(x, MAX(y,z)); candidate = biggest; while (((candidate % x) != 0 || /* not a multiple of x */ (candidate % y) != 0 || /* not a multiple of y */ (candidate % z) != 0 ) && /* not a multiple of z */ candidate <= limit) candidate += biggest; if (candidate > limit) candidate = limit; return candidate; } /* Initialization. */ #ifdef VMS static const char * vmsProgname(int * const argcP, char * argv[]) { char **temp_argv = argv; int old_argc = *argcP; int i; const char * retval; getredirection( argcP, &temp_argv ); if (*argcP > old_argc) { /* Number of command line arguments has increased */ fprintf( stderr, "Sorry!! getredirection() for VMS has " "changed the argument list!!!\n"); fprintf( stderr, "This is intolerable at the present time, " "so we must stop!!!\n"); exit(1); } for (i=0; i<*argcP; i++) argv[i] = temp_argv[i]; retval = strrchr( argv[0], '/'); if ( retval == NULL ) retval = rindex( argv[0], ']'); if ( retval == NULL ) retval = rindex( argv[0], '>'); return retval; } #endif void pm_init(const char * const progname, unsigned int const flags) { /*---------------------------------------------------------------------------- Initialize static variables that Netpbm library routines use. Any user of Netpbm library routines is expected to call this at the beginning of this program, before any other Netpbm library routines. A program may call this via pm_proginit() instead, though. -----------------------------------------------------------------------------*/ pm_setMessage(FALSE, NULL); pm_progname = progname; #ifdef O_BINARY #ifdef HAVE_SETMODE /* Set the stdin and stdout mode to binary. This means nothing on Unix, but matters on Windows. Note that stdin and stdout aren't necessarily image files. In particular, stdout is sometimes text for human consumption, typically printed on the terminal. Binary mode isn't really appropriate for that case. We do this setting here without any knowledge of how stdin and stdout are being used because it is easy. But we do make an exception for the case that we know the file is a terminal, to get a little closer to doing the right thing. */ if (!isatty(0)) setmode(0,O_BINARY); /* Standard Input */ if (!isatty(1)) setmode(1,O_BINARY); /* Standard Output */ #endif /* HAVE_SETMODE */ #endif /* O_BINARY */ } static void showVersion(void) { pm_message( "Using libnetpbm from Netpbm Version: %s", NETPBM_VERSION ); #if defined(COMPILE_TIME) && defined(COMPILED_BY) pm_message( "Compiled %s by user \"%s\"", COMPILE_TIME, COMPILED_BY ); #endif #ifdef BSD pm_message( "BSD defined" ); #endif /*BSD*/ #ifdef SYSV #ifdef VMS pm_message( "VMS & SYSV defined" ); #else pm_message( "SYSV defined" ); #endif #endif /*SYSV*/ #ifdef MSDOS pm_message( "MSDOS defined" ); #endif /*MSDOS*/ #ifdef AMIGA pm_message( "AMIGA defined" ); #endif /* AMIGA */ { const char * rgbdef; pm_message( "RGB_ENV='%s'", RGBENV ); rgbdef = getenv(RGBENV); if( rgbdef ) pm_message( "RGBENV= '%s' (env vbl set to '%s')", RGBENV, rgbdef ); else pm_message( "RGBENV= '%s' (env vbl is unset)", RGBENV); } } static void showNetpbmHelp(const char progname[]) { /*---------------------------------------------------------------------------- Tell the user where to get help for this program, assuming it is a Netpbm program (a program that comes with the Netpbm package, as opposed to a program that just uses the Netpbm libraries). Tell him to go to the URL listed in the Netpbm configuration file. The Netpbm configuration file is the file named by the NETPBM_CONF environment variable, or /etc/netpbm if there is no such environment variable. If the configuration file doesn't exist or can't be read, or doesn't contain a DOCURL value, tell him to go to a hardcoded source for documentation. -----------------------------------------------------------------------------*/ const char * netpbmConfigFileName; FILE * netpbmConfigFile; char * docurl; if (getenv("NETPBM_CONF")) netpbmConfigFileName = getenv("NETPBM_CONF"); else netpbmConfigFileName = "/etc/netpbm"; netpbmConfigFile = fopen(netpbmConfigFileName, "r"); if (netpbmConfigFile == NULL) { pm_message("Unable to open Netpbm configuration file '%s'. " "Errno = %d (%s). " "Use the NETPBM_CONF environment variable " "to control the identity of the Netpbm configuration