1 /*
2 * Copyright (C) 2012 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include <inttypes.h>
18 #include <system/camera_metadata.h>
19 #include <camera_metadata_hidden.h>
20
21 #define LOG_TAG "camera_metadata"
22 #include <cutils/log.h>
23 #include <assert.h>
24 #include <stdio.h>
25 #include <stdlib.h>
26 #include <errno.h>
27
28 #define OK 0
29 #define ERROR 1
30 #define NOT_FOUND -ENOENT
31
32 #define ALIGN_TO(val, alignment) \
33 (((uintptr_t)(val) + ((alignment) - 1)) & ~((alignment) - 1))
34
35 /**
36 * A single metadata entry, storing an array of values of a given type. If the
37 * array is no larger than 4 bytes in size, it is stored in the data.value[]
38 * array; otherwise, it can found in the parent's data array at index
39 * data.offset.
40 */
41 #define ENTRY_ALIGNMENT ((size_t) 4)
42 typedef struct camera_metadata_buffer_entry {
43 uint32_t tag;
44 uint32_t count;
45 union {
46 uint32_t offset;
47 uint8_t value[4];
48 } data;
49 uint8_t type;
50 uint8_t reserved[3];
51 } camera_metadata_buffer_entry_t;
52
53 typedef uint32_t metadata_uptrdiff_t;
54 typedef uint32_t metadata_size_t;
55
56 /**
57 * A packet of metadata. This is a list of entries, each of which may point to
58 * its values stored at an offset in data.
59 *
60 * It is assumed by the utility functions that the memory layout of the packet
61 * is as follows:
62 *
63 * |-----------------------------------------------|
64 * | camera_metadata_t |
65 * | |
66 * |-----------------------------------------------|
67 * | reserved for future expansion |
68 * |-----------------------------------------------|
69 * | camera_metadata_buffer_entry_t #0 |
70 * |-----------------------------------------------|
71 * | .... |
72 * |-----------------------------------------------|
73 * | camera_metadata_buffer_entry_t #entry_count-1 |
74 * |-----------------------------------------------|
75 * | free space for |
76 * | (entry_capacity-entry_count) entries |
77 * |-----------------------------------------------|
78 * | start of camera_metadata.data |
79 * | |
80 * |-----------------------------------------------|
81 * | free space for |
82 * | (data_capacity-data_count) bytes |
83 * |-----------------------------------------------|
84 *
85 * With the total length of the whole packet being camera_metadata.size bytes.
86 *
87 * In short, the entries and data are contiguous in memory after the metadata
88 * header.
89 */
90 #define METADATA_ALIGNMENT ((size_t) 4)
91 struct camera_metadata {
92 metadata_size_t size;
93 uint32_t version;
94 uint32_t flags;
95 metadata_size_t entry_count;
96 metadata_size_t entry_capacity;
97 metadata_uptrdiff_t entries_start; // Offset from camera_metadata
98 metadata_size_t data_count;
99 metadata_size_t data_capacity;
100 metadata_uptrdiff_t data_start; // Offset from camera_metadata
101 uint8_t reserved[];
102 };
103
104 /**
105 * A datum of metadata. This corresponds to camera_metadata_entry_t::data
106 * with the difference that each element is not a pointer. We need to have a
107 * non-pointer type description in order to figure out the largest alignment
108 * requirement for data (DATA_ALIGNMENT).
109 */
110 #define DATA_ALIGNMENT ((size_t) 8)
111 typedef union camera_metadata_data {
112 uint8_t u8;
113 int32_t i32;
114 float f;
115 int64_t i64;
116 double d;
117 camera_metadata_rational_t r;
118 } camera_metadata_data_t;
119
120 /**
121 * The preferred alignment of a packet of camera metadata. In general,
122 * this is the lowest common multiple of the constituents of a metadata
123 * package, i.e, of DATA_ALIGNMENT and ENTRY_ALIGNMENT.
