/* Copyright (c) 2013, Vsevolod Stakhov * Copyright (c) 2015 Allan Jude * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "ucl.h" #include "ucl_internal.h" #include "ucl_chartable.h" #include "kvec.h" #include #ifndef _WIN32 #include #endif #ifdef HAVE_LIBGEN_H #include /* For dirname */ #endif typedef kvec_t(ucl_object_t *) ucl_array_t; #define UCL_ARRAY_GET(ar, obj) ucl_array_t *ar = \ (ucl_array_t *)((obj) != NULL ? (obj)->value.av : NULL) #ifdef HAVE_OPENSSL #include #include #include #include #include #endif #ifdef CURL_FOUND #include #endif #ifdef HAVE_FETCH_H #include #endif #ifdef _WIN32 #include #ifndef PROT_READ #define PROT_READ 1 #endif #ifndef PROT_WRITE #define PROT_WRITE 2 #endif #ifndef PROT_READWRITE #define PROT_READWRITE 3 #endif #ifndef MAP_SHARED #define MAP_SHARED 1 #endif #ifndef MAP_PRIVATE #define MAP_PRIVATE 2 #endif #ifndef MAP_FAILED #define MAP_FAILED ((void *) -1) #endif #ifdef _WIN32 #include #define NBBY CHAR_BIT #endif static void *ucl_mmap(char *addr, size_t length, int prot, int access, int fd, off_t offset) { void *map = NULL; HANDLE handle = INVALID_HANDLE_VALUE; switch (prot) { default: case PROT_READ: { handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READONLY, 0, length, 0); if (!handle) break; map = (void *) MapViewOfFile(handle, FILE_MAP_READ, 0, 0, length); CloseHandle(handle); break; } case PROT_WRITE: { handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READWRITE, 0, length, 0); if (!handle) break; map = (void *) MapViewOfFile(handle, FILE_MAP_WRITE, 0, 0, length); CloseHandle(handle); break; } case PROT_READWRITE: { handle = CreateFileMapping((HANDLE) _get_osfhandle(fd), 0, PAGE_READWRITE, 0, length, 0); if (!handle) break; map = (void *) MapViewOfFile(handle, FILE_MAP_ALL_ACCESS, 0, 0, length); CloseHandle(handle); break; } } if (map == (void *) NULL) { return (void *) MAP_FAILED; } return (void *) ((char *) map + offset); } static int ucl_munmap(void *map,size_t length) { if (!UnmapViewOfFile(map)) { return(-1); } return(0); } static char* ucl_realpath(const char *path, char *resolved_path) { char *p; char tmp[MAX_PATH + 1]; strncpy(tmp, path, sizeof(tmp)-1); p = tmp; while(*p) { if (*p == '/') *p = '\\'; p++; } return _fullpath(resolved_path, tmp, MAX_PATH); } #else #define ucl_mmap mmap #define ucl_munmap munmap #define ucl_realpath realpath #endif typedef void (*ucl_object_dtor) (ucl_object_t *obj); static void ucl_object_free_internal (ucl_object_t *obj, bool allow_rec, ucl_object_dtor dtor); static void ucl_object_dtor_unref (ucl_object_t *obj); static void ucl_object_dtor_free (ucl_object_t *obj) { if (obj->trash_stack[UCL_TRASH_KEY] != NULL) { UCL_FREE (obj->hh.keylen, obj->trash_stack[UCL_TRASH_KEY]); } if (obj->trash_stack[UCL_TRASH_VALUE] != NULL) { UCL_FREE (obj->len, obj->trash_stack[UCL_TRASH_VALUE]); } /* Do not free ephemeral objects */ if ((obj->flags & UCL_OBJECT_EPHEMERAL) == 0) { if (obj->type != UCL_USERDATA) { UCL_FREE (sizeof (ucl_object_t), obj); } else { struct ucl_object_userdata *ud = (struct ucl_object_userdata *)obj; if (ud->dtor) { ud->dtor (obj->value.ud); } UCL_FREE (sizeof (*ud), obj); } } } /* * This is a helper function that performs exactly the same as * `ucl_object_unref` but it doesn't iterate over elements allowing * to use it for individual elements of arrays and multiple values */ static void ucl_object_dtor_unref_single (ucl_object_t *obj) { if (obj != NULL) { #ifdef HAVE_ATOMIC_BUILTINS unsigned int rc = __sync_sub_and_fetch (&obj->ref, 1); if (rc == 0) { #else if (--obj->ref == 0) { #endif ucl_object_free_internal (obj, false, ucl_object_dtor_unref); } } } static void ucl_object_dtor_unref (ucl_object_t *obj) { if (obj->ref == 0) { ucl_object_dtor_free (obj); } else { /* This may cause dtor unref being called one more time */ ucl_object_dtor_unref_single (obj); } } static void ucl_object_free_internal (ucl_object_t *obj, bool allow_rec, ucl_object_dtor dtor) { ucl_object_t *tmp, *sub; while (obj != NULL) { if (obj->type == UCL_ARRAY) { UCL_ARRAY_GET (vec, obj); unsigned int i; if (vec != NULL) { for (i = 0; i < vec->n; i ++) { sub = kv_A (*vec, i); if (sub != NULL) { tmp = sub; while (sub) { tmp = sub->next; dtor (sub); sub = tmp; } } } kv_destroy (*vec); UCL_FREE (sizeof (*vec), vec); } obj->value.av = NULL; } else if (obj->type == UCL_OBJECT) { if (obj->value.ov != NULL) { ucl_hash_destroy (obj->value.ov, (ucl_hash_free_func)dtor); } obj->value.ov = NULL; } tmp = obj->next; dtor (obj); obj = tmp; if (!allow_rec) { break; } } } void ucl_object_free (ucl_object_t *obj) { ucl_object_free_internal (obj, true, ucl_object_dtor_free); } size_t ucl_unescape_json_string (char *str, size_t len) { char *t = str, *h = str; int i, uval; if (len <= 1) { return len; } /* t is target (tortoise), h is source (hare) */ while (len) { if (*h == '\\') { h ++; if (len == 1) { /* * If \ is last, then do not try to go further * Issue: #74 */ len --; *t++ = '\\'; continue; } switch (*h) { case 'n': *t++ = '\n'; break; case 'r': *t++ = '\r'; break; case 'b': *t++ = '\b'; break; case 't': *t++ = '\t'; break; case 'f': *t++ = '\f'; break; case '\\': *t++ = '\\'; break; case '"': *t++ = '"'; break; case 'u': /* Unicode escape */ uval = 0; if (len > 3) { for (i = 0; i < 4; i++) { uval <<= 4; if (isdigit (h[i])) { uval += h[i] - '0'; } else if (h[i] >= 'a' && h[i] <= 'f') { uval += h[i] - 'a' + 10; } else if (h[i] >= 'A' && h[i] <= 'F') { uval += h[i] - 'A' + 10; } else { break; } } h += 3; len -= 3; /* Encode */ if(uval < 0x80) { t[0] = (char)uval; t ++; } else if(uval < 0x800) { t[0] = 0xC0 + ((uval & 0x7C0) >> 6); t[1] = 0x80 + ((uval & 0x03F)); t += 2; } else if(uval < 0x10000) { t[0] = 0xE0 + ((uval & 0xF000) >> 12); t[1] = 0x80 + ((uval & 0x0FC0) >> 6); t[2] = 0x80 + ((uval & 0x003F)); t += 3; } else if(uval <= 0x10FFFF) { t[0] = 0xF0 + ((uval & 0x1C0000) >> 18); t[1] = 0x80 + ((uval & 0x03F000) >> 12); t[2] = 0x80 + ((uval & 0x000FC0) >> 6); t[3] = 0x80 + ((uval & 0x00003F)); t += 4; } else { *t++ = '?'; } } else { *t++ = 'u'; } break; default: *t++ = *h; break; } h ++; len --; } else { *t++ = *h++; } if (len > 0) { len --; } } *t = '\0'; return (t - str); } char * ucl_copy_key_trash (const ucl_object_t *obj) { ucl_object_t *deconst; if (obj == NULL) { return NULL; } if (obj->trash_stack[UCL_TRASH_KEY] == NULL && obj->key != NULL) { deconst = __DECONST (ucl_object_t *, obj); deconst->trash_stack[UCL_TRASH_KEY] = malloc (obj->keylen + 1); if (deconst->trash_stack[UCL_TRASH_KEY] != NULL) { memcpy (deconst->trash_stack[UCL_TRASH_KEY], obj->key, obj->keylen); deconst->trash_stack[UCL_TRASH_KEY][obj->keylen] = '\0'; } deconst->key = obj->trash_stack[UCL_TRASH_KEY]; deconst->flags |= UCL_OBJECT_ALLOCATED_KEY; } return obj->trash_stack[UCL_TRASH_KEY]; } char * ucl_copy_value_trash (const ucl_object_t *obj) { ucl_object_t *deconst; if (obj == NULL) { return NULL; } if (obj->trash_stack[UCL_TRASH_VALUE] == NULL) { deconst = __DECONST (ucl_object_t *, obj); if (obj->type == UCL_STRING) { /* Special case for strings */ if (obj->flags & UCL_OBJECT_BINARY) { deconst->trash_stack[UCL_TRASH_VALUE] = malloc (obj->len); if (deconst->trash_stack[UCL_TRASH_VALUE] != NULL) { memcpy (deconst->trash_stack[UCL_TRASH_VALUE], obj->value.sv, obj->len); deconst->value.sv = obj->trash_stack[UCL_TRASH_VALUE]; } } else { deconst->trash_stack[UCL_TRASH_VALUE] = malloc (obj->len + 1); if (deconst->trash_stack[UCL_TRASH_VALUE] != NULL) { memcpy (deconst->trash_stack[UCL_TRASH_VALUE], obj->value.sv, obj->len); deconst->trash_stack[UCL_TRASH_VALUE][obj->len] = '\0'; deconst->value.sv = obj->trash_stack[UCL_TRASH_VALUE]; } } } else { /* Just emit value in json notation */ deconst->trash_stack[UCL_TRASH_VALUE] = ucl_object_emit_single_json (obj); deconst->len = strlen (obj->trash_stack[UCL_TRASH_VALUE]); } deconst->flags |= UCL_OBJECT_ALLOCATED_VALUE; } return obj->trash_stack[UCL_TRASH_VALUE]; } ucl_object_t* ucl_parser_get_object (struct ucl_parser *parser) { if (parser->state != UCL_STATE_ERROR && parser->top_obj != NULL) { return ucl_object_ref (parser->top_obj); } return NULL; } void ucl_parser_free (struct ucl_parser *parser) { struct ucl_stack *stack, *stmp; struct ucl_macro *macro, *mtmp; struct ucl_chunk *chunk, *ctmp; struct ucl_pubkey *key, *ktmp; struct ucl_variable *var, *vtmp; ucl_object_t *tr, *trtmp; if (parser == NULL) { return; } if (parser->top_obj != NULL) { ucl_object_unref (parser->top_obj); } if (parser->includepaths != NULL) { ucl_object_unref (parser->includepaths); } LL_FOREACH_SAFE (parser->stack, stack, stmp) { free (stack); } HASH_ITER (hh, parser->macroes, macro, mtmp) { free (macro->name); HASH_DEL (parser->macroes, macro); UCL_FREE (sizeof (struct ucl_macro), macro); } LL_FOREACH_SAFE (parser->chunks, chunk, ctmp) { UCL_FREE (sizeof (struct ucl_chunk), chunk); } LL_FOREACH_SAFE (parser->keys, key, ktmp) { UCL_FREE (sizeof (struct ucl_pubkey), key); } LL_FOREACH_SAFE (parser->variables, var, vtmp) { free (var->value); free (var->var); UCL_FREE (sizeof (struct ucl_variable), var); } LL_FOREACH_SAFE (parser->trash_objs, tr, trtmp) { ucl_object_free_internal (tr, false, ucl_object_dtor_free); } if (parser->err != NULL) { utstring_free (parser->err); } if (parser->cur_file) { free (parser->cur_file); } if (parser->comments) { ucl_object_unref (parser->comments); } UCL_FREE (sizeof (struct ucl_parser), parser); } const char * ucl_parser_get_error(struct ucl_parser *parser) { if (parser == NULL) { return NULL; } if (parser->err == NULL) { return NULL; } return utstring_body (parser->err); } int ucl_parser_get_error_code(struct ucl_parser *parser) { if (parser == NULL) { return 0; } return parser->err_code; } unsigned ucl_parser_get_column(struct ucl_parser *parser) { if (parser == NULL || parser->chunks == NULL) { return 0; } return parser->chunks->column; } unsigned ucl_parser_get_linenum(struct ucl_parser *parser) { if (parser == NULL || parser->chunks == NULL) { return 0; } return parser->chunks->line; } void ucl_parser_clear_error(struct ucl_parser *parser) { if (parser != NULL && parser->err != NULL) { utstring_free(parser->err); parser->err = NULL; parser->err_code = 0; } } bool ucl_pubkey_add (struct ucl_parser *parser, const unsigned char *key, size_t len) { #ifndef HAVE_OPENSSL ucl_create_err (&parser->err, "cannot check signatures without openssl"); return false; #else # if (OPENSSL_VERSION_NUMBER < 0x10000000L) ucl_create_err (&parser->err, "cannot check signatures, openssl version is unsupported"); return EXIT_FAILURE; # else struct ucl_pubkey *nkey; BIO *mem; mem = BIO_new_mem_buf ((void *)key, len); nkey = UCL_ALLOC (sizeof (struct ucl_pubkey)); if (nkey == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for key"); return false; } nkey->key = PEM_read_bio_PUBKEY (mem, &nkey->key, NULL, NULL); BIO_free (mem); if (nkey->key == NULL) { UCL_FREE (sizeof (struct ucl_pubkey), nkey); ucl_create_err (&parser->err, "%s", ERR_error_string (ERR_get_error (), NULL)); return false; } LL_PREPEND (parser->keys, nkey); # endif #endif return true; } #ifdef CURL_FOUND struct ucl_curl_cbdata { unsigned char *buf; size_t buflen; }; static size_t ucl_curl_write_callback (void* contents, size_t size, size_t nmemb, void* ud) { struct ucl_curl_cbdata *cbdata = ud; size_t realsize = size * nmemb; cbdata->buf = realloc (cbdata->buf, cbdata->buflen + realsize + 1); if (cbdata->buf == NULL) { return 0; } memcpy (&(cbdata->buf[cbdata->buflen]), contents, realsize); cbdata->buflen += realsize; cbdata->buf[cbdata->buflen] = 0; return realsize; } #endif /** * Fetch a url and save results to the memory buffer * @param url url to fetch * @param len length of url * @param buf target buffer * @param buflen target length * @return */ bool ucl_fetch_url (const unsigned char *url, unsigned char **buf, size_t *buflen, UT_string **err, bool must_exist) { #ifdef HAVE_FETCH_H struct url *fetch_url; struct url_stat us; FILE *in; fetch_url = fetchParseURL (url); if (fetch_url == NULL) { ucl_create_err (err, "invalid URL %s: %s", url, strerror (errno)); return false; } if ((in = fetchXGet (fetch_url, &us, "")) == NULL) { if (!must_exist) { ucl_create_err (err, "cannot fetch URL %s: %s", url, strerror (errno)); } fetchFreeURL (fetch_url); return false; } *buflen = us.size; *buf = malloc (*buflen); if (*buf == NULL) { ucl_create_err (err, "cannot allocate buffer for URL %s: %s", url, strerror (errno)); fclose (in); fetchFreeURL (fetch_url); return false; } if (fread (*buf, *buflen, 1, in) != 1) { ucl_create_err (err, "cannot read URL %s: %s", url, strerror (errno)); fclose (in); fetchFreeURL (fetch_url); return false; } fetchFreeURL (fetch_url); return true; #elif defined(CURL_FOUND) CURL *curl; int r; struct ucl_curl_cbdata cbdata; curl = curl_easy_init (); if (curl == NULL) { ucl_create_err (err, "CURL interface is broken"); return false; } if ((r = curl_easy_setopt (curl, CURLOPT_URL, url)) != CURLE_OK) { ucl_create_err (err, "invalid URL %s: %s", url, curl_easy_strerror (r)); curl_easy_cleanup (curl); return false; } curl_easy_setopt (curl, CURLOPT_WRITEFUNCTION, ucl_curl_write_callback); cbdata.buf = NULL; cbdata.buflen = 0; curl_easy_setopt (curl, CURLOPT_WRITEDATA, &cbdata); if ((r = curl_easy_perform (curl)) != CURLE_OK) { if (!must_exist) { ucl_create_err (err, "error fetching URL %s: %s", url, curl_easy_strerror (r)); } curl_easy_cleanup (curl); if (cbdata.buf) { free (cbdata.buf); } return false; } *buf = cbdata.buf; *buflen = cbdata.buflen; return true; #else ucl_create_err (err, "URL support is disabled"); return false; #endif } /** * Fetch a file and save results to the memory buffer * @param filename filename to fetch * @param len length of filename * @param buf target buffer * @param buflen target length * @return */ bool ucl_fetch_file (const unsigned char *filename, unsigned char **buf, size_t *buflen, UT_string **err, bool must_exist) { int fd; struct stat st; if (stat (filename, &st) == -1 || !S_ISREG (st.st_mode)) { if (must_exist) { ucl_create_err (err, "cannot stat file %s: %s", filename, strerror (errno)); } return false; } if (st.st_size == 0) { /* Do not map empty files */ *buf = NULL; *buflen = 0; } else { if ((fd = open (filename, O_RDONLY)) == -1) { ucl_create_err (err, "cannot open file %s: %s", filename, strerror (errno)); return false; } if ((*buf = ucl_mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) { close (fd); ucl_create_err (err, "cannot mmap file %s: %s", filename, strerror (errno)); return false; } *buflen = st.st_size; close (fd); } return true; } #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L) static inline bool ucl_sig_check (const unsigned char *data, size_t datalen, const unsigned char *sig, size_t siglen, struct ucl_parser *parser) { struct ucl_pubkey *key; char dig[EVP_MAX_MD_SIZE]; unsigned int diglen; EVP_PKEY_CTX *key_ctx; EVP_MD_CTX *sign_ctx = NULL; sign_ctx = EVP_MD_CTX_create (); LL_FOREACH (parser->keys, key) { key_ctx = EVP_PKEY_CTX_new (key->key, NULL); if (key_ctx != NULL) { if (EVP_PKEY_verify_init (key_ctx) <= 0) { EVP_PKEY_CTX_free (key_ctx); continue; } if (EVP_PKEY_CTX_set_rsa_padding (key_ctx, RSA_PKCS1_PADDING) <= 0) { EVP_PKEY_CTX_free (key_ctx); continue; } if (EVP_PKEY_CTX_set_signature_md (key_ctx, EVP_sha256 ()) <= 0) { EVP_PKEY_CTX_free (key_ctx); continue; } EVP_DigestInit (sign_ctx, EVP_sha256 ()); EVP_DigestUpdate (sign_ctx, data, datalen); EVP_DigestFinal (sign_ctx, dig, &diglen); if (EVP_PKEY_verify (key_ctx, sig, siglen, dig, diglen) == 1) { EVP_MD_CTX_destroy (sign_ctx); EVP_PKEY_CTX_free (key_ctx); return true; } EVP_PKEY_CTX_free (key_ctx); } } EVP_MD_CTX_destroy (sign_ctx); return false; } #endif struct ucl_include_params { bool check_signature; bool must_exist; bool use_glob; bool use_prefix; bool soft_fail; bool allow_glob; unsigned priority; enum ucl_duplicate_strategy strat; enum ucl_parse_type parse_type; const char *prefix; const char *target; }; /** * Include an url to configuration * @param data * @param len * @param parser * @param err * @return */ static bool ucl_include_url (const unsigned char *data, size_t len, struct ucl_parser *parser, struct ucl_include_params *params) { bool res; unsigned char *buf = NULL; size_t buflen = 0; struct ucl_chunk *chunk; char urlbuf[PATH_MAX]; int prev_state; snprintf (urlbuf, sizeof (urlbuf), "%.*s", (int)len, data); if (!ucl_fetch_url (urlbuf, &buf, &buflen, &parser->err, params->must_exist)) { return !params->must_exist; } if (params->check_signature) { #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L) unsigned char *sigbuf = NULL; size_t siglen = 0; /* We need to check signature first */ snprintf (urlbuf, sizeof (urlbuf), "%.