source: azure_iot_hub_f767zi/trunk/azure_iot_sdk/c-utility/src/buffer.c@ 464

Last change on this file since 464 was 464, checked in by coas-nagasima, 3 years ago

WolfSSLとAzure IoT SDKを更新

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1// Copyright (c) Microsoft. All rights reserved.
2// Licensed under the MIT license. See LICENSE file in the project root for full license information.
3
4#include <stdlib.h>
5#include <string.h>
6#include <stdbool.h>
7#include "azure_c_shared_utility/gballoc.h"
8#include "azure_c_shared_utility/buffer_.h"
9#include "azure_c_shared_utility/optimize_size.h"
10#include "azure_c_shared_utility/xlogging.h"
11
12typedef struct BUFFER_TAG
13{
14 unsigned char* buffer;
15 size_t size;
16} BUFFER;
17
18/* Codes_SRS_BUFFER_07_001: [BUFFER_new shall allocate a BUFFER_HANDLE that will contain a NULL unsigned char*.] */
19BUFFER_HANDLE BUFFER_new(void)
20{
21 BUFFER* temp = (BUFFER*)calloc(1, sizeof(BUFFER));
22 /* Codes_SRS_BUFFER_07_002: [BUFFER_new shall return NULL on any error that occurs.] */
23 if (temp != NULL)
24 {
25 temp->buffer = NULL;
26 temp->size = 0;
27 }
28 return (BUFFER_HANDLE)temp;
29}
30
31static int BUFFER_safemalloc(BUFFER* handleptr, size_t size)
32{
33 int result;
34 size_t sizetomalloc = size;
35 if (size == 0)
36 {
37 sizetomalloc = 1;
38 }
39 handleptr->buffer = (unsigned char*)malloc(sizetomalloc);
40 if (handleptr->buffer == NULL)
41 {
42 /*Codes_SRS_BUFFER_02_003: [If allocating memory fails, then BUFFER_create shall return NULL.]*/
43 LogError("Failure allocating data");
44 result = MU_FAILURE;
45 }
46 else
47 {
48 // we still consider the real buffer size is 0
49 handleptr->size = size;
50 result = 0;
51 }
52 return result;
53}
54
55BUFFER_HANDLE BUFFER_create(const unsigned char* source, size_t size)
56{
57 BUFFER* result;
58 /*Codes_SRS_BUFFER_02_001: [If source is NULL then BUFFER_create shall return NULL.]*/
59 if (source == NULL)
60 {
61 LogError("invalid parameter source: %p", source);
62 result = NULL;
63 }
64 else
65 {
66 /*Codes_SRS_BUFFER_02_002: [Otherwise, BUFFER_create shall allocate memory to hold size bytes and shall copy from source size bytes into the newly allocated memory.] */
67 result = (BUFFER*)calloc(1, sizeof(BUFFER));
68 if (result == NULL)
69 {
70 /*Codes_SRS_BUFFER_02_003: [If allocating memory fails, then BUFFER_create shall return NULL.] */
71 /*fallthrough*/
72 LogError("Failure allocating BUFFER structure");
73 }
74 else
75 {
76 /* Codes_SRS_BUFFER_02_005: [If size parameter is 0 then 1 byte of memory shall be allocated yet size of the buffer shall be set to 0.]*/
77 if (BUFFER_safemalloc(result, size) != 0)
78 {
79 LogError("unable to BUFFER_safemalloc ");
80 free(result);
81 result = NULL;
82 }
83 else
84 {
85 /*Codes_SRS_BUFFER_02_004: [Otherwise, BUFFER_create shall return a non-NULL handle.] */
86 (void)memcpy(result->buffer, source, size);
87 }
88 }
89 }
90 return (BUFFER_HANDLE)result;
91}
92
93// Codes_SRS_BUFFER_07_029: [ BUFFER_create_with_size shall create a BUFFER_HANDLE with a pre allocated underlying buffer size.]