124 */
125 #define MAX_ALIGNMENT(A, B) (((A) > (B)) ? (A) : (B))
126 #define METADATA_PACKET_ALIGNMENT \
127 MAX_ALIGNMENT(MAX_ALIGNMENT(DATA_ALIGNMENT, METADATA_ALIGNMENT), ENTRY_ALIGNMENT);
128
129 /** Versioning information */
130 #define CURRENT_METADATA_VERSION 1
131
132 /** Flag definitions */
133 #define FLAG_SORTED 0x00000001
134
135 /** Tag information */
136
137 typedef struct tag_info {
138 const char *tag_name;
139 uint8_t tag_type;
140 } tag_info_t;
141
142 #include "camera_metadata_tag_info.c"
143
144 const size_t camera_metadata_type_size[NUM_TYPES] = {
145 [TYPE_BYTE] = sizeof(uint8_t),
146 [TYPE_INT32] = sizeof(int32_t),
147 [TYPE_FLOAT] = sizeof(float),
148 [TYPE_INT64] = sizeof(int64_t),
149 [TYPE_DOUBLE] = sizeof(double),
150 [TYPE_RATIONAL] = sizeof(camera_metadata_rational_t)
151 };
152
153 const char *camera_metadata_type_names[NUM_TYPES] = {
154 [TYPE_BYTE] = "byte",
155 [TYPE_INT32] = "int32",
156 [TYPE_FLOAT] = "float",
157 [TYPE_INT64] = "int64",
158 [TYPE_DOUBLE] = "double",
159 [TYPE_RATIONAL] = "rational"
160 };
161
get_entries(const camera_metadata_t * metadata)162 static camera_metadata_buffer_entry_t *get_entries(
163 const camera_metadata_t *metadata) {
164 return (camera_metadata_buffer_entry_t*)
165 ((uint8_t*)metadata + metadata->entries_start);
166 }
167
get_data(const camera_metadata_t * metadata)168 static uint8_t *get_data(const camera_metadata_t *metadata) {
169 return (uint8_t*)metadata + metadata->data_start;
170 }
171
get_camera_metadata_alignment()172 size_t get_camera_metadata_alignment() {
173 return METADATA_PACKET_ALIGNMENT;
174 }
175
allocate_copy_camera_metadata_checked(const camera_metadata_t * src,size_t src_size)176 camera_metadata_t *allocate_copy_camera_metadata_checked(
177 const camera_metadata_t *src,
178 size_t src_size) {
179
180 if (src == NULL) {
181 return NULL;
182 }
183
184 void *buffer = malloc(src_size);
185 memcpy(buffer, src, src_size);
186
187 camera_metadata_t *metadata = (camera_metadata_t*) buffer;
188 if (validate_camera_metadata_structure(metadata, &src_size) != OK) {
189 free(buffer);
190 return NULL;
191 }
192
193 return metadata;
194 }
195
allocate_camera_metadata(size_t entry_capacity,size_t data_capacity)196 camera_metadata_t *allocate_camera_metadata(size_t entry_capacity,
197 size_t data_capacity) {
198
199 size_t memory_needed = calculate_camera_metadata_size(entry_capacity,
200 data_capacity);
201 void *buffer = malloc(memory_needed);
202 return place_camera_metadata(buffer, memory_needed,
203 entry_capacity,
204 data_capacity);
205 }
206
place_camera_metadata(void * dst,size_t dst_size,size_t entry_capacity,size_t data_capacity)207 camera_metadata_t *place_camera_metadata(void *dst,
208 size_t dst_size,
209 size_t entry_capacity,
210 size_t data_capacity) {
211 if (dst == NULL) return NULL;
212
213 size_t memory_needed = calculate_camera_metadata_size(entry_capacity,
214 data_capacity);
215 if (memory_needed > dst_size) return NULL;
216
217 camera_metadata_t *metadata = (camera_metadata_t*)dst;
218 metadata->version = CURRENT_METADATA_VERSION;
219 metadata->flags = 0;
220 metadata->entry_count = 0;
221 metadata->entry_capacity = entry_capacity;
222 metadata->entries_start =
223 ALIGN_TO(sizeof(camera_metadata_t), ENTRY_ALIGNMENT);
224 metadata->data_count = 0;
225 metadata->data_capacity = data_capacity;
226 metadata->size = memory_needed;
227 size_t data_unaligned = (uint8_t*)(get_entries(metadata) +
228 metadata->entry_capacity) - (uint8_t*)metadata;
229 metadata->data_start = ALIGN_TO(data_unaligned, DATA_ALIGNMENT);
230
231 assert(validate_camera_metadata_structure(metadata, NULL) == OK);
232 return metadata;
233 }
free_camera_metadata(camera_metadata_t * metadata)234 void free_camera_metadata(camera_metadata_t *metadata) {
235 free(metadata);
236 }
237
calculate_camera_metadata_size(size_t entry_count,size_t data_count)238 size_t calculate_camera_metadata_size(size_t entry_count,
239 size_t data_count) {
240 size_t memory_needed = sizeof(camera_metadata_t);
241 // Start entry list at aligned boundary
242 memory_needed = ALIGN_TO(memory_needed, ENTRY_ALIGNMENT);
243 memory_needed += sizeof(camera_metadata_buffer_entry_t[entry_count]);
