/* pngimage.c * * Copyright (c) 2014 John Cunningham Bowler * * Last changed in libpng 1.6.10 [(PENDING RELEASE)] * * This code is released under the libpng license. * For conditions of distribution and use, see the disclaimer * and license in png.h * * Test the png_read_png and png_write_png interfaces. Given a PNG file load it * using png_read_png and then write with png_write_png. Test all possible * transforms. */ #include #include #include #include #include #include #if defined(HAVE_CONFIG_H) && !defined(PNG_NO_CONFIG_H) # include #endif /* Define the following to use this test against your installed libpng, rather * than the one being built here: */ #ifdef PNG_FREESTANDING_TESTS # include #else # include "../../png.h" #endif #ifndef PNG_SETJMP_SUPPORTED # include /* because png.h did *not* include this */ #endif #if defined(PNG_INFO_IMAGE_SUPPORTED) && defined(PNG_SEQUENTIAL_READ_SUPPORTED) /* If a transform is valid on both read and write this implies that if the * transform is applied to read it must also be applied on write to produce * meaningful data. This is because these transforms when performed on read * produce data with a memory format that does not correspond to a PNG format. * * Most of these transforms are invertible; after applying the transform on * write the result is the original PNG data that would have would have been * read if no transform were applied. * * The exception is _SHIFT, which destroys the low order bits marked as not * significant in a PNG with the sBIT chunk. * * The following table lists, for each transform, the conditions under which it * is expected to do anything. Conditions are defined as follows: * * 1) Color mask bits required - simply a mask to AND with color_type; one of * these must be present for the transform to fire, except that 0 means * 'always'. * 2) Color mask bits which must be absent - another mask - none of these must * be present. * 3) Bit depths - a mask of component bit depths for the transform to fire. * 4) 'read' - the transform works in png_read_png. * 5) 'write' - the transform works in png_write_png. * 6) PNG_INFO_chunk; a mask of the chunks that must be present for the * transform to fire. All must be present - the requirement is that * png_get_valid() & mask == mask, so if mask is 0 there is no requirement. * * The condition refers to the original image state - if multiple transforms are * used together it is possible to cause a transform that wouldn't fire on the * original image to fire. */ static struct transform_info { const char *name; int transform; png_uint_32 valid_chunks; # define CHUNK_NONE 0 # define CHUNK_sBIT PNG_INFO_sBIT # define CHUNK_tRNS PNG_INFO_tRNS png_byte color_mask_required; png_byte color_mask_absent; # define COLOR_MASK_X 0 # define COLOR_MASK_P PNG_COLOR_MASK_PALETTE # define COLOR_MASK_C PNG_COLOR_MASK_COLOR # define COLOR_MASK_A PNG_COLOR_MASK_ALPHA # define COLOR_MASK_ALL (PALETTE+COLOR+ALPHA) /* absent = gray, no alpha */ png_byte bit_depths; # define BD_ALL (1 + 2 + 4 + 8 + 16) # define BD_PAL (1 + 2 + 4 + 8) # define BD_LOW (1 + 2 + 4) # define BD_16 16 # define BD_TRUE (8+16) /* i.e. true-color depths */ png_byte when; # define TRANSFORM_R 1 # define TRANSFORM_W 2 # define TRANSFORM_RW 3 png_byte tested; /* the transform was tested somewhere */ } transform_info[] = { /* List ALL the PNG_TRANSFORM_ macros here. Check for support using the READ * macros; even if the transform is supported on write it cannot be tested * without the read support. */ # define T(name,chunk,cm_required,cm_absent,bd,when)\ { #name, PNG_TRANSFORM_ ## name, CHUNK_ ## chunk,\ COLOR_MASK_ ## cm_required, COLOR_MASK_ ## cm_absent, BD_ ## bd,\ TRANSFORM_ ## when, 0/*!tested*/ } #ifdef PNG_READ_STRIP_16_TO_8_SUPPORTED T(STRIP_16, NONE, X, X, 16, R), /* drops the bottom 8 bits when bit depth is 16 */ #endif #ifdef PNG_READ_STRIP_ALPHA_SUPPORTED T(STRIP_ALPHA, NONE, A, X, ALL, R), /* removes the alpha channel if present */ #endif #ifdef PNG_WRITE_PACK_SUPPORTED # define TRANSFORM_RW_PACK TRANSFORM_RW #else # define TRANSFORM_RW_PACK TRANSFORM_R #endif #ifdef PNG_READ_PACK_SUPPORTED