94BUFFER_HANDLE BUFFER_create_with_size(size_t buff_size)
95{
96 BUFFER* result;
97 result = (BUFFER*)calloc(1, sizeof(BUFFER));
98 if (result != NULL)
99 {
100 if (buff_size == 0)
101 {
102 // Codes_SRS_BUFFER_07_030: [ If buff_size is 0 BUFFER_create_with_size shall create a valid non-NULL handle of zero size. ]
103 result->size = 0;
104 result->buffer = NULL;
105 }
106 else
107 {
108 // Codes_SRS_BUFFER_07_031: [ BUFFER_create_with_size shall allocate a buffer of buff_size. ]
109 result->size = buff_size;
110 if ((result->buffer = (unsigned char*)malloc(result->size)) == NULL)
111 {
112 // Codes_SRS_BUFFER_07_032: [ If allocating memory fails, then BUFFER_create_with_size shall return NULL. ]
113 LogError("unable to allocate buffer");
114 free(result);
115 result = NULL;
116 }
117 }
118 }
119 else
120 {
121 // Codes_SRS_BUFFER_07_032: [ If allocating memory fails, then BUFFER_create_with_size shall return NULL. ]
122 LogError("unable to allocate BUFFER");
123 }
124 // Codes_SRS_BUFFER_07_033: [ Otherwise, BUFFER_create_with_size shall return a non-NULL handle. ]
125 return (BUFFER_HANDLE)result;
126}
127
128/* Codes_SRS_BUFFER_07_003: [BUFFER_delete shall delete the data associated with the BUFFER_HANDLE along with the Buffer.] */
129void BUFFER_delete(BUFFER_HANDLE handle)
130{
131 /* Codes_SRS_BUFFER_07_004: [BUFFER_delete shall not delete any BUFFER_HANDLE that is NULL.] */
132 if (handle != NULL)
133 {
134 BUFFER* b = (BUFFER*)handle;
135 if (b->buffer != NULL)
136 {
137 /* Codes_SRS_BUFFER_07_003: [BUFFER_delete shall delete the data associated with the BUFFER_HANDLE along with the Buffer.] */
138 free(b->buffer);
139 }
140 free(b);
141 }
142}
143
144/*return 0 if the buffer was copied*/
145/*else return different than zero*/
146/* Codes_SRS_BUFFER_07_008: [BUFFER_build allocates size_t bytes, copies the unsigned char* into the buffer and returns zero on success.] */
147int BUFFER_build(BUFFER_HANDLE handle, const unsigned char* source, size_t size)
148{
149 int result;
150 if (handle == NULL)
151 {
152 /* Codes_SRS_BUFFER_07_009: [BUFFER_build shall return nonzero if handle is NULL ] */
153 result = MU_FAILURE;
154 }
155 /* Codes_SRS_BUFFER_01_002: [The size argument can be zero, in which case the underlying buffer held by the buffer instance shall be freed.] */
156 else if (size == 0)
157 {
158 /* Codes_SRS_BUFFER_01_003: [If size is zero, source can be NULL.] */
159 BUFFER* b = (BUFFER*)handle;
160 free(b->buffer);
161 b->buffer = NULL;
162 b->size = 0;
163
164 result = 0;
165 }
166 else
167 {
168 if (source == NULL)
169 {
170 /* Codes_SRS_BUFFER_01_001: [If size is positive and source is NULL, BUFFER_build shall return nonzero] */
171 result = MU_FAILURE;
172 }
173 else
174 {
175 BUFFER* b = (BUFFER*)handle;
176 /* Codes_SRS_BUFFER_07_011: [BUFFER_build shall overwrite previous contents if the buffer has been previously allocated.] */
177 unsigned char* newBuffer = (unsigned char*)realloc(b->buffer, size);
178 if (newBuffer == NULL)
179 {
180 /* Codes_SRS_BUFFER_07_010: [BUFFER_build shall return nonzero if any error is encountered.] */
181 LogError("Failure reallocating buffer");
182 result = MU_FAILURE;
183 }
184 else
185 {
186 b->buffer = newBuffer;
187 b->size = size;
188 /* Codes_SRS_BUFFER_01_002: [The size argument can be zero, in which case nothing shall be copied from source.] */
189 (void)memcpy(b->buffer, source, size);
190
191 result = 0;
192 }
193 }
194 }
195
196 return result;
197}
198
199int BUFFER_append_build(BUFFER_HANDLE handle, const unsigned char* source, size_t size)
200{
201 int result;
202 if (handle == NULL || source == NULL || size == 0)