244 // Start buffer list at aligned boundary
245 memory_needed = ALIGN_TO(memory_needed, DATA_ALIGNMENT);
246 memory_needed += sizeof(uint8_t[data_count]);
247 return memory_needed;
248 }
249
get_camera_metadata_size(const camera_metadata_t * metadata)250 size_t get_camera_metadata_size(const camera_metadata_t *metadata) {
251 if (metadata == NULL) return ERROR;
252
253 return metadata->size;
254 }
255
get_camera_metadata_compact_size(const camera_metadata_t * metadata)256 size_t get_camera_metadata_compact_size(const camera_metadata_t *metadata) {
257 if (metadata == NULL) return ERROR;
258
259 return calculate_camera_metadata_size(metadata->entry_count,
260 metadata->data_count);
261 }
262
get_camera_metadata_entry_count(const camera_metadata_t * metadata)263 size_t get_camera_metadata_entry_count(const camera_metadata_t *metadata) {
264 return metadata->entry_count;
265 }
266
get_camera_metadata_entry_capacity(const camera_metadata_t * metadata)267 size_t get_camera_metadata_entry_capacity(const camera_metadata_t *metadata) {
268 return metadata->entry_capacity;
269 }
270
get_camera_metadata_data_count(const camera_metadata_t * metadata)271 size_t get_camera_metadata_data_count(const camera_metadata_t *metadata) {
272 return metadata->data_count;
273 }
274
get_camera_metadata_data_capacity(const camera_metadata_t * metadata)275 size_t get_camera_metadata_data_capacity(const camera_metadata_t *metadata) {
276 return metadata->data_capacity;
277 }
278
copy_camera_metadata(void * dst,size_t dst_size,const camera_metadata_t * src)279 camera_metadata_t* copy_camera_metadata(void *dst, size_t dst_size,
280 const camera_metadata_t *src) {
281 size_t memory_needed = get_camera_metadata_compact_size(src);
282
283 if (dst == NULL) return NULL;
284 if (dst_size < memory_needed) return NULL;
285
286 camera_metadata_t *metadata =
287 place_camera_metadata(dst, dst_size, src->entry_count, src->data_count);
288
289 metadata->flags = src->flags;
290 metadata->entry_count = src->entry_count;
291 metadata->data_count = src->data_count;
292
293 memcpy(get_entries(metadata), get_entries(src),
294 sizeof(camera_metadata_buffer_entry_t[metadata->entry_count]));
295 memcpy(get_data(metadata), get_data(src),
296 sizeof(uint8_t[metadata->data_count]));
297
298 assert(validate_camera_metadata_structure(metadata, NULL) == OK);
299 return metadata;
300 }
301
validate_camera_metadata_structure(const camera_metadata_t * metadata,const size_t * expected_size)302 int validate_camera_metadata_structure(const camera_metadata_t *metadata,
303 const size_t *expected_size) {
304
305 if (metadata == NULL) {
306 ALOGE("%s: metadata is null!", __FUNCTION__);
307 return ERROR;
308 }
309
310 // Check that the metadata pointer is well-aligned first.
311 {
312 static const struct {
313 const char *name;
314 size_t alignment;
315 } alignments[] = {
316 {
317 .name = "camera_metadata",
318 .alignment = METADATA_ALIGNMENT
319 },
320 {
321 .name = "camera_metadata_buffer_entry",
322 .alignment = ENTRY_ALIGNMENT
323 },
324 {
325 .name = "camera_metadata_data",
326 .alignment = DATA_ALIGNMENT
327 },
328 };
329
330 for (size_t i = 0; i < sizeof(alignments)/sizeof(alignments[0]); ++i) {
331 uintptr_t aligned_ptr = ALIGN_TO(metadata, alignments[i].alignment);
332
333 if ((uintptr_t)metadata != aligned_ptr) {
334 ALOGE("%s: Metadata pointer is not aligned (actual %p, "
335 "expected %p) to type %s",
336 __FUNCTION__, metadata,
337 (void*)aligned_ptr, alignments[i].name);
338 return ERROR;
339 }
340 }
341 }
342
343 /**
344 * Check that the metadata contents are correct
345 */
346
347 if (expected_size != NULL && metadata->size > *expected_size) {
348 ALOGE("%s: Metadata size (%" PRIu32 ") should be <= expected size (%zu)",
349 __FUNCTION__, metadata->size, *expected_size);
350 return ERROR;
351 }
352
353 if (metadata->entry_count > metadata->entry_capacity) {
354 ALOGE("%s: Entry count (%" PRIu32 ") should be <= entry capacity "
355 "(%" PRIu32 ")",
356 __FUNCTION__, metadata->entry_count, metadata->entry_capacity);
357 return ERROR;
358 }
359
360 const metadata_uptrdiff_t entries_end =
361 metadata->entries_start + metadata->entry_capacity;
362 if (entries_end < metadata->entries_start || // overflow check
