8 imexif.c - EXIF support for Imager
12 if (i_int_decode_exif(im, app1data, app1datasize)) {
18 This code provides a basic EXIF data decoder. It is intended to be
19 called from the JPEG reader code when an APP1 data block is found, and
20 will set tags in the supplied image.
25 typedef enum tiff_type_tag {
43 ift_last = 12 /* keep the same as the highest type code */
46 static int type_sizes[] =
84 #define PASTE(left, right) PASTE_(left, right)
85 #define PASTE_(left, right) left##right
86 #define QUOTE(value) #value
88 #define VALUE_MAP_ENTRY(name) \
91 "exif_" QUOTE(name) "_name", \
92 PASTE(name, _values), \
93 ARRAY_COUNT(PASTE(name, _values)) \
96 /* we don't process every tag */
99 #define tag_orientation 274
100 #define tag_x_resolution 282
101 #define tag_y_resolution 283
102 #define tag_resolution_unit 296
103 #define tag_copyright 33432
104 #define tag_software 305
105 #define tag_artist 315
106 #define tag_date_time 306
107 #define tag_image_description 270
109 #define tag_exif_ifd 34665
110 #define tag_gps_ifd 34853
112 #define resunit_none 1
113 #define resunit_inch 2
114 #define resunit_centimeter 3
116 /* tags from the EXIF ifd */
117 #define tag_exif_version 0x9000
118 #define tag_flashpix_version 0xA000
119 #define tag_color_space 0xA001
120 #define tag_component_configuration 0x9101
121 #define tag_component_bits_per_pixel 0x9102
122 #define tag_pixel_x_dimension 0xA002
123 #define tag_pixel_y_dimension 0xA003
124 #define tag_maker_note 0x927C
125 #define tag_user_comment 0x9286
126 #define tag_related_sound_file 0xA004
127 #define tag_date_time_original 0x9003
128 #define tag_date_time_digitized 0x9004
129 #define tag_sub_sec_time 0x9290
130 #define tag_sub_sec_time_original 0x9291
131 #define tag_sub_sec_time_digitized 0x9292
132 #define tag_image_unique_id 0xA420
133 #define tag_exposure_time 0x829a
134 #define tag_f_number 0x829D
135 #define tag_exposure_program 0x8822
136 #define tag_spectral_sensitivity 0x8824
137 #define tag_iso_speed_ratings 0x8827
138 #define tag_oecf 0x8828
139 #define tag_shutter_speed 0x9201
140 #define tag_aperture 0x9202
141 #define tag_brightness 0x9203
142 #define tag_exposure_bias 0x9204
143 #define tag_max_aperture 0x9205
144 #define tag_subject_distance 0x9206
145 #define tag_metering_mode 0x9207
146 #define tag_light_source 0x9208
147 #define tag_flash 0x9209
148 #define tag_focal_length 0x920a
149 #define tag_subject_area 0x9214
150 #define tag_flash_energy 0xA20B
151 #define tag_spatial_frequency_response 0xA20C
152 #define tag_focal_plane_x_resolution 0xA20e
153 #define tag_focal_plane_y_resolution 0xA20F
154 #define tag_focal_plane_resolution_unit 0xA210
155 #define tag_subject_location 0xA214
156 #define tag_exposure_index 0xA215
157 #define tag_sensing_method 0xA217
158 #define tag_file_source 0xA300
159 #define tag_scene_type 0xA301
160 #define tag_cfa_pattern 0xA302
161 #define tag_custom_rendered 0xA401
162 #define tag_exposure_mode 0xA402
163 #define tag_white_balance 0xA403
164 #define tag_digital_zoom_ratio 0xA404
165 #define tag_focal_length_in_35mm_film 0xA405
166 #define tag_scene_capture_type 0xA406
167 #define tag_gain_control 0xA407
168 #define tag_contrast 0xA408
169 #define tag_saturation 0xA409
170 #define tag_sharpness 0xA40A
171 #define tag_device_setting_description 0xA40B
172 #define tag_subject_distance_range 0xA40C
175 #define tag_gps_version_id 0
176 #define tag_gps_latitude_ref 1
177 #define tag_gps_latitude 2
178 #define tag_gps_longitude_ref 3
179 #define tag_gps_longitude 4
180 #define tag_gps_altitude_ref 5
181 #define tag_gps_altitude 6
182 #define tag_gps_time_stamp 7
183 #define tag_gps_satellites 8
184 #define tag_gps_status 9
185 #define tag_gps_measure_mode 10
186 #define tag_gps_dop 11
187 #define tag_gps_speed_ref 12
188 #define tag_gps_speed 13
189 #define tag_gps_track_ref 14
190 #define tag_gps_track 15
191 #define tag_gps_img_direction_ref 16
192 #define tag_gps_img_direction 17