203 {
204 /* Codes_SRS_BUFFER_07_029: [ BUFFER_append_build shall return nonzero if handle or source are NULL or if size is 0. ] */
205 LogError("BUFFER_append_build failed invalid parameter handle: %p, source: %p, size: %lu", handle, source, (unsigned long)size);
206 result = MU_FAILURE;
207 }
208 else
209 {
210 if (handle->buffer == NULL)
211 {
212 /* Codes_SRS_BUFFER_07_030: [ if handle->buffer is NULL BUFFER_append_build shall allocate the a buffer of size bytes... ] */
213 if (BUFFER_safemalloc(handle, size) != 0)
214 {
215 /* Codes_SRS_BUFFER_07_035: [ If any error is encountered BUFFER_append_build shall return a non-null value. ] */
216 LogError("Failure with BUFFER_safemalloc");
217 result = MU_FAILURE;
218 }
219 else
220 {
221 /* Codes_SRS_BUFFER_07_031: [ ... and copy the contents of source to handle->buffer. ] */
222 (void)memcpy(handle->buffer, source, size);
223 /* Codes_SRS_BUFFER_07_034: [ On success BUFFER_append_build shall return 0 ] */
224 result = 0;
225 }
226 }
227 else
228 {
229 /* Codes_SRS_BUFFER_07_032: [ if handle->buffer is not NULL BUFFER_append_build shall realloc the buffer to be the handle->size + size ] */
230 unsigned char* temp = (unsigned char*)realloc(handle->buffer, handle->size + size);
231 if (temp == NULL)
232 {
233 /* Codes_SRS_BUFFER_07_035: [ If any error is encountered BUFFER_append_build shall return a non-null value. ] */
234 LogError("Failure reallocating temporary buffer");
235 result = MU_FAILURE;
236 }
237 else
238 {
239 /* Codes_SRS_BUFFER_07_033: [ ... and copy the contents of source to the end of the buffer. ] */
240 handle->buffer = temp;
241 // Append the BUFFER
242 (void)memcpy(&handle->buffer[handle->size], source, size);
243 handle->size += size;
244 /* Codes_SRS_BUFFER_07_034: [ On success BUFFER_append_build shall return 0 ] */
245 result = 0;
246 }
247 }
248 }
249 return result;
250}
251
252/*return 0 if the buffer was pre-build(that is, had its space allocated)*/
253/*else return different than zero*/
254/* Codes_SRS_BUFFER_07_005: [BUFFER_pre_build allocates size_t bytes of BUFFER_HANDLE and returns zero on success.] */
255int BUFFER_pre_build(BUFFER_HANDLE handle, size_t size)
256{
257 int result;
258 if (handle == NULL)
259 {
260 /* Codes_SRS_BUFFER_07_006: [If handle is NULL or size is 0 then BUFFER_pre_build shall return a nonzero value.] */
261 result = MU_FAILURE;
262 }
263 else if (size == 0)
264 {
265 /* Codes_SRS_BUFFER_07_006: [If handle is NULL or size is 0 then BUFFER_pre_build shall return a nonzero value.] */
266 result = MU_FAILURE;
267 }
268 else
269 {
270 BUFFER* b = (BUFFER*)handle;
271 if (b->buffer != NULL)
272 {
273 /* Codes_SRS_BUFFER_07_007: [BUFFER_pre_build shall return nonzero if the buffer has been previously allocated and is not NULL.] */
274 LogError("Failure buffer data is NULL");
275 result = MU_FAILURE;
276 }
277 else
278 {
279 if ((b->buffer = (unsigned char*)malloc(size)) == NULL)
280 {
281 /* Codes_SRS_BUFFER_07_013: [BUFFER_pre_build shall return nonzero if any error is encountered.] */
282 LogError("Failure allocating buffer");
283 result = MU_FAILURE;
284 }
285 else
286 {
287 b->size = size;
288 result = 0;
289 }
290 }
291 }
292 return result;
293}
294
295/* Codes_SRS_BUFFER_07_019: [BUFFER_content shall return the data contained within the BUFFER_HANDLE.] */
296int BUFFER_content(BUFFER_HANDLE handle, const unsigned char** content)
297{
298 int result;
299 if ((handle == NULL) || (content == NULL))
300 {
301 /* Codes_SRS_BUFFER_07_020: [If the handle and/or content*is NULL BUFFER_content shall return nonzero.] */
302 result = MU_FAILURE;
303 }
304 else
305 {
