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rspamd/contrib/libucl/ucl_util.c

ucl_util.c 81KB
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
  1. /* Copyright (c) 2013, Vsevolod Stakhov

  2.  * Copyright (c) 2015 Allan Jude <allanjude@freebsd.org>

  3.  * All rights reserved.

  4.  *

  5.  * Redistribution and use in source and binary forms, with or without

  6.  * modification, are permitted provided that the following conditions are met:

  7.  *       * Redistributions of source code must retain the above copyright

  8.  *         notice, this list of conditions and the following disclaimer.

  9.  *       * Redistributions in binary form must reproduce the above copyright

  10.  *         notice, this list of conditions and the following disclaimer in the

  11.  *         documentation and/or other materials provided with the distribution.

  12.  *

  13.  * THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY

  14.  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED

  15.  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE

  16.  * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY

  17.  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES

  18.  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;

  19.  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND

  20.  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

  21.  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

  22.  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

  23.  */

  24. 

  25. #include "ucl.h"

  26. #include "ucl_internal.h"

  27. #include "ucl_chartable.h"

  28. #include "kvec.h"

  29. #include <limits.h>

  30. #include <stdarg.h>

  31. #include <stdio.h> /* for snprintf */

  32. 

  33. #ifndef _WIN32

  34. #include <glob.h>

  35. #include <sys/param.h>

  36. #else

  37. #ifndef NBBY

  38. #define NBBY 8

  39. #endif

  40. #endif

  41. 

  42. #ifdef HAVE_LIBGEN_H

  43. #ifndef _WIN32

  44. #  include <libgen.h> /* For dirname */

  45. #endif

  46. #endif

  47. 

  48. typedef kvec_t(ucl_object_t *) ucl_array_t;

  49. 

  50. #define UCL_ARRAY_GET(ar, obj) ucl_array_t *ar = \

  51. 	(ucl_array_t *)((obj) != NULL ? (obj)->value.av : NULL)

  52. 

  53. #ifdef HAVE_OPENSSL

  54. #include <openssl/err.h>

  55. #include <openssl/sha.h>

  56. #include <openssl/rsa.h>

  57. #include <openssl/ssl.h>

  58. #include <openssl/evp.h>

  59. #endif

  60. 

  61. #ifdef CURL_FOUND

  62. /* Seems to be broken */

  63. #define CURL_DISABLE_TYPECHECK 1

  64. #include <curl/curl.h>

  65. #endif

  66. #ifdef HAVE_FETCH_H

  67. #include <fetch.h>

  68. #endif

  69. 

  70. #if defined(_MSC_VER)

  71. #include <windows.h>

  72. #include <io.h>

  73. #include <direct.h>

  74. 

  75. #ifndef PROT_READ

  76. #define PROT_READ       1

  77. #endif

  78. #ifndef PROT_WRITE

  79. #define PROT_WRITE      2

  80. #endif

  81. #ifndef PROT_READWRITE

  82. #define PROT_READWRITE  3

  83. #endif

  84. #ifndef MAP_SHARED

  85. #define MAP_SHARED      1

  86. #endif

  87. #ifndef MAP_PRIVATE

  88. #define MAP_PRIVATE     2

  89. #endif

  90. #ifndef MAP_FAILED

  91. #define MAP_FAILED      ((void *) -1)

  92. #endif

  93. 

  94. #define getcwd _getcwd

  95. #define open _open

  96. #define close _close

  97. 

  98. static void *ucl_mmap(char *addr, size_t length, int prot, int access, int fd, off_t offset)

  99. {

  100. 	void *map = NULL;

  101. 	HANDLE handle = INVALID_HANDLE_VALUE;

  102. 

  103. 	switch (prot) {

  104. 	default:

  105. 	case PROT_READ:

  106. 		{

  107. 			handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READONLY, 0, length, 0);

  108. 			if (!handle) break;

  109. 			map = (void *) MapViewOfFile(handle, FILE_MAP_READ, 0, 0, length);

  110. 			CloseHandle(handle);

  111. 			break;

  112. 		}

  113. 	case PROT_WRITE:

  114. 		{

  115. 			handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READWRITE, 0, length, 0);

  116. 			if (!handle) break;

  117. 			map = (void *) MapViewOfFile(handle, FILE_MAP_WRITE, 0, 0, length);

  118. 			CloseHandle(handle);

  119. 			break;

  120. 		}

  121. 	case PROT_READWRITE:

  122. 		{

  123. 			handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READWRITE, 0, length, 0);

  124. 			if (!handle) break;

  125. 			map = (void *) MapViewOfFile(handle, FILE_MAP_ALL_ACCESS, 0, 0, length);

  126. 			CloseHandle(handle);

  127. 			break;

  128. 		}

  129. 	}

  130. 	if (map == (void *) NULL) {

  131. 		return (void *) MAP_FAILED;

  132. 	}

  133. 	return (void *) ((char *) map + offset);

  134. }

  135. 

  136. static int ucl_munmap(void *map,size_t length)

  137. {

  138. 	if (!UnmapViewOfFile(map)) {

  139. 		return(-1);

  140. 	}

  141. 	return(0);

  142. }

  143. 

  144. static char* ucl_realpath(const char *path, char *resolved_path)

  145. {

  146. 	char *p;

  147. 	char tmp[MAX_PATH + 1];

  148. 	strncpy(tmp, path, sizeof(tmp)-1);

  149. 	p = tmp;

  150. 	while(*p) {

  151. 		if (*p == '/') *p = '\\';

  152. 		p++;

  153. 	}

  154. 	return _fullpath(resolved_path, tmp, MAX_PATH);

  155. }

  156. 

  157. 

  158. char *dirname(char *path)

  159. {

  160. 	static char path_buffer[_MAX_PATH];

  161. 	char drive[_MAX_DRIVE];

  162. 	char dir[_MAX_DIR];

  163. 	char fname[_MAX_FNAME];

  164. 	char ext[_MAX_EXT];

  165. 

  166. 	_splitpath (path, drive, dir, fname, ext);

  167. 	_makepath(path_buffer, drive, dir, NULL, NULL);

  168. 

  169. 	return path_buffer;

  170. }

  171. 

  172. char *basename(char *path)

  173. {

  174. 	static char path_buffer[_MAX_PATH];

  175. 	char drive[_MAX_DRIVE];

  176. 	char dir[_MAX_DIR];

  177. 	char fname[_MAX_FNAME];

  178. 	char ext[_MAX_EXT];

  179. 

  180. 	_splitpath(path, drive, dir, fname, ext);

  181. 	_makepath(path_buffer, NULL, NULL, fname, ext);

  182. 

  183. 	return path_buffer;

  184. }

  185. #else

  186. #define ucl_mmap mmap

  187. #define ucl_munmap munmap

  188. #define ucl_realpath realpath

  189. #endif

  190. 

  191. typedef void (*ucl_object_dtor) (ucl_object_t *obj);

  192. static void ucl_object_free_internal (ucl_object_t *obj, bool allow_rec,

  193. 		ucl_object_dtor dtor);

  194. static void ucl_object_dtor_unref (ucl_object_t *obj);

  195. 

  196. static void

  197. ucl_object_dtor_free (ucl_object_t *obj)

  198. {

  199. 	if (obj->trash_stack[UCL_TRASH_KEY] != NULL) {

  200. 		UCL_FREE (obj->hh.keylen, obj->trash_stack[UCL_TRASH_KEY]);

  201. 	}

  202. 	if (obj->trash_stack[UCL_TRASH_VALUE] != NULL) {

  203. 		UCL_FREE (obj->len, obj->trash_stack[UCL_TRASH_VALUE]);

  204. 	}

  205. 	/* Do not free ephemeral objects */

  206. 	if ((obj->flags & UCL_OBJECT_EPHEMERAL) == 0) {

  207. 		if (obj->type != UCL_USERDATA) {

  208. 			UCL_FREE (sizeof (ucl_object_t), obj);

  209. 		}

  210. 		else {

  211. 			struct ucl_object_userdata *ud = (struct ucl_object_userdata *)obj;

  212. 			if (ud->dtor) {

  213. 				ud->dtor (obj->value.ud);

  214. 			}

  215. 			UCL_FREE (sizeof (*ud), obj);

  216. 		}

  217. 	}

  218. }

  219. 

  220. /*

  221.  * This is a helper function that performs exactly the same as

  222.  * `ucl_object_unref` but it doesn't iterate over elements allowing

  223.  * to use it for individual elements of arrays and multiple values

  224.  */

  225. static void

  226. ucl_object_dtor_unref_single (ucl_object_t *obj)

  227. {

  228. 	if (obj != NULL) {

  229. #ifdef HAVE_ATOMIC_BUILTINS

  230. 		unsigned int rc = __sync_sub_and_fetch (&obj->ref, 1);

  231. 		if (rc == 0) {

  232. #else

  233. 		if (--obj->ref == 0) {

  234. #endif

  235. 			ucl_object_free_internal (obj, false, ucl_object_dtor_unref);

  236. 		}

  237. 	}

  238. }

  239. 

  240. static void

  241. ucl_object_dtor_unref (ucl_object_t *obj)

  242. {

  243. 	if (obj->ref == 0) {

  244. 		ucl_object_dtor_free (obj);

  245. 	}

  246. 	else {

  247. 		/* This may cause dtor unref being called one more time */

  248. 		ucl_object_dtor_unref_single (obj);

  249. 	}

  250. }

  251. 

  252. static void

  253. ucl_object_free_internal (ucl_object_t *obj, bool allow_rec, ucl_object_dtor dtor)

  254. {

  255. 	ucl_object_t *tmp, *sub;

  256. 

  257. 	while (obj != NULL) {

  258. 		if (obj->type == UCL_ARRAY) {

  259. 			UCL_ARRAY_GET (vec, obj);

  260. 			unsigned int i;

  261. 

  262. 			if (vec != NULL) {

  263. 				for (i = 0; i < vec->n; i ++) {

  264. 					sub = kv_A (*vec, i);

  265. 					if (sub != NULL) {

  266. 						tmp = sub;

  267. 						while (sub) {

  268. 							tmp = sub->next;

  269. 							dtor (sub);

  270. 							sub = tmp;

  271. 						}

  272. 					}

  273. 				}

  274. 				kv_destroy (*vec);

  275. 				UCL_FREE (sizeof (*vec), vec);

  276. 			}

  277. 			obj->value.av = NULL;

  278. 		}

  279. 		else if (obj->type == UCL_OBJECT) {

  280. 			if (obj->value.ov != NULL) {

  281. 				ucl_hash_destroy (obj->value.ov, (ucl_hash_free_func)dtor);

  282. 			}

  283. 			obj->value.ov = NULL;

  284. 		}

  285. 		tmp = obj->next;

  286. 		dtor (obj);

  287. 		obj = tmp;

  288. 

  289. 		if (!allow_rec) {

  290. 			break;

  291. 		}

  292. 	}

  293. }

  294. 

  295. void

  296. ucl_object_free (ucl_object_t *obj)

  297. {

  298. 	ucl_object_free_internal (obj, true, ucl_object_dtor_free);

  299. }

  300. 

  301. size_t

  302. ucl_unescape_json_string (char *str, size_t len)

  303. {

  304. 	char *t = str, *h = str;

  305. 	int i, uval;

  306. 

  307. 	if (len <= 1) {

  308. 		return len;

  309. 	}

  310. 	/* t is target (tortoise), h is source (hare) */

  311. 

  312. 	while (len) {

  313. 		if (*h == '\\') {

  314. 			h ++;

  315. 

  316. 			if (len == 1) {

  317. 				/*

  318. 				 * If \ is last, then do not try to go further

  319. 				 * Issue: #74

  320. 				 */

  321. 				len --;

  322. 				*t++ = '\\';

  323. 				continue;

  324. 			}

  325. 

  326. 			switch (*h) {

  327. 			case 'n':

  328. 				*t++ = '\n';

  329. 				break;

  330. 			case 'r':

  331. 				*t++ = '\r';

  332. 				break;

  333. 			case 'b':

  334. 				*t++ = '\b';

  335. 				break;

  336. 			case 't':

  337. 				*t++ = '\t';

  338. 				break;

  339. 			case 'f':

  340. 				*t++ = '\f';

  341. 				break;

  342. 			case '\\':

  343. 				*t++ = '\\';

  344. 				break;

  345. 			case '"':

  346. 				*t++ = '"';

  347. 				break;

  348. 			case 'u':

  349. 				/* Unicode escape */

  350. 				uval = 0;

  351. 				h ++; /* u character */

  352. 				len --;

  353. 

  354. 				if (len > 3) {

  355. 					for (i = 0; i < 4; i++) {

  356. 						uval <<= 4;

  357. 						if (isdigit (h[i])) {

  358. 							uval += h[i] - '0';

  359. 						}

  360. 						else if (h[i] >= 'a' && h[i] <= 'f') {

  361. 							uval += h[i] - 'a' + 10;

  362. 						}

  363. 						else if (h[i] >= 'A' && h[i] <= 'F') {

  364. 							uval += h[i] - 'A' + 10;

  365. 						}

  366. 						else {

  367. 							break;

  368. 						}

  369. 					}

  370. 

  371. 					/* Encode */

  372. 					if(uval < 0x80) {

  373. 						t[0] = (char)uval;

  374. 						t ++;

  375. 					}

  376. 					else if(uval < 0x800) {

  377. 						t[0] = 0xC0 + ((uval & 0x7C0) >> 6);

  378. 						t[1] = 0x80 + ((uval & 0x03F));

  379. 						t += 2;

  380. 					}

  381. 					else if(uval < 0x10000) {

  382. 						t[0] = 0xE0 + ((uval & 0xF000) >> 12);

  383. 						t[1] = 0x80 + ((uval & 0x0FC0) >> 6);

  384. 						t[2] = 0x80 + ((uval & 0x003F));

  385. 						t += 3;

  386. 					}

  387. #if 0

  388. 					/* It's not actually supported now */

  389. 					else if(uval <= 0x10FFFF) {

  390. 						t[0] = 0xF0 + ((uval & 0x1C0000) >> 18);

  391. 						t[1] = 0x80 + ((uval & 0x03F000) >> 12);

  392. 						t[2] = 0x80 + ((uval & 0x000FC0) >> 6);

  393. 						t[3] = 0x80 + ((uval & 0x00003F));

  394. 						t += 4;

  395. 					}

  396. #endif

  397. 					else {

  398. 						*t++ = '?';

  399. 					}

  400. 

  401. 					/* Consume 4 characters of source */

  402. 					h += 4;

  403. 					len -= 4;

  404. 

  405. 					if (len > 0) {

  406. 						len --; /* for '\' character */

  407. 					}

  408. 					continue;

  409. 				}

  410. 				else {

  411. 					*t++ = 'u';

  412. 				}

  413. 				break;

  414. 			default:

  415. 				*t++ = *h;

  416. 				break;

  417. 			}

  418. 			h ++;

  419. 			len --;

  420. 		}

  421. 		else {

  422. 			*t++ = *h++;

  423. 		}

  424. 

  425. 		if (len > 0) {

  426. 			len --;

  427. 		}

  428. 	}

  429. 	*t = '\0';

  430. 

  431. 	return (t - str);

  432. }

  433. 

  434. size_t

  435. ucl_unescape_squoted_string (char *str, size_t len)

  436. {

  437. 	char *t = str, *h = str;

  438. 

  439. 	if (len <= 1) {

  440. 		return len;

  441. 	}

  442. 

  443. 	/* t is target (tortoise), h is source (hare) */

  444. 

  445. 	while (len) {

  446. 		if (*h == '\\') {

  447. 			h ++;

  448. 

  449. 			if (len == 1) {

  450. 				/*

  451. 				 * If \ is last, then do not try to go further

  452. 				 * Issue: #74

  453. 				 */

  454. 				len --;

  455. 				*t++ = '\\';

  456. 				continue;

  457. 			}

  458. 

  459. 			switch (*h) {

  460. 			case '\'':

  461. 				*t++ = '\'';

  462. 				break;

  463. 			case '\n':

  464. 				/* Ignore \<newline> style stuff */

  465. 				break;

  466. 			case '\r':

  467. 				/* Ignore \r and the following \n if needed */

  468. 				if (len > 1 && h[1] == '\n') {

  469. 					h ++;

  470. 					len --;

  471. 				}

  472. 				break;

  473. 			default:

  474. 				/* Ignore \ */

  475. 				*t++ = '\\';

  476. 				*t++ = *h;

  477. 				break;

  478. 			}

  479. 

  480. 			h ++;

  481. 			len --;

  482. 		}

  483. 		else {

  484. 			*t++ = *h++;

  485. 		}

  486. 

  487. 		if (len > 0) {

  488. 			len --;

  489. 		}

  490. 	}

  491. 

  492. 	*t = '\0';

  493. 

  494. 	return (t - str);

  495. }

  496. 

  497. char *

  498. ucl_copy_key_trash (const ucl_object_t *obj)

  499. {

  500. 	ucl_object_t *deconst;

  501. 

  502. 	if (obj == NULL) {

  503. 		return NULL;

  504. 	}

  505. 	if (obj->trash_stack[UCL_TRASH_KEY] == NULL && obj->key != NULL) {

  506. 		deconst = __DECONST (ucl_object_t *, obj);

  507. 		deconst->trash_stack[UCL_TRASH_KEY] = malloc (obj->keylen + 1);

  508. 		if (deconst->trash_stack[UCL_TRASH_KEY] != NULL) {

  509. 			memcpy (deconst->trash_stack[UCL_TRASH_KEY], obj->key, obj->keylen);

  510. 			deconst->trash_stack[UCL_TRASH_KEY][obj->keylen] = '\0';

  511. 		}

  512. 		deconst->key = obj->trash_stack[UCL_TRASH_KEY];

  513. 		deconst->flags |= UCL_OBJECT_ALLOCATED_KEY;

  514. 	}

  515. 

  516. 	return obj->trash_stack[UCL_TRASH_KEY];

  517. }

  518. 