193 #define tag_gps_map_datum 18
194 #define tag_gps_dest_latitude_ref 19
195 #define tag_gps_dest_latitude 20
196 #define tag_gps_dest_longitude_ref 21
197 #define tag_gps_dest_longitude 22
198 #define tag_gps_dest_bearing_ref 23
199 #define tag_gps_dest_bearing 24
200 #define tag_gps_dest_distance_ref 25
201 #define tag_gps_dest_distance 26
202 #define tag_gps_processing_method 27
203 #define tag_gps_area_information 28
204 #define tag_gps_date_stamp 29
205 #define tag_gps_differential 30
207 /* don't use this on pointers */
208 #define ARRAY_COUNT(array) (sizeof(array)/sizeof(*array))
210 /* in memory tiff structure */
212 /* the data we use as a tiff */
216 /* intel or motorola byte order */
219 /* initial ifd offset */
220 unsigned long first_ifd_offset;
222 /* size (in entries) and data */
225 unsigned long next_ifd;
228 static int tiff_init(imtiff *tiff, unsigned char *base, size_t length);
229 static int tiff_load_ifd(imtiff *tiff, unsigned long offset);
230 static void tiff_final(imtiff *tiff);
231 static void tiff_clear_ifd(imtiff *tiff);
232 #if 0 /* currently unused, but that may change */
233 static int tiff_get_bytes(imtiff *tiff, unsigned char *to, size_t offset,
236 static int tiff_get_tag_double(imtiff *, int index, double *result);
237 static int tiff_get_tag_int(imtiff *, int index, int *result);
238 static unsigned tiff_get16(imtiff *, unsigned long offset);
239 static unsigned tiff_get32(imtiff *, unsigned long offset);
240 static int tiff_get16s(imtiff *, unsigned long offset);
241 static int tiff_get32s(imtiff *, unsigned long offset);
242 static double tiff_get_rat(imtiff *, unsigned long offset);
243 static double tiff_get_rats(imtiff *, unsigned long offset);
244 static void save_ifd0_tags(i_img *im, imtiff *tiff, unsigned long *exif_ifd_offset, unsigned long *gps_ifd_offset);
245 static void save_exif_ifd_tags(i_img *im, imtiff *tiff);
246 static void save_gps_ifd_tags(i_img *im, imtiff *tiff);
248 copy_string_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count);
250 copy_int_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count);
252 copy_rat_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count);
254 copy_num_array_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count);
256 copy_name_tags(i_img *im, imtiff *tiff, tag_value_map *map, int map_count);
257 static void process_maker_note(i_img *im, imtiff *tiff, unsigned long offset, size_t size);
260 =head1 PUBLIC FUNCTIONS
262 These functions are available to other parts of Imager. They aren't
263 intended to be called from outside of Imager.
267 =item i_int_decode_exit
269 i_int_decode_exif(im, data_base, data_size);
271 The data from data_base for data_size bytes will be scanned for EXIF
274 Any data found will be used to set tags in the supplied image.
276 The intent is that invalid EXIF data will simply fail to set tags, and
277 write to the log. In no case should this code exit when supplied
280 Returns true if an Exif header was seen.
285 i_int_decode_exif(i_img *im, unsigned char *data, size_t length) {
287 unsigned long exif_ifd_offset = 0;
288 unsigned long gps_ifd_offset = 0;
289 /* basic checks - must start with "Exif\0\0" */
291 if (length < 6 || memcmp(data, "Exif\0\0", 6) != 0) {
298 if (!tiff_init(&tiff, data, length)) {
299 mm_log((2, "Exif header found, but no valid TIFF header\n"));
302 if (!tiff_load_ifd(&tiff, tiff.first_ifd_offset)) {
303 mm_log((2, "Exif header found, but could not load IFD 0\n"));
308 save_ifd0_tags(im, &tiff, &exif_ifd_offset, &gps_ifd_offset);
310 if (exif_ifd_offset) {
311 if (tiff_load_ifd(&tiff, exif_ifd_offset)) {
312 save_exif_ifd_tags(im, &tiff);
315 mm_log((2, "Could not load Exif IFD\n"));
319 if (gps_ifd_offset) {
320 if (tiff_load_ifd(&tiff, gps_ifd_offset)) {
321 save_gps_ifd_tags(im, &tiff);
324 mm_log((2, "Could not load GPS IFD\n"));
337 =head1 INTERNAL FUNCTIONS
339 =head2 EXIF Processing
345 save_ifd0_tags(im, tiff, &exif_ifd_offset, &gps_ifd_offset)
