/* * $Id: json_tokener.c,v 1.20 2006/07/25 03:24:50 mclark Exp $ * * Copyright (c) 2004, 2005 Metaparadigm Pte. Ltd. * Michael Clark * * This library is free software; you can redistribute it and/or modify * it under the terms of the MIT license. See COPYING for details. * * * Copyright (c) 2008-2009 Yahoo! Inc. All rights reserved. * The copyrights to the contents of this file are licensed under the MIT License * (http://www.opensource.org/licenses/mit-license.php) */ #include "config.h" #include #include "math_compat.h" #include #include #include #include #include #include #include "debug.h" #include "printbuf.h" #include "arraylist.h" #include "json_inttypes.h" #include "json_object.h" #include "json_tokener.h" #include "json_util.h" #ifdef HAVE_LOCALE_H #include #endif /* HAVE_LOCALE_H */ #define jt_hexdigit(x) (((x) <= '9') ? (x) - '0' : ((x) & 7) + 9) #if !HAVE_STRDUP && defined(_MSC_VER) /* MSC has the version as _strdup */ # define strdup _strdup #elif !HAVE_STRDUP # error You do not have strdup on your system. #endif /* HAVE_STRDUP */ #if !HAVE_STRNCASECMP && defined(_MSC_VER) /* MSC has the version as _strnicmp */ # define strncasecmp _strnicmp #elif !HAVE_STRNCASECMP # error You do not have strncasecmp on your system. #endif /* HAVE_STRNCASECMP */ /* Use C99 NAN by default; if not available, nan("") should work too. */ #ifndef NAN #define NAN nan("") #endif /* !NAN */ static const char json_null_str[] = "null"; static const int json_null_str_len = sizeof(json_null_str) - 1; static const char json_inf_str[] = "Infinity"; static const int json_inf_str_len = sizeof(json_inf_str) - 1; static const char json_nan_str[] = "NaN"; static const int json_nan_str_len = sizeof(json_nan_str) - 1; static const char json_true_str[] = "true"; static const int json_true_str_len = sizeof(json_true_str) - 1; static const char json_false_str[] = "false"; static const int json_false_str_len = sizeof(json_false_str) - 1; static const char* json_tokener_errors[] = { "success", "continue", "nesting too deep", "unexpected end of data", "unexpected character", "null expected", "boolean expected", "number expected", "array value separator ',' expected", "quoted object property name expected", "object property name separator ':' expected", "object value separator ',' expected", "invalid string sequence", "expected comment", "buffer size overflow" }; const char *json_tokener_error_desc(enum json_tokener_error jerr) { int jerr_int = (int)jerr; if (jerr_int < 0 || jerr_int >= (int)(sizeof(json_tokener_errors) / sizeof(json_tokener_errors[0]))) return "Unknown error, invalid json_tokener_error value passed to json_tokener_error_desc()"; return json_tokener_errors[jerr]; } enum json_tokener_error json_tokener_get_error(json_tokener *tok) { return tok->err; } /* Stuff for decoding unicode sequences */ #define IS_HIGH_SURROGATE(uc) (((uc) & 0xFC00) == 0xD800) #define IS_LOW_SURROGATE(uc) (((uc) & 0xFC00) == 0xDC00) #define DECODE_SURROGATE_PAIR(hi,lo) ((((hi) & 0x3FF) << 10) + ((lo) & 0x3FF) + 0x10000) static unsigned char utf8_replacement_char[3] = { 0xEF, 0xBF, 0xBD }; struct json_tokener* json_tokener_new_ex(int depth) { struct json_tokener *tok; tok = (struct json_tokener*)calloc(1, sizeof(struct json_tokener)); if (!tok) return NULL; tok->stack = (struct json_tokener_srec *)calloc(depth, sizeof(struct json_tokener_srec)); if (!tok->stack) { free(tok); return NULL; } tok->pb = printbuf_new(); tok->max_depth = depth; json_tokener_reset(tok); return tok; } struct json_tokener* json_tokener_new(void) { return json_tokener_new_ex(JSON_TOKENER_DEFAULT_DEPTH); } void json_tokener_free(struct json_tokener *tok) { json_tokener_reset(tok); if (tok->pb) printbuf_free(tok->pb); if (tok->stack) free(tok->stack); free(tok); } static void json_tokener_reset_level(struct json_tokener *tok, int depth) { tok->stack[depth].state = json_tokener_state_eatws; tok->stack[depth].saved_state = json_tokener_state_start; json_object_put(tok->stack[depth].current); tok->stack[depth].current = NULL; free(tok->stack[depth].obj_field_name); tok->stack[depth].obj_field_name = NULL; } void json_tokener_reset(struct json_tokener *tok) { int i; if (!tok) return; for(i = tok->depth; i >= 0; i--) json_tokener_reset_level(tok, i); tok->depth = 0; tok->err = json_tokener_success; } struct json_object* json_tokener_parse(const char *str) { enum json_tokener_error jerr_ignored; struct json_object* obj; obj = json_tokener_parse_verbose(str, &jerr_ignored); return obj; } struct json_object* json_tokener_parse_verbose(const char *str, enum json_tokener_error *error) { struct json_tokener* tok; struct json_object* obj; tok = json_tokener_new(); if (!tok) return NULL; obj = json_tokener_parse_ex(tok, str, -1); *error = tok->err; if(tok->err != json_tokener_success) { if (obj != NULL) json_object_put(obj); obj = NULL; } json_tokener_free(tok); return obj; } #define state tok->stack[tok->depth].state #define saved_state tok->stack[tok->depth].saved_state #define current tok->stack[tok->depth].current #define obj_field_name tok->stack[tok->depth].obj_field_name /* Optimization: * json_tokener_parse_ex() consumed a lot of CPU in its main loop, * iterating character-by character. A large performance boost is * achieved by using tighter loops to locally handle units such as * comments and strings. Loops that handle an entire token within * their scope also gather entire strings and pass them to * printbuf_memappend() in a single call, rather than calling * printbuf_memappend() one char at a time. * * PEEK_CHAR() and ADVANCE_CHAR() macros are used for code that is * common to both the main loop and the tighter loops. */ /* PEEK_CHAR(dest, tok) macro: * Peeks at the current char and stores it in dest. * Returns 1 on success, sets tok->err and returns 0 if no more chars. * Implicit inputs: str, len vars */ #define PEEK_CHAR(dest, tok) \ (((tok)->char_offset == len) ? \ (((tok)->depth == 0 && state == json_tokener_state_eatws && saved_state == json_tokener_state_finish) ? \ (((tok)->err = json_tokener_success), 0) \ : \ (((tok)->err = json_tokener_continue), 0) \ ) : \ (((dest) = *str), 1) \ ) /* ADVANCE_CHAR() macro: * Incrementes str & tok->char_offset. * For convenience of existing conditionals, returns the old value of c (0 on eof) * Implicit inputs: c var */ #define ADVANCE_CHAR(str, tok) \ ( ++(str), ((tok)->char_offset)++, c) /* End optimization macro defs */ struct json_object* json_tokener_parse_ex(struct json_tokener *tok, const char *str, int len) { struct json_object *obj = NULL; char c = '\1'; #ifdef HAVE_SETLOCALE char *oldlocale=NULL, *tmplocale; tmplocale = setlocale(LC_NUMERIC, NULL); if (tmplocale) oldlocale = strdup(tmplocale); setlocale(LC_NUMERIC, "C"); #endif tok->char_offset = 0; tok->err = json_tokener_success; /* this interface is presently not 64-bit clean due to the int len argument and the internal printbuf interface that takes 32-bit int len arguments so the function limits the maximum string size to INT32_MAX (2GB). If the function is called with len == -1 then strlen is called to check the string length is less than INT32_MAX (2GB) */ if ((len < -1) || (len == -1 && strlen(str) > INT32_MAX)) { tok->err = json_tokener_error_size; return NULL; } while (PEEK_CHAR(c, tok)) { redo_char: switch(state) { case json_tokener_state_eatws: /* Advance until we change state */ while (isspace((int)c)) { if ((!ADVANCE_CHAR(str, tok)) || (!PEEK_CHAR(c, tok))) goto out; } if(c == '/' && !