T(PACKING, NONE, X, X, LOW, RW_PACK), /* unpacks low-bit-depth components into 1 byte per component on read, * reverses this on write. */ #endif #ifdef PNG_WRITE_PACKSWAP_SUPPORTED # define TRANSFORM_RW_PACKSWAP TRANSFORM_RW #else # define TRANSFORM_RW_PACKSWAP TRANSFORM_R #endif #ifdef PNG_READ_PACKSWAP_SUPPORTED T(PACKSWAP, NONE, X, X, LOW, RW_PACKSWAP), /* reverses the order of low-bit-depth components packed into a byte */ #endif #ifdef PNG_READ_EXPAND_SUPPORTED T(EXPAND, NONE, P, X, ALL, R), /* expands PLTE PNG files to RGB (no tRNS) or RGBA (tRNS) * * Note that the 'EXPAND' transform does lots of different things: */ T(EXPAND, NONE, X, C, ALL, R), /* expands grayscale PNG files to RGB, or RGBA */ T(EXPAND, tRNS, X, A, ALL, R), /* expands the tRNS chunk in files without alpha */ #endif #ifdef PNG_WRITE_INVERT_SUPPORTED # define TRANSFORM_RW_INVERT TRANSFORM_RW #else # define TRANSFORM_RW_INVERT TRANSFORM_R #endif #ifdef PNG_READ_INVERT_SUPPORTED T(INVERT_MONO, NONE, X, C, ALL, RW_INVERT), /* converts gray-scale components to 1..0 from 0..1 */ #endif #ifdef PNG_WRITE_SHIFT_SUPPORTED # define TRANSFORM_RW_SHIFT TRANSFORM_RW #else # define TRANSFORM_RW_SHIFT TRANSFORM_R #endif #ifdef PNG_READ_SHIFT_SUPPORTED T(SHIFT, sBIT, X, X, ALL, RW_SHIFT), /* reduces component values to the original range based on the sBIT chunk, * this is only partially reversible - the low bits are lost and cannot be * recovered on write. In fact write code replicates the bits to generate * new low-order bits. */ #endif #ifdef PNG_WRITE_BGR_SUPPORTED # define TRANSFORM_RW_BGR TRANSFORM_RW #else # define TRANSFORM_RW_BGR TRANSFORM_R #endif #ifdef PNG_READ_BGR_SUPPORTED T(BGR, NONE, C, P, TRUE, RW_BGR), /* reverses the rgb component values of true-color pixels */ #endif #ifdef PNG_WRITE_SWAP_ALPHA_SUPPORTED # define TRANSFORM_RW_SWAP_ALPHA TRANSFORM_RW #else # define TRANSFORM_RW_SWAP_ALPHA TRANSFORM_R #endif #ifdef PNG_READ_SWAP_ALPHA_SUPPORTED T(SWAP_ALPHA, NONE, A, X, TRUE, RW_SWAP_ALPHA), /* swaps the alpha channel of RGBA or GA pixels to the front - ARGB or * AG, on write reverses the process. */ #endif #ifdef PNG_WRITE_SWAP_SUPPORTED # define TRANSFORM_RW_SWAP TRANSFORM_RW #else # define TRANSFORM_RW_SWAP TRANSFORM_R #endif #ifdef PNG_READ_SWAP_SUPPORTED T(SWAP_ENDIAN, NONE, X, P, 16, RW_SWAP), /* byte-swaps 16-bit component values */ #endif #ifdef PNG_WRITE_INVERT_ALPHA_SUPPORTED # define TRANSFORM_RW_INVERT_ALPHA TRANSFORM_RW #else # define TRANSFORM_RW_INVERT_ALPHA TRANSFORM_R #endif #ifdef PNG_READ_INVERT_ALPHA_SUPPORTED T(INVERT_ALPHA, NONE, A, X, TRUE, RW_INVERT_ALPHA), /* converts an alpha channel from 0..1 to 1..0 */ #endif #ifdef PNG_WRITE_FILLER_SUPPORTED T(STRIP_FILLER_BEFORE, NONE, A, P, TRUE, W), /* 'A' for a filler! */ /* on write skips a leading filler channel; testing requires data with a * filler channel so this is produced from RGBA or GA images by removing * the 'alpha' flag from the color type in place. */ T(STRIP_FILLER_AFTER, NONE, A, P, TRUE, W), /* on write strips a trailing filler channel */ #endif #ifdef PNG_READ_GRAY_TO_RGB_SUPPORTED T(GRAY_TO_RGB, NONE, X, C, ALL, R), /* expands grayscale images to RGB, also causes the palette part of * 'EXPAND' to happen. Low bit depth grayscale images are expanded to * 8-bits per component and no attempt is made to convert the image to a * palette image. While this transform is partially reversible * png_write_png does not currently support this. */ T(GRAY_TO_RGB, NONE, P, X, ALL, R), /* The 'palette' side effect mentioned above; a bit bogus but this is the * way the libpng code works. */ #endif #ifdef PNG_READ_EXPAND_16_SUPPORTED T(EXPAND_16, NONE, X, X, PAL, R), /* expands images to 16-bits per component, as a side effect expands * palette images to RGB and expands the tRNS chunk if present, so it can * modify 16-bit per component images as well: */ T(EXPAND_16, tRNS, X, A, 16, R), /* side effect of EXPAND_16 - expands the tRNS chunk in an RGB or G 16-bit * image. */ #endif #ifdef PNG_READ_SCALE_16_TO_8_SUPPORTED T(SCALE_16, NONE, X, X, 16, R) /* scales 16-bit components to 8-bits. */ #endif #undef T }; #define ARRAY_SIZE(a) ((sizeof