347 Scans the currently loaded IFD for tags expected in IFD0 and sets them
350 Sets *exif_ifd_offset to the offset of the EXIF IFD if found.
356 static tag_map ifd0_string_tags[] =
358 { tag_make, "exif_make" },
359 { tag_model, "exif_model" },
360 { tag_copyright, "exif_copyright" },
361 { tag_software, "exif_software" },
362 { tag_artist, "exif_artist" },
363 { tag_date_time, "exif_date_time" },
364 { tag_image_description, "exif_image_description" },
367 static const int ifd0_string_tag_count = ARRAY_COUNT(ifd0_string_tags);
369 static tag_map ifd0_int_tags[] =
371 { tag_orientation, "exif_orientation", },
372 { tag_resolution_unit, "exif_resolution_unit" },
375 static const int ifd0_int_tag_count = ARRAY_COUNT(ifd0_int_tags);
377 static tag_map ifd0_rat_tags[] =
379 { tag_x_resolution, "exif_x_resolution" },
380 { tag_y_resolution, "exif_y_resolution" },
383 static tag_map resolution_unit_values[] =
387 { 3, "centimeters" },
390 static tag_value_map ifd0_values[] =
392 VALUE_MAP_ENTRY(resolution_unit),
396 save_ifd0_tags(i_img *im, imtiff *tiff, unsigned long *exif_ifd_offset,
397 unsigned long *gps_ifd_offset) {
402 for (tag_index = 0, entry = tiff->ifd;
403 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
404 switch (entry->tag) {
406 if (tiff_get_tag_int(tiff, tag_index, &work))
407 *exif_ifd_offset = work;
411 if (tiff_get_tag_int(tiff, tag_index, &work))
412 *gps_ifd_offset = work;
417 copy_string_tags(im, tiff, ifd0_string_tags, ifd0_string_tag_count);
418 copy_int_tags(im, tiff, ifd0_int_tags, ifd0_int_tag_count);
419 copy_rat_tags(im, tiff, ifd0_rat_tags, ARRAY_COUNT(ifd0_rat_tags));
420 copy_name_tags(im, tiff, ifd0_values, ARRAY_COUNT(ifd0_values));
421 /* copy_num_array_tags(im, tiff, ifd0_num_arrays, ARRAY_COUNT(ifd0_num_arrays)); */
425 =item save_exif_ifd_tags
427 save_exif_ifd_tags(im, tiff)
429 Scans the currently loaded IFD for the tags expected in the EXIF IFD
430 and sets them as tags in the image.
436 static tag_map exif_ifd_string_tags[] =
438 { tag_exif_version, "exif_version", },
439 { tag_flashpix_version, "exif_flashpix_version", },
440 { tag_related_sound_file, "exif_related_sound_file", },
441 { tag_date_time_original, "exif_date_time_original", },
442 { tag_date_time_digitized, "exif_date_time_digitized", },
443 { tag_sub_sec_time, "exif_sub_sec_time" },
444 { tag_sub_sec_time_original, "exif_sub_sec_time_original" },
445 { tag_sub_sec_time_digitized, "exif_sub_sec_time_digitized" },
446 { tag_image_unique_id, "exif_image_unique_id" },
447 { tag_spectral_sensitivity, "exif_spectral_sensitivity" },
450 static const int exif_ifd_string_tag_count = ARRAY_COUNT(exif_ifd_string_tags);
452 static tag_map exif_ifd_int_tags[] =
454 { tag_color_space, "exif_color_space" },
455 { tag_exposure_program, "exif_exposure_program" },
456 { tag_metering_mode, "exif_metering_mode" },
457 { tag_light_source, "exif_light_source" },
458 { tag_flash, "exif_flash" },
459 { tag_focal_plane_resolution_unit, "exif_focal_plane_resolution_unit" },
460 { tag_subject_location, "exif_subject_location" },
461 { tag_sensing_method, "exif_sensing_method" },
462 { tag_custom_rendered, "exif_custom_rendered" },
463 { tag_exposure_mode, "exif_exposure_mode" },
464 { tag_white_balance, "exif_white_balance" },
465 { tag_focal_length_in_35mm_film, "exif_focal_length_in_35mm_film" },
466 { tag_scene_capture_type, "exif_scene_capture_type" },
467 { tag_contrast, "exif_contrast" },
468 { tag_saturation, "exif_saturation" },
469 { tag_sharpness, "exif_sharpness" },
470 { tag_subject_distance_range, "exif_subject_distance_range" },
474 static const int exif_ifd_int_tag_count = ARRAY_COUNT(exif_ifd_int_tags);
476 static tag_map exif_ifd_rat_tags[] =
478 { tag_exposure_time, "exif_exposure_time" },
479 { tag_f_number, "exif_f_number" },
480 { tag_shutter_speed, "exif_shutter_speed" },
481 { tag_aperture, "exif_aperture" },
482 { tag_brightness, "exif_brightness" },
483 { tag_exposure_bias, "exif_exposure_bias" },
484 { tag_max_aperture, "exif_max_aperture" },
485 { tag_subject_distance, "exif_subject_distance" },
486 { tag_focal_length, "exif_focal_length" },
487 { tag_flash_energy, "exif_flash_energy" },
488 { tag_focal_plane_x_resolution, "exif_focal_plane_x_resolution" },
489 { tag_focal_plane_y_resolution, "exif_focal_plane_y_resolution" },