  519. void

  520. ucl_chunk_free (struct ucl_chunk *chunk)

  521. {

  522. 	if (chunk) {

  523. 		if (chunk->special_handler) {

  524. 			if (chunk->special_handler->free_function) {

  525. 				chunk->special_handler->free_function (

  526. 						(unsigned char *) chunk->begin,

  527. 						chunk->end - chunk->begin,

  528. 						chunk->special_handler->user_data);

  529. 			} else {

  530. 				UCL_FREE (chunk->end - chunk->begin,

  531. 						(unsigned char *) chunk->begin);

  532. 			}

  533. 		}

  534. 

  535. 		if (chunk->fname) {

  536. 			free (chunk->fname);

  537. 		}

  538. 

  539. 		UCL_FREE (sizeof (*chunk), chunk);

  540. 	}

  541. }

  542. 

  543. char *

  544. ucl_copy_value_trash (const ucl_object_t *obj)

  545. {

  546. 	ucl_object_t *deconst;

  547. 

  548. 	if (obj == NULL) {

  549. 		return NULL;

  550. 	}

  551. 	if (obj->trash_stack[UCL_TRASH_VALUE] == NULL) {

  552. 		deconst = __DECONST (ucl_object_t *, obj);

  553. 		if (obj->type == UCL_STRING) {

  554. 

  555. 			/* Special case for strings */

  556. 			if (obj->flags & UCL_OBJECT_BINARY) {

  557. 				deconst->trash_stack[UCL_TRASH_VALUE] = malloc (obj->len);

  558. 				if (deconst->trash_stack[UCL_TRASH_VALUE] != NULL) {

  559. 					memcpy (deconst->trash_stack[UCL_TRASH_VALUE],

  560. 							obj->value.sv,

  561. 							obj->len);

  562. 					deconst->value.sv = obj->trash_stack[UCL_TRASH_VALUE];

  563. 				}

  564. 			}

  565. 			else {

  566. 				deconst->trash_stack[UCL_TRASH_VALUE] = malloc (obj->len + 1);

  567. 				if (deconst->trash_stack[UCL_TRASH_VALUE] != NULL) {

  568. 					memcpy (deconst->trash_stack[UCL_TRASH_VALUE],

  569. 							obj->value.sv,

  570. 							obj->len);

  571. 					deconst->trash_stack[UCL_TRASH_VALUE][obj->len] = '\0';

  572. 					deconst->value.sv = obj->trash_stack[UCL_TRASH_VALUE];

  573. 				}

  574. 			}

  575. 		}

  576. 		else {

  577. 			/* Just emit value in json notation */

  578. 			deconst->trash_stack[UCL_TRASH_VALUE] = ucl_object_emit_single_json (obj);

  579. 			deconst->len = strlen (obj->trash_stack[UCL_TRASH_VALUE]);

  580. 		}

  581. 		deconst->flags |= UCL_OBJECT_ALLOCATED_VALUE;

  582. 	}

  583. 

  584. 	return obj->trash_stack[UCL_TRASH_VALUE];

  585. }

  586. 

  587. ucl_object_t*

  588. ucl_parser_get_object (struct ucl_parser *parser)

  589. {

  590. 	if (parser->state != UCL_STATE_ERROR && parser->top_obj != NULL) {

  591. 		return ucl_object_ref (parser->top_obj);

  592. 	}

  593. 

  594. 	return NULL;

  595. }

  596. 

  597. void

  598. ucl_parser_free (struct ucl_parser *parser)

  599. {

  600. 	struct ucl_stack *stack, *stmp;

  601. 	struct ucl_macro *macro, *mtmp;

  602. 	struct ucl_chunk *chunk, *ctmp;

  603. 	struct ucl_pubkey *key, *ktmp;

  604. 	struct ucl_variable *var, *vtmp;

  605. 	ucl_object_t *tr, *trtmp;

  606. 

  607. 	if (parser == NULL) {

  608. 		return;

  609. 	}

  610. 

  611. 	if (parser->top_obj != NULL) {

  612. 		ucl_object_unref (parser->top_obj);

  613. 	}

  614. 

  615. 	if (parser->includepaths != NULL) {

  616. 		ucl_object_unref (parser->includepaths);

  617. 	}

  618. 

  619. 	LL_FOREACH_SAFE (parser->stack, stack, stmp) {

  620. 		free (stack);

  621. 	}

  622. 	HASH_ITER (hh, parser->macroes, macro, mtmp) {

  623. 		free (macro->name);

  624. 		HASH_DEL (parser->macroes, macro);

  625. 		UCL_FREE (sizeof (struct ucl_macro), macro);

  626. 	}

  627. 	LL_FOREACH_SAFE (parser->chunks, chunk, ctmp) {

  628. 		ucl_chunk_free (chunk);

  629. 	}

  630. 	LL_FOREACH_SAFE (parser->keys, key, ktmp) {

  631. 		UCL_FREE (sizeof (struct ucl_pubkey), key);

  632. 	}

  633. 	LL_FOREACH_SAFE (parser->variables, var, vtmp) {

  634. 		free (var->value);

  635. 		free (var->var);

  636. 		UCL_FREE (sizeof (struct ucl_variable), var);

  637. 	}

  638. 	LL_FOREACH_SAFE (parser->trash_objs, tr, trtmp) {

  639. 		ucl_object_free_internal (tr, false, ucl_object_dtor_free);

  640. 	}

  641. 

  642. 	if (parser->err != NULL) {

  643. 		utstring_free (parser->err);

  644. 	}

  645. 

  646. 	if (parser->cur_file) {

  647. 		free (parser->cur_file);

  648. 	}

  649. 

  650. 	if (parser->comments) {

  651. 		ucl_object_unref (parser->comments);

  652. 	}

  653. 

  654. 	UCL_FREE (sizeof (struct ucl_parser), parser);

  655. }

  656. 

  657. const char *

  658. ucl_parser_get_error(struct ucl_parser *parser)

  659. {

  660. 	if (parser == NULL) {

  661. 		return NULL;

  662. 	}

  663. 

  664. 	if (parser->err == NULL) {

  665. 		return NULL;

  666. 	}

  667. 

  668. 	return utstring_body (parser->err);

  669. }

  670. 

  671. int

  672. ucl_parser_get_error_code(struct ucl_parser *parser)

  673. {

  674. 	if (parser == NULL) {

  675. 		return 0;

  676. 	}

  677. 

  678. 	return parser->err_code;

  679. }

  680. 

  681. unsigned

  682. ucl_parser_get_column(struct ucl_parser *parser)

  683. {

  684. 	if (parser == NULL || parser->chunks == NULL) {

  685. 		return 0;

  686. 	}

  687. 

  688. 	return parser->chunks->column;

  689. }

  690. 

  691. unsigned

  692. ucl_parser_get_linenum(struct ucl_parser *parser)

  693. {

  694. 	if (parser == NULL || parser->chunks == NULL) {

  695. 		return 0;

  696. 	}

  697. 

  698. 	return parser->chunks->line;

  699. }

  700. 

  701. void

  702. ucl_parser_clear_error(struct ucl_parser *parser)

  703. {

  704. 	if (parser != NULL && parser->err != NULL) {

  705. 		utstring_free(parser->err);

  706. 		parser->err = NULL;

  707. 		parser->err_code = 0;

  708. 	}

  709. }

  710. 

  711. bool

  712. ucl_pubkey_add (struct ucl_parser *parser, const unsigned char *key, size_t len)

  713. {

  714. #ifndef HAVE_OPENSSL

  715. 	ucl_create_err (&parser->err, "cannot check signatures without openssl");

  716. 	return false;

  717. #else

  718. # if (OPENSSL_VERSION_NUMBER < 0x10000000L)

  719. 	ucl_create_err (&parser->err, "cannot check signatures, openssl version is unsupported");

  720. 	return EXIT_FAILURE;

  721. # else

  722. 	struct ucl_pubkey *nkey;

  723. 	BIO *mem;

  724. 

  725. 	mem = BIO_new_mem_buf ((void *)key, len);

  726. 	nkey = UCL_ALLOC (sizeof (struct ucl_pubkey));

  727. 	if (nkey == NULL) {

  728. 		ucl_create_err (&parser->err, "cannot allocate memory for key");

  729. 		return false;

  730. 	}

  731. 	nkey->key = PEM_read_bio_PUBKEY (mem, &nkey->key, NULL, NULL);

  732. 	BIO_free (mem);

  733. 	if (nkey->key == NULL) {

  734. 		UCL_FREE (sizeof (struct ucl_pubkey), nkey);

  735. 		ucl_create_err (&parser->err, "%s",

  736. 				ERR_error_string (ERR_get_error (), NULL));

  737. 		return false;

  738. 	}

  739. 	LL_PREPEND (parser->keys, nkey);

  740. # endif

  741. #endif

  742. 	return true;

  743. }

  744. 

  745. void ucl_parser_add_special_handler (struct ucl_parser *parser,

  746. 		struct ucl_parser_special_handler *handler)

  747. {

  748. 	LL_APPEND (parser->special_handlers, handler);

  749. }

  750. 

  751. #ifdef CURL_FOUND

  752. struct ucl_curl_cbdata {

  753. 	unsigned char *buf;

  754. 	size_t buflen;

  755. };

  756. 

  757. static size_t

  758. ucl_curl_write_callback (void* contents, size_t size, size_t nmemb, void* ud)

  759. {

  760. 	struct ucl_curl_cbdata *cbdata = ud;

  761. 	size_t realsize = size * nmemb;

  762. 

  763. 	cbdata->buf = realloc (cbdata->buf, cbdata->buflen + realsize + 1);

  764. 	if (cbdata->buf == NULL) {

  765. 		return 0;

  766. 	}

  767. 

  768. 	memcpy (&(cbdata->buf[cbdata->buflen]), contents, realsize);

  769. 	cbdata->buflen += realsize;

  770. 	cbdata->buf[cbdata->buflen] = 0;

  771. 

  772. 	return realsize;

  773. }

  774. #endif

  775. 

  776. /**

  777.  * Fetch a url and save results to the memory buffer

  778.  * @param url url to fetch

  779.  * @param len length of url

  780.  * @param buf target buffer

  781.  * @param buflen target length

  782.  * @return

  783.  */

  784. bool

  785. ucl_fetch_url (const unsigned char *url, unsigned char **buf, size_t *buflen,

  786. 		UT_string **err, bool must_exist)

  787. {

  788. 

  789. #ifdef HAVE_FETCH_H

  790. 	struct url *fetch_url;

  791. 	struct url_stat us;

  792. 	FILE *in;

  793. 

  794. 	fetch_url = fetchParseURL (url);

  795. 	if (fetch_url == NULL) {

  796. 		ucl_create_err (err, "invalid URL %s: %s",

  797. 				url, strerror (errno));

  798. 		return false;

  799. 	}

  800. 	if ((in = fetchXGet (fetch_url, &us, "")) == NULL) {

  801. 		if (!must_exist) {

  802. 			ucl_create_err (err, "cannot fetch URL %s: %s",

  803. 				url, strerror (errno));

  804. 		}

  805. 		fetchFreeURL (fetch_url);

  806. 		return false;

  807. 	}

  808. 

  809. 	*buflen = us.size;

  810. 	*buf = malloc (*buflen);

  811. 	if (*buf == NULL) {

  812. 		ucl_create_err (err, "cannot allocate buffer for URL %s: %s",

  813. 				url, strerror (errno));

  814. 		fclose (in);

  815. 		fetchFreeURL (fetch_url);

  816. 		return false;

  817. 	}

  818. 

  819. 	if (fread (*buf, *buflen, 1, in) != 1) {

  820. 		ucl_create_err (err, "cannot read URL %s: %s",

  821. 				url, strerror (errno));

  822. 		fclose (in);

  823. 		fetchFreeURL (fetch_url);

  824. 		return false;

  825. 	}

  826. 

  827. 	fetchFreeURL (fetch_url);

  828. 	return true;

  829. #elif defined(CURL_FOUND)

  830. 	CURL *curl;

  831. 	int r;

  832. 	struct ucl_curl_cbdata cbdata;

  833. 

  834. 	curl = curl_easy_init ();

  835. 	if (curl == NULL) {

  836. 		ucl_create_err (err, "CURL interface is broken");

  837. 		return false;

  838. 	}

  839. 	if ((r = curl_easy_setopt (curl, CURLOPT_URL, url)) != CURLE_OK) {

  840. 		ucl_create_err (err, "invalid URL %s: %s",

  841. 				url, curl_easy_strerror (r));

  842. 		curl_easy_cleanup (curl);

  843. 		return false;

  844. 	}

  845. 	curl_easy_setopt (curl, CURLOPT_WRITEFUNCTION, ucl_curl_write_callback);

  846. 	cbdata.buf = NULL;

  847. 	cbdata.buflen = 0;

  848. 	curl_easy_setopt (curl, CURLOPT_WRITEDATA, &cbdata);

  849. 

  850. 	if ((r = curl_easy_perform (curl)) != CURLE_OK) {

  851. 		if (!must_exist) {

  852. 			ucl_create_err (err, "error fetching URL %s: %s",

  853. 				url, curl_easy_strerror (r));

  854. 		}

  855. 		curl_easy_cleanup (curl);

  856. 		if (cbdata.buf) {

  857. 			free (cbdata.buf);

  858. 		}

  859. 		return false;

  860. 	}

  861. 	*buf = cbdata.buf;

  862. 	*buflen = cbdata.buflen;

  863. 

  864. 	return true;

  865. #else

  866. 	ucl_create_err (err, "URL support is disabled");

  867. 	return false;

  868. #endif

  869. }

  870. 

  871. /**

  872.  * Fetch a file and save results to the memory buffer

  873.  * @param filename filename to fetch

  874.  * @param len length of filename

  875.  * @param buf target buffer

  876.  * @param buflen target length

  877.  * @return

  878.  */

  879. bool

  880. ucl_fetch_file (const unsigned char *filename, unsigned char **buf, size_t *buflen,

  881. 		UT_string **err, bool must_exist)

  882. {

  883. 	int fd;

  884. 	struct stat st;

  885. 

  886. 	if (stat (filename, &st) == -1) {

  887. 		if (must_exist || errno == EPERM) {

  888. 			ucl_create_err (err, "cannot stat file %s: %s",

  889. 					filename, strerror (errno));

  890. 		}

  891. 		return false;

  892. 	}

  893. 	if (!S_ISREG (st.st_mode)) {

  894. 		if (must_exist) {

  895. 			ucl_create_err (err, "file %s is not a regular file", filename);

  896. 		}

  897. 

  898. 		return false;

  899. 	}

  900. 	if (st.st_size == 0) {

  901. 		/* Do not map empty files */

  902. 		*buf = NULL;

  903. 		*buflen = 0;

  904. 	}

  905. 	else {

  906. 		if ((fd = open (filename, O_RDONLY)) == -1) {

  907. 			ucl_create_err (err, "cannot open file %s: %s",

  908. 					filename, strerror (errno));

  909. 			return false;

  910. 		}

  911. 		if ((*buf = ucl_mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) {

  912. 			close (fd);

  913. 			ucl_create_err (err, "cannot mmap file %s: %s",

  914. 					filename, strerror (errno));

  915. 			*buf = NULL;

  916. 

  917. 			return false;

  918. 		}

  919. 		*buflen = st.st_size;

  920. 		close (fd);

  921. 	}

  922. 

  923. 	return true;

  924. }

  925. 

  926. 

  927. #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L)

  928. static inline bool

  929. ucl_sig_check (const unsigned char *data, size_t datalen,

  930. 		const unsigned char *sig, size_t siglen, struct ucl_parser *parser)

  931. {

  932. 	struct ucl_pubkey *key;

  933. 	char dig[EVP_MAX_MD_SIZE];

  934. 	unsigned int diglen;

  935. 	EVP_PKEY_CTX *key_ctx;

  936. 	EVP_MD_CTX *sign_ctx = NULL;

  937. 

  938. 	sign_ctx = EVP_MD_CTX_create ();

  939. 

  940. 	LL_FOREACH (parser->keys, key) {

  941. 		key_ctx = EVP_PKEY_CTX_new (key->key, NULL);

  942. 		if (key_ctx != NULL) {

  943. 			if (EVP_PKEY_verify_init (key_ctx) <= 0) {

  944. 				EVP_PKEY_CTX_free (key_ctx);

  945. 				continue;

  946. 			}

  947. 			if (EVP_PKEY_CTX_set_rsa_padding (key_ctx, RSA_PKCS1_PADDING) <= 0) {

  948. 				EVP_PKEY_CTX_free (key_ctx);

  949. 				continue;

  950. 			}

  951. 			if (EVP_PKEY_CTX_set_signature_md (key_ctx, EVP_sha256 ()) <= 0) {

  952. 				EVP_PKEY_CTX_free (key_ctx);

  953. 				continue;

  954. 			}

  955. 			EVP_DigestInit (sign_ctx, EVP_sha256 ());

  956. 			EVP_DigestUpdate (sign_ctx, data, datalen);

  957. 			EVP_DigestFinal (sign_ctx, dig, &diglen);

  958. 

  959. 			if (EVP_PKEY_verify (key_ctx, sig, siglen, dig, diglen) == 1) {

  960. 				EVP_MD_CTX_destroy (sign_ctx);

  961. 				EVP_PKEY_CTX_free (key_ctx);

  962. 				return true;

  963. 			}

  964. 

  965. 			EVP_PKEY_CTX_free (key_ctx);

  966. 		}

  967. 	}

  968. 

  969. 	EVP_MD_CTX_destroy (sign_ctx);

  970. 

  971. 	return false;

  972. }

  973. #endif

  974. 

  975. struct ucl_include_params {

  976. 	bool check_signature;

  977. 	bool must_exist;

  978. 	bool use_glob;

  979. 	bool use_prefix;

  980. 	bool soft_fail;

  981. 	bool allow_glob;

  982. 	unsigned priority;

  983. 	enum ucl_duplicate_strategy strat;

  984. 	enum ucl_parse_type parse_type;

  985. 	const char *prefix;

  986. 	const char *target;

  987. };

  988. 

  989. /**

  990.  * Include an url to configuration

  991.  * @param data

  992.  * @param len

  993.  * @param parser

  994.  * @param err

  995.  * @return

  996.  */

  997. static bool

  998. ucl_include_url (const unsigned char *data, size_t len,

  999. 		struct ucl_parser *parser,

  1000. 		struct ucl_include_params *params)

  1001. {

  1002. 