*s.sig", (int)len, data); if (!ucl_fetch_url (urlbuf, &sigbuf, &siglen, &parser->err, true)) { return false; } if (!ucl_sig_check (buf, buflen, sigbuf, siglen, parser)) { ucl_create_err (&parser->err, "cannot verify url %s: %s", urlbuf, ERR_error_string (ERR_get_error (), NULL)); if (siglen > 0) { ucl_munmap (sigbuf, siglen); } return false; } if (siglen > 0) { ucl_munmap (sigbuf, siglen); } #endif } prev_state = parser->state; parser->state = UCL_STATE_INIT; res = ucl_parser_add_chunk_full (parser, buf, buflen, params->priority, params->strat, params->parse_type); if (res == true) { /* Remove chunk from the stack */ chunk = parser->chunks; if (chunk != NULL) { parser->chunks = chunk->next; UCL_FREE (sizeof (struct ucl_chunk), chunk); } } parser->state = prev_state; free (buf); return res; } /** * Include a single file to the parser * @param data * @param len * @param parser * @param check_signature * @param must_exist * @param allow_glob * @param priority * @return */ static bool ucl_include_file_single (const unsigned char *data, size_t len, struct ucl_parser *parser, struct ucl_include_params *params) { bool res; struct ucl_chunk *chunk; unsigned char *buf = NULL; char *old_curfile, *ext; size_t buflen = 0; char filebuf[PATH_MAX], realbuf[PATH_MAX]; int prev_state; struct ucl_variable *cur_var, *tmp_var, *old_curdir = NULL, *old_filename = NULL; ucl_object_t *nest_obj = NULL, *old_obj = NULL, *new_obj = NULL; ucl_hash_t *container = NULL; struct ucl_stack *st = NULL; snprintf (filebuf, sizeof (filebuf), "%.*s", (int)len, data); if (ucl_realpath (filebuf, realbuf) == NULL) { if (params->soft_fail) { return false; } if (!params->must_exist) { return true; } ucl_create_err (&parser->err, "cannot open file %s: %s", filebuf, strerror (errno)); return false; } if (parser->cur_file && strcmp (realbuf, parser->cur_file) == 0) { /* We are likely including the file itself */ if (params->soft_fail) { return false; } ucl_create_err (&parser->err, "trying to include the file %s from itself", realbuf); return false; } if (!ucl_fetch_file (realbuf, &buf, &buflen, &parser->err, params->must_exist)) { if (params->soft_fail) { return false; } return (!params->must_exist || false); } if (params->check_signature) { #if (defined(HAVE_OPENSSL) && OPENSSL_VERSION_NUMBER >= 0x10000000L) unsigned char *sigbuf = NULL; size_t siglen = 0; /* We need to check signature first */ snprintf (filebuf, sizeof (filebuf), "%s.sig", realbuf); if (!ucl_fetch_file (filebuf, &sigbuf, &siglen, &parser->err, true)) { return false; } if (!ucl_sig_check (buf, buflen, sigbuf, siglen, parser)) { ucl_create_err (&parser->err, "cannot verify file %s: %s", filebuf, ERR_error_string (ERR_get_error (), NULL)); if (siglen > 0) { ucl_munmap (sigbuf, siglen); } return false; } if (siglen > 0) { ucl_munmap (sigbuf, siglen); } #endif } old_curfile = parser->cur_file; parser->cur_file = strdup (realbuf); /* Store old file vars */ DL_FOREACH_SAFE (parser->variables, cur_var, tmp_var) { if (strcmp (cur_var->var, "CURDIR") == 0) { old_curdir = cur_var; DL_DELETE (parser->variables, cur_var); } else if (strcmp (cur_var->var, "FILENAME") == 0) { old_filename = cur_var; DL_DELETE (parser->variables, cur_var); } } ucl_parser_set_filevars (parser, realbuf, false); prev_state = parser->state; parser->state = UCL_STATE_INIT; if (params->use_prefix && params->prefix == NULL) { /* Auto generate a key name based on the included filename */ params->prefix = basename (realbuf); ext = strrchr (params->prefix, '.'); if (ext != NULL && (strcmp (ext, ".conf") == 0 || strcmp (ext, ".ucl") == 0)) { /* Strip off .conf or .ucl */ *ext = '\0'; } } if (params->prefix != NULL) { /* This is a prefixed include */ container = parser->stack->obj->value.ov; old_obj = __DECONST (ucl_object_t *, ucl_hash_search (container, params->prefix, strlen (params->prefix))); if (strcasecmp (params->target, "array") == 0 && old_obj == NULL) { /* Create an array with key: prefix */ old_obj = ucl_object_new_full (UCL_ARRAY, params->priority); old_obj->key = params->prefix; old_obj->keylen = strlen (params->prefix); ucl_copy_key_trash(old_obj); old_obj->prev = old_obj; old_obj->next = NULL; container = ucl_hash_insert_object (container, old_obj, parser->flags & UCL_PARSER_KEY_LOWERCASE); parser->stack->obj->len ++; nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority); nest_obj->prev = nest_obj; nest_obj->next = NULL; ucl_array_append (old_obj, nest_obj); } else if (old_obj == NULL) { /* Create an object with key: prefix */ nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority); if (nest_obj == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for an object"); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } nest_obj->key = params->prefix; nest_obj->keylen = strlen (params->prefix); ucl_copy_key_trash(nest_obj); nest_obj->prev = nest_obj; nest_obj->next = NULL; container = ucl_hash_insert_object (container, nest_obj, parser->flags & UCL_PARSER_KEY_LOWERCASE); parser->stack->obj->len ++; } else if (strcasecmp (params->target, "array") == 0 || ucl_object_type(old_obj) == UCL_ARRAY) { if (ucl_object_type(old_obj) == UCL_ARRAY) { /* Append to the existing array */ nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority); if (nest_obj == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for an object"); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } nest_obj->prev = nest_obj; nest_obj->next = NULL; ucl_array_append (old_obj, nest_obj); } else { /* Convert the object to an array */ new_obj = ucl_object_typed_new (UCL_ARRAY); if (new_obj == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for an object"); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } new_obj->key = old_obj->key; new_obj->keylen = old_obj->keylen; new_obj->flags |= UCL_OBJECT_MULTIVALUE; new_obj->prev = new_obj; new_obj->next = NULL; nest_obj = ucl_object_new_full (UCL_OBJECT, params->priority); if (nest_obj == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for an object"); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } nest_obj->prev = nest_obj; nest_obj->next = NULL; ucl_array_append (new_obj, old_obj); ucl_array_append (new_obj, nest_obj); ucl_hash_replace (container, old_obj, new_obj); } } else { if (ucl_object_type (old_obj) == UCL_OBJECT) { /* Append to existing Object*/ nest_obj = old_obj; } else { /* The key is not an object */ ucl_create_err (&parser->err, "Conflicting type for key: %s", params->prefix); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } } /* Put all of the content of the include inside that object */ parser->stack->obj->value.ov = container; if (nest_obj != NULL) { st = UCL_ALLOC (sizeof (struct ucl_stack)); if (st == NULL) { ucl_create_err (&parser->err, "cannot allocate memory for an object"); ucl_object_unref (nest_obj); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } st->obj = nest_obj; st->level = parser->stack->level; LL_PREPEND (parser->stack, st); parser->cur_obj = nest_obj; } } res = ucl_parser_add_chunk_full (parser, buf, buflen, params->priority, params->strat, params->parse_type); if (!res && !params->must_exist) { /* Free error */ utstring_free (parser->err); parser->err = NULL; parser->state = UCL_STATE_AFTER_VALUE; } /* Stop nesting the include, take 1 level off the stack */ if (params->prefix != NULL && nest_obj != NULL) { parser->stack = st->next; UCL_FREE (sizeof (struct ucl_stack), st); } /* Remove chunk from the stack */ chunk = parser->chunks; if (chunk != NULL) { parser->chunks = chunk->next; UCL_FREE (sizeof (struct ucl_chunk), chunk); parser->recursion --; } /* Restore old file vars */ if (parser->cur_file) { free (parser->cur_file); } parser->cur_file = old_curfile; DL_FOREACH_SAFE (parser->variables, cur_var, tmp_var) { if (strcmp (cur_var->var, "CURDIR") == 0 && old_curdir) { DL_DELETE (parser->variables, cur_var); free (cur_var->var); free (cur_var->value); UCL_FREE (sizeof (struct ucl_variable), cur_var); } else if (strcmp (cur_var->var, "FILENAME") == 0 && old_filename) { DL_DELETE (parser->variables, cur_var); free (cur_var->var); free (cur_var->value); UCL_FREE (sizeof (struct ucl_variable), cur_var); } } if (old_filename) { DL_APPEND (parser->variables, old_filename); } if (old_curdir) { DL_APPEND (parser->variables, old_curdir); } parser->state = prev_state; if (buflen > 0) { ucl_munmap (buf, buflen); } return res; } /** * Include a file to configuration * @param data * @param len * @param parser * @param err * @return */ static bool ucl_include_file (const unsigned char *data, size_t