490 { tag_exposure_index, "exif_exposure_index" },
491 { tag_digital_zoom_ratio, "exif_digital_zoom_ratio" },
492 { tag_gain_control, "exif_gain_control" },
495 static const int exif_ifd_rat_tag_count = ARRAY_COUNT(exif_ifd_rat_tags);
497 static tag_map exposure_mode_values[] =
499 { 0, "Auto exposure" },
500 { 1, "Manual exposure" },
501 { 2, "Auto bracket" },
503 static tag_map color_space_values[] =
506 { 0xFFFF, "Uncalibrated" },
509 static tag_map exposure_program_values[] =
511 { 0, "Not defined" },
513 { 2, "Normal program" },
514 { 3, "Aperture priority" },
515 { 4, "Shutter priority" },
516 { 5, "Creative program" },
517 { 6, "Action program" },
518 { 7, "Portrait mode" },
519 { 8, "Landscape mode" },
522 static tag_map metering_mode_values[] =
526 { 2, "CenterWeightedAverage" },
534 static tag_map light_source_values[] =
538 { 2, "Fluorescent" },
539 { 3, "Tungsten (incandescent light)" },
541 { 9, "Fine weather" },
542 { 10, "Cloudy weather" },
544 { 12, "Daylight fluorescent (D 5700 Ã 7100K)" },
545 { 13, "Day white fluorescent (N 4600 Ã 5400K)" },
546 { 14, "Cool white fluorescent (W 3900 Ã 4500K)" },
547 { 15, "White fluorescent (WW 3200 Ã 3700K)" },
548 { 17, "Standard light A" },
549 { 18, "Standard light B" },
550 { 19, "Standard light C" },
555 { 24, "ISO studio tungsten" },
556 { 255, "other light source" },
559 static tag_map flash_values[] =
561 { 0x0000, "Flash did not fire." },
562 { 0x0001, "Flash fired." },
563 { 0x0005, "Strobe return light not detected." },
564 { 0x0007, "Strobe return light detected." },
565 { 0x0009, "Flash fired, compulsory flash mode" },
566 { 0x000D, "Flash fired, compulsory flash mode, return light not detected" },
567 { 0x000F, "Flash fired, compulsory flash mode, return light detected" },
568 { 0x0010, "Flash did not fire, compulsory flash mode" },
569 { 0x0018, "Flash did not fire, auto mode" },
570 { 0x0019, "Flash fired, auto mode" },
571 { 0x001D, "Flash fired, auto mode, return light not detected" },
572 { 0x001F, "Flash fired, auto mode, return light detected" },
573 { 0x0020, "No flash function" },
574 { 0x0041, "Flash fired, red-eye reduction mode" },
575 { 0x0045, "Flash fired, red-eye reduction mode, return light not detected" },
576 { 0x0047, "Flash fired, red-eye reduction mode, return light detected" },
577 { 0x0049, "Flash fired, compulsory flash mode, red-eye reduction mode" },
578 { 0x004D, "Flash fired, compulsory flash mode, red-eye reduction mode, return light not detected" },
579 { 0x004F, "Flash fired, compulsory flash mode, red-eye reduction mode, return light detected" },
580 { 0x0059, "Flash fired, auto mode, red-eye reduction mode" },
581 { 0x005D, "Flash fired, auto mode, return light not detected, red-eye reduction mode" },
582 { 0x005F, "Flash fired, auto mode, return light detected, red-eye reduction mode" },
585 static tag_map sensing_method_values[] =
587 { 1, "Not defined" },
588 { 2, "One-chip color area sensor" },
589 { 3, "Two-chip color area sensor" },
590 { 4, "Three-chip color area sensor" },
591 { 5, "Color sequential area sensor" },
592 { 7, "Trilinear sensor" },
593 { 8, "Color sequential linear sensor" },
596 static tag_map custom_rendered_values[] =
598 { 0, "Normal process" },
599 { 1, "Custom process" },
602 static tag_map white_balance_values[] =
604 { 0, "Auto white balance" },
605 { 1, "Manual white balance" },
608 static tag_map scene_capture_type_values[] =
613 { 3, "Night scene" },
616 static tag_map gain_control_values[] =
619 { 1, "Low gain up" },
620 { 2, "High gain up" },
621 { 3, "Low gain down" },
622 { 4, "High gain down" },
625 static tag_map contrast_values[] =
632 static tag_map saturation_values[] =
635 { 1, "Low saturation" },
636 { 2, "High saturation" },
639 static tag_map sharpness_values[] =
646 static tag_map subject_distance_range_values[] =
651 { 3, "Distant view" },
654 #define focal_plane_resolution_unit_values resolution_unit_values
656 static tag_value_map exif_ifd_values[] =
658 VALUE_MAP_ENTRY(exposure_mode),
659 VALUE_MAP_ENTRY(color_space),
660 VALUE_MAP_ENTRY(exposure_program),
661 VALUE_MAP_ENTRY(metering_mode),
662 VALUE_MAP_ENTRY(light_source),
663 VALUE_MAP_ENTRY(flash),
664 VALUE_MAP_ENTRY(sensing_method),
665 VALUE_MAP_ENTRY(custom_rendered),
666 VALUE_MAP_ENTRY(white_balance),
667 VALUE_MAP_ENTRY(scene_capture_type),
668 VALUE_MAP_ENTRY(gain_control),