363 entries_end > metadata->data_start) {
364
365 ALOGE("%s: Entry start + capacity (%" PRIu32 ") should be <= data start "
366 "(%" PRIu32 ")",
367 __FUNCTION__,
368 (metadata->entries_start + metadata->entry_capacity),
369 metadata->data_start);
370 return ERROR;
371 }
372
373 const metadata_uptrdiff_t data_end =
374 metadata->data_start + metadata->data_capacity;
375 if (data_end < metadata->data_start || // overflow check
376 data_end > metadata->size) {
377
378 ALOGE("%s: Data start + capacity (%" PRIu32 ") should be <= total size "
379 "(%" PRIu32 ")",
380 __FUNCTION__,
381 (metadata->data_start + metadata->data_capacity),
382 metadata->size);
383 return ERROR;
384 }
385
386 // Validate each entry
387 const metadata_size_t entry_count = metadata->entry_count;
388 camera_metadata_buffer_entry_t *entries = get_entries(metadata);
389
390 for (size_t i = 0; i < entry_count; ++i) {
391
392 if ((uintptr_t)&entries[i] != ALIGN_TO(&entries[i], ENTRY_ALIGNMENT)) {
393 ALOGE("%s: Entry index %zu had bad alignment (address %p),"
394 " expected alignment %zu",
395 __FUNCTION__, i, &entries[i], ENTRY_ALIGNMENT);
396 return ERROR;
397 }
398
399 camera_metadata_buffer_entry_t entry = entries[i];
400
401 if (entry.type >= NUM_TYPES) {
402 ALOGE("%s: Entry index %zu had a bad type %d",
403 __FUNCTION__, i, entry.type);
404 return ERROR;
405 }
406
407 // TODO: fix vendor_tag_ops across processes so we don't need to special
408 // case vendor-specific tags
409 uint32_t tag_section = entry.tag >> 16;
410 int tag_type = get_camera_metadata_tag_type(entry.tag);
411 if (tag_type != (int)entry.type && tag_section < VENDOR_SECTION) {
412 ALOGE("%s: Entry index %zu had tag type %d, but the type was %d",
413 __FUNCTION__, i, tag_type, entry.type);
414 return ERROR;
415 }
416
417 size_t data_size =
418 calculate_camera_metadata_entry_data_size(entry.type,
419 entry.count);
420
421 if (data_size != 0) {
422 camera_metadata_data_t *data =
423 (camera_metadata_data_t*) (get_data(metadata) +
424 entry.data.offset);
425
426 if ((uintptr_t)data != ALIGN_TO(data, DATA_ALIGNMENT)) {
427 ALOGE("%s: Entry index %zu had bad data alignment (address %p),"
428 " expected align %zu, (tag name %s, data size %zu)",
429 __FUNCTION__, i, data, DATA_ALIGNMENT,
430 get_camera_metadata_tag_name(entry.tag) ?: "unknown",
431 data_size);
432 return ERROR;
433 }
434
435 size_t data_entry_end = entry.data.offset + data_size;
436 if (data_entry_end < entry.data.offset || // overflow check
437 data_entry_end > metadata->data_capacity) {
438
439 ALOGE("%s: Entry index %zu data ends (%zu) beyond the capacity "
440 "%" PRIu32, __FUNCTION__, i, data_entry_end,
441 metadata->data_capacity);
442 return ERROR;
443 }
444
445 } else if (entry.count == 0) {
446 if (entry.data.offset != 0) {
447 ALOGE("%s: Entry index %zu had 0 items, but offset was non-0 "
448 "(%" PRIu32 "), tag name: %s", __FUNCTION__, i, entry.data.offset,
449 get_camera_metadata_tag_name(entry.tag) ?: "unknown");
450 return ERROR;
451 }
452 } // else data stored inline, so we look at value which can be anything.
453 }
454
455 return OK;
456 }
457
append_camera_metadata(camera_metadata_t * dst,const camera_metadata_t * src)458 int append_camera_metadata(camera_metadata_t *dst,
459 const camera_metadata_t *src) {
460 if (dst == NULL || src == NULL ) return ERROR;
461
462 if (dst->entry_capacity < src->entry_count + dst->entry_count) return ERROR;
463 if (dst->data_capacity < src->data_count + dst->data_count) return ERROR;
464
465 memcpy(get_entries(dst) + dst->entry_count, get_entries(src),
466 sizeof(camera_metadata_buffer_entry_t[src->entry_count]));
467 memcpy(get_data(dst) + dst->data_count, get_data(src),
468 sizeof(uint8_t[src->data_count]));
469 if (dst->data_count != 0) {
470 camera_metadata_buffer_entry_t *entry = get_entries(dst) + dst->entry_count;
471 for (size_t i = 0; i < src->entry_count; i++, entry++) {
472 if ( calculate_camera_metadata_entry_data_size(entry->type,
473 entry->count) > 0 ) {
474 entry->data.offset += dst->data_count;
475 }
476 }
477 }
478 if (dst->entry_count == 0) {
479 // Appending onto empty buffer, keep sorted state
480 dst->flags |= src->flags & FLAG_SORTED;