len, struct ucl_parser *parser, struct ucl_include_params *params) { const unsigned char *p = data, *end = data + len; bool need_glob = false; int cnt = 0; char glob_pattern[PATH_MAX]; size_t i; #ifndef _WIN32 if (!params->allow_glob) { return ucl_include_file_single (data, len, parser, params); } else { /* Check for special symbols in a filename */ while (p != end) { if (*p == '*' || *p == '?') { need_glob = true; break; } p ++; } if (need_glob) { glob_t globbuf; memset (&globbuf, 0, sizeof (globbuf)); ucl_strlcpy (glob_pattern, (const char *)data, (len + 1 < sizeof (glob_pattern) ? len + 1 : sizeof (glob_pattern))); if (glob (glob_pattern, 0, NULL, &globbuf) != 0) { return (!params->must_exist || false); } for (i = 0; i < globbuf.gl_pathc; i ++) { if (!ucl_include_file_single ((unsigned char *)globbuf.gl_pathv[i], strlen (globbuf.gl_pathv[i]), parser, params)) { if (params->soft_fail) { continue; } globfree (&globbuf); return false; } cnt ++; } globfree (&globbuf); if (cnt == 0 && params->must_exist) { ucl_create_err (&parser->err, "cannot match any files for pattern %s", glob_pattern); return false; } } else { return ucl_include_file_single (data, len, parser, params); } } #else /* Win32 compilers do not support globbing. Therefore, for Win32, treat allow_glob/need_glob as a NOOP and just return */ return ucl_include_file_single (data, len, parser, params); #endif return true; } /** * Common function to handle .*include* macros * @param data * @param len * @param args * @param parser * @param default_try * @param default_sign * @return */ static bool ucl_include_common (const unsigned char *data, size_t len, const ucl_object_t *args, struct ucl_parser *parser, bool default_try, bool default_sign) { bool allow_url = false, search = false; const char *duplicate; const ucl_object_t *param; ucl_object_iter_t it = NULL, ip = NULL; char ipath[PATH_MAX]; struct ucl_include_params params; /* Default values */ params.soft_fail = default_try; params.allow_glob = false; params.check_signature = default_sign; params.use_prefix = false; params.target = "object"; params.prefix = NULL; params.priority = 0; params.parse_type = UCL_PARSE_UCL; params.strat = UCL_DUPLICATE_APPEND; params.must_exist = !default_try; /* Process arguments */ if (args != NULL && args->type == UCL_OBJECT) { while ((param = ucl_iterate_object (args, &it, true)) != NULL) { if (param->type == UCL_BOOLEAN) { if (strncmp (param->key, "try", param->keylen) == 0) { params.must_exist = !ucl_object_toboolean (param); } else if (strncmp (param->key, "sign", param->keylen) == 0) { params.check_signature = ucl_object_toboolean (param); } else if (strncmp (param->key, "glob", param->keylen) == 0) { params.allow_glob = ucl_object_toboolean (param); } else if (strncmp (param->key, "url", param->keylen) == 0) { allow_url = ucl_object_toboolean (param); } else if (strncmp (param->key, "prefix", param->keylen) == 0) { params.use_prefix = ucl_object_toboolean (param); } } else if (param->type == UCL_STRING) { if (strncmp (param->key, "key", param->keylen) == 0) { params.prefix = ucl_object_tostring (param); } else if (strncmp (param->key, "target", param->keylen) == 0) { params.target = ucl_object_tostring (param); } else if (strncmp (param->key, "duplicate", param->keylen) == 0) { duplicate = ucl_object_tostring (param); if (strcmp (duplicate, "append") == 0) { params.strat = UCL_DUPLICATE_APPEND; } else if (strcmp (duplicate, "merge") == 0) { params.strat = UCL_DUPLICATE_MERGE; } else if (strcmp (duplicate, "rewrite") == 0) { params.strat = UCL_DUPLICATE_REWRITE; } else if (strcmp (duplicate, "error") == 0) { params.strat = UCL_DUPLICATE_ERROR; } } } else if (param->type == UCL_ARRAY) { if (strncmp (param->key, "path", param->keylen) == 0) { ucl_set_include_path (parser, __DECONST(ucl_object_t *, param)); } } else if (param->type == UCL_INT) { if (strncmp (param->key, "priority", param->keylen) == 0) { params.priority = ucl_object_toint (param); } } } } if (parser->includepaths == NULL) { if (allow_url && ucl_strnstr (data, "://", len) != NULL) { /* Globbing is not used for URL's */ return ucl_include_url (data, len, parser, ¶ms); } else if (data != NULL) { /* Try to load a file */ return ucl_include_file (data, len, parser, ¶ms); } } else { if (allow_url && ucl_strnstr (data, "://", len) != NULL) { /* Globbing is not used for URL's */ return ucl_include_url (data, len, parser, ¶ms); } ip = ucl_object_iterate_new (parser->includepaths); while ((param = ucl_object_iterate_safe (ip, true)) != NULL) { if (ucl_object_type(param) == UCL_STRING) { snprintf (ipath, sizeof (ipath), "%s/%.*s", ucl_object_tostring(param), (int)len, data); if ((search = ucl_include_file (ipath, strlen (ipath), parser, ¶ms))) { if (!params.allow_glob) { break; } } } } ucl_object_iterate_free (ip); if (search == true) { return true; } else { ucl_create_err (&parser->err, "cannot find file: %.*s in search path", (int)len, data); return false; } } return false; } /** * Handle include macro * @param data include data * @param len length of data * @param args UCL object representing arguments to the macro * @param ud user data * @return */ bool ucl_include_handler (const unsigned char *data, size_t len, const ucl_object_t *args, void* ud) { struct ucl_parser *parser = ud; return ucl_include_common (data, len, args, parser, false, false); } /** * Handle includes macro * @param data include data * @param len length of data * @param args UCL object representing arguments to the macro * @param ud user data * @return */ bool ucl_includes_handler (const unsigned char *data, size_t len, const ucl_object_t *args, void* ud) { struct ucl_parser *parser = ud; return ucl_include_common (data, len, args, parser, false, true); } /** * Handle tryinclude macro * @param data include data * @param len length of data * @param args UCL object representing arguments to the macro * @param ud user data * @return */ bool ucl_try_include_handler (const unsigned char *data, size_t len, const ucl_object_t *args, void* ud) { struct ucl_parser *parser = ud; return ucl_include_common (data, len, args, parser, true, false); } /** * Handle priority macro * @param data include data * @param len length of data * @param args UCL object representing arguments to the macro * @param ud user data * @return */ bool ucl_priority_handler (const unsigned char *data, size_t len, const ucl_object_t *args, void* ud) { struct ucl_parser *parser = ud; unsigned priority = 255; const ucl_object_t *param; bool found = false; char *value = NULL, *leftover = NULL; ucl_object_iter_t it = NULL; if (parser == NULL) { return false; } /* Process arguments */ if (args != NULL && args->type == UCL_OBJECT) { while ((param = ucl_iterate_object (args, &it, true)) != NULL) { if (param->type == UCL_INT) { if (strncmp (param->key, "priority", param->keylen) == 0) { priority = ucl_object_toint (param); found = true; } } } } if (len > 0) { value = malloc(len + 1); ucl_strlcpy(value, (const char *)data, len + 1); priority = strtol(value, &leftover, 10); if (*leftover != '\0') { ucl_create_err (&parser->err, "Invalid priority value in macro: %s", value); free(value); return false; } free(value); found = true; } if (found == true) { parser->chunks->priority = priority; return true; } ucl_create_err (&parser->err, "Unable to parse priority macro"); return false; } /** * Handle load macro * @param data include data * @param len length of data * @param args UCL object representing arguments to the macro * @param ud user data * @return */ bool ucl_load_handler (const unsigned char *data, size_t len, const ucl_object_t *args, void* ud) { struct ucl_parser *parser = ud; const ucl_object_t *param; ucl_object_t *obj, *old_obj; ucl_object_iter_t it = NULL; bool try_load, multiline, test; const char *target, *prefix; char *load_file, *tmp; unsigned char *buf; size_t buflen; unsigned priority; int64_t iv; ucl_hash_t *container = NULL; enum ucl_string_flags flags; /* Default values */ try_load = false; multiline = false; test = false; target = "string"; prefix = NULL; load_file = NULL; buf = NULL; buflen = 0; priority = 0; obj = NULL; old_obj = NULL; flags = 0; if (parser == NULL) { return false; } /* Process arguments */ if (args != NULL && args->type == UCL_OBJECT) { while ((param = ucl_iterate_object (args, &it, true)) != NULL) { if (param->type == UCL_BOOLEAN) { if (strncmp (param->key, "try", param->keylen) == 0) { try_load = ucl_object_toboolean (param); } else if (strncmp (param->key, "multiline", param->keylen) == 0) { multiline = ucl_object_toboolean (param); } else if (strncmp (param->key, "escape", param->keylen) == 0) { test = ucl_object_toboolean (param); if (test) { flags |= UCL_STRING_ESCAPE; } } else if (strncmp (param->key, "trim", param->keylen) == 0) { test = ucl_object_toboolean (param); if (test) { flags |= UCL_STRING_TRIM; } } } else if (param->type == UCL_STRING) { if (strncmp (param->key, "key", param->keylen) == 0) { prefix = ucl_object_tostring (param); } else if (strncmp (param->key, "target", param->keylen) == 0) { target = ucl_object_tostring (param); } } else if (param->type == UCL_INT) { if (strncmp (param->key, "priority", param->keylen) == 0) { priority = ucl_object_toint (param); } } } } if (prefix == NULL || strlen(prefix) == 0) { ucl_create_err (&parser->err, "No Key specified in load macro"); return false; } if (len > 0) { asprintf (&load_file, "%.