class-validator
Version:
Decorator-based property validation for classes.
318 lines • 17.5 kB
JavaScript
import { ValidationError } from './ValidationError';
import { ValidationTypes } from './ValidationTypes';
import { ValidationUtils } from './ValidationUtils';
import { isPromise, convertToArray } from '../utils';
import { getMetadataStorage } from '../metadata/MetadataStorage';
/**
* Executes validation over given object.
*/
export class ValidationExecutor {
// -------------------------------------------------------------------------
// Constructor
// -------------------------------------------------------------------------
constructor(validator, validatorOptions) {
this.validator = validator;
this.validatorOptions = validatorOptions;
// -------------------------------------------------------------------------
// Properties
// -------------------------------------------------------------------------
this.awaitingPromises = [];
this.ignoreAsyncValidations = false;
// -------------------------------------------------------------------------
// Private Properties
// -------------------------------------------------------------------------
this.metadataStorage = getMetadataStorage();
}
// -------------------------------------------------------------------------
// Public Methods
// -------------------------------------------------------------------------
execute(object, targetSchema, validationErrors) {
var _a;
/**
* If there is no metadata registered it means possibly the dependencies are not flatterned and
* more than one instance is used.
*
* TODO: This needs proper handling, forcing to use the same container or some other proper solution.
*/
if (!this.metadataStorage.hasValidationMetaData && ((_a = this.validatorOptions) === null || _a === void 0 ? void 0 : _a.enableDebugMessages) === true) {
console.warn(`No metadata found. There is more than once class-validator version installed probably. You need to flatten your dependencies.`);
}
const groups = this.validatorOptions ? this.validatorOptions.groups : undefined;
const strictGroups = (this.validatorOptions && this.validatorOptions.strictGroups) || false;
const always = (this.validatorOptions && this.validatorOptions.always) || false;
const targetMetadatas = this.metadataStorage.getTargetValidationMetadatas(object.constructor, targetSchema, always, strictGroups, groups);
const groupedMetadatas = this.metadataStorage.groupByPropertyName(targetMetadatas);
if (this.validatorOptions && this.validatorOptions.forbidUnknownValues && !targetMetadatas.length) {
const validationError = new ValidationError();
if (!this.validatorOptions ||
!this.validatorOptions.validationError ||
this.validatorOptions.validationError.target === undefined ||
this.validatorOptions.validationError.target === true)
validationError.target = object;
validationError.value = undefined;
validationError.property = undefined;
validationError.children = [];
validationError.constraints = { unknownValue: 'an unknown value was passed to the validate function' };
validationErrors.push(validationError);
return;
}
if (this.validatorOptions && this.validatorOptions.whitelist)
this.whitelist(object, groupedMetadatas, validationErrors);
// General validation
Object.keys(groupedMetadatas).forEach(propertyName => {
const value = object[propertyName];
const definedMetadatas = groupedMetadatas[propertyName].filter(metadata => metadata.type === ValidationTypes.IS_DEFINED);
const metadatas = groupedMetadatas[propertyName].filter(metadata => metadata.type !== ValidationTypes.IS_DEFINED && metadata.type !== ValidationTypes.WHITELIST);
if (value instanceof Promise &&
metadatas.find(metadata => metadata.type === ValidationTypes.PROMISE_VALIDATION)) {
this.awaitingPromises.push(value.then(resolvedValue => {
this.performValidations(object, resolvedValue, propertyName, definedMetadatas, metadatas, validationErrors);
}));
}
else {
this.performValidations(object, value, propertyName, definedMetadatas, metadatas, validationErrors);
}
});
}
whitelist(object, groupedMetadatas, validationErrors) {
const notAllowedProperties = [];
Object.keys(object).forEach(propertyName => {
// does this property have no metadata?