481 } else if (src->entry_count != 0) {
482 // Both src, dst are nonempty, cannot assume sort remains
483 dst->flags &= ~FLAG_SORTED;
484 } else {
485 // Src is empty, keep dst sorted state
486 }
487 dst->entry_count += src->entry_count;
488 dst->data_count += src->data_count;
489
490 assert(validate_camera_metadata_structure(dst, NULL) == OK);
491 return OK;
492 }
493
clone_camera_metadata(const camera_metadata_t * src)494 camera_metadata_t *clone_camera_metadata(const camera_metadata_t *src) {
495 int res;
496 if (src == NULL) return NULL;
497 camera_metadata_t *clone = allocate_camera_metadata(
498 get_camera_metadata_entry_count(src),
499 get_camera_metadata_data_count(src));
500 if (clone != NULL) {
501 res = append_camera_metadata(clone, src);
502 if (res != OK) {
503 free_camera_metadata(clone);
504 clone = NULL;
505 }
506 }
507 assert(validate_camera_metadata_structure(clone, NULL) == OK);
508 return clone;
509 }
510
calculate_camera_metadata_entry_data_size(uint8_t type,size_t data_count)511 size_t calculate_camera_metadata_entry_data_size(uint8_t type,
512 size_t data_count) {
513 if (type >= NUM_TYPES) return 0;
514 size_t data_bytes = data_count *
515 camera_metadata_type_size[type];
516 return data_bytes <= 4 ? 0 : ALIGN_TO(data_bytes, DATA_ALIGNMENT);
517 }
518
add_camera_metadata_entry_raw(camera_metadata_t * dst,uint32_t tag,uint8_t type,const void * data,size_t data_count)519 static int add_camera_metadata_entry_raw(camera_metadata_t *dst,
520 uint32_t tag,
521 uint8_t type,
522 const void *data,
523 size_t data_count) {
524
525 if (dst == NULL) return ERROR;
526 if (dst->entry_count == dst->entry_capacity) return ERROR;
527 if (data_count && data == NULL) return ERROR;
528
529 size_t data_bytes =
530 calculate_camera_metadata_entry_data_size(type, data_count);
531 if (data_bytes + dst->data_count > dst->data_capacity) return ERROR;
532
533 size_t data_payload_bytes =
534 data_count * camera_metadata_type_size[type];
535 camera_metadata_buffer_entry_t *entry = get_entries(dst) + dst->entry_count;
536 memset(entry, 0, sizeof(camera_metadata_buffer_entry_t));
537 entry->tag = tag;
538 entry->type = type;
539 entry->count = data_count;
540
541 if (data_bytes == 0) {
542 memcpy(entry->data.value, data,
543 data_payload_bytes);
544 } else {
545 entry->data.offset = dst->data_count;
546 memcpy(get_data(dst) + entry->data.offset, data,
547 data_payload_bytes);
548 dst->data_count += data_bytes;
549 }
550 dst->entry_count++;
551 dst->flags &= ~FLAG_SORTED;
552 assert(validate_camera_metadata_structure(dst, NULL) == OK);
553 return OK;
554 }
555
add_camera_metadata_entry(camera_metadata_t * dst,uint32_t tag,const void * data,size_t data_count)556 int add_camera_metadata_entry(camera_metadata_t *dst,
557 uint32_t tag,
558 const void *data,
559 size_t data_count) {
560
561 int type = get_camera_metadata_tag_type(tag);
562 if (type == -1) {
563 ALOGE("%s: Unknown tag %04x.", __FUNCTION__, tag);
564 return ERROR;
565 }
566
567 return add_camera_metadata_entry_raw(dst,
568 tag,
569 type,
570 data,
571 data_count);
572 }
573
compare_entry_tags(const void * p1,const void * p2)574 static int compare_entry_tags(const void *p1, const void *p2) {
575 uint32_t tag1 = ((camera_metadata_buffer_entry_t*)p1)->tag;
576 uint32_t tag2 = ((camera_metadata_buffer_entry_t*)p2)->tag;
577 return tag1 < tag2 ? -1 :
578 tag1 == tag2 ? 0 :
579 1;
580 }
581
sort_camera_metadata(camera_metadata_t * dst)582 int sort_camera_metadata(camera_metadata_t *dst) {
583 if (dst == NULL) return ERROR;
584 if (dst->flags & FLAG_SORTED) return OK;
585
586 qsort(get_entries(dst), dst->entry_count,
587 sizeof(camera_metadata_buffer_entry_t),
588 compare_entry_tags);
589 dst->flags |= FLAG_SORTED;
590
591 assert(validate_camera_metadata_structure(dst, NULL) == OK);
592 return OK;
593 }
594
get_camera_metadata_entry(camera_metadata_t * src,size_t index,camera_metadata_entry_t * entry)595 int get_camera_metadata_entry(camera_metadata_t *src,
596 size_t index,
597 camera_metadata_entry_t *entry) {
598 if (src == NULL || entry == NULL) return ERROR;
599 if (index >= src->entry_count) return ERROR;
600
601 camera_metadata_buffer_entry_t *buffer_entry = get_entries(src) + index;
602