669 VALUE_MAP_ENTRY(contrast),
670 VALUE_MAP_ENTRY(saturation),
671 VALUE_MAP_ENTRY(sharpness),
672 VALUE_MAP_ENTRY(subject_distance_range),
673 VALUE_MAP_ENTRY(focal_plane_resolution_unit),
676 static tag_map exif_num_arrays[] =
678 { tag_iso_speed_ratings, "exif_iso_speed_ratings" },
679 { tag_subject_area, "exif_subject_area" },
680 { tag_subject_location, "exif_subject_location" },
684 save_exif_ifd_tags(i_img *im, imtiff *tiff) {
688 unsigned long maker_note_offset = 0;
689 size_t maker_note_size = 0;
691 for (tag_index = 0, entry = tiff->ifd;
692 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
693 switch (entry->tag) {
694 case tag_user_comment:
695 /* I don't want to trash the source, so work on a copy */
696 user_comment = mymalloc(entry->size);
697 memcpy(user_comment, tiff->base + entry->offset, entry->size);
698 /* the first 8 bytes indicate the encoding, make them into spaces
699 for better presentation */
700 for (i = 0; i < entry->size && i < 8; ++i) {
701 if (user_comment[i] == '\0')
702 user_comment[i] = ' ';
704 /* find the actual end of the string */
705 while (i < entry->size && user_comment[i])
707 i_tags_add(&im->tags, "exif_user_comment", 0, user_comment, i, 0);
708 myfree(user_comment);
712 maker_note_offset = entry->offset;
713 maker_note_size = entry->size;
716 /* the following aren't processed yet */
718 case tag_spatial_frequency_response:
719 case tag_file_source:
721 case tag_cfa_pattern:
722 case tag_device_setting_description:
723 case tag_subject_area:
728 copy_string_tags(im, tiff, exif_ifd_string_tags, exif_ifd_string_tag_count);
729 copy_int_tags(im, tiff, exif_ifd_int_tags, exif_ifd_int_tag_count);
730 copy_rat_tags(im, tiff, exif_ifd_rat_tags, exif_ifd_rat_tag_count);
731 copy_name_tags(im, tiff, exif_ifd_values, ARRAY_COUNT(exif_ifd_values));
732 copy_num_array_tags(im, tiff, exif_num_arrays, ARRAY_COUNT(exif_num_arrays));
734 /* This trashes the IFD - make sure it's done last */
735 if (maker_note_offset) {
736 process_maker_note(im, tiff, maker_note_offset, maker_note_size);
740 static tag_map gps_ifd_string_tags[] =
742 { tag_gps_version_id, "exif_gps_version_id" },
743 { tag_gps_latitude_ref, "exif_gps_latitude_ref" },
744 { tag_gps_longitude_ref, "exif_gps_longitude_ref" },
745 { tag_gps_altitude_ref, "exif_gps_altitude_ref" },
746 { tag_gps_satellites, "exif_gps_satellites" },
747 { tag_gps_status, "exif_gps_status" },
748 { tag_gps_measure_mode, "exif_gps_measure_mode" },
749 { tag_gps_speed_ref, "exif_gps_speed_ref" },
750 { tag_gps_track_ref, "exif_gps_track_ref" },
753 static tag_map gps_ifd_int_tags[] =
755 { tag_gps_differential, "exif_gps_differential" },
758 static tag_map gps_ifd_rat_tags[] =
760 { tag_gps_altitude, "exif_gps_altitude" },
761 { tag_gps_time_stamp, "exif_gps_time_stamp" },
762 { tag_gps_dop, "exif_gps_dop" },
763 { tag_gps_speed, "exif_gps_speed" },
764 { tag_gps_track, "exif_track" }
767 static tag_map gps_differential_values [] =
769 { 0, "without differential correction" },
770 { 1, "Differential correction applied" },
773 static tag_value_map gps_ifd_values[] =
775 VALUE_MAP_ENTRY(gps_differential),
778 static tag_map gps_num_arrays[] =
780 { tag_gps_latitude, "exif_gps_latitude" },
781 { tag_gps_longitude, "exif_gps_longitude" },
785 save_gps_ifd_tags(i_img *im, imtiff *tiff) {
790 /* for (tag_index = 0, entry = tiff->ifd;
791 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
792 switch (entry->tag) {
797 copy_string_tags(im, tiff, gps_ifd_string_tags,
798 ARRAY_COUNT(gps_ifd_string_tags));
799 copy_int_tags(im, tiff, gps_ifd_int_tags, ARRAY_COUNT(gps_ifd_int_tags));
800 copy_rat_tags(im, tiff, gps_ifd_rat_tags, ARRAY_COUNT(gps_ifd_rat_tags));
801 copy_name_tags(im, tiff, gps_ifd_values, ARRAY_COUNT(gps_ifd_values));
802 copy_num_array_tags(im, tiff, gps_num_arrays, ARRAY_COUNT(gps_num_arrays));
806 =item process_maker_note
808 This is a stub for processing the maker note tag.
810 Maker notes aren't covered by EXIF itself and in general aren't
811 documented by the manufacturers.
817 process_maker_note(i_img *im, imtiff *tiff, unsigned long offset, size_t size) {
818 /* this will be added in a future release */
824 =head2 High level TIFF functions
826 To avoid relying upon tifflib when we're not processing an image we
827 have some simple in-memory TIFF file management.
