/* * $Id: json_object.c,v 1.17 2006/07/25 03:24:50 mclark Exp $ * * Copyright (c) 2004, 2005 Metaparadigm Pte. Ltd. * Michael Clark <michael@metaparadigm.com> * Copyright (c) 2009 Hewlett-Packard Development Company, L.P. * * This library is free software; you can redistribute it and/or modify * it under the terms of the MIT license. See COPYING for details. * */ #include "config.h" #include <stdio.h> #include <stdlib.h> #include <stddef.h> #include <string.h> #include <math.h> #include <errno.h> #include "debug.h" #include "printbuf.h" #include "linkhash.h" #include "arraylist.h" #include "json_inttypes.h" #include "json_object.h" #include "json_object_private.h" #include "json_util.h" #include "math_compat.h" #if !defined(HAVE_STRDUP) && defined(_MSC_VER) /* MSC has the version as _strdup */ # define strdup _strdup #elif !defined(HAVE_STRDUP) # error You do not have strdup on your system. #endif /* HAVE_STRDUP */ #if !defined(HAVE_SNPRINTF) && defined(_MSC_VER) /* MSC has the version as _snprintf */ # define snprintf _snprintf #elif !defined(HAVE_SNPRINTF) # error You do not have snprintf on your system. #endif /* HAVE_SNPRINTF */ // Don't define this. It's not thread-safe. /* #define REFCOUNT_DEBUG 1 */ const char *json_number_chars = "0123456789.+-eE"; const char *json_hex_chars = "0123456789abcdefABCDEF"; static void json_object_generic_delete(struct json_object* jso); static struct json_object* json_object_new(enum json_type o_type); static json_object_to_json_string_fn json_object_object_to_json_string; static json_object_to_json_string_fn json_object_boolean_to_json_string; static json_object_to_json_string_fn json_object_int_to_json_string; static json_object_to_json_string_fn json_object_double_to_json_string; static json_object_to_json_string_fn json_object_string_to_json_string; static json_object_to_json_string_fn json_object_array_to_json_string; /* ref count debugging */ #ifdef REFCOUNT_DEBUG static struct lh_table *json_object_table; static void json_object_init(void) __attribute__ ((constructor)); static void json_object_init(void) { MC_DEBUG("json_object_init: creating object table\n"); json_object_table = lh_kptr_table_new(128, "json_object_table", NULL); } static void json_object_fini(void) __attribute__ ((destructor)); static void json_object_fini(void) { struct lh_entry *ent; if (MC_GET_DEBUG()) { if (json_object_table->count) { MC_DEBUG("json_object_fini: %d referenced objects at exit\n", json_object_table->count); lh_foreach(json_object_table, ent) { struct json_object* obj = (struct json_object*)ent->v; MC_DEBUG("\t%s:%p\n", json_type_to_name(obj->o_type), obj); } } } MC_DEBUG("json_object_fini: freeing object table\n"); lh_table_free(json_object_table); } #endif /* REFCOUNT_DEBUG */ /* string escaping */ static int json_escape_str(struct printbuf *pb, char *str, int len) { int pos = 0, start_offset = 0; unsigned char c; while (len--) { c = str[pos]; switch(c) { case '\b': case '\n': case '\r': case '\t': case '\f': case '"': case '\\': case '/': if(pos - start_offset > 0) printbuf_memappend(pb, str + start_offset, pos - start_offset); if(c == '\b') printbuf_memappend(pb, "\\b", 2); else if(c == '\n') printbuf_memappend(pb, "\\n", 2); else if(c == '\r') printbuf_memappend(pb, "\\r", 2); else if(c == '\t') printbuf_memappend(pb, "\\t", 2); else if(c == '\f') printbuf_memappend(pb, "\\f", 2); else if(c == '"') printbuf_memappend(pb, "\\\"", 2); else if(c == '\\') printbuf_memappend(pb, "\\\\", 2); else if(c == '/') printbuf_memappend(pb, "\\/", 2); start_offset = ++pos; break; default: if(c < ' ') { if(pos - start_offset > 0) printbuf_memappend(pb, str + start_offset, pos - start_offset); sprintbuf(pb, "\\u00%c%c", json_hex_chars[c >> 4], json_hex_chars[c & 0xf]); start_offset = ++pos; } else pos++; } } if (pos - start_offset > 0) printbuf_memappend(pb, str + start_offset, pos - start_offset); return 0; } /* reference counting */ extern struct