306 BUFFER* b = (BUFFER*)handle;
307 *content = b->buffer;
308 result = 0;
309 }
310 return result;
311}
312
313/*return 0 if everything went ok and whatever was built in the buffer was unbuilt*/
314/* Codes_SRS_BUFFER_07_012: [BUFFER_unbuild shall clear the underlying unsigned char* data associated with the BUFFER_HANDLE this will return zero on success.] */
315extern int BUFFER_unbuild(BUFFER_HANDLE handle)
316{
317 int result;
318 if (handle == NULL)
319 {
320 /* Codes_SRS_BUFFER_07_014: [BUFFER_unbuild shall return a nonzero value if BUFFER_HANDLE is NULL.] */
321 LogError("Failure: handle is invalid.");
322 result = MU_FAILURE;
323 }
324 else
325 {
326 BUFFER* b = (BUFFER*)handle;
327 if (b->buffer != NULL)
328 {
329 free(b->buffer);
330 b->buffer = NULL;
331 b->size = 0;
332
333 }
334
335 /* Codes_SRS_BUFFER_07_015: [BUFFER_unbuild shall always return success if the unsigned char* referenced by BUFFER_HANDLE is NULL.] */
336 result = 0;
337 }
338 return result;
339}
340
341/* Codes_SRS_BUFFER_07_016: [BUFFER_enlarge shall increase the size of the unsigned char* referenced by BUFFER_HANDLE.] */
342int BUFFER_enlarge(BUFFER_HANDLE handle, size_t enlargeSize)
343{
344 int result;
345 if (handle == NULL)
346 {
347 /* Codes_SRS_BUFFER_07_017: [BUFFER_enlarge shall return a nonzero result if any parameters are NULL or zero.] */
348 LogError("Failure: handle is invalid.");
349 result = MU_FAILURE;
350 }
351 else if (enlargeSize == 0)
352 {
353 /* Codes_SRS_BUFFER_07_017: [BUFFER_enlarge shall return a nonzero result if any parameters are NULL or zero.] */
354 LogError("Failure: enlargeSize size is 0.");
355 result = MU_FAILURE;
356 }
357 else
358 {
359 BUFFER* b = (BUFFER*)handle;
360 unsigned char* temp = (unsigned char*)realloc(b->buffer, b->size + enlargeSize);
361 if (temp == NULL)
362 {
363 /* Codes_SRS_BUFFER_07_018: [BUFFER_enlarge shall return a nonzero result if any error is encountered.] */
364 LogError("Failure: allocating temp buffer.");
365 result = MU_FAILURE;
366 }
367 else
368 {
369 b->buffer = temp;
370 b->size += enlargeSize;
371 result = 0;
372 }
373 }
374 return result;
375}
376
377int BUFFER_shrink(BUFFER_HANDLE handle, size_t decreaseSize, bool fromEnd)
378{
379 int result;
380 if (handle == NULL)
381 {
382 /* Codes_SRS_BUFFER_07_036: [ if handle is NULL, BUFFER_shrink shall return a non-null value ]*/
383 LogError("Failure: handle is invalid.");
384 result = MU_FAILURE;
385 }
386 else if (decreaseSize == 0)
387 {
388 /* Codes_SRS_BUFFER_07_037: [ If decreaseSize is equal zero, BUFFER_shrink shall return a non-null value ] */
389 LogError("Failure: decrease size is 0.");
390 result = MU_FAILURE;
391 }
392 else if (decreaseSize > handle->size)
393 {
394 /* Codes_SRS_BUFFER_07_038: [ If decreaseSize is less than the size of the buffer, BUFFER_shrink shall return a non-null value ] */
395 LogError("Failure: decrease size is less than buffer size.");
396 result = MU_FAILURE;
397 }
398 else
399 {
400 /* Codes_SRS_BUFFER_07_039: [ BUFFER_shrink shall allocate a temporary buffer of existing buffer size minus decreaseSize. ] */
401 size_t alloc_size = handle->size - decreaseSize;
402 if (alloc_size == 0)
403 {
404 /* Codes_SRS_BUFFER_07_043: [ If the decreaseSize is equal the buffer size , BUFFER_shrink shall deallocate the buffer and set the size to zero. ] */
405 free(handle->buffer);
406 handle->buffer = NULL;
407 handle->size = 0;
408 result = 0;
409 }
410 else
411 {
412 unsigned char* tmp = malloc(alloc_size);
413 if (tmp == NULL)
414 {
415 /* Codes_SRS_BUFFER_07_042: [ If a failure is encountered, BUFFER_shrink shall return a non-null value ] */