*s", (int)len, data); if (!ucl_fetch_file (load_file, &buf, &buflen, &parser->err, !try_load)) { return (try_load || false); } container = parser->stack->obj->value.ov; old_obj = __DECONST (ucl_object_t *, ucl_hash_search (container, prefix, strlen (prefix))); if (old_obj != NULL) { ucl_create_err (&parser->err, "Key %s already exists", prefix); if (buflen > 0) { ucl_munmap (buf, buflen); } return false; } if (strcasecmp (target, "string") == 0) { obj = ucl_object_fromstring_common (buf, buflen, flags); ucl_copy_value_trash (obj); if (multiline) { obj->flags |= UCL_OBJECT_MULTILINE; } } else if (strcasecmp (target, "int") == 0) { asprintf(&tmp, "%.*s", (int)buflen, buf); iv = strtoll(tmp, NULL, 10); obj = ucl_object_fromint(iv); } if (buflen > 0) { ucl_munmap (buf, buflen); } if (obj != NULL) { obj->key = prefix; obj->keylen = strlen (prefix); ucl_copy_key_trash(obj); obj->prev = obj; obj->next = NULL; ucl_object_set_priority (obj, priority); container = ucl_hash_insert_object (container, obj, parser->flags & UCL_PARSER_KEY_LOWERCASE); parser->stack->obj->value.ov = container; } return true; } ucl_create_err (&parser->err, "Unable to parse load macro"); return false; } bool ucl_inherit_handler (const unsigned char *data, size_t len, const ucl_object_t *args, const ucl_object_t *ctx, void* ud) { const ucl_object_t *parent, *cur; ucl_object_t *target, *copy; ucl_object_iter_t it = NULL; bool replace = false; struct ucl_parser *parser = ud; parent = ucl_object_find_keyl (ctx, data, len); /* Some sanity checks */ if (parent == NULL || ucl_object_type (parent) != UCL_OBJECT) { ucl_create_err (&parser->err, "Unable to find inherited object %*.s", (int)len, data); return false; } if (parser->stack == NULL || parser->stack->obj == NULL || ucl_object_type (parser->stack->obj) != UCL_OBJECT) { ucl_create_err (&parser->err, "Invalid inherit context"); return false; } target = parser->stack->obj; if (args && (cur = ucl_object_find_key (args, "replace")) != NULL) { replace = ucl_object_toboolean (cur); } while ((cur = ucl_iterate_object (parent, &it, true))) { /* We do not replace existing keys */ if (!replace && ucl_object_find_keyl (target, cur->key, cur->keylen)) { continue; } copy = ucl_object_copy (cur); if (!replace) { copy->flags |= UCL_OBJECT_INHERITED; } ucl_object_insert_key (target, copy, copy->key, copy->keylen, false); } return true; } bool ucl_parser_set_filevars (struct ucl_parser *parser, const char *filename, bool need_expand) { char realbuf[PATH_MAX], *curdir; if (filename != NULL) { if (need_expand) { if (ucl_realpath (filename, realbuf) == NULL) { return false; } } else { ucl_strlcpy (realbuf, filename, sizeof (realbuf)); } /* Define variables */ ucl_parser_register_variable (parser, "FILENAME", realbuf); curdir = dirname (realbuf); ucl_parser_register_variable (parser, "CURDIR", curdir); } else { /* Set everything from the current dir */ curdir = getcwd (realbuf, sizeof (realbuf)); ucl_parser_register_variable (parser, "FILENAME", "undef"); ucl_parser_register_variable (parser, "CURDIR", curdir); } return true; } bool ucl_parser_add_file_priority (struct ucl_parser *parser, const char *filename, unsigned priority) { unsigned char *buf; size_t len; bool ret; char realbuf[PATH_MAX]; if (ucl_realpath (filename, realbuf) == NULL) { ucl_create_err (&parser->err, "cannot open file %s: %s", filename, strerror (errno)); return false; } if (!ucl_fetch_file (realbuf, &buf, &len, &parser->err, true)) { return false; } if (parser->cur_file) { free (parser->cur_file); } parser->cur_file = strdup (realbuf); ucl_parser_set_filevars (parser, realbuf, false); ret = ucl_parser_add_chunk_priority (parser, buf, len, priority); if (len > 0) { ucl_munmap (buf, len); } return ret; } bool ucl_parser_add_file (struct ucl_parser *parser, const char *filename) { if (parser == NULL) { return false; } return ucl_parser_add_file_priority(parser, filename, parser->default_priority); } bool ucl_parser_add_fd_priority (struct ucl_parser *parser, int fd, unsigned priority) { unsigned char *buf; size_t len; bool ret; struct stat st; if (fstat (fd, &st) == -1) { ucl_create_err (&parser->err, "cannot stat fd %d: %s", fd, strerror (errno)); return false; } if ((buf = ucl_mmap (NULL, st.st_size, PROT_READ, MAP_SHARED, fd, 0)) == MAP_FAILED) { ucl_create_err (&parser->err, "cannot mmap fd %d: %s", fd, strerror (errno)); return false; } if (parser->cur_file) { free (parser->cur_file); } parser->cur_file = NULL; len = st.st_size; ret = ucl_parser_add_chunk_priority (parser, buf, len, priority); if (len > 0) { ucl_munmap (buf, len); } return ret; } bool ucl_parser_add_fd (struct ucl_parser *parser, int fd) { if (parser == NULL) { return false; } return ucl_parser_add_fd_priority(parser, fd, parser->default_priority); } size_t ucl_strlcpy (char *dst, const char *src, size_t siz) { char *d = dst; const char *s = src; size_t n = siz; /* Copy as many bytes as will fit */ if (n != 0) { while (--n != 0) { if ((*d++ = *s++) == '\0') { break; } } } if (n == 0 && siz != 0) { *d = '\0'; } return (s - src - 1); /* count does not include NUL */ } size_t ucl_strlcpy_unsafe (char *dst, const char *src, size_t siz) { memcpy (dst, src, siz - 1); dst[siz - 1] = '\0'; return siz - 1; } size_t ucl_strlcpy_tolower (char *dst, const char *src, size_t siz) { char *d = dst; const char *s = src; size_t n = siz; /* Copy as many bytes as will fit */ if (n != 0) { while (--n != 0) { if ((*d++ = tolower (*s++)) == '\0') { break; } } } if (n == 0 && siz != 0) { *d = '\0'; } return (s - src); /* count does not include NUL */ } /* * Find the first occurrence of find in s */ char * ucl_strnstr (const char *s, const char *find, int len) { char c, sc; int mlen; if ((c = *find++) != 0) { mlen = strlen (find); do { do { if ((sc = *s++) == 0 || len-- == 0) return (NULL); } while (sc != c); } while (strncmp (s, find, mlen) != 0); s--; } return ((char *)s); } /* * Find the first occurrence of find in s, ignore case. */ char * ucl_strncasestr (const char *s, const char *find, int len) { char c, sc; int mlen; if ((c = *find++) != 0) { c = tolower (c); mlen = strlen (find); do { do { if ((sc = *s++) == 0 || len-- == 0) return (NULL); } while (tolower (sc) != c); } while (strncasecmp (s, find, mlen) != 0); s--; } return ((char *)s); } ucl_object_t * ucl_object_fromstring_common (const char *str, size_t len, enum ucl_string_flags flags) { ucl_object_t *obj; const char *start, *end, *p, *pos; char *dst, *d; size_t escaped_len; if (str == NULL) { return NULL; } obj = ucl_object_new (); if (obj) { if (len == 0) { len = strlen (str); } if (flags & UCL_STRING_TRIM) { /* Skip leading spaces */ for (start = str; (size_t)(start - str) < len; start ++) { if (!ucl_test_character (*start, UCL_CHARACTER_WHITESPACE_UNSAFE)) { break; } } /* Skip trailing spaces */ for (end = str + len - 1; end > start; end --) { if (!ucl_test_character (*end, UCL_CHARACTER_WHITESPACE_UNSAFE)) { break; } } end ++; } else { start = str; end = str + len; } obj->type = UCL_STRING; if (flags & UCL_STRING_ESCAPE) { for (p = start, escaped_len = 0; p < end; p ++, escaped_len ++) { if (ucl_test_character (*p, UCL_CHARACTER_JSON_UNSAFE)) { escaped_len ++; } } dst = malloc (escaped_len + 1); if (dst != NULL) { for (p = start, d = dst; p < end; p ++, d ++) { if (ucl_test_character (*p, UCL_CHARACTER_JSON_UNSAFE)) { switch (*p) { case '\n': *d++ = '\\'; *d = 