(tok->flags & JSON_TOKENER_STRICT)) { printbuf_reset(tok->pb); printbuf_memappend_fast(tok->pb, &c, 1); state = json_tokener_state_comment_start; } else { state = saved_state; goto redo_char; } break; case json_tokener_state_start: switch(c) { case '{': state = json_tokener_state_eatws; saved_state = json_tokener_state_object_field_start; current = json_object_new_object(); break; case '[': state = json_tokener_state_eatws; saved_state = json_tokener_state_array; current = json_object_new_array(); break; case 'I': case 'i': state = json_tokener_state_inf; printbuf_reset(tok->pb); tok->st_pos = 0; goto redo_char; case 'N': case 'n': state = json_tokener_state_null; // or NaN printbuf_reset(tok->pb); tok->st_pos = 0; goto redo_char; case '\'': if (tok->flags & JSON_TOKENER_STRICT) { /* in STRICT mode only double-quote are allowed */ tok->err = json_tokener_error_parse_unexpected; goto out; } case '"': state = json_tokener_state_string; printbuf_reset(tok->pb); tok->quote_char = c; break; case 'T': case 't': case 'F': case 'f': state = json_tokener_state_boolean; printbuf_reset(tok->pb); tok->st_pos = 0; goto redo_char; #if defined(__GNUC__) case '0' ... '9': #else case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': #endif case '-': state = json_tokener_state_number; printbuf_reset(tok->pb); tok->is_double = 0; goto redo_char; default: tok->err = json_tokener_error_parse_unexpected; goto out; } break; case json_tokener_state_finish: if(tok->depth == 0) goto out; obj = json_object_get(current); json_tokener_reset_level(tok, tok->depth); tok->depth--; goto redo_char; case json_tokener_state_inf: /* aka starts with 'i' */ { size_t size_inf; int is_negative = 0; printbuf_memappend_fast(tok->pb, &c, 1); size_inf = json_min(tok->st_pos+1, json_inf_str_len); char *infbuf = tok->pb->buf; if (*infbuf == '-') { infbuf++; is_negative = 1; } if ((!(tok->flags & JSON_TOKENER_STRICT) && strncasecmp(json_inf_str, infbuf, size_inf) == 0) || (strncmp(json_inf_str, infbuf, size_inf) == 0) ) { if (tok->st_pos == json_inf_str_len) { current = json_object_new_double(is_negative ? -INFINITY : INFINITY); saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } } else { tok->err = json_tokener_error_parse_unexpected; goto out; } tok->st_pos++; } break; case json_tokener_state_null: /* aka starts with 'n' */ { int size; int size_nan; printbuf_memappend_fast(tok->pb, &c, 1); size = json_min(tok->st_pos+1, json_null_str_len); size_nan = json_min(tok->st_pos+1, json_nan_str_len); if((!(tok->flags & JSON_TOKENER_STRICT) && strncasecmp(json_null_str, tok->pb->buf, size) == 0) || (strncmp(json_null_str, tok->pb->buf, size) == 0) ) { if (tok->st_pos == json_null_str_len) { current = NULL; saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } } else if ((!(tok->flags & JSON_TOKENER_STRICT) && strncasecmp(json_nan_str, tok->pb->buf, size_nan) == 0) || (strncmp(json_nan_str, tok->pb->buf, size_nan) == 0) ) { if (tok->st_pos == json_nan_str_len) { current = json_object_new_double(NAN); saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } } else { tok->err = json_tokener_error_parse_null; goto out; } tok->st_pos++; } break; case json_tokener_state_comment_start: if(c == '*') { state = json_tokener_state_comment; } else if(c == '/') { state = json_tokener_state_comment_eol; } else { tok->err = json_tokener_error_parse_comment; goto out; } printbuf_memappend_fast(tok->pb, &c, 1); break; case json_tokener_state_comment: { /* Advance until we change state */ const char *case_start = str; while(c != '*') { if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); goto out; } } printbuf_memappend_fast(tok->pb, case_start, 1+str-case_start); state = json_tokener_state_comment_end; } break; case json_tokener_state_comment_eol: { /* Advance until we change state */ const char *case_start = str; while(c != '\n') { if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); goto out; } } printbuf_memappend_fast(tok->pb, case_start, str-case_start); MC_DEBUG("json_tokener_comment: %s\n", tok->pb->buf); state = json_tokener_state_eatws; } break; case json_tokener_state_comment_end: printbuf_memappend_fast(tok->pb, &c, 1); if(c == '/') { MC_DEBUG("json_tokener_comment: %s\n", tok->pb->buf); state = json_tokener_state_eatws; } else { state = json_tokener_state_comment; } break; case json_tokener_state_string: { /* Advance until we change state */ const char *case_start = str; while(1) { if(c == tok->quote_char) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); current = json_object_new_string_len(tok->pb->buf, tok->pb->bpos); saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; break; } else if(c == '\\') { printbuf_memappend_fast(tok->pb, case_start, str-case_start); saved_state = json_tokener_state_string; state = json_tokener_state_string_escape; break; } if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); goto out; } } } break; case json_tokener_state_string_escape: switch(c) { case '"': case '\\': case '/': printbuf_memappend_fast(tok->pb, &c, 1); state = saved_state; break; case 'b': case 'n': case 'r': case 't': case 'f': if(c == 'b') printbuf_memappend_fast(tok->pb, "\b", 1); else if(c == 'n') printbuf_memappend_fast(tok->pb, "\n", 1); else if(c == 'r') printbuf_memappend_fast(tok->pb, "\r", 1); else if(c == 't') printbuf_memappend_fast(tok->pb, "\t", 1); else if(c == 'f') printbuf_memappend_fast(tok->pb, "\f", 1); state = saved_state; break; case 'u': tok->ucs_char = 0; tok->st_pos = 0; state = json_tokener_state_escape_unicode; break; default: tok->err = json_tokener_error_parse_string; goto out; } break; case json_tokener_state_escape_unicode: { unsigned int got_hi_surrogate = 0; /* Handle a 4-byte sequence, or two sequences if a surrogate pair */ while(1) { if(strchr(json_hex_chars, c)) { tok->ucs_char += ((unsigned int)jt_hexdigit(c) << ((3-tok->st_pos++)*4)); if(tok->st_pos == 4) { unsigned char unescaped_utf[4]; if (got_hi_surrogate) { if (IS_LOW_SURROGATE(tok->ucs_char)) { /* Recalculate the ucs_char, then fall thru to process normally */ tok->ucs_char = DECODE_SURROGATE_PAIR(got_hi_surrogate, tok->ucs_char); } else { /* Hi surrogate was not followed by a low surrogate */ /* Replace the hi and process the rest normally */ printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); } got_hi_surrogate = 0; } if (tok->ucs_char < 0x80) { unescaped_utf[0] = tok->ucs_char; printbuf_memappend_fast(tok->pb, (char*)unescaped_utf, 1); } else if (tok->ucs_char < 0x800) { unescaped_utf[0] = 0xc0 | (tok->ucs_char >> 6); unescaped_utf[1] = 0x80 | (tok->ucs_char & 0x3f); printbuf_memappend_fast(tok->pb, (char*)unescaped_utf, 2); } else if (IS_HIGH_SURROGATE(tok->ucs_char)) { /* Got a high surrogate. Remember it and look for the * the beginning of another sequence, which should be the * low surrogate. */ got_hi_surrogate = tok->ucs_char; /* Not at end, and the next two chars should be "\u" */ if ((tok->char_offset+1 != len) && (tok->char_offset+2 != len) && (str[1] == '\\') && (str[2] == 'u')) { /* Advance through the 16 bit surrogate, and move on to the * next sequence. The next step is to process the following * characters. */ if( !ADVANCE_CHAR(str, tok) || !ADVANCE_CHAR(str, tok) ) { printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); } /* Advance to the first char of the next sequence and * continue processing with the next sequence. */ if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); goto out; } tok->ucs_char = 0; tok->st_pos = 0; continue; /* other json_tokener_state_escape_unicode */ } else { /* Got a high surrogate without another sequence following * it. Put a replacement char in for the hi surrogate * and pretend we finished. */ printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); } } else if (IS_LOW_SURROGATE(tok->ucs_char)) { /* Got a low surrogate not preceded by a high */ printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); } else if (tok->ucs_char < 0x10000) { unescaped_utf[0] = 0xe0 | (tok->ucs_char >> 12); unescaped_utf[1] = 0x80 | ((tok->ucs_char >> 6) & 0x3f); unescaped_utf[2] = 0x80 | (tok->ucs_char & 0x3f); printbuf_memappend_fast(tok->pb, (char*)unescaped_utf, 3); } else if (tok->ucs_char < 0x110000) { unescaped_utf[0] = 