  1003. 	bool res;

  1004. 	unsigned char *buf = NULL;

  1005. 	size_t buflen = 0;

  1006. 	struct ucl_chunk *chunk;

  1007. 	char urlbuf[PATH_MAX];

  1008. 	int prev_state;

  1009. 

  1010. 	snprintf (urlbuf, sizeof (urlbuf), "%.*s", (int)len, data);

  1011. 

  1012. 	if (!ucl_fetch_url (urlbuf, &buf, &buflen, &parser->err, params->must_exist)) {

  1013. 		return !params->must_exist;

  1014. 	}

  1015. 

  1016. 	if (params->check_signature) {

  1017. #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L)

  1018. 		unsigned char *sigbuf = NULL;

  1019. 		size_t siglen = 0;

  1020. 		/* We need to check signature first */

  1021. 		snprintf (urlbuf, sizeof (urlbuf), "%.*s.sig", (int)len, data);

  1022. 		if (!ucl_fetch_url (urlbuf, &sigbuf, &siglen, &parser->err, true)) {

  1023. 			return false;

  1024. 		}

  1025. 		if (!ucl_sig_check (buf, buflen, sigbuf, siglen, parser)) {

  1026. 			ucl_create_err (&parser->err, "cannot verify url %s: %s",

  1027. 							urlbuf,

  1028. 							ERR_error_string (ERR_get_error (), NULL));

  1029. 			if (siglen > 0) {

  1030. 				ucl_munmap (sigbuf, siglen);

  1031. 			}

  1032. 			return false;

  1033. 		}

  1034. 		if (siglen > 0) {

  1035. 			ucl_munmap (sigbuf, siglen);

  1036. 		}

  1037. #endif

  1038. 	}

  1039. 

  1040. 	prev_state = parser->state;

  1041. 	parser->state = UCL_STATE_INIT;

  1042. 

  1043. 	res = ucl_parser_add_chunk_full (parser, buf, buflen, params->priority,

  1044. 			params->strat, params->parse_type);

  1045. 	if (res == true) {

  1046. 		/* Remove chunk from the stack */

  1047. 		chunk = parser->chunks;

  1048. 		if (chunk != NULL) {

  1049. 			parser->chunks = chunk->next;

  1050. 			ucl_chunk_free (chunk);

  1051. 		}

  1052. 	}

  1053. 

  1054. 	parser->state = prev_state;

  1055. 	free (buf);

  1056. 

  1057. 	return res;

  1058. }

  1059. 

  1060. /**

  1061.  * Include a single file to the parser

  1062.  * @param data

  1063.  * @param len

  1064.  * @param parser

  1065.  * @param check_signature

  1066.  * @param must_exist

  1067.  * @param allow_glob

  1068.  * @param priority

  1069.  * @return

  1070.  */

  1071. static bool

  1072. ucl_include_file_single (const unsigned char *data, size_t len,

  1073. 		struct ucl_parser *parser, struct ucl_include_params *params)

  1074. {

  1075. 	bool res;

  1076. 	struct ucl_chunk *chunk;

  1077. 	unsigned char *buf = NULL;

  1078. 	char *old_curfile, *ext;

  1079. 	size_t buflen = 0;

  1080. 	char filebuf[PATH_MAX], realbuf[PATH_MAX];

  1081. 	int prev_state;

  1082. 	struct ucl_variable *cur_var, *tmp_var, *old_curdir = NULL,

  1083. 			*old_filename = NULL;

  1084. 	ucl_object_t *nest_obj = NULL, *old_obj = NULL, *new_obj = NULL;

  1085. 	ucl_hash_t *container = NULL;

  1086. 	struct ucl_stack *st = NULL;

  1087. 

  1088. 	snprintf (filebuf, sizeof (filebuf), "%.*s", (int)len, data);

  1089. 	if (ucl_realpath (filebuf, realbuf) == NULL) {

  1090. 		if (params->soft_fail) {

  1091. 			return false;

  1092. 		}

  1093. 		if (!params->must_exist && errno != EPERM) {

  1094. 			return true;

  1095. 		}

  1096. 

  1097. 		ucl_create_err (&parser->err, "cannot open file %s: %s",

  1098. 									filebuf,

  1099. 									strerror (errno));

  1100. 		return false;

  1101. 	}

  1102. 

  1103. 	if (parser->cur_file && strcmp (realbuf, parser->cur_file) == 0) {

  1104. 		/* We are likely including the file itself */

  1105. 		if (params->soft_fail) {

  1106. 			return false;

  1107. 		}

  1108. 

  1109. 		ucl_create_err (&parser->err, "trying to include the file %s from itself",

  1110. 				realbuf);

  1111. 		return false;

  1112. 	}

  1113. 

  1114. 	if (!ucl_fetch_file (realbuf, &buf, &buflen, &parser->err, params->must_exist)) {

  1115. 		if (params->soft_fail) {

  1116. 			return false;

  1117. 		}

  1118. 

  1119. 		if (params->must_exist || parser->err != NULL) {

  1120. 			/* The case of fatal errors */

  1121. 			return false;

  1122. 		}

  1123. 

  1124. 		return true;

  1125. 	}

  1126. 

  1127. 	if (params->check_signature) {

  1128. #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L)

  1129. 		unsigned char *sigbuf = NULL;

  1130. 		size_t siglen = 0;

  1131. 		/* We need to check signature first */

  1132. 		snprintf (filebuf, sizeof (filebuf), "%s.sig", realbuf);

  1133. 		if (!ucl_fetch_file (filebuf, &sigbuf, &siglen, &parser->err, true)) {

  1134. 			return false;

  1135. 		}

  1136. 		if (!ucl_sig_check (buf, buflen, sigbuf, siglen, parser)) {

  1137. 			ucl_create_err (&parser->err, "cannot verify file %s: %s",

  1138. 							filebuf,

  1139. 							ERR_error_string (ERR_get_error (), NULL));

  1140. 			if (sigbuf) {

  1141. 				ucl_munmap (sigbuf, siglen);

  1142. 			}

  1143. 			return false;

  1144. 		}

  1145. 		if (sigbuf) {

  1146. 			ucl_munmap (sigbuf, siglen);

  1147. 		}

  1148. #endif

  1149. 	}

  1150. 

  1151. 	old_curfile = parser->cur_file;

  1152. 	parser->cur_file = NULL;

  1153. 

  1154. 	/* Store old file vars */

  1155. 	DL_FOREACH_SAFE (parser->variables, cur_var, tmp_var) {

  1156. 		if (strcmp (cur_var->var, "CURDIR") == 0) {

  1157. 			old_curdir = cur_var;

  1158. 			DL_DELETE (parser->variables, cur_var);

  1159. 		}

  1160. 		else if (strcmp (cur_var->var, "FILENAME") == 0) {

  1161. 			old_filename = cur_var;

  1162. 			DL_DELETE (parser->variables, cur_var);

  1163. 		}

  1164. 	}

  1165. 

  1166. 	ucl_parser_set_filevars (parser, realbuf, false);

  1167. 

  1168. 	prev_state = parser->state;

  1169. 	parser->state = UCL_STATE_INIT;

  1170. 

  1171. 	if (params->use_prefix && params->prefix == NULL) {

  1172. 		/* Auto generate a key name based on the included filename */

  1173. 		params->prefix = basename (realbuf);

  1174. 		ext = strrchr (params->prefix, '.');

  1175. 		if (ext != NULL && (strcmp (ext, ".conf") == 0 || strcmp (ext, ".ucl") == 0)) {

  1176. 			/* Strip off .conf or .ucl */

  1177. 			*ext = '\0';

  1178. 		}

  1179. 	}

  1180. 	if (params->prefix != NULL) {

  1181. 		/* This is a prefixed include */

  1182. 		container = parser->stack->obj->value.ov;

  1183. 

  1184. 		old_obj = __DECONST (ucl_object_t *, ucl_hash_search (container,

  1185. 				params->prefix, strlen (params->prefix)));

  1186. 

  1187. 		if (strcasecmp (params->target, "array") == 0) {

  1188. 			if (old_obj == NULL) {

  1189. 				/* Create an array with key: prefix */

  1190. 				old_obj = ucl_object_new_full (UCL_ARRAY, params->priority);

  1191. 				old_obj->key = params->prefix;

  1192. 				old_obj->keylen = strlen (params->prefix);

  1193. 				ucl_copy_key_trash (old_obj);

  1194. 				old_obj->prev = old_obj;

  1195. 				old_obj->next = NULL;

  1196. 

  1197. 				container = ucl_hash_insert_object (container, old_obj,

  1198. 						parser->flags & UCL_PARSER_KEY_LOWERCASE);

  1199. 				parser->stack->obj->len++;

  1200. 

  1201. 				nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority);

  1202. 				nest_obj->prev = nest_obj;

  1203. 				nest_obj->next = NULL;

  1204. 

  1205. 				ucl_array_append (old_obj, nest_obj);

  1206. 			}

  1207. 			else {

  1208. 				if (ucl_object_type (old_obj) == UCL_ARRAY) {

  1209. 					/* Append to the existing array */

  1210. 					nest_obj = ucl_object_new_full (UCL_OBJECT,

  1211. 							params->priority);

  1212. 					if (nest_obj == NULL) {

  1213. 						ucl_create_err (&parser->err,

  1214. 								"cannot allocate memory for an object");

  1215. 						if (buf) {

  1216. 							ucl_munmap (buf, buflen);

  1217. 						}

  1218. 

  1219. 						return false;

  1220. 					}

  1221. 					nest_obj->prev = nest_obj;

  1222. 					nest_obj->next = NULL;

  1223. 

  1224. 					ucl_array_append (old_obj, nest_obj);

  1225. 				}

  1226. 				else {

  1227. 					/* Convert the object to an array */

  1228. 					new_obj = ucl_object_typed_new (UCL_ARRAY);

  1229. 					if (new_obj == NULL) {

  1230. 						ucl_create_err (&parser->err,

  1231. 								"cannot allocate memory for an object");

  1232. 						if (buf) {

  1233. 							ucl_munmap (buf, buflen);

  1234. 						}

  1235. 

  1236. 						return false;

  1237. 					}

  1238. 					new_obj->key = old_obj->key;

  1239. 					new_obj->keylen = old_obj->keylen;

  1240. 					new_obj->flags |= UCL_OBJECT_MULTIVALUE;

  1241. 					new_obj->prev = new_obj;

  1242. 					new_obj->next = NULL;

  1243. 

  1244. 					nest_obj = ucl_object_new_full (UCL_OBJECT,

  1245. 							params->priority);

  1246. 					if (nest_obj == NULL) {

  1247. 						ucl_create_err (&parser->err,

  1248. 								"cannot allocate memory for an object");

  1249. 						if (buf) {

  1250. 							ucl_munmap (buf, buflen);

  1251. 						}

  1252. 

  1253. 						return false;

  1254. 					}

  1255. 					nest_obj->prev = nest_obj;

  1256. 					nest_obj->next = NULL;

  1257. 

  1258. 					ucl_array_append (new_obj, old_obj);

  1259. 					ucl_array_append (new_obj, nest_obj);

  1260. 					ucl_hash_replace (container, old_obj, new_obj);

  1261. 				}

  1262. 			}

  1263. 		}

  1264. 		else {

  1265. 			/* Case of object */

  1266. 			if (old_obj == NULL) {

  1267. 				/* Create an object with key: prefix */

  1268. 				nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority);

  1269. 

  1270. 				if (nest_obj == NULL) {

  1271. 					ucl_create_err (&parser->err, "cannot allocate memory for an object");

  1272. 					if (buf) {

  1273. 						ucl_munmap (buf, buflen);

  1274. 					}

  1275. 

  1276. 					return false;

  1277. 				}

  1278. 

  1279. 				nest_obj->key = params->prefix;

  1280. 				nest_obj->keylen = strlen (params->prefix);

  1281. 				ucl_copy_key_trash(nest_obj);

  1282. 				nest_obj->prev = nest_obj;

  1283. 				nest_obj->next = NULL;

  1284. 

  1285. 				container = ucl_hash_insert_object (container, nest_obj,

  1286. 						parser->flags & UCL_PARSER_KEY_LOWERCASE);

  1287. 				parser->stack->obj->len ++;

  1288. 			}

  1289. 			else {

  1290. 				if (ucl_object_type (old_obj) == UCL_OBJECT) {

  1291. 					/* Append to existing Object*/

  1292. 					nest_obj = old_obj;

  1293. 				}

  1294. 				else {

  1295. 					/* The key is not an object */

  1296. 					ucl_create_err (&parser->err,

  1297. 							"Conflicting type for key: %s, asked %s, has %s",

  1298. 							params->prefix, params->target,

  1299. 							ucl_object_type_to_string (ucl_object_type (old_obj)));

  1300. 					if (buf) {

  1301. 						ucl_munmap (buf, buflen);

  1302. 					}

  1303. 

  1304. 					return false;

  1305. 				}

  1306. 			}

  1307. 		}

  1308. 

  1309. 

  1310. 		/* Put all of the content of the include inside that object */

  1311. 		parser->stack->obj->value.ov = container;

  1312. 

  1313. 		st = UCL_ALLOC (sizeof (struct ucl_stack));

  1314. 		if (st == NULL) {

  1315. 			ucl_create_err (&parser->err, "cannot allocate memory for an object");

  1316. 			ucl_object_unref (nest_obj);

  1317. 

  1318. 			if (buf) {

  1319. 				ucl_munmap (buf, buflen);

  1320. 			}

  1321. 

  1322. 			return false;

  1323. 		}

  1324. 		st->obj = nest_obj;

  1325. 		st->e.params.level = parser->stack->e.params.level;

  1326. 		st->e.params.flags = parser->stack->e.params.flags;

  1327. 		st->e.params.line = parser->stack->e.params.line;

  1328. 		st->chunk = parser->chunks;

  1329. 		LL_PREPEND (parser->stack, st);

  1330. 		parser->cur_obj = nest_obj;

  1331. 	}

  1332. 

  1333. 	res = ucl_parser_add_chunk_full (parser, buf, buflen, params->priority,

  1334. 			params->strat, params->parse_type);

  1335. 

  1336. 	if (res) {

  1337. 		/* Stop nesting the include, take 1 level off the stack */

  1338. 		if (params->prefix != NULL && nest_obj != NULL) {

  1339. 			parser->stack = st->next;

  1340. 			UCL_FREE (sizeof (struct ucl_stack), st);

  1341. 		}

  1342. 

  1343. 		/* Remove chunk from the stack */

  1344. 		chunk = parser->chunks;

  1345. 		if (chunk != NULL) {

  1346. 			parser->chunks = chunk->next;

  1347. 			ucl_chunk_free (chunk);

  1348. 			parser->recursion--;

  1349. 		}

  1350. 

  1351. 		/* Restore old file vars */

  1352. 		if (parser->cur_file) {

  1353. 			free (parser->cur_file);

  1354. 		}

  1355. 

  1356. 		parser->cur_file = old_curfile;

  1357. 		DL_FOREACH_SAFE (parser->variables, cur_var, tmp_var) {

  1358. 			if (strcmp (cur_var->var, "CURDIR") == 0 && old_curdir) {

  1359. 				DL_DELETE (parser->variables, cur_var);

  1360. 				free (cur_var->var);

  1361. 				free (cur_var->value);

  1362. 				UCL_FREE (sizeof (struct ucl_variable), cur_var);

  1363. 			} else if (strcmp (cur_var->var, "FILENAME") == 0 && old_filename) {

  1364. 				DL_DELETE (parser->variables, cur_var);

  1365. 				free (cur_var->var);

  1366. 				free (cur_var->value);

  1367. 				UCL_FREE (sizeof (struct ucl_variable), cur_var);

  1368. 			}

  1369. 		}

  1370. 		if (old_filename) {

  1371. 			DL_APPEND (parser->variables, old_filename);

  1372. 		}

  1373. 		if (old_curdir) {

  1374. 			DL_APPEND (parser->variables, old_curdir);

  1375. 		}

  1376. 

  1377. 		parser->state = prev_state;

  1378. 	}

  1379. 

  1380. 	if (buflen > 0) {

  1381. 		ucl_munmap (buf, buflen);

  1382. 	}

  1383. 

  1384. 	return res;

  1385. }

  1386. 

  1387. /**

  1388.  * Include a file to configuration

  1389.  * @param data

  1390.  * @param len

  1391.  * @param parser

  1392.  * @param err

  1393.  * @return

  1394.  */

  1395. static bool

  1396. ucl_include_file (const unsigned char *data, size_t len,

  1397. 		struct ucl_parser *parser, struct ucl_include_params *params)

  1398. {

  1399. 	const unsigned char *p = data, *end = data + len;

  1400. 	bool need_glob = false;

  1401. 	int cnt = 0;

  1402. 	char glob_pattern[PATH_MAX];

  1403. 	size_t i;

  1404. 

  1405. #ifndef _WIN32

  1406. 	if (!params->allow_glob) {

  1407. 		return ucl_include_file_single (data, len, parser, params);

  1408. 	}

  1409. 	else {

  1410. 		/* Check for special symbols in a filename */

  1411. 		while (p != end) {

  1412. 			if (*p == '*' || *p == '?') {

  1413. 				need_glob = true;

  1414. 				break;

  1415. 			}

  1416. 			p ++;

  1417. 		}

  1418. 		if (need_glob) {

  1419. 			glob_t globbuf;

  1420. 			memset (&globbuf, 0, sizeof (globbuf));

  1421. 			ucl_strlcpy (glob_pattern, (const char *)data,

  1422. 				(len + 1 < sizeof (glob_pattern) ? len + 1 : sizeof (glob_pattern)));

  1423. 			if (glob (glob_pattern, 0, NULL, &globbuf) != 0) {

  1424. 				return (!params->must_exist || false);

  1425. 			}

  1426. 			for (i = 0; i < globbuf.gl_pathc; i ++) {

  1427. 				if (!ucl_include_file_single ((unsigned char *)globbuf.gl_pathv[i],

  1428. 						strlen (globbuf.gl_pathv[i]), parser, params)) {

  1429. 					if (params->soft_fail) {

  1430. 						continue;

  1431. 					}

  1432. 					globfree (&globbuf);

  1433. 					return false;

  1434. 				}

  1435. 				cnt ++;

  1436. 			}

  1437. 			globfree (&globbuf);

  1438. 

