/** * A very basic, non-complete implementation of a validator for the JSON Schema specification, * for validating CPER-JSON. * * Author: Lawrence.Tang@arm.com **/ #include #include #include #include #include #include #include #include #include //Field definitions. int json_validator_debug = 0; //Private pre-definitions. int validate_field(const char *name, json_object *schema, json_object *object, char *error_message); int validate_integer(const char *field_name, json_object *schema, json_object *object, char *error_message); int validate_string(const char *field_name, json_object *schema, json_object *object, const char *error_message); int validate_object(const char *field_name, json_object *schema, json_object *object, char *error_message); int validate_array(const char *field_name, json_object *schema, json_object *object, char *error_message); void log_validator_error(char *error_message, const char *format, ...); void log_validator_debug(const char *format, ...); void log_validator_msg(const char *format, va_list args); //Validates a single JSON object against a provided schema file, returning 1 on success and 0 on failure to validate. //Error message space must be allocated prior to call. int validate_schema_from_file(const char *schema_file, json_object *object, char *error_message) { //Load schema IR from file. json_object *schema_ir = json_object_from_file(schema_file); if (schema_ir == NULL) { log_validator_error(error_message, "Failed to load schema from file '%s'.", schema_file); return 0; } //Get the directory of the file. char *schema_file_copy = malloc(strlen(schema_file) + 1); strcpy(schema_file_copy, schema_file); char *schema_dir = dirname(schema_file_copy); int result = validate_schema(schema_ir, schema_dir, object, error_message); //Free memory from directory call. free(schema_file_copy); json_object_put(schema_ir); return result; } //Validates a single JSON object against a provided schema, returning 1 on success and 0 on failure to validate. //Error message space must be allocated prior to call. //If the schema does not include any other sub-schemas using "$ref", then leaving schema_directory as NULL is valid. int validate_schema(json_object *schema, char *schema_directory, json_object *object, char *error_message) { //Check that the schema version is the same as this validator. json_object *schema_ver = json_object_object_get(schema, "$schema"); if (schema_ver == NULL || strcmp(json_object_get_string(schema_ver), JSON_SCHEMA_VERSION) != 0) { log_validator_error( error_message, "Provided schema is not of the same version that is referenced by this validator, or is not a schema."); return 0; } //Change current directory into the schema directory. char *original_cwd = malloc(PATH_MAX); if (getcwd(original_cwd, PATH_MAX) == NULL) { log_validator_error(error_message, "Failed fetching the current directory."); if (original_cwd) { free(original_cwd); } return 0; } if (chdir(schema_directory)) { log_validator_error(error_message, "Failed to chdir into schema directory."); if (original_cwd) { free(original_cwd); } return 0; } //Parse the top level structure appropriately. int result = validate_field("parent", schema, object, error_message); if (result < 0) { log_validator_error(error_message, "Failed validating schema for parent."); result = 0; } //Change back to original CWD. if (chdir(original_cwd)) { log_validator_error(error_message, "Failed to chdir into original directory."); } free(original_cwd); if (result) { log_validator_debug( "Successfully validated the provided object against schema."); } return result; } //Validates a single JSON field given a schema/object. //Returns -1 on fatal/error failure, 0 on validation failure, and 1 on validation. int validate_field(const char *field_name, json_object *schema, json_object *object, char *error_message) { int ret = -1; log_validator_debug("Validating field '%s'...", field_name); //If there is a "$ref" field, attempt to load the referenced schema. json_object *ref_field = json_object_object_get(schema, "$ref"); if (ref_field != NULL && json_object_get_type(ref_field) == json_type_string) { log_validator_debug("$ref schema detected for field '%s'.", field_name); //Attempt to load. If loading fails, report error. const char *ref_path = json_object_get_string(ref_field); json_object *ref_schema = json_object_from_file(ref_path); if (ref_schema == NULL) { log_validator_error( error_message, "Failed to open referenced schema file '%s'.", ref_path); return -1; } log_validator_debug("loaded schema path '%s' for field '%s'.", ref_path, field_name); //Validate field with schema. ret = validate_field(field_name, ref_schema, object, error_message); json_object_put(ref_schema); return ret; } //Get the schema field type. json_object *desired_field_type = json_object_object_get(schema, "type"); if (desired_field_type == NULL || !json_object_is_type(desired_field_type, json_type_string)) { log_validator_error( error_message, "Desired field type not provided within schema/is not a string for field '%s' (schema violation).", field_name); return 0; } //Check the field types are actually equal. const char *desired_field_type_str = json_object_get_string(desired_field_type); if (!