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File _service:obs_scm:netpbm-security-code.patch of Package netpbm
diff -ruNp a/analyzer/pgmtexture.c b/analyzer/pgmtexture.c --- a/analyzer/pgmtexture.c 2021-06-02 15:53:59.866205957 +0200 +++ b/analyzer/pgmtexture.c 2021-06-02 16:13:04.906252648 +0200 @@ -54,6 +54,7 @@ vector(unsigned int const nl, assert(nh >= nl); + overflow_add(nh - nl, 1); MALLOCARRAY(v, (unsigned) (nh - nl + 1)); if (v == NULL) @@ -85,6 +86,7 @@ matrix (unsigned int const nrl, assert(nrh >= nrl); /* allocate pointers to rows */ + overflow_add(nrh - nrl, 1); MALLOCARRAY(m, (unsigned) (nrh - nrl + 1)); if (m == NULL) pm_error("Unable to allocate memory for a matrix."); @@ -93,6 +95,7 @@ matrix (unsigned int const nrl, assert (nch >= ncl); + overflow_add(nch - ncl, 1); /* allocate rows and set pointers to them */ for (i = nrl; i <= nrh; ++i) { MALLOCARRAY(m[i], (unsigned) (nch - ncl + 1)); diff -ruNp a/converter/other/gemtopnm.c b/converter/other/gemtopnm.c --- a/converter/other/gemtopnm.c 2021-06-02 15:53:59.835205659 +0200 +++ b/converter/other/gemtopnm.c 2021-06-02 16:15:29.598641385 +0200 @@ -106,6 +106,7 @@ main(argc, argv) pnm_writepnminit( stdout, cols, rows, MAXVAL, type, 0 ); + overflow_add(cols, padright); { /* allocate input row data structure */ int plane; diff -ruNp a/converter/other/jpegtopnm.c b/converter/other/jpegtopnm.c --- a/converter/other/jpegtopnm.c 2021-06-02 15:53:59.833205640 +0200 +++ b/converter/other/jpegtopnm.c 2021-06-02 16:16:28.520206914 +0200 @@ -862,6 +862,8 @@ convertImage(FILE * /* Calculate output image dimensions so we can allocate space */ jpeg_calc_output_dimensions(cinfoP); + overflow2(cinfoP->output_width, cinfoP->output_components); + /* Start decompressor */ jpeg_start_decompress(cinfoP); diff -ruNp a/converter/other/pbmtopgm.c b/converter/other/pbmtopgm.c --- a/converter/other/pbmtopgm.c 2021-06-02 15:53:59.831205621 +0200 +++ b/converter/other/pbmtopgm.c 2021-06-02 16:17:14.248645808 +0200 @@ -60,6 +60,7 @@ main(int argc, char *argv[]) { outrow = pgm_allocrow(cols) ; + overflow2(width, height); maxval = MIN(PGM_OVERALLMAXVAL, width*height); pgm_writepgminit(stdout, cols, rows, maxval, 0) ; diff -ruNp a/converter/other/pnmtoddif.c b/converter/other/pnmtoddif.c --- a/converter/other/pnmtoddif.c 2021-06-02 15:53:59.832205630 +0200 +++ b/converter/other/pnmtoddif.c 2021-06-02 16:18:17.064248709 +0200 @@ -629,6 +629,7 @@ main(int argc, char *argv[]) { switch (PNM_FORMAT_TYPE(format)) { case PBM_TYPE: ip.bits_per_pixel = 1; + overflow_add(cols, 7); ip.bytes_per_line = (cols + 7) / 8; ip.spectral = 2; ip.components = 1; @@ -644,6 +645,7 @@ main(int argc, char *argv[]) { ip.polarity = 2; break; case PPM_TYPE: + overflow2(cols, 3); ip.bytes_per_line = 3 * cols; ip.bits_per_pixel = 24; ip.spectral = 5; diff -ruNp a/converter/other/pnmtojpeg.c b/converter/other/pnmtojpeg.c --- a/converter/other/pnmtojpeg.c 2021-06-02 15:53:59.835205659 +0200 +++ b/converter/other/pnmtojpeg.c 2021-06-02 19:57:44.413225834 +0200 @@ -606,7 +606,11 @@ read_scan_script(j_compress_ptr const ci want JPOOL_PERMANENT. */ const unsigned int scan_info_size = nscans * sizeof(jpeg_scan_info); - jpeg_scan_info * const scan_info = + const jpeg_scan_info * scan_info; + + overflow2(nscans, sizeof(jpeg_scan_info)); + + scan_info = (jpeg_scan_info *) (*cinfo->mem->alloc_small) ((j_common_ptr) cinfo, JPOOL_IMAGE, scan_info_size); @@ -938,6 +942,9 @@ compute_rescaling_array(JSAMPLE ** const const long half_maxval = maxval / 2; long val; + overflow_add(maxval, 1); + overflow2(maxval+1, sizeof(JSAMPLE)); + *rescale_p = (JSAMPLE *) (cinfo.mem->alloc_small) ((j_common_ptr) &cinfo, JPOOL_IMAGE, (size_t) (((long) maxval + 1L) * @@ -1016,6 +1023,7 @@ convert_scanlines(struct jpeg_compress_s */ /* Allocate the libpnm output and compressor input buffers */ + overflow2(cinfo_p->image_width, cinfo_p->input_components); buffer = (*cinfo_p->mem->alloc_sarray) ((j_common_ptr) cinfo_p, JPOOL_IMAGE, (unsigned int) cinfo_p->image_width * cinfo_p->input_components, diff -ruNp a/converter/other/pnmtops.c b/converter/other/pnmtops.c --- a/converter/other/pnmtops.c 2021-06-02 15:53:59.835205659 +0200 +++ b/converter/other/pnmtops.c 2021-06-02 20:02:06.055502227 +0200 @@ -294,17 +294,21 @@ parseCommandLine(int argc, const char ** validateCompDimension(width, 72, "-width value"); validateCompDimension(height, 72, "-height value"); + overflow2(width, 72); cmdlineP->width = width * 72; + overflow2(height, 72); cmdlineP->height = height * 72; if (imagewidthSpec) { validateCompDimension(imagewidth, 72, "-imagewidth value"); + overflow2(imagewidth, 72); cmdlineP->imagewidth = imagewidth * 72; } else cmdlineP->imagewidth = 0; if (imageheightSpec) { - validateCompDimension(imagewidth, 72, "-imageheight value"); + validateCompDimension(imageheight, 72, "-imageheight value"); + overflow2(imageheight, 72); cmdlineP->imageheight = imageheight * 72; } else diff -ruNp a/converter/other/rletopnm.c b/converter/other/rletopnm.c --- a/converter/other/rletopnm.c 2021-06-02 15:53:59.834205650 +0200 +++ b/converter/other/rletopnm.c 2021-06-02 20:03:24.864187893 +0200 @@ -19,6 +19,8 @@ * If you modify this software, you should include a notice giving the * name of the person performing the modification, the date of modification, * and the reason for such modification. + * + * 2002-12-19: Fix maths wrapping bugs. Alan Cox <alan@redhat.com> */ /* * rletopnm - A conversion program to convert from Utah's "rle" image format diff -ruNp a/converter/other/sirtopnm.c b/converter/other/sirtopnm.c --- a/converter/other/sirtopnm.c 2021-06-02 15:53:59.833205640 +0200 +++ b/converter/other/sirtopnm.c 2021-06-02 20:03:50.280409024 +0200 @@ -69,6 +69,7 @@ char* argv[]; } break; case PPM_TYPE: + overflow3(cols, rows, 3); picsize = cols * rows * 3; planesize = cols * rows; if ( !( sirarray = (unsigned char*) malloc( picsize ) ) ) diff -ruNp a/converter/other/tifftopnm.c b/converter/other/tifftopnm.c --- a/converter/other/tifftopnm.c 2021-06-02 15:53:59.834205650 +0200 +++ b/converter/other/tifftopnm.c 2021-06-02 20:04:47.721908789 +0200 @@ -1372,7 +1372,9 @@ convertRasterByRows(pnmOut * const if (scanbuf == NULL) pm_error("can't allocate memory for scanline buffer"); - MALLOCARRAY(samplebuf, cols * spp); + /* samplebuf is unsigned int * !!! */ + samplebuf = (unsigned int *) malloc3(cols , sizeof(unsigned int) , spp); + if (samplebuf == NULL) pm_error("can't allocate memory for row buffer"); diff -ruNp a/converter/other/xwdtopnm.c b/converter/other/xwdtopnm.c --- a/converter/other/xwdtopnm.c 2021-06-02 15:53:59.833205640 +0200 +++ b/converter/other/xwdtopnm.c 2021-06-02 20:23:21.807634239 +0200 @@ -210,6 +210,10 @@ processX10Header(X10WDFileHeader * cons *colorsP = pnm_allocrow(2); PNM_ASSIGN1((*colorsP)[0], 0); PNM_ASSIGN1((*colorsP)[1], *maxvalP); + overflow_add(h10P->pixmap_width, 15); + if(h10P->pixmap_width < 0) + pm_error("assert: negative width"); + overflow2((((h10P->pixmap_width + 15) / 16) * 16 - h10P->pixmap_width), 8); *padrightP = (((h10P->pixmap_width + 15) / 16) * 16 - h10P->pixmap_width) * 8; *bits_per_itemP = 16; @@ -635,6 +639,7 @@ processX11Header(X11WDFileHeader * cons *colsP = h11FixedP->pixmap_width; *rowsP = h11FixedP->pixmap_height; + overflow2(h11FixedP->bytes_per_line, 8); *padrightP = h11FixedP->bytes_per_line * 8 - h11FixedP->pixmap_width * h11FixedP->bits_per_pixel; diff -ruNp a/converter/pbm/mdatopbm.c b/converter/pbm/mdatopbm.c --- a/converter/pbm/mdatopbm.c 2021-06-02 15:53:59.826205573 +0200 +++ b/converter/pbm/mdatopbm.c 2021-06-02 20:23:21.807634239 +0200 @@ -245,10 +245,13 @@ main(int argc, char **argv) { pm_readlittleshort(infile, &yy); nInCols = yy; } + overflow2(nOutCols, 8); nOutCols = 8 * nInCols; nOutRows = nInRows; - if (bScale) + if (bScale) { + overflow2(nOutRows, 2); nOutRows *= 2; + } data = pbm_allocarray(nOutCols, nOutRows); diff -ruNp a/converter/pbm/mgrtopbm.c b/converter/pbm/mgrtopbm.c --- a/converter/pbm/mgrtopbm.c 2022-01-03 16:41:24.856969944 +0100 +++ b/converter/pbm/mgrtopbm.c 2022-01-03 16:43:27.023842152 +0100 @@ -105,6 +105,8 @@ readMgrHeader(FILE * const ifP, interpHdrWidth (head, colsP); interpHdrHeight(head, rowsP); + overflow_add(*colsP, pad); + *padrightP = ((*colsP + pad - 1) / pad) * pad - *colsP; } diff --git a/converter/pbm/pbmto4425.c b/converter/pbm/pbmto4425.c index 1d97ac6..c4c8cbb 100644 --- a/converter/pbm/pbmto4425.c +++ b/converter/pbm/pbmto4425.c @@ -2,6 +2,7 @@ #include "nstring.h" #include "pbm.h" +#include <string.h> static char bit_table[2][3] = { {1, 4, 0x10}, @@ -160,7 +161,7 @@ main(int argc, char * argv[]) { xres = vmap_width * 2; yres = vmap_height * 3; - vmap = malloc(vmap_width * vmap_height * sizeof(char)); + vmap = malloc3(vmap_width, vmap_height, sizeof(char)); if(vmap == NULL) { pm_error( "Cannot allocate memory" ); diff --git a/converter/pbm/pbmtogem.c b/converter/pbm/pbmtogem.c index 4fd30e9..c82757d 100644 --- a/converter/pbm/pbmtogem.c +++ b/converter/pbm/pbmtogem.c @@ -79,6 +79,7 @@ putinit (int const rows, int const cols) bitsperitem = 0; bitshift = 7; outcol = 0; + overflow_add(cols, 7); outmax = (cols + 7) / 8; outrow = (unsigned char *) pm_allocrow (outmax, sizeof (unsigned char)); lastrow = (unsigned char *) pm_allocrow (outmax, sizeof (unsigned char)); diff -ruNp a/converter/pbm/pbmtogo.c b/converter/pbm/pbmtogo.c --- a/converter/pbm/pbmtogo.c 2021-06-02 15:53:59.826205573 +0200 +++ b/converter/pbm/pbmtogo.c 2021-06-02 20:23:21.809634256 +0200 @@ -158,6 +158,7 @@ main(int argc, bitrow = pbm_allocrow(cols); /* Round cols up to the nearest multiple of 8. */ + overflow_add(cols, 7); rucols = ( cols + 7 ) / 8; bytesperrow = rucols; /* GraphOn uses bytes */ rucols = rucols * 8; diff -ruNp a/converter/pbm/pbmtolj.c b/converter/pbm/pbmtolj.c --- a/converter/pbm/pbmtolj.c 2021-06-02 15:53:59.828205592 +0200 +++ b/converter/pbm/pbmtolj.c 2021-06-02 20:23:21.810634265 +0200 @@ -120,7 +120,11 @@ parseCommandLine(int argc, char ** argv, static void allocateBuffers(unsigned int const cols) { + overflow_add(cols, 8); rowBufferSize = (cols + 7) / 8; + overflow_add(rowBufferSize, 128); + overflow_add(rowBufferSize, rowBufferSize+128); + overflow_add(rowBufferSize+10, rowBufferSize/8); packBufferSize = rowBufferSize + (rowBufferSize + 127) / 128 + 1; deltaBufferSize = rowBufferSize + rowBufferSize / 8 + 10; diff -ruNp a/converter/pbm/pbmtomda.c b/converter/pbm/pbmtomda.c --- a/converter/pbm/pbmtomda.c 2021-06-02 15:53:59.827205582 +0200 +++ b/converter/pbm/pbmtomda.c 2021-06-02 20:23:21.810634265 +0200 @@ -179,6 +179,7 @@ int main(int argc, char **argv) nOutRowsUnrounded = bScale ? nInRows/2 : nInRows; + overflow_add(nOutRowsUnrounded, 3); nOutRows = ((nOutRowsUnrounded + 3) / 4) * 4; /* MDA wants rows a multiple of 4 */ nOutCols = nInCols / 8; diff -ruNp a/converter/pbm/pbmtoppa/pbm.c b/converter/pbm/pbmtoppa/pbm.c --- a/converter/pbm/pbmtoppa/pbm.c 2021-06-02 15:53:59.830205611 +0200 +++ b/converter/pbm/pbmtoppa/pbm.c 2021-06-02 20:23:21.811634274 +0200 @@ -11,185 +11,128 @@ #include <stdio.h> #include <stdlib.h> #include <string.h> -#include <limits.h> -#include "pm.h" -#include "nstring.h" #include "ppapbm.h" -int -make_pbm_stat(pbm_stat * const pbmStatP, - FILE * const ifP) { - - char line[1024]; - char * rc; - int retval; - - pbmStatP->fptr = ifP; - pbmStatP->version = none; - pbmStatP->current_line = 0; - pbmStatP->unread = 0; - - rc = fgets(line, 1024, ifP); - if (rc == NULL) - retval = 0; - else { - line[strlen(line)-1] = 0; - - if (streq(line,"P1")) - pbmStatP->version=P1; - if (streq(line,"P4")) - pbmStatP->version=P4; - - if (pbmStatP->version == none) { - pm_message("unknown PBM magic '%s'", line); - retval = 0; - } else { - do { - char * rc; - rc = fgets(line, 1024, ifP); - if (rc == NULL) - return 0; - } while (line[0] == '#'); - { - int rc; - rc = sscanf(line, "%d %d", - &pbmStatP->width, &pbmStatP->height); - if (rc != 2) - retval = 0; - else { - if (pbmStatP->width < 0) { - pm_message("Image has negative width"); - retval = 0; - } else if (pbmStatP->width > INT_MAX/2) { - pm_message("Uncomputeably large width: %d", - pbmStatP->width); - retval = 0; - } else if (pbmStatP->height < 0) { - pm_message("Image has negative height"); - retval = 0; - } else if (pbmStatP->height > INT_MAX/2) { - pm_message("Uncomputeably large height: %d", - pbmStatP->height); - retval = 0; - } else - retval = 1; - } - } - } - } - return retval; -} +int make_pbm_stat(pbm_stat* pbm,FILE* fptr) +{ + char line[1024]; + pbm->fptr=fptr; + pbm->version=none; + pbm->current_line=0; + pbm->unread = 0; + if (fgets (line, 1024, fptr) == NULL) + return 0; + line[strlen(line)-1] = 0; -static int -getbytes(FILE * const ifP, - unsigned int const width, - unsigned char * const data) { - - unsigned char mask; - unsigned char acc; - unsigned char * place; - unsigned int num; - int retval; - - if (width == 0) - retval = 0; - else { - for (mask = 0x80, acc = 0, num = 0, place = data; num < width; ) { - switch (getc(ifP)) { - case EOF: - return 0; - case '1': - acc |= mask; - /* fall through */ - case '0': - mask >>= 1; - ++num; - if (mask == 0x00) { /* if (num % 8 == 0) */ - *place++ = acc; - acc = 0; - mask = 0x80; - } - } - } - if (width % 8 != 0) - *place = acc; - - retval = 1; - } - return retval; -} + if(!strcmp(line,"P1")) pbm->version=P1; + if(!strcmp(line,"P4")) pbm->version=P4; + if(pbm->version == none) + { + fprintf(stderr,"pbm_readheader(): unknown PBM magic '%s'\n",line); + return 0; + } + do + if (fgets (line, 1024, fptr) == NULL) + return 0; + while (line[0] == '#'); + if (2 != sscanf (line, "%d %d", &pbm->width, &pbm->height)) + return 0; -int -pbm_readline(pbm_stat * const pbmStatP, - unsigned char * const data) { -/*---------------------------------------------------------------------------- - Read a single line into data which must be at least (pbmStatP->width+7)/8 - bytes of storage. ------------------------------------------------------------------------------*/ - int retval; - - if (pbmStatP->current_line >= pbmStatP->height) - retval = 0; - else { - if (pbmStatP->unread) { - memcpy(data, pbmStatP->revdata, (pbmStatP->width+7)/8); - ++pbmStatP->current_line; - pbmStatP->unread = 0; - free(pbmStatP->revdata); - pbmStatP->revdata = NULL; - retval = 1; - } else { - switch (pbmStatP->version) { - case P1: - if (getbytes(pbmStatP->fptr, pbmStatP->width, data)) { - pbmStatP->current_line++; - retval = 1; - } else - retval = 0; - break; - case P4: { - int tmp, tmp2; - tmp = (pbmStatP->width+7)/8; - tmp2 = fread(data,1,tmp,pbmStatP->fptr); - if (tmp2 == tmp) { - ++pbmStatP->current_line; - retval = 1; - } else { - pm_message("error reading line data (%d)", tmp2); - retval = 0; - } - } break; - - default: - pm_message("unknown PBM version"); - retval = 0; - } - } - } - return retval; + return 1; } +static int getbytes(FILE *fptr,int width,unsigned char* data) +{ + unsigned char mask,acc,*place; + int num; + + if(!width) return 0; + for(mask=0x80, acc=0, num=0, place=data; num<width; ) + { + switch(getc(fptr)) + { + case EOF: + return 0; + case '1': + acc|=mask; + /* fall through */ + case '0': + mask>>=1; + num++; + if(!mask) /* if(num%8 == 0) */ + { + *place++ = acc; + acc=0; + mask=0x80; + } + } + } + if(width%8) + *place=acc; + return 1; +} +/* Reads a single line into data which must be at least (pbm->width+7)/8 + bytes of storage */ +int pbm_readline(pbm_stat* pbm,unsigned char* data) +{ + int tmp,tmp2; + + if(pbm->current_line >= pbm->height) return 0; + + if (pbm->unread) + { + memcpy (data, pbm->revdata, (pbm->width+7)/8); + pbm->current_line++; + pbm->unread = 0; + free (pbm->revdata); + pbm->revdata = NULL; + return 1; + } -void -pbm_unreadline(pbm_stat * const pbmStatP, - void * const data) { -/*---------------------------------------------------------------------------- - Push a line back into the buffer; we read too much! ------------------------------------------------------------------------------*/ - /* can store only one line in the unread buffer */ - - if (!pbmStatP->unread) { - pbmStatP->unread = 1; - pbmStatP->revdata = malloc ((pbmStatP->width+7)/8); - memcpy(pbmStatP->revdata, data, (pbmStatP->width+7)/8); - --pbmStatP->current_line; + switch(pbm->version) + { + case P1: + if(getbytes(pbm->fptr,pbm->width,data)) + { + pbm->current_line++; + return 1; } -} + return 0; + + case P4: + overflow_add(pbm->width, 7); + tmp=(pbm->width+7)/8; + tmp2=fread(data,1,tmp,pbm->fptr); + if(tmp2 == tmp) + { + pbm->current_line++; + return 1; + } + fprintf(stderr,"pbm_readline(): error reading line data (%d)\n",tmp2); + return 0; + default: + fprintf(stderr,"pbm_readline(): unknown PBM version\n"); + return 0; + } +} +/* push a line back into the buffer; we read too much! */ +void pbm_unreadline (pbm_stat *pbm, void *data) +{ + /* can only store one line in the unread buffer */ + if (pbm->unread) + return; + + pbm->unread = 1; + overflow_add(pbm->width, 7); + pbm->revdata = malloc ((pbm->width+7)/8); + memcpy (pbm->revdata, data, (pbm->width+7)/8); + pbm->current_line--; +} diff -ruNp a/converter/pbm/pbmtoppa/pbmtoppa.c b/converter/pbm/pbmtoppa/pbmtoppa.c --- a/converter/pbm/pbmtoppa/pbmtoppa.c 2021-06-02 15:53:59.829205601 +0200 +++ b/converter/pbm/pbmtoppa/pbmtoppa.c 2021-06-02 20:23:21.811634274 +0200 @@ -453,6 +453,7 @@ main(int argc, char *argv[]) { pm_error("main(): unrecognized parameter '%s'", argv[argn]); } + overflow_add(Width, 7); Pwidth=(Width+7)/8; printer.fptr=out; diff -ruNp a/converter/pbm/pbmtoxbm.c b/converter/pbm/pbmtoxbm.c --- a/converter/pbm/pbmtoxbm.c 2021-06-02 15:53:59.829205601 +0200 +++ b/converter/pbm/pbmtoxbm.c 2021-06-02 20:23:21.812634282 +0200 @@ -352,6 +352,8 @@ convertRaster(FILE * const ifP, unsigned char * bitrow; unsigned int row; + + overflow_add(cols, padright); putinit(xbmVersion); diff --git a/converter/pbm/pktopbm.c b/converter/pbm/pktopbm.c index 712f339..b6fcb02 100644 --- a/converter/pbm/pktopbm.c +++ b/converter/pbm/pktopbm.c @@ -280,6 +280,7 @@ main(int argc, char *argv[]) { if (flagbyte == 7) { /* long form preamble */ integer packetlength = get32() ; /* character packet length */ car = get32() ; /* character number */ + overflow_add(packetlength, pktopbm_pkloc); endofpacket = packetlength + pktopbm_pkloc; /* calculate end of packet */ if ((car >= MAXPKCHAR) || !filename[car]) { diff -ruNp a/converter/pbm/thinkjettopbm.l b/converter/pbm/thinkjettopbm.l --- a/converter/pbm/thinkjettopbm.l 2021-06-02 15:53:59.828205592 +0200 +++ b/converter/pbm/thinkjettopbm.l 2021-06-02 20:23:21.813634291 +0200 @@ -114,7 +114,9 @@ DIG [0-9] <RASTERMODE>\033\*b{DIG}+W { int l; if (rowCount >= rowCapacity) { - rowCapacity += 100; + overflow_add(rowCapacity, 100); + rowCapacity += 100; + overflow2(rowCapacity, sizeof *rows); rows = realloc (rows, rowCapacity * sizeof *rows); if (rows == NULL) pm_error ("Out of memory."); @@ -226,6 +228,8 @@ yywrap (void) /* * Quite simple since ThinkJet bit arrangement matches PBM */ + + overflow2(maxRowLength, 8); pbm_writepbminit(stdout, maxRowLength*8, rowCount, 0); packed_bitrow = malloc(maxRowLength); diff -ruNp a/converter/pbm/ybmtopbm.c b/converter/pbm/ybmtopbm.c --- a/converter/pbm/ybmtopbm.c 2022-01-03 16:41:24.857969951 +0100 +++ b/converter/pbm/ybmtopbm.c 2022-01-03 16:42:59.671646876 +0100 @@ -49,6 +49,8 @@ getinit(FILE * const ifP, *colsP = (unsigned int) cols; *rowsP = (unsigned int) rows; *depthP = 1; + + overflow_add(*colsP, 15); } diff -ruNp a/converter/pgm/lispmtopgm.c b/converter/pgm/lispmtopgm.c --- a/converter/pgm/lispmtopgm.c 2021-06-02 15:53:59.831205621 +0200 +++ b/converter/pgm/lispmtopgm.c 2021-06-02 20:23:21.814634300 +0200 @@ -58,6 +58,7 @@ main( argc, argv ) pm_error( "depth (%d bits) is too large", depth); pgm_writepgminit( stdout, cols, rows, (gray) maxval, 0 ); + overflow_add(cols, 7); grayrow = pgm_allocrow( ( cols + 7 ) / 8 * 8 ); for ( row = 0; row < rows; ++row ) @@ -102,6 +103,8 @@ getinit( file, colsP, rowsP, depthP, pad if ( *depthP == 0 ) *depthP = 1; /* very old file */ + + overflow_add((int)colsP, 31); *padrightP = ( ( *colsP + 31 ) / 32 ) * 32 - *colsP; diff -ruNp a/converter/pgm/psidtopgm.c b/converter/pgm/psidtopgm.c --- a/converter/pgm/psidtopgm.c 2021-06-02 15:53:59.830205611 +0200 +++ b/converter/pgm/psidtopgm.c 2021-06-02 20:23:21.815634309 +0200 @@ -78,6 +78,7 @@ main(int argc, pm_error("bits/sample (%d) is too large.", bitspersample); pgm_writepgminit(stdout, cols, rows, maxval, 0); + overflow_add(cols, 7); grayrow = pgm_allocrow((cols + 7) / 8 * 8); for (row = 0; row < rows; ++row) { unsigned int col; diff --git a/converter/ppm/Makefile b/converter/ppm/Makefile index 003ef8d..b97349d 100644 --- a/converter/ppm/Makefile +++ b/converter/ppm/Makefile @@ -11,7 +11,7 @@ SUBDIRS = hpcdtoppm ppmtompeg PORTBINARIES = 411toppm eyuvtoppm gouldtoppm ilbmtoppm imgtoppm \ leaftoppm mtvtoppm neotoppm \ - pcxtoppm