  1439. 			if (cnt == 0 && params->must_exist) {

  1440. 				ucl_create_err (&parser->err, "cannot match any files for pattern %s",

  1441. 					glob_pattern);

  1442. 				return false;

  1443. 			}

  1444. 		}

  1445. 		else {

  1446. 			return ucl_include_file_single (data, len, parser, params);

  1447. 		}

  1448. 	}

  1449. #else

  1450. 	/* Win32 compilers do not support globbing. Therefore, for Win32,

  1451. 	   treat allow_glob/need_glob as a NOOP and just return */

  1452. 	return ucl_include_file_single (data, len, parser, params);

  1453. #endif

  1454. 

  1455. 	return true;

  1456. }

  1457. 

  1458. /**

  1459.  * Common function to handle .*include* macros

  1460.  * @param data

  1461.  * @param len

  1462.  * @param args

  1463.  * @param parser

  1464.  * @param default_try

  1465.  * @param default_sign

  1466.  * @return

  1467.  */

  1468. static bool

  1469. ucl_include_common (const unsigned char *data, size_t len,

  1470. 		const ucl_object_t *args, struct ucl_parser *parser,

  1471. 		bool default_try,

  1472. 		bool default_sign)

  1473. {

  1474. 	bool allow_url = false, search = false;

  1475. 	const char *duplicate;

  1476. 	const ucl_object_t *param;

  1477. 	ucl_object_iter_t it = NULL, ip = NULL;

  1478. 	char ipath[PATH_MAX];

  1479. 	struct ucl_include_params params;

  1480. 

  1481. 	/* Default values */

  1482. 	params.soft_fail = default_try;

  1483. 	params.allow_glob = false;

  1484. 	params.check_signature = default_sign;

  1485. 	params.use_prefix = false;

  1486. 	params.target = "object";

  1487. 	params.prefix = NULL;

  1488. 	params.priority = 0;

  1489. 	params.parse_type = UCL_PARSE_UCL;

  1490. 	params.strat = UCL_DUPLICATE_APPEND;

  1491. 	params.must_exist = !default_try;

  1492. 

  1493. 	/* Process arguments */

  1494. 	if (args != NULL && args->type == UCL_OBJECT) {

  1495. 		while ((param = ucl_object_iterate (args, &it, true)) != NULL) {

  1496. 			if (param->type == UCL_BOOLEAN) {

  1497. 				if (strncmp (param->key, "try", param->keylen) == 0) {

  1498. 					params.must_exist = !ucl_object_toboolean (param);

  1499. 				}

  1500. 				else if (strncmp (param->key, "sign", param->keylen) == 0) {

  1501. 					params.check_signature = ucl_object_toboolean (param);

  1502. 				}

  1503. 				else if (strncmp (param->key, "glob", param->keylen) == 0) {

  1504. 					params.allow_glob = ucl_object_toboolean (param);

  1505. 				}

  1506. 				else if (strncmp (param->key, "url", param->keylen) == 0) {

  1507. 					allow_url = ucl_object_toboolean (param);

  1508. 				}

  1509. 				else if (strncmp (param->key, "prefix", param->keylen) == 0) {

  1510. 					params.use_prefix = ucl_object_toboolean (param);

  1511. 				}

  1512. 			}

  1513. 			else if (param->type == UCL_STRING) {

  1514. 				if (strncmp (param->key, "key", param->keylen) == 0) {

  1515. 					params.prefix = ucl_object_tostring (param);

  1516. 				}

  1517. 				else if (strncmp (param->key, "target", param->keylen) == 0) {

  1518. 					params.target = ucl_object_tostring (param);

  1519. 				}

  1520. 				else if (strncmp (param->key, "duplicate", param->keylen) == 0) {

  1521. 					duplicate = ucl_object_tostring (param);

  1522. 

  1523. 					if (strcmp (duplicate, "append") == 0) {

  1524. 						params.strat = UCL_DUPLICATE_APPEND;

  1525. 					}

  1526. 					else if (strcmp (duplicate, "merge") == 0) {

  1527. 						params.strat = UCL_DUPLICATE_MERGE;

  1528. 					}

  1529. 					else if (strcmp (duplicate, "rewrite") == 0) {

  1530. 						params.strat = UCL_DUPLICATE_REWRITE;

  1531. 					}

  1532. 					else if (strcmp (duplicate, "error") == 0) {

  1533. 						params.strat = UCL_DUPLICATE_ERROR;

  1534. 					}

  1535. 				}

  1536. 			}

  1537. 			else if (param->type == UCL_ARRAY) {

  1538. 				if (strncmp (param->key, "path", param->keylen) == 0) {

  1539. 					ucl_set_include_path (parser, __DECONST(ucl_object_t *, param));

  1540. 				}

  1541. 			}

  1542. 			else if (param->type == UCL_INT) {

  1543. 				if (strncmp (param->key, "priority", param->keylen) == 0) {

  1544. 					params.priority = ucl_object_toint (param);

  1545. 				}

  1546. 			}

  1547. 		}

  1548. 	}

  1549. 

  1550. 	if (parser->includepaths == NULL) {

  1551. 		if (allow_url && ucl_strnstr (data, "://", len) != NULL) {

  1552. 			/* Globbing is not used for URL's */

  1553. 			return ucl_include_url (data, len, parser, &params);

  1554. 		}

  1555. 		else if (data != NULL) {

  1556. 			/* Try to load a file */

  1557. 			return ucl_include_file (data, len, parser, &params);

  1558. 		}

  1559. 	}

  1560. 	else {

  1561. 		if (allow_url && ucl_strnstr (data, "://", len) != NULL) {

  1562. 			/* Globbing is not used for URL's */

  1563. 			return ucl_include_url (data, len, parser, &params);

  1564. 		}

  1565. 

  1566. 		ip = ucl_object_iterate_new (parser->includepaths);

  1567. 		while ((param = ucl_object_iterate_safe (ip, true)) != NULL) {

  1568. 			if (ucl_object_type(param) == UCL_STRING) {

  1569. 				snprintf (ipath, sizeof (ipath), "%s/%.*s", ucl_object_tostring(param),

  1570. 						(int)len, data);

  1571. 				if ((search = ucl_include_file (ipath, strlen (ipath),

  1572. 						parser, &params))) {

  1573. 					if (!params.allow_glob) {

  1574. 						break;

  1575. 					}

  1576. 				}

  1577. 			}

  1578. 		}

  1579. 		ucl_object_iterate_free (ip);

  1580. 		if (search == true) {

  1581. 			return true;

  1582. 		}

  1583. 		else {

  1584. 			ucl_create_err (&parser->err,

  1585. 					"cannot find file: %.*s in search path",

  1586. 					(int)len, data);

  1587. 			return false;

  1588. 		}

  1589. 	}

  1590. 

  1591. 	return false;

  1592. }

  1593. 

  1594. /**

  1595.  * Handle include macro

  1596.  * @param data include data

  1597.  * @param len length of data

  1598.  * @param args UCL object representing arguments to the macro

  1599.  * @param ud user data

  1600.  * @return

  1601.  */

  1602. bool

  1603. ucl_include_handler (const unsigned char *data, size_t len,

  1604. 		const ucl_object_t *args, void* ud)

  1605. {

  1606. 	struct ucl_parser *parser = ud;

  1607. 

  1608. 	return ucl_include_common (data, len, args, parser, false, false);

  1609. }

  1610. 

  1611. /**

  1612.  * Handle includes macro

  1613.  * @param data include data

  1614.  * @param len length of data

  1615.  * @param args UCL object representing arguments to the macro

  1616.  * @param ud user data

  1617.  * @return

  1618.  */

  1619. bool

  1620. ucl_includes_handler (const unsigned char *data, size_t len,

  1621. 		const ucl_object_t *args, void* ud)

  1622. {

  1623. 	struct ucl_parser *parser = ud;

  1624. 

  1625. 	return ucl_include_common (data, len, args, parser, false, true);

  1626. }

  1627. 

  1628. /**

  1629.  * Handle tryinclude macro

  1630.  * @param data include data

  1631.  * @param len length of data

  1632.  * @param args UCL object representing arguments to the macro

  1633.  * @param ud user data

  1634.  * @return

  1635.  */

  1636. bool

  1637. ucl_try_include_handler (const unsigned char *data, size_t len,

  1638. 		const ucl_object_t *args, void* ud)

  1639. {

  1640. 	struct ucl_parser *parser = ud;

  1641. 

  1642. 	return ucl_include_common (data, len, args, parser, true, false);

  1643. }

  1644. 

  1645. /**

  1646.  * Handle priority macro

  1647.  * @param data include data

  1648.  * @param len length of data

  1649.  * @param args UCL object representing arguments to the macro

  1650.  * @param ud user data

  1651.  * @return

  1652.  */

  1653. bool

  1654. ucl_priority_handler (const unsigned char *data, size_t len,

  1655. 		const ucl_object_t *args, void* ud)

  1656. {

  1657. 	struct ucl_parser *parser = ud;

  1658. 	unsigned priority = 255;

  1659. 	const ucl_object_t *param;

  1660. 	bool found = false;

  1661. 	char *value = NULL, *leftover = NULL;

  1662. 	ucl_object_iter_t it = NULL;

  1663. 

  1664. 	if (parser == NULL) {

  1665. 		return false;

  1666. 	}

  1667. 

  1668. 	/* Process arguments */

  1669. 	if (args != NULL && args->type == UCL_OBJECT) {

  1670. 		while ((param = ucl_object_iterate (args, &it, true)) != NULL) {

  1671. 			if (param->type == UCL_INT) {

  1672. 				if (strncmp (param->key, "priority", param->keylen) == 0) {

  1673. 					priority = ucl_object_toint (param);

  1674. 					found = true;

  1675. 				}

  1676. 			}

  1677. 		}

  1678. 	}

  1679. 

  1680. 	if (len > 0) {

  1681. 		value = malloc(len + 1);

  1682. 		ucl_strlcpy(value, (const char *)data, len + 1);

  1683. 		priority = strtol(value, &leftover, 10);

  1684. 		if (*leftover != '\0') {

  1685. 			ucl_create_err (&parser->err, "Invalid priority value in macro: %s",

  1686. 				value);

  1687. 			free(value);

  1688. 			return false;

  1689. 		}

  1690. 		free(value);

  1691. 		found = true;

  1692. 	}

  1693. 

  1694. 	if (found == true) {

  1695. 		parser->chunks->priority = priority;

  1696. 		return true;

  1697. 	}

  1698. 

  1699. 	ucl_create_err (&parser->err, "Unable to parse priority macro");

  1700. 	return false;

  1701. }

  1702. 

  1703. /**

  1704.  * Handle load macro

  1705.  * @param data include data

  1706.  * @param len length of data

  1707.  * @param args UCL object representing arguments to the macro

  1708.  * @param ud user data

  1709.  * @return

  1710.  */

  1711. bool

  1712. ucl_load_handler (const unsigned char *data, size_t len,

  1713. 		const ucl_object_t *args, void* ud)

  1714. {

  1715. 	struct ucl_parser *parser = ud;

  1716. 	const ucl_object_t *param;

  1717. 	ucl_object_t *obj, *old_obj;

  1718. 	ucl_object_iter_t it = NULL;

  1719. 	bool try_load, multiline, test;

  1720. 	const char *target, *prefix;

  1721. 	char *load_file, *tmp;

  1722. 	unsigned char *buf;

  1723. 	size_t buflen;

  1724. 	unsigned priority;

  1725. 	int64_t iv;

  1726. 	ucl_object_t *container = NULL;

  1727. 	enum ucl_string_flags flags;

  1728. 

  1729. 	/* Default values */

  1730. 	try_load = false;

  1731. 	multiline = false;

  1732. 	test = false;

  1733. 	target = "string";

  1734. 	prefix = NULL;

  1735. 	load_file = NULL;

  1736. 	buf = NULL;

  1737. 	buflen = 0;

  1738. 	priority = 0;

  1739. 	obj = NULL;

  1740. 	old_obj = NULL;

  1741. 	flags = 0;

  1742. 

  1743. 	if (parser == NULL) {

  1744. 		return false;

  1745. 	}

  1746. 

  1747. 	/* Process arguments */

  1748. 	if (args != NULL && args->type == UCL_OBJECT) {

  1749. 		while ((param = ucl_object_iterate (args, &it, true)) != NULL) {

  1750. 			if (param->type == UCL_BOOLEAN) {

  1751. 				if (strncmp (param->key, "try", param->keylen) == 0) {

  1752. 					try_load = ucl_object_toboolean (param);

  1753. 				}

  1754. 				else if (strncmp (param->key, "multiline", param->keylen) == 0) {

  1755. 					multiline = ucl_object_toboolean (param);

  1756. 				}

  1757. 				else if (strncmp (param->key, "escape", param->keylen) == 0) {

  1758. 					test = ucl_object_toboolean (param);

  1759. 					if (test) {

  1760. 						flags |= UCL_STRING_ESCAPE;

  1761. 					}

  1762. 				}

  1763. 				else if (strncmp (param->key, "trim", param->keylen) == 0) {

  1764. 					test = ucl_object_toboolean (param);

  1765. 					if (test) {

  1766. 						flags |= UCL_STRING_TRIM;

  1767. 					}

  1768. 				}

  1769. 			}

  1770. 			else if (param->type == UCL_STRING) {

  1771. 				if (strncmp (param->key, "key", param->keylen) == 0) {

  1772. 					prefix = ucl_object_tostring (param);

  1773. 				}

  1774. 				else if (strncmp (param->key, "target", param->keylen) == 0) {

  1775. 					target = ucl_object_tostring (param);

  1776. 				}

  1777. 			}

  1778. 			else if (param->type == UCL_INT) {

  1779. 				if (strncmp (param->key, "priority", param->keylen) == 0) {

  1780. 					priority = ucl_object_toint (param);

  1781. 				}

  1782. 			}

  1783. 		}

  1784. 	}

  1785. 

  1786. 	if (prefix == NULL || strlen (prefix) == 0) {

  1787. 		ucl_create_err (&parser->err, "No Key specified in load macro");

  1788. 		return false;

  1789. 	}

  1790. 

  1791. 	if (len > 0) {

  1792. 		load_file = malloc (len + 1);

  1793. 		if (!load_file) {

  1794. 			ucl_create_err (&parser->err, "cannot allocate memory for suffix");

  1795. 

  1796. 			return false;

  1797. 		}

  1798. 

  1799. 		snprintf (load_file, len + 1, "%.*s", (int)len, data);

  1800. 

  1801. 		if (!ucl_fetch_file (load_file, &buf, &buflen, &parser->err,

  1802. 				!try_load)) {

  1803. 			free (load_file);

  1804. 

  1805. 			return (try_load || false);

  1806. 		}

  1807. 

  1808. 		free (load_file);

  1809. 		container = parser->stack->obj;

  1810. 		old_obj = __DECONST (ucl_object_t *, ucl_object_lookup (container,

  1811. 				prefix));

  1812. 

  1813. 		if (old_obj != NULL) {

  1814. 			ucl_create_err (&parser->err, "Key %s already exists", prefix);

  1815. 			if (buf) {

  1816. 				ucl_munmap (buf, buflen);

  1817. 			}

  1818. 

  1819. 			return false;

  1820. 		}

  1821. 

  1822. 		if (strcasecmp (target, "string") == 0) {

  1823. 			obj = ucl_object_fromstring_common (buf, buflen, flags);

  1824. 			ucl_copy_value_trash (obj);

  1825. 			if (multiline) {

  1826. 				obj->flags |= UCL_OBJECT_MULTILINE;

  1827. 			}

  1828. 		}

  1829. 		else if (strcasecmp (target, "int") == 0) {

  1830. 			tmp = malloc (buflen + 1);

  1831. 

  1832. 			if (tmp == NULL) {

  1833. 				ucl_create_err (&parser->err, "Memory allocation failed");

  1834. 				if (buf) {

  1835. 					ucl_munmap (buf, buflen);

  1836. 				}

  1837. 

  1838. 				return false;

  1839. 			}

  1840. 

  1841. 			snprintf (tmp, buflen + 1, "%.*s", (int)buflen, buf);

  1842. 			iv = strtoll (tmp, NULL, 10);

  1843. 			obj = ucl_object_fromint (iv);

  1844. 			free (tmp);

  1845. 		}

  1846. 

  1847. 		if (buf) {

  1848. 			ucl_munmap (buf, buflen);

  1849. 		}

  1850. 

  1851. 		if (obj != NULL) {

  1852. 			obj->key = prefix;

  1853. 			obj->keylen = strlen (prefix);

  1854. 			ucl_copy_key_trash (obj);

  1855. 			obj->prev = obj;

  1856. 			obj->next = NULL;

  1857. 			ucl_object_set_priority (obj, priority);

  1858. 			ucl_object_insert_key (container, obj, obj->key, obj->keylen, false);

  1859. 		}

  1860. 

  1861. 		return true;

  1862. 	}

  1863. 

  1864. 	ucl_create_err (&parser->err, "Unable to parse load macro");

  1865. 	return false;

  1866. }

  1867. 

  1868. bool

  1869. ucl_inherit_handler (const unsigned char *data, size_t len,

  1870. 		const ucl_object_t *args, const ucl_object_t *ctx, void* ud)

  1871. {

  1872. 	const ucl_object_t *parent, *cur;

  1873. 	ucl_object_t *target, *copy;

  1874. 	ucl_object_iter_t it = NULL;

  1875. 	bool replace = false;

  1876. 	struct ucl_parser *parser = ud;

  1877. 

  1878. 	parent = ucl_object_lookup_len (ctx, data, len);

  1879. 

  1880. 	/* Some sanity checks */

  1881. 	if (parent == NULL || ucl_object_type (parent) != UCL_OBJECT) {

  1882. 		ucl_create_err (&parser->err, "Unable to find inherited object %*.s",

  1883. 				(int)len, data);

  1884. 		return false;

  1885. 	}

  1886. 