416 LogError("Failure: allocating temp buffer.");
417 result = MU_FAILURE;
418 }
419 else
420 {
421 if (fromEnd)
422 {
423 /* Codes_SRS_BUFFER_07_040: [ if the fromEnd variable is true, BUFFER_shrink shall remove the end of the buffer of size decreaseSize. ] */
424 memcpy(tmp, handle->buffer, alloc_size);
425 free(handle->buffer);
426 handle->buffer = tmp;
427 handle->size = alloc_size;
428 result = 0;
429 }
430 else
431 {
432 /* Codes_SRS_BUFFER_07_041: [ if the fromEnd variable is false, BUFFER_shrink shall remove the beginning of the buffer of size decreaseSize. ] */
433 memcpy(tmp, handle->buffer + decreaseSize, alloc_size);
434 free(handle->buffer);
435 handle->buffer = tmp;
436 handle->size = alloc_size;
437 result = 0;
438 }
439 }
440 }
441 }
442 return result;
443}
444
445/* Codes_SRS_BUFFER_07_021: [BUFFER_size shall place the size of the associated buffer in the size variable and return zero on success.] */
446int BUFFER_size(BUFFER_HANDLE handle, size_t* size)
447{
448 int result;
449 if ((handle == NULL) || (size == NULL))
450 {
451 /* Codes_SRS_BUFFER_07_022: [BUFFER_size shall return a nonzero value for any error that is encountered.] */
452 result = MU_FAILURE;
453 }
454 else
455 {
456 BUFFER* b = (BUFFER*)handle;
457 *size = b->size;
458 result = 0;
459 }
460 return result;
461}
462
463/* Codes_SRS_BUFFER_07_024: [BUFFER_append concatenates b2 onto b1 without modifying b2 and shall return zero on success.] */
464int BUFFER_append(BUFFER_HANDLE handle1, BUFFER_HANDLE handle2)
465{
466 int result;
467 if ( (handle1 == NULL) || (handle2 == NULL) || (handle1 == handle2) )
468 {
469 /* Codes_SRS_BUFFER_07_023: [BUFFER_append shall return a nonzero upon any error that is encountered.] */
470 result = MU_FAILURE;
471 }
472 else
473 {
474 BUFFER* b1 = (BUFFER*)handle1;
475 BUFFER* b2 = (BUFFER*)handle2;
476 if (b1->buffer == NULL)
477 {
478 /* Codes_SRS_BUFFER_07_023: [BUFFER_append shall return a nonzero upon any error that is encountered.] */
479 result = MU_FAILURE;
480 }
481 else if (b2->buffer == NULL)
482 {
483 /* Codes_SRS_BUFFER_07_023: [BUFFER_append shall return a nonzero upon any error that is encountered.] */
484 result = MU_FAILURE;
485 }
486 else
487 {
488 if (b2->size ==0)
489 {
490 // b2->size = 0, whatever b1->size is, do nothing
491 result = 0;
492 }
493 else
494 {
495 // b2->size != 0, whatever b1->size is
496 unsigned char* temp = (unsigned char*)realloc(b1->buffer, b1->size + b2->size);
497 if (temp == NULL)
498 {
499 /* Codes_SRS_BUFFER_07_023: [BUFFER_append shall return a nonzero upon any error that is encountered.] */
500 LogError("Failure: allocating temp buffer.");
501 result = MU_FAILURE;
502 }
503 else
504 {
505 /* Codes_SRS_BUFFER_07_024: [BUFFER_append concatenates b2 onto b1 without modifying b2 and shall return zero on success.]*/
506 b1->buffer = temp;
507 // Append the BUFFER
508 (void)memcpy(&b1->buffer[b1->size], b2->buffer, b2->size);
509 b1->size += b2->size;
510 result = 0;
511 }
512 }
513 }
514 }
515 return result;
516}
517
518int BUFFER_prepend(BUFFER_HANDLE handle1, BUFFER_HANDLE handle2)
519{
520 int result;
521 if ((handle1 == NULL) || (handle2 == NULL) || (handle1 == handle2))
522 {
523 /* Codes_SRS_BUFFER_01_005: [ BUFFER_prepend shall return a non-zero upon value any error that is encountered. ]*/
524 result = MU_FAILURE;
525 }
526 else
527 {
528 BUFFER* b1 = (BUFFER*)handle1;
529 BUFFER* b2 = (BUFFER*)handle2;
530 if (b1->buffer == NULL)
531 {
532 /* Codes_SRS_BUFFER_01_005: [ BUFFER_prepend shall return a non-zero upon value any error that is encountered. ]*/
533 result = MU_FAILURE;
534 }
535 else if (b2->buffer == NULL)