pc1toppm pi1toppm picttoppm pjtoppm \ + pcxtoppm pc1toppm pi1toppm pjtoppm \ ppmtoacad ppmtoapplevol ppmtoarbtxt ppmtoascii \ ppmtobmp ppmtoeyuv ppmtogif ppmtoicr ppmtoilbm \ ppmtoleaf ppmtolj ppmtomitsu ppmtoneo \ diff --git a/converter/ppm/ilbmtoppm.c b/converter/ppm/ilbmtoppm.c index b9b8986..f4fe331 100644 --- a/converter/ppm/ilbmtoppm.c +++ b/converter/ppm/ilbmtoppm.c @@ -608,6 +608,7 @@ decode_row(FILE * const ifP, rawtype *chp; cols = bmhdP->w; + overflow_add(cols, 15); bytes = RowBytes(cols); for( plane = 0; plane < nPlanes; plane++ ) { int mask; @@ -695,6 +696,23 @@ decode_mask(FILE * const ifP, Multipalette handling ****************************************************************************/ +static void * +xmalloc2(x, y) + int x; + int y; +{ + void *mem; + + overflow2(x,y); + if( x * y == 0 ) + return NULL; + + mem = malloc2(x,y); + if( mem == NULL ) + pm_error("out of memory allocating %d bytes", x * y); + return mem; +} + static void multi_adjust(ColorMap * const cmapP, @@ -1363,6 +1381,9 @@ dcol_to_ppm(FILE * const ifP, if( redmaxval != maxval || greenmaxval != maxval || bluemaxval != maxval ) pm_message("scaling colors to %d bits", pm_maxvaltobits(maxval)); + overflow_add(redmaxval, 1); + overflow_add(greenmaxval, 1); + overflow_add(bluemaxval, 1); MALLOCARRAY_NOFAIL(redtable, redmaxval +1); MALLOCARRAY_NOFAIL(greentable, greenmaxval +1); MALLOCARRAY_NOFAIL(bluetable, bluemaxval +1); @@ -1802,7 +1823,9 @@ PCHG_ConvertSmall(PCHGHeader * const ChangeCount32 = *data++; remDataSize -= 2; + overflow_add(ChangeCount16, ChangeCount32); changes = ChangeCount16 + ChangeCount32; + overflow_add(changes, 1); for (i = 0; i < changes; ++i) { if (totalchanges >= pchgP->TotalChanges) goto fail; if (remDataSize < 2) goto fail; @@ -2067,6 +2090,9 @@ read_pchg(FILE * const ifP, cmap->mp_change[i] = NULL; if( PCHG.StartLine < 0 ) { int nch; + if(PCHG.MaxReg < PCHG.MinReg) + pm_error("assert: MinReg > MaxReg"); + overflow_add(PCHG.MaxReg-PCHG.MinReg, 2); nch = PCHG.MaxReg - PCHG.MinReg +1; MALLOCARRAY_NOFAIL(cmap->mp_init, nch + 1); for( i = 0; i < nch; i++ ) @@ -2143,6 +2169,7 @@ process_body( FILE * const ifP, if (typeid == ID_ILBM) { int isdeep; + overflow_add(bmhdP->w, 15); MALLOCARRAY_NOFAIL(ilbmrow, RowBytes(bmhdP->w)); *viewportmodesP |= fakeviewport; /* -isham/-isehb */ diff -ruNp a/converter/ppm/imgtoppm.c b/converter/ppm/imgtoppm.c --- a/converter/ppm/imgtoppm.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/imgtoppm.c 2021-06-02 20:23:21.818634335 +0200 @@ -84,6 +84,7 @@ main(int argc, char ** argv) { len = atoi((char*) buf ); if ( fread( buf, len, 1, ifp ) != 1 ) pm_error( "bad colormap buf" ); + overflow2(cmaplen, 3); if ( cmaplen * 3 != len ) { pm_message( @@ -105,6 +106,7 @@ main(int argc, char ** argv) { pm_error( "bad pixel data header" ); buf[8] = '\0'; len = atoi((char*) buf ); + overflow2(cols, rows); if ( len != cols * rows ) pm_message( "pixel data length (%d) does not match image size (%d)", diff --git a/converter/ppm/pcxtoppm.c b/converter/ppm/pcxtoppm.c index e252ba2..270ae3b 100644 --- a/converter/ppm/pcxtoppm.c +++ b/converter/ppm/pcxtoppm.c @@ -409,6 +409,7 @@ pcx_planes_to_pixels(pixels, bitplanes, bytesperline, planes, bitsperpixel) /* * clear the pixel buffer */ + overflow2(bytesperline, 8); npixels = (bytesperline * 8) / bitsperpixel; p = pixels; while (--npixels >= 0) @@ -470,6 +471,7 @@ pcx_16col_to_ppm(FILE * const ifP, } /* BytesPerLine should be >= BitsPerPixel * cols / 8 */ + overflow2(BytesPerLine, 8); rawcols = BytesPerLine * 8 / BitsPerPixel; if (headerCols > rawcols) { pm_message("warning - BytesPerLine = %d, " diff -ruNp a/converter/ppm/picttoppm.c b/converter/ppm/picttoppm.c --- a/converter/ppm/picttoppm.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/picttoppm.c 2021-06-02 20:23:21.820634352 +0200 @@ -1,3 +1,4 @@ +#error "Unfixable. Don't ship me" /* * picttoppm.c -- convert a MacIntosh PICT file to PPM format. * diff -ruNp a/converter/ppm/pjtoppm.c b/converter/ppm/pjtoppm.c --- a/converter/ppm/pjtoppm.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/pjtoppm.c 2021-06-02 20:23:21.821634361 +0200 @@ -10,98 +10,66 @@ ** implied warranty. */ -#include <stdbool.h> - #include "ppm.h" -#include "pm_c_util.h" #include "mallocvar.h" static char usage[] = "[paintjetfile]"; - - -static unsigned int -uintProduct(unsigned int const multiplicand, - unsigned int const multiplier) { - - if (UINT_MAX / multiplier < multiplicand) - pm_error("Airthmetic overflow"); - - return multiplicand * multiplier; -} - - - +static int egetc ARGS((FILE *fp)); static int -egetc(FILE * const ifP) { +egetc(fp) + FILE *fp; +{ int c; - - c = fgetc(ifP); - - if (c == -1) + if ((c = fgetc(fp)) == -1) pm_error("unexpected end of file"); - - return c; + return(c); } - - int -main(int argc, const char ** argv) { - +main(argc, argv) + int argc; + char *argv[]; +{ int cmd, val; char buffer[BUFSIZ]; - int planes = 3; - unsigned int rows; - unsigned int rowsX; - unsigned int cols; - bool colsIsSet; + int planes = 3, rows = -1, cols = -1; + int r = 0, c = 0, p = 0, i; unsigned char **image = NULL; int *imlen; - FILE * ifP; + FILE *fp = stdin; int mode; - bool modeIsSet; int argn; unsigned char bf[3]; - pixel * pixrow; - int c; - int row; - int plane; + pixel *pixrow; - pm_proginit(&argc, argv); + ppm_init(&argc, argv); argn = 1; if (argn != argc) - ifP = pm_openr(argv[argn++]); + fp = pm_openr(argv[argn++]); else - ifP = stdin; + fp = stdin; if (argn != argc) pm_usage(usage); - row = 0; /* initial value */ - plane = 0; /* initial value */ - modeIsSet = false; /* initial value */ - colsIsSet = false; /* initial value */ - rowsX = 0; /* initial value */ - - while ((c = fgetc(ifP)) != -1) { + while ((c = fgetc(fp)) != -1) { if (c != '\033') continue; - switch (c = egetc(ifP)) { + switch (c = egetc(fp)) { case 'E': /* reset */ break; - case '*': { - unsigned int i; - cmd = egetc(ifP); + case '*': + cmd = egetc(fp); for (i = 0; i < BUFSIZ; i++) { - if (!isdigit(c = egetc(ifP)) && c != '+' && c != '-') + if (!isdigit(c = egetc(fp)) && c != '+' && c != '-') break; buffer[i] = c; } if (i != 0) { buffer[i] = '\0'; - if (sscanf(buffer, "%d", &val) != 1) + if (sscanf(buffer, "%d", &val) != 1) pm_error("bad value `%s' at <ESC>*%c%c", buffer, cmd, c); } else @@ -125,18 +93,18 @@ main(int argc, const char ** argv) { case 'r': switch (c) { case 'S': /* width */ - if (val < 0) + if (val < 0) { pm_error("invalid width value"); - else { + } else { cols = val; - colsIsSet = true; } break; case 'T': /* height */ - if (val < 0) + if (val < 0) { pm_error ("invalid height value"); - else - rowsX = val; + } else { + rows = val; + } break; case 'U': /* planes */ planes = val; @@ -163,40 +131,43 @@ main(int argc, const char ** argv) { if (val != 0 && val != 1) pm_error("unimplemented transmission mode %d", val); mode = val; - modeIsSet = true; break; case 'V': /* send plane */ case 'W': /* send last plane */ - if (row >= rowsX || image == NULL) { - if (row >= rowsX) - rowsX += 100; + if (rows == -1 || r >= rows || image == NULL) { + if (rows == -1 || r >= rows) { + overflow_add(rows, 100); + rows += 100; + } + if (image == NULL) { - MALLOCARRAY(image, uintProduct(rowsX, planes)); - MALLOCARRAY(imlen, uintProduct(rowsX, planes)); - } else { - REALLOCARRAY(image, uintProduct(rowsX, planes)); - REALLOCARRAY(imlen, uintProduct(rowsX, planes)); + image = (unsigned char **) + malloc3(rows , planes , sizeof(unsigned char *)); + imlen = (int *) malloc3(rows , planes, sizeof(int)); } + else { + overflow2(rows,planes); + image = (unsigned char **) + realloc2(image, rows * planes, + sizeof(unsigned char *)); + imlen = (int *) realloc2(imlen, rows * planes, sizeof(int)); } } if (image == NULL || imlen == NULL) pm_error("out of memory"); - if (plane >= planes) + if (p == planes) pm_error("too many planes"); - if (!colsIsSet) - pm_error("missing width value"); - - cols = MAX(cols, val); - imlen[row * planes + plane] = val; - MALLOCARRAY(image[row * planes + plane], val); - if (image[row * planes + plane] == NULL) + cols = cols > val ? cols : val; + imlen[r * planes + p] = val; + MALLOCARRAY(image[r * planes + p], val); + if (image[r * planes + p] == NULL) pm_error("out of memory"); - if (fread(image[row * planes + plane], 1, val, ifP) != val) + if (fread(image[r * planes + p], 1, val, fp) != val) pm_error("short data"); if (c == 'V') - ++plane; + p++; else { - plane = 0; - ++row; + p = 0; + r++; } break; default: @@ -205,7 +176,7 @@ main(int argc, const char ** argv) { } break; case 'p': /* Position */ - if (plane != 0) + if (p != 0) pm_error("changed position in the middle of " "transferring planes"); switch (c) { @@ -214,15 +185,15 @@ main(int argc, const char ** argv) { break; case 'Y': if (buffer[0] == '+') - val = row + val; + val = r + val; if (buffer[0] == '-') - val = row - val; - for (; val > row; ++row) - for (plane = 0; plane < 3; ++plane) { - imlen[row * planes + plane] = 0; - image[row * planes + plane] = NULL; + val = r - val; + for (; val > r; r++) + for (p = 0; p < 3; p++) { + imlen[r * planes + p] = 0; + image[r * planes + p] = NULL; } - row = val; + r = val; break; default: pm_message("uninmplemented <ESC>*%c%d%c", cmd, val, c); @@ -231,86 +202,65 @@ main(int argc, const char ** argv) { default: pm_message("uninmplemented <ESC>*%c%d%c", cmd, val, c); break; - } - } /* case */ - } /* switch */ + } + } } - pm_close(ifP); - - if (!modeIsSet) - pm_error("Input does not contain a 'bM' transmission mode order"); - - rows = row; + pm_close(fp); + rows = r; if (mode == 1) { - unsigned int const newcols = 10240; - /* It could not be larger than that! */ - - unsigned char * buf; - unsigned int row; - - for (row = 0, cols = 0; row < rows; ++row) { - unsigned int plane; - if (image[row * planes] == NULL) + unsigned char *buf; + int newcols = 0; + newcols = 10240; /* It could not be larger that that! */ + cols = 0; + for (r = 0; r < rows; r++) { + if (image[r * planes] == NULL) continue; - for (plane = 0; plane < planes; ++plane) { - unsigned int i; - unsigned int col; + for (p = 0; p < planes; p++) { MALLOCARRAY(buf, newcols); - if (buf == NULL) + if (buf == NULL) pm_error("out of memory"); - for (i = 0, col = 0; - col < imlen[plane + row * planes]; - col += 2) - for (cmd = image[plane + row * planes][col], - val = image[plane + row * planes][col+1]; - cmd >= 0 && i < newcols; cmd--, i++) + for (i = 0, c = 0; c < imlen[p + r * planes]; c += 2) + for (cmd = image[p + r * planes][c], + val = image[p + r * planes][c+1]; + cmd >= 0 && i < newcols; cmd--, i++) { buf[i] = val; - cols = MAX(cols, i); - free(image[plane + row * planes]); - /* - * This is less than what we have so it realloc should + overflow_add(i, 1); + } + cols = cols > i ? cols : i; + free(image[p + r * planes]); + /* + * This is less than what we have so it realloc should * not return null. Even if it does, tough! We will * lose a line, and probably die on the next line anyway */ - image[plane + row * planes] = realloc(buf, i); + image[p + r * planes] = (unsigned char *) realloc(buf, i); } } + overflow2(cols, 8); cols *= 8; } - + + ppm_writeppminit(stdout, cols, rows, (pixval) 255, 0); pixrow = ppm_allocrow(cols); - - for (row = 0; row < rows; ++row) { - if (image[row * planes] == NULL) { - unsigned int col; - for (col = 0; col < cols; ++col) - PPM_ASSIGN(pixrow[col], 0, 0, 0); + for (r = 0; r < rows; r++) { + if (image[r * planes] == NULL) { + for (c = 0; c < cols; c++) + PPM_ASSIGN(pixrow[c], 0, 0, 0); continue; } - { - unsigned int col; - unsigned int cmd; - for (cmd = 0, col = 0; col < cols; col += 8, ++cmd) { - unsigned int i; - for (i = 0; i < 8 && col + i < cols; ++i) { - unsigned int plane; - for (plane = 0; plane < planes; ++plane) - if (mode == 0 && cmd >= imlen[row * planes + plane]) - bf[plane] = 0; - else - bf[plane] = (image[row * planes + plane][cmd] & - (1 << (7 - i))) ? 