'n'; break; case '\r': *d++ = '\\'; *d = 'r'; break; case '\b': *d++ = '\\'; *d = 'b'; break; case '\t': *d++ = '\\'; *d = 't'; break; case '\f': *d++ = '\\'; *d = 'f'; break; case '\\': *d++ = '\\'; *d = '\\'; break; case '"': *d++ = '\\'; *d = '"'; break; } } else { *d = *p; } } *d = '\0'; obj->value.sv = dst; obj->trash_stack[UCL_TRASH_VALUE] = dst; obj->len = escaped_len; } } else { dst = malloc (end - start + 1); if (dst != NULL) { ucl_strlcpy_unsafe (dst, start, end - start + 1); obj->value.sv = dst; obj->trash_stack[UCL_TRASH_VALUE] = dst; obj->len = end - start; } } if ((flags & UCL_STRING_PARSE) && dst != NULL) { /* Parse what we have */ if (flags & UCL_STRING_PARSE_BOOLEAN) { if (!ucl_maybe_parse_boolean (obj, dst, obj->len) && (flags & UCL_STRING_PARSE_NUMBER)) { ucl_maybe_parse_number (obj, dst, dst + obj->len, &pos, flags & UCL_STRING_PARSE_DOUBLE, flags & UCL_STRING_PARSE_BYTES, flags & UCL_STRING_PARSE_TIME); } } else { ucl_maybe_parse_number (obj, dst, dst + obj->len, &pos, flags & UCL_STRING_PARSE_DOUBLE, flags & UCL_STRING_PARSE_BYTES, flags & UCL_STRING_PARSE_TIME); } } } return obj; } static bool ucl_object_insert_key_common (ucl_object_t *top, ucl_object_t *elt, const char *key, size_t keylen, bool copy_key, bool merge, bool replace) { ucl_object_t *found, *tmp; const ucl_object_t *cur; ucl_object_iter_t it = NULL; const char *p; int ret = true; if (elt == NULL || key == NULL) { return false; } if (top == NULL) { return false; } if (top->type != UCL_OBJECT) { /* It is possible to convert NULL type to an object */ if (top->type == UCL_NULL) { top->type = UCL_OBJECT; } else { /* Refuse converting of other object types */ return false; } } if (top->value.ov == NULL) { top->value.ov = ucl_hash_create (false); } if (keylen == 0) { keylen = strlen (key); } for (p = key; p < key + keylen; p ++) { if (ucl_test_character (*p, UCL_CHARACTER_UCL_UNSAFE)) { elt->flags |= UCL_OBJECT_NEED_KEY_ESCAPE; break; } } /* workaround for some use cases */ if (elt->trash_stack[UCL_TRASH_KEY] != NULL && key != (const char *)elt->trash_stack[UCL_TRASH_KEY]) { /* Remove copied key */ free (elt->trash_stack[UCL_TRASH_KEY]); elt->trash_stack[UCL_TRASH_KEY] = NULL; elt->flags &= ~UCL_OBJECT_ALLOCATED_KEY; } elt->key = key; elt->keylen = keylen; if (copy_key) { ucl_copy_key_trash (elt); } found = __DECONST (ucl_object_t *, ucl_hash_search_obj (top->value.ov, elt)); if (found == NULL) { top->value.ov = ucl_hash_insert_object (top->value.ov, elt, false); top->len ++; if (replace) { ret = false; } } else { if (replace) { ucl_hash_replace (top->value.ov, found, elt); ucl_object_unref (found); } else if (merge) { if (found->type != UCL_OBJECT && elt->type == UCL_OBJECT) { /* Insert old elt to new one */ ucl_object_insert_key_common (elt, found, found->key, found->keylen, copy_key, false, false); ucl_hash_delete (top->value.ov, found); top->value.ov = ucl_hash_insert_object (top->value.ov, elt, false); } else if (found->type == UCL_OBJECT && elt->type != UCL_OBJECT) { /* Insert new to old */ ucl_object_insert_key_common (found, elt, elt->key, elt->keylen, copy_key, false, false); } else if (found->type == UCL_OBJECT && elt->type == UCL_OBJECT) { /* Mix two hashes */ while ((cur = ucl_iterate_object (elt, &it, true)) != NULL) { tmp = ucl_object_ref (cur); ucl_object_insert_key_common (found, tmp, cur->key, cur->keylen, copy_key, false, false); } ucl_object_unref (elt); } else { /* Just make a list of scalars */ DL_APPEND (found, elt); } } else { DL_APPEND (found, elt); } } return ret; } bool ucl_object_delete_keyl (ucl_object_t *top, const char *key, size_t keylen) { ucl_object_t *found; if (top == NULL || key == NULL) { return false; } found = __DECONST (ucl_object_t *, ucl_object_find_keyl (top, key, keylen)); if (found == NULL) { return false; } ucl_hash_delete (top->value.ov, found); ucl_object_unref (found); top->len --; return true; } bool ucl_object_delete_key (ucl_object_t *top, const char *key) { return ucl_object_delete_keyl (top, key, strlen (key)); } ucl_object_t* ucl_object_pop_keyl (ucl_object_t *top, const char *key, size_t keylen) { const ucl_object_t *found; if (top == NULL || key == NULL) { return false; } found = ucl_object_find_keyl (top, key, keylen); if (found == NULL) { return NULL; } ucl_hash_delete (top->value.ov, found); top->len --; return __DECONST (ucl_object_t *, found); } ucl_object_t* ucl_object_pop_key (ucl_object_t *top, const char *key) { return ucl_object_pop_keyl (top, key, strlen (key)); } bool ucl_object_insert_key (ucl_object_t *top, ucl_object_t *elt, const char *key, size_t keylen, bool copy_key) { return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, false, false); } bool ucl_object_insert_key_merged (ucl_object_t *top, ucl_object_t *elt, const char *key, size_t keylen, bool copy_key) { return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, true, false); } bool ucl_object_replace_key (ucl_object_t *top, ucl_object_t *elt, const char *key, size_t keylen, bool copy_key) { return ucl_object_insert_key_common (top, elt, key, keylen, copy_key, false, true); } bool ucl_object_merge (ucl_object_t *top, ucl_object_t *elt, bool copy) { ucl_object_t *cur = NULL, *cp = NULL, *found = NULL; ucl_object_iter_t iter = NULL; if (top == NULL || top->type != UCL_OBJECT || elt == NULL || elt->type != UCL_OBJECT) { return false; } /* Mix two hashes */ while ((cur = (ucl_object_t*)ucl_hash_iterate (elt->value.ov, &iter))) { if (copy) { cp = ucl_object_copy (cur); } else { cp = ucl_object_ref (cur); } found = __DECONST(ucl_object_t *, ucl_hash_search (top->value.ov, cp->key, cp->keylen)); if (found == NULL) { /* The key does not exist */ top->value.ov = ucl_hash_insert_object (top->value.ov, cp, false); top->len ++; } else { /* The key already exists, replace it */ ucl_hash_replace (top->value.ov, found, cp); ucl_object_unref (found); } } return true; } const ucl_object_t * ucl_object_find_keyl (const ucl_object_t *obj, const char *key, size_t klen) { const ucl_object_t *ret; ucl_object_t srch; if (obj == NULL || obj->type != UCL_OBJECT || key == NULL) { return NULL; } srch.key = key; srch.keylen = klen; ret = ucl_hash_search_obj (obj->value.ov, &srch); return ret; } const ucl_object_t * ucl_object_find_key (const ucl_object_t *obj, const char *key) { if (key == NULL) { return NULL; } return ucl_object_find_keyl (obj, key, strlen (key)); } const ucl_object_t* ucl_object_find_any_key (const ucl_object_t *obj, const char *key, ...) { va_list ap; const ucl_object_t *ret = NULL; const char *nk = NULL; if (obj == NULL || key == NULL) { return NULL; } ret = ucl_object_find_keyl (obj, key, strlen (key)); if (ret == NULL) { va_start (ap, key); while (ret == NULL) { nk = va_arg (ap, const char *); if (nk == NULL) { break; } else { ret = ucl_object_find_keyl (obj, nk, strlen (nk)); } } va_end (ap); } return ret; } const ucl_object_t* ucl_iterate_object (const ucl_object_t *obj, ucl_object_iter_t *iter, bool expand_values) { const ucl_object_t *elt = NULL; if (obj == NULL || iter == NULL) { return NULL; } if (expand_values) { switch (obj->type) { case UCL_OBJECT: return (const ucl_object_t*)ucl_hash_iterate (obj->value.ov, iter); break; case UCL_ARRAY: { unsigned int idx; UCL_ARRAY_GET (vec, obj); idx = (unsigned int)(uintptr_t)(*iter); if (vec != NULL) { while (idx < kv_size (*vec)) { if ((elt = kv_A (*vec, idx)) != NULL) { idx ++; break; } idx ++; } *iter = (void *)(uintptr_t)idx; } return elt; break; } default: /* Go to linear iteration */ break; } } /* Treat everything as a linear list */ elt = *iter; if (elt == NULL) { elt = obj; } else if (elt == obj) { return NULL; } *iter = __DECONST (void *, elt->next ? elt->next : obj); return elt; /* Not reached */ return NULL; } const char safe_iter_magic[4] = {'u', 'i', 't', 'e'}; struct ucl_object_safe_iter { char magic[4]; /* safety check */ const ucl_object_t *impl_it; /* implicit object iteration */ ucl_object_iter_t expl_it; /* explicit iteration */ }; #define UCL_SAFE_ITER(ptr) (struct ucl_object_safe_iter *)(ptr) #define UCL_SAFE_ITER_CHECK(it) do { \ assert (it != NULL); \ assert (memcmp (it->magic, safe_iter_magic, sizeof (it->magic)) == 0); \ } while (0) ucl_object_iter_t ucl_object_iterate_new (const ucl_object_t *obj) { struct ucl_object_safe_iter *it; it = UCL_ALLOC (sizeof (*it)); if (it != NULL) { memcpy (it->magic, safe_iter_magic, sizeof (it->magic)); it->expl_it = NULL; it->impl_it = obj; } return (ucl_object_iter_t)it; } ucl_object_iter_t ucl_object_iterate_reset (ucl_object_iter_t it, const ucl_object_t *obj) { struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it); UCL_SAFE_ITER_CHECK (rit); rit->impl_it = obj; rit->expl_it = NULL; return it; } const ucl_object_t* ucl_object_iterate_safe (ucl_object_iter_t it, bool expand_values) { struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it); const ucl_object_t *ret = NULL; UCL_SAFE_ITER_CHECK (rit); if (rit->impl_it == NULL) { return NULL; } if (rit->impl_it->type == UCL_OBJECT || rit->impl_it->type == UCL_ARRAY) { ret = ucl_iterate_object (rit->impl_it, &rit->expl_it, true); if (ret == NULL) { /* Need to switch to another implicit object in chain */ rit->impl_it = rit->impl_it->next; rit->expl_it = NULL; return ucl_object_iterate_safe (it, expand_values); } } else { /* Just iterate over the implicit array */ ret = rit->impl_it; rit->impl_it = rit->impl_it->next; if (expand_values) { /* We flatten objects if need to expand values */ if (ret->type == UCL_OBJECT || ret->type == UCL_ARRAY) { return ucl_object_iterate_safe (it, expand_values); } } } return ret; } void ucl_object_iterate_free (ucl_object_iter_t it) { struct ucl_object_safe_iter *rit = UCL_SAFE_ITER (it); UCL_SAFE_ITER_CHECK (rit); UCL_FREE (sizeof (*rit), it); } const ucl_object_t * ucl_lookup_path (const ucl_object_t *top, const char *path_in) { return ucl_lookup_path_char (top, path_in, '.'); } const ucl_object_t * ucl_lookup_path_char (const ucl_object_t *top, const char *path_in, const char sep) { const ucl_object_t *o = NULL, *found; const char *p, *c; char *err_str; unsigned index; if (path_in == NULL || top == NULL) { return NULL; } found = NULL; p = path_in; /* Skip leading dots */ while (*p == sep) { p ++; } c = p; while (*p != '\0') { p ++; if (*p == sep || *p == '\0') { if (p > c) { switch (top->type) { case UCL_ARRAY: /* Key should be an int */ index = strtoul (c, &err_str, 10); if (err_str != NULL && (*err_str != sep && *err_str != '\0')) { return NULL; } o = ucl_array_find_index (top, index); break; default: o = ucl_object_find_keyl (top, c, p - c); break; } if (o == NULL) { return NULL; } top = o; } if (*p != '\0') { c = p + 1; } } } found = o; return found; } ucl_object_t * ucl_object_new (void) { return ucl_object_typed_new (UCL_NULL); } ucl_object_t * ucl_object_typed_new (ucl_type_t type) { return ucl_object_new_full (type, 0); } ucl_object_t * ucl_object_new_full (ucl_type_t type, unsigned priority) { ucl_object_t *new; if (type != UCL_USERDATA) { new = UCL_ALLOC (sizeof (ucl_object_t)); if (new != NULL) { memset (new, 0, sizeof (ucl_object_t)); new->ref = 1; new->type = (type <= UCL_NULL ? type : UCL_NULL); new->next = NULL; new->prev = new; ucl_object_set_priority (new, priority); if (type == UCL_ARRAY) { new->value.av = UCL_ALLOC (sizeof (ucl_array_t)); if (new->value.av) { memset (new->value.av, 0, sizeof (ucl_array_t)); UCL_ARRAY_GET (vec, new); /* Preallocate some space for arrays */ kv_resize (ucl_object_t *, *vec, 8); } } } } else { new = ucl_object_new_userdata (NULL, NULL); ucl_object_set_priority (new, priority); } return new; } ucl_object_t* ucl_object_new_userdata (ucl_userdata_dtor dtor, ucl_userdata_emitter emitter) { struct ucl_object_userdata *new; size_t nsize = sizeof (*new); new = UCL_ALLOC (nsize); if (new != NULL) { memset (new, 0, nsize); new->obj.ref = 1; new->obj.type = UCL_USERDATA; new->obj.next = NULL; new->obj.prev = (ucl_object_t *)new; new->dtor = dtor; new->emitter = emitter; } return (ucl_object_t *)new; } ucl_type_t ucl_object_type (const ucl_object_t *obj) { if (obj == NULL) { return UCL_NULL; } return obj->type; } ucl_object_t* ucl_object_fromstring (const char *str) { return ucl_object_fromstring_common (str, 0, UCL_STRING_ESCAPE); } ucl_object_t * ucl_object_fromlstring (const char *str, size_t len) { return ucl_object_fromstring_common (str, len, UCL_STRING_ESCAPE); } ucl_object_t * ucl_object_fromint (int64_t iv) { ucl_object_t *obj; obj = ucl_object_new (); if (obj != NULL) { obj->type = UCL_INT; obj->value.iv = iv; } return obj; } ucl_object_t * ucl_object_fromdouble (double dv) { ucl_object_t *obj; obj = ucl_object_new (); if (obj != NULL) { obj->type = UCL_FLOAT; obj->value.dv = dv; } return obj; } ucl_object_t* ucl_object_frombool (bool bv) { ucl_object_t *obj; obj = ucl_object_new (); if (obj != NULL) { obj->type = UCL_BOOLEAN; obj->value.iv = bv; } return obj; } bool ucl_array_append (ucl_object_t *top, ucl_object_t *elt) { UCL_ARRAY_GET (vec, top); if (elt == NULL || top == NULL) { return false; } if (vec == NULL) { vec = UCL_ALLOC (sizeof (*vec)); if (vec == NULL) { return false; } kv_init (*vec); top->value.av = (void *)vec; } kv_push (ucl_object_t *, *vec, elt); top->len ++; return true; } bool ucl_array_prepend (ucl_object_t *top, ucl_object_t *elt) { UCL_ARRAY_GET (vec, top); if (elt == NULL || top == NULL) { return false; } if (vec == NULL) { vec = UCL_ALLOC (sizeof (*vec)); kv_init (*vec); top->value.av = (void *)vec; kv_push (ucl_object_t *, *vec, elt); } else { /* Slow O(n) algorithm */ kv_prepend (ucl_object_t *, *vec, elt); } top->len ++; return true; } bool ucl_array_merge (ucl_object_t *top, ucl_object_t *elt, bool copy) { unsigned i; ucl_object_t *cp = NULL; ucl_object_t **obj; if (elt == NULL || top == NULL || top->type != UCL_ARRAY || elt->type != UCL_ARRAY) { return false; } if (copy) { cp = ucl_object_copy (elt); } else { cp = ucl_object_ref (elt); } UCL_ARRAY_GET (v1, top); UCL_ARRAY_GET (v2, cp); kv_concat (ucl_object_t *, *v1, *v2); for (i = v2->n; i < v1->n; i ++) { obj = &kv_A (*v1, i); if (*obj == NULL) { continue; } top->len ++; } return true; } ucl_object_t * ucl_array_delete (ucl_object_t *top, ucl_object_t *elt) { UCL_ARRAY_GET (vec, top); ucl_object_t *ret = NULL; unsigned i; if (vec == NULL) { return NULL; } for (i = 0; i < vec->n; i ++) { if (kv_A (*vec, i) == elt) { kv_del (ucl_object_t *, *vec, i); ret = elt; top->len --; break; } } return ret; } const ucl_object_t * ucl_array_head (const ucl_object_t *top) { UCL_ARRAY_GET (vec, top); if (vec == NULL || top == NULL || top->type != UCL_ARRAY || top->value.av == NULL) { return NULL; } return (vec->n > 0 ? vec->a[0] : NULL); } const ucl_object_t * ucl_array_tail (const ucl_object_t *top) { UCL_ARRAY_GET (vec, top); if (top == NULL || top->type != UCL_ARRAY || top->value.av == NULL) { return NULL; } return (vec->n > 0 ? vec->a[vec->n - 1] : NULL); } ucl_object_t * ucl_array_pop_last (ucl_object_t *top) { UCL_ARRAY_GET (vec, top); ucl_object_t **obj, *ret = NULL; if (vec != NULL && vec->n > 0) { obj = &kv_A (*vec, vec->n - 1); ret = *obj; kv_del (ucl_object_t *, *vec, vec->n - 1); top->len --; } return ret; } ucl_object_t * ucl_array_pop_first (ucl_object_t *top) { UCL_ARRAY_GET (vec, top); ucl_object_t **obj, *ret = NULL; if (vec != NULL && vec->n > 0) { obj = &kv_A (*vec, 0); ret = *obj; kv_del (ucl_object_t *, *vec, 0); top->len --; } return ret; } const ucl_object_t * ucl_array_find_index (const ucl_object_t *top, unsigned int index) { UCL_ARRAY_GET (vec, top); if (vec != NULL && vec->n > 0 && index < vec->n) { return kv_A (*vec, index); } return NULL; } unsigned int ucl_array_index_of (ucl_object_t *top, ucl_object_t *elt) { UCL_ARRAY_GET (vec, top); unsigned i; if (vec == NULL) { return (unsigned int)(-1); } for (i = 0; i < vec->n; i ++) { if (kv_A (*vec, i) == elt) { return i; } } return (unsigned int)(-1); } ucl_object_t * ucl_array_replace_index (ucl_object_t *top, ucl_object_t *elt, unsigned int index) { UCL_ARRAY_GET (vec, top); ucl_object_t *ret = NULL; if (vec != NULL && vec->n > 0 && index < vec->n) { ret = kv_A (*vec, index); kv_A (*vec, index) = elt; } return ret; } ucl_object_t * ucl_elt_append (ucl_object_t *head, ucl_object_t *elt) { if (head == NULL) { elt->next = NULL; elt->prev = elt; head = elt; } else { elt->prev = head->prev; head->prev->next = elt; head->prev = elt; elt->next = NULL; } return head; } bool ucl_object_todouble_safe (const ucl_object_t *obj, double *target) { if (obj == NULL || target == NULL) { return false; } switch (obj->type) { case UCL_INT: *target = obj->value.iv; /* Probaly could cause overflow */ break; case UCL_FLOAT: case UCL_TIME: *target = obj->value.dv; break; default: return false; } return true; } double ucl_object_todouble (const ucl_object_t *obj) { double result = 0.; ucl_object_todouble_safe (obj, &result); return result; } bool ucl_object_toint_safe (const ucl_object_t *obj, int64_t *target) { if (obj == NULL || target == NULL) { return false; } switch (obj->type) { case UCL_INT: *target = obj->value.iv; break; case UCL_FLOAT: case UCL_TIME: *target = obj->value.dv; /* Loosing of decimal points */ break; default: return false; } return true; } int64_t ucl_object_toint (const ucl_object_t *obj) { int64_t result = 0; ucl_object_toint_safe (obj, &result); return result; } bool ucl_object_toboolean_safe (const ucl_object_t *obj, bool *target) { if (obj == NULL || target == NULL) { return false; } switch (obj->type) { case UCL_BOOLEAN: *target = (obj->value.iv == true); break; default: return false; } return true; } bool ucl_object_toboolean (const ucl_object_t *obj) { bool result = false; ucl_object_toboolean_safe (obj, &result); return result; } bool ucl_object_tostring_safe (const ucl_object_t *obj, const char **target) { if (obj == NULL || target == NULL) { return false; } switch (obj->type) { case UCL_STRING: if (!