png.c 150 KB

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  1. /* png.c - location for general purpose libpng functions
  2. *
  3. * Last changed in libpng 1.6.19 [November 12, 2015]
  4. * Copyright (c) 1998-2015 Glenn Randers-Pehrson
  5. * (Version 0.96 Copyright (c) 1996, 1997 Andreas Dilger)
  6. * (Version 0.88 Copyright (c) 1995, 1996 Guy Eric Schalnat, Group 42, Inc.)
  7. *
  8. * This code is released under the libpng license.
  9. * For conditions of distribution and use, see the disclaimer
  10. * and license in png.h
  11. */
  12. #include "pngpriv.h"
  13. /* Generate a compiler error if there is an old png.h in the search path. */
  14. typedef png_libpng_version_1_6_20 Your_png_h_is_not_version_1_6_20;
  15. /* Tells libpng that we have already handled the first "num_bytes" bytes
  16. * of the PNG file signature. If the PNG data is embedded into another
  17. * stream we can set num_bytes = 8 so that libpng will not attempt to read
  18. * or write any of the magic bytes before it starts on the IHDR.
  19. */
  20. #ifdef PNG_READ_SUPPORTED
  21. void PNGAPI
  22. png_set_sig_bytes(png_structrp png_ptr, int num_bytes)
  23. {
  24. unsigned int nb = (unsigned int)num_bytes;
  25. png_debug(1, "in png_set_sig_bytes");
  26. if (png_ptr == NULL)
  27. return;
  28. if (num_bytes < 0)
  29. nb = 0;
  30. if (nb > 8)
  31. png_error(png_ptr, "Too many bytes for PNG signature");
  32. png_ptr->sig_bytes = (png_byte)nb;
  33. }
  34. /* Checks whether the supplied bytes match the PNG signature. We allow
  35. * checking less than the full 8-byte signature so that those apps that
  36. * already read the first few bytes of a file to determine the file type
  37. * can simply check the remaining bytes for extra assurance. Returns
  38. * an integer less than, equal to, or greater than zero if sig is found,
  39. * respectively, to be less than, to match, or be greater than the correct
  40. * PNG signature (this is the same behavior as strcmp, memcmp, etc).
  41. */
  42. int PNGAPI
  43. png_sig_cmp(png_const_bytep sig, png_size_t start, png_size_t num_to_check)
  44. {
  45. png_byte png_signature[8] = {137, 80, 78, 71, 13, 10, 26, 10};
  46. if (num_to_check > 8)
  47. num_to_check = 8;
  48. else if (num_to_check < 1)
  49. return (-1);
  50. if (start > 7)
  51. return (-1);
  52. if (start + num_to_check > 8)
  53. num_to_check = 8 - start;
  54. return ((int)(memcmp(&sig[start], &png_signature[start], num_to_check)));
  55. }
  56. #endif /* READ */
  57. #if defined(PNG_READ_SUPPORTED) || defined(PNG_WRITE_SUPPORTED)
  58. /* Function to allocate memory for zlib */
  59. PNG_FUNCTION(voidpf /* PRIVATE */,
  60. png_zalloc,(voidpf png_ptr, uInt items, uInt size),PNG_ALLOCATED)
  61. {
  62. png_alloc_size_t num_bytes = size;
  63. if (png_ptr == NULL)
  64. return NULL;
  65. if (items >= (~(png_alloc_size_t)0)/size)
  66. {
  67. png_warning (png_voidcast(png_structrp, png_ptr),
  68. "Potential overflow in png_zalloc()");
  69. return NULL;
  70. }
  71. num_bytes *= items;
  72. return png_malloc_warn(png_voidcast(png_structrp, png_ptr), num_bytes);
  73. }
  74. /* Function to free memory for zlib */
  75. void /* PRIVATE */
  76. png_zfree(voidpf png_ptr, voidpf ptr)
  77. {
  78. png_free(png_voidcast(png_const_structrp,png_ptr), ptr);
  79. }
  80. /* Reset the CRC variable to 32 bits of 1's. Care must be taken
  81. * in case CRC is > 32 bits to leave the top bits 0.
  82. */
  83. void /* PRIVATE */
  84. png_reset_crc(png_structrp png_ptr)
  85. {
  86. /* The cast is safe because the crc is a 32-bit value. */
  87. png_ptr->crc = (png_uint_32)crc32(0, Z_NULL, 0);
  88. }
  89. /* Calculate the CRC over a section of data. We can only pass as
  90. * much data to this routine as the largest single buffer size. We
  91. * also check that this data will actually be used before going to the
  92. * trouble of calculating it.
  93. */
  94. void /* PRIVATE */
  95. png_calculate_crc(png_structrp png_ptr, png_const_bytep ptr, png_size_t length)
  96. {
  97. int need_crc = 1;
  98. if (PNG_CHUNK_ANCILLARY(png_ptr->chunk_name) != 0)
  99. {
  100. if ((png_ptr->flags & PNG_FLAG_CRC_ANCILLARY_MASK) ==
  101. (PNG_FLAG_CRC_ANCILLARY_USE | PNG_FLAG_CRC_ANCILLARY_NOWARN))
  102. need_crc = 0;
  103. }
  104. else /* critical */
  105. {
  106. if ((png_ptr->flags & PNG_FLAG_CRC_CRITICAL_IGNORE) != 0)
  107. need_crc = 0;
  108. }
  109. /* 'uLong' is defined in zlib.h as unsigned long; this means that on some
  110. * systems it is a 64-bit value. crc32, however, returns 32 bits so the
  111. * following cast is safe. 'uInt' may be no more than 16 bits, so it is
  112. * necessary to perform a loop here.
  113. */
  114. if (need_crc != 0 && length > 0)
  115. {
  116. uLong crc = png_ptr->crc; /* Should never issue a warning */
  117. do
  118. {
  119. uInt safe_length = (uInt)length;
  120. #ifndef __COVERITY__
  121. if (safe_length == 0)
  122. safe_length = (uInt)-1; /* evil, but safe */
  123. #endif
  124. crc = crc32(crc, ptr, safe_length);
  125. /* The following should never issue compiler warnings; if they do the
  126. * target system has characteristics that will probably violate other
  127. * assumptions within the libpng code.
  128. */
  129. ptr += safe_length;
  130. length -= safe_length;
  131. }
  132. while (length > 0);
  133. /* And the following is always safe because the crc is only 32 bits. */
  134. png_ptr->crc = (png_uint_32)crc;
  135. }
  136. }
  137. /* Check a user supplied version number, called from both read and write
  138. * functions that create a png_struct.
  139. */
  140. int
  141. png_user_version_check(png_structrp png_ptr, png_const_charp user_png_ver)
  142. {
  143. /* Libpng versions 1.0.0 and later are binary compatible if the version
  144. * string matches through the second '.'; we must recompile any
  145. * applications that use any older library version.
  146. */
  147. if (user_png_ver != NULL)
  148. {
  149. int i = -1;
  150. int found_dots = 0;
  151. do
  152. {
  153. i++;
  154. if (user_png_ver[i] != PNG_LIBPNG_VER_STRING[i])
  155. png_ptr->flags |= PNG_FLAG_LIBRARY_MISMATCH;
  156. if (user_png_ver[i] == '.')
  157. found_dots++;
  158. } while (found_dots < 2 && user_png_ver[i] != 0 &&
  159. PNG_LIBPNG_VER_STRING[i] != 0);
  160. }
  161. else
  162. png_ptr->flags |= PNG_FLAG_LIBRARY_MISMATCH;
  163. if ((png_ptr->flags & PNG_FLAG_LIBRARY_MISMATCH) != 0)
  164. {
  165. #ifdef PNG_WARNINGS_SUPPORTED
  166. size_t pos = 0;
  167. char m[128];
  168. pos = png_safecat(m, (sizeof m), pos,
  169. "Application built with libpng-");
  170. pos = png_safecat(m, (sizeof m), pos, user_png_ver);
  171. pos = png_safecat(m, (sizeof m), pos, " but running with ");
  172. pos = png_safecat(m, (sizeof m), pos, PNG_LIBPNG_VER_STRING);
  173. PNG_UNUSED(pos)
  174. png_warning(png_ptr, m);
  175. #endif
  176. #ifdef PNG_ERROR_NUMBERS_SUPPORTED
  177. png_ptr->flags = 0;
  178. #endif
  179. return 0;
  180. }
  181. /* Success return. */
  182. return 1;
  183. }
  184. /* Generic function to create a png_struct for either read or write - this
  185. * contains the common initialization.
  186. */
  187. PNG_FUNCTION(png_structp /* PRIVATE */,
  188. png_create_png_struct,(png_const_charp user_png_ver, png_voidp error_ptr,
  189. png_error_ptr error_fn, png_error_ptr warn_fn, png_voidp mem_ptr,
  190. png_malloc_ptr malloc_fn, png_free_ptr free_fn),PNG_ALLOCATED)
  191. {
  192. png_struct create_struct;
  193. # ifdef PNG_SETJMP_SUPPORTED
  194. jmp_buf create_jmp_buf;
  195. # endif
  196. /* This temporary stack-allocated structure is used to provide a place to
  197. * build enough context to allow the user provided memory allocator (if any)
  198. * to be called.
  199. */
  200. memset(&create_struct, 0, (sizeof create_struct));
  201. /* Added at libpng-1.2.6 */
  202. # ifdef PNG_USER_LIMITS_SUPPORTED
  203. create_struct.user_width_max = PNG_USER_WIDTH_MAX;
  204. create_struct.user_height_max = PNG_USER_HEIGHT_MAX;
  205. # ifdef PNG_USER_CHUNK_CACHE_MAX
  206. /* Added at libpng-1.2.43 and 1.4.0 */
  207. create_struct.user_chunk_cache_max = PNG_USER_CHUNK_CACHE_MAX;
  208. # endif
  209. # ifdef PNG_USER_CHUNK_MALLOC_MAX
  210. /* Added at libpng-1.2.43 and 1.4.1, required only for read but exists
  211. * in png_struct regardless.
  212. */
  213. create_struct.user_chunk_malloc_max = PNG_USER_CHUNK_MALLOC_MAX;
  214. # endif
  215. # endif
  216. /* The following two API calls simply set fields in png_struct, so it is safe
  217. * to do them now even though error handling is not yet set up.
  218. */
  219. # ifdef PNG_USER_MEM_SUPPORTED
  220. png_set_mem_fn(&create_struct, mem_ptr, malloc_fn, free_fn);
  221. # else
  222. PNG_UNUSED(mem_ptr)
  223. PNG_UNUSED(malloc_fn)
  224. PNG_UNUSED(free_fn)
  225. # endif
  226. /* (*error_fn) can return control to the caller after the error_ptr is set,
  227. * this will result in a memory leak unless the error_fn does something
  228. * extremely sophisticated. The design lacks merit but is implicit in the
  229. * API.
  230. */
  231. png_set_error_fn(&create_struct, error_ptr, error_fn, warn_fn);
  232. # ifdef PNG_SETJMP_SUPPORTED
  233. if (!setjmp(create_jmp_buf))
  234. # endif
  235. {
  236. # ifdef PNG_SETJMP_SUPPORTED
  237. /* Temporarily fake out the longjmp information until we have
  238. * successfully completed this function. This only works if we have
  239. * setjmp() support compiled in, but it is safe - this stuff should
  240. * never happen.
  241. */
  242. create_struct.jmp_buf_ptr = &create_jmp_buf;
  243. create_struct.jmp_buf_size = 0; /*stack allocation*/
  244. create_struct.longjmp_fn = longjmp;
  245. # endif
  246. /* Call the general version checker (shared with read and write code):
  247. */
  248. if (png_user_version_check(&create_struct, user_png_ver) != 0)
  249. {
  250. png_structrp png_ptr = png_voidcast(png_structrp,
  251. png_malloc_warn(&create_struct, (sizeof *png_ptr)));
  252. if (png_ptr != NULL)
  253. {
  254. /* png_ptr->zstream holds a back-pointer to the png_struct, so
  255. * this can only be done now:
  256. */
  257. create_struct.zstream.zalloc = png_zalloc;
  258. create_struct.zstream.zfree = png_zfree;
  259. create_struct.zstream.opaque = png_ptr;
  260. # ifdef PNG_SETJMP_SUPPORTED
  261. /* Eliminate the local error handling: */
  262. create_struct.jmp_buf_ptr = NULL;
  263. create_struct.jmp_buf_size = 0;
  264. create_struct.longjmp_fn = 0;
  265. # endif
  266. *png_ptr = create_struct;
  267. /* This is the successful return point */
  268. return png_ptr;
  269. }
  270. }
  271. }
  272. /* A longjmp because of a bug in the application storage allocator or a
  273. * simple failure to allocate the png_struct.
  274. */
  275. return NULL;
  276. }
  277. /* Allocate the memory for an info_struct for the application. */
  278. PNG_FUNCTION(png_infop,PNGAPI
  279. png_create_info_struct,(png_const_structrp png_ptr),PNG_ALLOCATED)
  280. {
  281. png_inforp info_ptr;
  282. png_debug(1, "in png_create_info_struct");
  283. if (png_ptr == NULL)
  284. return NULL;
  285. /* Use the internal API that does not (or at least should not) error out, so
  286. * that this call always returns ok. The application typically sets up the
  287. * error handling *after* creating the info_struct because this is the way it
  288. * has always been done in 'example.c'.
  289. */
  290. info_ptr = png_voidcast(png_inforp, png_malloc_base(png_ptr,
  291. (sizeof *info_ptr)));
  292. if (info_ptr != NULL)
  293. memset(info_ptr, 0, (sizeof *info_ptr));
  294. return info_ptr;
  295. }
  296. /* This function frees the memory associated with a single info struct.
  297. * Normally, one would use either png_destroy_read_struct() or
  298. * png_destroy_write_struct() to free an info struct, but this may be
  299. * useful for some applications. From libpng 1.6.0 this function is also used
  300. * internally to implement the png_info release part of the 'struct' destroy
  301. * APIs. This ensures that all possible approaches free the same data (all of
  302. * it).
  303. */
  304. void PNGAPI
  305. png_destroy_info_struct(png_const_structrp png_ptr, png_infopp info_ptr_ptr)
  306. {
  307. png_inforp info_ptr = NULL;
  308. png_debug(1, "in png_destroy_info_struct");
  309. if (png_ptr == NULL)
  310. return;
  311. if (info_ptr_ptr != NULL)
  312. info_ptr = *info_ptr_ptr;
  313. if (info_ptr != NULL)
  314. {
  315. /* Do this first in case of an error below; if the app implements its own
  316. * memory management this can lead to png_free calling png_error, which
  317. * will abort this routine and return control to the app error handler.
  318. * An infinite loop may result if it then tries to free the same info
  319. * ptr.
  320. */
  321. *info_ptr_ptr = NULL;
  322. png_free_data(png_ptr, info_ptr, PNG_FREE_ALL, -1);
  323. memset(info_ptr, 0, (sizeof *info_ptr));
  324. png_free(png_ptr, info_ptr);
  325. }
  326. }
  327. /* Initialize the info structure. This is now an internal function (0.89)
  328. * and applications using it are urged to use png_create_info_struct()
  329. * instead. Use deprecated in 1.6.0, internal use removed (used internally it
  330. * is just a memset).
  331. *
  332. * NOTE: it is almost inconceivable that this API is used because it bypasses
  333. * the user-memory mechanism and the user error handling/warning mechanisms in
  334. * those cases where it does anything other than a memset.
  335. */
  336. PNG_FUNCTION(void,PNGAPI
  337. png_info_init_3,(png_infopp ptr_ptr, png_size_t png_info_struct_size),
  338. PNG_DEPRECATED)
  339. {
  340. png_inforp info_ptr = *ptr_ptr;
  341. png_debug(1, "in png_info_init_3");
  342. if (info_ptr == NULL)
  343. return;
  344. if ((sizeof (png_info)) > png_info_struct_size)
  345. {
  346. *ptr_ptr = NULL;
  347. /* The following line is why this API should not be used: */
  348. free(info_ptr);
  349. info_ptr = png_voidcast(png_inforp, png_malloc_base(NULL,
  350. (sizeof *info_ptr)));
  351. if (info_ptr == NULL)
  352. return;
  353. *ptr_ptr = info_ptr;
  354. }
  355. /* Set everything to 0 */
  356. memset(info_ptr, 0, (sizeof *info_ptr));
  357. }
  358. /* The following API is not called internally */
  359. void PNGAPI
  360. png_data_freer(png_const_structrp png_ptr, png_inforp info_ptr,
  361. int freer, png_uint_32 mask)
  362. {
  363. png_debug(1, "in png_data_freer");
  364. if (png_ptr == NULL || info_ptr == NULL)
  365. return;
  366. if (freer == PNG_DESTROY_WILL_FREE_DATA)
  367. info_ptr->free_me |= mask;
  368. else if (freer == PNG_USER_WILL_FREE_DATA)
  369. info_ptr->free_me &= ~mask;
  370. else
  371. png_error(png_ptr, "Unknown freer parameter in png_data_freer");
  372. }
  373. void PNGAPI
  374. png_free_data(png_const_structrp png_ptr, png_inforp info_ptr, png_uint_32 mask,
  375. int num)
  376. {
  377. png_debug(1, "in png_free_data");
  378. if (png_ptr == NULL || info_ptr == NULL)
  379. return;
  380. #ifdef PNG_TEXT_SUPPORTED
  381. /* Free text item num or (if num == -1) all text items */
  382. if (info_ptr->text != 0 &&
  383. ((mask & PNG_FREE_TEXT) & info_ptr->free_me) != 0)
  384. {
  385. if (num != -1)
  386. {
  387. png_free(png_ptr, info_ptr->text[num].key);
  388. info_ptr->text[num].key = NULL;
  389. }
  390. else
  391. {
  392. int i;
  393. for (i = 0; i < info_ptr->num_text; i++)
  394. png_free(png_ptr, info_ptr->text[i].key);
  395. png_free(png_ptr, info_ptr->text);
  396. info_ptr->text = NULL;
  397. info_ptr->num_text = 0;
  398. }
  399. }
  400. #endif
  401. #ifdef PNG_tRNS_SUPPORTED
  402. /* Free any tRNS entry */
  403. if (((mask & PNG_FREE_TRNS) & info_ptr->free_me) != 0)
  404. {
  405. info_ptr->valid &= ~PNG_INFO_tRNS;
  406. png_free(png_ptr, info_ptr->trans_alpha);
  407. info_ptr->trans_alpha = NULL;
  408. info_ptr->num_trans = 0;
  409. }
  410. #endif
  411. #ifdef PNG_sCAL_SUPPORTED
  412. /* Free any sCAL entry */
  413. if (((mask & PNG_FREE_SCAL) & info_ptr->free_me) != 0)
  414. {
  415. png_free(png_ptr, info_ptr->scal_s_width);
  416. png_free(png_ptr, info_ptr->scal_s_height);
  417. info_ptr->scal_s_width = NULL;
  418. info_ptr->scal_s_height = NULL;
  419. info_ptr->valid &= ~PNG_INFO_sCAL;
  420. }
  421. #endif
  422. #ifdef PNG_pCAL_SUPPORTED
  423. /* Free any pCAL entry */
  424. if (((mask & PNG_FREE_PCAL) & info_ptr->free_me) != 0)
  425. {
  426. png_free(png_ptr, info_ptr->pcal_purpose);
  427. png_free(png_ptr, info_ptr->pcal_units);
  428. info_ptr->pcal_purpose = NULL;
  429. info_ptr->pcal_units = NULL;
  430. if (info_ptr->pcal_params != NULL)
  431. {
  432. int i;
  433. for (i = 0; i < info_ptr->pcal_nparams; i++)
  434. png_free(png_ptr, info_ptr->pcal_params[i]);
  435. png_free(png_ptr, info_ptr->pcal_params);
  436. info_ptr->pcal_params = NULL;
  437. }
  438. info_ptr->valid &= ~PNG_INFO_pCAL;
  439. }
  440. #endif
  441. #ifdef PNG_iCCP_SUPPORTED
  442. /* Free any profile entry */
  443. if (((mask & PNG_FREE_ICCP) & info_ptr->free_me) != 0)
  444. {
  445. png_free(png_ptr, info_ptr->iccp_name);
  446. png_free(png_ptr, info_ptr->iccp_profile);
  447. info_ptr->iccp_name = NULL;
  448. info_ptr->iccp_profile = NULL;
  449. info_ptr->valid &= ~PNG_INFO_iCCP;
  450. }
  451. #endif
  452. #ifdef PNG_sPLT_SUPPORTED
  453. /* Free a given sPLT entry, or (if num == -1) all sPLT entries */
  454. if (info_ptr->splt_palettes != 0 &&
  455. ((mask & PNG_FREE_SPLT) & info_ptr->free_me) != 0)
  456. {
  457. if (num != -1)
  458. {
  459. png_free(png_ptr, info_ptr->splt_palettes[num].name);
  460. png_free(png_ptr, info_ptr->splt_palettes[num].entries);
  461. info_ptr->splt_palettes[num].name = NULL;
  462. info_ptr->splt_palettes[num].entries = NULL;
  463. }
  464. else
  465. {
  466. int i;
  467. for (i = 0; i < info_ptr->splt_palettes_num; i++)
  468. {
  469. png_free(png_ptr, info_ptr->splt_palettes[i].name);
  470. png_free(png_ptr, info_ptr->splt_palettes[i].entries);
  471. }
  472. png_free(png_ptr, info_ptr->splt_palettes);
  473. info_ptr->splt_palettes = NULL;
  474. info_ptr->splt_palettes_num = 0;
  475. info_ptr->valid &= ~PNG_INFO_sPLT;
  476. }
  477. }
  478. #endif
  479. #ifdef PNG_STORE_UNKNOWN_CHUNKS_SUPPORTED
  480. if (info_ptr->unknown_chunks != 0 &&
  481. ((mask & PNG_FREE_UNKN) & info_ptr->free_me) != 0)
  482. {
  483. if (num != -1)
  484. {
  485. png_free(png_ptr, info_ptr->unknown_chunks[num].data);
  486. info_ptr->unknown_chunks[num].data = NULL;
  487. }
  488. else
  489. {
  490. int i;
  491. for (i = 0; i < info_ptr->unknown_chunks_num; i++)
  492. png_free(png_ptr, info_ptr->unknown_chunks[i].data);
  493. png_free(png_ptr, info_ptr->unknown_chunks);
  494. info_ptr->unknown_chunks = NULL;
  495. info_ptr->unknown_chunks_num = 0;
  496. }
  497. }
  498. #endif
  499. #ifdef PNG_hIST_SUPPORTED
  500. /* Free any hIST entry */
  501. if (((mask & PNG_FREE_HIST) & info_ptr->free_me) != 0)
  502. {
  503. png_free(png_ptr, info_ptr->hist);
  504. info_ptr->hist = NULL;
  505. info_ptr->valid &= ~PNG_INFO_hIST;
  506. }
  507. #endif
  508. /* Free any PLTE entry that was internally allocated */
  509. if (((mask & PNG_FREE_PLTE) & info_ptr->free_me) != 0)
  510. {
  511. png_free(png_ptr, info_ptr->palette);
  512. info_ptr->palette = NULL;
  513. info_ptr->valid &= ~PNG_INFO_PLTE;
  514. info_ptr->num_palette = 0;
  515. }
  516. #ifdef PNG_INFO_IMAGE_SUPPORTED
  517. /* Free any image bits attached to the info structure */
  518. if (((mask & PNG_FREE_ROWS) & info_ptr->free_me) != 0)
  519. {
  520. if (info_ptr->row_pointers != 0)
  521. {
  522. png_uint_32 row;
  523. for (row = 0; row < info_ptr->height; row++)
  524. png_free(png_ptr, info_ptr->row_pointers[row]);
  525. png_free(png_ptr, info_ptr->row_pointers);
  526. info_ptr->row_pointers = NULL;
  527. }
  528. info_ptr->valid &= ~PNG_INFO_IDAT;
  529. }
  530. #endif
  531. if (num != -1)
  532. mask &= ~PNG_FREE_MUL;
  533. info_ptr->free_me &= ~mask;
  534. }
  535. #endif /* READ || WRITE */
  536. /* This function returns a pointer to the io_ptr associated with the user
  537. * functions. The application should free any memory associated with this
  538. * pointer before png_write_destroy() or png_read_destroy() are called.