file.", netpbmConfigFileName,errno, strerror(errno)); docurl = NULL; } else { docurl = NULL; /* default */ while (!feof(netpbmConfigFile) && !ferror(netpbmConfigFile)) { char line[80+1]; fgets(line, sizeof(line), netpbmConfigFile); if (line[0] != '#') { sscanf(line, "docurl=%s", docurl); } } if (docurl == NULL) pm_message("No 'docurl=' line in Netpbm configuration file '%s'.", netpbmConfigFileName); } if (docurl == NULL) pm_message("We have no reliable indication of where the Netpbm " "documentation is, but try " "http://netpbm.sourceforge.net or email " "Bryan Henderson (bryanh@giraffe-data.com) for help."); else pm_message("This program is part of the Netpbm package. Find " "documentation for it at %s/%s\n", docurl, progname); } void pm_proginit(int * const argcP, char * argv[]) { /*---------------------------------------------------------------------------- Do various initialization things that all programs in the Netpbm package, and programs that emulate such programs, should do. This includes processing global options. This includes calling pm_init() to initialize the Netpbm libraries. -----------------------------------------------------------------------------*/ int argn, i; const char * progname; bool showmessages; bool show_version; /* We're supposed to just show the version information, then exit the program. */ bool show_help; /* We're supposed to just tell user where to get help, then exit the program. */ /* Extract program name. */ #ifdef VMS progname = vmsProgname(argcP, argv); #else progname = strrchr( argv[0], '/'); #endif if (progname == NULL) progname = argv[0]; else ++progname; pm_init(progname, 0); /* Check for any global args. */ showmessages = TRUE; show_version = FALSE; show_help = FALSE; pm_plain_output = FALSE; for (argn = i = 1; argn < *argcP; ++argn) { if (pm_keymatch(argv[argn], "-quiet", 6) || pm_keymatch(argv[argn], "--quiet", 7)) showmessages = FALSE; else if (pm_keymatch(argv[argn], "-version", 8) || pm_keymatch(argv[argn], "--version", 9)) show_version = TRUE; else if (pm_keymatch(argv[argn], "-help", 5) || pm_keymatch(argv[argn], "--help", 6) || pm_keymatch(argv[argn], "-?", 2)) show_help = TRUE; else if (pm_keymatch(argv[argn], "-plain", 6) || pm_keymatch(argv[argn], "--plain", 7)) pm_plain_output = TRUE; else argv[i++] = argv[argn]; } *argcP=i; pm_setMessage((unsigned int) showmessages, NULL); if (show_version) { showVersion(); exit( 0 ); } else if (show_help) { pm_error("Use 'man %s' for help.", progname); /* If we can figure out a way to distinguish Netpbm programs from other programs using the Netpbm libraries, we can do better here. */ if (0) showNetpbmHelp(progname); exit(0); } } void pm_setMessage(int const newState, int * const oldStateP) { if (oldStateP) *oldStateP = pm_showmessages; pm_showmessages = !!newState; } char * pm_arg0toprogname(const char arg0[]) { /*---------------------------------------------------------------------------- Given a value for argv[0] (a command name or file name passed to a program in the standard C calling sequence), return the name of the Netpbm program to which is refers. In the most ordinary case, this is simply the argument itself. But if the argument contains a slash, it is the part of the argument after the last slash, and if there is a .exe on it (as there is for DJGPP), that is removed. The return value is in static storage within. It is null-terminated, but truncated at 64 characters. -----------------------------------------------------------------------------*/ static char retval[64+1]; char *slash_pos; /* Chop any directories off the left end */ slash_pos = strrchr(arg0, '/'); if (slash_pos == NULL) { strncpy(retval, arg0, sizeof(retval)); retval[sizeof(retval)-1] = '\0'; } else { strncpy(retval, slash_pos +1, sizeof(retval)); retval[sizeof(retval)-1] = '\0'; } /* Chop any .exe off the right end */ if (strlen(retval) >= 4 && strcmp(retval+strlen(retval)-4, ".exe") == 0) retval[strlen(retval)-4] = 0; return(retval); } /* File open/close that handles "-" as stdin/stdout and checks errors. */ FILE* pm_openr(const char * const name) { FILE* f; if (strcmp(name, "-") == 0) f = stdin; else { #ifndef VMS f = fopen(name, "rb"); #else f = fopen(name, "r", "ctx=stm"); #endif if (f == NULL) pm_error("Unable to open file '%s' for reading. " "fopen() returns errno %d (%s)", name, errno, strerror(errno)); } return f; } FILE* pm_openw(const char * const name) { FILE* f; if (strcmp(name, "-") == 0) f = stdout; else { #ifndef VMS f = fopen(name, "wb"); #else f = fopen(name, "w", "mbc=32", "mbf=2"); /* set buffer factors */ #endif if (f == NULL) pm_error("Unable to open file '%s' for writing. " "fopen() returns errno %d (%s)", name, errno, strerror(errno)); } return f; } static const char * tmpDir(void) { /*---------------------------------------------------------------------------- Return the name of the directory in which we should create temporary files. The name is a constant in static storage. -----------------------------------------------------------------------------*/ const char * tmpdir; /* running approximation of the result */ tmpdir = getenv("TMPDIR"); /* Unix convention */ if (!tmpdir || strlen(tmpdir) == 0) tmpdir = getenv("TMP"); /* Windows convention */ if (!tmpdir || strlen(tmpdir) == 0) tmpdir = getenv("TEMP"); /* Windows convention */ if (!tmpdir || strlen(tmpdir) == 0) tmpdir = TMPDIR; return tmpdir; } static int mkstempx(char * const filenameBuffer) { /*---------------------------------------------------------------------------- This is meant to be equivalent to POSIX mkstemp(). On some old systems, mktemp() is a security hazard that allows a hacker to read or write our temporary file or cause us to read or write some unintended file. On other systems, mkstemp() does not exist. A Windows/mingw environment is one which doesn't have mkstemp() (2006.06.15). We assume that if a system doesn't have mkstemp() that its mktemp() is safe, or that the total situation is such that the problems of mktemp() are not a problem for the user. -----------------------------------------------------------------------------*/ int retval; int fd; unsigned int attempts; bool gotFile; bool error; for (attempts = 0, gotFile = FALSE, error = FALSE; !gotFile && !error && attempts < 100; ++attempts) { char * rc; rc = mktemp(filenameBuffer); if (rc == NULL) error = TRUE; else { int rc; rc = open(filenameBuffer, O_CREAT | O_EXCL, S_IRUSR | S_IWUSR); if (rc == 0) { fd = rc; gotFile = TRUE; } else { if (errno == EEXIST) { /* We'll just have to keep trying */ } else error = TRUE; } } } if (gotFile) retval = fd; else retval = -1; return retval; } static int mkstemp2(char * const filenameBuffer) { #if HAVE_MKSTEMP if (0) mkstempx(NULL); /* defeat compiler unused function warning */ return mkstemp(filenameBuffer); #else return mkstempx(filenameBuffer); #endif } void pm_make_tmpfile(FILE ** const filePP, const char ** const filenameP) { int fd; FILE * fileP; const char * filenameTemplate; char * filenameBuffer; /* malloc'ed */ unsigned int fnamelen; const char * tmpdir; const char * dirseparator; fnamelen = strlen (pm_progname) + 10; /* "/" + "_XXXXXX\0" */ tmpdir = tmpDir(); if (tmpdir[strlen(tmpdir) - 1] == '/') dirseparator = ""; else dirseparator = "/"; asprintfN(&filenameTemplate, "%s%s%s%s", tmpdir, dirseparator, pm_progname, "_XXXXXX"); if (filenameTemplate == NULL) pm_error("Unable to allocate storage for temporary file name"); filenameBuffer = strdup(filenameTemplate); fd = mkstemp2(filenameBuffer); if (fd < 0) pm_error("Unable to create temporary file according to name " "pattern '%s'. mkstemp() failed with " "errno %d (%s)", filenameTemplate, errno, strerror(errno)); else { fileP = fdopen(fd, "w+b"); if (fileP == NULL) pm_error("Unable to create temporary file. fdopen() failed " "with errno %d (%s)", errno, strerror(errno)); } strfree(filenameTemplate); *filenameP = filenameBuffer; *filePP = fileP; } FILE * pm_tmpfile(void) { FILE * fileP; const char * tmpfile; pm_make_tmpfile(&fileP, &tmpfile); unlink(tmpfile); strfree(tmpfile); return fileP; } FILE * pm_openr_seekable(const char name[]) { /*---------------------------------------------------------------------------- Open the file named by name[] such that it is seekable (i.e. it can be rewound and read in multiple passes with fseek()). If the file is actually seekable, this reduces to the same as pm_openr(). If not, we copy the named file to a temporary file and return that file's stream descriptor. We use a file that the operating system recognizes as temporary, so it picks the filename and deletes the file when Caller