834 if (tiff_init(tiff, data_base, data_size)) {
838 Initialize the tiff data structure.
840 Scans for the byte order and version markers, and stores the offset to
841 the first IFD (IFD0 in EXIF) in first_ifd_offset.
847 tiff_init(imtiff *tiff, unsigned char *data, size_t length) {
852 if (length < 8) /* well... would have to be much bigger to be useful */
854 if (data[0] == 'M' && data[1] == 'M')
855 tiff->type = tt_motorola;
856 else if (data[0] == 'I' && data[1] == 'I')
857 tiff->type = tt_intel;
859 return 0; /* invalid header */
861 version = tiff_get16(tiff, 2);
865 tiff->first_ifd_offset = tiff_get32(tiff, 4);
866 if (tiff->first_ifd_offset > length || tiff->first_ifd_offset < 8)
881 Clean up the tiff structure initialized by tiff_init()
887 tiff_final(imtiff *tiff) {
888 tiff_clear_ifd(tiff);
894 if (tiff_load_ifd(tiff, offset)) {
898 Loads the IFD from the given offset into the tiff objects ifd.
900 This can fail if the IFD extends beyond end of file, or if any data
901 offsets combined with their sizes, extends beyond end of file.
903 Returns true on success.
909 tiff_load_ifd(imtiff *tiff, unsigned long offset) {
912 ifd_entry *entries = NULL;
916 tiff_clear_ifd(tiff);
918 /* rough check count + 1 entry + next offset */
919 if (offset + (2+12+4) > tiff->size) {
920 mm_log((2, "offset %uld beyond end off Exif block"));
924 count = tiff_get16(tiff, offset);
926 /* check we can fit the whole thing */
927 ifd_size = 2 + count * 12 + 4; /* count + count entries + next offset */
928 if (offset + ifd_size > tiff->size) {
929 mm_log((2, "offset %uld beyond end off Exif block"));
933 entries = mymalloc(count * sizeof(ifd_entry));
934 memset(entries, 0, count * sizeof(ifd_entry));
936 for (i = 0; i < count; ++i) {
937 ifd_entry *entry = entries + i;
938 entry->tag = tiff_get16(tiff, base);
939 entry->type = tiff_get16(tiff, base+2);
940 entry->count = tiff_get32(tiff, base+4);
941 if (entry->type >= 1 && entry->type <= ift_last) {
942 entry->item_size = type_sizes[entry->type];
943 entry->size = entry->item_size * entry->count;
944 if (entry->size / entry->item_size != entry->count) {
946 mm_log((1, "Integer overflow calculating tag data size processing EXIF block\n"));
949 else if (entry->size <= 4) {
950 entry->offset = base + 8;
953 entry->offset = tiff_get32(tiff, base+8);
954 if (entry->offset + entry->size > tiff->size) {
955 mm_log((2, "Invalid data offset processing IFD\n"));
968 tiff->ifd_size = count;
970 tiff->next_ifd = tiff_get32(tiff, base);
980 Releases any memory associated with the stored IFD and resets the IFD
983 This is called by tiff_load_ifd() and tiff_final().
989 tiff_clear_ifd(imtiff *tiff) {
990 if (tiff->ifd_size && tiff->ifd) {
998 =item tiff_get_tag_double
1001 if (tiff_get_tag(tiff, index, &value)) {
1005 Attempts to retrieve a double value from the given index in the
1008 The value must have a count of 1.
1014 tiff_get_tag_double_array(imtiff *tiff, int index, double *result,
1017 unsigned long offset;
1018 if (index < 0 || index >= tiff->ifd_size) {
1019 i_fatal(3, "tiff_get_tag_double_array() tag index out of range");
1022 entry = tiff->ifd + index;
1023 if (array_index < 0 || array_index >= entry->count) {
1024 mm_log((3, "tiff_get_tag_double_array() array index out of range"));
1028 offset = entry->offset + array_index * entry->item_size;
1030 switch (entry->type) {
1032 *result = tiff_get16(tiff, offset);
1036 *result = tiff_get32(tiff, offset);
1040 *result = tiff_get_rat(tiff, offset);
1044 *result = tiff_get16s(tiff, offset);
1048 *result = tiff_get32s(tiff, offset);
1052 *result = tiff_get_rats(tiff, offset);
1056 *result = *(tiff->base + offset);