  539. */
  540. png_voidp PNGAPI
  541. png_get_io_ptr(png_const_structrp png_ptr)
  542. {
  543. if (png_ptr == NULL)
  544. return (NULL);
  545. return (png_ptr->io_ptr);
  546. }
  547. #if defined(PNG_READ_SUPPORTED) || defined(PNG_WRITE_SUPPORTED)
  548. # ifdef PNG_STDIO_SUPPORTED
  549. /* Initialize the default input/output functions for the PNG file. If you
  550. * use your own read or write routines, you can call either png_set_read_fn()
  551. * or png_set_write_fn() instead of png_init_io(). If you have defined
  552. * PNG_NO_STDIO or otherwise disabled PNG_STDIO_SUPPORTED, you must use a
  553. * function of your own because "FILE *" isn't necessarily available.
  554. */
  555. void PNGAPI
  556. png_init_io(png_structrp png_ptr, png_FILE_p fp)
  557. {
  558. png_debug(1, "in png_init_io");
  559. if (png_ptr == NULL)
  560. return;
  561. png_ptr->io_ptr = (png_voidp)fp;
  562. }
  563. # endif
  564. # ifdef PNG_SAVE_INT_32_SUPPORTED
  565. /* PNG signed integers are saved in 32-bit 2's complement format. ANSI C-90
  566. * defines a cast of a signed integer to an unsigned integer either to preserve
  567. * the value, if it is positive, or to calculate:
  568. *
  569. * (UNSIGNED_MAX+1) + integer
  570. *
  571. * Where UNSIGNED_MAX is the appropriate maximum unsigned value, so when the
  572. * negative integral value is added the result will be an unsigned value
  573. * correspnding to the 2's complement representation.
  574. */
  575. void PNGAPI
  576. png_save_int_32(png_bytep buf, png_int_32 i)
  577. {
  578. png_save_uint_32(buf, i);
  579. }
  580. # endif
  581. # ifdef PNG_TIME_RFC1123_SUPPORTED
  582. /* Convert the supplied time into an RFC 1123 string suitable for use in
  583. * a "Creation Time" or other text-based time string.
  584. */
  585. int PNGAPI
  586. png_convert_to_rfc1123_buffer(char out[29], png_const_timep ptime)
  587. {
  588. static PNG_CONST char short_months[12][4] =
  589. {"Jan", "Feb", "Mar", "Apr", "May", "Jun",
  590. "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"};
  591. if (out == NULL)
  592. return 0;
  593. if (ptime->year > 9999 /* RFC1123 limitation */ ||
  594. ptime->month == 0 || ptime->month > 12 ||
  595. ptime->day == 0 || ptime->day > 31 ||
  596. ptime->hour > 23 || ptime->minute > 59 ||
  597. ptime->second > 60)
  598. return 0;
  599. {
  600. size_t pos = 0;
  601. char number_buf[5]; /* enough for a four-digit year */
  602. # define APPEND_STRING(string) pos = png_safecat(out, 29, pos, (string))
  603. # define APPEND_NUMBER(format, value)\
  604. APPEND_STRING(PNG_FORMAT_NUMBER(number_buf, format, (value)))
  605. # define APPEND(ch) if (pos < 28) out[pos++] = (ch)
  606. APPEND_NUMBER(PNG_NUMBER_FORMAT_u, (unsigned)ptime->day);
  607. APPEND(' ');
  608. APPEND_STRING(short_months[(ptime->month - 1)]);
  609. APPEND(' ');
  610. APPEND_NUMBER(PNG_NUMBER_FORMAT_u, ptime->year);
  611. APPEND(' ');
  612. APPEND_NUMBER(PNG_NUMBER_FORMAT_02u, (unsigned)ptime->hour);
  613. APPEND(':');
  614. APPEND_NUMBER(PNG_NUMBER_FORMAT_02u, (unsigned)ptime->minute);
  615. APPEND(':');
  616. APPEND_NUMBER(PNG_NUMBER_FORMAT_02u, (unsigned)ptime->second);
  617. APPEND_STRING(" +0000"); /* This reliably terminates the buffer */
  618. PNG_UNUSED (pos)
  619. # undef APPEND
  620. # undef APPEND_NUMBER
  621. # undef APPEND_STRING
  622. }
  623. return 1;
  624. }
  625. # if PNG_LIBPNG_VER < 10700
  626. /* To do: remove the following from libpng-1.7 */
  627. /* Original API that uses a private buffer in png_struct.
  628. * Deprecated because it causes png_struct to carry a spurious temporary
  629. * buffer (png_struct::time_buffer), better to have the caller pass this in.
  630. */
  631. png_const_charp PNGAPI
  632. png_convert_to_rfc1123(png_structrp png_ptr, png_const_timep ptime)
  633. {
  634. if (png_ptr != NULL)
  635. {
  636. /* The only failure above if png_ptr != NULL is from an invalid ptime */
  637. if (png_convert_to_rfc1123_buffer(png_ptr->time_buffer, ptime) == 0)
  638. png_warning(png_ptr, "Ignoring invalid time value");
  639. else
  640. return png_ptr->time_buffer;
  641. }
  642. return NULL;
  643. }
  644. # endif /* LIBPNG_VER < 10700 */
  645. # endif /* TIME_RFC1123 */
  646. #endif /* READ || WRITE */
  647. png_const_charp PNGAPI
  648. png_get_copyright(png_const_structrp png_ptr)
  649. {
  650. PNG_UNUSED(png_ptr) /* Silence compiler warning about unused png_ptr */
  651. #ifdef PNG_STRING_COPYRIGHT
  652. return PNG_STRING_COPYRIGHT
  653. #else
  654. # ifdef __STDC__
  655. return PNG_STRING_NEWLINE \
  656. "libpng version 1.6.20 - December 3, 2015" PNG_STRING_NEWLINE \
  657. "Copyright (c) 1998-2015 Glenn Randers-Pehrson" PNG_STRING_NEWLINE \
  658. "Copyright (c) 1996-1997 Andreas Dilger" PNG_STRING_NEWLINE \
  659. "Copyright (c) 1995-1996 Guy Eric Schalnat, Group 42, Inc." \
  660. PNG_STRING_NEWLINE;
  661. # else
  662. return "libpng version 1.6.20 - December 3, 2015\
  663. Copyright (c) 1998-2015 Glenn Randers-Pehrson\
  664. Copyright (c) 1996-1997 Andreas Dilger\
  665. Copyright (c) 1995-1996 Guy Eric Schalnat, Group 42, Inc.";
  666. # endif
  667. #endif
  668. }
  669. /* The following return the library version as a short string in the
  670. * format 1.0.0 through 99.99.99zz. To get the version of *.h files
  671. * used with your application, print out PNG_LIBPNG_VER_STRING, which
  672. * is defined in png.h.
  673. * Note: now there is no difference between png_get_libpng_ver() and
  674. * png_get_header_ver(). Due to the version_nn_nn_nn typedef guard,
  675. * it is guaranteed that png.c uses the correct version of png.h.
  676. */
  677. png_const_charp PNGAPI
  678. png_get_libpng_ver(png_const_structrp png_ptr)
  679. {
  680. /* Version of *.c files used when building libpng */
  681. return png_get_header_ver(png_ptr);
  682. }
  683. png_const_charp PNGAPI
  684. png_get_header_ver(png_const_structrp png_ptr)
  685. {
  686. /* Version of *.h files used when building libpng */
  687. PNG_UNUSED(png_ptr) /* Silence compiler warning about unused png_ptr */
  688. return PNG_LIBPNG_VER_STRING;
  689. }
  690. png_const_charp PNGAPI
  691. png_get_header_version(png_const_structrp png_ptr)
  692. {
  693. /* Returns longer string containing both version and date */
  694. PNG_UNUSED(png_ptr) /* Silence compiler warning about unused png_ptr */
  695. #ifdef __STDC__
  696. return PNG_HEADER_VERSION_STRING
  697. # ifndef PNG_READ_SUPPORTED
  698. " (NO READ SUPPORT)"
  699. # endif
  700. PNG_STRING_NEWLINE;
  701. #else
  702. return PNG_HEADER_VERSION_STRING;
  703. #endif
  704. }
  705. #ifdef PNG_BUILD_GRAYSCALE_PALETTE_SUPPORTED
  706. /* NOTE: this routine is not used internally! */
  707. /* Build a grayscale palette. Palette is assumed to be 1 << bit_depth
  708. * large of png_color. This lets grayscale images be treated as
  709. * paletted. Most useful for gamma correction and simplification
  710. * of code. This API is not used internally.
  711. */
  712. void PNGAPI
  713. png_build_grayscale_palette(int bit_depth, png_colorp palette)
  714. {
  715. int num_palette;
  716. int color_inc;
  717. int i;
  718. int v;
  719. png_debug(1, "in png_do_build_grayscale_palette");
  720. if (palette == NULL)
  721. return;
  722. switch (bit_depth)
  723. {
  724. case 1:
  725. num_palette = 2;
  726. color_inc = 0xff;
  727. break;
  728. case 2:
  729. num_palette = 4;
  730. color_inc = 0x55;
  731. break;
  732. case 4:
  733. num_palette = 16;
  734. color_inc = 0x11;
  735. break;
  736. case 8:
  737. num_palette = 256;
  738. color_inc = 1;
  739. break;
  740. default:
  741. num_palette = 0;
  742. color_inc = 0;
  743. break;
  744. }
  745. for (i = 0, v = 0; i < num_palette; i++, v += color_inc)
  746. {
  747. palette[i].red = (png_byte)(v & 0xff);
  748. palette[i].green = (png_byte)(v & 0xff);
  749. palette[i].blue = (png_byte)(v & 0xff);
  750. }
  751. }
  752. #endif
  753. #ifdef PNG_SET_UNKNOWN_CHUNKS_SUPPORTED
  754. int PNGAPI
  755. png_handle_as_unknown(png_const_structrp png_ptr, png_const_bytep chunk_name)
  756. {
  757. /* Check chunk_name and return "keep" value if it's on the list, else 0 */
  758. png_const_bytep p, p_end;
  759. if (png_ptr == NULL || chunk_name == NULL || png_ptr->num_chunk_list == 0)
  760. return PNG_HANDLE_CHUNK_AS_DEFAULT;
  761. p_end = png_ptr->chunk_list;
  762. p = p_end + png_ptr->num_chunk_list*5; /* beyond end */
  763. /* The code is the fifth byte after each four byte string. Historically this
  764. * code was always searched from the end of the list, this is no longer
  765. * necessary because the 'set' routine handles duplicate entries correcty.
  766. */
  767. do /* num_chunk_list > 0, so at least one */
  768. {
  769. p -= 5;
  770. if (memcmp(chunk_name, p, 4) == 0)
  771. return p[4];
  772. }
  773. while (p > p_end);
  774. /* This means that known chunks should be processed and unknown chunks should
  775. * be handled according to the value of png_ptr->unknown_default; this can be
  776. * confusing because, as a result, there are two levels of defaulting for
  777. * unknown chunks.
  778. */
  779. return PNG_HANDLE_CHUNK_AS_DEFAULT;
  780. }
  781. #if defined(PNG_READ_UNKNOWN_CHUNKS_SUPPORTED) ||\
  782. defined(PNG_HANDLE_AS_UNKNOWN_SUPPORTED)
  783. int /* PRIVATE */
  784. png_chunk_unknown_handling(png_const_structrp png_ptr, png_uint_32 chunk_name)
  785. {
  786. png_byte chunk_string[5];
  787. PNG_CSTRING_FROM_CHUNK(chunk_string, chunk_name);
  788. return png_handle_as_unknown(png_ptr, chunk_string);
  789. }
  790. #endif /* READ_UNKNOWN_CHUNKS || HANDLE_AS_UNKNOWN */
  791. #endif /* SET_UNKNOWN_CHUNKS */
  792. #ifdef PNG_READ_SUPPORTED
  793. /* This function, added to libpng-1.0.6g, is untested. */
  794. int PNGAPI
  795. png_reset_zstream(png_structrp png_ptr)
  796. {
  797. if (png_ptr == NULL)
  798. return Z_STREAM_ERROR;
  799. /* WARNING: this resets the window bits to the maximum! */
  800. return (inflateReset(&png_ptr->zstream));
  801. }
  802. #endif /* READ */
  803. /* This function was added to libpng-1.0.7 */
  804. png_uint_32 PNGAPI
  805. png_access_version_number(void)
  806. {
  807. /* Version of *.c files used when building libpng */
  808. return((png_uint_32)PNG_LIBPNG_VER);
  809. }
  810. #if defined(PNG_READ_SUPPORTED) || defined(PNG_WRITE_SUPPORTED)
  811. /* Ensure that png_ptr->zstream.msg holds some appropriate error message string.
  812. * If it doesn't 'ret' is used to set it to something appropriate, even in cases
  813. * like Z_OK or Z_STREAM_END where the error code is apparently a success code.
  814. */
  815. void /* PRIVATE */
  816. png_zstream_error(png_structrp png_ptr, int ret)
  817. {
  818. /* Translate 'ret' into an appropriate error string, priority is given to the
  819. * one in zstream if set. This always returns a string, even in cases like
  820. * Z_OK or Z_STREAM_END where the error code is a success code.
  821. */
  822. if (png_ptr->zstream.msg == NULL) switch (ret)
  823. {
  824. default:
  825. case Z_OK:
  826. png_ptr->zstream.msg = PNGZ_MSG_CAST("unexpected zlib return code");
  827. break;
  828. case Z_STREAM_END:
  829. /* Normal exit */
  830. png_ptr->zstream.msg = PNGZ_MSG_CAST("unexpected end of LZ stream");
  831. break;
  832. case Z_NEED_DICT:
  833. /* This means the deflate stream did not have a dictionary; this
  834. * indicates a bogus PNG.
  835. */
  836. png_ptr->zstream.msg = PNGZ_MSG_CAST("missing LZ dictionary");
  837. break;
  838. case Z_ERRNO:
  839. /* gz APIs only: should not happen */
  840. png_ptr->zstream.msg = PNGZ_MSG_CAST("zlib IO error");
  841. break;
  842. case Z_STREAM_ERROR:
  843. /* internal libpng error */
  844. png_ptr->zstream.msg = PNGZ_MSG_CAST("bad parameters to zlib");
  845. break;
  846. case Z_DATA_ERROR:
  847. png_ptr->zstream.msg = PNGZ_MSG_CAST("damaged LZ stream");
  848. break;
  849. case Z_MEM_ERROR:
  850. png_ptr->zstream.msg = PNGZ_MSG_CAST("insufficient memory");
  851. break;
  852. case Z_BUF_ERROR:
  853. /* End of input or output; not a problem if the caller is doing
  854. * incremental read or write.
  855. */
  856. png_ptr->zstream.msg = PNGZ_MSG_CAST("truncated");
  857. break;
  858. case Z_VERSION_ERROR:
  859. png_ptr->zstream.msg = PNGZ_MSG_CAST("unsupported zlib version");
  860. break;
  861. case PNG_UNEXPECTED_ZLIB_RETURN:
  862. /* Compile errors here mean that zlib now uses the value co-opted in
  863. * pngpriv.h for PNG_UNEXPECTED_ZLIB_RETURN; update the switch above
  864. * and change pngpriv.h. Note that this message is "... return",
  865. * whereas the default/Z_OK one is "... return code".
  866. */
  867. png_ptr->zstream.msg = PNGZ_MSG_CAST("unexpected zlib return");
  868. break;
  869. }
  870. }
  871. /* png_convert_size: a PNGAPI but no longer in png.h, so deleted
  872. * at libpng 1.5.5!
  873. */
  874. /* Added at libpng version 1.2.34 and 1.4.0 (moved from pngset.c) */
  875. #ifdef PNG_GAMMA_SUPPORTED /* always set if COLORSPACE */
  876. static int
  877. png_colorspace_check_gamma(png_const_structrp png_ptr,
  878. png_colorspacerp colorspace, png_fixed_point gAMA, int from)
  879. /* This is called to check a new gamma value against an existing one. The
  880. * routine returns false if the new gamma value should not be written.
  881. *
  882. * 'from' says where the new gamma value comes from:
  883. *
  884. * 0: the new gamma value is the libpng estimate for an ICC profile
  885. * 1: the new gamma value comes from a gAMA chunk
  886. * 2: the new gamma value comes from an sRGB chunk
  887. */
  888. {
  889. png_fixed_point gtest;
  890. if ((colorspace->flags & PNG_COLORSPACE_HAVE_GAMMA) != 0 &&
  891. (png_muldiv(&gtest, colorspace->gamma, PNG_FP_1, gAMA) == 0 ||
  892. png_gamma_significant(gtest) != 0))
  893. {
  894. /* Either this is an sRGB image, in which case the calculated gamma
  895. * approximation should match, or this is an image with a profile and the
  896. * value libpng calculates for the gamma of the profile does not match the
  897. * value recorded in the file. The former, sRGB, case is an error, the
  898. * latter is just a warning.
  899. */
  900. if ((colorspace->flags & PNG_COLORSPACE_FROM_sRGB) != 0 || from == 2)
  901. {
  902. png_chunk_report(png_ptr, "gamma value does not match sRGB",
  903. PNG_CHUNK_ERROR);
  904. /* Do not overwrite an sRGB value */
  905. return from == 2;
  906. }
  907. else /* sRGB tag not involved */
  908. {
  909. png_chunk_report(png_ptr, "gamma value does not match libpng estimate",
  910. PNG_CHUNK_WARNING);
  911. return from == 1;
  912. }
  913. }
  914. return 1;
  915. }
  916. void /* PRIVATE */
  917. png_colorspace_set_gamma(png_const_structrp png_ptr,
  918. png_colorspacerp colorspace, png_fixed_point gAMA)
  919. {
  920. /* Changed in libpng-1.5.4 to limit the values to ensure overflow can't
  921. * occur. Since the fixed point representation is asymetrical it is
  922. * possible for 1/gamma to overflow the limit of 21474 and this means the
  923. * gamma value must be at least 5/100000 and hence at most 20000.0. For
  924. * safety the limits here are a little narrower. The values are 0.00016 to
  925. * 6250.0, which are truly ridiculous gamma values (and will produce
  926. * displays that are all black or all white.)
  927. *
  928. * In 1.6.0 this test replaces the ones in pngrutil.c, in the gAMA chunk
  929. * handling code, which only required the value to be >0.
  930. */
  931. png_const_charp errmsg;
  932. if (gAMA < 16 || gAMA > 625000000)
  933. errmsg = "gamma value out of range";
  934. # ifdef PNG_READ_gAMA_SUPPORTED
  935. /* Allow the application to set the gamma value more than once */
  936. else if ((png_ptr->mode & PNG_IS_READ_STRUCT) != 0 &&
  937. (colorspace->flags & PNG_COLORSPACE_FROM_gAMA) != 0)
  938. errmsg = "duplicate";
  939. # endif
  940. /* Do nothing if the colorspace is already invalid */
  941. else if ((colorspace->flags & PNG_COLORSPACE_INVALID) != 0)
  942. return;
  943. else
  944. {
  945. if (png_colorspace_check_gamma(png_ptr, colorspace, gAMA,
  946. 1/*from gAMA*/) != 0)
  947. {
  948. /* Store this gamma value. */
  949. colorspace->gamma = gAMA;
  950. colorspace->flags |=
  951. (PNG_COLORSPACE_HAVE_GAMMA | PNG_COLORSPACE_FROM_gAMA);
  952. }
  953. /* At present if the check_gamma test fails the gamma of the colorspace is
  954. * not updated however the colorspace is not invalidated. This
  955. * corresponds to the case where the existing gamma comes from an sRGB
  956. * chunk or profile. An error message has already been output.
  957. */
  958. return;
  959. }
  960. /* Error exit - errmsg has been set. */
  961. colorspace->flags |= PNG_COLORSPACE_INVALID;
  962. png_chunk_report(png_ptr, errmsg, PNG_CHUNK_WRITE_ERROR);
  963. }
  964. void /* PRIVATE */
  965. png_colorspace_sync_info(png_const_structrp png_ptr, png_inforp info_ptr)
  966. {
  967. if ((info_ptr->colorspace.flags & PNG_COLORSPACE_INVALID) != 0)
  968. {
  969. /* Everything is invalid */
  970. info_ptr->valid &= ~(PNG_INFO_gAMA|PNG_INFO_cHRM|PNG_INFO_sRGB|
  971. PNG_INFO_iCCP);
  972. # ifdef PNG_COLORSPACE_SUPPORTED
  973. /* Clean up the iCCP profile now if it won't be used. */
  974. png_free_data(png_ptr, info_ptr, PNG_FREE_ICCP, -1/*not used*/);
  975. # else
  976. PNG_UNUSED(png_ptr)
  977. # endif
  978. }
  979. else
  980. {
  981. # ifdef PNG_COLORSPACE_SUPPORTED
  982. /* Leave the INFO_iCCP flag set if the pngset.c code has already set
  983. * it; this allows a PNG to contain a profile which matches sRGB and
  984. * yet still have that profile retrievable by the application.
  985. */
  986. if ((info_ptr->colorspace.flags & PNG_COLORSPACE_MATCHES_sRGB) != 0)
  987. info_ptr->valid |= PNG_INFO_sRGB;
  988. else
  989. info_ptr->valid &= ~PNG_INFO_sRGB;
  990. if ((info_ptr->colorspace.flags & PNG_COLORSPACE_HAVE_ENDPOINTS) != 0)
  991. info_ptr->valid |= PNG_INFO_cHRM;
  992. else
  993. info_ptr->valid &= ~PNG_INFO_cHRM;
  994. # endif
  995. if ((info_ptr->colorspace.flags & PNG_COLORSPACE_HAVE_GAMMA) != 0)
  996. info_ptr->valid |= PNG_INFO_gAMA;
  997. else
  998. info_ptr->valid &= ~PNG_INFO_gAMA;
  999. }
  1000. }
  1001. #ifdef PNG_READ_SUPPORTED
  1002. void /* PRIVATE */
  1003. png_colorspace_sync(png_const_structrp png_ptr, png_inforp info_ptr)
  1004. {
  1005. if (info_ptr == NULL) /* reduce code size; check here not in the caller */
  1006. return;
  1007. info_ptr->colorspace = png_ptr->colorspace;
  1008. png_colorspace_sync_info(png_ptr, info_ptr);
  1009. }
  1010. #endif
  1011. #endif /* GAMMA */
  1012. #ifdef PNG_COLORSPACE_SUPPORTED
  1013. /* Added at libpng-1.5.5 to support read and write of true CIEXYZ values for
  1014. * cHRM, as opposed to using chromaticities. These internal APIs return
  1015. * non-zero on a parameter error. The X, Y and Z values are required to be
  1016. * positive and less than 1.0.