((!strcmp(desired_field_type_str, "object") && json_object_is_type(object, json_type_object)) || (!strcmp(desired_field_type_str, "array") && json_object_is_type(object, json_type_array)) || (!strcmp(desired_field_type_str, "integer") && json_object_is_type(object, json_type_int)) || (!strcmp(desired_field_type_str, "string") && json_object_is_type(object, json_type_string)) || (!strcmp(desired_field_type_str, "boolean") && json_object_is_type(object, json_type_boolean)) || (!strcmp(desired_field_type_str, "double") && json_object_is_type(object, json_type_double)))) { log_validator_error(error_message, "Field type match failed for field '%s'.", field_name); return 0; } //If the schema contains a "oneOf" array, we need to validate the field against each of the //possible options in turn. json_object *one_of = json_object_object_get(schema, "oneOf"); if (one_of != NULL && json_object_get_type(one_of) == json_type_array) { log_validator_debug("oneOf options detected for field '%s'.", field_name); int len = json_object_array_length(one_of); int validated = 0; for (int i = 0; i < len; i++) { //If the "oneOf" member isn't an object, warn on schema violation. json_object *one_of_option = json_object_array_get_idx(one_of, i); if (one_of_option == NULL || json_object_get_type(one_of_option) != json_type_object) { log_validator_debug( "Schema Warning: 'oneOf' member for field '%s' is not an object, schema violation.", field_name); continue; } //Validate field with schema. validated = validate_field(field_name, one_of_option, object, error_message); if (validated == -1) { return -1; } if (validated) { break; } } //Return if failed all checks. if (!validated) { log_validator_error( error_message, "No schema object structures matched provided object for field '%s'.", field_name); return 0; } } //Switch and validate each type in turn. switch (json_object_get_type(object)) { case json_type_int: return validate_integer(field_name, schema, object, error_message); case json_type_string: return validate_string(field_name, schema, object, error_message); case json_type_object: return validate_object(field_name, schema, object, error_message); case json_type_array: return validate_array(field_name, schema, object, error_message); //We don't perform extra validation on this type. default: log_validator_debug( "validation passed for '%s' (no extra validation).", field_name); return 1; } } //Validates a single integer value according to the given specification. int validate_integer(const char *field_name, json_object *schema, json_object *object, char *error_message) { //Is there a minimum/maximum specified? If so, check those. //Validate minimum. json_object *min_value = json_object_object_get(schema, "minimum"); if (min_value != NULL && json_object_is_type(min_value, json_type_int)) { int min_value_int = json_object_get_int(min_value); if (json_object_get_uint64(object) < (uint64_t)min_value_int) { log_validator_error( error_message, "Failed to validate integer field '%s'. Value was below minimum of %d.", field_name, min_value_int); return 0; } } //Validate maximum. json_object *max_value = json_object_object_get(schema, "maximum"); if (max_value != NULL && json_object_is_type(max_value, json_type_int)) { int max_value_int = json_object_get_int(max_value); if (json_object_get_uint64(object) > (uint64_t)max_value_int) { log_validator_error( error_message, "Failed to validate integer field '%s'. Value was above maximum of %d.", field_name, max_value_int); return 0; } } return 1; } //Validates a single string value according to the given specification. int validate_string(const char *field_name, json_object *schema, json_object *object, const char *error_message) { //todo: if there is a "pattern" field, verify the string with RegEx. (void)field_name; (void)schema; (void)object; (void)error_message; return 1; } //Validates a single object value according to