/* * Copyright (c) 2009-2012 Petri Lehtinen * * Jansson is free software; you can redistribute it and/or modify * it under the terms of the MIT license. See LICENSE for details. */ #define _GNU_SOURCE #include #include #include #include #include #include #include "jansson.h" #include "jansson_private.h" #include "strbuffer.h" #include "utf.h" #define STREAM_STATE_OK 0 #define STREAM_STATE_EOF -1 #define STREAM_STATE_ERROR -2 #define TOKEN_INVALID -1 #define TOKEN_EOF 0 #define TOKEN_STRING 256 #define TOKEN_INTEGER 257 #define TOKEN_REAL 258 #define TOKEN_TRUE 259 #define TOKEN_FALSE 260 #define TOKEN_NULL 261 /* Locale independent versions of isxxx() functions */ #define l_isupper(c) ('A' <= (c) && (c) <= 'Z') #define l_islower(c) ('a' <= (c) && (c) <= 'z') #define l_isalpha(c) (l_isupper(c) || l_islower(c)) #define l_isdigit(c) ('0' <= (c) && (c) <= '9') #define l_isxdigit(c) \ (l_isdigit(c) || ('A' <= (c) && (c) <= 'F') || ('a' <= (c) && (c) <= 'f')) /* Read one byte from stream, convert to unsigned char, then int, and return. return EOF on end of file. This corresponds to the behaviour of fgetc(). */ typedef int (*get_func)(void *data); typedef struct { get_func get; void *data; char buffer[5]; size_t buffer_pos; int state; int line; int column, last_column; size_t position; } stream_t; typedef struct { stream_t stream; strbuffer_t saved_text; int token; union { char *string; json_int_t integer; double real; } value; } lex_t; #define stream_to_lex(stream) container_of(stream, lex_t, stream) /*** error reporting ***/ static void error_set(json_error_t *error, const lex_t *lex, const char *msg, ...) { va_list ap; char msg_text[JSON_ERROR_TEXT_LENGTH]; char msg_with_context[JSON_ERROR_TEXT_LENGTH]; int line = -1, col = -1; size_t pos = 0; const char *result = msg_text; if(!error) return; va_start(ap, msg); vsnprintf(msg_text, JSON_ERROR_TEXT_LENGTH, msg, ap); msg_text[JSON_ERROR_TEXT_LENGTH - 1] = '\0'; va_end(ap); if(lex) { const char *saved_text = strbuffer_value(&lex->saved_text); line = lex->stream.line; col = lex->stream.column; pos = lex->stream.position; if(saved_text && saved_text[0]) { if(lex->saved_text.length <= 20) { snprintf(msg_with_context, JSON_ERROR_TEXT_LENGTH, "%s near '%s'", msg_text, saved_text); msg_with_context[JSON_ERROR_TEXT_LENGTH - 1] = '\0'; result = msg_with_context; } } else { if(lex->stream.state == STREAM_STATE_ERROR) { /* No context for UTF-8 decoding errors */ result = msg_text; } else { snprintf(msg_with_context, JSON_ERROR_TEXT_LENGTH, "%s near end of file", msg_text); msg_with_context[JSON_ERROR_TEXT_LENGTH - 1] = '\0'; result = msg_with_context; } } } jsonp_error_set(error, line, col, pos, "%s", result); } /*** lexical analyzer ***/ static void stream_init(stream_t *stream, get_func get, void *data) { stream->get = get; stream->data = data; stream->buffer[0] = '\0'; stream->buffer_pos = 0; stream->state = STREAM_STATE_OK; stream->line = 1; stream->column = 0; stream->position = 0; } static int stream_get(stream_t *stream, json_error_t *error) { int c; if(stream->state != STREAM_STATE_OK) return stream->state; if(!stream->buffer[stream->buffer_pos]) { c = stream->get(stream->data); if(c == EOF) { stream->state = STREAM_STATE_EOF; return STREAM_STATE_EOF; } stream->buffer[0] = c; stream->buffer_pos = 0; if(0x80 <= c && c <= 0xFF) { /* multi-byte UTF-8 sequence */ int i, count; count = utf8_check_first(c); if(!count) goto out; assert(count >= 2); for(i = 1; i < count; i++) stream->buffer[i] = stream->get(stream->data); if(!utf8_check_full(stream->buffer, count, NULL)) goto out; stream->buffer[count] = '\0'; } else stream->buffer[1] = '\0'; } c = stream->buffer[stream->buffer_pos++]; stream->position++; if(c == '\n') { stream->line++; stream->last_column = stream->column; stream->column = 0; } else if(utf8_check_first(c)) { /* track the Unicode character column, so increment only if this is the first character of a UTF-8 sequence */ stream->column++; } return c; out: stream->state = STREAM_STATE_ERROR; error_set(error, stream_to_lex(stream), "unable to decode byte 0x%x", c); return STREAM_STATE_ERROR; } static void stream_unget(stream_t *stream, int c) { if(c == STREAM_STATE_EOF || c == STREAM_STATE_ERROR) return; stream->position--; if(c == '\n') { stream->line--; stream->column = stream->last_column; } else if(utf8_check_first(c)) stream->column--; assert(stream->buffer_pos > 0); stream->buffer_pos--; assert(stream->buffer[stream->buffer_pos] == c); } static int lex_get(lex_t *lex, json_error_t *error) { return stream_get(&lex->stream, error); } static void lex_save(lex_t *lex, int c) { strbuffer_append_byte(&lex->saved_text, c); } static int lex_get_save(lex_t *lex, json_error_t *error) { int c = stream_get(&lex->stream, error); if(c != STREAM_STATE_EOF && c != STREAM_STATE_ERROR) lex_save(lex, c); return c; } static void lex_unget(lex_t *lex, int c) { stream_unget(&lex->stream, c); } static void lex_unget_unsave(lex_t *lex, int c) { if(c != STREAM_STATE_EOF && c != STREAM_STATE_ERROR) { char d; stream_unget(&lex->stream, c); d = strbuffer_pop(&lex->saved_text); assert(c == d); } } static void lex_save_cached(lex_t *lex) { while(lex->stream.buffer[lex->stream.buffer_pos] != '\0') { lex_save(lex, lex->stream.buffer[lex->stream.buffer_pos]); lex->stream.buffer_pos++; lex->stream.position++; } } /* assumes that str points to 'u' plus at least 4 valid hex digits */ static int32_t decode_unicode_escape(const char *str) { int i; int32_t value = 0; assert(str[0] == 'u'); for(i = 1; i <= 4; i++) { char c = str[i]; value <<= 4; if(l_isdigit(c)) value += c - '0'; else if(l_islower(c)) value += c - 'a' + 10; else if(l_isupper(c)) value += c - 'A' + 10; else assert(0); } return value; } static void lex_scan_string(lex_t *lex, json_error_t *error) { int c; const char *p; char *t; int i; lex->value.string = NULL; lex->token = TOKEN_INVALID; c = lex_get_save(lex, error); while(c != '"') { if(c == STREAM_STATE_ERROR) goto out; else if(c == STREAM_STATE_EOF) { error_set(error, lex, "premature end of input"); goto out; } else if(0 <= c && c <= 0x1F) { /* control character */ lex_unget_unsave(lex, c); if(c == '\n') error_set(error, lex, "unexpected newline", c); else error_set(error, lex, "control character 0x%x", c); goto out; } else if(c == '\\') { c = lex_get_save(lex, error); if(c == 'u') { c = lex_get_save(lex, error); for(i = 0; i < 4; i++) { if(!l_isxdigit(c)) { error_set(error, lex, "invalid escape"); goto out; } c = lex_get_save(lex, error); } } else if(c == '"' || c == '\\' || c == '/' || c == 'b' || c == 'f' || c == 'n' || c == 'r' || c == 't') c = lex_get_save(lex, error); else { error_set(error, lex, "invalid escape"); goto out; } } else c = lex_get_save(lex, error); } /* the actual value is at most of the same length as the source string, because: - shortcut escapes (e.g. "\t") (length 2) are converted to 1 byte - a single \uXXXX escape (length 6) is converted to at most 3 bytes - two \uXXXX escapes (length 12) forming an UTF-16 surrogate pair are converted to 4 bytes */ lex->value.string = jsonp_malloc(lex->saved_text.length + 1); if(!lex->value.string) { /* this is not very nice, since TOKEN_INVALID is returned */ goto out; } /* the target */ t = lex->value.string; /* + 1 to skip the " */ p = strbuffer_value(&lex->saved_text) + 1; while(*p != '"') { if(*p == '\\') { p++; if(*p == 'u') { char buffer[4]; int length; int32_t value; value = decode_unicode_escape(p); p += 5; if(0xD800 <= value && value <= 0xDBFF) { /* surrogate pair */ if(*p == '\\' && *(p + 1) == 'u') { int32_t value2 = decode_unicode_escape(++p); p += 5; if(0xDC00 <= value2 && value2 <= 0xDFFF) { /* valid second surrogate */ value = ((value - 0xD800) << 10) + (value2 - 0xDC00) + 0x10000; } else { /* invalid second surrogate */ error_set(error, lex, "invalid Unicode '\\u%04X\\u%04X'", value, value2); goto out; } } else { /* no second surrogate */ error_set(error, lex, "invalid Unicode '\\u%04X'", value); goto out; } } else if(0xDC00 <= value && value <= 0xDFFF) { error_set(error, lex, "invalid Unicode '\\u%04X'", value); goto out; } else if(value == 0) { error_set(error, lex, "\\u0000 is not allowed"); goto out; } if(utf8_encode(value, buffer, &length)) assert(0); memcpy(t, buffer, length); t += length; } else { switch(*p) { case '"': case '\\': case '/': *t = *p; break; case 'b': *t = '\b'; break; case 'f': *t = '\f'; break; case 'n': *t = '\n'; break; case 'r': *t = '\r'; break; case 't': *t = '\t'; break; default: assert(0); } t++; p++; } } else *(t++) = *(p++); } *t = '\0'; lex->token = TOKEN_STRING; return; out: jsonp_free(lex->value.string); } #if JSON_INTEGER_IS_LONG_LONG #ifdef _MSC_VER // Microsoft Visual Studio #define json_strtoint _strtoi64 #else #define json_strtoint strtoll #endif #else #define json_strtoint strtol #endif static int lex_scan_number(lex_t *lex, int c, json_error_t *error) { const char *saved_text; char *end; double value; lex->token = TOKEN_INVALID; if(c == '-') c = lex_get_save(lex, error); if(c == '0') { c = lex_get_save(lex, error); if(l_isdigit(c)) { lex_unget_unsave(lex, c); goto out; } } else if(l_isdigit(c)) { c = lex_get_save(lex, error); while(l_isdigit(c)) c = lex_get_save(lex, error); } else { lex_unget_unsave(lex, c); goto out; } if(c != '.' && c != 'E' && c != 'e') { json_int_t value; lex_unget_unsave(lex, c); saved_text = strbuffer_value(&lex->saved_text); errno = 0; value = json_strtoint(saved_text, &end, 10); if(errno == ERANGE) { if(value < 0) error_set(error, lex, "too big negative integer"); else error_set(error, lex, "too big integer"); goto out; } assert(end == saved_text + lex->saved_text.length); lex->token = TOKEN_INTEGER; lex->value.integer = value; return 0; } if(c == '.') { c = lex_get(lex, error); if(!l_isdigit(c)) { lex_unget(lex, c); goto out; } lex_save(lex, c); c = lex_get_save(lex, error); while(l_isdigit(c)) c = lex_get_save(lex, error); } if(c == 'E' || c == 'e') { c = lex_get_save(lex, error); if(c == '+' || c == '-') c = lex_get_save(lex, error); if(!l_isdigit(c)) { lex_unget_unsave(lex, c); goto out; } c = lex_get_save(lex, error); while(l_isdigit(c)) c = lex_get_save(lex, error); } lex_unget_unsave(lex, c); if(jsonp_strtod(&lex->saved_text, &value)) { error_set(error, lex, "real number overflow"); goto out; } lex->token = TOKEN_REAL; lex->value.real = value; return 0; out: return -1; } static int lex_scan(lex_t *lex, json_error_t *error) { int c; strbuffer_clear(&lex->saved_text); if(lex->token == TOKEN_STRING) { jsonp_free(lex->value.string); lex->value.string = NULL; } c = lex_get(lex, error); while(c == ' ' || c == '\t' || c == '\n' || c == '\r') c = lex_get(lex, error); if(c == STREAM_STATE_EOF) { lex->token = TOKEN_EOF; goto out; } if(c == STREAM_STATE_ERROR) { lex->token = TOKEN_INVALID; goto out; } lex_save(lex, c); if(c == '{' || c == '}' || c == '[' || c == ']' || c == ':' || c == ',') lex->token = c; else if(c == '"') lex_scan_string(lex, error); else if(l_isdigit(c) || c == '-') { if(lex_scan_number(lex, c, error)) goto out; } else if(l_isalpha(c)) { /* eat up the whole identifier for clearer error messages */ const char *saved_text; c = lex_get_save(lex, error); while(l_isalpha(c)) c = lex_get_save(lex, error); lex_unget_unsave(lex, c); saved_text = strbuffer_value(&lex->saved_text); if(strcmp(saved_text, "true") == 0) lex->token = TOKEN_TRUE; else if(strcmp(saved_text, "false") == 0) lex->token = TOKEN_FALSE; else if(strcmp(saved_text, "null") == 0) lex->token = TOKEN_NULL; else lex->token = TOKEN_INVALID; } else { /* save the rest of the input UTF-8 sequence to get an error message of valid UTF-8 */ lex_save_cached(lex); lex->token = TOKEN_INVALID; } out: return lex->token; } static char *lex_steal_string(lex_t *lex) { char *result = NULL; if(lex->token == TOKEN_STRING) { result = lex->value.string; lex->value.string = NULL; } return result; } static int lex_init(lex_t *lex, get_func get, void *data) { stream_init(&lex->stream, get, data); if(strbuffer_init(&lex->saved_text)) return -1; lex->token = TOKEN_INVALID; return 0; } static void lex_close(lex_t *lex) { if(lex->token == TOKEN_STRING) jsonp_free(lex->value.string); strbuffer_close(&lex->saved_text); } /*** parser ***/ static json_t *parse_value(lex_t *lex, size_t flags, json_error_t *error); static json_t *parse_object(lex_t *lex, size_t flags, json_error_t *error) { json_t *object = json_object(); if(!object) return NULL; lex_scan(lex, error); if(lex->token == '}') return object; while(1) { char *key; json_t *value; if(lex->token != TOKEN_STRING) { error_set(error, lex, "string or '}' expected"); goto error; } key = lex_steal_string(lex); if(!key) return NULL; if(flags & JSON_REJECT_DUPLICATES) { if(json_object_get(object, key)) { jsonp_free(key); error_set(error, lex, "duplicate object key"); goto error; } } lex_scan(lex, error); if(lex->token != ':') { jsonp_free(key); error_set(error, lex, "':' expected"); goto error; } lex_scan(lex, error); value = parse_value(lex, flags, error); if(!value) { jsonp_free(key); goto error; } if(json_object_set_nocheck(object, key, value)) { jsonp_free(key); json_decref(value); goto error; } json_decref(value); jsonp_free(key); lex_scan(lex, error); if(lex->token != ',') break; lex_scan(lex, error); } if(lex->token != '}') { error_set(error, lex, "'}' expected"); goto error; } return object; error: json_decref(object); return NULL; } static json_t *parse_array(lex_t *lex, size_t flags, json_error_t *error) { json_t *array = json_array(); if(!array) return NULL; lex_scan(lex, error); if(lex->token == ']') return array; while(lex->token) { json_t *elem = parse_value(lex, flags, error); if(!elem) goto error; if(json_array_append(array, elem)) { json_decref(elem); goto error; } json_decref(elem); lex_scan(lex, error); if(lex->token != ',') break; lex_scan(lex, error); } if(lex->token != ']') { error_set(error, lex, "']' expected"); goto error; } return array; error: json_decref(array); return NULL; } static json_t *parse_value(lex_t *lex, size_t flags, json_error_t *error) { json_t *json; switch(lex->token) { case TOKEN_STRING: { json = json_string_nocheck(lex->value.string); break; } case TOKEN_INTEGER: { json = json_integer(lex->value.integer); break; } case TOKEN_REAL: { json = json_real(lex->value.real); break; } case TOKEN_TRUE: json = json_true(); break; case TOKEN_FALSE: json = json_false(); break; case TOKEN_NULL: json = json_null(); break; case '{': json = parse_object(lex, flags, error); break; case '[': json = parse_array(lex, flags, error); break; case TOKEN_INVALID: error_set(error, lex, "invalid token"); return NULL; default: error_set(error, lex, "unexpected token"); return NULL; } if(!json) return NULL; return json; } static json_t *parse_json(lex_t *lex, size_t flags, json_error_t *error) { json_t *result; lex_scan(lex, error); if(!