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class-validator
Advanced tools
Class-based validation with Typescript / ES6 / ES5 using decorators or validation schemas. Supports both node.js and browser
The class-validator package is a TypeScript and JavaScript library that allows for validation of classes and objects using decorators and non-decorator based validation. It is commonly used to ensure data integrity before persistence or processing and is particularly useful when working with class-based models.
Declarative Validation Decorators
Allows the use of decorators to declare validation rules directly in the class model. For example, ensuring a property is not empty, is an integer, or is a valid email address.
{"@IsNotEmpty()": "public name: string;", "@IsInt()": "public age: number;", "@IsEmail()": "public email: string;"}
Custom Validation Classes
Enables the creation of custom validation classes that implement the ValidatorConstraintInterface. This allows for complex and custom validation logic that can be reused across different class properties.
{"@ValidatorConstraint({ async: false })": "class IsLongerThanConstraint implements ValidatorConstraintInterface { validate(text: string, args: ValidationArguments) { return text.length > args.constraints[0]; } defaultMessage(args: ValidationArguments) { return 'Text is too short. Should be longer than ' + args.constraints[0] + ' characters'; } }", "@ValidatorConstraint()": "@IsLongerThan(10, { message: 'Text must be longer than 10 characters' }) public text: string;"}
Validation of Nested Objects
Supports validation of nested objects using the ValidateNested decorator, ensuring that the properties of the nested objects also adhere to their respective validation rules.
{"@ValidateNested()": "@Type(() => SubClass) public nested: SubClass;"}
Asynchronous Validation
Provides asynchronous validation functions like validateOrReject, which can handle async validators and return a promise that either resolves if the object is valid or rejects with the validation errors.
{"@IsEmail({}, { message: 'Invalid email' })": "public email: string;", "validateOrReject(someObject)": ".catch(errors => { console.log('Promise rejected (validation failed). Errors: ', errors); });"}
Manual Validation
Allows for manual validation of objects without using decorators by calling the validate function, which returns a promise containing any validation errors.
{"validate(someObject)": ".then(errors => { if (errors.length > 0) { console.log('Validation failed: ', errors); } else { console.log('Validation succeed'); } });"}
Joi is a powerful schema description language and data validator for JavaScript. Unlike class-validator, Joi does not use decorators and is schema-based. It is often used for object schema validation and can be used on both client and server sides.
Yup is a JavaScript schema builder for value parsing and validation. It defines a schema with a more fluent/chainable API and is less verbose than class-validator. It is often used in the context of form validation, especially with form libraries like Formik.
Ajv is a JSON schema validator. It validates data against JSON Schema (draft 6, draft 7, and draft 2019-09). It is known for its performance and is used for validating JSON data structures, unlike class-validator which is more focused on class and object validation.
Express-validator is a set of express.js middlewares that wraps validator.js, a library that provides validator and sanitizer functions. It is specifically designed for Express applications and allows for middleware-based validation, which is different from the decorator-based approach of class-validator.
Allows use of decorator and non-decorator based validation. Internally uses validator.js to perform validation. Class-validator works on both browser and node.js platforms.
npm install class-validator --save
Note: Please use at least npm@6 when using class-validator as from npm@6 the dependency tree is flatterned what is good for us.
Create your class and put some validation decorators on the properties you want to validate:
import {validate, validateOrReject, Contains, IsInt, Length, IsEmail, IsFQDN, IsDate, Min, Max} from "class-validator";
export class Post {
@Length(10, 20)
title: string;
@Contains("hello")
text: string;
@IsInt()
@Min(0)
@Max(10)
rating: number;
@IsEmail()
email: string;
@IsFQDN()
site: string;
@IsDate()
createDate: Date;
}
let post = new Post();
post.title = "Hello"; // should not pass
post.text = "this is a great post about hell world"; // should not pass
post.rating = 11; // should not pass
post.email = "google.com"; // should not pass
post.site = "googlecom"; // should not pass
validate(post).then(errors => { // errors is an array of validation errors
if (errors.length > 0) {
console.log("validation failed. errors: ", errors);
} else {
console.log("validation succeed");
}
});
validateOrReject(post).catch(errors => {
console.log("Promise rejected (validation failed). Errors: ", errors);
});
// or
async function validateOrRejectExample(input) {
try {
await validateOrReject(input);
} catch (errors) {
console.log("Caught promise rejection (validation failed). Errors: ", errors)
}
}
The validate
function optionally expects a ValidatorOptions
object as a second parameter.
export interface ValidatorOptions {
skipMissingProperties?: boolean;
whitelist?: boolean;
forbidNonWhitelisted?: boolean;
groups?: string[];
dismissDefaultMessages?: boolean;
validationError?: {
target?: boolean;
value?: boolean;
};
forbidUnknownValues?: boolean;
}
It's highly advised to enable on
forbidUnknownValues
what prevent unknown objects to pass validation.
validate
method returns you an array of ValidationError
objects. Each ValidationError
is:
{
target: Object; // Object that was validated.
property: string; // Object's property that haven't pass validation.
value: any; // Value that haven't pass a validation.
constraints?: { // Constraints that failed validation with error messages.
[type: string]: string;
};
children?: ValidationError[]; // Contains all nested validation errors of the property
}
In our case, when we validated a Post object, we have such array of ValidationErrors:
[{
target: /* post object */,
property: "title",
value: "Hello",
constraints: {
length: "$property must be longer than or equal to 10 characters"
}
}, {
target: /* post object */,
property: "text",
value: "this is a great post about hell world",
constraints: {
contains: "text must contain a hello string"
}
},
// and other errors
]
If you don't want a target
to be exposed in validation errors, there is a special option when you use validator:
validator.validate(post, { validationError: { target: false } });
This is especially useful when you send errors back over http, and you most probably don't want to expose the whole target object.
