// // fiv-io.c: image operations // // Copyright (c) 2021, PÅ™emysl Eric Janouch // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY // SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION // OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN // CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. // #include "config.h" #include #include #include #include #include #include #ifdef HAVE_LIBRAW #include #endif // HAVE_LIBRAW #ifdef HAVE_LIBRSVG #include #endif // HAVE_LIBRSVG #ifdef HAVE_XCURSOR #include #endif // HAVE_XCURSOR #ifdef HAVE_LIBWEBP #include #include #include #include #endif // HAVE_LIBWEBP #ifdef HAVE_LIBHEIF #include #endif // HAVE_LIBHEIF #ifdef HAVE_LIBTIFF #include #include #endif // HAVE_LIBTIFF #ifdef HAVE_GDKPIXBUF #include #include #endif // HAVE_GDKPIXBUF #define WUFFS_IMPLEMENTATION #define WUFFS_CONFIG__MODULES #define WUFFS_CONFIG__MODULE__ADLER32 #define WUFFS_CONFIG__MODULE__BASE #define WUFFS_CONFIG__MODULE__BMP #define WUFFS_CONFIG__MODULE__CRC32 #define WUFFS_CONFIG__MODULE__DEFLATE #define WUFFS_CONFIG__MODULE__GIF #define WUFFS_CONFIG__MODULE__LZW #define WUFFS_CONFIG__MODULE__PNG #define WUFFS_CONFIG__MODULE__ZLIB #include "wuffs-mirror-release-c/release/c/wuffs-v0.3.c" #include "fiv-io.h" #include "xdg.h" #if CAIRO_VERSION >= 11702 && X11_ACTUALLY_SUPPORTS_RGBA128F_OR_WE_USE_OPENGL #define FIV_CAIRO_RGBA128F #endif // A subset of shared-mime-info that produces an appropriate list of // file extensions. Chiefly motivated by the suckiness of raw photo formats: // someone else will maintain the list of file extensions for us. const char *fiv_io_supported_media_types[] = { "image/bmp", "image/gif", "image/png", "image/jpeg", #ifdef HAVE_LIBRAW "image/x-dcraw", #endif // HAVE_LIBRAW #ifdef HAVE_LIBRSVG "image/svg+xml", #endif // HAVE_LIBRSVG #ifdef HAVE_XCURSOR "image/x-xcursor", #endif // HAVE_XCURSOR #ifdef HAVE_LIBWEBP "image/webp", #endif // HAVE_LIBWEBP #ifdef HAVE_LIBHEIF "image/heic", "image/heif", "image/avif", #endif // HAVE_LIBHEIF #ifdef HAVE_LIBTIFF "image/tiff", #endif // HAVE_LIBTIFF NULL }; char ** fiv_io_all_supported_media_types(void) { GPtrArray *types = g_ptr_array_new(); for (const char **p = fiv_io_supported_media_types; *p; p++) g_ptr_array_add(types, g_strdup(*p)); #ifdef HAVE_GDKPIXBUF GSList *formats = gdk_pixbuf_get_formats(); for (GSList *iter = formats; iter; iter = iter->next) { gchar **subtypes = gdk_pixbuf_format_get_mime_types(iter->data); for (gchar **p = subtypes; *p; p++) g_ptr_array_add(types, *p); g_free(subtypes); } g_slist_free(formats); #endif // HAVE_GDKPIXBUF g_ptr_array_add(types, NULL); return (char **) g_ptr_array_free(types, FALSE); } // - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - #define FIV_IO_ERROR fiv_io_error_quark() G_DEFINE_QUARK(fiv-io-error-quark, fiv_io_error) enum FivIoError { FIV_IO_ERROR_OPEN }; static void set_error(GError **error, const char *message) { g_set_error_literal(error, FIV_IO_ERROR, FIV_IO_ERROR_OPEN, message); } static bool try_append_page(cairo_surface_t *surface, cairo_surface_t **result, cairo_surface_t **result_tail) { if (!surface) return false; if (*result) { cairo_surface_set_user_data(*result_tail, &fiv_io_key_page_next, surface, (cairo_destroy_func_t) cairo_surface_destroy); cairo_surface_set_user_data( surface, &fiv_io_key_page_previous, *result_tail, NULL); *result_tail = surface; } else { *result = *result_tail = surface; } return true; } // - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - // From libwebp, verified to exactly match [x * a / 255]. #define PREMULTIPLY8(a, x) (((uint32_t) (x) * (uint32_t) (a) * 32897U) >> 23) static bool pull_passthrough(const wuffs_base__more_information *minfo, wuffs_base__io_buffer *src, wuffs_base__io_buffer *dst, GError **error) { wuffs_base__range_ie_u64 r = wuffs_base__more_information__metadata_raw_passthrough__range(minfo); if (wuffs_base__range_ie_u64__is_empty(&r)) return true; // This should currently be zero, because we read files all at once. uint64_t pos = src->meta.pos; if (pos > r.min_incl || wuffs_base__u64__sat_sub(r.max_excl, pos) > src->meta.wi) { set_error(error, "metadata is outside the read buffer"); return false; } // Mimic WUFFS_BASE__MORE_INFORMATION__FLAVOR__METADATA_RAW_TRANSFORM. *dst = wuffs_base__make_io_buffer(src->data, wuffs_base__make_io_buffer_meta( wuffs_base__u64__sat_sub(r.max_excl, pos), wuffs_base__u64__sat_sub(r.min_incl, pos), pos, TRUE)); // Seeking to the end of it seems to be a requirement in decode_gif.wuffs. // Just not in case the block was empty. :^) src->meta.ri = dst->meta.wi; return true; } static GBytes * pull_metadata(wuffs_base__image_decoder *dec, wuffs_base__io_buffer *src, wuffs_base__more_information *minfo, GError **error) { uint8_t buf[8192] = {}; GByteArray *array = g_byte_array_new(); while (true) { *minfo = wuffs_base__empty_more_information(); wuffs_base__io_buffer dst = wuffs_base__ptr_u8__writer(buf, sizeof buf); wuffs_base__status status = wuffs_base__image_decoder__tell_me_more(dec, &dst, minfo, src); switch (minfo->flavor) { case 0: // Most likely as a result of an error, we'll handle that below. case WUFFS_BASE__MORE_INFORMATION__FLAVOR__METADATA_RAW_TRANSFORM: // Wuffs is reading it into the buffer. case WUFFS_BASE__MORE_INFORMATION__FLAVOR__METADATA_PARSED: // Use Wuffs accessor functions in the caller. break; default: set_error(error, "Wuffs metadata API incompatibility"); goto fail; case WUFFS_BASE__MORE_INFORMATION__FLAVOR__METADATA_RAW_PASSTHROUGH: // The insane case: error checking really should come first, // and it can say "even more information". See decode_gif.wuffs. if (!pull_passthrough(minfo, src, &dst, error)) goto fail; } g_byte_array_append(array, wuffs_base__io_buffer__reader_pointer(&dst), wuffs_base__io_buffer__reader_length(&dst)); if (wuffs_base__status__is_ok(&status)) return g_byte_array_free_to_bytes(array); if (status.repr != wuffs_base__suspension__even_more_information && status.repr != wuffs_base__suspension__short_write) { set_error(error, wuffs_base__status__message(&status)); goto fail; } } fail: g_byte_array_unref(array); return NULL; } struct load_wuffs_frame_context { wuffs_base__image_decoder *dec; ///< Wuffs decoder abstraction wuffs_base__io_buffer *src; ///< Wuffs source buffer wuffs_base__image_config cfg; ///< Wuffs image configuration wuffs_base__slice_u8 workbuf; ///< Work buffer for Wuffs wuffs_base__frame_config last_fc; ///< Previous frame configuration uint32_t width; ///< Copied from cfg.pixcfg uint32_t height; ///< Copied from cfg.pixcfg cairo_format_t cairo_format; ///< Target format for surfaces bool pack_16_10; ///< Custom copying swizzle for RGB30 bool expand_16_float; ///< Custom copying swizzle for RGBA128F GBytes *meta_exif; ///< Reference-counted Exif GBytes *meta_iccp; ///< Reference-counted ICC profile GBytes *meta_xmp; ///< Reference-counted XMP cairo_surface_t *result; ///< The resulting surface (referenced) cairo_surface_t *result_tail; ///< The final animation frame }; static bool load_wuffs_frame(struct load_wuffs_frame_context *ctx, GError **error) { wuffs_base__frame_config fc = {}; wuffs_base__status status = wuffs_base__image_decoder__decode_frame_config(ctx->dec, &fc, ctx->src); if (status.repr == wuffs_base__note__end_of_data && ctx->result) return false; if (!wuffs_base__status__is_ok(&status)) { set_error(error, wuffs_base__status__message(&status)); return false; } bool success = false; unsigned char *targetbuf = NULL; cairo_surface_t *surface = cairo_image_surface_create(ctx->cairo_format, ctx->width, ctx->height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); goto fail; } // CAIRO_STRIDE_ALIGNMENT is 4 bytes, so there will be no padding with // ARGB/BGR/XRGB/BGRX. This function does not support a stride different // from the width, maybe Wuffs internals do not either. unsigned char *surface_data = cairo_image_surface_get_data(surface); int surface_stride = cairo_image_surface_get_stride(surface); wuffs_base__pixel_buffer pb = {0}; if (ctx->expand_16_float) { uint32_t targetbuf_size = ctx->height * ctx->width * 64; targetbuf = g_malloc(targetbuf_size); status = wuffs_base__pixel_buffer__set_from_slice(&pb, &ctx->cfg.pixcfg, wuffs_base__make_slice_u8(targetbuf, targetbuf_size)); } else if (ctx->pack_16_10) { uint32_t targetbuf_size = ctx->height * ctx->width * 16; targetbuf = g_malloc(targetbuf_size); status = wuffs_base__pixel_buffer__set_from_slice(&pb, &ctx->cfg.pixcfg, wuffs_base__make_slice_u8(targetbuf, targetbuf_size)); } else { status = wuffs_base__pixel_buffer__set_from_slice(&pb, &ctx->cfg.pixcfg, wuffs_base__make_slice_u8(surface_data, surface_stride * cairo_image_surface_get_height(surface))); } if (!wuffs_base__status__is_ok(&status)) { set_error(error, wuffs_base__status__message(&status)); goto fail; } // Starting to modify pixel data directly. Probably an unnecessary call. cairo_surface_flush(surface); status = wuffs_base__image_decoder__decode_frame(ctx->dec, &pb, ctx->src, WUFFS_BASE__PIXEL_BLEND__SRC, ctx->workbuf, NULL); if (!wuffs_base__status__is_ok(&status)) { set_error(error, wuffs_base__status__message(&status)); goto fail; } if (ctx->expand_16_float) { g_debug("Wuffs to Cairo RGBA128F"); uint16_t *in = (uint16_t *) targetbuf; float *out = (float *) surface_data; for (uint32_t y = 0; y < ctx->height; y++) { for (uint32_t x = 0; x < ctx->width; x++) { float b = *in++ / 65535., g = *in++ / 65535., r = *in++ / 65535., a = *in++ / 65535.; *out++ = r * a; *out++ = g * a; *out++ = b * a; *out++ = a; } } } else if (ctx->pack_16_10) { g_debug("Wuffs to Cairo RGB30"); uint16_t *in = (uint16_t *) targetbuf; uint32_t *out = (uint32_t *) surface_data; for (uint32_t y = 0; y < ctx->height; y++) { for (uint32_t x = 0; x < ctx->width; x++) { uint32_t b = *in++, g = *in++, r = *in++, X = *in++; *out++ = (X >> 14) << 30 | (r >> 6) << 20 | (g >> 6) << 10 | (b >> 6); } } } // Pixel data has been written, need to let Cairo know. cairo_surface_mark_dirty(surface); // Single-frame images get a fast path, animations are are handled slowly: if (wuffs_base__frame_config__index(&fc) > 0) { // Copy the previous frame to a new surface. cairo_surface_t *canvas = cairo_image_surface_create( ctx->cairo_format, ctx->width, ctx->height); int stride = cairo_image_surface_get_stride(canvas); int height = cairo_image_surface_get_height(canvas); memcpy(cairo_image_surface_get_data(canvas), cairo_image_surface_get_data(ctx->result_tail), stride * height); cairo_surface_mark_dirty(canvas); // Apply that frame's disposal method. wuffs_base__rect_ie_u32 bounds = wuffs_base__frame_config__bounds(&ctx->last_fc); wuffs_base__color_u32_argb_premul bg = wuffs_base__frame_config__background_color(&ctx->last_fc); double a = (bg >> 24) / 255., r = 0, g = 0, b = 0; if (a) { r = (uint8_t) (bg >> 16) / 255. / a; g = (uint8_t) (bg >> 8) / 255. / a; b = (uint8_t) (bg) / 255. / a; } cairo_t *cr = cairo_create(canvas); switch (wuffs_base__frame_config__disposal(&ctx->last_fc)) { case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_BACKGROUND: cairo_rectangle(cr, bounds.min_incl_x, bounds.min_incl_y, bounds.max_excl_x - bounds.min_incl_x, bounds.max_excl_y - bounds.min_incl_y); cairo_set_source_rgba(cr, r, g, b, a); cairo_set_operator(cr, CAIRO_OPERATOR_SOURCE); cairo_fill(cr); break; case WUFFS_BASE__ANIMATION_DISPOSAL__RESTORE_PREVIOUS: // TODO(p): Implement, it seems tricky. // Might need another surface to keep track of the state. break; } // Paint the current frame over that, within its bounds. bounds = wuffs_base__frame_config__bounds(&fc); cairo_rectangle(cr, bounds.min_incl_x, bounds.min_incl_y, bounds.max_excl_x - bounds.min_incl_x, bounds.max_excl_y - bounds.min_incl_y); cairo_clip(cr); cairo_set_operator(cr, wuffs_base__frame_config__overwrite_instead_of_blend(&fc) ? CAIRO_OPERATOR_SOURCE : CAIRO_OPERATOR_OVER); cairo_set_source_surface(cr, surface, 0, 0); cairo_paint(cr); cairo_destroy(cr); cairo_surface_destroy(surface); surface = canvas; } if (ctx->meta_exif) cairo_surface_set_user_data(surface, &fiv_io_key_exif, g_bytes_ref(ctx->meta_exif), (cairo_destroy_func_t) g_bytes_unref); if (ctx->meta_iccp) cairo_surface_set_user_data(surface, &fiv_io_key_icc, g_bytes_ref(ctx->meta_iccp), (cairo_destroy_func_t) g_bytes_unref); if (ctx->meta_xmp) cairo_surface_set_user_data(surface, &fiv_io_key_xmp, g_bytes_ref(ctx->meta_xmp), (cairo_destroy_func_t) g_bytes_unref); cairo_surface_set_user_data(surface, &fiv_io_key_loops, (void *) (uintptr_t) wuffs_base__image_decoder__num_animation_loops( ctx->dec), NULL); cairo_surface_set_user_data(surface, &fiv_io_key_frame_duration, (void *) (intptr_t) (wuffs_base__frame_config__duration(&fc) / WUFFS_BASE__FLICKS_PER_MILLISECOND), NULL); cairo_surface_set_user_data( surface, &fiv_io_key_frame_previous, ctx->result_tail, NULL); if (ctx->result_tail) cairo_surface_set_user_data(ctx->result_tail, &fiv_io_key_frame_next, surface, (cairo_destroy_func_t) cairo_surface_destroy); else ctx->result = surface; success = true; ctx->result_tail = surface; ctx->last_fc = fc; fail: if (!success) { cairo_surface_destroy(surface); g_clear_pointer(&ctx->result, cairo_surface_destroy); ctx->result_tail = NULL; } g_free(targetbuf); return success; } // https://github.com/google/wuffs/blob/main/example/gifplayer/gifplayer.c // is pure C, and a good reference. I can't use the auxiliary libraries, // since they depend on C++, which is undesirable. static cairo_surface_t * open_wuffs( wuffs_base__image_decoder *dec, wuffs_base__io_buffer src, GError **error) { struct load_wuffs_frame_context ctx = {.dec = dec, .src = &src}; // TODO(p): PNG also has sRGB and gAMA, as well as text chunks (Wuffs #58). // The former two use WUFFS_BASE__MORE_INFORMATION__FLAVOR__METADATA_PARSED. wuffs_base__image_decoder__set_report_metadata( ctx.dec, WUFFS_BASE__FOURCC__EXIF, true); wuffs_base__image_decoder__set_report_metadata( ctx.dec, WUFFS_BASE__FOURCC__ICCP, true); while (true) { wuffs_base__status status = wuffs_base__image_decoder__decode_image_config( ctx.dec, &ctx.cfg, ctx.src); if (wuffs_base__status__is_ok(&status)) break; if (status.repr != wuffs_base__note__metadata_reported) { set_error(error, wuffs_base__status__message(&status)); goto fail; } wuffs_base__more_information minfo = {}; GBytes *bytes = NULL; if (!(bytes = pull_metadata(ctx.dec, ctx.src, &minfo, error))) goto fail; switch (wuffs_base__more_information__metadata__fourcc(&minfo)) { case WUFFS_BASE__FOURCC__EXIF: if (ctx.meta_exif) { g_warning("ignoring repeated Exif"); break; } ctx.meta_exif = bytes; continue; case WUFFS_BASE__FOURCC__ICCP: if (ctx.meta_iccp) { g_warning("ignoring repeated ICC profile"); break; } ctx.meta_iccp = bytes; continue; case WUFFS_BASE__FOURCC__XMP: if (ctx.meta_xmp) { g_warning("ignoring repeated XMP"); break; } ctx.meta_xmp = bytes; continue; } g_bytes_unref(bytes); } // This, at least currently, seems excessive. if (!wuffs_base__image_config__is_valid(&ctx.cfg)) { set_error(error, "invalid Wuffs image configuration"); goto fail; } // We need to check because of the Cairo API. ctx.width = wuffs_base__pixel_config__width(&ctx.cfg.pixcfg); ctx.height = wuffs_base__pixel_config__height(&ctx.cfg.pixcfg); if (ctx.width > INT_MAX || ctx.height > INT_MAX) { set_error(error, "image dimensions overflow"); goto fail; } // Wuffs maps tRNS to BGRA in `decoder.decode_trns?`, we should be fine. // wuffs_base__pixel_format__transparency() doesn't reflect the image file. // TODO(p): See if wuffs_base__image_config__first_frame_is_opaque() causes // issues with animations, and eventually ensure an alpha-capable format. bool opaque = wuffs_base__image_config__first_frame_is_opaque(&ctx.cfg); // Wuffs' API is kind of awful--we want to catch deep RGB and deep grey. wuffs_base__pixel_format srcfmt = wuffs_base__pixel_config__pixel_format(&ctx.cfg.pixcfg); uint32_t bpp = wuffs_base__pixel_format__bits_per_pixel(&srcfmt); // Cairo doesn't support transparency with RGB30, so no premultiplication. ctx.pack_16_10 = opaque && (bpp > 24 || (bpp < 24 && bpp > 8)); #ifdef FIV_CAIRO_RGBA128F ctx.expand_16_float = !opaque && (bpp > 24 || (bpp < 24 && bpp > 8)); #endif // FIV_CAIRO_RGBA128F // In Wuffs, /doc/note/pixel-formats.md declares "memory order", which, // for our purposes, means big endian, and BGRA results in 32-bit ARGB // on most machines. // // XXX: WUFFS_BASE__PIXEL_FORMAT__ARGB_PREMUL is not expressible, only RGBA. // Wuffs doesn't support big-endian architectures at all, we might want to // fall back to spng in such cases, or do a second conversion. uint32_t wuffs_format = WUFFS_BASE__PIXEL_FORMAT__BGRA_PREMUL; // CAIRO_FORMAT_ARGB32: "The 32-bit quantities are stored native-endian. // Pre-multiplied alpha is used." CAIRO_FORMAT_RGB{24,30} are analogous. ctx.cairo_format = CAIRO_FORMAT_ARGB32; #ifdef FIV_CAIRO_RGBA128F if (ctx.expand_16_float) { wuffs_format = WUFFS_BASE__PIXEL_FORMAT__BGRA_NONPREMUL_4X16LE; ctx.cairo_format = CAIRO_FORMAT_RGBA128F; } else #endif // FIV_CAIRO_RGBA128F if (ctx.pack_16_10) { // TODO(p): Make Wuffs support A2RGB30 as a destination format; // in general, 16-bit depth swizzlers are stubbed. // See also wuffs_base__pixel_swizzler__prepare__*(). wuffs_format = WUFFS_BASE__PIXEL_FORMAT__BGRA_NONPREMUL_4X16LE; ctx.cairo_format = CAIRO_FORMAT_RGB30; } else if (opaque) { // BGRX doesn't have as wide swizzler support, namely in GIF. wuffs_format = WUFFS_BASE__PIXEL_FORMAT__BGRA_NONPREMUL; ctx.cairo_format = CAIRO_FORMAT_RGB24; } wuffs_base__pixel_config__set(&ctx.cfg.pixcfg, wuffs_format, WUFFS_BASE__PIXEL_SUBSAMPLING__NONE, ctx.width, ctx.height); uint64_t workbuf_len_max_incl = wuffs_base__image_decoder__workbuf_len(ctx.dec).max_incl; if (workbuf_len_max_incl) { ctx.workbuf = wuffs_base__malloc_slice_u8(malloc, workbuf_len_max_incl); if (!ctx.workbuf.ptr) { set_error(error, "failed to allocate a work buffer"); goto fail; } } while (load_wuffs_frame(&ctx, error)) ; // Wrap