  1887. 	if (parser->stack == NULL || parser->stack->obj == NULL ||

  1888. 			ucl_object_type (parser->stack->obj) != UCL_OBJECT) {

  1889. 		ucl_create_err (&parser->err, "Invalid inherit context");

  1890. 		return false;

  1891. 	}

  1892. 

  1893. 	target = parser->stack->obj;

  1894. 

  1895. 	if (args && (cur = ucl_object_lookup (args, "replace")) != NULL) {

  1896. 		replace = ucl_object_toboolean (cur);

  1897. 	}

  1898. 

  1899. 	while ((cur = ucl_object_iterate (parent, &it, true))) {

  1900. 		/* We do not replace existing keys */

  1901. 		if (!replace && ucl_object_lookup_len (target, cur->key, cur->keylen)) {

  1902. 			continue;

  1903. 		}

  1904. 

  1905. 		copy = ucl_object_copy (cur);

  1906. 

  1907. 		if (!replace) {

  1908. 			copy->flags |= UCL_OBJECT_INHERITED;

  1909. 		}

  1910. 

  1911. 		ucl_object_insert_key (target, copy, copy->key,

  1912. 				copy->keylen, false);

  1913. 	}

  1914. 

  1915. 	return true;

  1916. }

  1917. 

  1918. bool

  1919. ucl_parser_set_filevars (struct ucl_parser *parser, const char *filename, bool need_expand)

  1920. {

  1921. 	char realbuf[PATH_MAX], *curdir;

  1922. 

  1923. 	if (filename != NULL) {

  1924. 		if (need_expand) {

  1925. 			if (ucl_realpath (filename, realbuf) == NULL) {

  1926. 				return false;

  1927. 			}

  1928. 		}

  1929. 		else {

  1930. 			ucl_strlcpy (realbuf, filename, sizeof (realbuf));

  1931. 		}

  1932. 

  1933. 		if (parser->cur_file) {

  1934. 			free (parser->cur_file);

  1935. 		}

  1936. 

  1937. 		parser->cur_file = strdup (realbuf);

  1938. 

  1939. 		/* Define variables */

  1940. 		ucl_parser_register_variable (parser, "FILENAME", realbuf);

  1941. 		curdir = dirname (realbuf);

  1942. 		ucl_parser_register_variable (parser, "CURDIR", curdir);

  1943. 	}

  1944. 	else {

  1945. 		/* Set everything from the current dir */

  1946. 		curdir = getcwd (realbuf, sizeof (realbuf));

  1947. 		ucl_parser_register_variable (parser, "FILENAME", "undef");

  1948. 		ucl_parser_register_variable (parser, "CURDIR", curdir);

  1949. 	}

  1950. 

  1951. 	return true;

  1952. }

  1953. 

  1954. bool

  1955. ucl_parser_add_file_full (struct ucl_parser *parser, const char *filename,

  1956. 		unsigned priority, enum ucl_duplicate_strategy strat,

  1957. 		enum ucl_parse_type parse_type)

  1958. {

  1959. 	unsigned char *buf;

  1960. 	size_t len;

  1961. 	bool ret;

  1962. 	char realbuf[PATH_MAX];

  1963. 

  1964. 	if (ucl_realpath (filename, realbuf) == NULL) {

  1965. 		ucl_create_err (&parser->err, "cannot open file %s: %s",

  1966. 				filename,

  1967. 				strerror (errno));

  1968. 		return false;

  1969. 	}

  1970. 

  1971. 	if (!ucl_fetch_file (realbuf, &buf, &len, &parser->err, true)) {

  1972. 		return false;

  1973. 	}

  1974. 

  1975. 	ucl_parser_set_filevars (parser, realbuf, false);

  1976. 	ret = ucl_parser_add_chunk_full (parser, buf, len, priority, strat,

  1977. 			parse_type);

  1978. 

  1979. 	if (len > 0) {

  1980. 		ucl_munmap (buf, len);

  1981. 	}

  1982. 

  1983. 	return ret;

  1984. }

  1985. 

  1986. bool

  1987. ucl_parser_add_file_priority (struct ucl_parser *parser, const char *filename,

  1988. 		unsigned priority)

  1989. {

  1990. 	if (parser == NULL) {

  1991. 		return false;

  1992. 	}

  1993. 

  1994. 	return ucl_parser_add_file_full(parser, filename, priority,

  1995. 			UCL_DUPLICATE_APPEND, UCL_PARSE_UCL);

  1996. }

  1997. 

  1998. bool

  1999. ucl_parser_add_file (struct ucl_parser *parser, const char *filename)

  2000. {

  2001. 	if (parser == NULL) {

  2002. 		return false;

  2003. 	}

  2004. 

  2005. 	return ucl_parser_add_file_full(parser, filename,

  2006. 			parser->default_priority, UCL_DUPLICATE_APPEND,

  2007. 			UCL_PARSE_UCL);

  2008. }

  2009. 

  2010. 

  2011. bool

  2012. ucl_parser_add_fd_full (struct ucl_parser *parser, int fd,

  2013. 		unsigned priority, enum ucl_duplicate_strategy strat,

  2014. 		enum ucl_parse_type parse_type)

  2015. {

  2016. 	unsigned char *buf;

  2017. 	size_t len;

  2018. 	bool ret;

  2019. 	struct stat st;

  2020. 

  2021. 	if (fstat (fd, &st) == -1) {

  2022. 		ucl_create_err (&parser->err, "cannot stat fd %d: %s",

  2023. 			fd, strerror (errno));

  2024. 		return false;

  2025. 	}

  2026. 	if (st.st_size == 0) {

  2027. 		return true;

  2028. 	}

  2029. 	if ((buf = ucl_mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) {

  2030. 		ucl_create_err (&parser->err, "cannot mmap fd %d: %s",

  2031. 			fd, strerror (errno));

  2032. 		return false;

  2033. 	}

  2034. 

  2035. 	if (parser->cur_file) {

  2036. 		free (parser->cur_file);

  2037. 	}

  2038. 	parser->cur_file = NULL;

  2039. 	len = st.st_size;

  2040. 	ret = ucl_parser_add_chunk_full (parser, buf, len, priority, strat,

  2041. 			parse_type);

  2042. 

  2043. 	if (len > 0) {

  2044. 		ucl_munmap (buf, len);

  2045. 	}

  2046. 

  2047. 	return ret;

  2048. }

  2049. 

  2050. bool

  2051. ucl_parser_add_fd_priority (struct ucl_parser *parser, int fd,

  2052. 		unsigned priority)

  2053. {

  2054. 	if (parser == NULL) {

  2055. 		return false;

  2056. 	}

  2057. 

  2058. 	return ucl_parser_add_fd_full(parser, fd, parser->default_priority,

  2059. 			UCL_DUPLICATE_APPEND, UCL_PARSE_UCL);

  2060. }

  2061. 

  2062. bool

  2063. ucl_parser_add_fd (struct ucl_parser *parser, int fd)

  2064. {

  2065. 	if (parser == NULL) {

  2066. 		return false;

  2067. 	}

  2068. 

  2069. 	return ucl_parser_add_fd_priority(parser, fd, parser->default_priority);

  2070. }

  2071. 

  2072. size_t

  2073. ucl_strlcpy (char *dst, const char *src, size_t siz)

  2074. {

  2075. 	char *d = dst;

  2076. 	const char *s = src;

  2077. 	size_t n = siz;

  2078. 

  2079. 	/* Copy as many bytes as will fit */

  2080. 	if (n != 0) {

  2081. 		while (--n != 0) {

  2082. 			if ((*d++ = *s++) == '\0') {

  2083. 				break;

  2084. 			}

  2085. 		}

  2086. 	}

  2087. 

  2088. 	if (n == 0 && siz != 0) {

  2089. 		*d = '\0';

  2090. 	}

  2091. 

  2092. 	return (s - src - 1);    /* count does not include NUL */

  2093. }

  2094. 

  2095. size_t

  2096. ucl_strlcpy_unsafe (char *dst, const char *src, size_t siz)

  2097. {

  2098. 	memcpy (dst, src, siz - 1);

  2099. 	dst[siz - 1] = '\0';

  2100. 

  2101. 	return siz - 1;

  2102. }

  2103. 

  2104. size_t

  2105. ucl_strlcpy_tolower (char *dst, const char *src, size_t siz)

  2106. {

  2107. 	char *d = dst;

  2108. 	const char *s = src;

  2109. 	size_t n = siz;

  2110. 

  2111. 	/* Copy as many bytes as will fit */

  2112. 	if (n != 0) {

  2113. 		while (--n != 0) {

  2114. 			if ((*d++ = tolower (*s++)) == '\0') {

  2115. 				break;

  2116. 			}

  2117. 		}

  2118. 	}

  2119. 

  2120. 	if (n == 0 && siz != 0) {

  2121. 		*d = '\0';

  2122. 	}

  2123. 

  2124. 	return (s - src);    /* count does not include NUL */

  2125. }

  2126. 

  2127. /*

  2128.  * Find the first occurrence of find in s

  2129.  */

  2130. char *

  2131. ucl_strnstr (const char *s, const char *find, int len)

  2132. {

  2133. 	char c, sc;

  2134. 	int mlen;

  2135. 

  2136. 	if ((c = *find++) != 0) {

  2137. 		mlen = strlen (find);

  2138. 		do {

  2139. 			do {

  2140. 				if ((sc = *s++) == 0 || len-- == 0)

  2141. 					return (NULL);

  2142. 			} while (sc != c);

  2143. 		} while (strncmp (s, find, mlen) != 0);

  2144. 		s--;

  2145. 	}

  2146. 	return ((char *)s);

  2147. }

  2148. 

  2149. /*

  2150.  * Find the first occurrence of find in s, ignore case.

  2151.  */

  2152. char *

  2153. ucl_strncasestr (const char *s, const char *find, int len)

  2154. {

  2155. 	char c, sc;

  2156. 	int mlen;

  2157. 

  2158. 	if ((c = *find++) != 0) {

  2159. 		c = tolower (c);

  2160. 		mlen = strlen (find);

  2161. 		do {

  2162. 			do {

  2163. 				if ((sc = *s++) == 0 || len-- == 0)

  2164. 					return (NULL);

  2165. 			} while (tolower (sc) != c);

  2166. 		} while (strncasecmp (s, find, mlen) != 0);

  2167. 		s--;

  2168. 	}

  2169. 	return ((char *)s);

  2170. }

  2171. 

  2172. ucl_object_t *

  2173. ucl_object_fromstring_common (const char *str, size_t len, enum ucl_string_flags flags)

  2174. {

  2175. 	ucl_object_t *obj;

  2176. 	const char *start, *end, *p, *pos;

  2177. 	char *dst, *d;

  2178. 	size_t escaped_len;

  2179. 

  2180. 	if (str == NULL) {

  2181. 		return NULL;

  2182. 	}

  2183. 

  2184. 	obj = ucl_object_new ();

  2185. 	if (obj) {

  2186. 		if (len == 0) {

  2187. 			len = strlen (str);

  2188. 		}

  2189. 		if (flags & UCL_STRING_TRIM) {

  2190. 			/* Skip leading spaces */

  2191. 			for (start = str; (size_t)(start - str) < len; start ++) {

  2192. 				if (!ucl_test_character (*start, UCL_CHARACTER_WHITESPACE_UNSAFE)) {

  2193. 					break;

  2194. 				}

  2195. 			}

  2196. 			/* Skip trailing spaces */

  2197. 			for (end = str + len - 1; end > start; end --) {

  2198. 				if (!ucl_test_character (*end, UCL_CHARACTER_WHITESPACE_UNSAFE)) {

  2199. 					break;

  2200. 				}

  2201. 			}

  2202. 			end ++;

  2203. 		}

  2204. 		else {

  2205. 			start = str;

  2206. 			end = str + len;

  2207. 		}

  2208. 

  2209. 		obj->type = UCL_STRING;

  2210. 		if (flags & UCL_STRING_ESCAPE) {

  2211. 			for (p = start, escaped_len = 0; p < end; p ++, escaped_len ++) {

  2212. 				if (ucl_test_character (*p, UCL_CHARACTER_JSON_UNSAFE | UCL_CHARACTER_WHITESPACE_UNSAFE)) {

  2213. 					switch (*p) {

  2214. 					case '\v':

  2215. 						escaped_len += 5;

  2216. 						break;

  2217. 					case ' ':

  2218. 						break;

  2219. 					default:

  2220. 						escaped_len ++;

  2221. 						break;

  2222. 					}

  2223. 				}

  2224. 			}

  2225. 			dst = malloc (escaped_len + 1);

  2226. 			if (dst != NULL) {

  2227. 				for (p = start, d = dst; p < end; p ++, d ++) {

  2228. 					if (ucl_test_character (*p, UCL_CHARACTER_JSON_UNSAFE | UCL_CHARACTER_WHITESPACE_UNSAFE)) {

  2229. 						switch (*p) {

  2230. 						case '\n':

  2231. 							*d++ = '\\';

  2232. 							*d = 'n';

  2233. 							break;

  2234. 						case '\r':

  2235. 							*d++ = '\\';

  2236. 							*d = 'r';

  2237. 							break;

  2238. 						case '\b':

  2239. 							*d++ = '\\';

  2240. 							*d = 'b';

  2241. 							break;

  2242. 						case '\t':

  2243. 							*d++ = '\\';

  2244. 							*d = 't';

  2245. 							break;

  2246. 						case '\f':

  2247. 							*d++ = '\\';

  2248. 							*d = 'f';

  2249. 							break;

  2250. 						case '\v':

  2251. 							*d++ = '\\';

  2252. 							*d++ = 'u';

  2253. 							*d++ = '0';

  2254. 							*d++ = '0';

  2255. 							*d++ = '0';

  2256. 							*d   = 'B';

  2257. 							break;

  2258. 						case '\\':

  2259. 							*d++ = '\\';

  2260. 							*d = '\\';

  2261. 							break;

  2262. 						case ' ':

  2263. 							*d = ' ';

  2264. 							break;

  2265. 						case '"':

  2266. 							*d++ = '\\';

  2267. 							*d = '"';

  2268. 							break;

  2269. 						}

  2270. 					}

  2271. 					else {

  2272. 						*d = *p;

  2273. 					}

  2274. 				}

  2275. 				*d = '\0';

  2276. 				obj->value.sv = dst;

  2277. 				obj->trash_stack[UCL_TRASH_VALUE] = dst;

  2278. 				obj->len = escaped_len;

  2279. 			}

  2280. 		}

  2281. 		else {

  2282. 			dst = malloc (end - start + 1);

  2283. 			if (dst != NULL) {

  2284. 				ucl_strlcpy_unsafe (dst, start, end - start + 1);

  2285. 				obj->value.sv = dst;

  2286. 				obj->trash_stack[UCL_TRASH_VALUE] = dst;

  2287. 				obj->len = end - start;

  2288. 			}

  2289. 		}

  2290. 		if ((flags & UCL_STRING_PARSE) && dst != NULL) {

  2291. 			/* Parse what we have */

  2292. 			if (flags & UCL_STRING_PARSE_BOOLEAN) {

  2293. 				if (!ucl_maybe_parse_boolean (obj, dst, obj->len) && (flags & UCL_STRING_PARSE_NUMBER)) {

  2294. 					ucl_maybe_parse_number (obj, dst, dst + obj->len, &pos,

  2295. 							flags & UCL_STRING_PARSE_DOUBLE,

  2296. 							flags & UCL_STRING_PARSE_BYTES,

  2297. 							flags & UCL_STRING_PARSE_TIME);

  2298. 				}

  2299. 			}

  2300. 			else {

  2301. 				ucl_maybe_parse_number (obj, dst, dst + obj->len, &pos,

  2302. 						flags & UCL_STRING_PARSE_DOUBLE,

  2303. 						flags & UCL_STRING_PARSE_BYTES,

  2304. 						flags & UCL_STRING_PARSE_TIME);

  2305. 			}

  2306. 		}

  2307. 	}

  2308. 

  2309. 	return obj;

  2310. }

  2311. 

  2312. static bool

  2313. ucl_object_insert_key_common (ucl_object_t *top, ucl_object_t *elt,

  2314. 		const char *key, size_t keylen, bool copy_key, bool merge, bool replace)

  2315. {

  2316. 	ucl_object_t *found, *tmp;

  2317. 	const ucl_object_t *cur;

  2318. 	ucl_object_iter_t it = NULL;

  2319. 	const char *p;

  2320. 	int ret = true;

  2321. 

  2322. 	if (elt == NULL || key == NULL) {

  2323. 		return false;

  2324. 	}

  2325. 

  2326. 	if (top == NULL) {

  2327. 		return false;

  2328. 	}

  2329. 

  2330. 	if (top->type != UCL_OBJECT) {

  2331. 		/* It is possible to convert NULL type to an object */

  2332. 		if (top->type == UCL_NULL) {

  2333. 			top->type = UCL_OBJECT;

  2334. 		}

  2335. 		else {

  2336. 			/* Refuse converting of other object types */

  2337. 			return false;

  2338. 		}

  2339. 	}

  2340. 

  2341. 	if (top->value.ov == NULL) {

  2342. 		top->value.ov = ucl_hash_create (false);

  2343. 	}

  2344. 

  2345. 	if (keylen == 0) {

  2346. 		keylen = strlen (key);

  2347. 	}

  2348. 

  2349. 	for (p = key; p < key + keylen; p ++) {

  2350. 		if (ucl_test_character (*p, UCL_CHARACTER_UCL_UNSAFE)) {

  2351. 			elt->flags |= UCL_OBJECT_NEED_KEY_ESCAPE;

  2352. 			break;

  2353. 		}

  2354. 	}

  2355. 

  2356. 	/* workaround for some use cases */

  2357. 	if (elt->trash_stack[UCL_TRASH_KEY] != NULL &&

  2358. 			key != (const char *)elt->trash_stack[UCL_TRASH_KEY]) {

  2359. 		/* Remove copied key */

  2360. 		free (elt->trash_stack[UCL_TRASH_KEY]);

  2361. 		elt->trash_stack[UCL_TRASH_KEY] = NULL;

  2362. 		elt->flags &= ~UCL_OBJECT_ALLOCATED_KEY;

  2363. 	}

  2364. 

  2365. 	elt->key = key;

  2366. 	elt->keylen = keylen;

  2367. 