603 entry->index = index;
604 entry->tag = buffer_entry->tag;
605 entry->type = buffer_entry->type;
606 entry->count = buffer_entry->count;
607 if (buffer_entry->count *
608 camera_metadata_type_size[buffer_entry->type] > 4) {
609 entry->data.u8 = get_data(src) + buffer_entry->data.offset;
610 } else {
611 entry->data.u8 = buffer_entry->data.value;
612 }
613 return OK;
614 }
615
get_camera_metadata_ro_entry(const camera_metadata_t * src,size_t index,camera_metadata_ro_entry_t * entry)616 int get_camera_metadata_ro_entry(const camera_metadata_t *src,
617 size_t index,
618 camera_metadata_ro_entry_t *entry) {
619 return get_camera_metadata_entry((camera_metadata_t*)src, index,
620 (camera_metadata_entry_t*)entry);
621 }
622
find_camera_metadata_entry(camera_metadata_t * src,uint32_t tag,camera_metadata_entry_t * entry)623 int find_camera_metadata_entry(camera_metadata_t *src,
624 uint32_t tag,
625 camera_metadata_entry_t *entry) {
626 if (src == NULL) return ERROR;
627
628 uint32_t index;
629 if (src->flags & FLAG_SORTED) {
630 // Sorted entries, do a binary search
631 camera_metadata_buffer_entry_t *search_entry = NULL;
632 camera_metadata_buffer_entry_t key;
633 key.tag = tag;
634 search_entry = bsearch(&key,
635 get_entries(src),
636 src->entry_count,
637 sizeof(camera_metadata_buffer_entry_t),
638 compare_entry_tags);
639 if (search_entry == NULL) return NOT_FOUND;
640 index = search_entry - get_entries(src);
641 } else {
642 // Not sorted, linear search
643 camera_metadata_buffer_entry_t *search_entry = get_entries(src);
644 for (index = 0; index < src->entry_count; index++, search_entry++) {
645 if (search_entry->tag == tag) {
646 break;
647 }
648 }
649 if (index == src->entry_count) return NOT_FOUND;
650 }
651
652 return get_camera_metadata_entry(src, index,
653 entry);
654 }
655
find_camera_metadata_ro_entry(const camera_metadata_t * src,uint32_t tag,camera_metadata_ro_entry_t * entry)656 int find_camera_metadata_ro_entry(const camera_metadata_t *src,
657 uint32_t tag,
658 camera_metadata_ro_entry_t *entry) {
659 return find_camera_metadata_entry((camera_metadata_t*)src, tag,
660 (camera_metadata_entry_t*)entry);
661 }
662
663
delete_camera_metadata_entry(camera_metadata_t * dst,size_t index)664 int delete_camera_metadata_entry(camera_metadata_t *dst,
665 size_t index) {
666 if (dst == NULL) return ERROR;
667 if (index >= dst->entry_count) return ERROR;
668
669 camera_metadata_buffer_entry_t *entry = get_entries(dst) + index;
670 size_t data_bytes = calculate_camera_metadata_entry_data_size(entry->type,
671 entry->count);
672
673 if (data_bytes > 0) {
674 // Shift data buffer to overwrite deleted data
675 uint8_t *start = get_data(dst) + entry->data.offset;
676 uint8_t *end = start + data_bytes;
677 size_t length = dst->data_count - entry->data.offset - data_bytes;
678 memmove(start, end, length);
679
680 // Update all entry indices to account for shift
681 camera_metadata_buffer_entry_t *e = get_entries(dst);
682 size_t i;
683 for (i = 0; i < dst->entry_count; i++) {
684 if (calculate_camera_metadata_entry_data_size(
685 e->type, e->count) > 0 &&
686 e->data.offset > entry->data.offset) {
687 e->data.offset -= data_bytes;
688 }
689 ++e;
690 }
691 dst->data_count -= data_bytes;
692 }
693 // Shift entry array
694 memmove(entry, entry + 1,
695 sizeof(camera_metadata_buffer_entry_t) *
696 (dst->entry_count - index - 1) );
697 dst->entry_count -= 1;
698
699 assert(validate_camera_metadata_structure(dst, NULL) == OK);
700 return OK;
701 }
702
update_camera_metadata_entry(camera_metadata_t * dst,size_t index,const void * data,size_t data_count,camera_metadata_entry_t * updated_entry)703 int update_camera_metadata_entry(camera_metadata_t *dst,
704 size_t index,
705 const void *data,
706 size_t data_count,
707 camera_metadata_entry_t *updated_entry) {
708 if (dst == NULL) return ERROR;
709 if (index >= dst->entry_count) return ERROR;
710
711 camera_metadata_buffer_entry_t *entry = get_entries(dst) + index;
712
713 size_t data_bytes =
714 calculate_camera_metadata_entry_data_size(entry->type,
715 data_count);
716 size_t data_payload_bytes =
717 data_count * camera_metadata_type_size[entry->type];
718
719 size_t entry_bytes =