closes it. -----------------------------------------------------------------------------*/ int stat_rc; int seekable; /* logical: file is seekable */ struct stat statbuf; FILE * original_file; FILE * seekable_file; original_file = pm_openr((char *) name); /* I would use fseek() to determine if the file is seekable and be a little more general than checking the type of file, but I don't have reliable information on how to do that. I have seen streams be partially seekable -- you can, for example seek to 0 if the file is positioned at 0 but you can't actually back up to 0. I have seen documentation that says the errno for an unseekable stream is EBADF and in practice seen ESPIPE. On the other hand, regular files are always seekable and even if some other file is, it doesn't hurt much to assume it isn't. */ stat_rc = fstat(fileno(original_file), &statbuf); if (stat_rc == 0 && S_ISREG(statbuf.st_mode)) seekable = TRUE; else seekable = FALSE; if (seekable) { seekable_file = original_file; } else { seekable_file = pm_tmpfile(); /* Copy the input into the temporary seekable file */ while (!feof(original_file) && !ferror(original_file) && !ferror(seekable_file)) { char buffer[4096]; int bytes_read; bytes_read = fread(buffer, 1, sizeof(buffer), original_file); fwrite(buffer, 1, bytes_read, seekable_file); } if (ferror(original_file)) pm_error("Error reading input file into temporary file. " "Errno = %s (%d)", strerror(errno), errno); if (ferror(seekable_file)) pm_error("Error writing input into temporary file. " "Errno = %s (%d)", strerror(errno), errno); pm_close(original_file); { int seek_rc; seek_rc = fseek(seekable_file, 0, SEEK_SET); if (seek_rc != 0) pm_error("fseek() failed to rewind temporary file. " "Errno = %s (%d)", strerror(errno), errno); } } return seekable_file; } void pm_close(FILE * const f) { fflush(f); if (ferror(f)) pm_message("A file read or write error occurred at some point"); if (f != stdin) if (fclose(f) != 0) pm_error("close of file failed with errno %d (%s)", errno, strerror(errno)); } /* The pnmtopng package uses pm_closer() and pm_closew() instead of pm_close(), apparently because the 1999 Pbmplus package has them. I don't know what the difference is supposed to be. */ void pm_closer(FILE * const f) { pm_close(f); } void pm_closew(FILE * const f) { pm_close(f); } /* Endian I/O. Before Netpbm 10.27 (March 2005), these would return failure on EOF or I/O failure. For backward compatibility, they still have the return code, but it is always zero and the routines abort the program in case of EOF or I/O failure. A program that wants to handle failure differently must use lower level (C library) interfaces. But that level of detail is uncharacteristic of a Netpbm program; the ease of programming that comes with not checking a return code is more Netpbm. It is also for historical reasons that these return signed values, when clearly unsigned would make more sense. */ static void abortWithReadError(FILE * const ifP) { if (feof(ifP)) pm_error("Unexpected end of input file"); else pm_error("Error (not EOF) reading file."); } void pm_readchar(FILE * const ifP, char * const cP) { int c; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); *cP = c; } void pm_writechar(FILE * const ofP, char const c) { putc(c, ofP); } int pm_readbigshort(FILE * const ifP, short * const sP) { int c; unsigned short s; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); s = (c & 0xff) << 8; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); s |= c & 0xff; *sP = s; return 0; } int pm_writebigshort(FILE * const ofP, short const s) { putc((s >> 8) & 0xff, ofP); putc(s & 0xff, ofP); return 0; } int pm_readbiglong(FILE * const ifP, long * const lP) { int c; unsigned long l; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l = c << 24; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c << 16; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c << 8; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c; *lP = l; return 0; } int pm_writebiglong(FILE * const ofP, long const l) { putc((l >> 24) & 0xff, ofP); putc((l >> 16) & 0xff, ofP); putc((l >> 8) & 0xff, ofP); putc((l >> 0) & 0xff, ofP); return 0; } int pm_readlittleshort(FILE * const ifP, short * const sP) { int c; unsigned short s; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); s = c & 0xff; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); s |= (c & 0xff) << 8; *sP = s; return 0; } int pm_writelittleshort(FILE * const ofP, short const s) { putc((s >> 0) & 0xff, ofP); putc((s >> 8) & 0xff, ofP); return 0; } int pm_readlittlelong(FILE * const ifP, long * const lP) { int c; unsigned long l; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l = c; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c << 8; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c << 16; c = getc(ifP); if (c == EOF) abortWithReadError(ifP); l |= c << 24; *lP = l; return 0; } int pm_writelittlelong(FILE * const ofP, long const l) { putc((l >> 0) & 0xff, ofP); putc((l >> 8) & 0xff, ofP); putc((l >> 16) & 0xff, ofP); putc((l >> 24) & 0xff, ofP); return 0; } int pm_readmagicnumber(FILE * const ifP) { int ich1, ich2; ich1 = getc(ifP); ich2 = getc(ifP); if (ich1 == EOF || ich2 == EOF) pm_error( "Error reading magic number from Netpbm image stream. " "Most often, this " "means your input file is empty." ); return ich1 * 256 + ich2; } /* Read a file of unknown size to a buffer. Return the number of bytes read. Allocate more memory as we need it. The calling routine has to free() the buffer. Oliver Trepte, oliver@fysik4.kth.se, 930613 */ #define PM_BUF_SIZE 16384 /* First try this size of the buffer, then double this until we reach PM_MAX_BUF_INC */ #define PM_MAX_BUF_INC 65536 /* Don't allocate more memory in larger blocks than this. */ char * pm_read_unknown_size(FILE * const file, long * const nread) { long nalloc; char * buf; bool eof; *nread = 0; nalloc = PM_BUF_SIZE; MALLOCARRAY(buf, nalloc); eof = FALSE; /* initial value */ while(!eof) { int val; if (*nread >= nalloc) { /* We need a larger buffer */ if (nalloc > PM_MAX_BUF_INC) nalloc += PM_MAX_BUF_INC; else nalloc += nalloc; REALLOCARRAY_NOFAIL(buf, nalloc); } val = getc(file); if (val == EOF) eof = TRUE; else buf[(*nread)++] = val; } return buf; } union cheat { uint32n l; short s; unsigned char c[4]; }; short pm_bs_short(short const s) { union cheat u; unsigned char t; u.s = s; t = u.c[0]; u.c[0] = u.c[1]; u.c[1] = t; return u.s; } long pm_bs_long(long const l) { union cheat u; unsigned char t; u.l = l; t = u.c[0]; u.c[0] = u.c[3]; u.c[3] = t; t = u.c[1]; u.c[1] = u.c[2]; u.c[2] = t; return u.l; } void pm_tell2(FILE * const fileP, void * const fileposP, unsigned int const fileposSize) { /*---------------------------------------------------------------------------- Return the current file position as *filePosP, which is a buffer 'fileposSize' bytes long. Abort the program if error, including if *fileP isn't a file that has a position. -----------------------------------------------------------------------------*/ /* Note: FTELLO() is either ftello() or ftell(), depending on the capabilities of the underlying C library. It is defined in pm_config.h. ftello(), in turn, may be either ftell() or ftello64(), as implemented by the C library. */ pm_filepos const filepos = FTELLO(fileP); if (filepos < 0) pm_error("ftello() to get current file position failed. " "Errno = %s (%d)\n", strerror(errno), errno); if (fileposSize == sizeof(pm_filepos)) { pm_filepos * const fileposP_filepos = fileposP; *fileposP_filepos = filepos; } else if (fileposSize == sizeof(long)) { if (sizeof(pm_filepos) > sizeof(long) && filepos >= (pm_filepos) 1 << (sizeof(long)*8)) pm_error("File size is too large to represent in the %u bytes " "that were provided to pm_tell2()", fileposSize); else { long * const fileposP_long = fileposP; *fileposP_long = (long)filepos; } } else pm_error("File position size passed to pm_tell() is invalid: %u. " "Valid sizes are %u and %u", fileposSize, sizeof(pm_filepos), sizeof(long)); } unsigned int pm_tell(FILE * const fileP) { long filepos; pm_tell2(fileP, &filepos, sizeof(filepos)); return filepos; } void pm_seek2(FILE * const fileP, const pm_filepos * const fileposP, unsigned int const fileposSize) { /*---------------------------------------------------------------------------- Position file *fileP to position *fileposP. Abort if error, including if *fileP isn't a seekable file. -----------------------------------------------------------------------------*/ if (fileposSize == sizeof(pm_filepos)) /* Note: FSEEKO() is either