the chain around, since our caller receives only one pointer. if (ctx.result) cairo_surface_set_user_data( ctx.result, &fiv_io_key_frame_previous, ctx.result_tail, NULL); fail: free(ctx.workbuf.ptr); g_clear_pointer(&ctx.meta_exif, g_bytes_unref); g_clear_pointer(&ctx.meta_iccp, g_bytes_unref); g_clear_pointer(&ctx.meta_xmp, g_bytes_unref); return ctx.result; } static cairo_surface_t * open_wuffs_using(wuffs_base__image_decoder *(*allocate)(), const gchar *data, gsize len, GError **error) { wuffs_base__image_decoder *dec = allocate(); if (!dec) { set_error(error, "memory allocation failed or internal error"); return NULL; } cairo_surface_t *surface = open_wuffs( dec, wuffs_base__ptr_u8__reader((uint8_t *) data, len, TRUE), error); free(dec); return surface; } static void trivial_cmyk_to_host_byte_order_argb(unsigned char *p, int len) { // Inspired by gdk-pixbuf's io-jpeg.c: // // Assume that all YCCK/CMYK JPEG files use inverted CMYK, as Photoshop // does, see https://bugzilla.gnome.org/show_bug.cgi?id=618096 while (len--) { int c = p[0], m = p[1], y = p[2], k = p[3]; #if G_BYTE_ORDER == G_LITTLE_ENDIAN p[0] = k * y / 255; p[1] = k * m / 255; p[2] = k * c / 255; p[3] = 255; #else p[3] = k * y / 255; p[2] = k * m / 255; p[1] = k * c / 255; p[0] = 255; #endif p += 4; } } static void parse_jpeg_metadata(cairo_surface_t *surface, const gchar *data, gsize len) { // Because the JPEG file format is simple, just do it manually. // See: https://www.w3.org/Graphics/JPEG/itu-t81.pdf enum { APP0 = 0xE0, APP1, APP2, RST0 = 0xD0, RST1, RST2, RST3, RST4, RST5, RST6, RST7, SOI = 0xD8, EOI = 0xD9, SOS = 0xDA, TEM = 0x01, }; GByteArray *exif = g_byte_array_new(), *icc = g_byte_array_new(); int icc_sequence = 0, icc_done = FALSE; const guint8 *p = (const guint8 *) data, *end = p + len; while (p + 3 < end && *p++ == 0xFF && *p != SOS && *p != EOI) { // The previous byte is a fill byte, restart. if (*p == 0xFF) continue; // These markers stand alone, not starting a marker segment. guint8 marker = *p++; switch (marker) { case RST0: case RST1: case RST2: case RST3: case RST4: case RST5: case RST6: case RST7: case SOI: case TEM: continue; } // Do not bother validating the structure. guint16 length = p[0] << 8 | p[1]; const guint8 *payload = p + 2; if ((p += length) > end) break; // https://www.cipa.jp/std/documents/e/DC-008-2012_E.pdf 4.7.2 // Adobe XMP Specification Part 3: Storage in Files, 2020/1, 1.1.3 // Not checking the padding byte is intentional. if (marker == APP1 && p - payload >= 6 && !memcmp(payload, "Exif\0", 5) && !exif->len) { payload += 6; g_byte_array_append(exif, payload, p - payload); } // https://www.color.org/specification/ICC1v43_2010-12.pdf B.4 if (marker == APP2 && p - payload >= 14 && !memcmp(payload, "ICC_PROFILE\0", 12) && !icc_done && payload[12] == ++icc_sequence && payload[13] >= payload[12]) { payload += 14; g_byte_array_append(icc, payload, p - payload); icc_done = payload[-1] == icc_sequence; } // TODO(p): Extract the main XMP segment. } if (exif->len) cairo_surface_set_user_data(surface, &fiv_io_key_exif, g_byte_array_free_to_bytes(exif), (cairo_destroy_func_t) g_bytes_unref); else g_byte_array_free(exif, TRUE); if (icc_done) cairo_surface_set_user_data(surface, &fiv_io_key_icc, g_byte_array_free_to_bytes(icc), (cairo_destroy_func_t) g_bytes_unref); else g_byte_array_free(icc, TRUE); } static cairo_surface_t * open_libjpeg_turbo(const gchar *data, gsize len, GError **error) { tjhandle dec = tjInitDecompress(); if (!dec) { set_error(error, tjGetErrorStr2(dec)); return NULL; } int width = 0, height = 0, subsampling = TJSAMP_444, colorspace = TJCS_RGB; if (tjDecompressHeader3(dec, (const unsigned char *) data, len, &width, &height, &subsampling, &colorspace)) { set_error(error, tjGetErrorStr2(dec)); tjDestroy(dec); return NULL; } int pixel_format = (colorspace == TJCS_CMYK || colorspace == TJCS_YCCK) ? TJPF_CMYK : (G_BYTE_ORDER == G_LITTLE_ENDIAN ? TJPF_BGRA : TJPF_ARGB); cairo_surface_t *surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, width, height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); cairo_surface_destroy(surface); tjDestroy(dec); return NULL; } // Starting to modify pixel data directly. Probably an unnecessary call. cairo_surface_flush(surface); int stride = cairo_image_surface_get_stride(surface); if (tjDecompress2(dec, (const unsigned char *) data, len, cairo_image_surface_get_data(surface), width, stride, height, pixel_format, TJFLAG_ACCURATEDCT)) { if (tjGetErrorCode(dec) == TJERR_WARNING) { g_warning("%s", tjGetErrorStr2(dec)); } else { set_error(error, tjGetErrorStr2(dec)); cairo_surface_destroy(surface); tjDestroy(dec); return NULL; } } if (pixel_format == TJPF_CMYK) { // CAIRO_STRIDE_ALIGNMENT is 4 bytes, so there will be no padding with // ARGB/BGR/XRGB/BGRX. trivial_cmyk_to_host_byte_order_argb( cairo_image_surface_get_data(surface), width * height); } // Pixel data has been written, need to let Cairo know. cairo_surface_mark_dirty(surface); tjDestroy(dec); parse_jpeg_metadata(surface, data, len); return surface; } #ifdef HAVE_LIBRAW // --------------------------------------------------------- static cairo_surface_t * open_libraw(const gchar *data, gsize len, GError **error) { // https://github.com/LibRaw/LibRaw/issues/418 libraw_data_t *iprc = libraw_init( LIBRAW_OPIONS_NO_MEMERR_CALLBACK | LIBRAW_OPIONS_NO_DATAERR_CALLBACK); if (!iprc) { set_error(error, "failed to obtain a LibRaw handle"); return NULL; } #if 0 // TODO(p): Consider setting this--the image is still likely to be // rendered suboptimally, so why not make it faster. iprc->params.half_size = 1; #endif // TODO(p): Check if we need to set anything for autorotation (sizes.flip). iprc->params.use_camera_wb = 1; iprc->params.output_color = 1; // sRGB, TODO(p): Is this used? iprc->params.output_bps = 8; // This should be the default value. int err = 0; if ((err = libraw_open_buffer(iprc, (void *) data, len))) { set_error(error, libraw_strerror(err)); libraw_close(iprc); return NULL; } // TODO(p): Do we need to check iprc->idata.raw_count? Maybe for TIFFs? if ((err = libraw_unpack(iprc))) { set_error(error, libraw_strerror(err)); libraw_close(iprc); return NULL; } #if 0 // TODO(p): I'm not sure when this is necessary or useful yet. if ((err = libraw_adjust_sizes_info_only(iprc))) { set_error(error, libraw_strerror(err)); libraw_close(iprc); return NULL; } #endif // TODO(p): Documentation says I should look at the code and do it myself. if ((err = libraw_dcraw_process(iprc))) { set_error(error, libraw_strerror(err)); libraw_close(iprc); return NULL; } // FIXME: This is shittily written to iterate over the range of // idata.colors, and will be naturally slow. libraw_processed_image_t *image = libraw_dcraw_make_mem_image(iprc, &err); if (!image) { set_error(error, libraw_strerror(err)); libraw_close(iprc); return NULL; } // This should have been transformed, and kept, respectively. if (image->colors != 3 || image->bits != 8) { set_error(error, "unexpected number of colours, or bit depth"); libraw_dcraw_clear_mem(image); libraw_close(iprc); return NULL; } int width = image->width, height = image->height; cairo_surface_t *surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, width, height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); cairo_surface_destroy(surface); libraw_dcraw_clear_mem(image); libraw_close(iprc); return NULL; } // Starting to modify pixel data directly. Probably an unnecessary call. cairo_surface_flush(surface); uint32_t *pixels = (uint32_t *) cairo_image_surface_get_data(surface); unsigned char *p = image->data; for (ushort y = 0; y < image->height; y++) { for (ushort x = 0; x < image->width; x++) { *pixels++ = 0xff000000 | (uint32_t) p[0] << 16 | (uint32_t) p[1] << 8 | (uint32_t) p[2]; p += 3; } } // Pixel data has been written, need to let Cairo know. cairo_surface_mark_dirty(surface); libraw_dcraw_clear_mem(image); libraw_close(iprc); return surface; } #endif // HAVE_LIBRAW --------------------------------------------------------- #ifdef HAVE_LIBRSVG // -------------------------------------------------------- #ifdef FIV_RSVG_DEBUG #include #include #endif // FIXME: librsvg rasterizes filters, so this method isn't fully appropriate. static cairo_surface_t * open_librsvg(const gchar *data, gsize len, const gchar *path, GError **error) { GFile *base_file = g_file_new_for_path(path); GInputStream *is = g_memory_input_stream_new_from_data(data, len, NULL); RsvgHandle *handle = rsvg_handle_new_from_stream_sync( is, base_file, RSVG_HANDLE_FLAG_KEEP_IMAGE_DATA, NULL, error); g_object_unref(base_file); g_object_unref(is); if (!handle) return NULL; // TODO(p): Acquire this from somewhere else. rsvg_handle_set_dpi(handle, 96); double w = 0, h = 0; #if LIBRSVG_CHECK_VERSION(2, 51, 0) if (!rsvg_handle_get_intrinsic_size_in_pixels(handle, &w, &h)) { #else RsvgDimensionData dd = {}; rsvg_handle_get_dimensions(handle, &dd); if ((w = dd.width) <= 0 || (h = dd.height) <= 0) { #endif RsvgRectangle viewbox = {}; gboolean has_viewport = FALSE; rsvg_handle_get_intrinsic_dimensions( handle, NULL, NULL, NULL, NULL, &has_viewport, &viewbox); if (!has_viewport) { set_error(error, "cannot compute pixel dimensions"); g_object_unref(handle); return NULL; } w = viewbox.width; h = viewbox.height; } cairo_rectangle_t extents = { .x = 0, .y = 0, .width = ceil(w), .height = ceil(h)}; cairo_surface_t *surface = cairo_recording_surface_create(CAIRO_CONTENT_COLOR_ALPHA, &extents); #ifdef FIV_RSVG_DEBUG cairo_device_t *script = cairo_script_create("cairo.script"); cairo_surface_t *tee = cairo_script_surface_create_for_target(script, surface); cairo_t *cr = cairo_create(tee); cairo_device_destroy(script); cairo_surface_destroy(tee); #else cairo_t *cr = cairo_create(surface); #endif RsvgRectangle viewport = {.x = 0, .y = 0, .width = w, .height = h}; if (!rsvg_handle_render_document(handle, cr, &viewport, error)) { cairo_surface_destroy(surface); cairo_destroy(cr); g_object_unref(handle); return NULL; } cairo_destroy(cr); g_object_unref(handle); #ifdef FIV_RSVG_DEBUG cairo_surface_t *svg = cairo_svg_surface_create("cairo.svg", w, h); cr = cairo_create(svg); cairo_set_source_surface(cr, surface, 0, 0); cairo_paint(cr); cairo_destroy(cr); cairo_surface_destroy(svg); cairo_surface_t *png = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, w * 10, h * 10); cr = cairo_create(png); cairo_scale(cr, 10, 10); cairo_set_source_surface(cr, surface, 0, 0); cairo_paint(cr); cairo_destroy(cr); cairo_surface_write_to_png(png, "cairo.png"); cairo_surface_destroy(png); #endif return surface; } #endif // HAVE_LIBRSVG -------------------------------------------------------- #ifdef HAVE_XCURSOR //--------------------------------------------------------- // fmemopen is part of POSIX-1.2008, this exercise is technically unnecessary. // libXcursor checks for EOF rather than -1, it may eat your hamster. struct fiv_io_xcursor { XcursorFile parent; unsigned char *data; long position, len; }; static int fiv_io_xcursor_read(XcursorFile *file, unsigned char *buf, int len) { struct fiv_io_xcursor *fix = (struct fiv_io_xcursor *) file; if (fix->position < 0 || fix->position > fix->len) { errno = EOVERFLOW; return -1; } long n = MIN(fix->len - fix->position, len); if (n > G_MAXINT) { errno = EIO; return -1; } memcpy(buf, fix->data + fix->position, n); fix->position += n; return n; } static int fiv_io_xcursor_write(G_GNUC_UNUSED XcursorFile *file, G_GNUC_UNUSED unsigned char *buf, G_GNUC_UNUSED int len) { errno = EBADF; return -1; } static int fiv_io_xcursor_seek(XcursorFile *file, long offset, int whence) { struct fiv_io_xcursor *fix = (struct fiv_io_xcursor *) file; switch (whence) { case SEEK_SET: fix->position = offset; break; case SEEK_CUR: fix->position += offset; break; case SEEK_END: fix->position = fix->len + offset; break; default: errno = EINVAL; return -1; } // This is technically too late for fseek(), but libXcursor doesn't care. if (fix->position < 0) { errno = EINVAL; return -1; } return fix->position; } static const XcursorFile fiv_io_xcursor_adaptor = { .closure = NULL, .read = fiv_io_xcursor_read, .write = fiv_io_xcursor_write, .seek = fiv_io_xcursor_seek, }; static cairo_surface_t * open_xcursor(const gchar *data, gsize len, GError **error) { if (len > G_MAXLONG) { set_error(error, "size overflow"); return NULL; } struct fiv_io_xcursor file = { .parent = fiv_io_xcursor_adaptor, .data = (unsigned char *) data, .position = 0, .len = len, }; XcursorImages *images = XcursorXcFileLoadAllImages(&file.parent); if (!images) { set_error(error, "general failure"); return NULL; } // Interpret cursors as animated pages. cairo_surface_t *pages = NULL, *frames_head = NULL, *frames_tail = NULL; // XXX: Assuming that all "nominal sizes" have the same dimensions. XcursorDim last_nominal = -1; for (int i = 0; i < images->nimage; i++) { XcursorImage *image = images->images[i]; // The library automatically byte swaps in _XcursorReadImage(). cairo_surface_t *surface = cairo_image_surface_create_for_data( (unsigned char *) image->pixels, CAIRO_FORMAT_ARGB32, image->width, image->height, image->width * sizeof *image->pixels); cairo_surface_set_user_data(surface, &fiv_io_key_frame_duration, (void *) (intptr_t) image->delay, NULL); if (pages && image->size == last_nominal) { cairo_surface_set_user_data( surface, &fiv_io_key_frame_previous, frames_tail, NULL); cairo_surface_set_user_data(frames_tail, &fiv_io_key_frame_next, surface, (cairo_destroy_func_t) cairo_surface_destroy); } else if (frames_head) { cairo_surface_set_user_data( frames_head, &fiv_io_key_frame_previous, frames_tail, NULL); cairo_surface_set_user_data(frames_head, &fiv_io_key_page_next, surface, (cairo_destroy_func_t) cairo_surface_destroy); cairo_surface_set_user_data( surface, &fiv_io_key_page_previous, frames_head, NULL); frames_head = surface; } else { pages = frames_head = surface; } frames_tail = surface; last_nominal = image->size; } if (!pages) { XcursorImagesDestroy(images); return NULL; } // Wrap around animations in the last page. cairo_surface_set_user_data( frames_head, &fiv_io_key_frame_previous, frames_tail, NULL); // There is no need to copy data, assign it to the surface. static cairo_user_data_key_t key = {}; cairo_surface_set_user_data( pages, &key, images, (cairo_destroy_func_t) XcursorImagesDestroy); return pages; } #endif // HAVE_XCURSOR -------------------------------------------------------- #ifdef HAVE_LIBWEBP //--------------------------------------------------------- static cairo_surface_t * load_libwebp_nonanimated( WebPDecoderConfig *config, const WebPData *wd, GError **error) { cairo_surface_t *surface = cairo_image_surface_create( config->input.has_alpha ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24, config->input.width, config->input.height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); cairo_surface_destroy(surface); return NULL; } config->options.use_threads = true; config->output.width = config->input.width; config->output.height = config->input.height; config->output.is_external_memory = true; config->output.u.RGBA.rgba = cairo_image_surface_get_data(surface); config->output.u.RGBA.stride = cairo_image_surface_get_stride(surface); config->output.u.RGBA.size = config->output.u.RGBA.stride * cairo_image_surface_get_height(surface); if (G_BYTE_ORDER == G_LITTLE_ENDIAN) config->output.colorspace = MODE_bgrA; else config->output.colorspace = MODE_Argb; VP8StatusCode err = 0; if ((err = WebPDecode(wd->bytes, wd->size, config))) { set_error(error, "WebP decoding error"); cairo_surface_destroy(surface); return NULL; } cairo_surface_mark_dirty(surface); return surface; } static cairo_surface_t * load_libwebp_frame(WebPAnimDecoder *dec, const WebPAnimInfo *info, int *last_timestamp, GError **error) { uint8_t *buf = NULL; int timestamp = 0; if (!WebPAnimDecoderGetNext(dec, &buf, ×tamp)) { set_error(error, "WebP decoding error"); return NULL; } bool is_opaque = (info->bgcolor & 0xFF) == 0xFF; uint64_t area = info->canvas_width * info->canvas_height; cairo_surface_t *surface = cairo_image_surface_create( is_opaque ? CAIRO_FORMAT_RGB24 : CAIRO_FORMAT_ARGB32, info->canvas_width, info->canvas_height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); cairo_surface_destroy(surface); return NULL; } uint32_t *dst = (uint32_t *) cairo_image_surface_get_data(surface); if (G_BYTE_ORDER == G_LITTLE_ENDIAN) { memcpy(dst, buf, area * sizeof *dst); } else { uint32_t *src = (uint32_t *) buf; for (uint64_t i = 0; i < area; i++) *dst++ = GUINT32_FROM_LE(*src++); } cairo_surface_mark_dirty(surface); // This API is confusing and awkward. cairo_surface_set_user_data(surface, &fiv_io_key_frame_duration, (void *) (intptr_t) (timestamp - *last_timestamp), NULL); *last_timestamp = timestamp; return surface; } static cairo_surface_t * load_libwebp_animated(const WebPData *wd, GError **error) { WebPAnimDecoderOptions options = {}; WebPAnimDecoderOptionsInit(&options); options.use_threads = true; options.color_mode = MODE_bgrA; WebPAnimInfo info = {}; WebPAnimDecoder *dec = WebPAnimDecoderNew(wd, &options); WebPAnimDecoderGetInfo(dec, &info); cairo_surface_t *frames = NULL, *frames_tail = NULL; if (info.canvas_width > INT_MAX || info.canvas_height > INT_MAX) { set_error(error, "image dimensions overflow"); goto fail; } int last_timestamp = 0; while (WebPAnimDecoderHasMoreFrames(dec)) { cairo_surface_t *surface = load_libwebp_frame(dec, &info, &last_timestamp, error); if (!surface) { g_clear_pointer(&frames, cairo_surface_destroy); goto fail; } if (frames_tail) cairo_surface_set_user_data(frames_tail, &fiv_io_key_frame_next, surface, (cairo_destroy_func_t) cairo_surface_destroy); else frames = surface; cairo_surface_set_user_data( surface, &fiv_io_key_frame_previous, frames_tail, NULL); frames_tail = surface; } if (frames) { cairo_surface_set_user_data( frames, &fiv_io_key_frame_previous, frames_tail, NULL); } else { set_error(error, "the animation has no frames"); g_clear_pointer(&frames, cairo_surface_destroy); } fail: WebPAnimDecoderDelete(dec); return frames; } static cairo_surface_t * open_libwebp(const gchar *data, gsize len, const gchar *path, GError **error) { // It is wholly zero-initialized by libwebp. WebPDecoderConfig config = {}; if (!WebPInitDecoderConfig(&config)) { set_error(error, "libwebp version mismatch"); return NULL; } // TODO(p): Differentiate between a bad WebP, and not a WebP. VP8StatusCode err = 0; WebPData wd = {.bytes = (const uint8_t *) data, .size = len}; if ((err = WebPGetFeatures(wd.bytes, wd.size, &config.input))) { set_error(error, "WebP decoding error"); return NULL; } cairo_surface_t *result = config.input.has_animation ? load_libwebp_animated(&wd, error) : load_libwebp_nonanimated(&config, &wd, error); if (!result) goto fail; // Of course everything has to use a different abstraction. WebPDemuxer *demux = WebPDemux(&wd); if (!demux) { g_warning("%s: %s", path, "demux failure"); goto fail; } // Releasing the demux chunk iterator is actually a no-op. WebPChunkIterator chunk_iter = {}; uint32_t flags = WebPDemuxGetI(demux, WEBP_FF_FORMAT_FLAGS); if ((flags & EXIF_FLAG) && WebPDemuxGetChunk(demux, "EXIF", 1, &chunk_iter)) { cairo_surface_set_user_data(result, &fiv_io_key_exif, g_bytes_new(chunk_iter.chunk.bytes, chunk_iter.chunk.size), (cairo_destroy_func_t) g_bytes_unref); WebPDemuxReleaseChunkIterator(&chunk_iter); } if ((flags & ICCP_FLAG) && WebPDemuxGetChunk(demux, "ICCP", 1, &chunk_iter)) { cairo_surface_set_user_data(result, &fiv_io_key_icc, g_bytes_new(chunk_iter.chunk.bytes, chunk_iter.chunk.size), (cairo_destroy_func_t) g_bytes_unref); WebPDemuxReleaseChunkIterator(&chunk_iter); } if ((flags & XMP_FLAG) && WebPDemuxGetChunk(demux, "XMP ", 1, &chunk_iter)) { cairo_surface_set_user_data(result, &fiv_io_key_xmp, g_bytes_new(chunk_iter.chunk.bytes, chunk_iter.chunk.size), (cairo_destroy_func_t) g_bytes_unref); WebPDemuxReleaseChunkIterator(&chunk_iter); } if (flags & ANIMATION_FLAG) { cairo_surface_set_user_data(result, &fiv_io_key_loops, (void *) (uintptr_t) WebPDemuxGetI(demux, WEBP_FF_LOOP_COUNT), NULL); } WebPDemuxDelete(demux); fail: WebPFreeDecBuffer(&config.output); return result; } #endif // HAVE_LIBWEBP -------------------------------------------------------- #ifdef HAVE_LIBHEIF //--------------------------------------------------------- static cairo_surface_t * load_libheif_image(struct heif_image_handle *handle, GError **error) { cairo_surface_t *surface = NULL; int has_alpha = heif_image_handle_has_alpha_channel(handle); int bit_depth = heif_image_handle_get_luma_bits_per_pixel(handle); if (bit_depth < 0) { set_error(error, "undefined bit depth"); goto fail; } // Setting `convert_hdr_to_8bit` seems to be a no-op for RGBA32/64. struct heif_decoding_options *opts = heif_decoding_options_alloc(); // TODO(p): We can get 16-bit depth, in reality most likely 10-bit. struct heif_image *image = NULL; struct heif_error err = heif_decode_image(handle, &image, heif_colorspace_RGB, heif_chroma_interleaved_RGBA, opts); if (err.code != heif_error_Ok) { set_error(error, err.message); goto fail_decode; } int w = heif_image_get_width(image, heif_channel_interleaved); int h = heif_image_get_height(image, heif_channel_interleaved); surface = cairo_image_surface_create( has_alpha ? CAIRO_FORMAT_ARGB32 : CAIRO_FORMAT_RGB24, w, h); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); cairo_surface_destroy(surface); surface = NULL; goto fail_process; } // As of writing, the library is using 16-byte alignment, unlike Cairo. int src_stride = 0; const uint8_t *src = heif_image_get_plane_readonly( image, heif_channel_interleaved, &src_stride); int dst_stride = cairo_image_surface_get_stride(surface); const uint8_t *dst = cairo_image_surface_get_data(surface); for (int y = 0; y < h; y++) { uint32_t *dstp = (uint32_t *) (dst + dst_stride * y); const uint32_t *srcp = (const uint32_t *) (src + src_stride * y); for (int x = 0; x < w; x++) { uint32_t rgba = g_ntohl(srcp[x]); *dstp++ = rgba << 24 | rgba >> 8; } } // TODO(p): Test real behaviour on real transparent images. if (has_alpha && !heif_image_handle_is_premultiplied_alpha(handle)) { for (int y = 0; y < h; y++) { uint32_t *dstp = (uint32_t *) (dst + dst_stride * y); for (int x = 0; x < w; x++) { uint32_t argb = dstp[x], a = argb >> 24; dstp[x] = a << 24 | PREMULTIPLY8(a, 0xFF & (argb >> 16)) << 16 | PREMULTIPLY8(a, 0xFF & (argb >> 8)) << 8 | PREMULTIPLY8(a, 0xFF & argb); } } } heif_item_id exif_id = 0; if (heif_image_handle_get_list_of_metadata_block_IDs( handle, "Exif", &exif_id, 1)) { size_t exif_len = heif_image_handle_get_metadata_size(handle, exif_id); void *exif = g_malloc0(exif_len); err = heif_image_handle_get_metadata(handle, exif_id, exif); if (err.code) { g_warning("%s", err.message); g_free(exif); } else { cairo_surface_set_user_data(surface, &fiv_io_key_exif, g_bytes_new_take(exif, exif_len), (cairo_destroy_func_t) g_bytes_unref); } } // https://loc.gov/preservation/digital/formats/fdd/fdd000526.shtml#factors if (heif_image_handle_get_color_profile_type(handle) == heif_color_profile_type_prof) { size_t icc_len = heif_image_handle_get_raw_color_profile_size(handle); void *icc = g_malloc0(icc_len); err = heif_image_handle_get_raw_color_profile(handle, icc); if (err.code) { g_warning("%s", err.message); g_free(icc); } else { cairo_surface_set_user_data(surface, &fiv_io_key_icc, g_bytes_new_take(icc, icc_len), (cairo_destroy_func_t) g_bytes_unref); } } cairo_surface_mark_dirty(surface); fail_process: heif_image_release(image); fail_decode: heif_decoding_options_free(opts); fail: return surface; } static void load_libheif_aux_images(const gchar *path, struct heif_image_handle *top, cairo_surface_t **result, cairo_surface_t **result_tail) { // Include the depth image, we have no special processing for it now. int filter = LIBHEIF_AUX_IMAGE_FILTER_OMIT_ALPHA; int n = heif_image_handle_get_number_of_auxiliary_images(top, filter); heif_item_id *ids = g_malloc0_n(n, sizeof *ids); n = heif_image_handle_get_list_of_auxiliary_image_IDs(top, filter, ids, n); for (int i = 0; i < n; i++) { struct heif_image_handle *handle = NULL; struct heif_error err = heif_image_handle_get_auxiliary_image_handle(top, ids[i], &handle); if (err.code != heif_error_Ok) { g_warning("%s: %s", path, err.message); continue; } GError *e = NULL; if (!try_append_page( load_libheif_image(handle, &e), result, result_tail)) { g_warning("%s: %s", path, e->message); g_error_free(e); } heif_image_handle_release(handle); } g_free(ids); } static cairo_surface_t * open_libheif(const gchar *data, gsize len, const gchar *path, GError **error) { // libheif will throw C++ exceptions on allocation failures. // The library is generally awful through and through. struct heif_context *ctx = heif_context_alloc(); cairo_surface_t *result = NULL, *result_tail = NULL; struct heif_error err; err = heif_context_read_from_memory_without_copy(ctx, data, len, NULL); if (err.code != heif_error_Ok) { set_error(error, err.message); goto fail_read; } int n = heif_context_get_number_of_top_level_images(ctx); heif_item_id *ids = g_malloc0_n(n, sizeof *ids); n = heif_context_get_list_of_top_level_image_IDs(ctx, ids, n); for (int i = 0; i < n; i++) { struct heif_image_handle *handle = NULL; err = heif_context_get_image_handle(ctx, ids[i], &handle); if (err.code != heif_error_Ok) { g_warning("%s: %s", path, err.message); continue; } GError *e = NULL; if (!try_append_page( load_libheif_image(handle, &e), &result, &result_tail)) { g_warning("%s: %s", path, e->message); g_error_free(e); } // TODO(p): Possibly add thumbnail images as well. load_libheif_aux_images(path, handle, &result, &result_tail); heif_image_handle_release(handle); } if (!result) { g_clear_pointer(&result, cairo_surface_destroy); set_error(error, "empty or unsupported image"); } g_free(ids); fail_read: heif_context_free(ctx); return result; } #endif // HAVE_LIBHEIF -------------------------------------------------------- #ifdef HAVE_LIBTIFF //--------------------------------------------------------- struct fiv_io_tiff { unsigned char *data; gchar *error; // No, libtiff, the offset is not supposed to be unsigned (also see: // man 0p sys_types.h), but at least it's fewer cases for us to care about. toff_t position, len; }; static tsize_t fiv_io_tiff_read(thandle_t h, tdata_t buf, tsize_t len) { struct fiv_io_tiff *io = h; if (len < 0) { // What the FUCK! This argument is not supposed to be signed! // How many mistakes can you make in such a basic API? errno = EOWNERDEAD; return -1; } if (io->position > io->len) { errno = EOVERFLOW; return -1; } toff_t n = MIN(io->len - io->position, (toff_t) len); if (n > TIFF_TMSIZE_T_MAX) { errno = EIO; return -1; } memcpy(buf, io->data + io->position, n); io->position += n; return n; } static tsize_t fiv_io_tiff_write(G_GNUC_UNUSED thandle_t h, G_GNUC_UNUSED tdata_t buf, G_GNUC_UNUSED