720 calculate_camera_metadata_entry_data_size(entry->type,
721 entry->count);
722 if (data_bytes != entry_bytes) {
723 // May need to shift/add to data array
724 if (dst->data_capacity < dst->data_count + data_bytes - entry_bytes) {
725 // No room
726 return ERROR;
727 }
728 if (entry_bytes != 0) {
729 // Remove old data
730 uint8_t *start = get_data(dst) + entry->data.offset;
731 uint8_t *end = start + entry_bytes;
732 size_t length = dst->data_count - entry->data.offset - entry_bytes;
733 memmove(start, end, length);
734 dst->data_count -= entry_bytes;
735
736 // Update all entry indices to account for shift
737 camera_metadata_buffer_entry_t *e = get_entries(dst);
738 size_t i;
739 for (i = 0; i < dst->entry_count; i++) {
740 if (calculate_camera_metadata_entry_data_size(
741 e->type, e->count) > 0 &&
742 e->data.offset > entry->data.offset) {
743 e->data.offset -= entry_bytes;
744 }
745 ++e;
746 }
747 }
748
749 if (data_bytes != 0) {
750 // Append new data
751 entry->data.offset = dst->data_count;
752
753 memcpy(get_data(dst) + entry->data.offset, data, data_payload_bytes);
754 dst->data_count += data_bytes;
755 }
756 } else if (data_bytes != 0) {
757 // data size unchanged, reuse same data location
758 memcpy(get_data(dst) + entry->data.offset, data, data_payload_bytes);
759 }
760
761 if (data_bytes == 0) {
762 // Data fits into entry
763 memcpy(entry->data.value, data,
764 data_payload_bytes);
765 }
766
767 entry->count = data_count;
768
769 if (updated_entry != NULL) {
770 get_camera_metadata_entry(dst,
771 index,
772 updated_entry);
773 }
774
775 assert(validate_camera_metadata_structure(dst, NULL) == OK);
776 return OK;
777 }
778
779 static const vendor_tag_ops_t *vendor_tag_ops = NULL;
780
get_camera_metadata_section_name(uint32_t tag)781 const char *get_camera_metadata_section_name(uint32_t tag) {
782 uint32_t tag_section = tag >> 16;
783 if (tag_section >= VENDOR_SECTION && vendor_tag_ops != NULL) {
784 return vendor_tag_ops->get_section_name(
785 vendor_tag_ops,
786 tag);
787 }
788 if (tag_section >= ANDROID_SECTION_COUNT) {
789 return NULL;
790 }
791 return camera_metadata_section_names[tag_section];
792 }
793
get_camera_metadata_tag_name(uint32_t tag)794 const char *get_camera_metadata_tag_name(uint32_t tag) {
795 uint32_t tag_section = tag >> 16;
796 if (tag_section >= VENDOR_SECTION && vendor_tag_ops != NULL) {
797 return vendor_tag_ops->get_tag_name(
798 vendor_tag_ops,
799 tag);
800 }
801 if (tag_section >= ANDROID_SECTION_COUNT ||
802 tag >= camera_metadata_section_bounds[tag_section][1] ) {
803 return NULL;
804 }
805 uint32_t tag_index = tag & 0xFFFF;
806 return tag_info[tag_section][tag_index].tag_name;
807 }
808
get_camera_metadata_tag_type(uint32_t tag)809 int get_camera_metadata_tag_type(uint32_t tag) {
810 uint32_t tag_section = tag >> 16;
811 if (tag_section >= VENDOR_SECTION && vendor_tag_ops != NULL) {
812 return vendor_tag_ops->get_tag_type(
813 vendor_tag_ops,
814 tag);
815 }
816 if (tag_section >= ANDROID_SECTION_COUNT ||
817 tag >= camera_metadata_section_bounds[tag_section][1] ) {
818 return -1;
819 }
820 uint32_t tag_index = tag & 0xFFFF;
821 return tag_info[tag_section][tag_index].tag_type;
822 }
823
set_camera_metadata_vendor_tag_ops(const vendor_tag_query_ops_t * ops)824 int set_camera_metadata_vendor_tag_ops(const vendor_tag_query_ops_t* ops) {
825 // **DEPRECATED**
826 (void) ops;
827 ALOGE("%s: This function has been deprecated", __FUNCTION__);
828 return ERROR;
829 }
830
831 // Declared in system/media/private/camera/include/camera_metadata_hidden.h
set_camera_metadata_vendor_ops(const vendor_tag_ops_t * ops)832 int set_camera_metadata_vendor_ops(const vendor_tag_ops_t* ops) {
833 vendor_tag_ops = ops;
834 return OK;
835 }
836
837 static void print_data(int fd, const uint8_t *data_ptr, uint32_t tag, int type,
838 int count,
839 int indentation);
840
dump_camera_metadata(const camera_metadata_t * metadata,int fd,int verbosity)841 void dump_camera_metadata(const camera_metadata_t *metadata,
842 int fd,
843 int verbosity) {
844 dump_indented_camera_metadata(metadata, fd, verbosity, 0);
845 }
846
dump_indented_camera_metadata(const camera_metadata_t * metadata,int fd,int verbosity,int indentation)847 void dump_indented_camera_metadata(const camera_metadata_t *metadata,