json_object* json_object_get(struct json_object *jso) { if (jso) jso->_ref_count++; return jso; } int json_object_put(struct json_object *jso) { if(jso) { jso->_ref_count--; if(!jso->_ref_count) { if (jso->_user_delete) jso->_user_delete(jso, jso->_userdata); jso->_delete(jso); return 1; } } return 0; } /* generic object construction and destruction parts */ static void json_object_generic_delete(struct json_object* jso) { #ifdef REFCOUNT_DEBUG MC_DEBUG("json_object_delete_%s: %p\n", json_type_to_name(jso->o_type), jso); lh_table_delete(json_object_table, jso); #endif /* REFCOUNT_DEBUG */ printbuf_free(jso->_pb); free(jso); } static struct json_object* json_object_new(enum json_type o_type) { struct json_object *jso; jso = (struct json_object*)calloc(sizeof(struct json_object), 1); if (!jso) return NULL; jso->o_type = o_type; jso->_ref_count = 1; jso->_delete = &json_object_generic_delete; #ifdef REFCOUNT_DEBUG lh_table_insert(json_object_table, jso, jso); MC_DEBUG("json_object_new_%s: %p\n", json_type_to_name(jso->o_type), jso); #endif /* REFCOUNT_DEBUG */ return jso; } /* type checking functions */ int json_object_is_type(struct json_object *jso, enum json_type type) { if (!jso) return (type == json_type_null); return (jso->o_type == type); } enum json_type json_object_get_type(struct json_object *jso) { if (!jso) return json_type_null; return jso->o_type; } /* set a custom conversion to string */ void json_object_set_serializer(json_object *jso, json_object_to_json_string_fn to_string_func, void *userdata, json_object_delete_fn *user_delete) { // First, clean up any previously existing user info if (jso->_user_delete) { jso->_user_delete(jso, jso->_userdata); } jso->_userdata = NULL; jso->_user_delete = NULL; if (to_string_func == NULL) { // Reset to the standard serialization function switch(jso->o_type) { case json_type_null: jso->_to_json_string = NULL; break; case json_type_boolean: jso->_to_json_string = &json_object_boolean_to_json_string; break; case json_type_double: jso->_to_json_string = &json_object_double_to_json_string; break; case json_type_int: jso->_to_json_string = &json_object_int_to_json_string; break; case json_type_object: jso->_to_json_string = &json_object_object_to_json_string; break; case json_type_array: jso->_to_json_string = &json_object_array_to_json_string; break; case json_type_string: jso->_to_json_string = &json_object_string_to_json_string; break; } return; } jso->_to_json_string = to_string_func; jso->_userdata = userdata; jso->_user_delete = user_delete; } /* extended conversion to string */ const char* json_object_to_json_string_ext(struct json_object *jso, int flags) { if (!jso) return "null"; if ((!jso->_pb) && !(jso->_pb = printbuf_new())) return NULL; printbuf_reset(jso->_pb); if(jso->_to_json_string(jso, jso->_pb, 0, flags) < 0) return NULL; return jso->_pb->buf; } /* backwards-compatible conversion to string */ const char* json_object_to_json_string(struct json_object *jso) { return json_object_to_json_string_ext(jso, JSON_C_TO_STRING_SPACED); } static void indent(struct printbuf *pb, int level, int flags) { if (flags & JSON_C_TO_STRING_PRETTY) { printbuf_memset(pb, -1, ' ', level * 2); } } /* json_object_object */ static int json_object_object_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { int had_children = 0; struct json_object_iter iter; sprintbuf(pb, "{" /*}*/); if (flags & JSON_C_TO_STRING_PRETTY) sprintbuf(pb, "\n"); json_object_object_foreachC(jso, iter) { if (had_children) { sprintbuf(pb, ","); if (flags & JSON_C_TO_STRING_PRETTY) sprintbuf(pb, "\n"); } had_children = 1; if (flags & JSON_C_TO_STRING_SPACED) sprintbuf(pb, " "); indent(pb, level+1, flags); sprintbuf(pb, "\""); json_escape_str(pb, iter.key, strlen(iter.key)); if (flags & JSON_C_TO_STRING_SPACED) sprintbuf(pb, "\": "); else sprintbuf(pb, "\":"); if(iter.val == NULL) sprintbuf(pb, "null"); else iter.val->_to_json_string(iter.val, pb, level+1,flags); } if (flags & JSON_C_TO_STRING_PRETTY) { if (had_children) sprintbuf(pb, "\n"); indent(pb,level,flags); } if (flags & JSON_C_TO_STRING_SPACED) return sprintbuf(pb, /*{*/ " }"); else return sprintbuf(pb, /*{*/ "}"); } static void json_object_lh_entry_free(struct lh_entry *ent) { free(ent->k); json_object_put((struct json_object*)ent->v); } static void json_object_object_delete(struct json_object* jso) { lh_table_free(jso->o.c_object); json_object_generic_delete(jso); } struct json_object* json_object_new_object(void) { struct json_object *jso = json_object_new(json_type_object); if (!jso) return NULL; jso->_delete = &json_object_object_delete; jso->_to_json_string = &json_object_object_to_json_string; jso->o.c_object = lh_kchar_table_new(JSON_OBJECT_DEF_HASH_ENTRIES, NULL, &json_object_lh_entry_free); if (!jso->o.c_object) { json_object_generic_delete(jso); errno = ENOMEM; return NULL; } return jso; } struct lh_table* json_object_get_object(struct json_object *jso) { if (!jso) return NULL; switch(jso->o_type) { case json_type_object: return jso->o.c_object; default: return NULL; } } void json_object_object_add(struct json_object* jso, const char *key, struct json_object *val) { // We lookup the entry and replace the value, rather than just deleting // and re-adding it, so the existing key remains valid. json_object *existing_value = NULL; struct lh_entry *existing_entry; existing_entry = lh_table_lookup_entry(jso->o.c_object, (void*)key); if (!existing_entry) { lh_table_insert(jso->o.c_object, strdup(key), val); return; } existing_value = (void *)existing_entry->v; if (existing_value) json_object_put(existing_value); existing_entry->v = val; } int json_object_object_length(struct json_object *jso) { return lh_table_length(jso->o.c_object); } struct json_object* json_object_object_get(struct json_object* jso, const char *key) { struct json_object *result = NULL; json_object_object_get_ex(jso, key, &result); return result; } json_bool json_object_object_get_ex(struct json_object* jso, const char *key, struct json_object **value) { if (value != NULL) *value = NULL; if (NULL == jso) return FALSE; switch(jso->o_type) { case json_type_object: return lh_table_lookup_ex(jso->o.c_object, (void*)key, (void**)value); default: if (value != NULL) *value = NULL; return FALSE; } } void json_object_object_del(struct json_object* jso, const char *key) { lh_table_delete(jso->o.c_object, key); } /* json_object_boolean */ static int json_object_boolean_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { if (jso->o.c_boolean) return sprintbuf(pb, "true"); else return sprintbuf(pb, "false"); } struct json_object* json_object_new_boolean(json_bool b) { struct json_object *jso = json_object_new(json_type_boolean); if (!jso) return NULL; jso->_to_json_string = &json_object_boolean_to_json_string; jso->o.c_boolean = b; return jso; } json_bool json_object_get_boolean(struct json_object *jso) { if (!jso) return FALSE; switch(jso->o_type) { case json_type_boolean: return jso->o.c_boolean; case json_type_int: return (jso->o.c_int64 != 0); case json_type_double: return (jso->o.c_double != 0); case json_type_string: return (jso->o.c_string.len != 0); default: return FALSE; } } /* json_object_int */ static int json_object_int_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { return sprintbuf(pb, "%"PRId64, jso->o.c_int64); } struct json_object* json_object_new_int(int32_t i) { struct json_object *jso = json_object_new(json_type_int); if (!jso) return NULL; jso->_to_json_string = &json_object_int_to_json_string; jso->o.c_int64 = i; return jso; } int32_t json_object_get_int(struct json_object *jso) { int64_t cint64; enum json_type o_type; if(!jso) return 0; o_type = jso->o_type; cint64 = jso->o.c_int64; if (o_type == json_type_string) { /* * Parse strings into 64-bit numbers, then use the * 64-to-32-bit number handling below. */ if (json_parse_int64(jso->o.c_string.str, &cint64) != 0) return 