tsize_t len) { errno = EBADF; return -1; } static toff_t fiv_io_tiff_seek(thandle_t h, toff_t offset, int whence) { struct fiv_io_tiff *io = h; switch (whence) { case SEEK_SET: io->position = offset; break; case SEEK_CUR: io->position += offset; break; case SEEK_END: io->position = io->len + offset; break; default: errno = EINVAL; return -1; } return io->position; } static int fiv_io_tiff_close(G_GNUC_UNUSED thandle_t h) { return 0; } static toff_t fiv_io_tiff_size(thandle_t h) { return ((struct fiv_io_tiff *) h)->len; } static void fiv_io_tiff_error( thandle_t h, const char *module, const char *format, va_list ap) { struct fiv_io_tiff *io = h; gchar *message = g_strdup_vprintf(format, ap); if (io->error) // I'm not sure if two errors can ever come in a succession, // but make sure to log them in any case. g_warning("tiff: %s: %s", module, message); else io->error = g_strconcat(module, ": ", message, NULL); g_free(message); } static void fiv_io_tiff_warning(G_GNUC_UNUSED thandle_t h, const char *module, const char *format, va_list ap) { gchar *message = g_strdup_vprintf(format, ap); g_debug("tiff: %s: %s", module, message); g_free(message); } // - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - static cairo_surface_t * load_libtiff_directory(TIFF *tiff, GError **error) { char emsg[1024] = ""; if (!TIFFRGBAImageOK(tiff, emsg)) { set_error(error, emsg); return NULL; } // TODO(p): Are there cases where we might not want to "stop on error"? TIFFRGBAImage image; if (!TIFFRGBAImageBegin(&image, tiff, 1 /* stop on error */, emsg)) { set_error(error, emsg); return NULL; } cairo_surface_t *surface = NULL; if (image.width > G_MAXINT || image.height >= G_MAXINT || G_MAXUINT32 / image.width < image.height) { set_error(error, "image dimensions too large"); goto fail; } surface = cairo_image_surface_create( CAIRO_FORMAT_ARGB32, image.width, image.height); image.req_orientation = ORIENTATION_LEFTTOP; uint32_t *raster = (uint32_t *) cairo_image_surface_get_data(surface); if (!TIFFRGBAImageGet(&image, raster, image.width, image.height)) { g_clear_pointer(&surface, cairo_surface_destroy); goto fail; } // Needs to be converted from ABGR to alpha-premultiplied ARGB for Cairo. for (uint32_t i = image.width * image.height; i--;) { uint32_t pixel = raster[i], a = TIFFGetA(pixel), b = TIFFGetB(pixel) * a / 255, g = TIFFGetG(pixel) * a / 255, r = TIFFGetR(pixel) * a / 255; raster[i] = a << 24 | r << 16 | g << 8 | b; } cairo_surface_mark_dirty(surface); // XXX: The whole file is essentially an Exif, any ideas? const uint32_t meta_len = 0; const void *meta = NULL; if (TIFFGetField(tiff, TIFFTAG_ICCPROFILE, &meta_len, &meta)) { cairo_surface_set_user_data(surface, &fiv_io_key_icc, g_bytes_new(meta, meta_len), (cairo_destroy_func_t) g_bytes_unref); } if (TIFFGetField(tiff, TIFFTAG_XMLPACKET, &meta_len, &meta)) { cairo_surface_set_user_data(surface, &fiv_io_key_xmp, g_bytes_new(meta, meta_len), (cairo_destroy_func_t) g_bytes_unref); } // Don't ask. The API is high, alright, I'm just not sure about the level. uint16_t orientation = 0; if (TIFFGetField(tiff, TIFFTAG_ORIENTATION, &orientation)) { if (orientation == 5 || orientation == 7) cairo_surface_set_user_data( surface, &fiv_io_key_orientation, (void *) (uintptr_t) 5, NULL); if (orientation == 6 || orientation == 8) cairo_surface_set_user_data( surface, &fiv_io_key_orientation, (void *) (uintptr_t) 7, NULL); } fail: TIFFRGBAImageEnd(&image); // TODO(p): It's possible to implement ClipPath easily with Cairo. return surface; } static cairo_surface_t * open_libtiff(const gchar *data, gsize len, const gchar *path, GError **error) { // Both kinds of handlers are called, redirect everything. TIFFErrorHandler eh = TIFFSetErrorHandler(NULL); TIFFErrorHandler wh = TIFFSetWarningHandler(NULL); TIFFErrorHandlerExt ehe = TIFFSetErrorHandlerExt(fiv_io_tiff_error); TIFFErrorHandlerExt whe = TIFFSetWarningHandlerExt(fiv_io_tiff_warning); struct fiv_io_tiff h = { .data = (unsigned char *) data, .position = 0, .len = len, }; cairo_surface_t *result = NULL, *result_tail = NULL; TIFF *tiff = TIFFClientOpen(path, "rm" /* Avoid mmap. */, &h, fiv_io_tiff_read, fiv_io_tiff_write, fiv_io_tiff_seek, fiv_io_tiff_close, fiv_io_tiff_size, NULL, NULL); if (!tiff) goto fail; // In Nikon NEF files, IFD0 is a tiny uncompressed thumbnail with SubIFDs-- // two of them JPEGs, the remaining one is raw. libtiff cannot read either // of those better versions. // // TODO(p): If NewSubfileType is ReducedImage, and it has SubIFDs compressed // as old JPEG (6), decode JPEGInterchangeFormat/JPEGInterchangeFormatLength // with libjpeg-turbo and insert them as the starting pages. // // This is not possible with libtiff directly, because TIFFSetSubDirectory() // requires an ImageLength tag that's missing, and TIFFReadCustomDirectory() // takes a privately defined struct that cannot be omitted. // // TODO(p): Samsung Android DNGs also claim to be TIFF/EP, but use a smaller // uncompressed YCbCr image. Apple ProRAW uses the new JPEG Compression (7), // with a weird Orientation. It also uses that value for its raw data. uint32_t subtype = 0; uint16_t subifd_count = 0; const uint64_t *subifd_offsets = NULL; if (TIFFGetField(tiff, TIFFTAG_SUBFILETYPE, &subtype) && (subtype & FILETYPE_REDUCEDIMAGE) && TIFFGetField(tiff, TIFFTAG_SUBIFD, &subifd_count, &subifd_offsets) && subifd_count > 0 && subifd_offsets) { } do { // We inform about unsupported directories, but do not fail on them. GError *err = NULL; if (!try_append_page( load_libtiff_directory(tiff, &err), &result, &result_tail)) { g_warning("%s: %s", path, err->message); g_error_free(err); } } while (TIFFReadDirectory(tiff)); TIFFClose(tiff); fail: if (h.error) { g_clear_pointer(&result, cairo_surface_destroy); set_error(error, h.error); g_free(h.error); } else if (!result) { set_error(error, "empty or unsupported image"); } TIFFSetErrorHandlerExt(ehe); TIFFSetWarningHandlerExt(whe); TIFFSetErrorHandler(eh); TIFFSetWarningHandler(wh); return result; } #endif // HAVE_LIBTIFF -------------------------------------------------------- #ifdef HAVE_GDKPIXBUF // ------------------------------------------------------ static cairo_surface_t * open_gdkpixbuf(const gchar *data, gsize len, GError **error) { // gdk-pixbuf controls the playback itself, there is no reliable method of // extracting individual frames (due to loops). GInputStream *is = g_memory_input_stream_new_from_data(data, len, NULL); GdkPixbuf *pixbuf = gdk_pixbuf_new_from_stream(is, NULL, error); g_object_unref(is); if (!pixbuf) return NULL; cairo_surface_t *surface = gdk_cairo_surface_create_from_pixbuf(pixbuf, 1, NULL); const char *orientation = gdk_pixbuf_get_option(pixbuf, "orientation"); if (orientation && strlen(orientation) == 1) { int n = *orientation - '0'; if (n >= 1 && n <= 8) cairo_surface_set_user_data( surface, &fiv_io_key_orientation, (void *) (uintptr_t) n, NULL); } const char *icc_profile = gdk_pixbuf_get_option(pixbuf, "icc-profile"); if (icc_profile) { gsize out_len = 0; guchar *raw = g_base64_decode(icc_profile, &out_len); if (raw) { cairo_surface_set_user_data(surface, &fiv_io_key_icc, g_bytes_new_take(raw, out_len), (cairo_destroy_func_t) g_bytes_unref); } } g_object_unref(pixbuf); return surface; } #endif // HAVE_GDKPIXBUF ------------------------------------------------------ cairo_user_data_key_t fiv_io_key_exif; cairo_user_data_key_t fiv_io_key_orientation; cairo_user_data_key_t fiv_io_key_icc; cairo_user_data_key_t fiv_io_key_xmp; cairo_user_data_key_t fiv_io_key_frame_next; cairo_user_data_key_t fiv_io_key_frame_previous; cairo_user_data_key_t fiv_io_key_frame_duration; cairo_user_data_key_t fiv_io_key_loops; cairo_user_data_key_t fiv_io_key_page_next; cairo_user_data_key_t fiv_io_key_page_previous; cairo_surface_t * fiv_io_open(const gchar *path, GError **error) { // TODO(p): Don't always load everything into memory, test type first, // so that we can reject non-pictures early. Wuffs only needs the first // 16 bytes to make a guess right now. // // LibRaw poses an issue--there is no good registry for identification // of supported files. Many of them are compliant TIFF files. // The only good filtering method for RAWs are currently file extensions // extracted from shared-mime-info. // // SVG is also problematic, an unbounded search for its root element. // But problematic files can be assumed to be crafted. // // gdk-pixbuf exposes its detection data through gdk_pixbuf_get_formats(). // This may also be unbounded, as per format_check(). gchar *data = NULL; gsize len = 0; if (!g_file_get_contents(path, &data, &len, error)) return NULL; cairo_surface_t *surface = fiv_io_open_from_data(data, len, path, error); free(data); return surface; } cairo_surface_t * fiv_io_open_from_data( const char *data, size_t len, const gchar *path, GError **error) { wuffs_base__slice_u8 prefix = wuffs_base__make_slice_u8((uint8_t *) data, len); cairo_surface_t *surface = NULL; switch (wuffs_base__magic_number_guess_fourcc(prefix)) { case WUFFS_BASE__FOURCC__BMP: // Note that BMP can redirect into another format, // which is so far unsupported here. surface = open_wuffs_using( wuffs_bmp__decoder__alloc_as__wuffs_base__image_decoder, data, len, error); break; case WUFFS_BASE__FOURCC__GIF: surface = open_wuffs_using( wuffs_gif__decoder__alloc_as__wuffs_base__image_decoder, data, len, error); break; case WUFFS_BASE__FOURCC__PNG: surface = open_wuffs_using( wuffs_png__decoder__alloc_as__wuffs_base__image_decoder, data, len, error); break; case WUFFS_BASE__FOURCC__JPEG: surface = open_libjpeg_turbo(data, len, error); break; default: #ifdef HAVE_LIBRAW // --------------------------------------------------------- if ((surface = open_libraw(data, len, error))) break; // TODO(p): We should try to pass actual processing errors through, // notably only continue with LIBRAW_FILE_UNSUPPORTED. if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_LIBRAW --------------------------------------------------------- #ifdef HAVE_LIBRSVG // -------------------------------------------------------- if ((surface = open_librsvg(data, len, path, error))) break; // XXX: It doesn't look like librsvg can return sensible errors. if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_LIBRSVG -------------------------------------------------------- #ifdef HAVE_XCURSOR //--------------------------------------------------------- if ((surface = open_xcursor(data, len, error))) break; if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_XCURSOR -------------------------------------------------------- #ifdef HAVE_LIBWEBP //--------------------------------------------------------- // TODO(p): https://github.com/google/wuffs/commit/4c04ac1 if ((surface = open_libwebp(data, len, path, error))) break; if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_LIBWEBP -------------------------------------------------------- #ifdef HAVE_LIBHEIF //--------------------------------------------------------- if ((surface = open_libheif(data, len, path, error))) break; if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_LIBHEIF -------------------------------------------------------- #ifdef HAVE_LIBTIFF //--------------------------------------------------------- // This needs to be positioned after LibRaw. if ((surface = open_libtiff(data, len, path, error))) break; if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_LIBTIFF -------------------------------------------------------- #ifdef HAVE_GDKPIXBUF // ------------------------------------------------------ // This is only used as a last resort, the rest above is special-cased. if ((surface = open_gdkpixbuf(data, len, error))) break; if (error && (*error)->code != GDK_PIXBUF_ERROR_UNKNOWN_TYPE) break; if (error) { g_debug("%s", (*error)->message); g_clear_error(error); } #endif // HAVE_GDKPIXBUF ------------------------------------------------------ set_error(error, "unsupported file type"); } // gdk-pixbuf only gives out this single field--cater to its limitations, // since we'd really like to have it. // TODO(p): The Exif orientation should be ignored in JPEG-XL at minimum. GBytes *exif = NULL; gsize exif_len = 0; gconstpointer exif_data = NULL; if (surface && (exif = cairo_surface_get_user_data(surface, &fiv_io_key_exif)) && (exif_data = g_bytes_get_data(exif, &exif_len))) { cairo_surface_set_user_data(surface, &fiv_io_key_orientation, (void *) (uintptr_t) fiv_io_exif_orientation(exif_data, exif_len), NULL); } return surface; } // --- Export ------------------------------------------------------------------ #ifdef HAVE_LIBWEBP static WebPData encode_lossless_webp(cairo_surface_t *surface) { cairo_format_t format = cairo_image_surface_get_format(surface); int w = cairo_image_surface_get_width(surface); int h = cairo_image_surface_get_height(surface); if (format != CAIRO_FORMAT_ARGB32 && format != CAIRO_FORMAT_RGB24) { cairo_surface_t *converted = cairo_image_surface_create((format = CAIRO_FORMAT_ARGB32), w, h); cairo_t *cr = cairo_create(converted); cairo_set_source_surface(cr, surface, 0, 0); cairo_set_operator(cr, CAIRO_OPERATOR_SOURCE); cairo_paint(cr); cairo_destroy(cr); surface = converted; } else { surface = cairo_surface_reference(surface); } WebPConfig config = {}; WebPPicture picture = {}; if (!WebPConfigInit(&config) || !WebPConfigLosslessPreset(&config, 6) || !WebPPictureInit(&picture)) goto fail; config.thread_level = true; if (!WebPValidateConfig(&config)) goto fail; picture.use_argb = true; picture.width = w; picture.height = h; if (!WebPPictureAlloc(&picture)) goto fail; // Cairo uses a similar internal format, so we should be able to // copy it over and fix up the minor differences. // This is written to be easy to follow rather than fast. int stride = cairo_image_surface_get_stride(surface); if (picture.argb_stride != w || picture.argb_stride * (int) sizeof *picture.argb != stride || INT_MAX / picture.argb_stride < h) goto fail_compatibility; uint32_t *argb = memcpy(picture.argb, cairo_image_surface_get_data(surface), stride * h); if (format == CAIRO_FORMAT_ARGB32) for (int i = h * picture.argb_stride; i-- > 0; argb++) *argb = wuffs_base__color_u32_argb_premul__as__color_u32_argb_nonpremul(*argb); else for (int i = h * picture.argb_stride; i-- > 0; argb++) *argb |= 0xFF000000; WebPMemoryWriter writer = {}; WebPMemoryWriterInit(&writer); picture.writer = WebPMemoryWrite; picture.custom_ptr = &writer; if (!WebPEncode(&config, &picture)) g_debug("WebPEncode: %d\n", picture.error_code); fail_compatibility: WebPPictureFree(&picture); fail: cairo_surface_destroy(surface); return (WebPData) {.bytes = writer.mem, .size = writer.size}; } static gboolean encode_webp_image(WebPMux *mux, cairo_surface_t *frame) { WebPData bitstream = encode_lossless_webp(frame); gboolean ok = WebPMuxSetImage(mux, &bitstream, true) == WEBP_MUX_OK; WebPDataClear(&bitstream); return ok; } static gboolean encode_webp_animation(WebPMux *mux, cairo_surface_t *page) { gboolean ok = TRUE; for (cairo_surface_t *frame = page; ok && frame; frame = cairo_surface_get_user_data(frame, &fiv_io_key_frame_next)) { WebPMuxFrameInfo info = { .bitstream = encode_lossless_webp(frame), .duration = (intptr_t) cairo_surface_get_user_data( frame, &fiv_io_key_frame_duration), .id = WEBP_CHUNK_ANMF, .dispose_method = WEBP_MUX_DISPOSE_NONE, .blend_method = WEBP_MUX_NO_BLEND, }; ok = WebPMuxPushFrame(mux, &info, true) == WEBP_MUX_OK; WebPDataClear(&info.bitstream); } WebPMuxAnimParams params = { .bgcolor = 0x00000000, // BGRA, curiously. .loop_count = (uintptr_t) cairo_surface_get_user_data(page, &fiv_io_key_loops), }; return ok && WebPMuxSetAnimationParams(mux, ¶ms) == WEBP_MUX_OK; } static gboolean transfer_metadata(WebPMux *mux, const char *fourcc, cairo_surface_t *page, const cairo_user_data_key_t *kind) { GBytes *data = cairo_surface_get_user_data(page, kind); if (!data) return TRUE; gsize len = 0; gconstpointer p = g_bytes_get_data(data, &len); return WebPMuxSetChunk(mux, fourcc, &(WebPData) {.bytes = p, .size = len}, false) == WEBP_MUX_OK; } gboolean fiv_io_save(cairo_surface_t *page, cairo_surface_t *frame, const gchar *path, GError **error) { g_return_val_if_fail(page != NULL, FALSE); g_return_val_if_fail(path != NULL, FALSE); gboolean ok = TRUE; WebPMux *mux = WebPMuxNew(); if (frame) ok = encode_webp_image(mux, frame); else if (!cairo_surface_get_user_data(page, &fiv_io_key_frame_next)) ok = encode_webp_image(mux, page); else ok = encode_webp_animation(mux, page); ok = ok && transfer_metadata(mux, "EXIF", page, &fiv_io_key_exif); ok = ok && transfer_metadata(mux, "ICCP", page, &fiv_io_key_icc); ok = ok && transfer_metadata(mux, "XMP ", page, &fiv_io_key_xmp); WebPData assembled = {}; WebPDataInit(&assembled); if (!