  2368. 	if (copy_key) {

  2369. 		ucl_copy_key_trash (elt);

  2370. 	}

  2371. 

  2372. 	found = __DECONST (ucl_object_t *, ucl_hash_search_obj (top->value.ov, elt));

  2373. 

  2374. 	if (found == NULL) {

  2375. 		top->value.ov = ucl_hash_insert_object (top->value.ov, elt, false);

  2376. 		top->len ++;

  2377. 		if (replace) {

  2378. 			ret = false;

  2379. 		}

  2380. 	}

  2381. 	else {

  2382. 		if (replace) {

  2383. 			ucl_hash_replace (top->value.ov, found, elt);

  2384. 			ucl_object_unref (found);

  2385. 		}

  2386. 		else if (merge) {

  2387. 			if (found->type != UCL_OBJECT && elt->type == UCL_OBJECT) {

  2388. 				/* Insert old elt to new one */

  2389. 				ucl_object_insert_key_common (elt, found, found->key,

  2390. 						found->keylen, copy_key, false, false);

  2391. 				ucl_hash_delete (top->value.ov, found);

  2392. 				top->value.ov = ucl_hash_insert_object (top->value.ov, elt, false);

  2393. 			}

  2394. 			else if (found->type == UCL_OBJECT && elt->type != UCL_OBJECT) {

  2395. 				/* Insert new to old */

  2396. 				ucl_object_insert_key_common (found, elt, elt->key,

  2397. 						elt->keylen, copy_key, false, false);

  2398. 			}

  2399. 			else if (found->type == UCL_OBJECT && elt->type == UCL_OBJECT) {

  2400. 				/* Mix two hashes */

  2401. 				while ((cur = ucl_object_iterate (elt, &it, true)) != NULL) {

  2402. 					tmp = ucl_object_ref (cur);

  2403. 					ucl_object_insert_key_common (found, tmp, cur->key,

  2404. 							cur->keylen, copy_key, true, false);

  2405. 				}

  2406. 				ucl_object_unref (elt);

  2407. 			}

  2408. 			else {

  2409. 				/* Just make a list of scalars */

  2410. 				DL_CONCAT (found, elt);

  2411. 			}

  2412. 		}

  2413. 		else {

  2414. 			DL_CONCAT (found, elt);

  2415. 		}

  2416. 	}

  2417. 

  2418. 	return ret;

  2419. }

  2420. 

  2421. bool

  2422. ucl_object_delete_keyl (ucl_object_t *top, const char *key, size_t keylen)

  2423. {

  2424. 	ucl_object_t *found;

  2425. 

  2426. 	if (top == NULL || key == NULL) {

  2427. 		return false;

  2428. 	}

  2429. 

  2430. 	found = __DECONST (ucl_object_t *, ucl_object_lookup_len (top, key, keylen));

  2431. 

  2432. 	if (found == NULL) {

  2433. 		return false;

  2434. 	}

  2435. 

  2436. 	ucl_hash_delete (top->value.ov, found);

  2437. 	ucl_object_unref (found);

  2438. 	top->len --;

  2439. 

  2440. 	return true;

  2441. }

  2442. 

  2443. bool

  2444. ucl_object_delete_key (ucl_object_t *top, const char *key)

  2445. {

  2446. 	return ucl_object_delete_keyl (top, key, strlen (key));

  2447. }

  2448. 

  2449. ucl_object_t*

  2450. ucl_object_pop_keyl (ucl_object_t *top, const char *key, size_t keylen)

  2451. {

  2452. 	const ucl_object_t *found;

  2453. 

  2454. 	if (top == NULL || key == NULL) {

  2455. 		return false;

  2456. 	}

  2457. 	found = ucl_object_lookup_len (top, key, keylen);

  2458. 

  2459. 	if (found == NULL) {

  2460. 		return NULL;

  2461. 	}

  2462. 	ucl_hash_delete (top->value.ov, found);

  2463. 	top->len --;

  2464. 

  2465. 	return __DECONST (ucl_object_t *, found);

  2466. }

  2467. 

  2468. ucl_object_t*

  2469. ucl_object_pop_key (ucl_object_t *top, const char *key)

  2470. {

  2471. 	return ucl_object_pop_keyl (top, key, strlen (key));

  2472. }

  2473. 

  2474. bool

  2475. ucl_object_insert_key (ucl_object_t *top, ucl_object_t *elt,

  2476. 		const char *key, size_t keylen, bool copy_key)

  2477. {

  2478. 	return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, false, false);

  2479. }

  2480. 

  2481. bool

  2482. ucl_object_insert_key_merged (ucl_object_t *top, ucl_object_t *elt,

  2483. 		const char *key, size_t keylen, bool copy_key)

  2484. {

  2485. 	return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, true, false);

  2486. }

  2487. 

  2488. bool

  2489. ucl_object_replace_key (ucl_object_t *top, ucl_object_t *elt,

  2490. 		const char *key, size_t keylen, bool copy_key)

  2491. {

  2492. 	return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, false, true);

  2493. }

  2494. 

  2495. bool

  2496. ucl_object_merge (ucl_object_t *top, ucl_object_t *elt, bool copy)

  2497. {

  2498. 	ucl_object_t *cur = NULL, *cp = NULL, *found = NULL;

  2499. 	ucl_object_iter_t iter = NULL;

  2500. 

  2501. 	if (top == NULL || elt == NULL) {

  2502. 		return false;

  2503. 	}

  2504. 

  2505. 	if (top->type == UCL_ARRAY) {

  2506. 		if (elt->type == UCL_ARRAY) {

  2507. 			/* Merge two arrays */

  2508. 			return ucl_array_merge (top, elt, copy);

  2509. 		}

  2510. 		else {

  2511. 			if (copy) {

  2512. 				ucl_array_append (top, ucl_object_copy (elt));

  2513. 

  2514. 				return true;

  2515. 			}

  2516. 			else {

  2517. 				ucl_array_append (top, ucl_object_ref (elt));

  2518. 

  2519. 				return true;

  2520. 			}

  2521. 		}

  2522. 	}

  2523. 	else if (top->type == UCL_OBJECT) {

  2524. 		if (elt->type == UCL_OBJECT) {

  2525. 			/* Mix two hashes */

  2526. 			while ((cur = (ucl_object_t *) ucl_hash_iterate (elt->value.ov,

  2527. 					&iter))) {

  2528. 

  2529. 				if (copy) {

  2530. 					cp = ucl_object_copy (cur);

  2531. 				} else {

  2532. 					cp = ucl_object_ref (cur);

  2533. 				}

  2534. 

  2535. 				found = __DECONST(ucl_object_t *,

  2536. 						ucl_hash_search (top->value.ov, cp->key, cp->keylen));

  2537. 

  2538. 				if (found == NULL) {

  2539. 					/* The key does not exist */

  2540. 					top->value.ov = ucl_hash_insert_object (top->value.ov, cp,

  2541. 							false);

  2542. 					top->len++;

  2543. 				}

  2544. 				else {

  2545. 					/* The key already exists, merge it recursively */

  2546. 					if (found->type == UCL_OBJECT || found->type == UCL_ARRAY) {

  2547. 						if (!ucl_object_merge (found, cp, copy)) {

  2548. 							return false;

  2549. 						}

  2550. 					}

  2551. 					else {

  2552. 						ucl_hash_replace (top->value.ov, found, cp);

  2553. 						ucl_object_unref (found);

  2554. 					}

  2555. 				}

  2556. 			}

  2557. 		}

  2558. 		else {

  2559. 			if (copy) {

  2560. 				cp = ucl_object_copy (elt);

  2561. 			}

  2562. 			else {

  2563. 				cp = ucl_object_ref (elt);

  2564. 			}

  2565. 

  2566. 			found = __DECONST(ucl_object_t *,

  2567. 					ucl_hash_search (top->value.ov, cp->key, cp->keylen));

  2568. 

  2569. 			if (found == NULL) {

  2570. 				/* The key does not exist */

  2571. 				top->value.ov = ucl_hash_insert_object (top->value.ov, cp,

  2572. 						false);

  2573. 				top->len++;

  2574. 			}

  2575. 			else {

  2576. 				/* The key already exists, merge it recursively */

  2577. 				if (found->type == UCL_OBJECT || found->type == UCL_ARRAY) {

  2578. 					if (!ucl_object_merge (found, cp, copy)) {

  2579. 						return false;

  2580. 					}

  2581. 				}

  2582. 				else {

  2583. 					ucl_hash_replace (top->value.ov, found, cp);

  2584. 					ucl_object_unref (found);

  2585. 				}

  2586. 			}

  2587. 		}

  2588. 	}

  2589. 	else {

  2590. 		/* Cannot merge trivial objects */

  2591. 		return false;

  2592. 	}

  2593. 

  2594. 	return true;

  2595. }

  2596. 

  2597. const ucl_object_t *

  2598. ucl_object_lookup_len (const ucl_object_t *obj, const char *key, size_t klen)

  2599. {

  2600. 	const ucl_object_t *ret;

  2601. 	ucl_object_t srch;

  2602. 

  2603. 	if (obj == NULL || obj->type != UCL_OBJECT || key == NULL) {

  2604. 		return NULL;

  2605. 	}

  2606. 

  2607. 	srch.key = key;

  2608. 	srch.keylen = klen;

  2609. 	ret = ucl_hash_search_obj (obj->value.ov, &srch);

  2610. 

  2611. 	return ret;

  2612. }

  2613. 

  2614. const ucl_object_t *

  2615. ucl_object_lookup (const ucl_object_t *obj, const char *key)

  2616. {

  2617. 	if (key == NULL) {

  2618. 		return NULL;

  2619. 	}

  2620. 

  2621. 	return ucl_object_lookup_len (obj, key, strlen (key));

  2622. }

  2623. 

  2624. const ucl_object_t*

  2625. ucl_object_lookup_any (const ucl_object_t *obj,

  2626. 		const char *key, ...)

  2627. {

  2628. 	va_list ap;

  2629. 	const ucl_object_t *ret = NULL;

  2630. 	const char *nk = NULL;

  2631. 

  2632. 	if (obj == NULL || key == NULL) {

  2633. 		return NULL;

  2634. 	}

  2635. 

  2636. 	ret = ucl_object_lookup_len (obj, key, strlen (key));

  2637. 

  2638. 	if (ret == NULL) {

  2639. 		va_start (ap, key);

  2640. 

  2641. 		while (ret == NULL) {

  2642. 			nk = va_arg (ap, const char *);

  2643. 

  2644. 			if (nk == NULL) {

  2645. 				break;

  2646. 			}

  2647. 			else {

  2648. 				ret = ucl_object_lookup_len (obj, nk, strlen (nk));

  2649. 			}

  2650. 		}

  2651. 

  2652. 		va_end (ap);

  2653. 	}

  2654. 

  2655. 	return ret;

  2656. }

  2657. 

  2658. const ucl_object_t*

  2659. ucl_object_iterate (const ucl_object_t *obj, ucl_object_iter_t *iter, bool expand_values)

  2660. {

  2661. 	const ucl_object_t *elt = NULL;

  2662. 

  2663. 	if (obj == NULL || iter == NULL) {

  2664. 		return NULL;

  2665. 	}

  2666. 

  2667. 	if (expand_values) {

  2668. 		switch (obj->type) {

  2669. 		case UCL_OBJECT:

  2670. 			return (const ucl_object_t*)ucl_hash_iterate (obj->value.ov, iter);

  2671. 			break;

  2672. 		case UCL_ARRAY: {

  2673. 			unsigned int idx;

  2674. 			UCL_ARRAY_GET (vec, obj);

  2675. 			idx = (unsigned int)(uintptr_t)(*iter);

  2676. 

  2677. 			if (vec != NULL) {

  2678. 				while (idx < kv_size (*vec)) {

  2679. 					if ((elt = kv_A (*vec, idx)) != NULL) {

  2680. 						idx ++;

  2681. 						break;

  2682. 					}

  2683. 					idx ++;

  2684. 				}

  2685. 				*iter = (void *)(uintptr_t)idx;

  2686. 			}

  2687. 

  2688. 			return elt;

  2689. 			break;

  2690. 		}

  2691. 		default:

  2692. 			/* Go to linear iteration */

  2693. 			break;

  2694. 		}

  2695. 	}

  2696. 	/* Treat everything as a linear list */

  2697. 	elt = *iter;

  2698. 	if (elt == NULL) {

  2699. 		elt = obj;

  2700. 	}

  2701. 	else if (elt == obj) {

  2702. 		return NULL;

  2703. 	}

  2704. 	*iter = __DECONST (void *, elt->next ? elt->next : obj);

  2705. 	return elt;

  2706. 

  2707. 	/* Not reached */

  2708. 	return NULL;

  2709. }

  2710. 

  2711. enum ucl_safe_iter_flags {

  2712. 	UCL_ITERATE_FLAG_UNDEFINED = 0,

  2713. 	UCL_ITERATE_FLAG_INSIDE_ARRAY,

  2714. 	UCL_ITERATE_FLAG_INSIDE_OBJECT,

  2715. 	UCL_ITERATE_FLAG_IMPLICIT,

  2716. };

  2717. 

  2718. const char safe_iter_magic[4] = {'u', 'i', 't', 'e'};

  2719. struct ucl_object_safe_iter {

  2720. 	char magic[4]; /* safety check */

  2721. 	uint32_t flags;

  2722. 	const ucl_object_t *impl_it; /* implicit object iteration */

  2723. 	ucl_object_iter_t expl_it; /* explicit iteration */

  2724. };

  2725. 

  2726. #define UCL_SAFE_ITER(ptr) (struct ucl_object_safe_iter *)(ptr)

  2727. #define UCL_SAFE_ITER_CHECK(it) do { \

  2728. 	assert (it != NULL); \

  2729. 	assert (memcmp (it->magic, safe_iter_magic, sizeof (it->magic)) == 0); \

  2730.  } while (0)

  2731. 

  2732. ucl_object_iter_t

  2733. ucl_object_iterate_new (const ucl_object_t *obj)

  2734. {

  2735. 	struct ucl_object_safe_iter *it;

  2736. 

  2737. 	it = UCL_ALLOC (sizeof (*it));

  2738. 	if (it != NULL) {

  2739. 		memcpy (it->magic, safe_iter_magic, sizeof (it->magic));

  2740. 		it->flags = UCL_ITERATE_FLAG_UNDEFINED;

  2741. 		it->expl_it = NULL;

  2742. 		it->impl_it = obj;

  2743. 	}

  2744. 

  2745. 	return (ucl_object_iter_t)it;

  2746. }

  2747. 

  2748. 

  2749. ucl_object_iter_t

  2750. ucl_object_iterate_reset (ucl_object_iter_t it, const ucl_object_t *obj)

  2751. {

  2752. 	struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it);

  2753. 

  2754. 	UCL_SAFE_ITER_CHECK (rit);

  2755. 

  2756. 	if (rit->expl_it != NULL) {

  2757. 		if (rit->flags == UCL_ITERATE_FLAG_INSIDE_OBJECT) {

  2758. 			UCL_FREE (sizeof (*rit->expl_it), rit->expl_it);

  2759. 		}

  2760. 	}

  2761. 

  2762. 	rit->impl_it = obj;

  2763. 	rit->expl_it = NULL;

  2764. 	rit->flags = UCL_ITERATE_FLAG_UNDEFINED;

  2765. 

  2766. 	return it;

  2767. }

  2768. 

  2769. const ucl_object_t*

  2770. ucl_object_iterate_safe (ucl_object_iter_t it, bool expand_values)

  2771. {

  2772. 	return ucl_object_iterate_full (it, expand_values ? UCL_ITERATE_BOTH :

  2773. 			UCL_ITERATE_IMPLICIT);

  2774. }

  2775. 

  2776. const ucl_object_t*

  2777. ucl_object_iterate_full (ucl_object_iter_t it, enum ucl_iterate_type type)

  2778. {

  2779. 	struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it);

  2780. 	const ucl_object_t *ret = NULL;

  2781. 

  2782. 	UCL_SAFE_ITER_CHECK (rit);

  2783. 

  2784. 	if (rit->impl_it == NULL) {

  2785. 		return NULL;

  2786. 	}

  2787. 

  2788. 	if (rit->impl_it->type == UCL_OBJECT) {

  2789. 		rit->flags = UCL_ITERATE_FLAG_INSIDE_OBJECT;

  2790. 		ret = ucl_object_iterate (rit->impl_it, &rit->expl_it, true);

  2791. 

  2792. 		if (ret == NULL && (type & UCL_ITERATE_IMPLICIT)) {

  2793. 			/* Need to switch to another implicit object in chain */

  2794. 			rit->impl_it = rit->impl_it->next;

  2795. 			rit->expl_it = NULL;

  2796. 

  2797. 			return ucl_object_iterate_safe (it, type);

  2798. 		}

  2799. 	}

  2800. 	else if (rit->impl_it->type == UCL_ARRAY) {

  2801. 		rit->flags = UCL_ITERATE_FLAG_INSIDE_ARRAY;

  2802. 		ret = ucl_object_iterate (rit->impl_it, &rit->expl_it, true);

  2803. 

  2804. 		if (ret == NULL && (type & UCL_ITERATE_IMPLICIT)) {

  2805. 			/* Need to switch to another implicit object in chain */

  2806. 			rit->impl_it = rit->impl_it->next;

  2807. 			rit->expl_it = NULL;

  2808. 

  2809. 			return ucl_object_iterate_safe (it, type);

  2810. 		}

  2811. 	}

  2812. 	else {

  2813. 		/* Just iterate over the implicit array */

  2814. 		rit->flags = UCL_ITERATE_FLAG_IMPLICIT;

  2815. 		ret = rit->impl_it;

  2816. 		rit->impl_it = rit->impl_it->next;

  2817. 

  2818. 		if (type & UCL_ITERATE_EXPLICIT) {

  2819. 			/* We flatten objects if need to expand values */

  2820. 			if (ret->type == UCL_OBJECT || ret->type == UCL_ARRAY) {

  2821. 				return ucl_object_iterate_safe (it, type);

  2822. 			}

  2823. 		}

  2824. 	}

  2825. 

  2826. 	return ret;

  2827. }

  2828. 