0; /* whoops, it didn't work. */ o_type = json_type_int; } switch(o_type) { case json_type_int: /* Make sure we return the correct values for out of range numbers. */ if (cint64 <= INT32_MIN) return INT32_MIN; else if (cint64 >= INT32_MAX) return INT32_MAX; else return (int32_t)cint64; case json_type_double: return (int32_t)jso->o.c_double; case json_type_boolean: return jso->o.c_boolean; default: return 0; } } struct json_object* json_object_new_int64(int64_t i) { struct json_object *jso = json_object_new(json_type_int); if (!jso) return NULL; jso->_to_json_string = &json_object_int_to_json_string; jso->o.c_int64 = i; return jso; } int64_t json_object_get_int64(struct json_object *jso) { int64_t cint; if (!jso) return 0; switch(jso->o_type) { case json_type_int: return jso->o.c_int64; case json_type_double: return (int64_t)jso->o.c_double; case json_type_boolean: return jso->o.c_boolean; case json_type_string: if (json_parse_int64(jso->o.c_string.str, &cint) == 0) return cint; default: return 0; } } /* json_object_double */ static int json_object_double_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { char buf[128], *p, *q; int size; /* Although JSON RFC does not support NaN or Infinity as numeric values ECMA 262 section 9.8.1 defines how to handle these cases as strings */ if(isnan(jso->o.c_double)) size = snprintf(buf, sizeof(buf), "NaN"); else if(isinf(jso->o.c_double)) if(jso->o.c_double > 0) size = snprintf(buf, sizeof(buf), "Infinity"); else size = snprintf(buf, sizeof(buf), "-Infinity"); else size = snprintf(buf, sizeof(buf), "%.17g", jso->o.c_double); p = strchr(buf, ','); if (p) { *p = '.'; } else { p = strchr(buf, '.'); } if (p && (flags & JSON_C_TO_STRING_NOZERO)) { /* last useful digit, always keep 1 zero */ p++; for (q=p ; *q ; q++) { if (*q!='0') p=q; } /* drop trailing zeroes */ *(++p) = 0; size = p-buf; } printbuf_memappend(pb, buf, size); return size; } struct json_object* json_object_new_double(double d) { struct json_object *jso = json_object_new(json_type_double); if (!jso) return NULL; jso->_to_json_string = &json_object_double_to_json_string; jso->o.c_double = d; return jso; } struct json_object* json_object_new_double_s(double d, const char *ds) { struct json_object *jso = json_object_new_double(d); if (!jso) return NULL; char *new_ds = strdup(ds); if (!new_ds) { json_object_generic_delete(jso); errno = ENOMEM; return NULL; } json_object_set_serializer(jso, json_object_userdata_to_json_string, new_ds, json_object_free_userdata); return jso; } int json_object_userdata_to_json_string(struct json_object *jso, struct printbuf *pb, int level, int flags) { int userdata_len = strlen(jso->_userdata); printbuf_memappend(pb, jso->_userdata, userdata_len); return userdata_len; } void json_object_free_userdata(struct json_object *jso, void *userdata) { free(userdata); } double json_object_get_double(struct json_object *jso) { double cdouble; char *errPtr = NULL; if(!jso) return 0.0; switch(jso->o_type) { case json_type_double: return jso->o.c_double; case json_type_int: return jso->o.c_int64; case json_type_boolean: return jso->o.c_boolean; case json_type_string: errno = 0; cdouble = strtod(jso->o.c_string.str,&errPtr); /* if conversion stopped at the first character, return 0.0 */ if (errPtr == jso->o.c_string.str) return 0.0; /* * Check that the conversion terminated on something sensible * * For example, { "pay" : 123AB } would parse as 123. */ if (*errPtr != '\0') return 0.0; /* * If strtod encounters a string which would exceed the * capacity of a double, it returns +/- HUGE_VAL and sets * errno to ERANGE. But +/- HUGE_VAL is also a valid result * from a conversion, so we need to check errno. * * Underflow also sets errno to ERANGE, but it returns 0 in * that case, which is what we will return anyway. * * See CERT guideline ERR30-C */ if ((HUGE_VAL == cdouble || -HUGE_VAL == cdouble) && (ERANGE == errno)) cdouble = 0.0; return cdouble; default: return 