0xf0 | ((tok->ucs_char >> 18) & 0x07); unescaped_utf[1] = 0x80 | ((tok->ucs_char >> 12) & 0x3f); unescaped_utf[2] = 0x80 | ((tok->ucs_char >> 6) & 0x3f); unescaped_utf[3] = 0x80 | (tok->ucs_char & 0x3f); printbuf_memappend_fast(tok->pb, (char*)unescaped_utf, 4); } else { /* Don't know what we got--insert the replacement char */ printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); } state = saved_state; break; } } else { tok->err = json_tokener_error_parse_string; goto out; } if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { if (got_hi_surrogate) /* Clean up any pending chars */ printbuf_memappend_fast(tok->pb, (char*)utf8_replacement_char, 3); goto out; } } } break; case json_tokener_state_boolean: { int size1, size2; printbuf_memappend_fast(tok->pb, &c, 1); size1 = json_min(tok->st_pos+1, json_true_str_len); size2 = json_min(tok->st_pos+1, json_false_str_len); if((!(tok->flags & JSON_TOKENER_STRICT) && strncasecmp(json_true_str, tok->pb->buf, size1) == 0) || (strncmp(json_true_str, tok->pb->buf, size1) == 0) ) { if(tok->st_pos == json_true_str_len) { current = json_object_new_boolean(1); saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } } else if((!(tok->flags & JSON_TOKENER_STRICT) && strncasecmp(json_false_str, tok->pb->buf, size2) == 0) || (strncmp(json_false_str, tok->pb->buf, size2) == 0)) { if(tok->st_pos == json_false_str_len) { current = json_object_new_boolean(0); saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } } else { tok->err = json_tokener_error_parse_boolean; goto out; } tok->st_pos++; } break; case json_tokener_state_number: { /* Advance until we change state */ const char *case_start = str; int case_len=0; int is_exponent=0; int negativesign_next_possible_location=1; while(c && strchr(json_number_chars, c)) { ++case_len; /* non-digit characters checks */ /* note: since the main loop condition to get here was an input starting with 0-9 or '-', we are protected from input starting with '.' or e/E. */ if (c == '.') { if (tok->is_double != 0) { /* '.' can only be found once, and out of the exponent part. Thus, if the input is already flagged as double, it is invalid. */ tok->err = json_tokener_error_parse_number; goto out; } tok->is_double = 1; } if (c == 'e' || c == 'E') { if (is_exponent != 0) { /* only one exponent possible */ tok->err = json_tokener_error_parse_number; goto out; } is_exponent = 1; tok->is_double = 1; /* the exponent part can begin with a negative sign */ negativesign_next_possible_location = case_len + 1; } if (c == '-' && case_len != negativesign_next_possible_location) { /* If the negative sign is not where expected (ie start of input or start of exponent part), the input is invalid. */ tok->err = json_tokener_error_parse_number; goto out; } if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, case_start, case_len); goto out; } } if (case_len>0) printbuf_memappend_fast(tok->pb, case_start, case_len); // Check for -Infinity if (tok->pb->buf[0] == '-' && case_len == 1 && (c == 'i' || c == 'I')) { state = json_tokener_state_inf; goto redo_char; } } { int64_t num64; double numd; if (!tok->is_double && json_parse_int64(tok->pb->buf, &num64) == 0) { if (num64 && tok->pb->buf[0]=='0' && (tok->flags & JSON_TOKENER_STRICT)) { /* in strict mode, number must not start with 0 */ tok->err = json_tokener_error_parse_number; goto out; } current = json_object_new_int64(num64); } else if(tok->is_double && json_parse_double(tok->pb->buf, &numd) == 0) { current = json_object_new_double_s(numd, tok->pb->buf); } else { tok->err = json_tokener_error_parse_number; goto out; } saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; goto redo_char; } break; case json_tokener_state_array_after_sep: case json_tokener_state_array: if(c == ']') { if (state == json_tokener_state_array_after_sep && (tok->flags & JSON_TOKENER_STRICT)) { tok->err = json_tokener_error_parse_unexpected; goto out; } saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; } else { if(tok->depth >= tok->max_depth-1) { tok->err = json_tokener_error_depth; goto out; } state = json_tokener_state_array_add; tok->depth++; json_tokener_reset_level(tok, tok->depth); goto redo_char; } break; case json_tokener_state_array_add: json_object_array_add(current, obj); saved_state = json_tokener_state_array_sep; state = json_tokener_state_eatws; goto redo_char; case json_tokener_state_array_sep: if(c == ']') { saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; } else if(c == ',') { saved_state = json_tokener_state_array_after_sep; state = json_tokener_state_eatws; } else { tok->err = json_tokener_error_parse_array; goto out; } break; case json_tokener_state_object_field_start: case json_tokener_state_object_field_start_after_sep: if(c == '}') { if (state == json_tokener_state_object_field_start_after_sep && (tok->flags & JSON_TOKENER_STRICT)) { tok->err = json_tokener_error_parse_unexpected; goto out; } saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; } else if (c == '"' || c == '\'') { tok->quote_char = c; printbuf_reset(tok->pb); state = json_tokener_state_object_field; } else { tok->err = json_tokener_error_parse_object_key_name; goto out; } break; case json_tokener_state_object_field: { /* Advance until we change state */ const char *case_start = str; while(1) { if(c == tok->quote_char) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); obj_field_name = strdup(tok->pb->buf); saved_state = json_tokener_state_object_field_end; state = json_tokener_state_eatws; break; } else if(c == '\\') { printbuf_memappend_fast(tok->pb, case_start, str-case_start); saved_state = json_tokener_state_object_field; state = json_tokener_state_string_escape; break; } if (!ADVANCE_CHAR(str, tok) || !PEEK_CHAR(c, tok)) { printbuf_memappend_fast(tok->pb, case_start, str-case_start); goto out; } } } break; case json_tokener_state_object_field_end: if(c == ':') { saved_state = json_tokener_state_object_value; state = json_tokener_state_eatws; } else { tok->err = json_tokener_error_parse_object_key_sep; goto out; } break; case json_tokener_state_object_value: if(tok->depth >= tok->max_depth-1) { tok->err = json_tokener_error_depth; goto out; } state = json_tokener_state_object_value_add; tok->depth++; json_tokener_reset_level(tok, tok->depth); goto redo_char; case json_tokener_state_object_value_add: json_object_object_add(current, obj_field_name, obj); free(obj_field_name); obj_field_name = NULL; saved_state = json_tokener_state_object_sep; state = json_tokener_state_eatws; goto redo_char; case json_tokener_state_object_sep: if(c == '}') { saved_state = json_tokener_state_finish; state = json_tokener_state_eatws; } else if(c == ',') { saved_state = json_tokener_state_object_field_start_after_sep; state = json_tokener_state_eatws; } else { tok->err = json_tokener_error_parse_object_value_sep; goto out; } break; } if (!ADVANCE_CHAR(str, tok)) goto out; } /* while(POP_CHAR) */ out: if (c && (state == json_tokener_state_finish) && (tok->depth == 0) && (tok->flags & JSON_TOKENER_STRICT)) { /* unexpected char after JSON data */ tok->err = json_tokener_error_parse_unexpected; } if (!c) { /* We hit an eof char (0) */ if(state != json_tokener_state_finish && saved_state != json_tokener_state_finish) tok->err = json_tokener_error_parse_eof; } #ifdef HAVE_SETLOCALE setlocale(LC_NUMERIC, oldlocale); if (oldlocale) free(oldlocale); #endif if (tok->err == json_tokener_success) { json_object *ret = json_object_get(current); int ii; /* Partially reset, so we parse additional objects on subsequent calls. */ for(ii = tok->depth; ii >= 0; ii--) json_tokener_reset_level(tok, ii); return ret; } MC_DEBUG("json_tokener_parse_ex: error %s at offset %d\n", json_tokener_errors[tok->err], tok->char_offset); return NULL; } void json_tokener_set_flags(struct json_tokener *tok, int flags) { tok->flags = flags; }