if (!groupedMetadatas[propertyName] || groupedMetadatas[propertyName].length === 0)
notAllowedProperties.push(propertyName);
});
if (notAllowedProperties.length > 0) {
if (this.validatorOptions && this.validatorOptions.forbidNonWhitelisted) {
// throw errors
notAllowedProperties.forEach(property => {
const validationError = this.generateValidationError(object, object[property], property);
validationError.constraints = { [ValidationTypes.WHITELIST]: `property ${property} should not exist` };
validationError.children = undefined;
validationErrors.push(validationError);
});
}
else {
// strip non allowed properties
notAllowedProperties.forEach(property => delete object[property]);
}
}
}
stripEmptyErrors(errors) {
return errors.filter(error => {
if (error.children) {
error.children = this.stripEmptyErrors(error.children);
}
if (Object.keys(error.constraints).length === 0) {
if (error.children.length === 0) {
return false;
}
else {
delete error.constraints;
}
}
return true;
});
}
// -------------------------------------------------------------------------
// Private Methods
// -------------------------------------------------------------------------
performValidations(object, value, propertyName, definedMetadatas, metadatas, validationErrors) {
const customValidationMetadatas = metadatas.filter(metadata => metadata.type === ValidationTypes.CUSTOM_VALIDATION);
const nestedValidationMetadatas = metadatas.filter(metadata => metadata.type === ValidationTypes.NESTED_VALIDATION);
const conditionalValidationMetadatas = metadatas.filter(metadata => metadata.type === ValidationTypes.CONDITIONAL_VALIDATION);
const validationError = this.generateValidationError(object, value, propertyName);
validationErrors.push(validationError);
const canValidate = this.conditionalValidations(object, value, conditionalValidationMetadatas);
if (!canValidate) {
return;
}
// handle IS_DEFINED validation type the special way - it should work no matter skipUndefinedProperties/skipMissingProperties is set or not
this.customValidations(object, value, definedMetadatas, validationError);
this.mapContexts(object, value, definedMetadatas, validationError);
if (value === undefined && this.validatorOptions && this.validatorOptions.skipUndefinedProperties === true) {
return;
}
if (value === null && this.validatorOptions && this.validatorOptions.skipNullProperties === true) {
return;
}
if ((value === null || value === undefined) &&
this.validatorOptions &&
this.validatorOptions.skipMissingProperties === true) {
return;
}
this.customValidations(object, value, customValidationMetadatas, validationError);
this.nestedValidations(value, nestedValidationMetadatas, validationError.children);
this.mapContexts(object, value, metadatas, validationError);
this.mapContexts(object, value, customValidationMetadatas, validationError);
}
generateValidationError(object, value, propertyName) {
const validationError = new ValidationError();
if (!this.validatorOptions ||
!this.validatorOptions.validationError ||
this.validatorOptions.validationError.target === undefined ||
this.validatorOptions.validationError.target === true)
validationError.target = object;
if (!this.validatorOptions ||
!this.validatorOptions.validationError ||
this.validatorOptions.validationError.value === undefined ||
this.validatorOptions.validationError.value === true)
validationError.value = value;
validationError.property = propertyName;
validationError.children = [];
validationError.constraints = {};
return validationError;
}
conditionalValidations(object, value, metadatas) {
return metadatas
.map(metadata => metadata.constraints[0](object, value))
.reduce((resultA, resultB) => resultA && resultB, true);
}
customValidations(object, value, metadatas, error) {
metadatas.forEach(metadata => {
this.metadataStorage.getTargetValidatorConstraints(metadata.constraintCls).forEach(customConstraintMetadata => {
if (customConstraintMetadata.async && this.ignoreAsyncValidations)
return;
if (this.validatorOptions &&
this.validatorOptions.stopAtFirstError &&
Object.keys(error.constraints || {}).length > 0)
return;
const validationArguments = {
targetName: object.constructor ? object.constructor.name : undefined,
property: metadata.propertyName,
object: object,
value: value,
constraints: metadata.constraints,
};
if (!metadata.each || !(Array.isArray(value) || value instanceof Set || value instanceof Map)) {
const validatedValue = customConstraintMetadata.instance.validate(value, validationArguments);
if (isPromise(validatedValue)) {
const promise = validatedValue.then(isValid => {
if (!isValid) {
const [type, message] = this.createValidationError(object, value, metadata, customConstraintMetadata);