a)/(sizeof a[0])) #define TTABLE_SIZE ARRAY_SIZE(transform_info) /* Some combinations of options that should be reversible are not; these cases * are bugs. */ static int known_bad_combos[][2] = { /* problem, antidote */ { PNG_TRANSFORM_SHIFT | PNG_TRANSFORM_INVERT_ALPHA, 0/*antidote*/ } }; static int is_combo(int transforms) { return transforms & (transforms-1); /* non-zero if more than one set bit */ } static int first_transform(int transforms) { return transforms & -transforms; /* lowest set bit */ } static int is_bad_combo(int transforms) { unsigned int i; for (i=0; ifirst.next = NULL; buffer->last = NULL; buffer->current = NULL; } #ifdef PNG_WRITE_SUPPORTED static void buffer_start_write(struct buffer *buffer) { buffer->last = &buffer->first; buffer->end_count = 0; buffer->current = NULL; } #endif static void buffer_start_read(struct buffer *buffer) { buffer->current = &buffer->first; buffer->read_count = 0; } #ifdef ENOMEM /* required by POSIX 1003.1 */ # define MEMORY ENOMEM #else # define MEMORY ERANGE /* required by ANSI-C */ #endif static struct buffer * get_buffer(png_structp pp) /* Used from libpng callbacks to get the current buffer */ { return (struct buffer*)png_get_io_ptr(pp); } #define NEW(type) ((type *)malloc(sizeof (type))) static struct buffer_list * buffer_extend(struct buffer_list *current) { struct buffer_list *add; assert(current->next == NULL); add = NEW(struct buffer_list); if (add == NULL) return NULL; add->next = NULL; current->next = add; return add; } /* Load a buffer from a file; does the equivalent of buffer_start_write. On a * read error returns an errno value, else returns 0. */ static int buffer_from_file(struct buffer *buffer, FILE *fp) { struct buffer_list *last = &buffer->first; size_t count = 0; for (;;) { size_t r = fread(last->buffer+count, 1/*size*/, (sizeof last->buffer)-count, fp); if (r > 0) { count += r; if (count >= sizeof last->buffer) { assert(count == sizeof last->buffer); count = 0; if (last->next == NULL) { last = buffer_extend(last); if (last == NULL) return MEMORY; } else last = last->next; } } else /* fread failed - probably end of file */ { if (feof(fp)) { buffer->last = last; buffer->end_count = count; return 0; /* no error */ } /* Some kind of funky error; errno should be non-zero */ return errno == 0 ? ERANGE : errno; } } } /* This structure is used to control the test of a single file. */ typedef enum { VERBOSE, /* switches on all messages */ INFORMATION, WARNINGS, /* switches on warnings */ LIBPNG_WARNING, APP_WARNING, ERRORS, /* just errors */ APP_FAIL, /* continuable error - no need to longjmp */ LIBPNG_ERROR, /* this and higher cause a longjmp */ LIBPNG_BUG, /* erroneous behavior in libpng */ APP_ERROR, /* such as out-of-memory in a callback */ QUIET, /* no normal messages */ USER_ERROR, /* such as file-not-found */ INTERNAL_ERROR } error_level; #define LEVEL_MASK 0xf /* where the level is in 'options' */ #define EXHAUSTIVE 0x010 /* Test all combinations of active options */ #define STRICT 0x020 /* Fail on warnings as well as errors */ #define LOG 0x040 /* Log pass/fail to stdout */ #define CONTINUE 0x080 /* Continue on APP_FAIL errors */ #define SKIP_BUGS 0x100 /* Skip over known bugs */ #define LOG_SKIPPED 0x200 /* Log skipped bugs */ #define FIND_BAD_COMBOS 0x400 /* Attempt to deduce bad combos */ /* Result masks apply to the result bits in the 'results' field below; these * bits are simple 1U<options = WARNINGS; /* default to !verbose, !quiet */ dp->filename = NULL; dp->operation = NULL; dp->original_pp = NULL; dp->original_ip = NULL; dp->original_rows = NULL; dp->read_pp = NULL; dp->read_ip = NULL; buffer_init(&dp->original_file); # ifdef PNG_WRITE_SUPPORTED dp->write_pp = NULL; buffer_init(&dp->written_file); # endif } static void display_clean_read(struct display *dp) { if (dp->read_pp != NULL) png_destroy_read_struct(&dp->read_pp, &dp->read_ip, NULL); } #ifdef PNG_WRITE_SUPPORTED static void display_clean_write(struct display *dp) { if (dp->write_pp != NULL) png_destroy_write_struct(&dp->write_pp, NULL); } #endif static void display_clean(struct display *dp) { # ifdef