the given specification. int validate_object(const char *field_name, json_object *schema, json_object *object, char *error_message) { //Are there a set of "required" fields? If so, check they all exist. json_object *required_fields = json_object_object_get(schema, "required"); if (required_fields != NULL && json_object_get_type(required_fields) == json_type_array) { log_validator_debug( "Required fields found for '%s', matching...", field_name); int len = json_object_array_length(required_fields); for (int i = 0; i < len; i++) { //Get the required field from schema. json_object *required_field = json_object_array_get_idx(required_fields, i); if (json_object_get_type(required_field) != json_type_string) { log_validator_error( error_message, "Required field for object '%s' is not a string (schema violation).", field_name); return 0; } //Does it exist in the object? const char *required_field_str = json_object_get_string(required_field); if (json_object_object_get( object, required_field_str) == NULL) { log_validator_error( error_message, "Required field '%s' was not present in object '%s'.", required_field_str, field_name); return 0; } } } //Get additional properties value in advance. json_object *additional_properties = json_object_object_get(schema, "additionalProperties"); int additional_properties_allowed = 0; if (additional_properties != NULL && json_object_get_type(additional_properties) == json_type_boolean) { additional_properties_allowed = json_object_get_boolean(additional_properties); } //Run through the "properties" object and validate each of those in turn. json_object *properties = json_object_object_get(schema, "properties"); if (properties != NULL && json_object_get_type(properties) == json_type_object) { json_object_object_foreach(properties, key, value) { //If the given property name does not exist on the target object, ignore and continue next. json_object *object_prop = json_object_object_get(object, key); if (object_prop == NULL) { continue; } //Validate against the schema. if (!validate_field(key, value, object_prop, error_message)) { return 0; } } //If additional properties are banned, validate that no additional properties exist. if (!additional_properties_allowed) { json_object_object_foreach(object, key, value) { //Avoid compiler warning (void)value; //If the given property name does not exist on the schema object, fail validation. const json_object *schema_prop = json_object_object_get(properties, key); if (schema_prop == NULL) { log_validator_error( error_message, "Invalid additional property '%s' detected on field '%s'.", key, field_name); return 0; } } } } return 1; } //Validates a single array value according to the given specification. int validate_array(const char *field_name, json_object *schema, json_object *object, char *error_message) { //Iterate all items in the array, and validate according to the "items" schema. json_object *items_schema = json_object_object_get(schema, "items"); if (items_schema != NULL && json_object_get_type(items_schema) == json_type_object) { int array_len = json_object_array_length(object); for (int i = 0; i < array_len; i++) { if (!validate_field(field_name, items_schema, json_object_array_get_idx(object, i), error_message)) { return 0; } } } return 1; } //Enables/disables debugging globally for the JSON validator. void validate_schema_debug_enable() { json_validator_debug = 1; } void validate_schema_debug_disable() { json_validator_debug = 0; } //Logs an error message to the given error message location and (optionally) provides debug output. void log_validator_error(char *error_message, const char *format, ...) { va_list args; //Log error to error out. va_start(args, format); vsnprintf(error_message, JSON_ERROR_MSG_MAX_LEN, format, args); va_end(args); //Debug message if necessary. va_start(args, format); log_validator_msg(format, args); va_end(args); } //Logs a debug message to stdout, if validator debug is enabled. void log_validator_debug(const char *format, ...) { va_list args; va_start(args, format); log_validator_msg(format, args); va_end(args); } //Logs a single validator debug/error message. void log_validator_msg(const char *format, va_list args) { //Print debug output if debug is on. if (json_validator_debug) { //Make new format string for error. const char *header = "json_validator: "; char *new_format = malloc(strlen(header) + strlen(format) + 2); strcpy(new_format, header); strcat(new_format, format); strcat(new_format, "\n"); //Print & free format. vfprintf(stdout, new_format, args); free(new_format); } }