  2829. void

  2830. ucl_object_iterate_free (ucl_object_iter_t it)

  2831. {

  2832. 	struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it);

  2833. 

  2834. 	UCL_SAFE_ITER_CHECK (rit);

  2835. 

  2836. 	if (rit->expl_it != NULL) {

  2837. 		if (rit->flags == UCL_ITERATE_FLAG_INSIDE_OBJECT) {

  2838. 			UCL_FREE (sizeof (*rit->expl_it), rit->expl_it);

  2839. 		}

  2840. 	}

  2841. 

  2842. 	UCL_FREE (sizeof (*rit), it);

  2843. }

  2844. 

  2845. const ucl_object_t *

  2846. ucl_object_lookup_path (const ucl_object_t *top, const char *path_in) {

  2847. 	return ucl_object_lookup_path_char (top, path_in, '.');

  2848. }

  2849. 

  2850. 

  2851. const ucl_object_t *

  2852. ucl_object_lookup_path_char (const ucl_object_t *top, const char *path_in, const char sep) {

  2853. 	const ucl_object_t *o = NULL, *found;

  2854. 	const char *p, *c;

  2855. 	char *err_str;

  2856. 	unsigned index;

  2857. 

  2858. 	if (path_in == NULL || top == NULL) {

  2859. 		return NULL;

  2860. 	}

  2861. 

  2862. 	found = NULL;

  2863. 	p = path_in;

  2864. 

  2865. 	/* Skip leading dots */

  2866. 	while (*p == sep) {

  2867. 		p ++;

  2868. 	}

  2869. 

  2870. 	c = p;

  2871. 	while (*p != '\0') {

  2872. 		p ++;

  2873. 		if (*p == sep || *p == '\0') {

  2874. 			if (p > c) {

  2875. 				switch (top->type) {

  2876. 				case UCL_ARRAY:

  2877. 					/* Key should be an int */

  2878. 					index = strtoul (c, &err_str, 10);

  2879. 					if (err_str != NULL && (*err_str != sep && *err_str != '\0')) {

  2880. 						return NULL;

  2881. 					}

  2882. 					o = ucl_array_find_index (top, index);

  2883. 					break;

  2884. 				default:

  2885. 					o = ucl_object_lookup_len (top, c, p - c);

  2886. 					break;

  2887. 				}

  2888. 				if (o == NULL) {

  2889. 					return NULL;

  2890. 				}

  2891. 				top = o;

  2892. 			}

  2893. 			if (*p != '\0') {

  2894. 				c = p + 1;

  2895. 			}

  2896. 		}

  2897. 	}

  2898. 	found = o;

  2899. 

  2900. 	return found;

  2901. }

  2902. 

  2903. 

  2904. ucl_object_t *

  2905. ucl_object_new (void)

  2906. {

  2907. 	return ucl_object_typed_new (UCL_NULL);

  2908. }

  2909. 

  2910. ucl_object_t *

  2911. ucl_object_typed_new (ucl_type_t type)

  2912. {

  2913. 	return ucl_object_new_full (type, 0);

  2914. }

  2915. 

  2916. ucl_object_t *

  2917. ucl_object_new_full (ucl_type_t type, unsigned priority)

  2918. {

  2919. 	ucl_object_t *new;

  2920. 

  2921. 	if (type != UCL_USERDATA) {

  2922. 		new = UCL_ALLOC (sizeof (ucl_object_t));

  2923. 		if (new != NULL) {

  2924. 			memset (new, 0, sizeof (ucl_object_t));

  2925. 			new->ref = 1;

  2926. 			new->type = (type <= UCL_NULL ? type : UCL_NULL);

  2927. 			new->next = NULL;

  2928. 			new->prev = new;

  2929. 			ucl_object_set_priority (new, priority);

  2930. 

  2931. 			if (type == UCL_ARRAY) {

  2932. 				new->value.av = UCL_ALLOC (sizeof (ucl_array_t));

  2933. 				if (new->value.av) {

  2934. 					memset (new->value.av, 0, sizeof (ucl_array_t));

  2935. 					UCL_ARRAY_GET (vec, new);

  2936. 

  2937. 					/* Preallocate some space for arrays */

  2938. 					kv_resize (ucl_object_t *, *vec, 8);

  2939. 				}

  2940. 			}

  2941. 		}

  2942. 	}

  2943. 	else {

  2944. 		new = ucl_object_new_userdata (NULL, NULL, NULL);

  2945. 		ucl_object_set_priority (new, priority);

  2946. 	}

  2947. 

  2948. 	return new;

  2949. }

  2950. 

  2951. void ucl_object_reserve (ucl_object_t *obj, size_t reserved)

  2952. {

  2953. 	if (obj->type == UCL_ARRAY) {

  2954. 		UCL_ARRAY_GET (vec, obj);

  2955. 

  2956. 		if (vec->m < reserved) {

  2957. 			/* Preallocate some space for arrays */

  2958. 			kv_resize (ucl_object_t *, *vec, reserved);

  2959. 		}

  2960. 	}

  2961. 	else if (obj->type == UCL_OBJECT) {

  2962. 		ucl_hash_reserve (obj->value.ov, reserved);

  2963. 	}

  2964. }

  2965. 

  2966. ucl_object_t*

  2967. ucl_object_new_userdata (ucl_userdata_dtor dtor,

  2968. 		ucl_userdata_emitter emitter,

  2969. 		void *ptr)

  2970. {

  2971. 	struct ucl_object_userdata *new;

  2972. 	size_t nsize = sizeof (*new);

  2973. 

  2974. 	new = UCL_ALLOC (nsize);

  2975. 	if (new != NULL) {

  2976. 		memset (new, 0, nsize);

  2977. 		new->obj.ref = 1;

  2978. 		new->obj.type = UCL_USERDATA;

  2979. 		new->obj.next = NULL;

  2980. 		new->obj.prev = (ucl_object_t *)new;

  2981. 		new->dtor = dtor;

  2982. 		new->emitter = emitter;

  2983. 		new->obj.value.ud = ptr;

  2984. 	}

  2985. 

  2986. 	return (ucl_object_t *)new;

  2987. }

  2988. 

  2989. ucl_type_t

  2990. ucl_object_type (const ucl_object_t *obj)

  2991. {

  2992. 	if (obj == NULL) {

  2993. 		return UCL_NULL;

  2994. 	}

  2995. 

  2996. 	return obj->type;

  2997. }

  2998. 

  2999. ucl_object_t*

  3000. ucl_object_fromstring (const char *str)

  3001. {

  3002. 	return ucl_object_fromstring_common (str, 0, UCL_STRING_ESCAPE);

  3003. }

  3004. 

  3005. ucl_object_t *

  3006. ucl_object_fromlstring (const char *str, size_t len)

  3007. {

  3008. 	return ucl_object_fromstring_common (str, len, UCL_STRING_ESCAPE);

  3009. }

  3010. 

  3011. ucl_object_t *

  3012. ucl_object_fromint (int64_t iv)

  3013. {

  3014. 	ucl_object_t *obj;

  3015. 

  3016. 	obj = ucl_object_new ();

  3017. 	if (obj != NULL) {

  3018. 		obj->type = UCL_INT;

  3019. 		obj->value.iv = iv;

  3020. 	}

  3021. 

  3022. 	return obj;

  3023. }

  3024. 

  3025. ucl_object_t *

  3026. ucl_object_fromdouble (double dv)

  3027. {

  3028. 	ucl_object_t *obj;

  3029. 

  3030. 	obj = ucl_object_new ();

  3031. 	if (obj != NULL) {

  3032. 		obj->type = UCL_FLOAT;

  3033. 		obj->value.dv = dv;

  3034. 	}

  3035. 

  3036. 	return obj;

  3037. }

  3038. 

  3039. ucl_object_t*

  3040. ucl_object_frombool (bool bv)

  3041. {

  3042. 	ucl_object_t *obj;

  3043. 

  3044. 	obj = ucl_object_new ();

  3045. 	if (obj != NULL) {

  3046. 		obj->type = UCL_BOOLEAN;

  3047. 		obj->value.iv = bv;

  3048. 	}

  3049. 

  3050. 	return obj;

  3051. }

  3052. 

  3053. bool

  3054. ucl_array_append (ucl_object_t *top, ucl_object_t *elt)

  3055. {

  3056. 	UCL_ARRAY_GET (vec, top);

  3057. 

  3058. 	if (elt == NULL || top == NULL) {

  3059. 		return false;

  3060. 	}

  3061. 

  3062. 	if (vec == NULL) {

  3063. 		vec = UCL_ALLOC (sizeof (*vec));

  3064. 

  3065. 		if (vec == NULL) {

  3066. 			return false;

  3067. 		}

  3068. 

  3069. 		kv_init (*vec);

  3070. 		top->value.av = (void *)vec;

  3071. 	}

  3072. 

  3073. 	kv_push (ucl_object_t *, *vec, elt);

  3074. 

  3075. 	top->len ++;

  3076. 

  3077. 	return true;

  3078. }

  3079. 

  3080. bool

  3081. ucl_array_prepend (ucl_object_t *top, ucl_object_t *elt)

  3082. {

  3083. 	UCL_ARRAY_GET (vec, top);

  3084. 

  3085. 	if (elt == NULL || top == NULL) {

  3086. 		return false;

  3087. 	}

  3088. 

  3089. 	if (vec == NULL) {

  3090. 		vec = UCL_ALLOC (sizeof (*vec));

  3091. 		kv_init (*vec);

  3092. 		top->value.av = (void *)vec;

  3093. 		kv_push (ucl_object_t *, *vec, elt);

  3094. 	}

  3095. 	else {

  3096. 		/* Slow O(n) algorithm */

  3097. 		kv_prepend (ucl_object_t *, *vec, elt);

  3098. 	}

  3099. 

  3100. 	top->len ++;

  3101. 

  3102. 	return true;

  3103. }

  3104. 

  3105. bool

  3106. ucl_array_merge (ucl_object_t *top, ucl_object_t *elt, bool copy)

  3107. {

  3108. 	unsigned i;

  3109. 	ucl_object_t *cp = NULL;

  3110. 	ucl_object_t **obj;

  3111. 

  3112. 	if (elt == NULL || top == NULL || top->type != UCL_ARRAY || elt->type != UCL_ARRAY) {

  3113. 		return false;

  3114. 	}

  3115. 

  3116. 	if (copy) {

  3117. 		cp = ucl_object_copy (elt);

  3118. 	}

  3119. 	else {

  3120. 		cp = ucl_object_ref (elt);

  3121. 	}

  3122. 

  3123. 	UCL_ARRAY_GET (v1, top);

  3124. 	UCL_ARRAY_GET (v2, cp);

  3125. 

  3126. 	if (v1 && v2) {

  3127. 		kv_concat (ucl_object_t *, *v1, *v2);

  3128. 

  3129. 		for (i = v2->n; i < v1->n; i ++) {

  3130. 			obj = &kv_A (*v1, i);

  3131. 			if (*obj == NULL) {

  3132. 				continue;

  3133. 			}

  3134. 			top->len ++;

  3135. 		}

  3136. 	}

  3137. 

  3138. 	return true;

  3139. }

  3140. 

  3141. ucl_object_t *

  3142. ucl_array_delete (ucl_object_t *top, ucl_object_t *elt)

  3143. {

  3144. 	UCL_ARRAY_GET (vec, top);

  3145. 	ucl_object_t *ret = NULL;

  3146. 	unsigned i;

  3147. 

  3148. 	if (vec == NULL) {

  3149. 		return NULL;

  3150. 	}

  3151. 

  3152. 	for (i = 0; i < vec->n; i ++) {

  3153. 		if (kv_A (*vec, i) == elt) {

  3154. 			kv_del (ucl_object_t *, *vec, i);

  3155. 			ret = elt;

  3156. 			top->len --;

  3157. 			break;

  3158. 		}

  3159. 	}

  3160. 

  3161. 	return ret;

  3162. }

  3163. 

  3164. const ucl_object_t *

  3165. ucl_array_head (const ucl_object_t *top)

  3166. {

  3167. 	UCL_ARRAY_GET (vec, top);

  3168. 

  3169. 	if (vec == NULL || top == NULL || top->type != UCL_ARRAY ||

  3170. 			top->value.av == NULL) {

  3171. 		return NULL;

  3172. 	}

  3173. 

  3174. 	return (vec->n > 0 ? vec->a[0] : NULL);

  3175. }

  3176. 

  3177. const ucl_object_t *

  3178. ucl_array_tail (const ucl_object_t *top)

  3179. {

  3180. 	UCL_ARRAY_GET (vec, top);

  3181. 

  3182. 	if (top == NULL || top->type != UCL_ARRAY || top->value.av == NULL) {

  3183. 		return NULL;

  3184. 	}

  3185. 

  3186. 	return (vec->n > 0 ? vec->a[vec->n - 1] : NULL);

  3187. }

  3188. 

  3189. ucl_object_t *

  3190. ucl_array_pop_last (ucl_object_t *top)

  3191. {

  3192. 	UCL_ARRAY_GET (vec, top);

  3193. 	ucl_object_t **obj, *ret = NULL;

  3194. 

  3195. 	if (vec != NULL && vec->n > 0) {

  3196. 		obj = &kv_A (*vec, vec->n - 1);

  3197. 		ret = *obj;

  3198. 		kv_del (ucl_object_t *, *vec, vec->n - 1);

  3199. 		top->len --;

  3200. 	}

  3201. 

  3202. 	return ret;

  3203. }

  3204. 

  3205. ucl_object_t *

  3206. ucl_array_pop_first (ucl_object_t *top)

  3207. {

  3208. 	UCL_ARRAY_GET (vec, top);

  3209. 	ucl_object_t **obj, *ret = NULL;

  3210. 

  3211. 	if (vec != NULL && vec->n > 0) {

  3212. 		obj = &kv_A (*vec, 0);

  3213. 		ret = *obj;

  3214. 		kv_del (ucl_object_t *, *vec, 0);

  3215. 		top->len --;

  3216. 	}

  3217. 

  3218. 	return ret;

  3219. }

  3220. 

  3221. unsigned int

  3222. ucl_array_size (const ucl_object_t *top)

  3223. {

  3224. 	if (top == NULL || top->type != UCL_ARRAY) {

  3225. 		return 0;

  3226. 	}

  3227. 

  3228. 	UCL_ARRAY_GET (vec, top);

  3229. 

  3230. 	if (vec != NULL) {

  3231. 		return kv_size(*vec);

  3232. 	}

  3233. 

  3234. 	return 0;

  3235. }

  3236. 

  3237. const ucl_object_t *

  3238. ucl_array_find_index (const ucl_object_t *top, unsigned int index)

  3239. {

  3240. 	UCL_ARRAY_GET (vec, top);

  3241. 

  3242. 	if (vec != NULL && vec->n > 0 && index < vec->n) {

  3243. 		return kv_A (*vec, index);

  3244. 	}

  3245. 

  3246. 	return NULL;

  3247. }

  3248. 

  3249. unsigned int

  3250. ucl_array_index_of (ucl_object_t *top, ucl_object_t *elt)

  3251. {

  3252. 	UCL_ARRAY_GET (vec, top);

  3253. 	unsigned i;

  3254. 

  3255. 	if (vec == NULL) {

  3256. 		return (unsigned int)(-1);

  3257. 	}

  3258. 

  3259. 	for (i = 0; i < vec->n; i ++) {

  3260. 		if (kv_A (*vec, i) == elt) {

  3261. 			return i;

  3262. 		}

  3263. 	}

  3264. 

  3265. 	return (unsigned int)(-1);

  3266. }

  3267. 

  3268. ucl_object_t *

  3269. ucl_array_replace_index (ucl_object_t *top, ucl_object_t *elt,

  3270. 	unsigned int index)

  3271. {

  3272. 	UCL_ARRAY_GET (vec, top);

  3273. 	ucl_object_t *ret = NULL;

  3274. 

  3275. 	if (vec != NULL && vec->n > 0 && index < vec->n) {

  3276. 		ret = kv_A (*vec, index);

  3277. 		kv_A (*vec, index) = elt;

  3278. 	}

  3279. 

  3280. 	return ret;

  3281. }

  3282. 

  3283. ucl_object_t *

  3284. ucl_elt_append (ucl_object_t *head, ucl_object_t *elt)

  3285. {

  3286. 

  3287. 	if (head == NULL) {

  3288. 		elt->next = NULL;

  3289. 		elt->prev = elt;

  3290. 		head = elt;

  3291. 	}

  3292. 	else {

  3293. 		elt->prev = head->prev;

  3294. 		head->prev->next = elt;

  3295. 		head->prev = elt;

  3296. 		elt->next = NULL;

  3297. 	}

  3298. 

  3299. 	return head;

  3300. }

  3301. 

  3302. bool

  3303. ucl_object_todouble_safe (const ucl_object_t *obj, double *target)

  3304. {

  3305. 	if (obj == NULL || target == NULL) {

  3306. 		return false;

  3307. 	}

  3308. 	switch (obj->type) {

  3309. 	case UCL_INT:

  3310. 		*target = obj->value.iv; /* Probably could cause overflow */

  3311. 		break;

  3312. 	case UCL_FLOAT:

  3313. 	case UCL_TIME:

  3314. 		*target = obj->value.dv;

  3315. 		break;

  3316. 	default:

  3317. 		return false;

  3318. 	}

  3319. 

  3320. 	return true;

  3321. }

  3322. 

  3323. double

  3324. ucl_object_todouble (const ucl_object_t *obj)

  3325. {

  3326. 	double result = 0.;

  3327. 

  3328. 	ucl_object_todouble_safe (obj, &result);

  3329. 	return result;

  3330. }

  3331. 

  3332. bool

  3333. ucl_object_toint_safe (const ucl_object_t *obj, int64_t *target)

  3334. {

  3335. 	if (obj == NULL || target == NULL) {

  3336. 		return false;

  3337. 	}

  3338. 	switch (obj->type) {

  3339. 	case UCL_INT:

  3340. 		*target = obj->value.iv;

  3341. 		break;

  3342. 	case UCL_FLOAT:

  3343. 	case UCL_TIME:

  3344. 		*target = obj->value.dv; /* Losing of decimal points */

  3345. 		break;

  3346. 	default:

  3347. 		return false;

  3348. 	}

  3349. 