PNG_WRITE_SUPPORTED display_clean_write(dp); # endif display_clean_read(dp); dp->original_rowbytes = 0; dp->original_rows = NULL; dp->chunks = 0; png_destroy_read_struct(&dp->original_pp, &dp->original_ip, NULL); /* leave the filename for error detection */ dp->results = 0; /* reset for next time */ } static struct display * get_dp(png_structp pp) /* The display pointer is always stored in the png_struct error pointer */ { struct display *dp = (struct display*)png_get_error_ptr(pp); if (dp == NULL) { fprintf(stderr, "pngimage: internal error (no display)\n"); exit(99); /* prevents a crash */ } return dp; } /* error handling */ #ifdef __GNUC__ # define VGATTR __attribute__((__format__ (__printf__,3,4))) /* Required to quiet GNUC warnings when the compiler sees a stdarg function * that calls one of the stdio v APIs. */ #else # define VGATTR #endif static void VGATTR display_log(struct display *dp, error_level level, const char *fmt, ...) /* 'level' is as above, fmt is a stdio style format string. This routine * does not return if level is above LIBPNG_WARNING */ { dp->results |= 1U << level; if (level > (error_level)(dp->options & LEVEL_MASK)) { const char *lp; va_list ap; switch (level) { case INFORMATION: lp = "information"; break; case LIBPNG_WARNING: lp = "warning(libpng)"; break; case APP_WARNING: lp = "warning(pngimage)"; break; case APP_FAIL: lp = "error(continuable)"; break; case LIBPNG_ERROR: lp = "error(libpng)"; break; case LIBPNG_BUG: lp = "bug(libpng)"; break; case APP_ERROR: lp = "error(pngimage)"; break; case USER_ERROR: lp = "error(user)"; break; case INTERNAL_ERROR: /* anything unexpected is an internal error: */ case VERBOSE: case WARNINGS: case ERRORS: case QUIET: default: lp = "bug(pngimage)"; break; } fprintf(stderr, "%s: %s: %s", dp->filename != NULL ? dp->filename : "", lp, dp->operation); if (dp->transforms != 0) { int tr = dp->transforms; if (is_combo(tr)) fprintf(stderr, "(0x%x)", tr); else fprintf(stderr, "(%s)", transform_name(tr)); } fprintf(stderr, ": "); va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); fputc('\n', stderr); } /* else do not output any message */ /* Errors cause this routine to exit to the fail code */ if (level > APP_FAIL || (level > ERRORS && !(dp->options & CONTINUE))) longjmp(dp->error_return, level); } /* error handler callbacks for libpng */ static void PNGCBAPI display_warning(png_structp pp, png_const_charp warning) { display_log(get_dp(pp), LIBPNG_WARNING, "%s", warning); } static void PNGCBAPI display_error(png_structp pp, png_const_charp error) { struct display *dp = get_dp(pp); display_log(dp, LIBPNG_ERROR, "%s", error); } static void display_cache_file(struct display *dp, const char *filename) /* Does the initial cache of the file. */ { FILE *fp; int ret; dp->filename = filename; if (filename != NULL) { fp = fopen(filename, "rb"); if (fp == NULL) display_log(dp, USER_ERROR, "open failed: %s", strerror(errno)); } else fp = stdin; ret = buffer_from_file(&dp->original_file, fp); fclose(fp); if (ret != 0) display_log(dp, APP_ERROR, "read failed: %s", strerror(ret)); } static void buffer_read(struct display *dp, struct buffer *bp, png_bytep data, png_size_t size) { struct buffer_list *last = bp->current; size_t read_count = bp->read_count; while (size > 0) { size_t avail; if (last == NULL || (last == bp->last && read_count >= bp->end_count)) { display_log(dp, USER_ERROR, "file truncated (%lu bytes)", (unsigned long)size); /*NOTREACHED*/ break; } else if (read_count >= sizeof last->buffer) { /* Move to the next buffer: */ last = last->next; read_count = 0; bp->current = last; /* Avoid update outside the loop */ /* And do a sanity check (the EOF case is caught above) */ if (last == NULL) { display_log(dp, INTERNAL_ERROR, "damaged buffer list"); /*NOTREACHED*/ break; } } avail = (sizeof last->buffer) - read_count; if (avail > size) avail = size; memcpy(data, last->buffer + read_count, avail); read_count += avail; size -= avail; data += avail; } bp->read_count = read_count; } static void PNGCBAPI read_function(png_structp pp, png_bytep data, png_size_t size) { buffer_read(get_dp(pp), get_buffer(pp), data, size); } static