255 : 0; - PPM_ASSIGN(pixrow[col + i], bf[0], bf[1], bf[2]); - } + for (cmd = 0, c = 0; c < cols; c += 8, cmd++) + for (i = 0; i < 8 && c + i < cols; i++) { + for (p = 0; p < planes; p++) + if (mode == 0 && cmd >= imlen[r * planes + p]) + bf[p] = 0; + else + bf[p] = (image[r * planes + p][cmd] & + (1 << (7 - i))) ? 255 : 0; + PPM_ASSIGN(pixrow[c + i], bf[0], bf[1], bf[2]); } - } - ppm_writeppmrow(stdout, pixrow, cols, 255, 0); + ppm_writeppmrow(stdout, pixrow, cols, (pixval) 255, 0); } pm_close(stdout); - - return 0; + exit(0); } - - - diff -ruNp a/converter/ppm/ppmtoeyuv.c b/converter/ppm/ppmtoeyuv.c --- a/converter/ppm/ppmtoeyuv.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/ppmtoeyuv.c 2021-06-02 20:23:21.821634361 +0200 @@ -114,6 +114,7 @@ create_multiplication_tables(const pixva int index; + overflow_add(maxval, 1); MALLOCARRAY_NOFAIL(mult299 , maxval+1); MALLOCARRAY_NOFAIL(mult587 , maxval+1); MALLOCARRAY_NOFAIL(mult114 , maxval+1); diff -ruNp a/converter/ppm/ppmtolj.c b/converter/ppm/ppmtolj.c --- a/converter/ppm/ppmtolj.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ppmtolj.c 2021-06-02 20:23:21.821634361 +0200 @@ -182,6 +182,7 @@ int main(int argc, char *argv[]) { ppm_readppminit( ifp, &cols, &rows, &maxval, &format ); pixelrow = ppm_allocrow( cols ); + overflow2(cols, 6); obuf = (unsigned char *) pm_allocrow(cols * 3, sizeof(unsigned char)); cbuf = (unsigned char *) pm_allocrow(cols * 6, sizeof(unsigned char)); if (mode == C_TRANS_MODE_DELTA) diff -ruNp a/converter/ppm/ppmtomitsu.c b/converter/ppm/ppmtomitsu.c --- a/converter/ppm/ppmtomitsu.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ppmtomitsu.c 2021-06-02 20:23:21.822634370 +0200 @@ -685,6 +685,8 @@ main(int argc, char * argv[]) { medias = MSize_User; if (dpi300) { + overflow2(medias.maxcols, 2); + overflow2(medias.maxrows, 2); medias.maxcols *= 2; medias.maxrows *= 2; } diff -ruNp a/converter/ppm/ppmtopcx.c b/converter/ppm/ppmtopcx.c --- a/converter/ppm/ppmtopcx.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ppmtopcx.c 2021-06-02 20:23:21.823634378 +0200 @@ -31,13 +31,13 @@ #define PCX_MAXVAL (pixval)255 -struct CmdlineInfo { +struct cmdlineInfo { /* All the information the user supplied in the command line, in a form easy for the program to use. */ - const char * inputFilespec; /* '-' if stdin */ + const char *inputFilespec; /* '-' if stdin */ unsigned int truecolor; /* -24bit option */ - unsigned int use8Bit; /* -8bit option */ + unsigned int use_8_bit; /* -8bit option */ unsigned int planes; /* zero means minimum */ unsigned int packed; unsigned int verbose; @@ -49,16 +49,16 @@ struct CmdlineInfo { -struct PcxCmapEntry { +struct pcxCmapEntry { unsigned char r; unsigned char g; unsigned char b; }; -static struct PcxCmapEntry +static struct pcxCmapEntry pcxCmapEntryFromPixel(pixel const colorPixel) { - struct PcxCmapEntry retval; + struct pcxCmapEntry retval; retval.r = PPM_GETR(colorPixel); retval.g = PPM_GETG(colorPixel); @@ -70,8 +70,8 @@ pcxCmapEntryFromPixel(pixel const colorP static void -parseCommandLine(int argc, const char ** argv, - struct CmdlineInfo * const cmdlineP) { +parseCommandLine(int argc, char ** argv, + struct cmdlineInfo * const cmdlineP) { /*---------------------------------------------------------------------------- parse program command line described in Unix standard form by argc and argv. Return the information in the options as *cmdlineP. @@ -82,7 +82,7 @@ parseCommandLine(int argc, const char ** Note that the strings we return are stored in the storage that was passed to us as the argv array. We also trash *argv. -----------------------------------------------------------------------------*/ - optEntry * option_def; + optEntry *option_def; /* Instructions to pm_optParseOptions3 on how to parse our options. */ optStruct3 opt; @@ -97,7 +97,7 @@ parseCommandLine(int argc, const char ** OPTENT3(0, "24bit", OPT_FLAG, NULL, &cmdlineP->truecolor, 0); OPTENT3(0, "8bit", OPT_FLAG, NULL, - &cmdlineP->use8Bit, 0); + &cmdlineP->use_8_bit, 0); OPTENT3(0, "planes", OPT_UINT, &cmdlineP->planes, &planesSpec, 0); OPTENT3(0, "packed", OPT_FLAG, NULL, @@ -115,7 +115,7 @@ parseCommandLine(int argc, const char ** opt.short_allowed = FALSE; /* We have no short (old-fashioned) options */ opt.allowNegNum = FALSE; /* We have no parms that are negative numbers */ - pm_optParseOptions3( &argc, (char **)argv, opt, sizeof(opt), 0 ); + pm_optParseOptions3( &argc, argv, opt, sizeof(opt), 0 ); /* Uses and sets argc, argv, and some of *cmdline_p and others. */ if (!xposSpec) @@ -141,7 +141,7 @@ parseCommandLine(int argc, const char ** pm_error("-planes is meaningless with -packed."); if (cmdlineP->truecolor) pm_error("-planes is meaningless with -24bit"); - if (cmdlineP->use8Bit) + if (cmdlineP->use_8_bit) pm_error("-planes is meaningless with -8bit"); } @@ -151,7 +151,7 @@ parseCommandLine(int argc, const char ** if (!paletteSpec) cmdlineP->palette = NULL; - if (cmdlineP->use8Bit && cmdlineP->truecolor) + if (cmdlineP->use_8_bit && cmdlineP->truecolor) pm_error("You cannot specify both -8bit and -truecolor"); if (argc-1 < 1) @@ -172,8 +172,8 @@ parseCommandLine(int argc, const char ** * Write out a two-byte little-endian word to the PCX file */ static void -putword(unsigned int const w, - FILE * const fp) { +Putword(int const w, + FILE * const fp) { int rc; @@ -189,13 +189,12 @@ putword(unsigned int const w, * Write out a byte to the PCX file */ static void -putbyte(unsigned int const b, - FILE * const ofP) { +Putbyte(int const b, + FILE * const fp) { int rc; - rc = fputc(b & 0xff, ofP); - + rc = fputc(b & 0xff, fp); if (rc == EOF) pm_error("Error writing byte to output file."); } @@ -204,9 +203,9 @@ putbyte(unsigned int const b, static void extractPlane(unsigned char * const rawrow, - unsigned int const cols, + int const cols, unsigned char * const buf, - unsigned int const plane) { + int const plane) { /*---------------------------------------------------------------------------- From the image row 'rawrow', which is an array of 'cols' palette indices (as unsigned 8 bit integers), extract plane number 'plane' and return @@ -224,7 +223,9 @@ extractPlane(unsigned char * const rawro cp = buf; /* initial value */ - for (col = 0, cbit = 7, byteUnderConstruction = 0x00; col < cols; ++col) { + cbit = 7; + byteUnderConstruction = 0x00; + for (col = 0; col < cols; ++col) { if (rawrow[col] & planeMask) byteUnderConstruction |= (1 << cbit); @@ -246,17 +247,14 @@ extractPlane(unsigned char * const rawro static void -packBits(unsigned char * const rawrow, - unsigned int const width, +PackBits(unsigned char * const rawrow, + int const width, unsigned char * const buf, - unsigned int const bits) { + int const bits) { - unsigned int x; - int i; - int shift; + int x, i, shift; - shift = -1; - i = -1; + shift = i = -1; for (x = 0; x < width; ++x) { if (shift < 0) { @@ -272,73 +270,71 @@ packBits(unsigned char * const rawrow, static void -writeHeader(FILE * const ofP, - unsigned int const cols, - unsigned int const rows, - unsigned int const bitsPerPixel, - unsigned int const planes, - struct PcxCmapEntry const cmap16[], - unsigned int const xPos, - unsigned int const yPos) { - - unsigned int bytesPerLine; - - putbyte(PCX_MAGIC, ofP); /* .PCX magic number */ - putbyte(0x05, ofP); /* PC Paintbrush version */ - putbyte(0x01, ofP); /* .PCX run length encoding */ - putbyte(bitsPerPixel, ofP); /* bits per pixel */ - - putword(xPos, ofP); /* x1 - image left */ - putword(yPos, ofP); /* y1 - image top */ - putword(xPos+cols-1, ofP); /* x2 - image right */ - putword(yPos+rows-1, ofP); /* y2 - image bottom */ - - putword(cols, ofP); /* horizontal resolution */ - putword(rows, ofP); /* vertical resolution */ +write_header(FILE * const fp, + int const cols, + int const rows, + int const BitsPerPixel, + int const Planes, + struct pcxCmapEntry const cmap16[], + unsigned int const xPos, + unsigned int const yPos) { + + int i, BytesPerLine; + + Putbyte(PCX_MAGIC, fp); /* .PCX magic number */ + Putbyte(0x05, fp); /* PC Paintbrush version */ + Putbyte(0x01, fp); /* .PCX run length encoding */ + Putbyte(BitsPerPixel, fp); /* bits per pixel */ + + Putword(xPos, fp); /* x1 - image left */ + Putword(yPos, fp); /* y1 - image top */ + Putword(xPos+cols-1, fp); /* x2 - image right */ + Putword(yPos+rows-1, fp); /* y2 - image bottom */ + + Putword(cols, fp); /* horizontal resolution */ + Putword(rows, fp); /* vertical resolution */ /* Write out the Color Map for images with 16 colors or less */ - if (cmap16) { - unsigned int i; + if (cmap16) for (i = 0; i < 16; ++i) { - putbyte(cmap16[i].r, ofP); - putbyte(cmap16[i].g, ofP); - putbyte(cmap16[i].b, ofP); + Putbyte(cmap16[i].r, fp); + Putbyte(cmap16[i].g, fp); + Putbyte(cmap16[i].b, fp); } - } else { + else { unsigned int i; for (i = 0; i < 16; ++i) { - putbyte(0, ofP); - putbyte(0, ofP); - putbyte(0, ofP); + Putbyte(0, fp); + Putbyte(0, fp); + Putbyte(0, fp); } } - putbyte(0, ofP); /* reserved byte */ - putbyte(planes, ofP); /* number of color planes */ + Putbyte(0, fp); /* reserved byte */ + Putbyte(Planes, fp); /* number of color planes */ - bytesPerLine = ((cols * bitsPerPixel) + 7) / 8; - putword(bytesPerLine, ofP); /* number of bytes per scanline */ + BytesPerLine = ((cols * BitsPerPixel) + 7) / 8; + Putword(BytesPerLine, fp); /* number of bytes per scanline */ - putword(1, ofP); /* palette info */ + Putword(1, fp); /* palette info */ { unsigned int i; for (i = 0; i < 58; ++i) /* fill to end of header */ - putbyte(0, ofP); + Putbyte(0, fp); } } static void -pcxEncode(FILE * const ofP, +PCXEncode(FILE * const fp, const unsigned char * const buf, - unsigned int const size) { + int const Size) { - const unsigned char * const end = buf + size; + const unsigned char * const end = buf + Size; const unsigned char * currentP; - unsigned int previous; - unsigned int count; + int previous, count; currentP = buf; previous = *currentP++; @@ -351,19 +347,19 @@ pcxEncode(FILE * const of else { if (count > 1 || (previous & 0xc0) == 0xc0) { count |= 0xc0; - putbyte ( count , ofP ); + Putbyte ( count , fp ); } - putbyte(previous, ofP); + Putbyte(previous, fp); previous = c; - count = 1; + count = 1; } } if (count > 1 || (previous & 0xc0) == 0xc0) { count |= 0xc0; - putbyte(count, ofP); + Putbyte ( count , fp ); } - putbyte(previous, ofP); + Putbyte(previous, fp); } @@ -390,46 +386,63 @@ indexOfColor(colorhash_table const cht, static void -writeRaster16Color(FILE * const ofP, - pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, - unsigned int const planes, - colorhash_table const cht, - bool const packbits, - unsigned int const bitsPerPixel) { - - unsigned int const bytesPerLine = ((cols * bitsPerPixel) + 7) / 8; - - unsigned char * indexRow; /* malloc'ed */ - /* indexRow[x] is the palette index of the pixel at column x of - the row currently being processed - */ - unsigned char * planesrow; /* malloc'ed */ - /* This is the input for a single row to the compressor */ +ppmTo16ColorPcx(pixel ** const pixels, + int const cols, + int const rows, + struct pcxCmapEntry const pcxcmap[], + int const colors, + colorhash_table const cht, + bool const packbits, + unsigned int const planesRequested, + unsigned int const xPos, + unsigned int const yPos) { - unsigned int row; + int Planes, BytesPerLine, BitsPerPixel; + unsigned char *indexRow; /* malloc'ed */ + /* indexRow[x] is the palette index of the pixel at column x of + the row currently being processed + */ + unsigned char *planesrow; /* malloc'ed */ + /* This is the input for a single row to the compressor */ + int row; + if (packbits) { + Planes = 1; + if (colors > 4) BitsPerPixel = 4; + else if (colors > 2) BitsPerPixel = 2; + else BitsPerPixel = 1; + } else { + BitsPerPixel = 1; + if (planesRequested) + Planes = planesRequested; + else { + if (colors > 8) Planes = 4; + else if (colors > 4) Planes = 3; + else if (colors > 2) Planes = 2; + else Planes = 1; + } + } + overflow2(BitsPerPixel, cols); + overflow_add(BitsPerPixel * cols, 7); + BytesPerLine = ((cols * BitsPerPixel) + 7) / 8; MALLOCARRAY_NOFAIL(indexRow, cols); - MALLOCARRAY(planesrow, bytesPerLine); - - if (!planesrow) - pm_error("Failed to allocate buffer for a line of %u bytes", - bytesPerLine); + MALLOCARRAY_NOFAIL(planesrow, BytesPerLine); + write_header(stdout, cols, rows, BitsPerPixel, Planes, pcxcmap, + xPos, yPos); for (row = 0; row < rows; ++row) { - unsigned int col; + int col; for (col = 0; col < cols; ++col) indexRow[col] = indexOfColor(cht, pixels[row][col]); if (packbits) { - packBits(indexRow, cols, planesrow, bitsPerPixel); - pcxEncode(ofP, planesrow, bytesPerLine); + PackBits(indexRow, cols, planesrow, BitsPerPixel); + PCXEncode(stdout, planesrow, BytesPerLine); } else { unsigned int plane; - for (plane = 0; plane < planes; ++plane) { + for (plane = 0; plane < Planes; ++plane) { extractPlane(indexRow, cols, planesrow, plane); - pcxEncode(stdout, planesrow, bytesPerLine); + PCXEncode(stdout, planesrow, BytesPerLine); } } } @@ -439,143 +452,84 @@ writeRaster16Color(FILE * const ofP, -static void -ppmTo16ColorPcx(pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, - struct PcxCmapEntry const pcxcmap[], - unsigned int const colorCt, - colorhash_table const cht, - bool const packbits, - unsigned int const planesRequested, - unsigned int const xPos, - unsigned int const yPos) { - - unsigned int planes; - unsigned int bitsPerPixel; - - if (packbits) { - planes = 1; - if (colorCt > 4) bitsPerPixel = 4; - else if (colorCt > 2) bitsPerPixel = 2; - else bitsPerPixel = 1; - } else { - bitsPerPixel = 1; - if (planesRequested) - planes = planesRequested; - else { - if (colorCt > 8) planes = 4; - else if (colorCt > 4) planes = 3; - else if (colorCt > 2) planes = 2; - else planes = 1; - } - } - - writeHeader(stdout, cols, rows, bitsPerPixel, planes, pcxcmap, - xPos, yPos); - - writeRaster16Color(stdout, pixels, cols, rows, planes, cht, packbits, - bitsPerPixel); -} - - - static void ppmTo256ColorPcx(pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, - struct PcxCmapEntry const pcxcmap[], - unsigned int const colorCt, + int const cols, + int const rows, + struct pcxCmapEntry const pcxcmap[], + int const colors, colorhash_table const cht, unsigned int const xPos, unsigned int const yPos) { - unsigned char * rawrow; - unsigned int row; - - MALLOCARRAY(rawrow, cols); + int row; + unsigned int i; + unsigned char *rawrow; - if (!rawrow) - pm_error("Failed to allocate a buffer for %u columns", cols); + rawrow = (unsigned char *)pm_allocrow(cols, sizeof(unsigned char)); /* 8 bits per pixel, 1 plane */ - writeHeader(stdout, cols, rows, 8, 1, NULL, xPos, yPos); + write_header(stdout, cols, rows, 8, 1, NULL, xPos, yPos); for (row = 0; row < rows; ++row) { - unsigned int col; + int col; for (col = 0; col < cols; ++col) rawrow[col] = indexOfColor(cht, pixels[row][col]); - pcxEncode(stdout, rawrow, cols); - + PCXEncode(stdout, rawrow, cols); } - putbyte(PCX_256_COLORS, stdout); - - { - unsigned int i; - - for (i = 0; i < MAXCOLORS; ++i) { - putbyte(pcxcmap[i].r, stdout); - putbyte(pcxcmap[i].g, stdout); - putbyte(pcxcmap[i].b, stdout); - } + Putbyte(PCX_256_COLORS, stdout); + for (i = 0; i < MAXCOLORS; ++i) { + Putbyte(pcxcmap[i].r, stdout); + Putbyte(pcxcmap[i].g, stdout); + Putbyte(pcxcmap[i].b, stdout); } - free(rawrow); + pm_freerow((void*)rawrow); } static void ppmToTruecolorPcx(pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, + int const cols, + int const rows, pixval const maxval, unsigned int const xPos, unsigned int const yPos) { - unsigned char * redrow; - unsigned char * grnrow; - unsigned char * blurow; - unsigned int row; + unsigned char *redrow, *greenrow, *bluerow; + int col, row; - MALLOCARRAY(redrow, cols); - MALLOCARRAY(grnrow, cols); - MALLOCARRAY(blurow, cols); - - if (!redrow || !grnrow || !blurow) - pm_error("Unable to allocate buffer for a row of %u pixels", cols); + redrow = (unsigned char *)pm_allocrow(cols, sizeof(unsigned char)); + greenrow = (unsigned char *)pm_allocrow(cols, sizeof(unsigned char)); + bluerow = (unsigned char *)pm_allocrow(cols, sizeof(unsigned char)); /* 8 bits per pixel, 3 planes */ - writeHeader(stdout, cols, rows, 8, 3, NULL, xPos, yPos); - - for (row = 0; row < rows; ++row) { - pixel * const pixrow = pixels[row]; - - unsigned int col; - - for (col = 0; col < cols; ++col) { - pixel const pix = pixrow[col]; - - if (maxval != PCX_MAXVAL) { - redrow[col] = (long)PPM_GETR(pix) * PCX_MAXVAL / maxval; - grnrow[col] = (long)PPM_GETG(pix) * PCX_MAXVAL / maxval; - blurow[col] = (long)PPM_GETB(pix) * PCX_MAXVAL / maxval; - } else { - redrow[col] = PPM_GETR(pix); - grnrow[col] = PPM_GETG(pix); - blurow[col] = PPM_GETB(pix); + write_header(stdout, cols, rows, 8, 3, NULL, xPos, yPos); + for( row = 0; row < rows; row++ ) { + register pixel *pP = pixels[row]; + for( col = 0; col < cols; col++, pP++ ) { + if( maxval != PCX_MAXVAL ) { + redrow[col] = (long)PPM_GETR(*pP) * PCX_MAXVAL / maxval; + greenrow[col] = (long)PPM_GETG(*pP) * PCX_MAXVAL / maxval; + bluerow[col] = (long)PPM_GETB(*pP) * PCX_MAXVAL / maxval; + } + else { + redrow[col] = PPM_GETR(*pP); + greenrow[col] = PPM_GETG(*pP); + bluerow[col] = PPM_GETB(*pP); } } - pcxEncode(stdout, redrow, cols); - pcxEncode(stdout, grnrow, cols); - pcxEncode(stdout, blurow, cols); + PCXEncode(stdout, redrow, cols); + PCXEncode(stdout, greenrow, cols); + PCXEncode(stdout, bluerow, cols); } - free(blurow); - free(grnrow); - free(redrow); + pm_freerow((void*)bluerow); + pm_freerow((void*)greenrow); + pm_freerow((void*)redrow); } -static const struct PcxCmapEntry +static const struct pcxCmapEntry stdPalette[] = { { 0, 0, 0 }, { 0, 0, 170 }, @@ -653,19 +607,20 @@ putPcxColorInHash(colorhash_table const static void -generateStandardPalette(struct PcxCmapEntry ** const pcxcmapP, +generateStandardPalette(struct pcxCmapEntry ** const pcxcmapP, pixval const maxval, colorhash_table * const chtP, - unsigned int * const colorsP) { + int * const colorsP) { unsigned int const stdPaletteSize = 16; - - unsigned int colorIndex; - struct PcxCmapEntry * pcxcmap; - colorhash_table cht; + unsigned int colorIndex; + struct pcxCmapEntry * pcxcmap; + colorhash_table cht; MALLOCARRAY_NOFAIL(pcxcmap, MAXCOLORS); + *pcxcmapP = pcxcmap; + cht = ppm_alloccolorhash(); for (colorIndex = 0; colorIndex < stdPaletteSize; ++colorIndex) { @@ -692,7 +647,6 @@ generateStandardPalette(struct PcxCmapEn pcxcmap[colorIndex].b = 0; } - *pcxcmapP = pcxcmap; *chtP = cht; *colorsP = stdPaletteSize; } @@ -721,10 +675,11 @@ readPpmPalette(const char * const pale *paletteSizeP, MAXCOLORS); { - unsigned int j; - unsigned int row; - for (row = 0, j = 0; row < rows; ++row) { - unsigned int col; + int j; + int row; + j = 0; /* initial value */ + for (row = 0; row < rows; ++row) { + int col; for (col = 0; col < cols; ++col) (*ppmPaletteP)[j++] = pixels[row][col]; } @@ -735,16 +690,16 @@ readPpmPalette(const char * const pale static void -readPaletteFromFile(struct PcxCmapEntry ** const pcxcmapP, +readPaletteFromFile(struct pcxCmapEntry ** const pcxcmapP, const char * const paletteFileName, pixval const maxval, colorhash_table * const chtP, - unsigned int * const colorsP) { + int * const colorsP) { unsigned int colorIndex; pixel ppmPalette[MAXCOLORS]; unsigned int paletteSize; - struct PcxCmapEntry * pcxcmap; + struct pcxCmapEntry * pcxcmap; colorhash_table cht; readPpmPalette(paletteFileName, &ppmPalette, &paletteSize); @@ -777,7 +732,7 @@ readPaletteFromFile(struct PcxCmapEntry static void moveBlackToIndex0(colorhist_vector const chv, - unsigned int const colorCt) { + int const colors) { /*---------------------------------------------------------------------------- If black is in the palette, make it at Index 0. -----------------------------------------------------------------------------*/ @@ -789,7 +744,7 @@ moveBlackToIndex0(colorhist_vector const blackPresent = FALSE; /* initial assumption */ - for (i = 0; i < colorCt; ++i) + for (i = 0; i < colors; ++i) if (PPM_EQUAL(chv[i].color, blackPixel)) blackPresent = TRUE; @@ -798,11 +753,10 @@ moveBlackToIndex0(colorhist_vector const beginning of the table and if the color is already elsewhere in the table, removes it. */ - int colorCt2; - - colorCt2 = colorCt; - ppm_addtocolorhist(chv, &colorCt2, MAXCOLORS, &blackPixel, 0, 0); - assert(colorCt2 == colorCt); + int colors2; + colors2 = colors; + ppm_addtocolorhist(chv, &colors2, MAXCOLORS, &blackPixel, 0, 0); + assert(colors2 == colors); } } @@ -810,12 +764,12 @@ moveBlackToIndex0(colorhist_vector const static void makePcxColormapFromImage(pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, + int const cols, + int const rows, pixval const maxval, - struct PcxCmapEntry ** const pcxcmapP, + struct pcxCmapEntry ** const pcxcmapP, colorhash_table * const chtP, - unsigned int * const colorCtP, + int * const colorsP, bool * const tooManyColorsP) { /*---------------------------------------------------------------------------- Make a colormap (palette) for the PCX header that can be used @@ -831,29 +785,29 @@ makePcxColormapFromImage(pixel ** Iff there are too many colors to do that (i.e. more than 256), return *tooManyColorsP == TRUE. -----------------------------------------------------------------------------*/ - int colorCt; + int colors; colorhist_vector chv; pm_message("computing colormap..."); - chv = ppm_computecolorhist(pixels, cols, rows, MAXCOLORS, &colorCt); + chv = ppm_computecolorhist(pixels, cols, rows, MAXCOLORS, &colors); if (chv == NULL) *tooManyColorsP = TRUE; else { - unsigned int i; - struct PcxCmapEntry * pcxcmap; + int i; + struct pcxCmapEntry * pcxcmap; *tooManyColorsP = FALSE; - pm_message("%d colors found", colorCt); + pm_message("%d colors found", colors); - moveBlackToIndex0(chv, colorCt); + moveBlackToIndex0(chv, colors); MALLOCARRAY_NOFAIL(pcxcmap, MAXCOLORS); *pcxcmapP = pcxcmap; - for (i = 0; i < colorCt; ++i) { + for (i = 0; i < colors; ++i) { pixel p; PPM_DEPTH(p, chv[i].color, maxval, PCX_MAXVAL); @@ -870,9 +824,9 @@ makePcxColormapFromImage(pixel ** pcxcmap[i].b = 0; } - *chtP = ppm_colorhisttocolorhash(chv, colorCt); + *chtP = ppm_colorhisttocolorhash(chv, colors); - *colorCtP = colorCt; + *colorsP = colors; ppm_freecolorhist(chv); } @@ -882,43 +836,43 @@ makePcxColormapFromImage(pixel ** static void ppmToPalettePcx(pixel ** const pixels, - unsigned int const cols, - unsigned int const rows, + int const cols, + int const rows, pixval const maxval, unsigned int const xPos, unsigned int const yPos, - struct PcxCmapEntry const pcxcmap[], + struct pcxCmapEntry const pcxcmap[], colorhash_table const cht, - unsigned int const colorCt, + int const colors, bool const packbits, unsigned int const planes, - bool const use8Bit) { + bool const use_8_bit) { /* convert image */ - if (colorCt <= 16 && !use8Bit ) - ppmTo16ColorPcx(pixels, cols, rows, pcxcmap, colorCt, cht, + if( colors <= 16 && !use_8_bit ) + ppmTo16ColorPcx(pixels, cols, rows, pcxcmap, colors, cht, packbits, planes, xPos, yPos); else - ppmTo256ColorPcx(pixels, cols, rows, pcxcmap, colorCt, cht, + ppmTo256ColorPcx(pixels, cols, rows, pcxcmap, colors, cht, xPos, yPos); } int -main(int argc, const char *argv[]) { +main(int argc, char *argv[]) { - struct CmdlineInfo cmdline; - FILE * ifP; + struct cmdlineInfo cmdline; + FILE* ifP; int rows, cols; pixval maxval; pixel **pixels; - struct PcxCmapEntry * pcxcmap; + struct pcxCmapEntry * pcxcmap; colorhash_table cht; bool truecolor; - unsigned int colorCt; + int colors; - pm_proginit(&argc, argv); + ppm_init(&argc, argv); parseCommandLine(argc, argv, &cmdline); @@ -931,15 +885,15 @@ main(int argc, const char *argv[]) { else { if (cmdline.stdpalette) { truecolor = FALSE; - generateStandardPalette(&pcxcmap, maxval, &cht, &colorCt); + generateStandardPalette(&pcxcmap, maxval, &cht, &colors); } else if (cmdline.palette) { truecolor = FALSE; readPaletteFromFile(&pcxcmap, cmdline.palette, maxval, - &cht, &colorCt); + &cht, &colors); } else { bool tooManyColors; makePcxColormapFromImage(pixels, cols, rows, maxval, - &pcxcmap, &cht, &colorCt, + &pcxcmap, &cht, &colors, &tooManyColors); if (tooManyColors) { @@ -958,8 +912,8 @@ main(int argc, const char *argv[]) { else { ppmToPalettePcx(pixels, cols, rows, maxval, cmdline.xpos, cmdline.ypos, - pcxcmap, cht, colorCt, cmdline.packed, - cmdline.planes, cmdline.use8Bit); + pcxcmap, cht, colors, cmdline.packed, + cmdline.planes, cmdline.use_8_bit); ppm_freecolorhash(cht); free(pcxcmap); diff -ruNp a/converter/ppm/ppmtopict.c b/converter/ppm/ppmtopict.c --- a/converter/ppm/ppmtopict.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ppmtopict.c 2021-06-02 20:23:21.824634387 +0200 @@ -450,6 +450,8 @@ main(int argc, const char ** argv) { putShort(stdout, 0); /* mode */ /* Finally, write out the data. */ + overflow_add(cols/MAX_COUNT, 1); + overflow_add(cols, cols/MAX_COUNT+1); outBuf = malloc((unsigned)(cols+cols/MAX_COUNT+1)); for (row = 0, oc = 0; row < rows; ++row) { unsigned int rowSize; diff -ruNp a/converter/ppm/ppmtopj.c b/converter/ppm/ppmtopj.c --- a/converter/ppm/ppmtopj.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/ppmtopj.c 2021-06-02 20:23:21.824634387 +0200 @@ -179,6 +179,7 @@ char *argv[]; pixels = ppm_readppm( ifp, &cols, &rows, &maxval ); pm_close( ifp ); + overflow2(cols,2); obuf = (unsigned char *) pm_allocrow(cols, sizeof(unsigned char)); cbuf = (unsigned char *) pm_allocrow(cols * 2, sizeof(unsigned char)); diff -ruNp a/converter/ppm/ppmtopjxl.c b/converter/ppm/ppmtopjxl.c --- a/converter/ppm/ppmtopjxl.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/ppmtopjxl.c 2021-06-02 20:23:21.825634396 +0200 @@ -267,6 +267,9 @@ main(int argc, const char * argv[]) { if (maxval > PCL_MAXVAL) pm_error("color range too large; reduce with ppmcscale"); + if (cols < 0 || rows < 0) + pm_error("negative size is not possible"); + /* Figure out the colormap. */ pm_message("Computing colormap..."); chv = ppm_computecolorhist(pixels, cols, rows, MAXCOLORS, &colors); @@ -286,6 +289,8 @@ main(int argc, const char * argv[]) { case 0: /* direct mode (no palette) */ bpp = bitsperpixel(maxval); /* bits per pixel */ bpg = bpp; bpb = bpp; + overflow2(bpp, 3); + overflow_add(bpp*3, 7); bpp = (bpp*3+7)>>3; /* bytes per pixel now */ bpr = (bpp<<3)-bpg-bpb; bpp *= cols; /* bytes per row now */ @@ -295,9 +300,13 @@ main(int argc, const char * argv[]) { case 3: case 7: pclindex++; default: bpp = 8/pclindex; + overflow_add(cols, bpp); + if(bpp == 0) + pm_error("assert: no bpp"); bpp = (cols+bpp-1)/bpp; /* bytes per row */ } } + overflow2(bpp,2); inrow = (char *)malloc((unsigned)bpp); outrow = (char *)malloc((unsigned)bpp*2); runcnt = (signed char *)malloc((unsigned)bpp); diff -ruNp a/converter/ppm/ppmtowinicon.c b/converter/ppm/ppmtowinicon.c --- a/converter/ppm/ppmtowinicon.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/ppmtowinicon.c 2021-06-02 20:23:21.825634396 +0200 @@ -12,6 +12,7 @@ #include <math.h> #include <string.h> +#include <stdlib.h> #include "pm_c_util.h" #include "winico.h" @@ -214,6 +215,7 @@ createAndBitmap (gray ** const ba, int c MALLOCARRAY_NOFAIL(rowData, rows); icBitmap->xBytes = xBytes; icBitmap->data = rowData; + overflow2(xBytes, rows); icBitmap->size = xBytes * rows; for (y=0;y<rows;y++) { u1 * row; @@ -342,6 +344,7 @@ create4Bitmap (pixel ** const pa, int co MALLOCARRAY_NOFAIL(rowData, rows); icBitmap->xBytes = xBytes; icBitmap->data = rowData; + overflow2(xBytes, rows); icBitmap->size = xBytes * rows; for (y=0;y<rows;y++) { @@ -402,6 +405,7 @@ create8Bitmap (pixel ** const pa, int co MALLOCARRAY_NOFAIL(rowData, rows); icBitmap->xBytes = xBytes; icBitmap->data = rowData; + overflow2(xBytes, rows); icBitmap->size = xBytes * rows; for (y=0;y<rows;y++) { @@ -709,7 +713,11 @@ addEntryToIcon(MS_Ico const MSIcon entry->bitcount = bpp; entry->ih = createInfoHeader(entry, xorBitmap, andBitmap); entry->colors = palette->colors; - entry->size_in_bytes = + overflow2(4, entry->color_count); + overflow_add(xorBitmap->size, andBitmap->size); + overflow_add(xorBitmap->size + andBitmap->size, 40); + overflow_add(xorBitmap->size + andBitmap->size + 40, 4 * entry->color_count); + entry->size_in_bytes = xorBitmap->size + andBitmap->size + 40 + (4 * entry->color_count); if (verbose) pm_message("entry->size_in_bytes = %d + %d + %d = %d", diff -ruNp a/converter/ppm/ppmtoxpm.c b/converter/ppm/ppmtoxpm.c --- a/converter/ppm/ppmtoxpm.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ppmtoxpm.c 2021-06-02 20:23:21.826634405 +0200 @@ -198,6 +198,7 @@ genNumstr(unsigned int const input, int unsigned int i; /* Allocate memory for printed number. Abort if error. */ + overflow_add(digits, 1); if (!(str = (char *) malloc(digits + 1))) pm_error("out of memory"); @@ -315,6 +316,7 @@ genCmap(colorhist_vector const chv, unsigned int charsPerPixel; unsigned int xpmMaxval; + if (includeTransparent) overflow_add(ncolors, 1); MALLOCARRAY(cmap, cmapSize); if (cmapP == NULL) pm_error("Out of memory allocating %u bytes for a color map.", diff -ruNp a/converter/ppm/qrttoppm.c b/converter/ppm/qrttoppm.c --- a/converter/ppm/qrttoppm.