1064 =item tiff_get_tag_double
1067 if (tiff_get_tag(tiff, index, &value)) {
1071 Attempts to retrieve a double value from the given index in the
1074 The value must have a count of 1.
1080 tiff_get_tag_double(imtiff *tiff, int index, double *result) {
1082 if (index < 0 || index >= tiff->ifd_size) {
1083 i_fatal(3, "tiff_get_tag_double() index out of range");
1086 entry = tiff->ifd + index;
1087 if (entry->count != 1) {
1088 mm_log((3, "tiff_get_tag_double() called on tag with multiple values"));
1092 return tiff_get_tag_double_array(tiff, index, result, 0);
1096 =item tiff_get_tag_int_array
1099 if (tiff_get_tag_int_array(tiff, index, &value, array_index)) {
1103 Attempts to retrieve an integer value from the given index in the
1110 tiff_get_tag_int_array(imtiff *tiff, int index, int *result, int array_index) {
1112 unsigned long offset;
1113 if (index < 0 || index >= tiff->ifd_size) {
1114 i_fatal(3, "tiff_get_tag_int_array() tag index out of range");
1117 entry = tiff->ifd + index;
1118 if (array_index < 0 || array_index >= entry->count) {
1119 i_fatal(3, "tiff_get_tag_int_array() array index out of range");
1122 offset = entry->offset + array_index * entry->item_size;
1124 switch (entry->type) {
1126 *result = tiff_get16(tiff, offset);
1130 *result = tiff_get32(tiff, offset);
1134 *result = tiff_get16s(tiff, offset);
1138 *result = tiff_get32s(tiff, offset);
1142 *result = *(tiff->base + offset);
1150 =item tiff_get_tag_int
1153 if (tiff_get_tag_int(tiff, index, &value)) {
1157 Attempts to retrieve an integer value from the given index in the
1160 The value must have a count of 1.
1166 tiff_get_tag_int(imtiff *tiff, int index, int *result) {
1168 if (index < 0 || index >= tiff->ifd_size) {
1169 i_fatal(3, "tiff_get_tag_int() index out of range");
1172 entry = tiff->ifd + index;
1173 if (entry->count != 1) {
1174 mm_log((3, "tiff_get_tag_int() called on tag with multiple values"));
1178 return tiff_get_tag_int_array(tiff, index, result, 0);
1184 =head2 Table-based tag setters
1186 This set of functions checks for matches between the current IFD and
1187 tags supplied in an array, when there's a match it sets the
1188 appropriate tag in the image.
1194 Scans the IFD for integer tags and sets them in the image,
1200 copy_int_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count) {
1204 for (tag_index = 0, entry = tiff->ifd;
1205 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
1206 for (i = 0; i < map_count; ++i) {
1208 if (map[i].tag == entry->tag
1209 && tiff_get_tag_int(tiff, tag_index, &value)) {
1210 i_tags_addn(&im->tags, map[i].name, 0, value);
1220 Scans the IFD for rational tags and sets them in the image.
1226 copy_rat_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count) {
1230 for (tag_index = 0, entry = tiff->ifd;
1231 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
1232 for (i = 0; i < map_count; ++i) {
1234 if (map[i].tag == entry->tag
1235 && tiff_get_tag_double(tiff, tag_index, &value)) {
1236 i_tags_set_float2(&im->tags, map[i].name, 0, value, 6);
1244 =item copy_string_tags
1246 Scans the IFD for string tags and sets them in the image.
1252 copy_string_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count) {
1256 for (tag_index = 0, entry = tiff->ifd;
1257 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
1258 for (i = 0; i < map_count; ++i) {
1259 if (map[i].tag == entry->tag) {
1260 int len = entry->type == ift_ascii ? entry->size - 1 : entry->size;
1261 i_tags_add(&im->tags, map[i].name, 0,
1262 (char const *)(tiff->base + entry->offset), len, 0);
1270 =item copy_num_array_tags
1272 Scans the IFD for arrays of numbers and sets them in the image.
1277 /* a more general solution would be better in some ways, but we don't need it */
1278 #define MAX_ARRAY_VALUES 10
1279 #define MAX_ARRAY_STRING (MAX_ARRAY_VALUES * 20)
1282 copy_num_array_tags(i_img *im, imtiff *tiff, tag_map *map, int map_count) {
1283 int i, j, tag_index;
1286 for (tag_index = 0, entry = tiff->ifd;
1287 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
1288 for (i = 0; i < map_count; ++i) {
1289 if (map[i].tag == entry->tag && entry->count <= MAX_ARRAY_VALUES) {
1290 if (entry->type == ift_rational || entry->type == ift_srational) {
1292 char workstr[MAX_ARRAY_STRING];
1294 for (j = 0; j < entry->count; ++j) {
1295 if (!tiff_get_tag_double_array(tiff, tag_index, &value, j)) {
1296 i_fatal(3, "unexpected failure from tiff_get_tag_double_array(..., %d, ..., %d)\n", tag_index, j);
1299 strcat(workstr, " ");
1300 sprintf(workstr + strlen(workstr), "%.6g", value);
1302 i_tags_add(&im->tags, map[i].name, 0, workstr, -1, 0);
1304 else if (entry->type == ift_short || entry->type == ift_long
1305 || entry->type == ift_sshort || entry->type == ift_slong
1306 || entry->type == ift_byte) {
1308 char workstr[MAX_ARRAY_STRING];
1310 for (j = 0; j < entry->count; ++j) {
1311 if (!tiff_get_tag_int_array(tiff, tag_index, &value, j)) {
1312 i_fatal(3, "unexpected failure from tiff_get_tag_int_array(..., %d, ..., %d)\n", tag_index, j);
1315 strcat(workstr, " ");
1316 sprintf(workstr + strlen(workstr), "%d", value);
1318 i_tags_add(&im->tags, map[i].name, 0, workstr, -1, 0);
1327 =item copy_name_tags
1329 This function maps integer values to descriptions for those values.
1331 In general we handle the integer value through copy_int_tags() and
1332 then the same tage with a "_name" suffix here.