(obj->flags & UCL_OBJECT_BINARY)) { *target = ucl_copy_value_trash (obj); } break; default: return false; } return true; } const char * ucl_object_tostring (const ucl_object_t *obj) { const char *result = NULL; ucl_object_tostring_safe (obj, &result); return result; } const char * ucl_object_tostring_forced (const ucl_object_t *obj) { /* TODO: For binary strings we might encode string here */ if (!(obj->flags & UCL_OBJECT_BINARY)) { return ucl_copy_value_trash (obj); } return NULL; } bool ucl_object_tolstring_safe (const ucl_object_t *obj, const char **target, size_t *tlen) { if (obj == NULL || target == NULL) { return false; } switch (obj->type) { case UCL_STRING: *target = obj->value.sv; if (tlen != NULL) { *tlen = obj->len; } break; default: return false; } return true; } const char * ucl_object_tolstring (const ucl_object_t *obj, size_t *tlen) { const char *result = NULL; ucl_object_tolstring_safe (obj, &result, tlen); return result; } const char * ucl_object_key (const ucl_object_t *obj) { return ucl_copy_key_trash (obj); } const char * ucl_object_keyl (const ucl_object_t *obj, size_t *len) { if (len == NULL || obj == NULL) { return NULL; } *len = obj->keylen; return obj->key; } ucl_object_t * ucl_object_ref (const ucl_object_t *obj) { ucl_object_t *res = NULL; if (obj != NULL) { if (obj->flags & UCL_OBJECT_EPHEMERAL) { /* * Use deep copy for ephemeral objects, note that its refcount * is NOT increased, since ephemeral objects does not need refcount * at all */ res = ucl_object_copy (obj); } else { res = __DECONST (ucl_object_t *, obj); #ifdef HAVE_ATOMIC_BUILTINS (void)__sync_add_and_fetch (&res->ref, 1); #else res->ref ++; #endif } } return res; } static ucl_object_t * ucl_object_copy_internal (const ucl_object_t *other, bool allow_array) { ucl_object_t *new; ucl_object_iter_t it = NULL; const ucl_object_t *cur; new = malloc (sizeof (*new)); if (new != NULL) { memcpy (new, other, sizeof (*new)); if (other->flags & UCL_OBJECT_EPHEMERAL) { /* Copied object is always non ephemeral */ new->flags &= ~UCL_OBJECT_EPHEMERAL; } new->ref = 1; /* Unlink from others */ new->next = NULL; new->prev = new; /* deep copy of values stored */ if (other->trash_stack[UCL_TRASH_KEY] != NULL) { new->trash_stack[UCL_TRASH_KEY] = strdup (other->trash_stack[UCL_TRASH_KEY]); if (other->key == (const char *)other->trash_stack[UCL_TRASH_KEY]) { new->key = new->trash_stack[UCL_TRASH_KEY]; } } if (other->trash_stack[UCL_TRASH_VALUE] != NULL) { new->trash_stack[UCL_TRASH_VALUE] = strdup (other->trash_stack[UCL_TRASH_VALUE]); if (new->type == UCL_STRING) { new->value.sv = new->trash_stack[UCL_TRASH_VALUE]; } } if (other->type == UCL_ARRAY || other->type == UCL_OBJECT) { /* reset old value */ memset (&new->value, 0, sizeof (new->value)); while ((cur = ucl_iterate_object (other, &it, true)) != NULL) { if (other->type == UCL_ARRAY) { ucl_array_append (new, ucl_object_copy_internal (cur, false)); } else { ucl_object_t *cp = ucl_object_copy_internal (cur, true); if (cp != NULL) { ucl_object_insert_key (new, cp, cp->key, cp->keylen, false); } } } } else if (allow_array && other->next != NULL) { LL_FOREACH (other->next, cur) { ucl_object_t *cp = ucl_object_copy_internal (cur, false); if (cp != NULL) { DL_APPEND (new, cp); } } } } return new; } ucl_object_t * ucl_object_copy (const ucl_object_t *other) { return ucl_object_copy_internal (other, true); } void ucl_object_unref (ucl_object_t *obj) { if (obj != NULL) { #ifdef HAVE_ATOMIC_BUILTINS unsigned int rc = __sync_sub_and_fetch (&obj->ref, 1); if (rc == 0) { #else if (--obj->ref == 0) { #endif ucl_object_free_internal (obj, true, ucl_object_dtor_unref); } } } int ucl_object_compare (const ucl_object_t *o1, const ucl_object_t *o2) { const ucl_object_t *it1, *it2; ucl_object_iter_t iter = NULL; int ret = 0; if (o1->type != o2->type) { return (o1->type) - (o2->type); } switch (o1->type) { case UCL_STRING: if (o1->len == o2->len && o1->len > 0) { ret = strcmp (ucl_object_tostring(o1), ucl_object_tostring(o2)); } else { ret = o1->len - o2->len; } break; case UCL_FLOAT: case UCL_INT: case UCL_TIME: ret = ucl_object_todouble (o1) - ucl_object_todouble (o2); break; case UCL_BOOLEAN: ret = ucl_object_toboolean (o1) - ucl_object_toboolean (o2); break; case UCL_ARRAY: if (o1->len == o2->len && o1->len > 0) { UCL_ARRAY_GET (vec1, o1); UCL_ARRAY_GET (vec2, o2); unsigned i; /* Compare all elements in both arrays */ for (i = 0; i < vec1->n; i ++) { it1 = kv_A (*vec1, i); it2 = kv_A (*vec2, i); if (it1 == NULL && it2 != NULL) { return -1; } else if (it2 == NULL && it1 != NULL) { return 1; } else if (it1 != NULL && it2 != NULL) { ret = ucl_object_compare (it1, it2); if (ret != 0) { break; } } } } else { ret = o1->len - o2->len; } break; case UCL_OBJECT: if (o1->len == o2->len && o1->len > 0) { while ((it1 = ucl_iterate_object (o1, &iter, true)) != NULL) { it2 = ucl_object_find_key (o2, ucl_object_key (it1)); if (it2 == NULL) { ret = 1; break; } ret = ucl_object_compare (it1, it2); if (ret != 0) { break; } } } else { ret = o1->len - o2->len; } break; default: ret = 0; break; } return ret; } void ucl_object_array_sort (ucl_object_t *ar, int (*cmp)(const ucl_object_t **o1, const ucl_object_t **o2)) { UCL_ARRAY_GET (vec, ar); if (cmp == NULL || ar == NULL || ar->type != UCL_ARRAY) { return; } qsort (vec->a, vec->n, sizeof (ucl_object_t *), (int (*)(const void *, const void *))cmp); } #define PRIOBITS 4 unsigned int ucl_object_get_priority (const ucl_object_t *obj) { if (obj == NULL) { return 0; } return (obj->flags >> ((sizeof (obj->flags) * NBBY) - PRIOBITS)); } void ucl_object_set_priority (ucl_object_t *obj, unsigned int priority) { if (obj != NULL) { priority &= (0x1 << PRIOBITS) - 1; priority <<= ((sizeof (obj->flags) * NBBY) - PRIOBITS); priority |= obj->flags & ((1 << ((sizeof (obj->flags) * NBBY) - PRIOBITS)) - 1); obj->flags = priority; } } bool ucl_object_string_to_type (const char *input, ucl_type_t *res) { if (strcasecmp (input, "object") == 0) { *res = UCL_OBJECT; } else if (strcasecmp (input, "array") == 0) { *res = UCL_ARRAY; } else if (strcasecmp (input, "integer") == 0) { *res = UCL_INT; } else if (strcasecmp (input, "number") == 0) { *res = UCL_FLOAT; } else if (strcasecmp (input, "string") == 0) { *res = UCL_STRING; } else if (strcasecmp (input, "boolean") == 0) { *res = UCL_BOOLEAN; } else if (strcasecmp (input, "null") == 0) { *res = UCL_NULL; } else if (strcasecmp (input, "userdata") == 0) { *res = UCL_USERDATA; } else { return false; } return true; } const char * ucl_object_type_to_string (ucl_type_t type) { const char *res = "unknown"; switch (type) { case UCL_OBJECT: res = "object"; break; case UCL_ARRAY: res = "array"; break; case UCL_INT: res = "integer"; break; case UCL_FLOAT: case UCL_TIME: res = "number"; break; case UCL_STRING: res = "string"; break; case UCL_BOOLEAN: res = "boolean"; break; case UCL_USERDATA: res = "userdata"; break; case UCL_NULL: res = "null"; break; } return res; } const ucl_object_t * ucl_parser_get_comments (struct ucl_parser *parser) { if (parser && parser->comments) { return parser->comments; } return NULL; } const ucl_object_t * ucl_comments_find (const ucl_object_t *comments, const ucl_object_t *srch) { if (comments && srch) { return ucl_object_find_keyl (comments, (const char *)&srch, sizeof (void *)); } return NULL; }