848 int fd,
849 int verbosity,
850 int indentation) {
851 if (metadata == NULL) {
852 dprintf(fd, "%*sDumping camera metadata array: Not allocated\n",
853 indentation, "");
854 return;
855 }
856 unsigned int i;
857 dprintf(fd,
858 "%*sDumping camera metadata array: %" PRIu32 " / %" PRIu32 " entries, "
859 "%" PRIu32 " / %" PRIu32 " bytes of extra data.\n", indentation, "",
860 metadata->entry_count, metadata->entry_capacity,
861 metadata->data_count, metadata->data_capacity);
862 dprintf(fd, "%*sVersion: %d, Flags: %08x\n",
863 indentation + 2, "",
864 metadata->version, metadata->flags);
865 camera_metadata_buffer_entry_t *entry = get_entries(metadata);
866 for (i=0; i < metadata->entry_count; i++, entry++) {
867
868 const char *tag_name, *tag_section;
869 tag_section = get_camera_metadata_section_name(entry->tag);
870 if (tag_section == NULL) {
871 tag_section = "unknownSection";
872 }
873 tag_name = get_camera_metadata_tag_name(entry->tag);
874 if (tag_name == NULL) {
875 tag_name = "unknownTag";
876 }
877 const char *type_name;
878 if (entry->type >= NUM_TYPES) {
879 type_name = "unknown";
880 } else {
881 type_name = camera_metadata_type_names[entry->type];
882 }
883 dprintf(fd, "%*s%s.%s (%05x): %s[%" PRIu32 "]\n",
884 indentation + 2, "",
885 tag_section,
886 tag_name,
887 entry->tag,
888 type_name,
889 entry->count);
890
891 if (verbosity < 1) continue;
892
893 if (entry->type >= NUM_TYPES) continue;
894
895 size_t type_size = camera_metadata_type_size[entry->type];
896 uint8_t *data_ptr;
897 if ( type_size * entry->count > 4 ) {
898 if (entry->data.offset >= metadata->data_count) {
899 ALOGE("%s: Malformed entry data offset: %" PRIu32 " (max %" PRIu32 ")",
900 __FUNCTION__,
901 entry->data.offset,
902 metadata->data_count);
903 continue;
904 }
905 data_ptr = get_data(metadata) + entry->data.offset;
906 } else {
907 data_ptr = entry->data.value;
908 }
909 int count = entry->count;
910 if (verbosity < 2 && count > 16) count = 16;
911
912 print_data(fd, data_ptr, entry->tag, entry->type, count, indentation);
913 }
914 }
915
print_data(int fd,const uint8_t * data_ptr,uint32_t tag,int type,int count,int indentation)916 static void print_data(int fd, const uint8_t *data_ptr, uint32_t tag,
917 int type, int count, int indentation) {
918 static int values_per_line[NUM_TYPES] = {
919 [TYPE_BYTE] = 16,
920 [TYPE_INT32] = 4,
921 [TYPE_FLOAT] = 8,
922 [TYPE_INT64] = 2,
923 [TYPE_DOUBLE] = 4,
924 [TYPE_RATIONAL] = 2,
925 };
926 size_t type_size = camera_metadata_type_size[type];
927 char value_string_tmp[CAMERA_METADATA_ENUM_STRING_MAX_SIZE];
928 uint32_t value;
929
930 int lines = count / values_per_line[type];
931 if (count % values_per_line[type] != 0) lines++;
932
933 int index = 0;
934 int j, k;
935 for (j = 0; j < lines; j++) {
936 dprintf(fd, "%*s[", indentation + 4, "");
937 for (k = 0;
938 k < values_per_line[type] && count > 0;
939 k++, count--, index += type_size) {
940
941 switch (type) {
942 case TYPE_BYTE:
943 value = *(data_ptr + index);
944 if (camera_metadata_enum_snprint(tag,
945 value,
946 value_string_tmp,
947 sizeof(value_string_tmp))
948 == OK) {
949 dprintf(fd, "%s ", value_string_tmp);
950 } else {
951 dprintf(fd, "%hhu ",
952 *(data_ptr + index));
953 }
954 break;
955 case TYPE_INT32:
956 value =
957 *(int32_t*)(data_ptr + index);
958 if (camera_metadata_enum_snprint(tag,
959 value,
960 value_string_tmp,
961 sizeof(value_string_tmp))
962 == OK) {
963 dprintf(fd, "%s ", value_string_tmp);
964 } else {
965 dprintf(fd, "%" PRId32 " ",
966 *(int32_t*)(data_ptr + index));
967 }
968 break;
969 case TYPE_FLOAT:
970 dprintf(fd, "%0.8f ",
971 *(float*)(data_ptr + index));
972 break;
973 case TYPE_INT64:
974 dprintf(fd, "%" PRId64 " ",
975 *(int64_t*)(data_ptr + index));
976 break;
977 case TYPE_DOUBLE:
978 dprintf(fd, "%0.8f ",
979 *(double*)(data_ptr + index));
980 break;
981 case TYPE_RATIONAL: {
982 int32_t numerator = *(int32_t*)(data_ptr + index);
983 int32_t denominator = *(int32_t*)(data_ptr + index + 4);
984 dprintf(fd, "(%d / %d) ",
985 numerator, denominator);
986 break;
987 }
988 default:
989 dprintf(fd, "??? ");
990 }
991 }
992 dprintf(fd, "]\n");
993 }
994 }
995