void read_png(struct display *dp, struct buffer *bp, const char *operation, int transforms) { png_structp pp; png_infop ip; /* This cleans out any previous read and sets operation and transforms to * empty. */ display_clean_read(dp); if (operation != NULL) /* else this is a verify and do not overwrite info */ { dp->operation = operation; dp->transforms = transforms; } dp->read_pp = pp = png_create_read_struct(PNG_LIBPNG_VER_STRING, dp, display_error, display_warning); if (pp == NULL) display_log(dp, LIBPNG_ERROR, "failed to create read struct"); /* The png_read_png API requires us to make the info struct, but it does the * call to png_read_info. */ dp->read_ip = ip = png_create_info_struct(pp); if (ip == NULL) display_log(dp, LIBPNG_ERROR, "failed to create info struct"); # ifdef PNG_SET_USER_LIMITS_SUPPORTED /* Remove the user limits, if any */ png_set_user_limits(pp, 0x7fffffff, 0x7fffffff); # endif /* Set the IO handling */ buffer_start_read(bp); png_set_read_fn(pp, bp, read_function); png_read_png(pp, ip, transforms, NULL/*params*/); #if 0 /* crazy debugging */ { png_bytep pr = png_get_rows(pp, ip)[0]; size_t rb = png_get_rowbytes(pp, ip); size_t cb; char c = ' '; fprintf(stderr, "%.4x %2d (%3lu bytes):", transforms, png_get_bit_depth(pp,ip), (unsigned long)rb); for (cb=0; cboriginal_file, "original read", 0/*no transform*/); /* Move the result to the 'original' fields */ dp->original_pp = pp = dp->read_pp, dp->read_pp = NULL; dp->original_ip = ip = dp->read_ip, dp->read_ip = NULL; dp->original_rowbytes = png_get_rowbytes(pp, ip); if (dp->original_rowbytes == 0) display_log(dp, LIBPNG_BUG, "png_get_rowbytes returned 0"); dp->chunks = png_get_valid(pp, ip, 0xffffffff); if ((dp->chunks & PNG_INFO_IDAT) == 0) /* set by png_read_png */ display_log(dp, LIBPNG_BUG, "png_read_png did not set IDAT flag"); dp->original_rows = png_get_rows(pp, ip); if (dp->original_rows == NULL) display_log(dp, LIBPNG_BUG, "png_read_png did not create row buffers"); if (!png_get_IHDR(pp, ip, &dp->width, &dp->height, &dp->bit_depth, &dp->color_type, &dp->interlace_method, &dp->compression_method, &dp->filter_method)) display_log(dp, LIBPNG_BUG, "png_get_IHDR failed"); /* 'active' transforms are discovered based on the original image format; * running one active transform can activate others. At present the code * does not attempt to determine the closure. */ { png_uint_32 chunks = dp->chunks; int active = 0, inactive = 0; int ct = dp->color_type; int bd = dp->bit_depth; unsigned int i; for (i=0; iactive_transforms = active; dp->ignored_transforms = inactive; /* excluding write-only transforms */ if (active == 0) display_log(dp, INTERNAL_ERROR, "bad transform table"); } } static int compare_read(struct display *dp, int applied_transforms) { /* Compare the png_info from read_ip with original_info */ size_t rowbytes; png_uint_32 width, height; int bit_depth, color_type; int interlace_method, compression_method, filter_method; const char *e = NULL; png_get_IHDR(dp->read_pp, dp->read_ip, &width, &height, &bit_depth, &color_type, &interlace_method, &compression_method, &filter_method); # define C(item) if (item != dp->item) \ display_log(dp, APP_WARNING, "IHDR " #item "(%lu) changed to %lu",\ (unsigned long)dp->item, (unsigned long)item), e = #item /* The IHDR should be identical: */ C(width); C(height); C(bit_depth); C(color_type); C(interlace_method); C(compression_method); C(filter_method); /* 'e' remains set to the name of the last thing changed: */ if (e) display_log(dp, APP_ERROR, "IHDR changed (%s)", e); /* All the chunks from the original PNG should be preserved in the output PNG * because the PNG format has not been changed. */ { unsigned long chunks = png_get_valid(dp->read_pp, dp->read_ip, 0xffffffff); if (chunks != dp->chunks) display_log(dp, APP_FAIL, "PNG chunks changed from 0x%lx to 0x%lx", (unsigned long)dp->chunks, chunks); } /* rowbytes should be the same */ rowbytes = png_get_rowbytes(dp->read_pp, dp->read_ip); /* NOTE: on 64-bit systems this may trash the top bits of rowbytes, * which could lead to weird error messages. */ if (rowbytes != dp->original_rowbytes) display_log(dp, APP_ERROR, "PNG rowbytes changed from %lu to %lu", (unsigned long)dp->original_rowbytes, (unsigned long)rowbytes); /* The rows should be the same too, unless the applied transforms includes * the shift transform, in which case low bits may have been lost. */ { png_bytepp rows = png_get_rows(dp->read_pp, dp->read_ip); unsigned int mask; /* mask (if not zero) for the final byte */ if (bit_depth < 8) { /* Need the stray bits at the end, this depends only on the low bits * of the image width; overflow does not matter. If the width is an * exact multiple of 8 bits this gives a mask of 0, not 0xff. */ mask = 0xff & (0xff00 >> ((bit_depth * width) & 7)); } else mask = 0; if (rows == NULL) display_log(dp, LIBPNG_BUG, "png_get_rows returned NULL"); if ((applied_transforms & PNG_TRANSFORM_SHIFT) == 0 || (dp->active_transforms & PNG_TRANSFORM_SHIFT) == 0 || color_type == PNG_COLOR_TYPE_PALETTE) { unsigned long y; for (y=0; yoriginal_rows[y]; if (memcmp(row, orig, rowbytes-(mask != 0)) != 0 || (mask != 0 && ((row[rowbytes-1] & mask) != (orig[rowbytes-1] & mask)))) { size_t x; /* Find the first error */ for (x=0; x 0x%.2x", (unsigned long)x, (unsigned long)y, orig[x], row[x]); return 0; /* don't keep reporting failed rows on 'continue' */ } } } else { unsigned long y; int bpp; /* bits-per-pixel then bytes-per-pixel */ /* components are up to 8 bytes in size */ png_byte sig_bits[8]; png_color_8p sBIT; if (png_get_sBIT(dp->read_pp, dp->read_ip, &sBIT) != PNG_INFO_sBIT) display_log(dp, INTERNAL_ERROR, "active shift transform but no sBIT in file"); switch (color_type) { case PNG_COLOR_TYPE_GRAY: sig_bits[0] = sBIT->gray; bpp = bit_depth; break; case PNG_COLOR_TYPE_GA: sig_bits[0] = sBIT->gray; sig_bits[1] = sBIT->alpha; bpp = 2 * bit_depth; break; case PNG_COLOR_TYPE_RGB: sig_bits[0] = sBIT->red; sig_bits[1] = sBIT->green; sig_bits[2] = sBIT->blue; bpp = 3 * bit_depth; break; case PNG_COLOR_TYPE_RGBA: sig_bits[0] = sBIT->red; sig_bits[1] = sBIT->green; sig_bits[2] = sBIT->blue; sig_bits[3] = sBIT->alpha; bpp = 4 * bit_depth; break; default: display_log(dp, LIBPNG_ERROR, "invalid colour type %d", color_type); /*NOTREACHED*/ bpp = 0; break; } { int b; for (b=0; 8*b bit_depth/*!palette*/) display_log(dp, LIBPNG_BUG, "invalid sBIT[%u] value %d returned for PNG bit depth %d", b, sig_bits[b], bit_depth); } } if (bpp < 8 && bpp != bit_depth) { /* sanity check; this is a grayscale PNG; something is wrong in the * code above. */ display_log(dp, INTERNAL_ERROR, "invalid bpp %u for bit_depth %u", bpp, bit_depth); } switch (bit_depth) { int b; case 16: /* Two bytes per component, bit-endian */ for (b = (bpp >> 4); b > 0; ) { unsigned int sig = (unsigned int)(0xffff0000 >> sig_bits[b]); sig_bits[2*b+1] = (png_byte)sig; sig_bits[2*b+0] = (png_byte)(sig >> 8); /* big-endian */ } break; case 8: /* One byte per component */ for (b=0; b*8 < bpp; ++b) sig_bits[b] = (png_byte)(0xff00 >> sig_bits[b]); break; case 1: /* allowed, but dumb */ /* Value is 1 */ sig_bits[0] = 0xff; break; case 2: /* Replicate 4 times */ /* Value is 1 or 2 */ b = 0x3 & ((0x3<<2) >> sig_bits[0]); b |= b << 2; b |= b << 4; sig_bits[0] = (png_byte)b; break; case 4: /* Relicate twice */ /* Value is 1, 2, 3 or 4 */ b = 0xf & ((0xf << 4) >> sig_bits[0]); b |= b << 4; sig_bits[0] = (png_byte)b; break; default: display_log(dp, LIBPNG_BUG, "invalid bit depth %d", bit_depth); break; } /* Convert bpp to bytes; this gives '1' for low-bit depth grayscale, * where there are multiple pixels per byte. */ bpp = (bpp+7) >> 3; /* The mask can be combined with sig_bits[0] */ if (mask != 0) { mask &= sig_bits[0]; if (bpp != 1 || mask == 0) display_log(dp, INTERNAL_ERROR, "mask calculation error %u, %u", bpp, mask); } for (y=0; yoriginal_rows[y]; unsigned long x; for (x=0; x<(width-(mask!