fseeko() or fseek(), depending on the capabilities of the underlying C library. It is defined in pm_config.h. fseeko(), in turn, may be either fseek() or fseeko64(), as implemented by the C library. */ FSEEKO(fileP, *fileposP, SEEK_SET); else if (fileposSize == sizeof(long)) { long const fileposLong = *(long *)fileposP; fseek(fileP, fileposLong, SEEK_SET); } else pm_error("File position size passed to pm_seek() is invalid: %u. " "Valid sizes are %u and %u", fileposSize, sizeof(pm_filepos), sizeof(long)); } void pm_seek(FILE * const fileP, unsigned long filepos) { /*---------------------------------------------------------------------------- -----------------------------------------------------------------------------*/ pm_filepos fileposBuff; fileposBuff = filepos; pm_seek2(fileP, &fileposBuff, sizeof(fileposBuff)); } void pm_nextimage(FILE * const file, int * const eofP) { /*---------------------------------------------------------------------------- Position the file 'file' to the next image in the stream, assuming it is now positioned just after the current image. I.e. read off any white space at the end of the current image's raster. Note that the raw formats don't permit such white space, but this routine tolerates it anyway, because the plain formats do permit white space after the raster. Iff there is no next image, return *eofP == TRUE. Note that in practice, we will not normally see white space here in a plain PPM or plain PGM stream because the routine to read a sample from the image reads one character of white space after the sample in order to know where the sample ends. There is not normally more than one character of white space (a newline) after the last sample in the raster. But plain PBM is another story. No white space is required between samples of a plain PBM image. But the raster normally ends with a newline nonetheless. Since the sample reading code will not have read that newline, it is there for us to read now. -----------------------------------------------------------------------------*/ bool eof; bool nonWhitespaceFound; eof = FALSE; nonWhitespaceFound = FALSE; while (!eof && !nonWhitespaceFound) { int c; c = getc(file); if (c == EOF) { if (feof(file)) eof = TRUE; else pm_error("File error on getc() to position to image"); } else { if (!isspace(c)) { int rc; nonWhitespaceFound = TRUE; /* Have to put the non-whitespace character back in the stream -- it's part of the next image. */ rc = ungetc(c, file); if (rc == EOF) pm_error("File error doing ungetc() " "to position to image."); } } } *eofP = eof; } void pm_check(FILE * const file, enum pm_check_type const check_type, pm_filepos const need_raster_size, enum pm_check_code * const retval_p) { /*---------------------------------------------------------------------------- This is not defined for use outside of libnetpbm. -----------------------------------------------------------------------------*/ struct stat statbuf; pm_filepos curpos; /* Current position of file; -1 if none */ int rc; #ifdef LARGEFILEDEBUG pm_message("pm_filepos received by pm_check() is %u bytes.", sizeof(pm_filepos)); #endif /* Note: FTELLO() is either ftello() or ftell(), depending on the capabilities of the underlying C library. It is defined in pm_config.h. ftello(), in turn, may be either ftell() or ftello64(), as implemented by the C library. */ curpos = FTELLO(file); if (curpos >= 0) { /* This type of file has a current position */ rc = fstat(fileno(file), &statbuf); if (rc != 0) pm_error("fstat() failed to get size of file, though ftello() " "successfully identified\n" "the current position. Errno=%s (%d)", strerror(errno), errno); else if (!S_ISREG(statbuf.st_mode)) { /* Not a regular file; we can't know its size */ if (retval_p) *retval_p = PM_CHECK_UNCHECKABLE; } else { pm_filepos const have_raster_size = statbuf.st_size - curpos; if (have_raster_size < need_raster_size) pm_error("File has invalid format. The raster should " "contain %u bytes, but\n" "the file ends after only %u bytes.", (unsigned int) need_raster_size, (unsigned int) have_raster_size); else if (have_raster_size > need_raster_size) { if (retval_p) *retval_p = PM_CHECK_TOO_LONG; } else { if (retval_p) *retval_p = PM_CHECK_OK; } } } else if (retval_p) *retval_p = PM_CHECK_UNCHECKABLE; }