  3350. 	return true;

  3351. }

  3352. 

  3353. int64_t

  3354. ucl_object_toint (const ucl_object_t *obj)

  3355. {

  3356. 	int64_t result = 0;

  3357. 

  3358. 	ucl_object_toint_safe (obj, &result);

  3359. 	return result;

  3360. }

  3361. 

  3362. bool

  3363. ucl_object_toboolean_safe (const ucl_object_t *obj, bool *target)

  3364. {

  3365. 	if (obj == NULL || target == NULL) {

  3366. 		return false;

  3367. 	}

  3368. 	switch (obj->type) {

  3369. 	case UCL_BOOLEAN:

  3370. 		*target = (obj->value.iv == true);

  3371. 		break;

  3372. 	default:

  3373. 		return false;

  3374. 	}

  3375. 

  3376. 	return true;

  3377. }

  3378. 

  3379. bool

  3380. ucl_object_toboolean (const ucl_object_t *obj)

  3381. {

  3382. 	bool result = false;

  3383. 

  3384. 	ucl_object_toboolean_safe (obj, &result);

  3385. 	return result;

  3386. }

  3387. 

  3388. bool

  3389. ucl_object_tostring_safe (const ucl_object_t *obj, const char **target)

  3390. {

  3391. 	if (obj == NULL || target == NULL) {

  3392. 		return false;

  3393. 	}

  3394. 

  3395. 	switch (obj->type) {

  3396. 	case UCL_STRING:

  3397. 		if (!(obj->flags & UCL_OBJECT_BINARY)) {

  3398. 			*target = ucl_copy_value_trash (obj);

  3399. 		}

  3400. 		break;

  3401. 	default:

  3402. 		return false;

  3403. 	}

  3404. 

  3405. 	return true;

  3406. }

  3407. 

  3408. const char *

  3409. ucl_object_tostring (const ucl_object_t *obj)

  3410. {

  3411. 	const char *result = NULL;

  3412. 

  3413. 	ucl_object_tostring_safe (obj, &result);

  3414. 	return result;

  3415. }

  3416. 

  3417. const char *

  3418. ucl_object_tostring_forced (const ucl_object_t *obj)

  3419. {

  3420. 	/* TODO: For binary strings we might encode string here */

  3421. 	if (!(obj->flags & UCL_OBJECT_BINARY)) {

  3422. 		return ucl_copy_value_trash (obj);

  3423. 	}

  3424. 

  3425. 	return NULL;

  3426. }

  3427. 

  3428. bool

  3429. ucl_object_tolstring_safe (const ucl_object_t *obj, const char **target, size_t *tlen)

  3430. {

  3431. 	if (obj == NULL || target == NULL) {

  3432. 		return false;

  3433. 	}

  3434. 	switch (obj->type) {

  3435. 	case UCL_STRING:

  3436. 		*target = obj->value.sv;

  3437. 		if (tlen != NULL) {

  3438. 			*tlen = obj->len;

  3439. 		}

  3440. 		break;

  3441. 	default:

  3442. 		return false;

  3443. 	}

  3444. 

  3445. 	return true;

  3446. }

  3447. 

  3448. const char *

  3449. ucl_object_tolstring (const ucl_object_t *obj, size_t *tlen)

  3450. {

  3451. 	const char *result = NULL;

  3452. 

  3453. 	ucl_object_tolstring_safe (obj, &result, tlen);

  3454. 	return result;

  3455. }

  3456. 

  3457. const char *

  3458. ucl_object_key (const ucl_object_t *obj)

  3459. {

  3460. 	return ucl_copy_key_trash (obj);

  3461. }

  3462. 

  3463. const char *

  3464. ucl_object_keyl (const ucl_object_t *obj, size_t *len)

  3465. {

  3466. 	if (len == NULL || obj == NULL) {

  3467. 		return NULL;

  3468. 	}

  3469. 	*len = obj->keylen;

  3470. 	return obj->key;

  3471. }

  3472. 

  3473. ucl_object_t *

  3474. ucl_object_ref (const ucl_object_t *obj)

  3475. {

  3476. 	ucl_object_t *res = NULL;

  3477. 

  3478. 	if (obj != NULL) {

  3479. 		if (obj->flags & UCL_OBJECT_EPHEMERAL) {

  3480. 			/*

  3481. 			 * Use deep copy for ephemeral objects, note that its refcount

  3482. 			 * is NOT increased, since ephemeral objects does not need refcount

  3483. 			 * at all

  3484. 			 */

  3485. 			res = ucl_object_copy (obj);

  3486. 		}

  3487. 		else {

  3488. 			res = __DECONST (ucl_object_t *, obj);

  3489. #ifdef HAVE_ATOMIC_BUILTINS

  3490. 			(void)__sync_add_and_fetch (&res->ref, 1);

  3491. #else

  3492. 			res->ref ++;

  3493. #endif

  3494. 		}

  3495. 	}

  3496. 	return res;

  3497. }

  3498. 

  3499. static ucl_object_t *

  3500. ucl_object_copy_internal (const ucl_object_t *other, bool allow_array)

  3501. {

  3502. 

  3503. 	ucl_object_t *new;

  3504. 	ucl_object_iter_t it = NULL;

  3505. 	const ucl_object_t *cur;

  3506. 

  3507. 	new = malloc (sizeof (*new));

  3508. 

  3509. 	if (new != NULL) {

  3510. 		memcpy (new, other, sizeof (*new));

  3511. 		if (other->flags & UCL_OBJECT_EPHEMERAL) {

  3512. 			/* Copied object is always non ephemeral */

  3513. 			new->flags &= ~UCL_OBJECT_EPHEMERAL;

  3514. 		}

  3515. 		new->ref = 1;

  3516. 		/* Unlink from others */

  3517. 		new->next = NULL;

  3518. 		new->prev = new;

  3519. 

  3520. 		/* deep copy of values stored */

  3521. 		if (other->trash_stack[UCL_TRASH_KEY] != NULL) {

  3522. 			new->trash_stack[UCL_TRASH_KEY] =

  3523. 					strdup (other->trash_stack[UCL_TRASH_KEY]);

  3524. 			if (other->key == (const char *)other->trash_stack[UCL_TRASH_KEY]) {

  3525. 				new->key = new->trash_stack[UCL_TRASH_KEY];

  3526. 			}

  3527. 		}

  3528. 		if (other->trash_stack[UCL_TRASH_VALUE] != NULL) {

  3529. 			new->trash_stack[UCL_TRASH_VALUE] =

  3530. 					strdup (other->trash_stack[UCL_TRASH_VALUE]);

  3531. 			if (new->type == UCL_STRING) {

  3532. 				new->value.sv = new->trash_stack[UCL_TRASH_VALUE];

  3533. 			}

  3534. 		}

  3535. 

  3536. 		if (other->type == UCL_ARRAY || other->type == UCL_OBJECT) {

  3537. 			/* reset old value */

  3538. 			memset (&new->value, 0, sizeof (new->value));

  3539. 

  3540. 			while ((cur = ucl_object_iterate (other, &it, true)) != NULL) {

  3541. 				if (other->type == UCL_ARRAY) {

  3542. 					ucl_array_append (new, ucl_object_copy_internal (cur, false));

  3543. 				}

  3544. 				else {

  3545. 					ucl_object_t *cp = ucl_object_copy_internal (cur, true);

  3546. 					if (cp != NULL) {

  3547. 						ucl_object_insert_key (new, cp, cp->key, cp->keylen,

  3548. 								false);

  3549. 					}

  3550. 				}

  3551. 			}

  3552. 		}

  3553. 		else if (allow_array && other->next != NULL) {

  3554. 			LL_FOREACH (other->next, cur) {

  3555. 				ucl_object_t *cp = ucl_object_copy_internal (cur, false);

  3556. 				if (cp != NULL) {

  3557. 					DL_APPEND (new, cp);

  3558. 				}

  3559. 			}

  3560. 		}

  3561. 	}

  3562. 

  3563. 	return new;

  3564. }

  3565. 

  3566. ucl_object_t *

  3567. ucl_object_copy (const ucl_object_t *other)

  3568. {

  3569. 	return ucl_object_copy_internal (other, true);

  3570. }

  3571. 

  3572. void

  3573. ucl_object_unref (ucl_object_t *obj)

  3574. {

  3575. 	if (obj != NULL) {

  3576. #ifdef HAVE_ATOMIC_BUILTINS

  3577. 		unsigned int rc = __sync_sub_and_fetch (&obj->ref, 1);

  3578. 		if (rc == 0) {

  3579. #else

  3580. 		if (--obj->ref == 0) {

  3581. #endif

  3582. 			ucl_object_free_internal (obj, true, ucl_object_dtor_unref);

  3583. 		}

  3584. 	}

  3585. }

  3586. 

  3587. int

  3588. ucl_object_compare (const ucl_object_t *o1, const ucl_object_t *o2)

  3589. {

  3590. 	const ucl_object_t *it1, *it2;

  3591. 	ucl_object_iter_t iter = NULL;

  3592. 	int ret = 0;

  3593. 

  3594. 	if (o1->type != o2->type) {

  3595. 		return (o1->type) - (o2->type);

  3596. 	}

  3597. 

  3598. 	switch (o1->type) {

  3599. 	case UCL_STRING:

  3600. 		if (o1->len == o2->len && o1->len > 0) {

  3601. 			ret = strcmp (ucl_object_tostring(o1), ucl_object_tostring(o2));

  3602. 		}

  3603. 		else {

  3604. 			ret = o1->len - o2->len;

  3605. 		}

  3606. 		break;

  3607. 	case UCL_FLOAT:

  3608. 	case UCL_INT:

  3609. 	case UCL_TIME:

  3610. 		ret = ucl_object_todouble (o1) - ucl_object_todouble (o2);

  3611. 		break;

  3612. 	case UCL_BOOLEAN:

  3613. 		ret = ucl_object_toboolean (o1) - ucl_object_toboolean (o2);

  3614. 		break;

  3615. 	case UCL_ARRAY:

  3616. 		if (o1->len == o2->len && o1->len > 0) {

  3617. 			UCL_ARRAY_GET (vec1, o1);

  3618. 			UCL_ARRAY_GET (vec2, o2);

  3619. 			unsigned i;

  3620. 

  3621. 			/* Compare all elements in both arrays */

  3622. 			for (i = 0; i < vec1->n; i ++) {

  3623. 				it1 = kv_A (*vec1, i);

  3624. 				it2 = kv_A (*vec2, i);

  3625. 

  3626. 				if (it1 == NULL && it2 != NULL) {

  3627. 					return -1;

  3628. 				}

  3629. 				else if (it2 == NULL && it1 != NULL) {

  3630. 					return 1;

  3631. 				}

  3632. 				else if (it1 != NULL && it2 != NULL) {

  3633. 					ret = ucl_object_compare (it1, it2);

  3634. 					if (ret != 0) {

  3635. 						break;

  3636. 					}

  3637. 				}

  3638. 			}

  3639. 		}

  3640. 		else {

  3641. 			ret = o1->len - o2->len;

  3642. 		}

  3643. 		break;

  3644. 	case UCL_OBJECT:

  3645. 		if (o1->len == o2->len && o1->len > 0) {

  3646. 			while ((it1 = ucl_object_iterate (o1, &iter, true)) != NULL) {

  3647. 				it2 = ucl_object_lookup (o2, ucl_object_key (it1));

  3648. 				if (it2 == NULL) {

  3649. 					ret = 1;

  3650. 					break;

  3651. 				}

  3652. 				ret = ucl_object_compare (it1, it2);

  3653. 				if (ret != 0) {

  3654. 					break;

  3655. 				}

  3656. 			}

  3657. 		}

  3658. 		else {

  3659. 			ret = o1->len - o2->len;

  3660. 		}

  3661. 		break;

  3662. 	default:

  3663. 		ret = 0;

  3664. 		break;

  3665. 	}

  3666. 

  3667. 	return ret;

  3668. }

  3669. 

  3670. int

  3671. ucl_object_compare_qsort (const ucl_object_t **o1,

  3672. 		const ucl_object_t **o2)

  3673. {

  3674. 	return ucl_object_compare (*o1, *o2);

  3675. }

  3676. 

  3677. void

  3678. ucl_object_array_sort (ucl_object_t *ar,

  3679. 		int (*cmp)(const ucl_object_t **o1, const ucl_object_t **o2))

  3680. {

  3681. 	UCL_ARRAY_GET (vec, ar);

  3682. 

  3683. 	if (cmp == NULL || ar == NULL || ar->type != UCL_ARRAY) {

  3684. 		return;

  3685. 	}

  3686. 

  3687. 	qsort (vec->a, vec->n, sizeof (ucl_object_t *),

  3688. 			(int (*)(const void *, const void *))cmp);

  3689. }

  3690. 

  3691. #define PRIOBITS 4

  3692. 

  3693. unsigned int

  3694. ucl_object_get_priority (const ucl_object_t *obj)

  3695. {

  3696. 	if (obj == NULL) {

  3697. 		return 0;

  3698. 	}

  3699. 

  3700. 	return (obj->flags >> ((sizeof (obj->flags) * NBBY) - PRIOBITS));

  3701. }

  3702. 

  3703. void

  3704. ucl_object_set_priority (ucl_object_t *obj,

  3705. 		unsigned int priority)

  3706. {

  3707. 	if (obj != NULL) {

  3708. 		priority &= (0x1 << PRIOBITS) - 1;

  3709. 		priority <<= ((sizeof (obj->flags) * NBBY) - PRIOBITS);

  3710. 		priority |= obj->flags & ((1 << ((sizeof (obj->flags) * NBBY) -

  3711. 				PRIOBITS)) - 1);

  3712. 		obj->flags = priority;

  3713. 	}

  3714. }

  3715. 

  3716. bool

  3717. ucl_object_string_to_type (const char *input, ucl_type_t *res)

  3718. {

  3719. 	if (strcasecmp (input, "object") == 0) {

  3720. 		*res = UCL_OBJECT;

  3721. 	}

  3722. 	else if (strcasecmp (input, "array") == 0) {

  3723. 		*res = UCL_ARRAY;

  3724. 	}

  3725. 	else if (strcasecmp (input, "integer") == 0) {

  3726. 		*res = UCL_INT;

  3727. 	}

  3728. 	else if (strcasecmp (input, "number") == 0) {

  3729. 		*res = UCL_FLOAT;

  3730. 	}

  3731. 	else if (strcasecmp (input, "string") == 0) {

  3732. 		*res = UCL_STRING;

  3733. 	}

  3734. 	else if (strcasecmp (input, "boolean") == 0) {

  3735. 		*res = UCL_BOOLEAN;

  3736. 	}

  3737. 	else if (strcasecmp (input, "null") == 0) {

  3738. 		*res = UCL_NULL;

  3739. 	}

  3740. 	else if (strcasecmp (input, "userdata") == 0) {

  3741. 		*res = UCL_USERDATA;

  3742. 	}

  3743. 	else {

  3744. 		return false;

  3745. 	}

  3746. 

  3747. 	return true;

  3748. }

  3749. 

  3750. const char *

  3751. ucl_object_type_to_string (ucl_type_t type)

  3752. {

  3753. 	const char *res = "unknown";

  3754. 

  3755. 	switch (type) {

  3756. 	case UCL_OBJECT:

  3757. 		res = "object";

  3758. 		break;

  3759. 	case UCL_ARRAY:

  3760. 		res = "array";

  3761. 		break;

  3762. 	case UCL_INT:

  3763. 		res = "integer";

  3764. 		break;

  3765. 	case UCL_FLOAT:

  3766. 	case UCL_TIME:

  3767. 		res = "number";

  3768. 		break;

  3769. 	case UCL_STRING:

  3770. 		res = "string";

  3771. 		break;

  3772. 	case UCL_BOOLEAN:

  3773. 		res = "boolean";

  3774. 		break;

  3775. 	case UCL_USERDATA:

  3776. 		res = "userdata";

  3777. 		break;

  3778. 	case UCL_NULL:

  3779. 		res = "null";

  3780. 		break;

  3781. 	}

  3782. 

  3783. 	return res;

  3784. }

  3785. 

  3786. const ucl_object_t *

  3787. ucl_parser_get_comments (struct ucl_parser *parser)

  3788. {

  3789. 	if (parser && parser->comments) {

  3790. 		return parser->comments;

  3791. 	}

  3792. 

  3793. 	return NULL;

  3794. }

  3795. 

  3796. const ucl_object_t *

  3797. ucl_comments_find (const ucl_object_t *comments,

  3798. 		const ucl_object_t *srch)

  3799. {

  3800. 	if (comments && srch) {

  3801. 		return ucl_object_lookup_len (comments, (const char *)&srch,

  3802. 				sizeof (void *));

  3803. 	}

  3804. 

  3805. 	return NULL;

  3806. }

  3807. 

  3808. bool

  3809. ucl_comments_move (ucl_object_t *comments,

  3810. 		const ucl_object_t *from, const ucl_object_t *to)

  3811. {

  3812. 	const ucl_object_t *found;

  3813. 	ucl_object_t *obj;

  3814. 

  3815. 	if (comments && from && to) {

  3816. 		found = ucl_object_lookup_len (comments,

  3817. 				(const char *)&from, sizeof (void *));

  3818. 

  3819. 		if (found) {

  3820. 			/* Replace key */

  3821. 			obj = ucl_object_ref (found);

  3822. 			ucl_object_delete_keyl (comments, (const char *)&from,

  3823. 					sizeof (void *));

  3824. 			ucl_object_insert_key (comments, obj, (const char *)&to,

  3825. 					sizeof (void *), true);

  3826. 

  3827. 			return true;

  3828. 		}

  3829. 	}

  3830. 

  3831. 	return false;

  3832. }

  3833. 

  3834. void

  3835. ucl_comments_add (ucl_object_t *comments, const ucl_object_t *obj,

  3836. 		const char *comment)

  3837. {

  3838. 	if (comments && obj && comment) {

  3839. 		ucl_object_insert_key (comments, ucl_object_fromstring (comment),

  3840. 				(const char *)&obj, sizeof (void *), true);

  3841. 	}

  3842. }