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/qrttoppm.c 2021-06-02 20:23:21.826634405 +0200 @@ -46,7 +46,7 @@ main( argc, argv ) ppm_writeppminit( stdout, cols, rows, maxval, 0 ); pixelrow = ppm_allocrow( cols ); - buf = (unsigned char *) malloc( 3 * cols ); + buf = (unsigned char *) malloc2( 3 , cols ); if ( buf == (unsigned char *) 0 ) pm_error( "out of memory" ); diff -ruNp a/converter/ppm/sldtoppm.c b/converter/ppm/sldtoppm.c --- a/converter/ppm/sldtoppm.c 2021-06-02 15:53:59.845205755 +0200 +++ b/converter/ppm/sldtoppm.c 2021-06-02 20:23:21.827634413 +0200 @@ -154,127 +154,85 @@ vscale(int * const px, -static void -upcase(const char * const sname, - char * const uname) { - - unsigned int i; - const char * ip; - - for (i = 0, ip = sname; i < 31; ++i) { - char const ch = *ip++; - - if (ch != EOS) - uname[i] = islower(ch) ? toupper(ch) : ch; - } - uname[i] = EOS; -} - - - -static void -skipBytes(FILE * const fileP, - unsigned int const count) { - - unsigned int i; - - for (i = 0; i < count; ++i) - getc(fileP); -} - - - -static void -scanDirectory(FILE * const slFileP, - long const dirPos, - bool const dirOnly, - const char * const uname, - bool * const foundP) { -/*---------------------------------------------------------------------------- - Scan the directory at the current position in *slFileP, either listing - the directory ('dirOnly' true) or searching for a slide named - 'uname' ('dirOnly' false). - - 'dirPos' is the offset in the file of the directory, i.e. the current - position of *slFileP. - - In the latter case, return as *foundP whether the slide name is there. ------------------------------------------------------------------------------*/ - bool found; - bool eof; - long pos; - unsigned char libent[36]; - - for (found = false, eof = false, pos = dirPos; !found && !eof; ) { - size_t readCt; - readCt = fread(libent, 36, 1, slFileP); - if (readCt != 1) - eof = true; - else { - /* The directory entry is 32 bytes of NUL-terminated slide name - followed by 4 bytes of offset of the next directory entry. - */ - const char * const slideName = (const char *)(&libent[0]); - if (pm_strnlen(slideName, 32) == 32) - pm_error("Invalid input: slide name field is not " - "nul-terminated"); - else { - if (strlen(slideName) == 0) - eof = true; - else { - pos += 36; - if (dirOnly) { - pm_message(" %s", slideName); - } else if (streq(slideName, uname)) { - long const dpos = - (((((libent[35] << 8) | libent[34]) << 8) | - libent[33]) << 8) | libent[32]; - - if ((slFileP == stdin) || - (fseek(slFileP, dpos, 0) == -1)) { - - skipBytes(slFileP, dpos - pos); - } - found = true; - } - } - } - } - } - *foundP = found; -} - /* SLIDEFIND -- Find a slide in a library or, if DIRONLY is nonzero, print a directory listing of the library. If UCASEN is nonzero, the requested slide name is converted to upper case. */ static void -slidefind(const char * const slideName, - bool const dirOnly, +slidefind(const char * const sname, + bool const dironly, bool const ucasen) { - char uname[32]; /* upper case translation of 'slideName' */ - char header[32]; /* (supposed) header read from file */ + char uname[32]; + unsigned char libent[36]; + long pos; bool found; + bool eof; - if (dirOnly) + if (dironly) pm_message("Slides in library:"); else { - upcase(slideName, uname); + unsigned int i; + const char * ip; + + ip = sname; /* initial value */ + + for (i = 0; i < 31; ++i) { + char const ch = *ip++; + if (ch == EOS) + break; + + { + char const upperCh = + ucasen && islower(ch) ? toupper(ch) : ch; + + uname[i] = upperCh; + } + } + uname[i] = EOS; } /* Read slide library header and verify. */ - - if ((fread(header, 32, 1, slfile) != 1) || - (!STRSEQ(header, "AutoCAD Slide Library 1.0\r\n\32"))) { + + if ((fread(libent, 32, 1, slfile) != 1) || + (!streq((char *)libent, "AutoCAD Slide Library 1.0\015\012\32"))) { pm_error("not an AutoCAD slide library file."); } + pos = 32; + + /* Search for a slide with the requested name or list the directory */ + + for (found = false, eof = false; !found && !eof; ) { + size_t readCt; + readCt = fread(libent, 36, 1, slfile); + if (readCt != 1) + eof = true; + else if (strlen((char *)libent) == 0) + eof = true; + } + if (!eof) { + pos += 36; + if (dironly) { + pm_message(" %s", libent); + } else if (streq((char *)libent, uname)) { + long dpos; + + dpos = (((((libent[35] << 8) | libent[34]) << 8) | + libent[33]) << 8) | libent[32]; + + if ((slfile == stdin) || (fseek(slfile, dpos, 0) == -1)) { + dpos -= pos; + + while (dpos-- > 0) + getc(slfile); + } + found = true; + } + } - scanDirectory(slfile, 32, dirOnly, ucasen ? uname : slideName, &found); - - if (!found && !dirOnly) - pm_error("slide '%s' not in library.", slideName); + if (!found && !dironly) + pm_error("slide '%s' not in library.", sname); } @@ -392,7 +350,7 @@ slider(slvecfn slvec, /* Verify that slide format is compatible with this program. */ - if (!STRSEQ(slfrof.slh, slhi.slh)) + if (streq(slfrof.slh, slhi.slh)) pm_error("this is not an AutoCAD slide file."); /* Verify that the number format and file level in the header are @@ -506,6 +464,8 @@ slider(slvecfn slvec, /* Allocate image buffer and clear it to black. */ + overflow_add(ixdots, 1); + overflow_add(iydots, 1); pixels = ppm_allocarray(pixcols = ixdots + 1, pixrows = iydots + 1); PPM_ASSIGN(rgbcolor, 0, 0, 0); ppmd_filledrectangle(pixels, pixcols, pixrows, pixmaxval, 0, 0, diff -ruNp a/converter/ppm/ximtoppm.c b/converter/ppm/ximtoppm.c --- a/converter/ppm/ximtoppm.c 2021-06-02 15:53:59.846205765 +0200 +++ b/converter/ppm/ximtoppm.c 2021-06-02 20:23:21.828634422 +0200 @@ -22,9 +22,7 @@ #include "shhopt.h" #include "nstring.h" - - -struct CmdlineInfo { +struct cmdlineInfo { /* All the information the user supplied in the command line, in a form easy for the program to use. */ @@ -36,8 +34,8 @@ struct CmdlineInfo { static void -parseCommandLine(int argc, const char ** argv, - struct CmdlineInfo *cmdlineP) { +parseCommandLine(int argc, char ** argv, + struct cmdlineInfo *cmdlineP) { /*---------------------------------------------------------------------------- Note that many of the strings that this function returns in the *cmdlineP structure are actually in the supplied argv array. And @@ -59,7 +57,7 @@ parseCommandLine(int argc, const char ** opt.short_allowed = FALSE; /* We have no short (old-fashioned) options */ opt.allowNegNum = FALSE; /* We have no parms that are negative numbers */ - pm_optParseOptions3(&argc, (char**)argv, opt, sizeof(opt), 0); + pm_optParseOptions3(&argc, argv, opt, sizeof(opt), 0); /* Uses and sets argc, argv, and all of *cmdlineP. */ if (!alphaoutSpec) @@ -102,11 +100,6 @@ ReadXimHeader(FILE * const in_fp, pm_message("ReadXimHeader: unable to read file header" ); return(0); } - /* Force broken ASCIIZ strings to at least be valid ASCIIZ */ - a_head.author [sizeof(a_head.author) - 1] = '\0'; - a_head.date [sizeof(a_head.date) - 1] = '\0'; - a_head.program[sizeof(a_head.program) - 1] = '\0'; - if (atoi(a_head.header_size) != sizeof(ImageHeader)) { pm_message("ReadXimHeader: header size mismatch" ); return(0); @@ -120,15 +113,39 @@ ReadXimHeader(FILE * const in_fp, header->ncolors = atoi(a_head.num_colors); header->nchannels = atoi(a_head.num_channels); header->bytes_per_line = atoi(a_head.bytes_per_line); -#if 0 - header->npics = atoi(a_head.num_pictures); -#endif +/* header->npics = atoi(a_head.num_pictures); +*/ header->bits_channel = atoi(a_head.bits_per_channel); header->alpha_flag = atoi(a_head.alpha_channel); - header->author = pm_strdup(a_head.author); - header->date = pm_strdup(a_head.date); - header->program = pm_strdup(a_head.program); - + if (strlen(a_head.author)) { + overflow_add(strlen(a_head.author),1); + if (!(header->author = calloc((unsigned int)strlen(a_head.author)+1, + 1))) { + pm_message("ReadXimHeader: can't calloc author string" ); + return(0); + } + header->width = atoi(a_head.image_width); + strncpy(header->author, a_head.author, strlen(a_head.author)); + } + if (strlen(a_head.date)) { + overflow_add(strlen(a_head.date),1); + if (!(header->date =calloc((unsigned int)strlen(a_head.date)+1,1))){ + pm_message("ReadXimHeader: can't calloc date string" ); + return(0); + } + header->width = atoi(a_head.image_width); + strncpy(header->date, a_head.date, strlen(a_head.date)); + } + if (strlen(a_head.program)) { + overflow_add(strlen(a_head.program),1); + if (!(header->program = calloc( + (unsigned int)strlen(a_head.program) + 1, 1))) { + pm_message("ReadXimHeader: can't calloc program string" ); + return(0); + } + header->width = atoi(a_head.image_width); + strncpy(header->program, a_head.program,strlen(a_head.program)); + } /* Do double checking for backwards compatibility */ if (header->npics == 0) header->npics = 1; @@ -147,6 +164,7 @@ ReadXimHeader(FILE * const in_fp, if (header->nchannels == 3 && header->bits_channel == 8) header->ncolors = 0; else if (header->nchannels == 1 && header->bits_channel == 8) { + overflow2(header->ncolors, sizeof(Color)); header->colors = (Color *)calloc((unsigned int)header->ncolors, sizeof(Color)); if (header->colors == NULL) { @@ -197,8 +215,7 @@ ReadImageChannel(FILE * const in } /* return to the beginning of the next image's buffer */ if (fseek(infp, marker, 0) == -1) { - pm_message("ReadImageChannel: can't fseek to location " - "in image buffer"); + pm_message("ReadImageChannel: can't fseek to location in image buffer" ); return(0); } free((char *)line); @@ -307,26 +324,28 @@ ReadXimImage(FILE * const in_fp, ***********************************************************************/ static int -ReadXim(FILE * const in_fp, - XimImage * const xim) { - +ReadXim(in_fp, xim) + FILE *in_fp; + XimImage *xim; +{ if (!ReadXimHeader(in_fp, xim)) { pm_message("can't read xim header" ); - return 0; - } else if (!ReadXimImage(in_fp, xim)) { + return(0); + } + if (!ReadXimImage(in_fp, xim)) { pm_message("can't read xim data" ); - return 0; - } else - return 1; + return(0); + } + return(1); } int -main(int argc, - const char **argv) { +main(int argc, + char *argv[]) { - struct CmdlineInfo cmdline; + struct cmdlineInfo cmdline; FILE *ifP, *imageout_file, *alpha_file; XimImage xim; pixel *pixelrow, colormap[256]; @@ -338,7 +357,7 @@ main(int argc, pixval maxval; bool success; - pm_proginit(&argc, argv); + ppm_init(&argc, argv); parseCommandLine(argc, argv, &cmdline); diff -ruNp a/editor/pamcut.c b/editor/pamcut.c --- a/editor/pamcut.c 2021-06-02 15:53:59.809205409 +0200 +++ b/editor/pamcut.c 2021-06-02 20:23:21.828634422 +0200 @@ -799,6 +799,8 @@ cutOneImage(FILE * const ifP outpam = inpam; /* Initial value -- most fields should be same */ outpam.file = ofP; + overflow_add(rightcol, 1); + overflow_add(bottomrow, 1); outpam.width = rightcol - leftcol + 1; outpam.height = bottomrow - toprow + 1; diff -ruNp a/editor/pnmgamma.c b/editor/pnmgamma.c --- a/editor/pnmgamma.c 2021-06-02 15:53:59.805205371 +0200 +++ b/editor/pnmgamma.c 2021-06-02 20:23:21.829634431 +0200 @@ -596,6 +596,7 @@ createGammaTables(enum transferFunction xelval ** const btableP) { /* Allocate space for the tables. */ + overflow_add(maxval, 1); MALLOCARRAY(*rtableP, maxval+1); MALLOCARRAY(*gtableP, maxval+1); MALLOCARRAY(*btableP, maxval+1); diff -ruNp a/editor/pnmhisteq.c b/editor/pnmhisteq.c --- a/editor/pnmhisteq.c 2021-06-02 15:53:59.800205323 +0200 +++ b/editor/pnmhisteq.c 2021-06-02 20:23:21.829634431 +0200 @@ -107,6 +107,7 @@ computeLuminosityHistogram(xel * const * unsigned int pixelCount; unsigned int * lumahist; + overflow_add(maxval, 1); MALLOCARRAY(lumahist, maxval + 1); if (lumahist == NULL) pm_error("Out of storage allocating array for %u histogram elements", diff --git a/editor/pnmpad.c b/editor/pnmpad.c index 9fa9f9e..6b98204 100644 --- a/editor/pnmpad.c +++ b/editor/pnmpad.c @@ -654,6 +654,8 @@ main(int argc, const char ** argv) { computePadSizes(cmdline, cols, rows, &lpad, &rpad, &tpad, &bpad); + overflow_add(cols, lpad); + overflow_add(cols + lpad, rpad); newcols = cols + lpad + rpad; if (cmdline.reportonly) diff -ruNp a/editor/pnmremap.c b/editor/pnmremap.c --- a/editor/pnmremap.c 2021-06-02 15:53:59.809205409 +0200 +++ b/editor/pnmremap.c 2021-06-02 20:23:21.830634440 +0200 @@ -470,6 +470,7 @@ fserr_init(struct pam * const pamP, unsigned int const fserrSize = pamP->width + 2; + overflow_add(pamP->width, 2); fserrP->width = pamP->width; MALLOCARRAY(fserrP->thiserr, pamP->depth); @@ -508,6 +509,7 @@ floydInitRow(struct pam * const pamP, unsigned int col; + overflow_add(pamP->width, 2); for (col = 0; col < pamP->width + 2; ++col) { unsigned int plane; for (plane = 0; plane < pamP->depth; ++plane) diff -ruNp a/editor/pnmscalefixed.c b/editor/pnmscalefixed.c --- a/editor/pnmscalefixed.c 2021-06-02 15:53:59.800205323 +0200 +++ b/editor/pnmscalefixed.c 2021-06-02 20:23:21.830634440 +0200 @@ -214,6 +214,7 @@ compute_output_dimensions(const struct c const int rows, const int cols, int * newrowsP, int * newcolsP) { + overflow2(rows, cols); if (cmdline.pixels) { if (rows * cols <= cmdline.pixels) { *newrowsP = rows; @@ -265,6 +266,8 @@ compute_output_dimensions(const struct c if (*newcolsP < 1) *newcolsP = 1; if (*newrowsP < 1) *newrowsP = 1; + + overflow2(*newcolsP, *newrowsP); } @@ -446,6 +449,9 @@ main(int argc, char **argv ) { unfilled. We can address that by stretching, whereas the other case would require throwing away some of the input. */ + + overflow2(newcols, SCALE); + overflow2(newrows, SCALE); sxscale = SCALE * newcols / cols; syscale = SCALE * newrows / rows; diff -ruNp a/editor/ppmdither.c b/editor/ppmdither.c --- a/editor/ppmdither.c 2021-06-02 15:53:59.803205352 +0200 +++ b/editor/ppmdither.c 2021-06-02 20:23:21.831634448 +0200 @@ -356,6 +356,11 @@ dithMatrix(unsigned int const dithPower) (dithDim * sizeof(*dithMat)) + /* pointers */ (dithDim * dithDim * sizeof(**dithMat)); /* data */ + + overflow2(dithDim, sizeof(*dithMat)); + overflow3(dithDim, dithDim, sizeof(**dithMat)); + overflow_add(dithDim * sizeof(*dithMat), dithDim * dithDim * sizeof(**dithMat)); + dithMat = malloc(dithMatSize); if (dithMat == NULL) diff -ruNp a/editor/specialty/pamoil.c b/editor/specialty/pamoil.c --- a/editor/specialty/pamoil.c 2021-06-02 15:53:59.817205486 +0200 +++ b/editor/specialty/pamoil.c 2021-06-02 20:23:21.831634448 +0200 @@ -112,6 +112,7 @@ main(int argc, char *argv[] ) { tuples = pnm_readpam(ifp, &inpam, PAM_STRUCT_SIZE(tuple_type)); pm_close(ifp); + overflow_add(inpam.maxval, 1); MALLOCARRAY(hist, inpam.maxval + 1); if (hist == NULL) pm_error("Unable to allocate memory for histogram."); diff -ruNp a/lib/libpam.c b/lib/libpam.c --- a/lib/libpam.c 2021-06-02 15:53:59.867205967 +0200 +++ b/lib/libpam.c 2021-06-02 20:23:21.832634457 +0200 @@ -225,7 +225,8 @@ allocPamRow(const struct pam * const pam unsigned int const bytesPerTuple = allocationDepth(pamP) * sizeof(sample); tuple * tuplerow; - tuplerow = malloc(pamP->width * (sizeof(tuple *) + bytesPerTuple)); + overflow_add(sizeof(tuple *), bytesPerTuple); + tuplerow = malloc2(pamP->width, (sizeof(tuple *) + bytesPerTuple)); if (tuplerow != NULL) { /* Now we initialize the pointers to the individual tuples diff -ruNp a/lib/libpammap.c b/lib/libpammap.c --- a/lib/libpammap.c 2021-06-02 15:53:59.867205967 +0200 +++ b/lib/libpammap.c 2021-06-02 20:23:00.658449503 +0200 @@ -108,6 +108,8 @@ allocTupleIntListItem(struct pam * const */ struct tupleint_list_item * retval; + overflow2(pamP->depth, sizeof(sample)); + overflow_add(sizeof(*retval)-sizeof(retval->tupleint.tuple), pamP->depth*sizeof(sample)); unsigned int const size = sizeof(*retval) - sizeof(retval->tupleint.tuple) + pamP->depth * sizeof(sample); diff -ruNp a/lib/libpm.c b/lib/libpm.c --- a/lib/libpm.c 2021-06-02 15:53:59.867205967 +0200 +++ b/lib/libpm.c 2021-06-02 20:23:21.832634457 +0200 @@ -888,5 +888,53 @@ pm_parse_height(const char * const arg) return height; } +/* + * Maths wrapping + */ +void __overflow2(int a, int b) +{ + if(a < 0 || b < 0) + pm_error("object too large"); + if(b == 0) + return; + if(a > INT_MAX / b) + pm_error("object too large"); +} + +void overflow3(int a, int b, int c) +{ + overflow2(a,b); + overflow2(a*b, c); +} + +void overflow_add(int a, int b) +{ + if( a > INT_MAX - b) + pm_error("object too large"); +} + +void *malloc2(int a, int b) +{ + overflow2(a, b); + if(a*b == 0) + pm_error("Zero byte allocation"); + return malloc(a*b); +} + +void *malloc3(int a, int b, int c) +{ + overflow3(a, b, c); + if(a*b*c == 0) + pm_error("Zero byte allocation"); + return malloc(a*b*c); +} + +void *realloc2(void * a, int b, int c) +{ + overflow2(b, c); + if(b*c == 0) + pm_error("Zero byte allocation"); + return realloc(a, b*c); +} diff -ruNp a/lib/pm.h b/lib/pm.h --- a/lib/pm.h 2021-06-02 15:53:59.866205957 +0200 +++ b/lib/pm.h 2021-06-02 20:23:21.833634466 +0200 @@ -442,5 +442,12 @@ pm_parse_height(const char * const arg); } #endif +void *malloc2(int, int); +void *malloc3(int, int, int); +#define overflow2(a,b) __overflow2(a,b) +void __overflow2(int, int); +void overflow3(int, int, int); +void overflow_add(int, int); + #endif diff -ruNp a/other/pnmcolormap.c b/other/pnmcolormap.c --- a/other/pnmcolormap.c 2021-06-02 15:53:59.882206111 +0200 +++ b/other/pnmcolormap.c 2021-06-02 20:23:21.833634466 +0200 @@ -1002,6 +1002,7 @@ colormapToSquare(struct pam * const pamP pamP->width = intsqrt; else pamP->width = intsqrt + 1; + overflow_add(intsqrt, 1); } { unsigned int const intQuotient = colormap.size / pamP->width; diff --git a/urt/Runput.c b/urt/Runput.c index 1a7f2f7..de2737b 100644 --- a/urt/Runput.c +++ b/urt/Runput.c @@ -202,6 +202,7 @@ RunSetup(rle_hdr * the_hdr) if ( the_hdr->background != 0 ) { int i; + overflow_add(the_hdr->ncolors, 1); rle_pixel *background = (rle_pixel *)malloc( (unsigned)(the_hdr->ncolors + 1) ); int *bg_color; @@ -224,7 +225,7 @@ RunSetup(rle_hdr * the_hdr) /* Big-endian machines are harder */ int i, nmap = (1 << the_hdr->cmaplen) * the_hdr->ncmap; - char *h_cmap = (char *)malloc( nmap * 2 ); + char *h_cmap = (char *)malloc2( nmap, 2 ); if ( h_cmap == NULL ) { fprintf( stderr, diff --git a/urt/rle.h b/urt/rle.h index 1e7ddd0..df45dd9 100644 --- a/urt/rle.h +++ b/urt/rle.h @@ -152,6 +152,17 @@ rle_hdr /* End of typedef. */ */ extern rle_hdr rle_dflt_hdr; +/* + * Provided by pm library + */ + +extern void overflow_add(int, int); +#define overflow2(a,b) __overflow2(a,b) +extern void __overflow2(int, int); +extern void overflow3(int, int, int); +extern void *malloc2(int, int); +extern void *malloc3(int, int, int); +extern void *realloc2(void *, int, int); /* Declare RLE library routines. */ diff --git a/urt/rle_addhist.c b/urt/rle_addhist.c index 45c3dbf..ef13973 100644 --- a/urt/rle_addhist.c +++ b/urt/rle_addhist.c @@ -70,13 +70,19 @@ rle_addhist(char * argv[], return; length = 0; - for (i = 0; argv[i]; ++i) + for (i = 0; argv[i]; ++i) { + overflow_add(length, strlen(argv[i])); + overflow_add(length+1, strlen(argv[i])); length += strlen(argv[i]) +1; /* length of each arg plus space. */ + } time(&temp); timedate = ctime(&temp); length += strlen(timedate); /* length of date and time in ASCII. */ + overflow_add(strlen(padding), 4); + overflow_add(strlen(histoire), strlen(padding) + 4); + overflow_add(length, strlen(histoire) + strlen(padding) + 4); length += strlen(padding) + 3 + strlen(histoire) + 1; /* length of padding, "on " and length of history name plus "="*/ if (in_hdr) /* if we are interested in the old comments... */ @@ -84,8 +90,10 @@ rle_addhist(char * argv[], else old = NULL; - if (old && *old) + if (old && *old) { + overflow_add(length, strlen(old)); length += strlen(old); /* add length if there. */ + } ++length; /*Cater for the null. */ diff --git a/urt/rle_getrow.c b/urt/rle_getrow.c index a24870a..0ba62c3 100644 --- a/urt/rle_getrow.c +++ b/urt/rle_getrow.c @@ -164,6 +164,7 @@ rle_get_setup(rle_hdr * const the_hdr) { char * cp; VAXSHORT(comlen, infile); /* get comment length */ + overflow_add(comlen, 1); evenlen = (comlen + 1) & ~1; /* make it even */ if (evenlen) { MALLOCARRAY(comment_buf, evenlen); diff --git a/urt/rle_hdr.c b/urt/rle_hdr.c index 8ceaa9e..4c13037 100644 --- a/urt/rle_hdr.c +++ b/urt/rle_hdr.c @@ -148,7 +148,7 @@ rle_hdr_cp(rle_hdr * const fromHdrP, if (toHdrP->cmap) { size_t const size = toHdrP->ncmap * (1 << toHdrP->cmaplen) * sizeof(rle_map); - toHdrP->cmap = malloc(size); + toHdrP->cmap = malloc3(toHdrP->ncmap, 1<<toHdrP->cmaplen, sizeof(rle_map)); if (!toHdrP->cmap) pm_error("Failed to allocate memory for %u color maps " "of length %u", toHdrP->ncmap, 1 << toHdrP->cmaplen); @@ -164,11 +164,16 @@ rle_hdr_cp(rle_hdr * const fromHdrP, /* Count the comments. */ for (cp = toHdrP->comments, size = 0; *cp; ++cp) + { + overflow_add(size,1); ++size; + } /* Check if there are really any comments. */ if (size > 0) { + overflow_add(size,1); ++size; /* Copy the NULL pointer, too. */ + overflow2(size, sizeof(char *)); size *= sizeof(char *); toHdrP->comments = malloc(size); if (!toHdrP->comments) diff -ruNp a/urt/rle_putcom.c b/urt/rle_putcom.c --- a/urt/rle_putcom.c 2021-06-02 15:53:59.824205554 +0200 +++ b/urt/rle_putcom.c 2021-06-02 20:25:22.620707940 +0200 @@ -98,12 +98,14 @@ rle_putcom(const char * const value, const char * v; const char ** old_comments; int i; - for (i = 2, cp = the_hdr->comments; *cp != NULL; ++i, ++cp) + for (i = 2, cp = the_hdr->comments; *cp != NULL; ++i, ++cp) { + overflow_add(i, 1); if (match(value, *cp) != NULL) { v = *cp; *cp = value; return v; } + } /* Not found */ /* Can't realloc because somebody else might be pointing to this * comments block. Of course, if this were true, then the
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