#ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include "byteorder.h" #include "misc.h" #include "lbx.h" #include "image.h" struct lbx_image { uint16_t width, height; uint16_t wtf1, wtf2; uint16_t offs, frames; FILE *f; long foff; int currentframe; int currentx, currenty; unsigned char **framedata; uint32_t offsets[]; }; struct lbx_image *lbximg_fopen(FILE *f) { struct lbx_image tmp = {.f = f}, *new; if (fread(&tmp.width, sizeof tmp.width, 1, f) != 1) goto readerr; if (fread(&tmp.height, sizeof tmp.height, 1, f) != 1) goto readerr; if (fread(&tmp.wtf1, sizeof tmp.wtf1, 1, f) != 1) goto readerr; if (fread(&tmp.offs, sizeof tmp.offs, 1, f) != 1) goto readerr; if (fread(&tmp.frames, sizeof tmp.frames, 1, f) != 1) goto readerr; if (fread(&tmp.wtf2, sizeof tmp.wtf2, 1, f) != 1) goto readerr; tmp.width = letohs(tmp.width); tmp.foff += sizeof tmp.width; tmp.height = letohs(tmp.height); tmp.foff += sizeof tmp.height; tmp.wtf1 = letohs(tmp.wtf1); tmp.foff += sizeof tmp.wtf1; tmp.offs = letohs(tmp.offs); tmp.foff += sizeof tmp.offs; tmp.frames = letohs(tmp.frames); tmp.foff += sizeof tmp.frames; tmp.wtf2 = letohs(tmp.wtf2); tmp.foff += sizeof tmp.wtf2; /* * DEBUG ONLY. These assertions exist to catch otherwise valid image * files which differ from what I believe to be true of all LBX images. * If we never find any exceptions, we can replace the assertions with * assumptions. */ assert(tmp.wtf1 == 0); assert(tmp.offs == tmp.frames + 1); new = malloc(sizeof *new + tmp.offs * sizeof *new->offsets); if (!new) { lbx_errno = -errno; return NULL; } *new = tmp; new->currentframe = -1; if (fread(new->offsets, sizeof *new->offsets, new->offs, f)!= new->offs) goto readerr; new->foff += sizeof *new->offsets * new->offs; return new; readerr: if (feof(f)) { lbx_errno = LBX_EEOF; } else { lbx_errno = -errno; } free(new); return NULL; } static int _lbx_drawrow(int first, struct lbx_image *img) { uint16_t type, yval, count, xval; unsigned char *pos; unsigned char abyss; size_t rc; assert(img->framedata); if (fread(&type, sizeof type, 1, img->f) != 1) goto readerr; type = letohs(type); img->foff += sizeof type; if (first) { img->currentx = 0; img->currenty = 0; type = 0; } if (type == 0) { if (fread(&yval, sizeof yval, 1, img->f) != 1) goto readerr; yval = letohs(yval); img->foff += sizeof yval; if (yval == 1000) return 1; if (fread(&count, sizeof count, 1, img->f) != 1) goto readerr; count = letohs(count); img->foff += sizeof count; if (fread(&xval, sizeof xval, 1, img->f) != 1) goto readerr; xval = letohs(xval); img->foff += sizeof xval; /* Ensure that the row fits in the image. */ if (img->height - img->currenty <= yval || xval >= img->width) { lbx_errno = LBX_EFORMAT; return -1; } img->currenty += yval; img->currentx = xval; } else { if (fread(&xval, sizeof xval, 1, img->f) != 1) goto readerr; xval = letohs(xval); img->foff += sizeof xval; if (img->width - img->currentx <= xval) { lbx_errno = LBX_EFORMAT; return -1; } img->currentx += xval; count = type; } if (count > img->width - img->currentx) { lbx_errno = LBX_EFORMAT; return -1; } pos = &img->framedata[img->currenty][img->currentx]; rc = fread(pos, 1, count, img->f); img->currentx += rc; img->foff += rc; if (rc < count) goto readerr; if (count % 2) { if (fread(&abyss, 1, 1, img->f) != 1) goto readerr; img->foff += 1; } return 0; readerr: if (feof(img->f)) { lbx_errno = LBX_EEOF; } else { lbx_errno = -errno; } return -1; } unsigned char **lbximg_getframe(struct lbx_image *img, int frame) { if (frame >= img->frames || frame < 0) { lbx_errno = LBX_ERANGE; return NULL; } if (!img->framedata) { unsigned char *tmp; int i; tmp = malloc(img->width * img->height); if (!tmp) { lbx_errno = -errno; return NULL; } img->framedata = malloc(img->height * sizeof *img->framedata); if (!img->framedata) { lbx_errno = -errno; free(tmp); return NULL; } for (i = 0; i < img->height; i++) { img->framedata[i] = tmp + i * img->width; } } /* Start over if we are backtracking. */ if (img->currentframe > frame) img->currentframe == -1; /* We must have previous frame decoded to continue. */ if (frame > img->currentframe + 1) { if (!lbximg_getframe(img, frame-1)) return NULL; } if (img->currentframe != frame) { int rc, first = 1; if (_lbx_fseek(img->f, &img->foff, img->offsets[frame]) == -1) return NULL; do { rc = _lbx_drawrow(first, img); if (rc == -1) return NULL; first = 0; if (img->foff > img->offsets[frame+1]) { lbx_errno = LBX_EFORMAT; return NULL; } } while (!rc); } img->currentframe = frame; return img->framedata; } int lbximg_loadpalette(FILE *f, struct lbx_colour palette[static 256]) { uint8_t entry[4]; int i; for (i = 0; i < 256; i++) { if (fread(entry, sizeof entry, 1, f) != 1) { lbx_errno = (feof(f)) ? LBX_EEOF : -errno; return -1; } if (entry[0] != 1) { lbx_errno = LBX_EFORMAT; return -1; } palette[i] = (struct lbx_colour){ .red = entry[1] << 2, .green = entry[2] << 2, .blue = entry[3] << 2, }; } return 0; } int lbximg_getpalette(struct lbx_image *img, struct lbx_colour palette[static 256]) { int index = 0; size_t rc; size_t hdrlen = 6*(sizeof img->width) + (img->offs)*(sizeof *img->offsets); uint8_t entry[4]; /* Palette data is located right after the header. */ if (_lbx_fseek(img->f, &img->foff, hdrlen) == -1) return -1; while (img->foff + sizeof entry <= img->offsets[0]) { rc = fread(entry, 1, sizeof entry, img->f); img->foff += rc; if (rc < sizeof entry) { goto readerr; } if (entry[0] == 0) { index++; } else { index = entry[0]; } palette[index] = (struct lbx_colour){ .red = entry[1] << 2, .green = entry[2] << 2, .blue = entry[3] << 2, }; } return 0; readerr: if (feof(img->f)) lbx_errno = LBX_EEOF; else lbx_errno = -errno; return -1; } void lbximg_close(struct lbx_image *img) { if (!img) return; if (img->framedata) { free(img->framedata[0]); free(img->framedata); } if (img->f) { fclose(img->f); } free(img); }