0.0; } } /* json_object_string */ static int json_object_string_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { sprintbuf(pb, "\""); json_escape_str(pb, jso->o.c_string.str, jso->o.c_string.len); sprintbuf(pb, "\""); return 0; } static void json_object_string_delete(struct json_object* jso) { free(jso->o.c_string.str); json_object_generic_delete(jso); } struct json_object* json_object_new_string(const char *s) { struct json_object *jso = json_object_new(json_type_string); if (!jso) return NULL; jso->_delete = &json_object_string_delete; jso->_to_json_string = &json_object_string_to_json_string; jso->o.c_string.str = strdup(s); if (!jso->o.c_string.str) { json_object_generic_delete(jso); errno = ENOMEM; return NULL; } jso->o.c_string.len = strlen(s); return jso; } struct json_object* json_object_new_string_len(const char *s, int len) { struct json_object *jso = json_object_new(json_type_string); if (!jso) return NULL; jso->_delete = &json_object_string_delete; jso->_to_json_string = &json_object_string_to_json_string; jso->o.c_string.str = (char*)malloc(len + 1); if (!jso->o.c_string.str) { json_object_generic_delete(jso); errno = ENOMEM; return NULL; } memcpy(jso->o.c_string.str, (void *)s, len); jso->o.c_string.str[len] = '\0'; jso->o.c_string.len = len; return jso; } const char* json_object_get_string(struct json_object *jso) { if (!jso) return NULL; switch(jso->o_type) { case json_type_string: return jso->o.c_string.str; default: return json_object_to_json_string(jso); } } int json_object_get_string_len(struct json_object *jso) { if (!jso) return 0; switch(jso->o_type) { case json_type_string: return jso->o.c_string.len; default: return 0; } } /* json_object_array */ static int json_object_array_to_json_string(struct json_object* jso, struct printbuf *pb, int level, int flags) { int had_children = 0; int ii; sprintbuf(pb, "["); if (flags & JSON_C_TO_STRING_PRETTY) sprintbuf(pb, "\n"); for(ii=0; ii < json_object_array_length(jso); ii++) { struct json_object *val; if (had_children) { sprintbuf(pb, ","); if (flags & JSON_C_TO_STRING_PRETTY) sprintbuf(pb, "\n"); } had_children = 1; if (flags & JSON_C_TO_STRING_SPACED) sprintbuf(pb, " "); indent(pb, level + 1, flags); val = json_object_array_get_idx(jso, ii); if(val == NULL) sprintbuf(pb, "null"); else val->_to_json_string(val, pb, level+1, flags); } if (flags & JSON_C_TO_STRING_PRETTY) { if (had_children) sprintbuf(pb, "\n"); indent(pb,level,flags); } if (flags & JSON_C_TO_STRING_SPACED) return sprintbuf(pb, " ]"); else return sprintbuf(pb, "]"); } static void json_object_array_entry_free(void *data) { json_object_put((struct json_object*)data); } static void json_object_array_delete(struct json_object* jso) { array_list_free(jso->o.c_array); json_object_generic_delete(jso); } struct json_object* json_object_new_array(void) { struct json_object *jso = json_object_new(json_type_array); if (!jso) return NULL; jso->_delete = &json_object_array_delete; jso->_to_json_string = &json_object_array_to_json_string; jso->o.c_array = array_list_new(&json_object_array_entry_free); return jso; } struct array_list* json_object_get_array(struct json_object *jso) { if (!jso) return NULL; switch(jso->o_type) { case json_type_array: return jso->o.c_array; default: return NULL; } } void json_object_array_sort(struct json_object *jso, int(*sort_fn)(const void *, const void *)) { array_list_sort(jso->o.c_array, sort_fn); } int json_object_array_length(struct json_object *jso) { return array_list_length(jso->o.c_array); } int json_object_array_add(struct json_object *jso,struct json_object *val) { return array_list_add(jso->o.c_array, val); } int json_object_array_put_idx(struct json_object *jso, int idx, struct json_object *val) { return array_list_put_idx(jso->o.c_array, idx, val); } struct json_object* json_object_array_get_idx(struct json_object *jso, int idx) { return (struct json_object*)array_list_get_idx(jso->o.c_array, idx); }