  1017. */
  1018. static int
  1019. png_xy_from_XYZ(png_xy *xy, const png_XYZ *XYZ)
  1020. {
  1021. png_int_32 d, dwhite, whiteX, whiteY;
  1022. d = XYZ->red_X + XYZ->red_Y + XYZ->red_Z;
  1023. if (png_muldiv(&xy->redx, XYZ->red_X, PNG_FP_1, d) == 0)
  1024. return 1;
  1025. if (png_muldiv(&xy->redy, XYZ->red_Y, PNG_FP_1, d) == 0)
  1026. return 1;
  1027. dwhite = d;
  1028. whiteX = XYZ->red_X;
  1029. whiteY = XYZ->red_Y;
  1030. d = XYZ->green_X + XYZ->green_Y + XYZ->green_Z;
  1031. if (png_muldiv(&xy->greenx, XYZ->green_X, PNG_FP_1, d) == 0)
  1032. return 1;
  1033. if (png_muldiv(&xy->greeny, XYZ->green_Y, PNG_FP_1, d) == 0)
  1034. return 1;
  1035. dwhite += d;
  1036. whiteX += XYZ->green_X;
  1037. whiteY += XYZ->green_Y;
  1038. d = XYZ->blue_X + XYZ->blue_Y + XYZ->blue_Z;
  1039. if (png_muldiv(&xy->bluex, XYZ->blue_X, PNG_FP_1, d) == 0)
  1040. return 1;
  1041. if (png_muldiv(&xy->bluey, XYZ->blue_Y, PNG_FP_1, d) == 0)
  1042. return 1;
  1043. dwhite += d;
  1044. whiteX += XYZ->blue_X;
  1045. whiteY += XYZ->blue_Y;
  1046. /* The reference white is simply the sum of the end-point (X,Y,Z) vectors,
  1047. * thus:
  1048. */
  1049. if (png_muldiv(&xy->whitex, whiteX, PNG_FP_1, dwhite) == 0)
  1050. return 1;
  1051. if (png_muldiv(&xy->whitey, whiteY, PNG_FP_1, dwhite) == 0)
  1052. return 1;
  1053. return 0;
  1054. }
  1055. static int
  1056. png_XYZ_from_xy(png_XYZ *XYZ, const png_xy *xy)
  1057. {
  1058. png_fixed_point red_inverse, green_inverse, blue_scale;
  1059. png_fixed_point left, right, denominator;
  1060. /* Check xy and, implicitly, z. Note that wide gamut color spaces typically
  1061. * have end points with 0 tristimulus values (these are impossible end
  1062. * points, but they are used to cover the possible colors). We check
  1063. * xy->whitey against 5, not 0, to avoid a possible integer overflow.
  1064. */
  1065. if (xy->redx < 0 || xy->redx > PNG_FP_1) return 1;
  1066. if (xy->redy < 0 || xy->redy > PNG_FP_1-xy->redx) return 1;
  1067. if (xy->greenx < 0 || xy->greenx > PNG_FP_1) return 1;
  1068. if (xy->greeny < 0 || xy->greeny > PNG_FP_1-xy->greenx) return 1;
  1069. if (xy->bluex < 0 || xy->bluex > PNG_FP_1) return 1;
  1070. if (xy->bluey < 0 || xy->bluey > PNG_FP_1-xy->bluex) return 1;
  1071. if (xy->whitex < 0 || xy->whitex > PNG_FP_1) return 1;
  1072. if (xy->whitey < 5 || xy->whitey > PNG_FP_1-xy->whitex) return 1;
  1073. /* The reverse calculation is more difficult because the original tristimulus
  1074. * value had 9 independent values (red,green,blue)x(X,Y,Z) however only 8
  1075. * derived values were recorded in the cHRM chunk;
  1076. * (red,green,blue,white)x(x,y). This loses one degree of freedom and
  1077. * therefore an arbitrary ninth value has to be introduced to undo the
  1078. * original transformations.
  1079. *
  1080. * Think of the original end-points as points in (X,Y,Z) space. The
  1081. * chromaticity values (c) have the property:
  1082. *
  1083. * C
  1084. * c = ---------
  1085. * X + Y + Z
  1086. *
  1087. * For each c (x,y,z) from the corresponding original C (X,Y,Z). Thus the
  1088. * three chromaticity values (x,y,z) for each end-point obey the
  1089. * relationship:
  1090. *
  1091. * x + y + z = 1
  1092. *
  1093. * This describes the plane in (X,Y,Z) space that intersects each axis at the
  1094. * value 1.0; call this the chromaticity plane. Thus the chromaticity
  1095. * calculation has scaled each end-point so that it is on the x+y+z=1 plane
  1096. * and chromaticity is the intersection of the vector from the origin to the
  1097. * (X,Y,Z) value with the chromaticity plane.
  1098. *
  1099. * To fully invert the chromaticity calculation we would need the three
  1100. * end-point scale factors, (red-scale, green-scale, blue-scale), but these
  1101. * were not recorded. Instead we calculated the reference white (X,Y,Z) and
  1102. * recorded the chromaticity of this. The reference white (X,Y,Z) would have
  1103. * given all three of the scale factors since:
  1104. *
  1105. * color-C = color-c * color-scale
  1106. * white-C = red-C + green-C + blue-C
  1107. * = red-c*red-scale + green-c*green-scale + blue-c*blue-scale
  1108. *
  1109. * But cHRM records only white-x and white-y, so we have lost the white scale
  1110. * factor:
  1111. *
  1112. * white-C = white-c*white-scale
  1113. *
  1114. * To handle this the inverse transformation makes an arbitrary assumption
  1115. * about white-scale:
  1116. *
  1117. * Assume: white-Y = 1.0
  1118. * Hence: white-scale = 1/white-y
  1119. * Or: red-Y + green-Y + blue-Y = 1.0
  1120. *
  1121. * Notice the last statement of the assumption gives an equation in three of
  1122. * the nine values we want to calculate. 8 more equations come from the
  1123. * above routine as summarised at the top above (the chromaticity
  1124. * calculation):
  1125. *
  1126. * Given: color-x = color-X / (color-X + color-Y + color-Z)
  1127. * Hence: (color-x - 1)*color-X + color.x*color-Y + color.x*color-Z = 0
  1128. *
  1129. * This is 9 simultaneous equations in the 9 variables "color-C" and can be
  1130. * solved by Cramer's rule. Cramer's rule requires calculating 10 9x9 matrix
  1131. * determinants, however this is not as bad as it seems because only 28 of
  1132. * the total of 90 terms in the various matrices are non-zero. Nevertheless
  1133. * Cramer's rule is notoriously numerically unstable because the determinant
  1134. * calculation involves the difference of large, but similar, numbers. It is
  1135. * difficult to be sure that the calculation is stable for real world values
  1136. * and it is certain that it becomes unstable where the end points are close
  1137. * together.
  1138. *
  1139. * So this code uses the perhaps slightly less optimal but more
  1140. * understandable and totally obvious approach of calculating color-scale.
  1141. *
  1142. * This algorithm depends on the precision in white-scale and that is
  1143. * (1/white-y), so we can immediately see that as white-y approaches 0 the
  1144. * accuracy inherent in the cHRM chunk drops off substantially.
  1145. *
  1146. * libpng arithmetic: a simple inversion of the above equations
  1147. * ------------------------------------------------------------
  1148. *
  1149. * white_scale = 1/white-y
  1150. * white-X = white-x * white-scale
  1151. * white-Y = 1.0
  1152. * white-Z = (1 - white-x - white-y) * white_scale
  1153. *
  1154. * white-C = red-C + green-C + blue-C
  1155. * = red-c*red-scale + green-c*green-scale + blue-c*blue-scale
  1156. *
  1157. * This gives us three equations in (red-scale,green-scale,blue-scale) where
  1158. * all the coefficients are now known:
  1159. *
  1160. * red-x*red-scale + green-x*green-scale + blue-x*blue-scale
  1161. * = white-x/white-y
  1162. * red-y*red-scale + green-y*green-scale + blue-y*blue-scale = 1
  1163. * red-z*red-scale + green-z*green-scale + blue-z*blue-scale
  1164. * = (1 - white-x - white-y)/white-y
  1165. *
  1166. * In the last equation color-z is (1 - color-x - color-y) so we can add all
  1167. * three equations together to get an alternative third:
  1168. *
  1169. * red-scale + green-scale + blue-scale = 1/white-y = white-scale
  1170. *
  1171. * So now we have a Cramer's rule solution where the determinants are just
  1172. * 3x3 - far more tractible. Unfortunately 3x3 determinants still involve
  1173. * multiplication of three coefficients so we can't guarantee to avoid
  1174. * overflow in the libpng fixed point representation. Using Cramer's rule in
  1175. * floating point is probably a good choice here, but it's not an option for
  1176. * fixed point. Instead proceed to simplify the first two equations by
  1177. * eliminating what is likely to be the largest value, blue-scale:
  1178. *
  1179. * blue-scale = white-scale - red-scale - green-scale
  1180. *
  1181. * Hence:
  1182. *
  1183. * (red-x - blue-x)*red-scale + (green-x - blue-x)*green-scale =
  1184. * (white-x - blue-x)*white-scale
  1185. *
  1186. * (red-y - blue-y)*red-scale + (green-y - blue-y)*green-scale =
  1187. * 1 - blue-y*white-scale
  1188. *
  1189. * And now we can trivially solve for (red-scale,green-scale):
  1190. *
  1191. * green-scale =
  1192. * (white-x - blue-x)*white-scale - (red-x - blue-x)*red-scale
  1193. * -----------------------------------------------------------
  1194. * green-x - blue-x
  1195. *
  1196. * red-scale =
  1197. * 1 - blue-y*white-scale - (green-y - blue-y) * green-scale
  1198. * ---------------------------------------------------------
  1199. * red-y - blue-y
  1200. *
  1201. * Hence:
  1202. *
  1203. * red-scale =
  1204. * ( (green-x - blue-x) * (white-y - blue-y) -
  1205. * (green-y - blue-y) * (white-x - blue-x) ) / white-y
  1206. * -------------------------------------------------------------------------
  1207. * (green-x - blue-x)*(red-y - blue-y)-(green-y - blue-y)*(red-x - blue-x)
  1208. *
  1209. * green-scale =
  1210. * ( (red-y - blue-y) * (white-x - blue-x) -
  1211. * (red-x - blue-x) * (white-y - blue-y) ) / white-y
  1212. * -------------------------------------------------------------------------
  1213. * (green-x - blue-x)*(red-y - blue-y)-(green-y - blue-y)*(red-x - blue-x)
  1214. *
  1215. * Accuracy:
  1216. * The input values have 5 decimal digits of accuracy. The values are all in
  1217. * the range 0 < value < 1, so simple products are in the same range but may
  1218. * need up to 10 decimal digits to preserve the original precision and avoid
  1219. * underflow. Because we are using a 32-bit signed representation we cannot
  1220. * match this; the best is a little over 9 decimal digits, less than 10.
  1221. *
  1222. * The approach used here is to preserve the maximum precision within the
  1223. * signed representation. Because the red-scale calculation above uses the
  1224. * difference between two products of values that must be in the range -1..+1
  1225. * it is sufficient to divide the product by 7; ceil(100,000/32767*2). The
  1226. * factor is irrelevant in the calculation because it is applied to both
  1227. * numerator and denominator.
  1228. *
  1229. * Note that the values of the differences of the products of the
  1230. * chromaticities in the above equations tend to be small, for example for
  1231. * the sRGB chromaticities they are:
  1232. *
  1233. * red numerator: -0.04751
  1234. * green numerator: -0.08788
  1235. * denominator: -0.2241 (without white-y multiplication)
  1236. *
  1237. * The resultant Y coefficients from the chromaticities of some widely used
  1238. * color space definitions are (to 15 decimal places):
  1239. *
  1240. * sRGB
  1241. * 0.212639005871510 0.715168678767756 0.072192315360734
  1242. * Kodak ProPhoto
  1243. * 0.288071128229293 0.711843217810102 0.000085653960605
  1244. * Adobe RGB
  1245. * 0.297344975250536 0.627363566255466 0.075291458493998
  1246. * Adobe Wide Gamut RGB
  1247. * 0.258728243040113 0.724682314948566 0.016589442011321
  1248. */
  1249. /* By the argument, above overflow should be impossible here. The return
  1250. * value of 2 indicates an internal error to the caller.
  1251. */
  1252. if (png_muldiv(&left, xy->greenx-xy->bluex, xy->redy - xy->bluey, 7) == 0)
  1253. return 2;
  1254. if (png_muldiv(&right, xy->greeny-xy->bluey, xy->redx - xy->bluex, 7) == 0)
  1255. return 2;
  1256. denominator = left - right;
  1257. /* Now find the red numerator. */
  1258. if (png_muldiv(&left, xy->greenx-xy->bluex, xy->whitey-xy->bluey, 7) == 0)
  1259. return 2;
  1260. if (png_muldiv(&right, xy->greeny-xy->bluey, xy->whitex-xy->bluex, 7) == 0)
  1261. return 2;
  1262. /* Overflow is possible here and it indicates an extreme set of PNG cHRM
  1263. * chunk values. This calculation actually returns the reciprocal of the
  1264. * scale value because this allows us to delay the multiplication of white-y
  1265. * into the denominator, which tends to produce a small number.
  1266. */
  1267. if (png_muldiv(&red_inverse, xy->whitey, denominator, left-right) == 0 ||
  1268. red_inverse <= xy->whitey /* r+g+b scales = white scale */)
  1269. return 1;
  1270. /* Similarly for green_inverse: */
  1271. if (png_muldiv(&left, xy->redy-xy->bluey, xy->whitex-xy->bluex, 7) == 0)
  1272. return 2;
  1273. if (png_muldiv(&right, xy->redx-xy->bluex, xy->whitey-xy->bluey, 7) == 0)
  1274. return 2;
  1275. if (png_muldiv(&green_inverse, xy->whitey, denominator, left-right) == 0 ||
  1276. green_inverse <= xy->whitey)
  1277. return 1;
  1278. /* And the blue scale, the checks above guarantee this can't overflow but it
  1279. * can still produce 0 for extreme cHRM values.
  1280. */
  1281. blue_scale = png_reciprocal(xy->whitey) - png_reciprocal(red_inverse) -
  1282. png_reciprocal(green_inverse);
  1283. if (blue_scale <= 0)
  1284. return 1;
  1285. /* And fill in the png_XYZ: */
  1286. if (png_muldiv(&XYZ->red_X, xy->redx, PNG_FP_1, red_inverse) == 0)
  1287. return 1;
  1288. if (png_muldiv(&XYZ->red_Y, xy->redy, PNG_FP_1, red_inverse) == 0)
  1289. return 1;
  1290. if (png_muldiv(&XYZ->red_Z, PNG_FP_1 - xy->redx - xy->redy, PNG_FP_1,
  1291. red_inverse) == 0)
  1292. return 1;
  1293. if (png_muldiv(&XYZ->green_X, xy->greenx, PNG_FP_1, green_inverse) == 0)
  1294. return 1;
  1295. if (png_muldiv(&XYZ->green_Y, xy->greeny, PNG_FP_1, green_inverse) == 0)
  1296. return 1;
  1297. if (png_muldiv(&XYZ->green_Z, PNG_FP_1 - xy->greenx - xy->greeny, PNG_FP_1,
  1298. green_inverse) == 0)
  1299. return 1;
  1300. if (png_muldiv(&XYZ->blue_X, xy->bluex, blue_scale, PNG_FP_1) == 0)
  1301. return 1;
  1302. if (png_muldiv(&XYZ->blue_Y, xy->bluey, blue_scale, PNG_FP_1) == 0)
  1303. return 1;
  1304. if (png_muldiv(&XYZ->blue_Z, PNG_FP_1 - xy->bluex - xy->bluey, blue_scale,
  1305. PNG_FP_1) == 0)
  1306. return 1;
  1307. return 0; /*success*/
  1308. }
  1309. static int
  1310. png_XYZ_normalize(png_XYZ *XYZ)
  1311. {
  1312. png_int_32 Y;
  1313. if (XYZ->red_Y < 0 || XYZ->green_Y < 0 || XYZ->blue_Y < 0 ||
  1314. XYZ->red_X < 0 || XYZ->green_X < 0 || XYZ->blue_X < 0 ||
  1315. XYZ->red_Z < 0 || XYZ->green_Z < 0 || XYZ->blue_Z < 0)
  1316. return 1;
  1317. /* Normalize by scaling so the sum of the end-point Y values is PNG_FP_1.
  1318. * IMPLEMENTATION NOTE: ANSI requires signed overflow not to occur, therefore
  1319. * relying on addition of two positive values producing a negative one is not
  1320. * safe.
  1321. */
  1322. Y = XYZ->red_Y;
  1323. if (0x7fffffff - Y < XYZ->green_X)
  1324. return 1;
  1325. Y += XYZ->green_Y;
  1326. if (0x7fffffff - Y < XYZ->blue_X)
  1327. return 1;
  1328. Y += XYZ->blue_Y;
  1329. if (Y != PNG_FP_1)
  1330. {
  1331. if (png_muldiv(&XYZ->red_X, XYZ->red_X, PNG_FP_1, Y) == 0)
  1332. return 1;
  1333. if (png_muldiv(&XYZ->red_Y, XYZ->red_Y, PNG_FP_1, Y) == 0)
  1334. return 1;
  1335. if (png_muldiv(&XYZ->red_Z, XYZ->red_Z, PNG_FP_1, Y) == 0)
  1336. return 1;
  1337. if (png_muldiv(&XYZ->green_X, XYZ->green_X, PNG_FP_1, Y) == 0)
  1338. return 1;
  1339. if (png_muldiv(&XYZ->green_Y, XYZ->green_Y, PNG_FP_1, Y) == 0)
  1340. return 1;
  1341. if (png_muldiv(&XYZ->green_Z, XYZ->green_Z, PNG_FP_1, Y) == 0)
  1342. return 1;
  1343. if (png_muldiv(&XYZ->blue_X, XYZ->blue_X, PNG_FP_1, Y) == 0)
  1344. return 1;
  1345. if (png_muldiv(&XYZ->blue_Y, XYZ->blue_Y, PNG_FP_1, Y) == 0)
  1346. return 1;
  1347. if (png_muldiv(&XYZ->blue_Z, XYZ->blue_Z, PNG_FP_1, Y) == 0)
  1348. return 1;
  1349. }
  1350. return 0;
  1351. }
  1352. static int
  1353. png_colorspace_endpoints_match(const png_xy *xy1, const png_xy *xy2, int delta)
  1354. {
  1355. /* Allow an error of +/-0.01 (absolute value) on each chromaticity */
  1356. if (PNG_OUT_OF_RANGE(xy1->whitex, xy2->whitex,delta) ||
  1357. PNG_OUT_OF_RANGE(xy1->whitey, xy2->whitey,delta) ||
  1358. PNG_OUT_OF_RANGE(xy1->redx, xy2->redx, delta) ||
  1359. PNG_OUT_OF_RANGE(xy1->redy, xy2->redy, delta) ||
  1360. PNG_OUT_OF_RANGE(xy1->greenx, xy2->greenx,delta) ||
  1361. PNG_OUT_OF_RANGE(xy1->greeny, xy2->greeny,delta) ||
  1362. PNG_OUT_OF_RANGE(xy1->bluex, xy2->bluex, delta) ||
  1363. PNG_OUT_OF_RANGE(xy1->bluey, xy2->bluey, delta))
  1364. return 0;
  1365. return 1;
  1366. }
  1367. /* Added in libpng-1.6.0, a different check for the validity of a set of cHRM
  1368. * chunk chromaticities. Earlier checks used to simply look for the overflow
  1369. * condition (where the determinant of the matrix to solve for XYZ ends up zero
  1370. * because the chromaticity values are not all distinct.) Despite this it is
  1371. * theoretically possible to produce chromaticities that are apparently valid
  1372. * but that rapidly degrade to invalid, potentially crashing, sets because of
  1373. * arithmetic inaccuracies when calculations are performed on them. The new
  1374. * check is to round-trip xy -> XYZ -> xy and then check that the result is
  1375. * within a small percentage of the original.
  1376. */
  1377. static int
  1378. png_colorspace_check_xy(png_XYZ *XYZ, const png_xy *xy)
  1379. {
  1380. int result;
  1381. png_xy xy_test;
  1382. /* As a side-effect this routine also returns the XYZ endpoints. */
  1383. result = png_XYZ_from_xy(XYZ, xy);
  1384. if (result != 0)
  1385. return result;
  1386. result = png_xy_from_XYZ(&xy_test, XYZ);
  1387. if (result != 0)
  1388. return result;
  1389. if (png_colorspace_endpoints_match(xy, &xy_test,
  1390. 5/*actually, the math is pretty accurate*/) != 0)
  1391. return 0;
  1392. /* Too much slip */
  1393. return 1;
  1394. }
  1395. /* This is the check going the other way. The XYZ is modified to normalize it
  1396. * (another side-effect) and the xy chromaticities are returned.
  1397. */
  1398. static int
  1399. png_colorspace_check_XYZ(png_xy *xy, png_XYZ *XYZ)
  1400. {
  1401. int result;
  1402. png_XYZ XYZtemp;
  1403. result = png_XYZ_normalize(XYZ);
  1404. if (result != 0)
  1405. return result;
  1406. result = png_xy_from_XYZ(xy, XYZ);
  1407. if (result != 0)
  1408. return result;
  1409. XYZtemp = *XYZ;
  1410. return png_colorspace_check_xy(&XYZtemp, xy);
  1411. }
  1412. /* Used to check for an endpoint match against sRGB */
  1413. static const png_xy sRGB_xy = /* From ITU-R BT.709-3 */
  1414. {
  1415. /* color x y */
  1416. /* red */ 64000, 33000,
  1417. /* green */ 30000, 60000,
  1418. /* blue */ 15000, 6000,
  1419. /* white */ 31270, 32900
  1420. };
  1421. static int
  1422. png_colorspace_set_xy_and_XYZ(png_const_structrp png_ptr,
  1423. png_colorspacerp colorspace, const png_xy *xy, const png_XYZ *XYZ,
  1424. int preferred)
  1425. {
  1426. if ((colorspace->flags & PNG_COLORSPACE_INVALID) != 0)
  1427. return 0;
  1428. /* The consistency check is performed on the chromaticities; this factors out
  1429. * variations because of the normalization (or not) of the end point Y
  1430. * values.
  1431. */
  1432. if (preferred < 2 &&
  1433. (colorspace->flags & PNG_COLORSPACE_HAVE_ENDPOINTS) != 0)
  1434. {
  1435. /* The end points must be reasonably close to any we already have. The
  1436. * following allows an error of up to +/-.001
  1437. */
  1438. if (png_colorspace_endpoints_match(xy, &colorspace->end_points_xy,
  1439. 100) == 0)
  1440. {
  1441. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1442. png_benign_error(png_ptr, "inconsistent chromaticities");
  1443. return 0; /* failed */
  1444. }
  1445. /* Only overwrite with preferred values */
  1446. if (preferred == 0)
  1447. return 1; /* ok, but no change */
  1448. }
  1449. colorspace->end_points_xy = *xy;
  1450. colorspace->end_points_XYZ = *XYZ;
  1451. colorspace->flags |= PNG_COLORSPACE_HAVE_ENDPOINTS;
  1452. /* The end points are normally quoted to two decimal digits, so allow +/-0.01
  1453. * on this test.
  1454. */
  1455. if (png_colorspace_endpoints_match(xy, &sRGB_xy, 1000) != 0)
  1456. colorspace->flags |= PNG_COLORSPACE_ENDPOINTS_MATCH_sRGB;
  1457. else
  1458. colorspace->flags &= PNG_COLORSPACE_CANCEL(
  1459. PNG_COLORSPACE_ENDPOINTS_MATCH_sRGB);
  1460. return 2; /* ok and changed */
  1461. }
  1462. int /* PRIVATE */
  1463. png_colorspace_set_chromaticities(png_const_structrp png_ptr,
  1464. png_colorspacerp colorspace, const png_xy *xy, int preferred)
  1465. {
  1466. /* We must check the end points to ensure they are reasonable - in the past
  1467. * color management systems have crashed as a result of getting bogus
  1468. * colorant values, while this isn't the fault of libpng it is the
  1469. * responsibility of libpng because PNG carries the bomb and libpng is in a
  1470. * position to protect against it.
  1471. */
  1472. png_XYZ XYZ;
  1473. switch (png_colorspace_check_xy(&XYZ, xy))
  1474. {
  1475. case 0: /* success */
  1476. return png_colorspace_set_xy_and_XYZ(png_ptr, colorspace, xy, &XYZ,
  1477. preferred);
  1478. case 1:
  1479. /* We can't invert the chromaticities so we can't produce value XYZ
  1480. * values. Likely as not a color management system will fail too.