(flags & JSON_DECODE_ANY)) { if(lex->token != '[' && lex->token != '{') { error_set(error, lex, "'[' or '{' expected"); return NULL; } } result = parse_value(lex, flags, error); if(!result) return NULL; if(!(flags & JSON_DISABLE_EOF_CHECK)) { lex_scan(lex, error); if(lex->token != TOKEN_EOF) { error_set(error, lex, "end of file expected"); json_decref(result); return NULL; } } if(error) { /* Save the position even though there was no error */ error->position = lex->stream.position; } return result; } typedef struct { const char *data; int pos; } string_data_t; static int string_get(void *data) { char c; string_data_t *stream = (string_data_t *)data; c = stream->data[stream->pos]; if(c == '\0') return EOF; else { stream->pos++; return (unsigned char)c; } } json_t *json_loads(const char *string, size_t flags, json_error_t *error) { lex_t lex; json_t *result; string_data_t stream_data; jsonp_error_init(error, ""); if (string == NULL) { error_set(error, NULL, "wrong arguments"); return NULL; } stream_data.data = string; stream_data.pos = 0; if(lex_init(&lex, string_get, (void *)&stream_data)) return NULL; result = parse_json(&lex, flags, error); lex_close(&lex); return result; } typedef struct { const char *data; size_t len; size_t pos; } buffer_data_t; static int buffer_get(void *data) { char c; buffer_data_t *stream = data; if(stream->pos >= stream->len) return EOF; c = stream->data[stream->pos]; stream->pos++; return (unsigned char)c; } json_t *json_loadb(const char *buffer, size_t buflen, size_t flags, json_error_t *error) { lex_t lex; json_t *result; buffer_data_t stream_data; jsonp_error_init(error, ""); if (buffer == NULL) { error_set(error, NULL, "wrong arguments"); return NULL; } stream_data.data = buffer; stream_data.pos = 0; stream_data.len = buflen; if(lex_init(&lex, buffer_get, (void *)&stream_data)) return NULL; result = parse_json(&lex, flags, error); lex_close(&lex); return result; } json_t *json_loadf(FILE *input, size_t flags, json_error_t *error) { lex_t lex; const char *source; json_t *result; if(input == stdin) source = ""; else source = ""; jsonp_error_init(error, source); if (input == NULL) { error_set(error, NULL, "wrong arguments"); return NULL; } if(lex_init(&lex, (get_func)fgetc, input)) return NULL; result = parse_json(&lex, flags, error); lex_close(&lex); return result; } json_t *json_load_file(const char *path, size_t flags, json_error_t *error) { json_t *result; FILE *fp; jsonp_error_init(error, path); if (path == NULL) { error_set(error, NULL, "wrong arguments"); return NULL; } fp = fopen(path, "rb"); if(!fp) { error_set(error, NULL, "unable to open %s: %s", path, strerror(errno)); return NULL; } result = json_loadf(fp, flags, error); fclose(fp); return result; } #define MAX_BUF_LEN 1024 typedef struct { char data[MAX_BUF_LEN]; size_t len; size_t pos; json_load_callback_t callback; void *arg; } callback_data_t; static int callback_get(void *data) { char c; callback_data_t *stream = data; if(stream->pos >= stream->len) { stream->pos = 0; stream->len = stream->callback(stream->data, MAX_BUF_LEN, stream->arg); if(stream->len == 0 || stream->len == (size_t)-1) return EOF; } c = stream->data[stream->pos]; stream->pos++; return (unsigned char)c; } json_t *json_load_callback(json_load_callback_t callback, void *arg, size_t flags, json_error_t *error) { lex_t lex; json_t *result; callback_data_t stream_data; memset(&stream_data, 0, sizeof(stream_data)); stream_data.callback = callback; stream_data.arg = arg; jsonp_error_init(error, ""); if (callback == NULL) { error_set(error, NULL, "wrong arguments"); return NULL; } if(lex_init(&lex, (get_func)callback_get, &stream_data)) return NULL; result = parse_json(&lex, flags, error); lex_close(&lex); return result; }