536 {
537 /* Codes_SRS_BUFFER_01_005: [ BUFFER_prepend shall return a non-zero upon value any error that is encountered. ]*/
538 result = MU_FAILURE;
539 }
540 else
541 {
542 //put b2 ahead of b1: [b2][b1], return b1
543 if (b2->size == 0)
544 {
545 // do nothing
546 result = 0;
547 }
548 else if (b1->size + b2->size < b2->size)
549 {
550 LogError("Failure: size_t overflow.");
551 result = MU_FAILURE;
552 }
553 else
554 {
555 // b2->size != 0
556 unsigned char* temp = (unsigned char*)malloc(b1->size + b2->size);
557 if (temp == NULL)
558 {
559 /* Codes_SRS_BUFFER_01_005: [ BUFFER_prepend shall return a non-zero upon value any error that is encountered. ]*/
560 LogError("Failure: allocating temp buffer.");
561 result = MU_FAILURE;
562 }
563 else
564 {
565 /* Codes_SRS_BUFFER_01_004: [ BUFFER_prepend concatenates handle1 onto handle2 without modifying handle1 and shall return zero on success. ]*/
566 // Append the BUFFER
567 (void)memcpy(temp, b2->buffer, b2->size);
568 // start from b1->size to append b1
569 (void)memcpy(&temp[b2->size], b1->buffer, b1->size);
570 free(b1->buffer);
571 b1->buffer = temp;
572 b1->size += b2->size;
573 result = 0;
574 }
575 }
576 }
577 }
578 return result;
579}
580
581int BUFFER_fill(BUFFER_HANDLE handle, unsigned char fill_char)
582{
583 int result;
584 if (handle == NULL)
585 {
586 /* Codes_SRS_BUFFER_07_002: [ If handle is NULL BUFFER_fill shall return a non-zero value. ] */
587 LogError("Invalid parameter specified, handle == NULL.");
588 result = MU_FAILURE;
589 }
590 else
591 {
592 size_t index;
593 /* Codes_SRS_BUFFER_07_001: [ BUFFER_fill shall fill the supplied BUFFER_HANDLE with the supplied fill character. ] */
594 BUFFER* buffer_data = (BUFFER*)handle;
595 for (index = 0; index < buffer_data->size; index++)
596 {
597 buffer_data->buffer[index] = fill_char;
598 }
599 result = 0;
600 }
601 return result;
602}
603
604
605/* Codes_SRS_BUFFER_07_025: [BUFFER_u_char shall return a pointer to the underlying unsigned char*.] */
606unsigned char* BUFFER_u_char(BUFFER_HANDLE handle)
607{
608 BUFFER* handleData = (BUFFER*)handle;
609 unsigned char* result;
610 if (handle == NULL || handleData->size == 0)
611 {
612 /* Codes_SRS_BUFFER_07_026: [BUFFER_u_char shall return NULL for any error that is encountered.] */
613 /* Codes_SRS_BUFFER_07_029: [BUFFER_u_char shall return NULL if underlying buffer size is zero.] */
614 result = NULL;
615 }
616 else
617 {
618 result = handleData->buffer;
619 }
620 return result;
621}
622
623/* Codes_SRS_BUFFER_07_027: [BUFFER_length shall return the size of the underlying buffer.] */
624size_t BUFFER_length(BUFFER_HANDLE handle)
625{
626 size_t result;
627 if (handle == NULL)
628 {
629 /* Codes_SRS_BUFFER_07_028: [BUFFER_length shall return zero for any error that is encountered.] */
630 result = 0;
631 }
632 else
633 {
634 BUFFER* b = (BUFFER*)handle;
635 result = b->size;
636 }
637 return result;
638}
639
640BUFFER_HANDLE BUFFER_clone(BUFFER_HANDLE handle)
641{
642 BUFFER_HANDLE result;
643 if (handle == NULL)
644 {
645 result = NULL;
646 }
647 else
648 {
649 BUFFER* suppliedBuff = (BUFFER*)handle;
650 BUFFER* b = (BUFFER*)calloc(1, sizeof(BUFFER));
651 if (b != NULL)
652 {
653 if (BUFFER_safemalloc(b, suppliedBuff->size) != 0)
654 {
655 free(b);
656 LogError("Failure: allocating temp buffer.");
657 result = NULL;
658 }
659 else
660 {
661 (void)memcpy(b->buffer, suppliedBuff->buffer, suppliedBuff->size);
662 b->size = suppliedBuff->size;
663 result = (BUFFER_HANDLE)b;
664 }
665 }
666 else
667 {
668 result = NULL;
669 }
670 }
671 return result;
672}
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