  1481. */
  1482. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1483. png_benign_error(png_ptr, "invalid chromaticities");
  1484. break;
  1485. default:
  1486. /* libpng is broken; this should be a warning but if it happens we
  1487. * want error reports so for the moment it is an error.
  1488. */
  1489. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1490. png_error(png_ptr, "internal error checking chromaticities");
  1491. }
  1492. return 0; /* failed */
  1493. }
  1494. int /* PRIVATE */
  1495. png_colorspace_set_endpoints(png_const_structrp png_ptr,
  1496. png_colorspacerp colorspace, const png_XYZ *XYZ_in, int preferred)
  1497. {
  1498. png_XYZ XYZ = *XYZ_in;
  1499. png_xy xy;
  1500. switch (png_colorspace_check_XYZ(&xy, &XYZ))
  1501. {
  1502. case 0:
  1503. return png_colorspace_set_xy_and_XYZ(png_ptr, colorspace, &xy, &XYZ,
  1504. preferred);
  1505. case 1:
  1506. /* End points are invalid. */
  1507. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1508. png_benign_error(png_ptr, "invalid end points");
  1509. break;
  1510. default:
  1511. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1512. png_error(png_ptr, "internal error checking chromaticities");
  1513. }
  1514. return 0; /* failed */
  1515. }
  1516. #if defined(PNG_sRGB_SUPPORTED) || defined(PNG_iCCP_SUPPORTED)
  1517. /* Error message generation */
  1518. static char
  1519. png_icc_tag_char(png_uint_32 byte)
  1520. {
  1521. byte &= 0xff;
  1522. if (byte >= 32 && byte <= 126)
  1523. return (char)byte;
  1524. else
  1525. return '?';
  1526. }
  1527. static void
  1528. png_icc_tag_name(char *name, png_uint_32 tag)
  1529. {
  1530. name[0] = '\'';
  1531. name[1] = png_icc_tag_char(tag >> 24);
  1532. name[2] = png_icc_tag_char(tag >> 16);
  1533. name[3] = png_icc_tag_char(tag >> 8);
  1534. name[4] = png_icc_tag_char(tag );
  1535. name[5] = '\'';
  1536. }
  1537. static int
  1538. is_ICC_signature_char(png_alloc_size_t it)
  1539. {
  1540. return it == 32 || (it >= 48 && it <= 57) || (it >= 65 && it <= 90) ||
  1541. (it >= 97 && it <= 122);
  1542. }
  1543. static int
  1544. is_ICC_signature(png_alloc_size_t it)
  1545. {
  1546. return is_ICC_signature_char(it >> 24) /* checks all the top bits */ &&
  1547. is_ICC_signature_char((it >> 16) & 0xff) &&
  1548. is_ICC_signature_char((it >> 8) & 0xff) &&
  1549. is_ICC_signature_char(it & 0xff);
  1550. }
  1551. static int
  1552. png_icc_profile_error(png_const_structrp png_ptr, png_colorspacerp colorspace,
  1553. png_const_charp name, png_alloc_size_t value, png_const_charp reason)
  1554. {
  1555. size_t pos;
  1556. char message[196]; /* see below for calculation */
  1557. if (colorspace != NULL)
  1558. colorspace->flags |= PNG_COLORSPACE_INVALID;
  1559. pos = png_safecat(message, (sizeof message), 0, "profile '"); /* 9 chars */
  1560. pos = png_safecat(message, pos+79, pos, name); /* Truncate to 79 chars */
  1561. pos = png_safecat(message, (sizeof message), pos, "': "); /* +2 = 90 */
  1562. if (is_ICC_signature(value) != 0)
  1563. {
  1564. /* So 'value' is at most 4 bytes and the following cast is safe */
  1565. png_icc_tag_name(message+pos, (png_uint_32)value);
  1566. pos += 6; /* total +8; less than the else clause */
  1567. message[pos++] = ':';
  1568. message[pos++] = ' ';
  1569. }
  1570. # ifdef PNG_WARNINGS_SUPPORTED
  1571. else
  1572. {
  1573. char number[PNG_NUMBER_BUFFER_SIZE]; /* +24 = 114*/
  1574. pos = png_safecat(message, (sizeof message), pos,
  1575. png_format_number(number, number+(sizeof number),
  1576. PNG_NUMBER_FORMAT_x, value));
  1577. pos = png_safecat(message, (sizeof message), pos, "h: "); /*+2 = 116*/
  1578. }
  1579. # endif
  1580. /* The 'reason' is an arbitrary message, allow +79 maximum 195 */
  1581. pos = png_safecat(message, (sizeof message), pos, reason);
  1582. PNG_UNUSED(pos)
  1583. /* This is recoverable, but make it unconditionally an app_error on write to
  1584. * avoid writing invalid ICC profiles into PNG files (i.e., we handle them
  1585. * on read, with a warning, but on write unless the app turns off
  1586. * application errors the PNG won't be written.)
  1587. */
  1588. png_chunk_report(png_ptr, message,
  1589. (colorspace != NULL) ? PNG_CHUNK_ERROR : PNG_CHUNK_WRITE_ERROR);
  1590. return 0;
  1591. }
  1592. #endif /* sRGB || iCCP */
  1593. #ifdef PNG_sRGB_SUPPORTED
  1594. int /* PRIVATE */
  1595. png_colorspace_set_sRGB(png_const_structrp png_ptr, png_colorspacerp colorspace,
  1596. int intent)
  1597. {
  1598. /* sRGB sets known gamma, end points and (from the chunk) intent. */
  1599. /* IMPORTANT: these are not necessarily the values found in an ICC profile
  1600. * because ICC profiles store values adapted to a D50 environment; it is
  1601. * expected that the ICC profile mediaWhitePointTag will be D50; see the
  1602. * checks and code elsewhere to understand this better.
  1603. *
  1604. * These XYZ values, which are accurate to 5dp, produce rgb to gray
  1605. * coefficients of (6968,23435,2366), which are reduced (because they add up
  1606. * to 32769 not 32768) to (6968,23434,2366). These are the values that
  1607. * libpng has traditionally used (and are the best values given the 15bit
  1608. * algorithm used by the rgb to gray code.)
  1609. */
  1610. static const png_XYZ sRGB_XYZ = /* D65 XYZ (*not* the D50 adapted values!) */
  1611. {
  1612. /* color X Y Z */
  1613. /* red */ 41239, 21264, 1933,
  1614. /* green */ 35758, 71517, 11919,
  1615. /* blue */ 18048, 7219, 95053
  1616. };
  1617. /* Do nothing if the colorspace is already invalidated. */
  1618. if ((colorspace->flags & PNG_COLORSPACE_INVALID) != 0)
  1619. return 0;
  1620. /* Check the intent, then check for existing settings. It is valid for the
  1621. * PNG file to have cHRM or gAMA chunks along with sRGB, but the values must
  1622. * be consistent with the correct values. If, however, this function is
  1623. * called below because an iCCP chunk matches sRGB then it is quite
  1624. * conceivable that an older app recorded incorrect gAMA and cHRM because of
  1625. * an incorrect calculation based on the values in the profile - this does
  1626. * *not* invalidate the profile (though it still produces an error, which can
  1627. * be ignored.)
  1628. */
  1629. if (intent < 0 || intent >= PNG_sRGB_INTENT_LAST)
  1630. return png_icc_profile_error(png_ptr, colorspace, "sRGB",
  1631. (unsigned)intent, "invalid sRGB rendering intent");
  1632. if ((colorspace->flags & PNG_COLORSPACE_HAVE_INTENT) != 0 &&
  1633. colorspace->rendering_intent != intent)
  1634. return png_icc_profile_error(png_ptr, colorspace, "sRGB",
  1635. (unsigned)intent, "inconsistent rendering intents");
  1636. if ((colorspace->flags & PNG_COLORSPACE_FROM_sRGB) != 0)
  1637. {
  1638. png_benign_error(png_ptr, "duplicate sRGB information ignored");
  1639. return 0;
  1640. }
  1641. /* If the standard sRGB cHRM chunk does not match the one from the PNG file
  1642. * warn but overwrite the value with the correct one.
  1643. */
  1644. if ((colorspace->flags & PNG_COLORSPACE_HAVE_ENDPOINTS) != 0 &&
  1645. !png_colorspace_endpoints_match(&sRGB_xy, &colorspace->end_points_xy,
  1646. 100))
  1647. png_chunk_report(png_ptr, "cHRM chunk does not match sRGB",
  1648. PNG_CHUNK_ERROR);
  1649. /* This check is just done for the error reporting - the routine always
  1650. * returns true when the 'from' argument corresponds to sRGB (2).
  1651. */
  1652. (void)png_colorspace_check_gamma(png_ptr, colorspace, PNG_GAMMA_sRGB_INVERSE,
  1653. 2/*from sRGB*/);
  1654. /* intent: bugs in GCC force 'int' to be used as the parameter type. */
  1655. colorspace->rendering_intent = (png_uint_16)intent;
  1656. colorspace->flags |= PNG_COLORSPACE_HAVE_INTENT;
  1657. /* endpoints */
  1658. colorspace->end_points_xy = sRGB_xy;
  1659. colorspace->end_points_XYZ = sRGB_XYZ;
  1660. colorspace->flags |=
  1661. (PNG_COLORSPACE_HAVE_ENDPOINTS|PNG_COLORSPACE_ENDPOINTS_MATCH_sRGB);
  1662. /* gamma */
  1663. colorspace->gamma = PNG_GAMMA_sRGB_INVERSE;
  1664. colorspace->flags |= PNG_COLORSPACE_HAVE_GAMMA;
  1665. /* Finally record that we have an sRGB profile */
  1666. colorspace->flags |=
  1667. (PNG_COLORSPACE_MATCHES_sRGB|PNG_COLORSPACE_FROM_sRGB);
  1668. return 1; /* set */
  1669. }
  1670. #endif /* sRGB */
  1671. #ifdef PNG_iCCP_SUPPORTED
  1672. /* Encoded value of D50 as an ICC XYZNumber. From the ICC 2010 spec the value
  1673. * is XYZ(0.9642,1.0,0.8249), which scales to:
  1674. *
  1675. * (63189.8112, 65536, 54060.6464)
  1676. */
  1677. static const png_byte D50_nCIEXYZ[12] =
  1678. { 0x00, 0x00, 0xf6, 0xd6, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0xd3, 0x2d };
  1679. int /* PRIVATE */
  1680. png_icc_check_length(png_const_structrp png_ptr, png_colorspacerp colorspace,
  1681. png_const_charp name, png_uint_32 profile_length)
  1682. {
  1683. if (profile_length < 132)
  1684. return png_icc_profile_error(png_ptr, colorspace, name, profile_length,
  1685. "too short");
  1686. return 1;
  1687. }
  1688. int /* PRIVATE */
  1689. png_icc_check_header(png_const_structrp png_ptr, png_colorspacerp colorspace,
  1690. png_const_charp name, png_uint_32 profile_length,
  1691. png_const_bytep profile/* first 132 bytes only */, int color_type)
  1692. {
  1693. png_uint_32 temp;
  1694. /* Length check; this cannot be ignored in this code because profile_length
  1695. * is used later to check the tag table, so even if the profile seems over
  1696. * long profile_length from the caller must be correct. The caller can fix
  1697. * this up on read or write by just passing in the profile header length.
  1698. */
  1699. temp = png_get_uint_32(profile);
  1700. if (temp != profile_length)
  1701. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1702. "length does not match profile");
  1703. temp = (png_uint_32) (*(profile+8));
  1704. if (temp > 3 && (profile_length & 3))
  1705. return png_icc_profile_error(png_ptr, colorspace, name, profile_length,
  1706. "invalid length");
  1707. temp = png_get_uint_32(profile+128); /* tag count: 12 bytes/tag */
  1708. if (temp > 357913930 || /* (2^32-4-132)/12: maximum possible tag count */
  1709. profile_length < 132+12*temp) /* truncated tag table */
  1710. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1711. "tag count too large");
  1712. /* The 'intent' must be valid or we can't store it, ICC limits the intent to
  1713. * 16 bits.
  1714. */
  1715. temp = png_get_uint_32(profile+64);
  1716. if (temp >= 0xffff) /* The ICC limit */
  1717. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1718. "invalid rendering intent");
  1719. /* This is just a warning because the profile may be valid in future
  1720. * versions.
  1721. */
  1722. if (temp >= PNG_sRGB_INTENT_LAST)
  1723. (void)png_icc_profile_error(png_ptr, NULL, name, temp,
  1724. "intent outside defined range");
  1725. /* At this point the tag table can't be checked because it hasn't necessarily
  1726. * been loaded; however, various header fields can be checked. These checks
  1727. * are for values permitted by the PNG spec in an ICC profile; the PNG spec
  1728. * restricts the profiles that can be passed in an iCCP chunk (they must be
  1729. * appropriate to processing PNG data!)
  1730. */
  1731. /* Data checks (could be skipped). These checks must be independent of the
  1732. * version number; however, the version number doesn't accomodate changes in
  1733. * the header fields (just the known tags and the interpretation of the
  1734. * data.)
  1735. */
  1736. temp = png_get_uint_32(profile+36); /* signature 'ascp' */
  1737. if (temp != 0x61637370)
  1738. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1739. "invalid signature");
  1740. /* Currently the PCS illuminant/adopted white point (the computational
  1741. * white point) are required to be D50,
  1742. * however the profile contains a record of the illuminant so perhaps ICC
  1743. * expects to be able to change this in the future (despite the rationale in
  1744. * the introduction for using a fixed PCS adopted white.) Consequently the
  1745. * following is just a warning.
  1746. */
  1747. if (memcmp(profile+68, D50_nCIEXYZ, 12) != 0)
  1748. (void)png_icc_profile_error(png_ptr, NULL, name, 0/*no tag value*/,
  1749. "PCS illuminant is not D50");
  1750. /* The PNG spec requires this:
  1751. * "If the iCCP chunk is present, the image samples conform to the colour
  1752. * space represented by the embedded ICC profile as defined by the
  1753. * International Color Consortium [ICC]. The colour space of the ICC profile
  1754. * shall be an RGB colour space for colour images (PNG colour types 2, 3, and
  1755. * 6), or a greyscale colour space for greyscale images (PNG colour types 0
  1756. * and 4)."
  1757. *
  1758. * This checking code ensures the embedded profile (on either read or write)
  1759. * conforms to the specification requirements. Notice that an ICC 'gray'
  1760. * color-space profile contains the information to transform the monochrome
  1761. * data to XYZ or L*a*b (according to which PCS the profile uses) and this
  1762. * should be used in preference to the standard libpng K channel replication
  1763. * into R, G and B channels.
  1764. *
  1765. * Previously it was suggested that an RGB profile on grayscale data could be
  1766. * handled. However it it is clear that using an RGB profile in this context
  1767. * must be an error - there is no specification of what it means. Thus it is
  1768. * almost certainly more correct to ignore the profile.
  1769. */
  1770. temp = png_get_uint_32(profile+16); /* data colour space field */
  1771. switch (temp)
  1772. {
  1773. case 0x52474220: /* 'RGB ' */
  1774. if ((color_type & PNG_COLOR_MASK_COLOR) == 0)
  1775. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1776. "RGB color space not permitted on grayscale PNG");
  1777. break;
  1778. case 0x47524159: /* 'GRAY' */
  1779. if ((color_type & PNG_COLOR_MASK_COLOR) != 0)
  1780. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1781. "Gray color space not permitted on RGB PNG");
  1782. break;
  1783. default:
  1784. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1785. "invalid ICC profile color space");
  1786. }
  1787. /* It is up to the application to check that the profile class matches the
  1788. * application requirements; the spec provides no guidance, but it's pretty
  1789. * weird if the profile is not scanner ('scnr'), monitor ('mntr'), printer
  1790. * ('prtr') or 'spac' (for generic color spaces). Issue a warning in these
  1791. * cases. Issue an error for device link or abstract profiles - these don't
  1792. * contain the records necessary to transform the color-space to anything
  1793. * other than the target device (and not even that for an abstract profile).
  1794. * Profiles of these classes may not be embedded in images.
  1795. */
  1796. temp = png_get_uint_32(profile+12); /* profile/device class */
  1797. switch (temp)
  1798. {
  1799. case 0x73636e72: /* 'scnr' */
  1800. case 0x6d6e7472: /* 'mntr' */
  1801. case 0x70727472: /* 'prtr' */
  1802. case 0x73706163: /* 'spac' */
  1803. /* All supported */
  1804. break;
  1805. case 0x61627374: /* 'abst' */
  1806. /* May not be embedded in an image */
  1807. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1808. "invalid embedded Abstract ICC profile");
  1809. case 0x6c696e6b: /* 'link' */
  1810. /* DeviceLink profiles cannot be interpreted in a non-device specific
  1811. * fashion, if an app uses the AToB0Tag in the profile the results are
  1812. * undefined unless the result is sent to the intended device,
  1813. * therefore a DeviceLink profile should not be found embedded in a
  1814. * PNG.
  1815. */
  1816. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1817. "unexpected DeviceLink ICC profile class");
  1818. case 0x6e6d636c: /* 'nmcl' */
  1819. /* A NamedColor profile is also device specific, however it doesn't
  1820. * contain an AToB0 tag that is open to misinterpretation. Almost
  1821. * certainly it will fail the tests below.
  1822. */
  1823. (void)png_icc_profile_error(png_ptr, NULL, name, temp,
  1824. "unexpected NamedColor ICC profile class");
  1825. break;
  1826. default:
  1827. /* To allow for future enhancements to the profile accept unrecognized
  1828. * profile classes with a warning, these then hit the test below on the
  1829. * tag content to ensure they are backward compatible with one of the
  1830. * understood profiles.
  1831. */
  1832. (void)png_icc_profile_error(png_ptr, NULL, name, temp,
  1833. "unrecognized ICC profile class");
  1834. break;
  1835. }
  1836. /* For any profile other than a device link one the PCS must be encoded
  1837. * either in XYZ or Lab.
  1838. */
  1839. temp = png_get_uint_32(profile+20);
  1840. switch (temp)
  1841. {
  1842. case 0x58595a20: /* 'XYZ ' */
  1843. case 0x4c616220: /* 'Lab ' */
  1844. break;
  1845. default:
  1846. return png_icc_profile_error(png_ptr, colorspace, name, temp,
  1847. "unexpected ICC PCS encoding");
  1848. }
  1849. return 1;
  1850. }
  1851. int /* PRIVATE */
  1852. png_icc_check_tag_table(png_const_structrp png_ptr, png_colorspacerp colorspace,
  1853. png_const_charp name, png_uint_32 profile_length,
  1854. png_const_bytep profile /* header plus whole tag table */)
  1855. {
  1856. png_uint_32 tag_count = png_get_uint_32(profile+128);
  1857. png_uint_32 itag;
  1858. png_const_bytep tag = profile+132; /* The first tag */
  1859. /* First scan all the tags in the table and add bits to the icc_info value
  1860. * (temporarily in 'tags').
  1861. */
  1862. for (itag=0; itag < tag_count; ++itag, tag += 12)
  1863. {
  1864. png_uint_32 tag_id = png_get_uint_32(tag+0);
  1865. png_uint_32 tag_start = png_get_uint_32(tag+4); /* must be aligned */
  1866. png_uint_32 tag_length = png_get_uint_32(tag+8);/* not padded */
  1867. /* The ICC specification does not exclude zero length tags, therefore the
  1868. * start might actually be anywhere if there is no data, but this would be
  1869. * a clear abuse of the intent of the standard so the start is checked for
  1870. * being in range. All defined tag types have an 8 byte header - a 4 byte
  1871. * type signature then 0.
  1872. */
  1873. if ((tag_start & 3) != 0)
  1874. {
  1875. /* CNHP730S.icc shipped with Microsoft Windows 64 violates this, it is
  1876. * only a warning here because libpng does not care about the
  1877. * alignment.
  1878. */
  1879. (void)png_icc_profile_error(png_ptr, NULL, name, tag_id,
  1880. "ICC profile tag start not a multiple of 4");
  1881. }
  1882. /* This is a hard error; potentially it can cause read outside the
  1883. * profile.
  1884. */
  1885. if (tag_start > profile_length || tag_length > profile_length - tag_start)
  1886. return png_icc_profile_error(png_ptr, colorspace, name, tag_id,
  1887. "ICC profile tag outside profile");
  1888. }
  1889. return 1; /* success, maybe with warnings */
  1890. }
  1891. #ifdef PNG_sRGB_SUPPORTED
  1892. #if PNG_sRGB_PROFILE_CHECKS >= 0
  1893. /* Information about the known ICC sRGB profiles */
  1894. static const struct
  1895. {
  1896. png_uint_32 adler, crc, length;
  1897. png_uint_32 md5[4];
  1898. png_byte have_md5;
  1899. png_byte is_broken;
  1900. png_uint_16 intent;
  1901. # define PNG_MD5(a,b,c,d) { a, b, c, d }, (a!=0)||(b!=0)||(c!=0)||(d!=0)
  1902. # define PNG_ICC_CHECKSUM(adler, crc, md5, intent, broke, date, length, fname)\
  1903. { adler, crc, length, md5, broke, intent },
  1904. } png_sRGB_checks[] =
  1905. {
  1906. /* This data comes from contrib/tools/checksum-icc run on downloads of
  1907. * all four ICC sRGB profiles from www.color.org.
  1908. */
  1909. /* adler32, crc32, MD5[4], intent, date, length, file-name */
  1910. PNG_ICC_CHECKSUM(0x0a3fd9f6, 0x3b8772b9,
  1911. PNG_MD5(0x29f83dde, 0xaff255ae, 0x7842fae4, 0xca83390d), 0, 0,
  1912. "2009/03/27 21:36:31", 3048, "sRGB_IEC61966-2-1_black_scaled.icc")
  1913. /* ICC sRGB v2 perceptual no black-compensation: */
  1914. PNG_ICC_CHECKSUM(0x4909e5e1, 0x427ebb21,
  1915. PNG_MD5(0xc95bd637, 0xe95d8a3b, 0x0df38f99, 0xc1320389), 1, 0,
  1916. "2009/03/27 21:37:45", 3052, "sRGB_IEC61966-2-1_no_black_scaling.icc")
  1917. PNG_ICC_CHECKSUM(0xfd2144a1, 0x306fd8ae,
  1918. PNG_MD5(0xfc663378, 0x37e2886b, 0xfd72e983, 0x8228f1b8), 0, 0,
  1919. "2009/08/10 17:28:01", 60988, "sRGB_v4_ICC_preference_displayclass.icc")
  1920. /* ICC sRGB v4 perceptual */
  1921. PNG_ICC_CHECKSUM(0x209c35d2, 0xbbef7812,
  1922. PNG_MD5(0x34562abf, 0x994ccd06, 0x6d2c5721, 0xd0d68c5d), 0, 0,
  1923. "2007/07/25 00:05:37", 60960, "sRGB_v4_ICC_preference.icc")
  1924. /* The following profiles have no known MD5 checksum. If there is a match
  1925. * on the (empty) MD5 the other fields are used to attempt a match and
  1926. * a warning is produced. The first two of these profiles have a 'cprt' tag
  1927. * which suggests that they were also made by Hewlett Packard.
  1928. */
  1929. PNG_ICC_CHECKSUM(0xa054d762, 0x5d5129ce,
  1930. PNG_MD5(0x00000000, 0x00000000, 0x00000000, 0x00000000), 1, 0,
  1931. "2004/07/21 18:57:42", 3024, "sRGB_IEC61966-2-1_noBPC.icc")
  1932. /* This is a 'mntr' (display) profile with a mediaWhitePointTag that does not
  1933. * match the D50 PCS illuminant in the header (it is in fact the D65 values,
  1934. * so the white point is recorded as the un-adapted value.) The profiles
  1935. * below only differ in one byte - the intent - and are basically the same as
  1936. * the previous profile except for the mediaWhitePointTag error and a missing
  1937. * chromaticAdaptationTag.