(ok = ok && WebPMuxAssemble(mux, &assembled) == WEBP_MUX_OK)) set_error(error, "encoding failed"); else ok = g_file_set_contents( path, (const gchar *) assembled.bytes, assembled.size, error); WebPMuxDelete(mux); WebPDataClear(&assembled); return ok; } #endif // HAVE_LIBWEBP // --- Metadata ---------------------------------------------------------------- FivIoOrientation fiv_io_exif_orientation(const guint8 *tiff, gsize len) { // libtiff also knows how to do this, but it's not a lot of code. // The "Orientation" tag/field is part of Baseline TIFF 6.0 (1992), // it just so happens that Exif is derived from this format. // There is no other meaningful placement for this than right in IFD0, // describing the main image. const uint8_t *end = tiff + len, le[4] = {'I', 'I', 42, 0}, be[4] = {'M', 'M', 0, 42}; uint16_t (*u16)(const uint8_t *) = NULL; uint32_t (*u32)(const uint8_t *) = NULL; if (tiff + 8 > end) { return FivIoOrientationUnknown; } else if (!memcmp(tiff, le, sizeof le)) { u16 = wuffs_base__peek_u16le__no_bounds_check; u32 = wuffs_base__peek_u32le__no_bounds_check; } else if (!memcmp(tiff, be, sizeof be)) { u16 = wuffs_base__peek_u16be__no_bounds_check; u32 = wuffs_base__peek_u32be__no_bounds_check; } else { return FivIoOrientationUnknown; } const uint8_t *ifd0 = tiff + u32(tiff + 4); if (ifd0 + 2 > end) return FivIoOrientationUnknown; uint16_t fields = u16(ifd0); enum { BYTE = 1, ASCII, SHORT, LONG, RATIONAL, SBYTE, UNDEFINED, SSHORT, SLONG, SRATIONAL, FLOAT, DOUBLE }; enum { Orientation = 274 }; for (const guint8 *p = ifd0 + 2; fields-- && p + 12 <= end; p += 12) { uint16_t tag = u16(p), type = u16(p + 2), value16 = u16(p + 8); uint32_t count = u32(p + 4); if (tag == Orientation && type == SHORT && count == 1 && value16 >= 1 && value16 <= 8) return value16; } return FivIoOrientationUnknown; } gboolean fiv_io_save_metadata(cairo_surface_t *page, const gchar *path, GError **error) { g_return_val_if_fail(page != NULL, FALSE); FILE *fp = fopen(path, "wb"); if (!fp) { g_set_error(error, G_IO_ERROR, g_io_error_from_errno(errno), "%s: %s", path, g_strerror(errno)); return FALSE; } // This does not constitute a valid JPEG codestream--it's a TEM marker // (standalone) with trailing nonsense. fprintf(fp, "\xFF\001Exiv2"); GBytes *data = NULL; gsize len = 0; gconstpointer p = NULL; // Adobe XMP Specification Part 3: Storage in Files, 2020/1, 1.1.3 // I don't care if Exiv2 supports it this way. if ((data = cairo_surface_get_user_data(page, &fiv_io_key_exif)) && (p = g_bytes_get_data(data, &len))) { while (len) { gsize chunk = MIN(len, 0xFFFF - 2 - 6); uint8_t header[10] = "\xFF\xE1\000\000Exif\000\000"; header[2] = (chunk + 2 + 6) >> 8; header[3] = (chunk + 2 + 6); fwrite(header, 1, sizeof header, fp); fwrite(p, 1, chunk, fp); len -= chunk; p += chunk; } } // https://www.color.org/specification/ICC1v43_2010-12.pdf B.4 if ((data = cairo_surface_get_user_data(page, &fiv_io_key_icc)) && (p = g_bytes_get_data(data, &len))) { gsize limit = 0xFFFF - 2 - 12; uint8_t current = 0, total = (len + limit - 1) / limit; while (len) { gsize chunk = MIN(len, limit); uint8_t header[18] = "\xFF\xE2\000\000ICC_PROFILE\000\000\000"; header[2] = (chunk + 2 + 12 + 2) >> 8; header[3] = (chunk + 2 + 12 + 2); header[16] = ++current; header[17] = total; fwrite(header, 1, sizeof header, fp); fwrite(p, 1, chunk, fp); len -= chunk; p += chunk; } } // Adobe XMP Specification Part 3: Storage in Files, 2020/1, 1.1.3 // If the main segment overflows, then it's a sign of bad luck, // because 1.1.3.1 is way too complex. if ((data = cairo_surface_get_user_data(page, &fiv_io_key_xmp)) && (p = g_bytes_get_data(data, &len))) { while (len) { gsize chunk = MIN(len, 0xFFFF - 2 - 29); uint8_t header[33] = "\xFF\xE1\000\000http://ns.adobe.com/xap/1.0/\000"; header[2] = (chunk + 2 + 29) >> 8; header[3] = (chunk + 2 + 29); fwrite(header, 1, sizeof header, fp); fwrite(p, 1, chunk, fp); break; } } fprintf(fp, "\xFF\xD9"); if (ferror(fp)) { g_set_error(error, G_IO_ERROR, g_io_error_from_errno(errno), "%s: %s", path, g_strerror(errno)); fclose(fp); return FALSE; } if (fclose(fp)) { g_set_error(error, G_IO_ERROR, g_io_error_from_errno(errno), "%s: %s", path, g_strerror(errno)); return FALSE; } return TRUE; } // --- Thumbnails -------------------------------------------------------------- GType fiv_io_thumbnail_size_get_type(void) { static gsize guard; if (g_once_init_enter(&guard)) { #define XX(name, value, dir) {FIV_IO_THUMBNAIL_SIZE_ ## name, \ "FIV_IO_THUMBNAIL_SIZE_" #name, #name}, static const GEnumValue values[] = {FIV_IO_THUMBNAIL_SIZES(XX) {}}; #undef XX GType type = g_enum_register_static( g_intern_static_string("FivIoThumbnailSize"), values); g_once_init_leave(&guard, type); } return guard; } #define XX(name, value, dir) {value, dir}, FivIoThumbnailSizeInfo fiv_io_thumbnail_sizes[FIV_IO_THUMBNAIL_SIZE_COUNT] = { FIV_IO_THUMBNAIL_SIZES(XX)}; #undef XX // - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - #ifndef __linux__ #define st_mtim st_mtimespec #endif // ! __linux__ static int // tri-state check_spng_thumbnail_texts(struct spng_text *texts, uint32_t texts_len, const gchar *target, time_t mtime) { // May contain Thumb::Image::Width Thumb::Image::Height, // but those aren't interesting currently (would be for fast previews). bool need_uri = true, need_mtime = true; for (uint32_t i = 0; i < texts_len; i++) { struct spng_text *text = texts + i; if (!strcmp(text->keyword, "Thumb::URI")) { need_uri = false; if (strcmp(target, text->text)) return false; } if (!strcmp(text->keyword, "Thumb::MTime")) { need_mtime = false; if (atol(text->text) != mtime) return false; } } return need_uri || need_mtime ? -1 : true; } static int // tri-state check_spng_thumbnail(spng_ctx *ctx, const gchar *target, time_t mtime, int *err) { uint32_t texts_len = 0; if ((*err = spng_get_text(ctx, NULL, &texts_len))) return false; int result = false; struct spng_text *texts = g_malloc0_n(texts_len, sizeof *texts); if (!(*err = spng_get_text(ctx, texts, &texts_len))) result = check_spng_thumbnail_texts(texts, texts_len, target, mtime); g_free(texts); return result; } static cairo_surface_t * read_spng_thumbnail( const gchar *path, const gchar *uri, time_t mtime, GError **error) { FILE *fp; cairo_surface_t *result = NULL; if (!(fp = fopen(path, "rb"))) { set_error(error, g_strerror(errno)); return NULL; } errno = 0; spng_ctx *ctx = spng_ctx_new(0); if (!ctx) { set_error(error, g_strerror(errno)); goto fail_init; } int err; size_t size = 0; if ((err = spng_set_png_file(ctx, fp)) || (err = spng_set_image_limits(ctx, INT16_MAX, INT16_MAX)) || (err = spng_decoded_image_size(ctx, SPNG_FMT_RGBA8, &size))) { set_error(error, spng_strerror(err)); goto fail; } if (check_spng_thumbnail(ctx, uri, mtime, &err) == false) { set_error(error, err ? spng_strerror(err) : "mismatch"); goto fail; } struct spng_ihdr ihdr = {}; spng_get_ihdr(ctx, &ihdr); cairo_surface_t *surface = cairo_image_surface_create( CAIRO_FORMAT_ARGB32, ihdr.width, ihdr.height); cairo_status_t surface_status = cairo_surface_status(surface); if (surface_status != CAIRO_STATUS_SUCCESS) { set_error(error, cairo_status_to_string(surface_status)); goto fail_data; } uint32_t *data = (uint32_t *) cairo_image_surface_get_data(surface); g_assert((size_t) cairo_image_surface_get_stride(surface) * cairo_image_surface_get_height(surface) == size); cairo_surface_flush(surface); if ((err = spng_decode_image(ctx, data, size, SPNG_FMT_RGBA8, SPNG_DECODE_TRNS | SPNG_DECODE_GAMMA))) { set_error(error, spng_strerror(err)); goto fail_data; } // The specification does not say where the required metadata should be, // it could very well be broken up into two parts. if (check_spng_thumbnail(ctx, uri, mtime, &err) != true) { set_error( error, err ? spng_strerror(err) : "mismatch or not a thumbnail"); goto fail_data; } // pixman can be mildly abused to do this operation, but it won't be faster. struct spng_trns trns = {}; if (ihdr.color_type == SPNG_COLOR_TYPE_GRAYSCALE_ALPHA || ihdr.color_type == SPNG_COLOR_TYPE_TRUECOLOR_ALPHA || !spng_get_trns(ctx, &trns)) { for (size_t i = size / sizeof *data; i--; ) { const uint8_t *unit = (const uint8_t *) &data[i]; uint32_t a = unit[3], b = PREMULTIPLY8(a, unit[2]), g = PREMULTIPLY8(a, unit[1]), r = PREMULTIPLY8(a, unit[0]); data[i] = a << 24 | r << 16 | g << 8 | b; } } else { for (size_t i = size / sizeof *data; i--; ) { uint32_t rgba = g_ntohl(data[i]); data[i] = rgba << 24 | rgba >> 8; } } cairo_surface_mark_dirty((result = surface)); fail_data: if (!result) cairo_surface_destroy(surface); fail: spng_ctx_free(ctx); fail_init: fclose(fp); return result; } cairo_surface_t * fiv_io_lookup_thumbnail(GFile *target, FivIoThumbnailSize size) { g_return_val_if_fail(size >= FIV_IO_THUMBNAIL_SIZE_MIN && size <= FIV_IO_THUMBNAIL_SIZE_MAX, NULL); // Local files only, at least for now. gchar *path = g_file_get_path(target); if (!path) return NULL; GStatBuf st = {}; int err = g_stat(path, &st); g_free(path); if (err) return NULL; gchar *uri = g_file_get_uri(target); gchar *sum = g_compute_checksum_for_string(G_CHECKSUM_MD5, uri, -1); gchar *cache_dir = get_xdg_home_dir("XDG_CACHE_HOME", ".cache"); // The lookup sequence is: nominal..max, then mirroring back to ..min. cairo_surface_t *result = NULL; GError *error = NULL; for (int i = 0; i < FIV_IO_THUMBNAIL_SIZE_COUNT; i++) { int use = size + i; if (use > FIV_IO_THUMBNAIL_SIZE_MAX) use = FIV_IO_THUMBNAIL_SIZE_MAX - i; gchar *path = g_strdup_printf("%s/thumbnails/%s/%s.png", cache_dir, fiv_io_thumbnail_sizes[use].thumbnail_spec_name, sum); result = read_spng_thumbnail(path, uri, st.st_mtim.tv_sec, &error); if (error) { g_debug("%s: %s", path, error->message); g_clear_error(&error); } g_free(path); if (result) break; } g_free(cache_dir); g_free(sum); g_free(uri); return result; } int fiv_io_filecmp(GFile *location1, GFile *location2) { if (g_file_has_prefix(location1, location2)) return +1; if (g_file_has_prefix(location2, location1)) return -1; gchar *name1 = g_file_get_parse_name(location1); gchar *name2 = g_file_get_parse_name(location2); int result = g_utf8_collate(name1, name2); g_free(name1); g_free(name2); return result; }