=0)); ++x) { int b; for (b=0; b%.2x", x, b, y, orig[-1], row[-1]); return 0; } } } if (mask != 0 && (*row & mask) != (*orig & mask)) { display_log(dp, APP_FAIL, "significant bits at (%lu[end],%lu) changed", x, y); return 0; } } /* for y */ } } return 1; /* compare succeeded */ } #ifdef PNG_WRITE_SUPPORTED static void buffer_write(struct display *dp, struct buffer *buffer, png_bytep data, png_size_t size) /* Generic write function used both from the write callback provided to * libpng and from the generic read code. */ { /* Write the data into the buffer, adding buffers as required */ struct buffer_list *last = buffer->last; size_t end_count = buffer->end_count; while (size > 0) { size_t avail; if (end_count >= sizeof last->buffer) { if (last->next == NULL) { last = buffer_extend(last); if (last == NULL) display_log(dp, APP_ERROR, "out of memory saving file"); } else last = last->next; buffer->last = last; /* avoid the need to rewrite every time */ end_count = 0; } avail = (sizeof last->buffer) - end_count; if (avail > size) avail = size; memcpy(last->buffer + end_count, data, avail); end_count += avail; size -= avail; data += avail; } buffer->end_count = end_count; } static void PNGCBAPI write_function(png_structp pp, png_bytep data, png_size_t size) { buffer_write(get_dp(pp), get_buffer(pp), data, size); } static void write_png(struct display *dp, png_infop ip, int transforms) { display_clean_write(dp); /* safety */ buffer_start_write(&dp->written_file); dp->operation = "write"; dp->transforms = transforms; dp->write_pp = png_create_write_struct(PNG_LIBPNG_VER_STRING, dp, display_error, display_warning); if (dp->write_pp == NULL) display_log(dp, APP_ERROR, "failed to create write png_struct"); png_set_write_fn(dp->write_pp, &dp->written_file, write_function, NULL/*flush*/); # ifdef PNG_SET_USER_LIMITS_SUPPORTED /* Remove the user limits, if any */ png_set_user_limits(dp->write_pp, 0x7fffffff, 0x7fffffff); # endif /* Certain transforms require the png_info to be zapped to allow the * transform to work correctly. */ if (transforms & (PNG_TRANSFORM_PACKING| PNG_TRANSFORM_STRIP_FILLER| PNG_TRANSFORM_STRIP_FILLER_BEFORE)) { int ct = dp->color_type; if (transforms & (PNG_TRANSFORM_STRIP_FILLER| PNG_TRANSFORM_STRIP_FILLER_BEFORE)) ct &= ~PNG_COLOR_MASK_ALPHA; png_set_IHDR(dp->write_pp, ip, dp->width, dp->height, dp->bit_depth, ct, dp->interlace_method, dp->compression_method, dp->filter_method); } png_write_png(dp->write_pp, ip, transforms, NULL/*params*/); /* Clean it on the way out - if control returns to the caller then the * written_file contains the required data. */ display_clean_write(dp); } #endif /* WRITE_SUPPORTED */ static int skip_transform(struct display *dp, int tr) /* Helper to test for a bad combo and log it if it is skipped */ { if ((dp->options & SKIP_BUGS) != 0 && is_bad_combo(tr)) { /* Log this to stdout if logging is on, otherwise just do an information * display_log. */ if ((dp->options & LOG_SKIPPED) != 0) { printf("SKIP: %s transforms ", dp->filename); while (tr != 0) { int next = first_transform(tr); tr &= ~next; printf("%s", transform_name(next)); if (tr != 0) putchar('+'); } putchar('\n'); } else display_log(dp, INFORMATION, "%s: skipped known bad combo 0x%x", dp->filename, tr); return 1; /* skip */ } return 0; /* don't skip */ } static void test_one_file(struct display *dp, const char *filename) { /* First cache the file and update the display original file * information for the new file. */ dp->operation = "cache file"; dp->transforms = 0; display_cache_file(dp, filename); update_display(dp); /* First test: if there are options that should be ignored for this file * verify that they really are ignored. */ if (dp->ignored_transforms != 0) { read_png(dp, &dp->original_file, "ignored transforms", dp->ignored_transforms); /* The result should be identical to the original_rows */ if (!compare_read(dp, 0/*transforms applied*/)) return; /* no point testing more */ } #ifdef PNG_WRITE_SUPPORTED /* Second test: write the original PNG data out to a new file (to test the * write side) then read the result back in and make sure that it hasn't * changed. */ dp->operation = "write"; write_png(dp, dp->original_ip, 0/*transforms*/); read_png(dp, &dp->written_file, NULL, 0/*transforms*/); if (!compare_read(dp, 0/*transforms applied*/)) return; #endif /* Third test: the active options. Test each in turn, or, with the * EXHAUSTIVE option, test all possible combinations. */ { /* Use unsigned