  1938. */
  1939. PNG_ICC_CHECKSUM(0xf784f3fb, 0x182ea552,
  1940. PNG_MD5(0x00000000, 0x00000000, 0x00000000, 0x00000000), 0, 1/*broken*/,
  1941. "1998/02/09 06:49:00", 3144, "HP-Microsoft sRGB v2 perceptual")
  1942. PNG_ICC_CHECKSUM(0x0398f3fc, 0xf29e526d,
  1943. PNG_MD5(0x00000000, 0x00000000, 0x00000000, 0x00000000), 1, 1/*broken*/,
  1944. "1998/02/09 06:49:00", 3144, "HP-Microsoft sRGB v2 media-relative")
  1945. };
  1946. static int
  1947. png_compare_ICC_profile_with_sRGB(png_const_structrp png_ptr,
  1948. png_const_bytep profile, uLong adler)
  1949. {
  1950. /* The quick check is to verify just the MD5 signature and trust the
  1951. * rest of the data. Because the profile has already been verified for
  1952. * correctness this is safe. png_colorspace_set_sRGB will check the 'intent'
  1953. * field too, so if the profile has been edited with an intent not defined
  1954. * by sRGB (but maybe defined by a later ICC specification) the read of
  1955. * the profile will fail at that point.
  1956. */
  1957. png_uint_32 length = 0;
  1958. png_uint_32 intent = 0x10000; /* invalid */
  1959. #if PNG_sRGB_PROFILE_CHECKS > 1
  1960. uLong crc = 0; /* the value for 0 length data */
  1961. #endif
  1962. unsigned int i;
  1963. #ifdef PNG_SET_OPTION_SUPPORTED
  1964. /* First see if PNG_SKIP_sRGB_CHECK_PROFILE has been set to "on" */
  1965. if (((png_ptr->options >> PNG_SKIP_sRGB_CHECK_PROFILE) & 3) ==
  1966. PNG_OPTION_ON)
  1967. return 0;
  1968. #endif
  1969. for (i=0; i < (sizeof png_sRGB_checks) / (sizeof png_sRGB_checks[0]); ++i)
  1970. {
  1971. if (png_get_uint_32(profile+84) == png_sRGB_checks[i].md5[0] &&
  1972. png_get_uint_32(profile+88) == png_sRGB_checks[i].md5[1] &&
  1973. png_get_uint_32(profile+92) == png_sRGB_checks[i].md5[2] &&
  1974. png_get_uint_32(profile+96) == png_sRGB_checks[i].md5[3])
  1975. {
  1976. /* This may be one of the old HP profiles without an MD5, in that
  1977. * case we can only use the length and Adler32 (note that these
  1978. * are not used by default if there is an MD5!)
  1979. */
  1980. # if PNG_sRGB_PROFILE_CHECKS == 0
  1981. if (png_sRGB_checks[i].have_md5 != 0)
  1982. return 1+png_sRGB_checks[i].is_broken;
  1983. # endif
  1984. /* Profile is unsigned or more checks have been configured in. */
  1985. if (length == 0)
  1986. {
  1987. length = png_get_uint_32(profile);
  1988. intent = png_get_uint_32(profile+64);
  1989. }
  1990. /* Length *and* intent must match */
  1991. if (length == (png_uint_32) png_sRGB_checks[i].length &&
  1992. intent == (png_uint_32) png_sRGB_checks[i].intent)
  1993. {
  1994. /* Now calculate the adler32 if not done already. */
  1995. if (adler == 0)
  1996. {
  1997. adler = adler32(0, NULL, 0);
  1998. adler = adler32(adler, profile, length);
  1999. }
  2000. if (adler == png_sRGB_checks[i].adler)
  2001. {
  2002. /* These basic checks suggest that the data has not been
  2003. * modified, but if the check level is more than 1 perform
  2004. * our own crc32 checksum on the data.
  2005. */
  2006. # if PNG_sRGB_PROFILE_CHECKS > 1
  2007. if (crc == 0)
  2008. {
  2009. crc = crc32(0, NULL, 0);
  2010. crc = crc32(crc, profile, length);
  2011. }
  2012. /* So this check must pass for the 'return' below to happen.
  2013. */
  2014. if (crc == png_sRGB_checks[i].crc)
  2015. # endif
  2016. {
  2017. if (png_sRGB_checks[i].is_broken != 0)
  2018. {
  2019. /* These profiles are known to have bad data that may cause
  2020. * problems if they are used, therefore attempt to
  2021. * discourage their use, skip the 'have_md5' warning below,
  2022. * which is made irrelevant by this error.
  2023. */
  2024. png_chunk_report(png_ptr, "known incorrect sRGB profile",
  2025. PNG_CHUNK_ERROR);
  2026. }
  2027. /* Warn that this being done; this isn't even an error since
  2028. * the profile is perfectly valid, but it would be nice if
  2029. * people used the up-to-date ones.
  2030. */
  2031. else if (png_sRGB_checks[i].have_md5 == 0)
  2032. {
  2033. png_chunk_report(png_ptr,
  2034. "out-of-date sRGB profile with no signature",
  2035. PNG_CHUNK_WARNING);
  2036. }
  2037. return 1+png_sRGB_checks[i].is_broken;
  2038. }
  2039. }
  2040. # if PNG_sRGB_PROFILE_CHECKS > 0
  2041. /* The signature matched, but the profile had been changed in some
  2042. * way. This probably indicates a data error or uninformed hacking.
  2043. * Fall through to "no match".
  2044. */
  2045. png_chunk_report(png_ptr,
  2046. "Not recognizing known sRGB profile that has been edited",
  2047. PNG_CHUNK_WARNING);
  2048. break;
  2049. # endif
  2050. }
  2051. }
  2052. }
  2053. return 0; /* no match */
  2054. }
  2055. #endif /* PNG_sRGB_PROFILE_CHECKS >= 0 */
  2056. void /* PRIVATE */
  2057. png_icc_set_sRGB(png_const_structrp png_ptr,
  2058. png_colorspacerp colorspace, png_const_bytep profile, uLong adler)
  2059. {
  2060. /* Is this profile one of the known ICC sRGB profiles? If it is, just set
  2061. * the sRGB information.
  2062. */
  2063. #if PNG_sRGB_PROFILE_CHECKS >= 0
  2064. if (png_compare_ICC_profile_with_sRGB(png_ptr, profile, adler) != 0)
  2065. #endif
  2066. (void)png_colorspace_set_sRGB(png_ptr, colorspace,
  2067. (int)/*already checked*/png_get_uint_32(profile+64));
  2068. }
  2069. #endif /* sRGB */
  2070. int /* PRIVATE */
  2071. png_colorspace_set_ICC(png_const_structrp png_ptr, png_colorspacerp colorspace,
  2072. png_const_charp name, png_uint_32 profile_length, png_const_bytep profile,
  2073. int color_type)
  2074. {
  2075. if ((colorspace->flags & PNG_COLORSPACE_INVALID) != 0)
  2076. return 0;
  2077. if (png_icc_check_length(png_ptr, colorspace, name, profile_length) != 0 &&
  2078. png_icc_check_header(png_ptr, colorspace, name, profile_length, profile,
  2079. color_type) != 0 &&
  2080. png_icc_check_tag_table(png_ptr, colorspace, name, profile_length,
  2081. profile) != 0)
  2082. {
  2083. # ifdef PNG_sRGB_SUPPORTED
  2084. /* If no sRGB support, don't try storing sRGB information */
  2085. png_icc_set_sRGB(png_ptr, colorspace, profile, 0);
  2086. # endif
  2087. return 1;
  2088. }
  2089. /* Failure case */
  2090. return 0;
  2091. }
  2092. #endif /* iCCP */
  2093. #ifdef PNG_READ_RGB_TO_GRAY_SUPPORTED
  2094. void /* PRIVATE */
  2095. png_colorspace_set_rgb_coefficients(png_structrp png_ptr)
  2096. {
  2097. /* Set the rgb_to_gray coefficients from the colorspace. */
  2098. if (png_ptr->rgb_to_gray_coefficients_set == 0 &&
  2099. (png_ptr->colorspace.flags & PNG_COLORSPACE_HAVE_ENDPOINTS) != 0)
  2100. {
  2101. /* png_set_background has not been called, get the coefficients from the Y
  2102. * values of the colorspace colorants.
  2103. */
  2104. png_fixed_point r = png_ptr->colorspace.end_points_XYZ.red_Y;
  2105. png_fixed_point g = png_ptr->colorspace.end_points_XYZ.green_Y;
  2106. png_fixed_point b = png_ptr->colorspace.end_points_XYZ.blue_Y;
  2107. png_fixed_point total = r+g+b;
  2108. if (total > 0 &&
  2109. r >= 0 && png_muldiv(&r, r, 32768, total) && r >= 0 && r <= 32768 &&
  2110. g >= 0 && png_muldiv(&g, g, 32768, total) && g >= 0 && g <= 32768 &&
  2111. b >= 0 && png_muldiv(&b, b, 32768, total) && b >= 0 && b <= 32768 &&
  2112. r+g+b <= 32769)
  2113. {
  2114. /* We allow 0 coefficients here. r+g+b may be 32769 if two or
  2115. * all of the coefficients were rounded up. Handle this by
  2116. * reducing the *largest* coefficient by 1; this matches the
  2117. * approach used for the default coefficients in pngrtran.c
  2118. */
  2119. int add = 0;
  2120. if (r+g+b > 32768)
  2121. add = -1;
  2122. else if (r+g+b < 32768)
  2123. add = 1;
  2124. if (add != 0)
  2125. {
  2126. if (g >= r && g >= b)
  2127. g += add;
  2128. else if (r >= g && r >= b)
  2129. r += add;
  2130. else
  2131. b += add;
  2132. }
  2133. /* Check for an internal error. */
  2134. if (r+g+b != 32768)
  2135. png_error(png_ptr,
  2136. "internal error handling cHRM coefficients");
  2137. else
  2138. {
  2139. png_ptr->rgb_to_gray_red_coeff = (png_uint_16)r;
  2140. png_ptr->rgb_to_gray_green_coeff = (png_uint_16)g;
  2141. }
  2142. }
  2143. /* This is a png_error at present even though it could be ignored -
  2144. * it should never happen, but it is important that if it does, the
  2145. * bug is fixed.
  2146. */
  2147. else
  2148. png_error(png_ptr, "internal error handling cHRM->XYZ");
  2149. }
  2150. }
  2151. #endif /* READ_RGB_TO_GRAY */
  2152. #endif /* COLORSPACE */
  2153. #ifdef __GNUC__
  2154. /* This exists solely to work round a warning from GNU C. */
  2155. static int /* PRIVATE */
  2156. png_gt(size_t a, size_t b)
  2157. {
  2158. return a > b;
  2159. }
  2160. #else
  2161. # define png_gt(a,b) ((a) > (b))
  2162. #endif
  2163. void /* PRIVATE */
  2164. png_check_IHDR(png_const_structrp png_ptr,
  2165. png_uint_32 width, png_uint_32 height, int bit_depth,
  2166. int color_type, int interlace_type, int compression_type,
  2167. int filter_type)
  2168. {
  2169. int error = 0;
  2170. /* Check for width and height valid values */
  2171. if (width == 0)
  2172. {
  2173. png_warning(png_ptr, "Image width is zero in IHDR");
  2174. error = 1;
  2175. }
  2176. if (width > PNG_UINT_31_MAX)
  2177. {
  2178. png_warning(png_ptr, "Invalid image width in IHDR");
  2179. error = 1;
  2180. }
  2181. if (png_gt(((width + 7) & (~7)),
  2182. ((PNG_SIZE_MAX
  2183. - 48 /* big_row_buf hack */
  2184. - 1) /* filter byte */
  2185. / 8) /* 8-byte RGBA pixels */
  2186. - 1)) /* extra max_pixel_depth pad */
  2187. {
  2188. /* The size of the row must be within the limits of this architecture.
  2189. * Because the read code can perform arbitrary transformations the
  2190. * maximum size is checked here. Because the code in png_read_start_row
  2191. * adds extra space "for safety's sake" in several places a conservative
  2192. * limit is used here.
  2193. *
  2194. * NOTE: it would be far better to check the size that is actually used,
  2195. * but the effect in the real world is minor and the changes are more
  2196. * extensive, therefore much more dangerous and much more difficult to
  2197. * write in a way that avoids compiler warnings.
  2198. */
  2199. png_warning(png_ptr, "Image width is too large for this architecture");
  2200. error = 1;
  2201. }
  2202. #ifdef PNG_SET_USER_LIMITS_SUPPORTED
  2203. if (width > png_ptr->user_width_max)
  2204. #else
  2205. if (width > PNG_USER_WIDTH_MAX)
  2206. #endif
  2207. {
  2208. png_warning(png_ptr, "Image width exceeds user limit in IHDR");
  2209. error = 1;
  2210. }
  2211. if (height == 0)
  2212. {
  2213. png_warning(png_ptr, "Image height is zero in IHDR");
  2214. error = 1;
  2215. }
  2216. if (height > PNG_UINT_31_MAX)
  2217. {
  2218. png_warning(png_ptr, "Invalid image height in IHDR");
  2219. error = 1;
  2220. }
  2221. #ifdef PNG_SET_USER_LIMITS_SUPPORTED
  2222. if (height > png_ptr->user_height_max)
  2223. #else
  2224. if (height > PNG_USER_HEIGHT_MAX)
  2225. #endif
  2226. {
  2227. png_warning(png_ptr, "Image height exceeds user limit in IHDR");
  2228. error = 1;
  2229. }
  2230. /* Check other values */
  2231. if (bit_depth != 1 && bit_depth != 2 && bit_depth != 4 &&
  2232. bit_depth != 8 && bit_depth != 16)
  2233. {
  2234. png_warning(png_ptr, "Invalid bit depth in IHDR");
  2235. error = 1;
  2236. }
  2237. if (color_type < 0 || color_type == 1 ||
  2238. color_type == 5 || color_type > 6)
  2239. {
  2240. png_warning(png_ptr, "Invalid color type in IHDR");
  2241. error = 1;
  2242. }
  2243. if (((color_type == PNG_COLOR_TYPE_PALETTE) && bit_depth > 8) ||
  2244. ((color_type == PNG_COLOR_TYPE_RGB ||
  2245. color_type == PNG_COLOR_TYPE_GRAY_ALPHA ||
  2246. color_type == PNG_COLOR_TYPE_RGB_ALPHA) && bit_depth < 8))
  2247. {
  2248. png_warning(png_ptr, "Invalid color type/bit depth combination in IHDR");
  2249. error = 1;
  2250. }
  2251. if (interlace_type >= PNG_INTERLACE_LAST)
  2252. {
  2253. png_warning(png_ptr, "Unknown interlace method in IHDR");
  2254. error = 1;
  2255. }
  2256. if (compression_type != PNG_COMPRESSION_TYPE_BASE)
  2257. {
  2258. png_warning(png_ptr, "Unknown compression method in IHDR");
  2259. error = 1;
  2260. }
  2261. #ifdef PNG_MNG_FEATURES_SUPPORTED
  2262. /* Accept filter_method 64 (intrapixel differencing) only if
  2263. * 1. Libpng was compiled with PNG_MNG_FEATURES_SUPPORTED and
  2264. * 2. Libpng did not read a PNG signature (this filter_method is only
  2265. * used in PNG datastreams that are embedded in MNG datastreams) and
  2266. * 3. The application called png_permit_mng_features with a mask that
  2267. * included PNG_FLAG_MNG_FILTER_64 and
  2268. * 4. The filter_method is 64 and
  2269. * 5. The color_type is RGB or RGBA
  2270. */
  2271. if ((png_ptr->mode & PNG_HAVE_PNG_SIGNATURE) != 0 &&
  2272. png_ptr->mng_features_permitted != 0)
  2273. png_warning(png_ptr, "MNG features are not allowed in a PNG datastream");
  2274. if (filter_type != PNG_FILTER_TYPE_BASE)
  2275. {
  2276. if (!((png_ptr->mng_features_permitted & PNG_FLAG_MNG_FILTER_64) != 0 &&
  2277. (filter_type == PNG_INTRAPIXEL_DIFFERENCING) &&
  2278. ((png_ptr->mode & PNG_HAVE_PNG_SIGNATURE) == 0) &&
  2279. (color_type == PNG_COLOR_TYPE_RGB ||
  2280. color_type == PNG_COLOR_TYPE_RGB_ALPHA)))
  2281. {
  2282. png_warning(png_ptr, "Unknown filter method in IHDR");
  2283. error = 1;
  2284. }
  2285. if ((png_ptr->mode & PNG_HAVE_PNG_SIGNATURE) != 0)
  2286. {
  2287. png_warning(png_ptr, "Invalid filter method in IHDR");
  2288. error = 1;
  2289. }
  2290. }
  2291. #else
  2292. if (filter_type != PNG_FILTER_TYPE_BASE)
  2293. {
  2294. png_warning(png_ptr, "Unknown filter method in IHDR");
  2295. error = 1;
  2296. }
  2297. #endif
  2298. if (error == 1)
  2299. png_error(png_ptr, "Invalid IHDR data");
  2300. }
  2301. #if defined(PNG_sCAL_SUPPORTED) || defined(PNG_pCAL_SUPPORTED)
  2302. /* ASCII to fp functions */
  2303. /* Check an ASCII formated floating point value, see the more detailed
  2304. * comments in pngpriv.h
  2305. */
  2306. /* The following is used internally to preserve the sticky flags */
  2307. #define png_fp_add(state, flags) ((state) |= (flags))
  2308. #define png_fp_set(state, value) ((state) = (value) | ((state) & PNG_FP_STICKY))
  2309. int /* PRIVATE */
  2310. png_check_fp_number(png_const_charp string, png_size_t size, int *statep,
  2311. png_size_tp whereami)
  2312. {
  2313. int state = *statep;
  2314. png_size_t i = *whereami;
  2315. while (i < size)
  2316. {
  2317. int type;
  2318. /* First find the type of the next character */
  2319. switch (string[i])
  2320. {
  2321. case 43: type = PNG_FP_SAW_SIGN; break;
  2322. case 45: type = PNG_FP_SAW_SIGN + PNG_FP_NEGATIVE; break;
  2323. case 46: type = PNG_FP_SAW_DOT; break;
  2324. case 48: type = PNG_FP_SAW_DIGIT; break;
  2325. case 49: case 50: case 51: case 52:
  2326. case 53: case 54: case 55: case 56:
  2327. case 57: type = PNG_FP_SAW_DIGIT + PNG_FP_NONZERO; break;
  2328. case 69:
  2329. case 101: type = PNG_FP_SAW_E; break;
  2330. default: goto PNG_FP_End;
  2331. }
  2332. /* Now deal with this type according to the current
  2333. * state, the type is arranged to not overlap the
  2334. * bits of the PNG_FP_STATE.
  2335. */
  2336. switch ((state & PNG_FP_STATE) + (type & PNG_FP_SAW_ANY))
  2337. {
  2338. case PNG_FP_INTEGER + PNG_FP_SAW_SIGN:
  2339. if ((state & PNG_FP_SAW_ANY) != 0)
  2340. goto PNG_FP_End; /* not a part of the number */
  2341. png_fp_add(state, type);
  2342. break;
  2343. case PNG_FP_INTEGER + PNG_FP_SAW_DOT:
  2344. /* Ok as trailer, ok as lead of fraction. */
  2345. if ((state & PNG_FP_SAW_DOT) != 0) /* two dots */
  2346. goto PNG_FP_End;
  2347. else if ((state & PNG_FP_SAW_DIGIT) != 0) /* trailing dot? */
  2348. png_fp_add(state, type);
  2349. else
  2350. png_fp_set(state, PNG_FP_FRACTION | type);
  2351. break;
  2352. case PNG_FP_INTEGER + PNG_FP_SAW_DIGIT:
  2353. if ((state & PNG_FP_SAW_DOT) != 0) /* delayed fraction */
  2354. png_fp_set(state, PNG_FP_FRACTION | PNG_FP_SAW_DOT);
  2355. png_fp_add(state, type | PNG_FP_WAS_VALID);
  2356. break;
  2357. case PNG_FP_INTEGER + PNG_FP_SAW_E:
  2358. if ((state & PNG_FP_SAW_DIGIT) == 0)
  2359. goto PNG_FP_End;
  2360. png_fp_set(state, PNG_FP_EXPONENT);
  2361. break;
  2362. /* case PNG_FP_FRACTION + PNG_FP_SAW_SIGN:
  2363. goto PNG_FP_End; ** no sign in fraction */
  2364. /* case PNG_FP_FRACTION + PNG_FP_SAW_DOT:
  2365. goto PNG_FP_End; ** Because SAW_DOT is always set */
  2366. case PNG_FP_FRACTION + PNG_FP_SAW_DIGIT:
  2367. png_fp_add(state, type | PNG_FP_WAS_VALID);
  2368. break;
  2369. case PNG_FP_FRACTION + PNG_FP_SAW_E:
  2370. /* This is correct because the trailing '.' on an
  2371. * integer is handled above - so we can only get here
  2372. * with the sequence ".E" (with no preceding digits).
  2373. */
  2374. if ((state & PNG_FP_SAW_DIGIT) == 0)
  2375. goto PNG_FP_End;
  2376. png_fp_set(state, PNG_FP_EXPONENT);
  2377. break;
  2378. case PNG_FP_EXPONENT + PNG_FP_SAW_SIGN:
  2379. if ((state & PNG_FP_SAW_ANY) != 0)
  2380. goto PNG_FP_End; /* not a part of the number */
  2381. png_fp_add(state, PNG_FP_SAW_SIGN);
  2382. break;
  2383. /* case PNG_FP_EXPONENT + PNG_FP_SAW_DOT:
  2384. goto PNG_FP_End; */
  2385. case PNG_FP_EXPONENT + PNG_FP_SAW_DIGIT:
  2386. png_fp_add(state, PNG_FP_SAW_DIGIT | PNG_FP_WAS_VALID);
  2387. break;
  2388. /* case PNG_FP_EXPONEXT + PNG_FP_SAW_E:
  2389. goto PNG_FP_End; */
  2390. default: goto PNG_FP_End; /* I.e. break 2 */
  2391. }
  2392. /* The character seems ok, continue. */
  2393. ++i;
  2394. }
  2395. PNG_FP_End:
  2396. /* Here at the end, update the state and return the correct
  2397. * return code.
  2398. */
  2399. *statep = state;
  2400. *whereami = i;
  2401. return (state & PNG_FP_SAW_DIGIT) != 0;
  2402. }
  2403. /* The same but for a complete string. */
  2404. int
  2405. png_check_fp_string(png_const_charp string, png_size_t size)
  2406. {
  2407. int state=0;
  2408. png_size_t char_index=0;
  2409. if (png_check_fp_number(string, size, &state, &char_index) != 0 &&
  2410. (char_index == size || string[char_index] == 0))
  2411. return state /* must be non-zero - see above */;
  2412. return 0; /* i.e. fail */
  2413. }
  2414. #endif /* pCAL || sCAL */
  2415. #ifdef PNG_sCAL_SUPPORTED
  2416. # ifdef PNG_FLOATING_POINT_SUPPORTED
  2417. /* Utility used below - a simple accurate power of ten from an integral
  2418. * exponent.
  2419. */
  2420. static double
  2421. png_pow10(int power)
  2422. {
  2423. int recip = 0;
  2424. double d = 1;
  2425. /* Handle negative exponent with a reciprocal at the end because
  2426. * 10 is exact whereas .1 is inexact in base 2
  2427. */
  2428. if (power < 0)
  2429. {
  2430. if (power < DBL_MIN_10_EXP) return 0;
  2431. recip = 1, power = -power;
  2432. }
  2433. if (power > 0)
  2434. {
  2435. /* Decompose power bitwise. */
  2436. double mult = 10;
  2437. do
  2438. {
  2439. if (power & 1) d *= mult;
  2440. mult *= mult;
  2441. power >>= 1;
  2442. }
  2443. while (power > 0);
  2444. if (recip != 0) d = 1/d;
  2445. }
  2446. /* else power is 0 and d is 1 */
  2447. return d;
  2448. }
  2449. /* Function to format a floating point value in ASCII with a given
  2450. * precision.