1338 copy_name_tags(i_img *im, imtiff *tiff, tag_value_map *map, int map_count) {
1339 int i, j, tag_index;
1342 for (tag_index = 0, entry = tiff->ifd;
1343 tag_index < tiff->ifd_size; ++tag_index, ++entry) {
1344 for (i = 0; i < map_count; ++i) {
1346 if (map[i].tag == entry->tag
1347 && tiff_get_tag_int(tiff, tag_index, &value)) {
1348 tag_map const *found = NULL;
1349 for (j = 0; j < map[i].map_count; ++j) {
1350 if (value == map[i].map[j].tag) {
1351 found = map[i].map + j;
1356 i_tags_add(&im->tags, map[i].name, 0, found->name, -1, 0);
1368 =head2 Low level data access functions
1370 These functions use the byte order in the tiff object to extract
1371 various types of data from the tiff data.
1373 These functions will abort if called with an out of range offset.
1375 The intent is that any offset checks should have been done by the caller.
1381 Retrieve a 16 bit unsigned integer from offset.
1387 tiff_get16(imtiff *tiff, unsigned long offset) {
1388 if (offset + 2 > tiff->size)
1389 i_fatal(3, "attempt to get16 at %uld in %uld image", offset, tiff->size);
1391 if (tiff->type == tt_intel)
1392 return tiff->base[offset] + 0x100 * tiff->base[offset+1];
1394 return tiff->base[offset+1] + 0x100 * tiff->base[offset];
1400 Retrieve a 32-bit unsigned integer from offset.
1406 tiff_get32(imtiff *tiff, unsigned long offset) {
1407 if (offset + 4 > tiff->size)
1408 i_fatal(3, "attempt to get16 at %uld in %uld image", offset, tiff->size);
1410 if (tiff->type == tt_intel)
1411 return tiff->base[offset] + 0x100 * tiff->base[offset+1]
1412 + 0x10000 * tiff->base[offset+2] + 0x1000000 * tiff->base[offset+3];
1414 return tiff->base[offset+3] + 0x100 * tiff->base[offset+2]
1415 + 0x10000 * tiff->base[offset+1] + 0x1000000 * tiff->base[offset];
1418 #if 0 /* currently unused, but that may change */
1421 =item tiff_get_bytes
1423 Retrieve a byte string from offset.
1425 This isn't used much, you can usually deal with the data in-situ.
1426 This is intended for use when you need to modify the data in some way.
1432 tiff_get_bytes(imtiff *tiff, unsigned char *data, size_t offset,
1434 if (offset + size > tiff->size)
1437 memcpy(data, tiff->base+offset, size);
1447 Retrieve a 16-bit signed integer from offset.
1453 tiff_get16s(imtiff *tiff, unsigned long offset) {
1456 if (offset + 2 > tiff->size)
1457 i_fatal(3, "attempt to get16 at %uld in %uld image", offset, tiff->size);
1459 if (tiff->type == tt_intel)
1460 result = tiff->base[offset] + 0x100 * tiff->base[offset+1];
1462 result = tiff->base[offset+1] + 0x100 * tiff->base[offset];
1464 if (result > 0x7FFF)
1473 Retrieve a 32-bit signed integer from offset.
1479 tiff_get32s(imtiff *tiff, unsigned long offset) {
1482 if (offset + 4 > tiff->size)
1483 i_fatal(3, "attempt to get16 at %uld in %uld image", offset, tiff->size);
1485 if (tiff->type == tt_intel)
1486 work = tiff->base[offset] + 0x100 * tiff->base[offset+1]
1487 + 0x10000 * tiff->base[offset+2] + 0x1000000 * tiff->base[offset+3];
1489 work = tiff->base[offset+3] + 0x100 * tiff->base[offset+2]
1490 + 0x10000 * tiff->base[offset+1] + 0x1000000 * tiff->base[offset];
1492 /* not really needed on 32-bit int machines */
1493 if (work > 0x7FFFFFFFUL)
1494 return work - 0x80000000UL;
1502 Retrieve an unsigned rational from offset.
1508 tiff_get_rat(imtiff *tiff, unsigned long offset) {
1509 unsigned long numer, denom;
1510 if (offset + 8 > tiff->size)
1511 i_fatal(3, "attempt to get_rat at %lu in %lu image", offset, tiff->size);
1513 numer = tiff_get32(tiff, offset);
1514 denom = tiff_get32(tiff, offset+4);
1520 return (double)numer / denom;
1526 Retrieve an signed rational from offset.
1532 tiff_get_rats(imtiff *tiff, unsigned long offset) {
1534 if (offset + 8 > tiff->size)
1535 i_fatal(3, "attempt to get_rat at %lu in %lu image", offset, tiff->size);
1537 numer = tiff_get32s(tiff, offset);
1538 denom = tiff_get32s(tiff, offset+4);
1544 return (double)numer / denom;
1554 http://www.exif.org/
1558 Tony Cook <tony@imager.perl.org>
projects / imager.git / blob