error.constraints[type] = message;
if (metadata.context) {
if (!error.contexts) {
error.contexts = {};
}
error.contexts[type] = Object.assign(error.contexts[type] || {}, metadata.context);
}
}
});
this.awaitingPromises.push(promise);
}
else {
if (!validatedValue) {
const [type, message] = this.createValidationError(object, value, metadata, customConstraintMetadata);
error.constraints[type] = message;
}
}
return;
}
// convert set and map into array
const arrayValue = convertToArray(value);
// Validation needs to be applied to each array item
const validatedSubValues = arrayValue.map((subValue) => customConstraintMetadata.instance.validate(subValue, validationArguments));
const validationIsAsync = validatedSubValues.some((validatedSubValue) => isPromise(validatedSubValue));
if (validationIsAsync) {
// Wrap plain values (if any) in promises, so that all are async
const asyncValidatedSubValues = validatedSubValues.map((validatedSubValue) => isPromise(validatedSubValue) ? validatedSubValue : Promise.resolve(validatedSubValue));
const asyncValidationIsFinishedPromise = Promise.all(asyncValidatedSubValues).then((flatValidatedValues) => {
const validationResult = flatValidatedValues.every((isValid) => isValid);
if (!validationResult) {
const [type, message] = this.createValidationError(object, value, metadata, customConstraintMetadata);
error.constraints[type] = message;
if (metadata.context) {
if (!error.contexts) {
error.contexts = {};
}
error.contexts[type] = Object.assign(error.contexts[type] || {}, metadata.context);
}
}
});
this.awaitingPromises.push(asyncValidationIsFinishedPromise);
return;
}
const validationResult = validatedSubValues.every((isValid) => isValid);
if (!validationResult) {
const [type, message] = this.createValidationError(object, value, metadata, customConstraintMetadata);
error.constraints[type] = message;
}
});
});
}
nestedValidations(value, metadatas, errors) {
if (value === void 0) {
return;
}
metadatas.forEach(metadata => {
if (metadata.type !== ValidationTypes.NESTED_VALIDATION && metadata.type !== ValidationTypes.PROMISE_VALIDATION) {
return;
}
if (Array.isArray(value) || value instanceof Set || value instanceof Map) {
// Treats Set as an array - as index of Set value is value itself and it is common case to have Object as value
const arrayLikeValue = value instanceof Set ? Array.from(value) : value;
arrayLikeValue.forEach((subValue, index) => {
this.performValidations(value, subValue, index.toString(), [], metadatas, errors);
});
}
else if (value instanceof Object) {
const targetSchema = typeof metadata.target === 'string' ? metadata.target : metadata.target.name;
this.execute(value, targetSchema, errors);
}
else {
const error = new ValidationError();
error.value = value;
error.property = metadata.propertyName;
error.target = metadata.target;
const [type, message] = this.createValidationError(metadata.target, value, metadata);
error.constraints = {
[type]: message,
};
errors.push(error);
}
});
}
mapContexts(object, value, metadatas, error) {
return metadatas.forEach(metadata => {
if (metadata.context) {
let customConstraint;
if (metadata.type === ValidationTypes.CUSTOM_VALIDATION) {
const customConstraints = this.metadataStorage.getTargetValidatorConstraints(metadata.constraintCls);
customConstraint = customConstraints[0];
}
const type = this.getConstraintType(metadata, customConstraint);
if (error.constraints[type]) {
if (!error.contexts) {
error.contexts = {};
}
error.contexts[type] = Object.assign(error.contexts[type] || {}, metadata.context);
}
}
});
}
createValidationError(object, value, metadata, customValidatorMetadata) {
const targetName = object.constructor ? object.constructor.name : undefined;
const type = this.getConstraintType(metadata, customValidatorMetadata);
const validationArguments = {
targetName: targetName,
property: metadata.propertyName,
object: object,
value: value,
constraints: metadata.constraints,
};
let message = metadata.message || '';
if (!metadata.message &&
(!this.validatorOptions || (this.validatorOptions && !this.validatorOptions.dismissDefaultMessages))) {
if (customValidatorMetadata && customValidatorMetadata.instance.defaultMessage instanceof Function) {
message = customValidatorMetadata.instance.defaultMessage(validationArguments);
}
}
const messageString = ValidationUtils.replaceMessageSpecialTokens(message, validationArguments);
return [type, messageString];
}
getConstraintType(metadata, customValidatorMetadata) {
const type = customValidatorMetadata && customValidatorMetadata.name ? customValidatorMetadata.name : metadata.type;
return type;
}
}
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