  2451. */
  2452. void /* PRIVATE */
  2453. png_ascii_from_fp(png_const_structrp png_ptr, png_charp ascii, png_size_t size,
  2454. double fp, unsigned int precision)
  2455. {
  2456. /* We use standard functions from math.h, but not printf because
  2457. * that would require stdio. The caller must supply a buffer of
  2458. * sufficient size or we will png_error. The tests on size and
  2459. * the space in ascii[] consumed are indicated below.
  2460. */
  2461. if (precision < 1)
  2462. precision = DBL_DIG;
  2463. /* Enforce the limit of the implementation precision too. */
  2464. if (precision > DBL_DIG+1)
  2465. precision = DBL_DIG+1;
  2466. /* Basic sanity checks */
  2467. if (size >= precision+5) /* See the requirements below. */
  2468. {
  2469. if (fp < 0)
  2470. {
  2471. fp = -fp;
  2472. *ascii++ = 45; /* '-' PLUS 1 TOTAL 1 */
  2473. --size;
  2474. }
  2475. if (fp >= DBL_MIN && fp <= DBL_MAX)
  2476. {
  2477. int exp_b10; /* A base 10 exponent */
  2478. double base; /* 10^exp_b10 */
  2479. /* First extract a base 10 exponent of the number,
  2480. * the calculation below rounds down when converting
  2481. * from base 2 to base 10 (multiply by log10(2) -
  2482. * 0.3010, but 77/256 is 0.3008, so exp_b10 needs to
  2483. * be increased. Note that the arithmetic shift
  2484. * performs a floor() unlike C arithmetic - using a
  2485. * C multiply would break the following for negative
  2486. * exponents.
  2487. */
  2488. (void)frexp(fp, &exp_b10); /* exponent to base 2 */
  2489. exp_b10 = (exp_b10 * 77) >> 8; /* <= exponent to base 10 */
  2490. /* Avoid underflow here. */
  2491. base = png_pow10(exp_b10); /* May underflow */
  2492. while (base < DBL_MIN || base < fp)
  2493. {
  2494. /* And this may overflow. */
  2495. double test = png_pow10(exp_b10+1);
  2496. if (test <= DBL_MAX)
  2497. ++exp_b10, base = test;
  2498. else
  2499. break;
  2500. }
  2501. /* Normalize fp and correct exp_b10, after this fp is in the
  2502. * range [.1,1) and exp_b10 is both the exponent and the digit
  2503. * *before* which the decimal point should be inserted
  2504. * (starting with 0 for the first digit). Note that this
  2505. * works even if 10^exp_b10 is out of range because of the
  2506. * test on DBL_MAX above.
  2507. */
  2508. fp /= base;
  2509. while (fp >= 1) fp /= 10, ++exp_b10;
  2510. /* Because of the code above fp may, at this point, be
  2511. * less than .1, this is ok because the code below can
  2512. * handle the leading zeros this generates, so no attempt
  2513. * is made to correct that here.
  2514. */
  2515. {
  2516. unsigned int czero, clead, cdigits;
  2517. char exponent[10];
  2518. /* Allow up to two leading zeros - this will not lengthen
  2519. * the number compared to using E-n.
  2520. */
  2521. if (exp_b10 < 0 && exp_b10 > -3) /* PLUS 3 TOTAL 4 */
  2522. {
  2523. czero = -exp_b10; /* PLUS 2 digits: TOTAL 3 */
  2524. exp_b10 = 0; /* Dot added below before first output. */
  2525. }
  2526. else
  2527. czero = 0; /* No zeros to add */
  2528. /* Generate the digit list, stripping trailing zeros and
  2529. * inserting a '.' before a digit if the exponent is 0.
  2530. */
  2531. clead = czero; /* Count of leading zeros */
  2532. cdigits = 0; /* Count of digits in list. */
  2533. do
  2534. {
  2535. double d;
  2536. fp *= 10;
  2537. /* Use modf here, not floor and subtract, so that
  2538. * the separation is done in one step. At the end
  2539. * of the loop don't break the number into parts so
  2540. * that the final digit is rounded.
  2541. */
  2542. if (cdigits+czero+1 < precision+clead)
  2543. fp = modf(fp, &d);
  2544. else
  2545. {
  2546. d = floor(fp + .5);
  2547. if (d > 9)
  2548. {
  2549. /* Rounding up to 10, handle that here. */
  2550. if (czero > 0)
  2551. {
  2552. --czero, d = 1;
  2553. if (cdigits == 0) --clead;
  2554. }
  2555. else
  2556. {
  2557. while (cdigits > 0 && d > 9)
  2558. {
  2559. int ch = *--ascii;
  2560. if (exp_b10 != (-1))
  2561. ++exp_b10;
  2562. else if (ch == 46)
  2563. {
  2564. ch = *--ascii, ++size;
  2565. /* Advance exp_b10 to '1', so that the
  2566. * decimal point happens after the
  2567. * previous digit.
  2568. */
  2569. exp_b10 = 1;
  2570. }
  2571. --cdigits;
  2572. d = ch - 47; /* I.e. 1+(ch-48) */
  2573. }
  2574. /* Did we reach the beginning? If so adjust the
  2575. * exponent but take into account the leading
  2576. * decimal point.
  2577. */
  2578. if (d > 9) /* cdigits == 0 */
  2579. {
  2580. if (exp_b10 == (-1))
  2581. {
  2582. /* Leading decimal point (plus zeros?), if
  2583. * we lose the decimal point here it must
  2584. * be reentered below.
  2585. */
  2586. int ch = *--ascii;
  2587. if (ch == 46)
  2588. ++size, exp_b10 = 1;
  2589. /* Else lost a leading zero, so 'exp_b10' is
  2590. * still ok at (-1)
  2591. */
  2592. }
  2593. else
  2594. ++exp_b10;
  2595. /* In all cases we output a '1' */
  2596. d = 1;
  2597. }
  2598. }
  2599. }
  2600. fp = 0; /* Guarantees termination below. */
  2601. }
  2602. if (d == 0)
  2603. {
  2604. ++czero;
  2605. if (cdigits == 0) ++clead;
  2606. }
  2607. else
  2608. {
  2609. /* Included embedded zeros in the digit count. */
  2610. cdigits += czero - clead;
  2611. clead = 0;
  2612. while (czero > 0)
  2613. {
  2614. /* exp_b10 == (-1) means we just output the decimal
  2615. * place - after the DP don't adjust 'exp_b10' any
  2616. * more!
  2617. */
  2618. if (exp_b10 != (-1))
  2619. {
  2620. if (exp_b10 == 0) *ascii++ = 46, --size;
  2621. /* PLUS 1: TOTAL 4 */
  2622. --exp_b10;
  2623. }
  2624. *ascii++ = 48, --czero;
  2625. }
  2626. if (exp_b10 != (-1))
  2627. {
  2628. if (exp_b10 == 0)
  2629. *ascii++ = 46, --size; /* counted above */
  2630. --exp_b10;
  2631. }
  2632. *ascii++ = (char)(48 + (int)d), ++cdigits;
  2633. }
  2634. }
  2635. while (cdigits+czero < precision+clead && fp > DBL_MIN);
  2636. /* The total output count (max) is now 4+precision */
  2637. /* Check for an exponent, if we don't need one we are
  2638. * done and just need to terminate the string. At
  2639. * this point exp_b10==(-1) is effectively if flag - it got
  2640. * to '-1' because of the decrement after outputting
  2641. * the decimal point above (the exponent required is
  2642. * *not* -1!)
  2643. */
  2644. if (exp_b10 >= (-1) && exp_b10 <= 2)
  2645. {
  2646. /* The following only happens if we didn't output the
  2647. * leading zeros above for negative exponent, so this
  2648. * doesn't add to the digit requirement. Note that the
  2649. * two zeros here can only be output if the two leading
  2650. * zeros were *not* output, so this doesn't increase
  2651. * the output count.
  2652. */
  2653. while (--exp_b10 >= 0) *ascii++ = 48;
  2654. *ascii = 0;
  2655. /* Total buffer requirement (including the '\0') is
  2656. * 5+precision - see check at the start.
  2657. */
  2658. return;
  2659. }
  2660. /* Here if an exponent is required, adjust size for
  2661. * the digits we output but did not count. The total
  2662. * digit output here so far is at most 1+precision - no
  2663. * decimal point and no leading or trailing zeros have
  2664. * been output.
  2665. */
  2666. size -= cdigits;
  2667. *ascii++ = 69, --size; /* 'E': PLUS 1 TOTAL 2+precision */
  2668. /* The following use of an unsigned temporary avoids ambiguities in
  2669. * the signed arithmetic on exp_b10 and permits GCC at least to do
  2670. * better optimization.
  2671. */
  2672. {
  2673. unsigned int uexp_b10;
  2674. if (exp_b10 < 0)
  2675. {
  2676. *ascii++ = 45, --size; /* '-': PLUS 1 TOTAL 3+precision */
  2677. uexp_b10 = -exp_b10;
  2678. }
  2679. else
  2680. uexp_b10 = exp_b10;
  2681. cdigits = 0;
  2682. while (uexp_b10 > 0)
  2683. {
  2684. exponent[cdigits++] = (char)(48 + uexp_b10 % 10);
  2685. uexp_b10 /= 10;
  2686. }
  2687. }
  2688. /* Need another size check here for the exponent digits, so
  2689. * this need not be considered above.
  2690. */
  2691. if (size > cdigits)
  2692. {
  2693. while (cdigits > 0) *ascii++ = exponent[--cdigits];
  2694. *ascii = 0;
  2695. return;
  2696. }
  2697. }
  2698. }
  2699. else if (!(fp >= DBL_MIN))
  2700. {
  2701. *ascii++ = 48; /* '0' */
  2702. *ascii = 0;
  2703. return;
  2704. }
  2705. else
  2706. {
  2707. *ascii++ = 105; /* 'i' */
  2708. *ascii++ = 110; /* 'n' */
  2709. *ascii++ = 102; /* 'f' */
  2710. *ascii = 0;
  2711. return;
  2712. }
  2713. }
  2714. /* Here on buffer too small. */
  2715. png_error(png_ptr, "ASCII conversion buffer too small");
  2716. }
  2717. # endif /* FLOATING_POINT */
  2718. # ifdef PNG_FIXED_POINT_SUPPORTED
  2719. /* Function to format a fixed point value in ASCII.
  2720. */
  2721. void /* PRIVATE */
  2722. png_ascii_from_fixed(png_const_structrp png_ptr, png_charp ascii,
  2723. png_size_t size, png_fixed_point fp)
  2724. {
  2725. /* Require space for 10 decimal digits, a decimal point, a minus sign and a
  2726. * trailing \0, 13 characters:
  2727. */
  2728. if (size > 12)
  2729. {
  2730. png_uint_32 num;
  2731. /* Avoid overflow here on the minimum integer. */
  2732. if (fp < 0)
  2733. *ascii++ = 45, num = -fp;
  2734. else
  2735. num = fp;
  2736. if (num <= 0x80000000) /* else overflowed */
  2737. {
  2738. unsigned int ndigits = 0, first = 16 /* flag value */;
  2739. char digits[10];
  2740. while (num)
  2741. {
  2742. /* Split the low digit off num: */
  2743. unsigned int tmp = num/10;
  2744. num -= tmp*10;
  2745. digits[ndigits++] = (char)(48 + num);
  2746. /* Record the first non-zero digit, note that this is a number
  2747. * starting at 1, it's not actually the array index.
  2748. */
  2749. if (first == 16 && num > 0)
  2750. first = ndigits;
  2751. num = tmp;
  2752. }
  2753. if (ndigits > 0)
  2754. {
  2755. while (ndigits > 5) *ascii++ = digits[--ndigits];
  2756. /* The remaining digits are fractional digits, ndigits is '5' or
  2757. * smaller at this point. It is certainly not zero. Check for a
  2758. * non-zero fractional digit:
  2759. */
  2760. if (first <= 5)
  2761. {
  2762. unsigned int i;
  2763. *ascii++ = 46; /* decimal point */
  2764. /* ndigits may be <5 for small numbers, output leading zeros
  2765. * then ndigits digits to first:
  2766. */
  2767. i = 5;
  2768. while (ndigits < i) *ascii++ = 48, --i;
  2769. while (ndigits >= first) *ascii++ = digits[--ndigits];
  2770. /* Don't output the trailing zeros! */
  2771. }
  2772. }
  2773. else
  2774. *ascii++ = 48;
  2775. /* And null terminate the string: */
  2776. *ascii = 0;
  2777. return;
  2778. }
  2779. }
  2780. /* Here on buffer too small. */
  2781. png_error(png_ptr, "ASCII conversion buffer too small");
  2782. }
  2783. # endif /* FIXED_POINT */
  2784. #endif /* SCAL */
  2785. #if defined(PNG_FLOATING_POINT_SUPPORTED) && \
  2786. !defined(PNG_FIXED_POINT_MACRO_SUPPORTED) && \
  2787. (defined(PNG_gAMA_SUPPORTED) || defined(PNG_cHRM_SUPPORTED) || \
  2788. defined(PNG_sCAL_SUPPORTED) || defined(PNG_READ_BACKGROUND_SUPPORTED) || \
  2789. defined(PNG_READ_RGB_TO_GRAY_SUPPORTED)) || \
  2790. (defined(PNG_sCAL_SUPPORTED) && \
  2791. defined(PNG_FLOATING_ARITHMETIC_SUPPORTED))
  2792. png_fixed_point
  2793. png_fixed(png_const_structrp png_ptr, double fp, png_const_charp text)
  2794. {
  2795. double r = floor(100000 * fp + .5);
  2796. if (r > 2147483647. || r < -2147483648.)
  2797. png_fixed_error(png_ptr, text);
  2798. # ifndef PNG_ERROR_TEXT_SUPPORTED
  2799. PNG_UNUSED(text)
  2800. # endif
  2801. return (png_fixed_point)r;
  2802. }
  2803. #endif
  2804. #if defined(PNG_GAMMA_SUPPORTED) || defined(PNG_COLORSPACE_SUPPORTED) ||\
  2805. defined(PNG_INCH_CONVERSIONS_SUPPORTED) || defined(PNG_READ_pHYs_SUPPORTED)
  2806. /* muldiv functions */
  2807. /* This API takes signed arguments and rounds the result to the nearest
  2808. * integer (or, for a fixed point number - the standard argument - to
  2809. * the nearest .00001). Overflow and divide by zero are signalled in
  2810. * the result, a boolean - true on success, false on overflow.
  2811. */
  2812. int
  2813. png_muldiv(png_fixed_point_p res, png_fixed_point a, png_int_32 times,
  2814. png_int_32 divisor)
  2815. {
  2816. /* Return a * times / divisor, rounded. */
  2817. if (divisor != 0)
  2818. {
  2819. if (a == 0 || times == 0)
  2820. {
  2821. *res = 0;
  2822. return 1;
  2823. }
  2824. else
  2825. {
  2826. #ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  2827. double r = a;
  2828. r *= times;
  2829. r /= divisor;
  2830. r = floor(r+.5);
  2831. /* A png_fixed_point is a 32-bit integer. */
  2832. if (r <= 2147483647. && r >= -2147483648.)
  2833. {
  2834. *res = (png_fixed_point)r;
  2835. return 1;
  2836. }
  2837. #else
  2838. int negative = 0;
  2839. png_uint_32 A, T, D;
  2840. png_uint_32 s16, s32, s00;
  2841. if (a < 0)
  2842. negative = 1, A = -a;
  2843. else
  2844. A = a;
  2845. if (times < 0)
  2846. negative = !negative, T = -times;
  2847. else
  2848. T = times;
  2849. if (divisor < 0)
  2850. negative = !negative, D = -divisor;
  2851. else
  2852. D = divisor;
  2853. /* Following can't overflow because the arguments only
  2854. * have 31 bits each, however the result may be 32 bits.
  2855. */
  2856. s16 = (A >> 16) * (T & 0xffff) +
  2857. (A & 0xffff) * (T >> 16);
  2858. /* Can't overflow because the a*times bit is only 30
  2859. * bits at most.
  2860. */
  2861. s32 = (A >> 16) * (T >> 16) + (s16 >> 16);
  2862. s00 = (A & 0xffff) * (T & 0xffff);
  2863. s16 = (s16 & 0xffff) << 16;
  2864. s00 += s16;
  2865. if (s00 < s16)
  2866. ++s32; /* carry */
  2867. if (s32 < D) /* else overflow */
  2868. {
  2869. /* s32.s00 is now the 64-bit product, do a standard
  2870. * division, we know that s32 < D, so the maximum
  2871. * required shift is 31.
  2872. */
  2873. int bitshift = 32;
  2874. png_fixed_point result = 0; /* NOTE: signed */
  2875. while (--bitshift >= 0)
  2876. {
  2877. png_uint_32 d32, d00;
  2878. if (bitshift > 0)
  2879. d32 = D >> (32-bitshift), d00 = D << bitshift;
  2880. else
  2881. d32 = 0, d00 = D;
  2882. if (s32 > d32)
  2883. {
  2884. if (s00 < d00) --s32; /* carry */
  2885. s32 -= d32, s00 -= d00, result += 1<<bitshift;
  2886. }
  2887. else
  2888. if (s32 == d32 && s00 >= d00)
  2889. s32 = 0, s00 -= d00, result += 1<<bitshift;
  2890. }
  2891. /* Handle the rounding. */
  2892. if (s00 >= (D >> 1))
  2893. ++result;
  2894. if (negative != 0)
  2895. result = -result;
  2896. /* Check for overflow. */
  2897. if ((negative != 0 && result <= 0) ||
  2898. (negative == 0 && result >= 0))
  2899. {
  2900. *res = result;
  2901. return 1;
  2902. }
  2903. }
  2904. #endif
  2905. }
  2906. }
  2907. return 0;
  2908. }
  2909. #endif /* READ_GAMMA || INCH_CONVERSIONS */
  2910. #if defined(PNG_READ_GAMMA_SUPPORTED) || defined(PNG_INCH_CONVERSIONS_SUPPORTED)
  2911. /* The following is for when the caller doesn't much care about the
  2912. * result.
  2913. */
  2914. png_fixed_point
  2915. png_muldiv_warn(png_const_structrp png_ptr, png_fixed_point a, png_int_32 times,
  2916. png_int_32 divisor)
  2917. {
  2918. png_fixed_point result;
  2919. if (png_muldiv(&result, a, times, divisor) != 0)
  2920. return result;
  2921. png_warning(png_ptr, "fixed point overflow ignored");
  2922. return 0;
  2923. }
  2924. #endif
  2925. #ifdef PNG_GAMMA_SUPPORTED /* more fixed point functions for gamma */
  2926. /* Calculate a reciprocal, return 0 on div-by-zero or overflow. */
  2927. png_fixed_point
  2928. png_reciprocal(png_fixed_point a)
  2929. {
  2930. #ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  2931. double r = floor(1E10/a+.5);
  2932. if (r <= 2147483647. && r >= -2147483648.)
  2933. return (png_fixed_point)r;
  2934. #else
  2935. png_fixed_point res;
  2936. if (png_muldiv(&res, 100000, 100000, a) != 0)
  2937. return res;
  2938. #endif
  2939. return 0; /* error/overflow */
  2940. }
  2941. /* This is the shared test on whether a gamma value is 'significant' - whether
  2942. * it is worth doing gamma correction.
  2943. */
  2944. int /* PRIVATE */
  2945. png_gamma_significant(png_fixed_point gamma_val)
  2946. {
  2947. return gamma_val < PNG_FP_1 - PNG_GAMMA_THRESHOLD_FIXED ||
  2948. gamma_val > PNG_FP_1 + PNG_GAMMA_THRESHOLD_FIXED;
  2949. }
  2950. #endif
  2951. #ifdef PNG_READ_GAMMA_SUPPORTED
  2952. #ifdef PNG_16BIT_SUPPORTED
  2953. /* A local convenience routine. */
  2954. static png_fixed_point
  2955. png_product2(png_fixed_point a, png_fixed_point b)
  2956. {
  2957. /* The required result is 1/a * 1/b; the following preserves accuracy. */
  2958. #ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  2959. double r = a * 1E-5;
  2960. r *= b;
  2961. r = floor(r+.5);
  2962. if (r <= 2147483647. && r >= -2147483648.)
  2963. return (png_fixed_point)r;
  2964. #else
  2965. png_fixed_point res;
  2966. if (png_muldiv(&res, a, b, 100000) != 0)
  2967. return res;
  2968. #endif
  2969. return 0; /* overflow */
  2970. }
  2971. #endif /* 16BIT */
  2972. /* The inverse of the above. */
  2973. png_fixed_point
  2974. png_reciprocal2(png_fixed_point a, png_fixed_point b)
  2975. {
  2976. /* The required result is 1/a * 1/b; the following preserves accuracy. */
  2977. #ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  2978. if (a != 0 && b != 0)
  2979. {
  2980. double r = 1E15/a;
  2981. r /= b;
  2982. r = floor(r+.5);
  2983. if (r <= 2147483647. && r >= -2147483648.)
  2984. return (png_fixed_point)r;
  2985. }
  2986. #else
  2987. /* This may overflow because the range of png_fixed_point isn't symmetric,
  2988. * but this API is only used for the product of file and screen gamma so it
  2989. * doesn't matter that the smallest number it can produce is 1/21474, not
  2990. * 1/100000
  2991. */
  2992. png_fixed_point res = png_product2(a, b);
  2993. if (res != 0)
  2994. return png_reciprocal(res);
  2995. #endif
  2996. return 0; /* overflow */
  2997. }
  2998. #endif /* READ_GAMMA */
  2999. #ifdef PNG_READ_GAMMA_SUPPORTED /* gamma table code */
  3000. #ifndef PNG_FLOATING_ARITHMETIC_SUPPORTED
  3001. /* Fixed point gamma.
  3002. *
  3003. * The code to calculate the tables used below can be found in the shell script
  3004. * contrib/tools/intgamma.sh
  3005. *
  3006. * To calculate gamma this code implements fast log() and exp() calls using only
  3007. * fixed point arithmetic. This code has sufficient precision for either 8-bit
  3008. * or 16-bit sample values.
  3009. *
  3010. * The tables used here were calculated using simple 'bc' programs, but C double
  3011. * precision floating point arithmetic would work fine.
  3012. *
  3013. * 8-bit log table
  3014. * This is a table of -log(value/255)/log(2) for 'value' in the range 128 to
  3015. * 255, so it's the base 2 logarithm of a normalized 8-bit floating point
  3016. * mantissa. The numbers are 32-bit fractions.
  3017. */
  3018. static const png_uint_32
  3019. png_8bit_l2[128] =
  3020. {
  3021. 4270715492U, 4222494797U, 4174646467U, 4127164793U, 4080044201U, 4033279239U,
  3022. 3986864580U, 3940795015U, 3895065449U, 3849670902U, 3804606499U, 3759867474U,
  3023. 3715449162U, 3671346997U, 3627556511U, 3584073329U, 3540893168U, 3498011834U,
  3024. 3455425220U, 3413129301U, 3371120137U, 3329393864U, 3287946700U, 3246774933U,
  3025. 3205874930U, 3165243125U, 3124876025U, 3084770202U, 3044922296U, 3005329011U,
  3026. 2965987113U, 2926893432U, 2888044853U, 2849438323U, 2811070844U, 2772939474U,
  3027. 2735041326U, 2697373562U, 2659933400U, 2622718104U, 2585724991U, 2548951424U,
  3028. 2512394810U, 2476052606U, 2439922311U, 2404001468U, 2368287663U, 2332778523U,
  3029. 2297471715U, 2262364947U, 2227455964U, 2192742551U, 2158222529U, 2123893754U,
  3030. 2089754119U, 2055801552U, 2022034013U, 1988449497U, 1955046031U, 1921821672U,
  3031. 1888774511U, 1855902668U, 1823204291U, 1790677560U, 1758320682U, 1726131893U,
  3032. 1694109454U, 1662251657U, 1630556815U, 1599023271U, 1567649391U, 1536433567U,
  3033. 1505374214U, 1474469770U, 1443718700U, 1413119487U, 1382670639U, 1352370686U,
  3034. 1322218179U, 1292211689U, 1262349810U, 1232631153U, 1203054352U, 1173618059U,
  3035. 1144320946U, 1115161701U, 1086139034U, 1057251672U, 1028498358U, 999877854U,
  3036. 971388940U, 943030410U, 914801076U, 886699767U, 858725327U, 830876614U,
  3037. 803152505U, 775551890U, 748073672U, 720716771U, 693480120U, 666362667U,
  3038. 639363374U, 612481215U, 585715177U, 559064263U, 532527486U, 506103872U,
  3039. 479792461U, 453592303U, 427502463U, 401522014U, 375650043U, 349885648U,
  3040. 324227938U, 298676034U, 273229066U, 247886176U, 222646516U, 197509248U,
  3041. 172473545U, 147538590U, 122703574U, 97967701U, 73330182U, 48790236U,
  3042. 24347096U, 0U
  3043. #if 0
  3044. /* The following are the values for 16-bit tables - these work fine for the
  3045. * 8-bit conversions but produce very slightly larger errors in the 16-bit
  3046. * log (about 1.2 as opposed to 0.7 absolute error in the final value). To
  3047. * use these all the shifts below must be adjusted appropriately.