int here because the code below to increment through all * the possibilities exhaustively has to use a compare and that must be * unsigned, because some transforms are negative on a 16-bit system. */ unsigned int active = dp->active_transforms; const int exhaustive = (dp->options & EXHAUSTIVE) != 0; unsigned int current = first_transform(active); unsigned int bad_transforms = 0; unsigned int bad_combo = ~0U; /* bitwise AND of failing transforms */ unsigned int bad_combo_list = 0; /* bitwise OR of failures */ for (;;) { read_png(dp, &dp->original_file, "active transforms", current); /* If this involved any irreversible transformations then if we write * it out with just the reversible transformations and read it in again * with the same transforms we should get the same thing. At present * this isn't done - it just seems like a waste of time and it would * require two sets of read png_struct/png_info. * * If there were no irreversible transformations then if we write it * out and read it back in again (without the reversible transforms) * we should get back to the place where we started. */ #ifdef PNG_WRITE_SUPPORTED if ((current & write_transforms) == current) { /* All transforms reversible: write the PNG with the transformations * reversed, then read it back in with no transformations. The * result should be the same as the original apart from the loss of * low order bits because of the SHIFT/sBIT transform. */ dp->operation = "reversible transforms"; write_png(dp, dp->read_ip, current); /* And if this is read back in, because all the transformations were * reversible, the result should be the same. */ read_png(dp, &dp->written_file, NULL, 0); if (!compare_read(dp, current/*for the SHIFT/sBIT transform*/)) { /* This set of transforms failed. If a single bit is set - if * there is just one transform - don't include this in further * 'exhaustive' tests. Notice that each transform is tested on * its own before testing combos in the exhaustive case. */ if (is_combo(current)) { bad_combo &= current; bad_combo_list |= current; } else bad_transforms |= current; } } #endif /* Now move to the next transform */ if (exhaustive) /* all combinations */ { unsigned int next = current; do { if (next == read_transforms) /* Everything tested */ goto combo; ++next; } /* skip known bad combos if the relevant option is set; skip * combos involving known bad single transforms in all cases. */ while ( (next & read_transforms) <= current || (next & active) == 0 /* skip cases that do nothing */ || (next & bad_transforms) != 0 || skip_transform(dp, next)); assert((next & read_transforms) == next); current = next; } else /* one at a time */ { active &= ~current; if (active == 0) goto combo; current = first_transform(active); } } combo: if (dp->options & FIND_BAD_COMBOS) { /* bad_combos identifies the combos that occur in all failing cases; * bad_combo_list identifies transforms that do not prevent the * failure. */ if (bad_combo != ~0U) printf("%s[0x%x]: PROBLEM: 0x%x[0x%x] ANTIDOTE: 0x%x\n", dp->filename, active, bad_combo, bad_combo_list, rw_transforms & ~bad_combo_list); else printf("%s: no %sbad combos found\n", dp->filename, (dp->options & SKIP_BUGS) ? "additional " : ""); } } } static int do_test(struct display *dp, const char *file) /* Exists solely to isolate the setjmp clobbers */ { int ret = setjmp(dp->error_return); if (ret == 0) { test_one_file(dp, file); return 0; } else if (ret < ERRORS) /* shouldn't longjmp on warnings */ display_log(dp, INTERNAL_ERROR, "unexpected return code %d", ret); return ret; } int main(const int argc, const char * const * const argv) { /* For each file on the command line test it with a range of transforms */ int option_end, ilog = 0; struct display d; validate_T(); display_init(&d); for (option_end=1; option_end QUIET) /* abort on user or internal error */ return 99; } /* Here on any return, including failures, except user/internal issues */ { const int pass = (d.options & STRICT) ? RESULT_STRICT(d.results) : RESULT_RELAXED(d.results); if (!pass) ++errors; if (d.options & LOG) { int j; printf("%s: pngimage ", pass ? "PASS" : "FAIL"); for (j=1; j