  3048. */
  3049. 65166, 64430, 63700, 62976, 62257, 61543, 60835, 60132, 59434, 58741, 58054,
  3050. 57371, 56693, 56020, 55352, 54689, 54030, 53375, 52726, 52080, 51439, 50803,
  3051. 50170, 49542, 48918, 48298, 47682, 47070, 46462, 45858, 45257, 44661, 44068,
  3052. 43479, 42894, 42312, 41733, 41159, 40587, 40020, 39455, 38894, 38336, 37782,
  3053. 37230, 36682, 36137, 35595, 35057, 34521, 33988, 33459, 32932, 32408, 31887,
  3054. 31369, 30854, 30341, 29832, 29325, 28820, 28319, 27820, 27324, 26830, 26339,
  3055. 25850, 25364, 24880, 24399, 23920, 23444, 22970, 22499, 22029, 21562, 21098,
  3056. 20636, 20175, 19718, 19262, 18808, 18357, 17908, 17461, 17016, 16573, 16132,
  3057. 15694, 15257, 14822, 14390, 13959, 13530, 13103, 12678, 12255, 11834, 11415,
  3058. 10997, 10582, 10168, 9756, 9346, 8937, 8531, 8126, 7723, 7321, 6921, 6523,
  3059. 6127, 5732, 5339, 4947, 4557, 4169, 3782, 3397, 3014, 2632, 2251, 1872, 1495,
  3060. 1119, 744, 372
  3061. #endif
  3062. };
  3063. static png_int_32
  3064. png_log8bit(unsigned int x)
  3065. {
  3066. unsigned int lg2 = 0;
  3067. /* Each time 'x' is multiplied by 2, 1 must be subtracted off the final log,
  3068. * because the log is actually negate that means adding 1. The final
  3069. * returned value thus has the range 0 (for 255 input) to 7.994 (for 1
  3070. * input), return -1 for the overflow (log 0) case, - so the result is
  3071. * always at most 19 bits.
  3072. */
  3073. if ((x &= 0xff) == 0)
  3074. return -1;
  3075. if ((x & 0xf0) == 0)
  3076. lg2 = 4, x <<= 4;
  3077. if ((x & 0xc0) == 0)
  3078. lg2 += 2, x <<= 2;
  3079. if ((x & 0x80) == 0)
  3080. lg2 += 1, x <<= 1;
  3081. /* result is at most 19 bits, so this cast is safe: */
  3082. return (png_int_32)((lg2 << 16) + ((png_8bit_l2[x-128]+32768)>>16));
  3083. }
  3084. /* The above gives exact (to 16 binary places) log2 values for 8-bit images,
  3085. * for 16-bit images we use the most significant 8 bits of the 16-bit value to
  3086. * get an approximation then multiply the approximation by a correction factor
  3087. * determined by the remaining up to 8 bits. This requires an additional step
  3088. * in the 16-bit case.
  3089. *
  3090. * We want log2(value/65535), we have log2(v'/255), where:
  3091. *
  3092. * value = v' * 256 + v''
  3093. * = v' * f
  3094. *
  3095. * So f is value/v', which is equal to (256+v''/v') since v' is in the range 128
  3096. * to 255 and v'' is in the range 0 to 255 f will be in the range 256 to less
  3097. * than 258. The final factor also needs to correct for the fact that our 8-bit
  3098. * value is scaled by 255, whereas the 16-bit values must be scaled by 65535.
  3099. *
  3100. * This gives a final formula using a calculated value 'x' which is value/v' and
  3101. * scaling by 65536 to match the above table:
  3102. *
  3103. * log2(x/257) * 65536
  3104. *
  3105. * Since these numbers are so close to '1' we can use simple linear
  3106. * interpolation between the two end values 256/257 (result -368.61) and 258/257
  3107. * (result 367.179). The values used below are scaled by a further 64 to give
  3108. * 16-bit precision in the interpolation:
  3109. *
  3110. * Start (256): -23591
  3111. * Zero (257): 0
  3112. * End (258): 23499
  3113. */
  3114. #ifdef PNG_16BIT_SUPPORTED
  3115. static png_int_32
  3116. png_log16bit(png_uint_32 x)
  3117. {
  3118. unsigned int lg2 = 0;
  3119. /* As above, but now the input has 16 bits. */
  3120. if ((x &= 0xffff) == 0)
  3121. return -1;
  3122. if ((x & 0xff00) == 0)
  3123. lg2 = 8, x <<= 8;
  3124. if ((x & 0xf000) == 0)
  3125. lg2 += 4, x <<= 4;
  3126. if ((x & 0xc000) == 0)
  3127. lg2 += 2, x <<= 2;
  3128. if ((x & 0x8000) == 0)
  3129. lg2 += 1, x <<= 1;
  3130. /* Calculate the base logarithm from the top 8 bits as a 28-bit fractional
  3131. * value.
  3132. */
  3133. lg2 <<= 28;
  3134. lg2 += (png_8bit_l2[(x>>8)-128]+8) >> 4;
  3135. /* Now we need to interpolate the factor, this requires a division by the top
  3136. * 8 bits. Do this with maximum precision.
  3137. */
  3138. x = ((x << 16) + (x >> 9)) / (x >> 8);
  3139. /* Since we divided by the top 8 bits of 'x' there will be a '1' at 1<<24,
  3140. * the value at 1<<16 (ignoring this) will be 0 or 1; this gives us exactly
  3141. * 16 bits to interpolate to get the low bits of the result. Round the
  3142. * answer. Note that the end point values are scaled by 64 to retain overall
  3143. * precision and that 'lg2' is current scaled by an extra 12 bits, so adjust
  3144. * the overall scaling by 6-12. Round at every step.
  3145. */
  3146. x -= 1U << 24;
  3147. if (x <= 65536U) /* <= '257' */
  3148. lg2 += ((23591U * (65536U-x)) + (1U << (16+6-12-1))) >> (16+6-12);
  3149. else
  3150. lg2 -= ((23499U * (x-65536U)) + (1U << (16+6-12-1))) >> (16+6-12);
  3151. /* Safe, because the result can't have more than 20 bits: */
  3152. return (png_int_32)((lg2 + 2048) >> 12);
  3153. }
  3154. #endif /* 16BIT */
  3155. /* The 'exp()' case must invert the above, taking a 20-bit fixed point
  3156. * logarithmic value and returning a 16 or 8-bit number as appropriate. In
  3157. * each case only the low 16 bits are relevant - the fraction - since the
  3158. * integer bits (the top 4) simply determine a shift.
  3159. *
  3160. * The worst case is the 16-bit distinction between 65535 and 65534. This
  3161. * requires perhaps spurious accuracy in the decoding of the logarithm to
  3162. * distinguish log2(65535/65534.5) - 10^-5 or 17 bits. There is little chance
  3163. * of getting this accuracy in practice.
  3164. *
  3165. * To deal with this the following exp() function works out the exponent of the
  3166. * frational part of the logarithm by using an accurate 32-bit value from the
  3167. * top four fractional bits then multiplying in the remaining bits.
  3168. */
  3169. static const png_uint_32
  3170. png_32bit_exp[16] =
  3171. {
  3172. /* NOTE: the first entry is deliberately set to the maximum 32-bit value. */
  3173. 4294967295U, 4112874773U, 3938502376U, 3771522796U, 3611622603U, 3458501653U,
  3174. 3311872529U, 3171459999U, 3037000500U, 2908241642U, 2784941738U, 2666869345U,
  3175. 2553802834U, 2445529972U, 2341847524U, 2242560872U
  3176. };
  3177. /* Adjustment table; provided to explain the numbers in the code below. */
  3178. #if 0
  3179. for (i=11;i>=0;--i){ print i, " ", (1 - e(-(2^i)/65536*l(2))) * 2^(32-i), "\n"}
  3180. 11 44937.64284865548751208448
  3181. 10 45180.98734845585101160448
  3182. 9 45303.31936980687359311872
  3183. 8 45364.65110595323018870784
  3184. 7 45395.35850361789624614912
  3185. 6 45410.72259715102037508096
  3186. 5 45418.40724413220722311168
  3187. 4 45422.25021786898173001728
  3188. 3 45424.17186732298419044352
  3189. 2 45425.13273269940811464704
  3190. 1 45425.61317555035558641664
  3191. 0 45425.85339951654943850496
  3192. #endif
  3193. static png_uint_32
  3194. png_exp(png_fixed_point x)
  3195. {
  3196. if (x > 0 && x <= 0xfffff) /* Else overflow or zero (underflow) */
  3197. {
  3198. /* Obtain a 4-bit approximation */
  3199. png_uint_32 e = png_32bit_exp[(x >> 12) & 0x0f];
  3200. /* Incorporate the low 12 bits - these decrease the returned value by
  3201. * multiplying by a number less than 1 if the bit is set. The multiplier
  3202. * is determined by the above table and the shift. Notice that the values
  3203. * converge on 45426 and this is used to allow linear interpolation of the
  3204. * low bits.
  3205. */
  3206. if (x & 0x800)
  3207. e -= (((e >> 16) * 44938U) + 16U) >> 5;
  3208. if (x & 0x400)
  3209. e -= (((e >> 16) * 45181U) + 32U) >> 6;
  3210. if (x & 0x200)
  3211. e -= (((e >> 16) * 45303U) + 64U) >> 7;
  3212. if (x & 0x100)
  3213. e -= (((e >> 16) * 45365U) + 128U) >> 8;
  3214. if (x & 0x080)
  3215. e -= (((e >> 16) * 45395U) + 256U) >> 9;
  3216. if (x & 0x040)
  3217. e -= (((e >> 16) * 45410U) + 512U) >> 10;
  3218. /* And handle the low 6 bits in a single block. */
  3219. e -= (((e >> 16) * 355U * (x & 0x3fU)) + 256U) >> 9;
  3220. /* Handle the upper bits of x. */
  3221. e >>= x >> 16;
  3222. return e;
  3223. }
  3224. /* Check for overflow */
  3225. if (x <= 0)
  3226. return png_32bit_exp[0];
  3227. /* Else underflow */
  3228. return 0;
  3229. }
  3230. static png_byte
  3231. png_exp8bit(png_fixed_point lg2)
  3232. {
  3233. /* Get a 32-bit value: */
  3234. png_uint_32 x = png_exp(lg2);
  3235. /* Convert the 32-bit value to 0..255 by multiplying by 256-1. Note that the
  3236. * second, rounding, step can't overflow because of the first, subtraction,
  3237. * step.
  3238. */
  3239. x -= x >> 8;
  3240. return (png_byte)(((x + 0x7fffffU) >> 24) & 0xff);
  3241. }
  3242. #ifdef PNG_16BIT_SUPPORTED
  3243. static png_uint_16
  3244. png_exp16bit(png_fixed_point lg2)
  3245. {
  3246. /* Get a 32-bit value: */
  3247. png_uint_32 x = png_exp(lg2);
  3248. /* Convert the 32-bit value to 0..65535 by multiplying by 65536-1: */
  3249. x -= x >> 16;
  3250. return (png_uint_16)((x + 32767U) >> 16);
  3251. }
  3252. #endif /* 16BIT */
  3253. #endif /* FLOATING_ARITHMETIC */
  3254. png_byte
  3255. png_gamma_8bit_correct(unsigned int value, png_fixed_point gamma_val)
  3256. {
  3257. if (value > 0 && value < 255)
  3258. {
  3259. # ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  3260. /* 'value' is unsigned, ANSI-C90 requires the compiler to correctly
  3261. * convert this to a floating point value. This includes values that
  3262. * would overflow if 'value' were to be converted to 'int'.
  3263. *
  3264. * Apparently GCC, however, does an intermediate conversion to (int)
  3265. * on some (ARM) but not all (x86) platforms, possibly because of
  3266. * hardware FP limitations. (E.g. if the hardware conversion always
  3267. * assumes the integer register contains a signed value.) This results
  3268. * in ANSI-C undefined behavior for large values.
  3269. *
  3270. * Other implementations on the same machine might actually be ANSI-C90
  3271. * conformant and therefore compile spurious extra code for the large
  3272. * values.
  3273. *
  3274. * We can be reasonably sure that an unsigned to float conversion
  3275. * won't be faster than an int to float one. Therefore this code
  3276. * assumes responsibility for the undefined behavior, which it knows
  3277. * can't happen because of the check above.
  3278. *
  3279. * Note the argument to this routine is an (unsigned int) because, on
  3280. * 16-bit platforms, it is assigned a value which might be out of
  3281. * range for an (int); that would result in undefined behavior in the
  3282. * caller if the *argument* ('value') were to be declared (int).
  3283. */
  3284. double r = floor(255*pow((int)/*SAFE*/value/255.,gamma_val*.00001)+.5);
  3285. return (png_byte)r;
  3286. # else
  3287. png_int_32 lg2 = png_log8bit(value);
  3288. png_fixed_point res;
  3289. if (png_muldiv(&res, gamma_val, lg2, PNG_FP_1) != 0)
  3290. return png_exp8bit(res);
  3291. /* Overflow. */
  3292. value = 0;
  3293. # endif
  3294. }
  3295. return (png_byte)(value & 0xff);
  3296. }
  3297. #ifdef PNG_16BIT_SUPPORTED
  3298. png_uint_16
  3299. png_gamma_16bit_correct(unsigned int value, png_fixed_point gamma_val)
  3300. {
  3301. if (value > 0 && value < 65535)
  3302. {
  3303. # ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  3304. /* The same (unsigned int)->(double) constraints apply here as above,
  3305. * however in this case the (unsigned int) to (int) conversion can
  3306. * overflow on an ANSI-C90 compliant system so the cast needs to ensure
  3307. * that this is not possible.
  3308. */
  3309. double r = floor(65535*pow((png_int_32)value/65535.,
  3310. gamma_val*.00001)+.5);
  3311. return (png_uint_16)r;
  3312. # else
  3313. png_int_32 lg2 = png_log16bit(value);
  3314. png_fixed_point res;
  3315. if (png_muldiv(&res, gamma_val, lg2, PNG_FP_1) != 0)
  3316. return png_exp16bit(res);
  3317. /* Overflow. */
  3318. value = 0;
  3319. # endif
  3320. }
  3321. return (png_uint_16)value;
  3322. }
  3323. #endif /* 16BIT */
  3324. /* This does the right thing based on the bit_depth field of the
  3325. * png_struct, interpreting values as 8-bit or 16-bit. While the result
  3326. * is nominally a 16-bit value if bit depth is 8 then the result is
  3327. * 8-bit (as are the arguments.)
  3328. */
  3329. png_uint_16 /* PRIVATE */
  3330. png_gamma_correct(png_structrp png_ptr, unsigned int value,
  3331. png_fixed_point gamma_val)
  3332. {
  3333. if (png_ptr->bit_depth == 8)
  3334. return png_gamma_8bit_correct(value, gamma_val);
  3335. #ifdef PNG_16BIT_SUPPORTED
  3336. else
  3337. return png_gamma_16bit_correct(value, gamma_val);
  3338. #else
  3339. /* should not reach this */
  3340. return 0;
  3341. #endif /* 16BIT */
  3342. }
  3343. #ifdef PNG_16BIT_SUPPORTED
  3344. /* Internal function to build a single 16-bit table - the table consists of
  3345. * 'num' 256 entry subtables, where 'num' is determined by 'shift' - the amount
  3346. * to shift the input values right (or 16-number_of_signifiant_bits).
  3347. *
  3348. * The caller is responsible for ensuring that the table gets cleaned up on
  3349. * png_error (i.e. if one of the mallocs below fails) - i.e. the *table argument
  3350. * should be somewhere that will be cleaned.
  3351. */
  3352. static void
  3353. png_build_16bit_table(png_structrp png_ptr, png_uint_16pp *ptable,
  3354. PNG_CONST unsigned int shift, PNG_CONST png_fixed_point gamma_val)
  3355. {
  3356. /* Various values derived from 'shift': */
  3357. PNG_CONST unsigned int num = 1U << (8U - shift);
  3358. #ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  3359. /* CSE the division and work round wacky GCC warnings (see the comments
  3360. * in png_gamma_8bit_correct for where these come from.)
  3361. */
  3362. PNG_CONST double fmax = 1./(((png_int_32)1 << (16U - shift))-1);
  3363. #endif
  3364. PNG_CONST unsigned int max = (1U << (16U - shift))-1U;
  3365. PNG_CONST unsigned int max_by_2 = 1U << (15U-shift);
  3366. unsigned int i;
  3367. png_uint_16pp table = *ptable =
  3368. (png_uint_16pp)png_calloc(png_ptr, num * (sizeof (png_uint_16p)));
  3369. for (i = 0; i < num; i++)
  3370. {
  3371. png_uint_16p sub_table = table[i] =
  3372. (png_uint_16p)png_malloc(png_ptr, 256 * (sizeof (png_uint_16)));
  3373. /* The 'threshold' test is repeated here because it can arise for one of
  3374. * the 16-bit tables even if the others don't hit it.
  3375. */
  3376. if (png_gamma_significant(gamma_val) != 0)
  3377. {
  3378. /* The old code would overflow at the end and this would cause the
  3379. * 'pow' function to return a result >1, resulting in an
  3380. * arithmetic error. This code follows the spec exactly; ig is
  3381. * the recovered input sample, it always has 8-16 bits.
  3382. *
  3383. * We want input * 65535/max, rounded, the arithmetic fits in 32
  3384. * bits (unsigned) so long as max <= 32767.
  3385. */
  3386. unsigned int j;
  3387. for (j = 0; j < 256; j++)
  3388. {
  3389. png_uint_32 ig = (j << (8-shift)) + i;
  3390. # ifdef PNG_FLOATING_ARITHMETIC_SUPPORTED
  3391. /* Inline the 'max' scaling operation: */
  3392. /* See png_gamma_8bit_correct for why the cast to (int) is
  3393. * required here.
  3394. */
  3395. double d = floor(65535.*pow(ig*fmax, gamma_val*.00001)+.5);
  3396. sub_table[j] = (png_uint_16)d;
  3397. # else
  3398. if (shift != 0)
  3399. ig = (ig * 65535U + max_by_2)/max;
  3400. sub_table[j] = png_gamma_16bit_correct(ig, gamma_val);
  3401. # endif
  3402. }
  3403. }
  3404. else
  3405. {
  3406. /* We must still build a table, but do it the fast way. */
  3407. unsigned int j;
  3408. for (j = 0; j < 256; j++)
  3409. {
  3410. png_uint_32 ig = (j << (8-shift)) + i;
  3411. if (shift != 0)
  3412. ig = (ig * 65535U + max_by_2)/max;
  3413. sub_table[j] = (png_uint_16)ig;
  3414. }
  3415. }
  3416. }
  3417. }
  3418. /* NOTE: this function expects the *inverse* of the overall gamma transformation
  3419. * required.
  3420. */
  3421. static void
  3422. png_build_16to8_table(png_structrp png_ptr, png_uint_16pp *ptable,
  3423. PNG_CONST unsigned int shift, PNG_CONST png_fixed_point gamma_val)
  3424. {
  3425. PNG_CONST unsigned int num = 1U << (8U - shift);
  3426. PNG_CONST unsigned int max = (1U << (16U - shift))-1U;
  3427. unsigned int i;
  3428. png_uint_32 last;
  3429. png_uint_16pp table = *ptable =
  3430. (png_uint_16pp)png_calloc(png_ptr, num * (sizeof (png_uint_16p)));
  3431. /* 'num' is the number of tables and also the number of low bits of low
  3432. * bits of the input 16-bit value used to select a table. Each table is
  3433. * itself indexed by the high 8 bits of the value.
  3434. */
  3435. for (i = 0; i < num; i++)
  3436. table[i] = (png_uint_16p)png_malloc(png_ptr,
  3437. 256 * (sizeof (png_uint_16)));
  3438. /* 'gamma_val' is set to the reciprocal of the value calculated above, so
  3439. * pow(out,g) is an *input* value. 'last' is the last input value set.
  3440. *
  3441. * In the loop 'i' is used to find output values. Since the output is
  3442. * 8-bit there are only 256 possible values. The tables are set up to
  3443. * select the closest possible output value for each input by finding
  3444. * the input value at the boundary between each pair of output values
  3445. * and filling the table up to that boundary with the lower output
  3446. * value.
  3447. *
  3448. * The boundary values are 0.5,1.5..253.5,254.5. Since these are 9-bit
  3449. * values the code below uses a 16-bit value in i; the values start at
  3450. * 128.5 (for 0.5) and step by 257, for a total of 254 values (the last
  3451. * entries are filled with 255). Start i at 128 and fill all 'last'
  3452. * table entries <= 'max'
  3453. */
  3454. last = 0;
  3455. for (i = 0; i < 255; ++i) /* 8-bit output value */
  3456. {
  3457. /* Find the corresponding maximum input value */
  3458. png_uint_16 out = (png_uint_16)(i * 257U); /* 16-bit output value */
  3459. /* Find the boundary value in 16 bits: */
  3460. png_uint_32 bound = png_gamma_16bit_correct(out+128U, gamma_val);
  3461. /* Adjust (round) to (16-shift) bits: */
  3462. bound = (bound * max + 32768U)/65535U + 1U;
  3463. while (last < bound)
  3464. {
  3465. table[last & (0xffU >> shift)][last >> (8U - shift)] = out;
  3466. last++;
  3467. }
  3468. }
  3469. /* And fill in the final entries. */
  3470. while (last < (num << 8))
  3471. {
  3472. table[last & (0xff >> shift)][last >> (8U - shift)] = 65535U;
  3473. last++;
  3474. }
  3475. }
  3476. #endif /* 16BIT */
  3477. /* Build a single 8-bit table: same as the 16-bit case but much simpler (and
  3478. * typically much faster). Note that libpng currently does no sBIT processing
  3479. * (apparently contrary to the spec) so a 256-entry table is always generated.
  3480. */
  3481. static void
  3482. png_build_8bit_table(png_structrp png_ptr, png_bytepp ptable,
  3483. PNG_CONST png_fixed_point gamma_val)
  3484. {
  3485. unsigned int i;
  3486. png_bytep table = *ptable = (png_bytep)png_malloc(png_ptr, 256);
  3487. if (png_gamma_significant(gamma_val) != 0)
  3488. for (i=0; i<256; i++)
  3489. table[i] = png_gamma_8bit_correct(i, gamma_val);
  3490. else
  3491. for (i=0; i<256; ++i)
  3492. table[i] = (png_byte)(i & 0xff);
  3493. }
  3494. /* Used from png_read_destroy and below to release the memory used by the gamma
  3495. * tables.
  3496. */
  3497. void /* PRIVATE */
  3498. png_destroy_gamma_table(png_structrp png_ptr)
  3499. {
  3500. png_free(png_ptr, png_ptr->gamma_table);
  3501. png_ptr->gamma_table = NULL;
  3502. #ifdef PNG_16BIT_SUPPORTED
  3503. if (png_ptr->gamma_16_table != NULL)
  3504. {
  3505. int i;
  3506. int istop = (1 << (8 - png_ptr->gamma_shift));
  3507. for (i = 0; i < istop; i++)
  3508. {
  3509. png_free(png_ptr, png_ptr->gamma_16_table[i]);
  3510. }
  3511. png_free(png_ptr, png_ptr->gamma_16_table);
  3512. png_ptr->gamma_16_table = NULL;
  3513. }
  3514. #endif /* 16BIT */
  3515. #if defined(PNG_READ_BACKGROUND_SUPPORTED) || \
  3516. defined(PNG_READ_ALPHA_MODE_SUPPORTED) || \
  3517. defined(PNG_READ_RGB_TO_GRAY_SUPPORTED)
  3518. png_free(png_ptr, png_ptr->gamma_from_1);
  3519. png_ptr->gamma_from_1 = NULL;
  3520. png_free(png_ptr, png_ptr->gamma_to_1);
  3521. png_ptr->gamma_to_1 = NULL;
  3522. #ifdef PNG_16BIT_SUPPORTED
  3523. if (png_ptr->gamma_16_from_1 != NULL)
  3524. {
  3525. int i;
  3526. int istop = (1 << (8 - png_ptr->gamma_shift));
  3527. for (i = 0; i < istop; i++)
  3528. {
  3529. png_free(png_ptr, png_ptr->gamma_16_from_1[i]);
  3530. }
  3531. png_free(png_ptr, png_ptr->gamma_16_from_1);
  3532. png_ptr->gamma_16_from_1 = NULL;
  3533. }
  3534. if (png_ptr->gamma_16_to_1 != NULL)
  3535. {
  3536. int i;
  3537. int istop = (1 << (8 - png_ptr->gamma_shift));
  3538. for (i = 0; i < istop; i++)
  3539. {
  3540. png_free(png_ptr, png_ptr->gamma_16_to_1[i]);
  3541. }
  3542. png_free(png_ptr, png_ptr->gamma_16_to_1);
  3543. png_ptr->gamma_16_to_1 = NULL;
  3544. }
  3545. #endif /* 16BIT */
  3546. #endif /* READ_BACKGROUND || READ_ALPHA_MODE || RGB_TO_GRAY */
  3547. }
  3548. /* We build the 8- or 16-bit gamma tables here. Note that for 16-bit
  3549. * tables, we don't make a full table if we are reducing to 8-bit in
  3550. * the future. Note also how the gamma_16 tables are segmented so that
  3551. * we don't need to allocate > 64K chunks for a full 16-bit table.
  3552. */
  3553. void /* PRIVATE */
  3554. png_build_gamma_table(png_structrp png_ptr, int bit_depth)
  3555. {
  3556. png_debug(1, "in png_build_gamma_table");
  3557. /* Remove any existing table; this copes with multiple calls to
  3558. * png_read_update_info. The warning is because building the gamma tables
  3559. * multiple times is a performance hit - it's harmless but the ability to call
  3560. * png_read_update_info() multiple times is new in 1.5.6 so it seems sensible
  3561. * to warn if the app introduces such a hit.
  3562. */
  3563. if (png_ptr->gamma_table != NULL || png_ptr->gamma_16_table != NULL)
  3564. {
  3565. png_warning(png_ptr, "gamma table being rebuilt");
  3566. png_destroy_gamma_table(png_ptr);
  3567. }
  3568. if (bit_depth <= 8)
  3569. {
  3570. png_build_8bit_table(png_ptr, &png_ptr->gamma_table,
  3571. png_ptr->screen_gamma > 0 ? png_reciprocal2(png_ptr->colorspace.gamma,
  3572. png_ptr->screen_gamma) : PNG_FP_1);
  3573. #if defined(PNG_READ_BACKGROUND_SUPPORTED) || \
  3574. defined(PNG_READ_ALPHA_MODE_SUPPORTED) || \
  3575. defined(PNG_READ_RGB_TO_GRAY_SUPPORTED)
  3576. if ((png_ptr->transformations & (PNG_COMPOSE | PNG_RGB_TO_GRAY)) != 0)
  3577. {
  3578. png_build_8bit_table(png_ptr, &png_ptr->gamma_to_1,
  3579. png_reciprocal(png_ptr->colorspace.gamma));
  3580. png_build_8bit_table(png_ptr, &png_ptr->gamma_from_1,
  3581. png_ptr->screen_gamma > 0 ? png_reciprocal(png_ptr->screen_gamma) :
  3582. png_ptr->colorspace.gamma/* Probably doing rgb_to_gray */);
  3583. }
  3584. #endif /* READ_BACKGROUND || READ_ALPHA_MODE || RGB_TO_GRAY */
  3585. }
  3586. #ifdef PNG_16BIT_SUPPORTED
  3587. else
  3588. {
  3589. png_byte shift, sig_bit;
  3590. if ((png_ptr->color_type & PNG_COLOR_MASK_COLOR) != 0)
  3591. {
  3592. sig_bit = png_ptr->sig_bit.red;
  3593. if (png_ptr->sig_bit.green > sig_bit)
  3594. sig_bit = png_ptr->sig_bit.green;
  3595. if (png_ptr->sig_bit.blue > sig_bit)
  3596. sig_bit = png_ptr->sig_bit.blue;
  3597. }
  3598. else
  3599. sig_bit = png_ptr->sig_bit.gray;
  3600. /* 16-bit gamma code uses this equation:
  3601. *
  3602. * ov = table[(iv & 0xff) >> gamma_shift][iv >> 8]
  3603. *
  3604. * Where 'iv' is the input color value and 'ov' is the output value -
  3605. * pow(iv, gamma).
  3606. *
  3607. * Thus the gamma table consists of up to 256 256-entry tables. The table
  3608. * is selected by the (8-gamma_shift) most significant of the low 8 bits of
  3609. * the color value then indexed by the upper 8 bits:
  3610. *
  3611. * table[low bits][high 8 bits]
  3612. *
  3613. * So the table 'n' corresponds to all those 'iv' of:
  3614. *
  3615. * <all high 8-bit values><n << gamma_shift>..<(n+1 << gamma_shift)-1>
  3616. *
  3617. */
  3618. if (sig_bit > 0 && sig_bit < 16U)
  3619. /* shift == insignificant bits */
  3620. shift = (png_byte)((16U - sig_bit) & 0xff);
  3621. else
  3622. shift = 0; /* keep all 16 bits */
  3623. if ((png_ptr->transformations & (PNG_16_TO_8 | PNG_SCALE_16_TO_8)) != 0)
  3624. {
  3625. /* PNG_MAX_GAMMA_8 is the number of bits to keep - effectively
  3626. * the significant bits in the *input* when the output will
  3627. * eventually be 8 bits. By default it is 11.
  3628. */
  3629. if (shift < (16U - PNG_MAX_GAMMA_8))
  3630. shift = (16U - PNG_MAX_GAMMA_8);
  3631. }
  3632. if (shift > 8U)
  3633. shift = 8U; /* Guarantees at least one table! */
  3634. png_ptr->gamma_shift = shift;
  3635. /* NOTE: prior to 1.5.4 this test used to include PNG_BACKGROUND (now
  3636. * PNG_COMPOSE). This effectively smashed the background calculation for
  3637. * 16-bit output because the 8-bit table assumes the result will be reduced
  3638. * to 8 bits.
  3639. */
  3640. if ((png_ptr->transformations & (PNG_16_TO_8 | PNG_SCALE_16_TO_8)) != 0)
  3641. png_build_16to8_table(png_ptr, &png_ptr->gamma_16_table, shift,
  3642. png_ptr->screen_gamma > 0 ? png_product2(png_ptr->colorspace.gamma,
  3643. png_ptr->screen_gamma) : PNG_FP_1);
  3644. else
  3645. png_build_16bit_table(png_ptr, &png_ptr->gamma_16_table, shift,
  3646. png_ptr->screen_gamma > 0 ? png_reciprocal2(png_ptr->colorspace.gamma,
  3647. png_ptr->screen_gamma) : PNG_FP_1);
  3648. #if defined(PNG_READ_BACKGROUND_SUPPORTED) || \
  3649. defined(PNG_READ_ALPHA_MODE_SUPPORTED) || \
  3650. defined(PNG_READ_RGB_TO_GRAY_SUPPORTED)
  3651. if ((png_ptr->transformations & (PNG_COMPOSE | PNG_RGB_TO_GRAY)) != 0)
  3652. {
  3653. png_build_16bit_table(png_ptr, &png_ptr->gamma_16_to_1, shift,
  3654. png_reciprocal(png_ptr->colorspace.gamma));
  3655. /* Notice that the '16 from 1' table should be full precision, however
  3656. * the lookup on this table still uses gamma_shift, so it can't be.
  3657. * TODO: fix this.
  3658. */
  3659. png_build_16bit_table(png_ptr, &png_ptr->gamma_16_from_1, shift,
  3660. png_ptr->screen_gamma > 0 ? png_reciprocal(png_ptr->screen_gamma) :
  3661. png_ptr->colorspace.gamma/* Probably doing rgb_to_gray */);
  3662. }
  3663. #endif /* READ_BACKGROUND || READ_ALPHA_MODE || RGB_TO_GRAY */
  3664. }
  3665. #endif /* 16BIT */
  3666. }
  3667. #endif /* READ_GAMMA */
  3668. /* HARDWARE OR SOFTWARE OPTION SUPPORT */
  3669. #ifdef PNG_SET_OPTION_SUPPORTED
  3670. int PNGAPI
  3671. png_set_option(png_structrp png_ptr, int option, int onoff)
  3672. {
  3673. if (png_ptr != NULL && option >= 0 && option < PNG_OPTION_NEXT &&
  3674. (option & 1) == 0)
  3675. {
  3676. int mask = 3 << option;
  3677. int setting = (2 + (onoff != 0)) << option;
  3678. int current = png_ptr->options;
  3679. png_ptr->options = (png_byte)(((current & ~mask) | setting) & 0xff);
  3680. return (current & mask) >> option;
  3681. }
  3682. return PNG_OPTION_INVALID;
  3683. }
  3684. #endif
  3685. /* sRGB support */
  3686. #if defined(PNG_SIMPLIFIED_READ_SUPPORTED) ||\
  3687. defined(PNG_SIMPLIFIED_WRITE_SUPPORTED)
  3688. /* sRGB conversion tables; these are machine generated with the code in
  3689. * contrib/tools/makesRGB.c. The actual sRGB transfer curve defined in the
  3690. * specification (see the article at http://en.wikipedia.org/wiki/SRGB)
  3691. * is used, not the gamma=1/2.2 approximation use elsewhere in libpng.
  3692. * The sRGB to linear table is exact (to the nearest 16-bit linear fraction).
  3693. * The inverse (linear to sRGB) table has accuracies as follows:
  3694. *
  3695. * For all possible (255*65535+1) input values:
  3696. *
  3697. * error: -0.515566 - 0.625971, 79441 (0.475369%) of readings inexact
  3698. *
  3699. * For the input values corresponding to the 65536 16-bit values:
  3700. *
  3701. * error: -0.513727 - 0.607759, 308 (0.469978%) of readings inexact
  3702. *
  3703. * In all cases the inexact readings are only off by one.
  3704. */
  3705. #ifdef PNG_SIMPLIFIED_READ_SUPPORTED
  3706. /* The convert-to-sRGB table is only currently required for read. */
  3707. const png_uint_16 png_sRGB_table[256] =
  3708. {
  3709. 0,20,40,60,80,99,119,139,
  3710. 159,179,199,219,241,264,288,313,
  3711. 340,367,396,427,458,491,526,562,
  3712. 599,637,677,718,761,805,851,898,
  3713. 947,997,1048,1101,1156,1212,1270,1330,
  3714. 1391,1453,1517,1583,1651,1720,1790,1863,
  3715. 1937,2013,2090,2170,2250,2333,2418,2504,
  3716. 2592,2681,2773,2866,2961,3058,3157,3258,
  3717. 3360,3464,3570,3678,3788,3900,4014,4129,
  3718. 4247,4366,4488,4611,4736,4864,4993,5124,
  3719. 5257,5392,5530,5669,5810,5953,6099,6246,
  3720. 6395,6547,6700,6856,7014,7174,7335,7500,
  3721. 7666,7834,8004,8177,8352,8528,8708,8889,
  3722. 9072,9258,9445,9635,9828,10022,10219,10417,
  3723. 10619,10822,11028,11235,11446,11658,11873,12090,
  3724. 12309,12530,12754,12980,13209,13440,13673,13909,
  3725. 14146,14387,14629,14874,15122,15371,15623,15878,
  3726. 16135,16394,16656,16920,17187,17456,17727,18001,
  3727. 18277,18556,18837,19121,19407,19696,19987,20281,
  3728. 20577,20876,21177,21481,21787,22096,22407,22721,
  3729. 23038,23357,23678,24002,24329,24658,24990,25325,
  3730. 25662,26001,26344,26688,27036,27386,27739,28094,
  3731. 28452,28813,29176,29542,29911,30282,30656,31033,
  3732. 31412,31794,32179,32567,32957,33350,33745,34143,
  3733. 34544,34948,35355,35764,36176,36591,37008,37429,
  3734. 37852,38278,38706,39138,39572,40009,40449,40891,
  3735. 41337,41785,42236,42690,43147,43606,44069,44534,
  3736. 45002,45473,45947,46423,46903,47385,47871,48359,
  3737. 48850,49344,49841,50341,50844,51349,51858,52369,
  3738. 52884,53401,53921,54445,54971,55500,56032,56567,
  3739. 57105,57646,58190,58737,59287,59840,60396,60955,
  3740. 61517,62082,62650,63221,63795,64372,64952,65535
  3741. };
  3742. #endif /* SIMPLIFIED_READ */
  3743. /* The base/delta tables are required for both read and write (but currently
  3744. * only the simplified versions.)
  3745. */
  3746. const png_uint_16 png_sRGB_base[512] =
  3747. {
  3748. 128,1782,3383,4644,5675,6564,7357,8074,
  3749. 8732,9346,9921,10463,10977,11466,11935,12384,
  3750. 12816,13233,13634,14024,14402,14769,15125,15473,
  3751. 15812,16142,16466,16781,17090,17393,17690,17981,
  3752. 18266,18546,18822,19093,19359,19621,19879,20133,
  3753. 20383,20630,20873,21113,21349,21583,21813,22041,
  3754. 22265,22487,22707,22923,23138,23350,23559,23767,
  3755. 23972,24175,24376,24575,24772,24967,25160,25352,
  3756. 25542,25730,25916,26101,26284,26465,26645,26823,
  3757. 27000,27176,27350,27523,27695,27865,28034,28201,
  3758. 28368,28533,28697,28860,29021,29182,29341,29500,
  3759. 29657,29813,29969,30123,30276,30429,30580,30730,
  3760. 30880,31028,31176,31323,31469,31614,31758,31902,
  3761. 32045,32186,32327,32468,32607,32746,32884,33021,
  3762. 33158,33294,33429,33564,33697,33831,33963,34095,
  3763. 34226,34357,34486,34616,34744,34873,35000,35127,
  3764. 35253,35379,35504,35629,35753,35876,35999,36122,
  3765. 36244,36365,36486,36606,36726,36845,36964,37083,
  3766. 37201,37318,37435,37551,37668,37783,37898,38013,
  3767. 38127,38241,38354,38467,38580,38692,38803,38915,
  3768. 39026,39136,39246,39356,39465,39574,39682,39790,
  3769. 39898,40005,40112,40219,40325,40431,40537,40642,
  3770. 40747,40851,40955,41059,41163,41266,41369,41471,
  3771. 41573,41675,41777,41878,41979,42079,42179,42279,
  3772. 42379,42478,42577,42676,42775,42873,42971,43068,
  3773. 43165,43262,43359,43456,43552,43648,43743,43839,
  3774. 43934,44028,44123,44217,44311,44405,44499,44592,
  3775. 44685,44778,44870,44962,45054,45146,45238,45329,
  3776. 45420,45511,45601,45692,45782,45872,45961,46051,
  3777. 46140,46229,46318,46406,46494,46583,46670,46758,
  3778. 46846,46933,47020,47107,47193,47280,47366,47452,
  3779. 47538,47623,47709,47794,47879,47964,48048,48133,
  3780. 48217,48301,48385,48468,48552,48635,48718,48801,
  3781. 48884,48966,49048,49131,49213,49294,49376,49458,
  3782. 49539,49620,49701,49782,49862,49943,50023,50103,
  3783. 50183,50263,50342,50422,50501,50580,50659,50738,
  3784. 50816,50895,50973,51051,51129,51207,51285,51362,
  3785. 51439,51517,51594,51671,51747,51824,51900,51977,
  3786. 52053,52129,52205,52280,52356,52432,52507,52582,
  3787. 52657,52732,52807,52881,52956,53030,53104,53178,
  3788. 53252,53326,53400,53473,53546,53620,53693,53766,
  3789. 53839,53911,53984,54056,54129,54201,54273,54345,
  3790. 54417,54489,54560,54632,54703,54774,54845,54916,
  3791. 54987,55058,55129,55199,55269,55340,55410,55480,
  3792. 55550,55620,55689,55759,55828,55898,55967,56036,
  3793. 56105,56174,56243,56311,56380,56448,56517,56585,
  3794. 56653,56721,56789,56857,56924,56992,57059,57127,
  3795. 57194,57261,57328,57395,57462,57529,57595,57662,
  3796. 57728,57795,57861,57927,57993,58059,58125,58191,
  3797. 58256,58322,58387,58453,58518,58583,58648,58713,
  3798. 58778,58843,58908,58972,59037,59101,59165,59230,
  3799. 59294,59358,59422,59486,59549,59613,59677,59740,
  3800. 59804,59867,59930,59993,60056,60119,60182,60245,
  3801. 60308,60370,60433,60495,60558,60620,60682,60744,
  3802. 60806,60868,60930,60992,61054,61115,61177,61238,
  3803. 61300,61361,61422,61483,61544,61605,61666,61727,
  3804. 61788,61848,61909,61969,62030,62090,62150,62211,
  3805. 62271,62331,62391,62450,62510,62570,62630,62689,
  3806. 62749,62808,62867,62927,62986,63045,63104,63163,
  3807. 63222,63281,63340,63398,63457,63515,63574,63632,
  3808. 63691,63749,63807,63865,63923,63981,64039,64097,
  3809. 64155,64212,64270,64328,64385,64443,64500,64557,
  3810. 64614,64672,64729,64786,64843,64900,64956,65013,
  3811. 65070,65126,65183,65239,65296,65352,65409,65465
  3812. };
  3813. const png_byte png_sRGB_delta[512] =
  3814. {
  3815. 207,201,158,129,113,100,90,82,77,72,68,64,61,59,56,54,
  3816. 52,50,49,47,46,45,43,42,41,40,39,39,38,37,36,36,
  3817. 35,34,34,33,33,32,32,31,31,30,30,30,29,29,28,28,
  3818. 28,27,27,27,27,26,26,26,25,25,25,25,24,24,24,24,
  3819. 23,23,23,23,23,22,22,22,22,22,22,21,21,21,21,21,
  3820. 21,20,20,20,20,20,20,20,20,19,19,19,19,19,19,19,
  3821. 19,18,18,18,18,18,18,18,18,18,18,17,17,17,17,17,
  3822. 17,17,17,17,17,17,16,16,16,16,16,16,16,16,16,16,
  3823. 16,16,16,16,15,15,15,15,15,15,15,15,15,15,15,15,
  3824. 15,15,15,15,14,14,14,14,14,14,14,14,14,14,14,14,
  3825. 14,14,14,14,14,14,14,13,13,13,13,13,13,13,13,13,
  3826. 13,13,13,13,13,13,13,13,13,13,13,13,13,13,12,12,
  3827. 12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,
  3828. 12,12,12,12,12,12,12,12,12,12,12,12,11,11,11,11,
  3829. 11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,
  3830. 11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,11,
  3831. 11,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,
  3832. 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,
  3833. 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,
  3834. 10,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,
  3835. 9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,
  3836. 9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,
  3837. 9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,
  3838. 9,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
  3839. 8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
  3840. 8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
  3841. 8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
  3842. 8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,8,
  3843. 8,8,8,8,8,8,8,8,8,7,7,7,7,7,7,7,
  3844. 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
  3845. 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
  3846. 7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7
  3847. };
  3848. #endif /* SIMPLIFIED READ/WRITE sRGB support */
  3849. /* SIMPLIFIED READ/WRITE SUPPORT */
  3850. #if defined(PNG_SIMPLIFIED_READ_SUPPORTED) ||\
  3851. defined(PNG_SIMPLIFIED_WRITE_SUPPORTED)
  3852. static int
  3853. png_image_free_function(png_voidp argument)
  3854. {
  3855. png_imagep image = png_voidcast(png_imagep, argument);
  3856. png_controlp cp = image->opaque;
  3857. png_control c;
  3858. /* Double check that we have a png_ptr - it should be impossible to get here
  3859. * without one.
  3860. */
  3861. if (cp->png_ptr == NULL)
  3862. return 0;
  3863. /* First free any data held in the control structure. */
  3864. # ifdef PNG_STDIO_SUPPORTED
  3865. if (cp->owned_file != 0)
  3866. {
  3867. FILE *fp = png_voidcast(FILE*, cp->png_ptr->io_ptr);
  3868. cp->owned_file = 0;
  3869. /* Ignore errors here. */
  3870. if (fp != NULL)
  3871. {
  3872. cp->png_ptr->io_ptr = NULL;
  3873. (void)fclose(fp);
  3874. }
  3875. }
  3876. # endif
  3877. /* Copy the control structure so that the original, allocated, version can be
  3878. * safely freed. Notice that a png_error here stops the remainder of the
  3879. * cleanup, but this is probably fine because that would indicate bad memory
  3880. * problems anyway.
  3881. */
  3882. c = *cp;
  3883. image->opaque = &c;
  3884. png_free(c.png_ptr, cp);
  3885. /* Then the structures, calling the correct API. */
  3886. if (c.for_write != 0)
  3887. {
  3888. # ifdef PNG_SIMPLIFIED_WRITE_SUPPORTED
  3889. png_destroy_write_struct(&c.png_ptr, &c.info_ptr);
  3890. # else
  3891. png_error(c.png_ptr, "simplified write not supported");
  3892. # endif
  3893. }
  3894. else
  3895. {
  3896. # ifdef PNG_SIMPLIFIED_READ_SUPPORTED
  3897. png_destroy_read_struct(&c.png_ptr, &c.info_ptr, NULL);
  3898. # else
  3899. png_error(c.png_ptr, "simplified read not supported");
  3900. # endif
  3901. }
  3902. /* Success. */
  3903. return 1;
  3904. }
  3905. void PNGAPI
  3906. png_image_free(png_imagep image)
  3907. {
  3908. /* Safely call the real function, but only if doing so is safe at this point
  3909. * (if not inside an error handling context). Otherwise assume
  3910. * png_safe_execute will call this API after the return.
  3911. */
  3912. if (image != NULL && image->opaque != NULL &&
  3913. image->opaque->error_buf == NULL)
  3914. {
  3915. /* Ignore errors here: */
  3916. (void)png_safe_execute(image, png_image_free_function, image);
  3917. image->opaque = NULL;
  3918. }
  3919. }
  3920. int /* PRIVATE */
  3921. png_image_error(png_imagep image, png_const_charp error_message)
  3922. {
  3923. /* Utility to log an error. */
  3924. png_safecat(image->message, (sizeof image->message), 0, error_message);
  3925. image->warning_or_error |= PNG_IMAGE_ERROR;
  3926. png_image_free(image);
  3927. return 0;
  3928. }
  3929. #endif /* SIMPLIFIED READ/WRITE */
  3930. #endif /* READ || WRITE */