You can specify validation message in the decorator options and that message will be returned in ValidationError
returned by validate
method in the case that validation for this field fails.
import {MinLength, MaxLength} from "class-validator";
export class Post {
@MinLength(10, {
message: "Title is too short"
})
@MaxLength(50, {
message: "Title is too long"
})
title: string;
}
There are few special tokens you can use in your messages:
$value
- the value that is being validated$property
- name of the object's property being validated$target
- name of the object's class being validated$constraint1
, $constraint2
, ... $constraintN
- constraints defined by specific validation typeExample of usage:
import {MinLength, MaxLength} from "class-validator";
export class Post {
@MinLength(10, { // here, $constraint1 will be replaced with "10", and $value with actual supplied value
message: "Title is too short. Minimal length is $constraint1 characters, but actual is $value"
})
@MaxLength(50, { // here, $constraint1 will be replaced with "50", and $value with actual supplied value
message: "Title is too long. Maximal length is $constraint1 characters, but actual is $value"
})
title: string;
}
Also you can provide a function, that returns a message. This way allows to create more granular messages:
import {MinLength, MaxLength, ValidationArguments} from "class-validator";
export class Post {
@MinLength(10, {
message: (args: ValidationArguments) => {
if (args.value.length === 1) {
return "Too short, minimum length is 1 character";
} else {
return "Too short, minimum length is " + args.constraints[0] + " characters";
}
}
})
title: string;
}
Message function accepts ValidationArguments
which contains following information:
value
- the value that is being validatedconstraints
- array of constraints defined by specific validation typetargetName
- name of the object's class being validatedobject
- object that is being validatedproperty
- name of the object's property being validatedIf your field is an array and you want to perform validation of each item in the array you must specify a
special each: true
decorator option:
import {MinLength, MaxLength} from "class-validator";
export class Post {
@MaxLength(20, {
each: true
})
tags: string[];
}
This will validate each item in post.tags
array.
If your field is a set and you want to perform validation of each item in the set you must specify a
special each: true
decorator option:
import {MinLength, MaxLength} from "class-validator";
export class Post {
@MaxLength(20, {
each: true
})
tags: Set<string>;
}
This will validate each item in post.tags
set.
If your field is a map and you want to perform validation of each item in the map you must specify a
special each: true
decorator option:
import {MinLength, MaxLength} from "class-validator";
export class Post {
@MaxLength(20, {
each: true
})
tags: Map<string, string>;
}
This will validate each item in post.tags
map.
If your object contains nested objects and you want the validator to perform their validation too, then you need to
use the @ValidateNested()
decorator:
import {ValidateNested} from "class-validator";
export class Post {
@ValidateNested()
user: User;
}
If your object contains property with Promise
-returned value that should be validated, then you need to use the @ValidatePromise()
decorator:
import {ValidatePromise, Min} from "class-validator";
export class Post {
@Min(0)
@ValidatePromise()
userId: Promise<number>;
}
It also works great with @ValidateNested
decorator:
import {ValidateNested, ValidatePromise} from "class-validator";
export class Post {
@ValidateNested()
@ValidatePromise()
user: Promise<User>;
}
When you define a subclass which extends from another one, the subclass will automatically inherit the parent's decorators. If a property is redefined in the descendant class decorators will be applied on it both from that and the base class.
import {validate} from "class-validator";
class BaseContent {
@IsEmail()
email: string;
@IsString()
password: string;
}
class User extends BaseContent {
@MinLength(10)
@MaxLength(20)
name: string;
@Contains("hello")
welcome: string;
@MinLength(20)
password: string; /
}
let user = new User();
user.email = "invalid email"; // inherited property
user.password = "too short" // password wil be validated not only against IsString, but against MinLength as well
user.name = "not valid";
user.welcome = "helo";
validate(user).then(errors => {
// ...
}); // it will return errors for email, title and text properties
The conditional validation decorator (@ValidateIf
) can be used to ignore the validators on a property when the provided condition function returns false. The condition function takes the object being validated and must return a boolean
.
import {ValidateIf, IsNotEmpty} from "class-validator";
export class Post {
otherProperty:string;
@ValidateIf(o => o.otherProperty === "value")
@IsNotEmpty()
example:string;
}
In the example above, the validation rules applied to example
won't be run unless the object's otherProperty
is "value"
.
Note that when the condition is false all validation decorators are ignored, including isDefined
.
Even if your object is an instance of a validation class it can contain additional properties that are not defined.
If you do not want to have such properties on your object, pass special flag to validate
method:
import {validate} from "class-validator";
// ...
validate(post, { whitelist: true });
This will strip all properties that don't have any decorators. If no other decorator is suitable for your property, you can use @Allow decorator:
import {validate, Allow, Min} from "class-validator";
export class Post {
@Allow()
title: string;
@Min(0)
views: number;
nonWhitelistedProperty: number;
}
let post = new Post();
post.title = 'Hello world!';
post.views = 420;
post.nonWhitelistedProperty = 69;
(post as any).anotherNonWhitelistedProperty = "something";
validate(post).then(errors => {
// post.nonWhitelistedProperty is not defined
// (post as any).anotherNonWhitelistedProperty is not defined
...
});
If you would rather to have an error thrown when any non-whitelisted properties are present, pass another flag to
validate
method:
import {validate} from "class-validator";
// ...
validate(post, { whitelist: true, forbidNonWhitelisted: true });
It's possible to pass a custom object to decorators which will be accessible on the ValidationError
instance of the property if validation failed.
import { validate } from 'class-validator';
class MyClass {
@MinLength(32, {
message: "EIC code must be at least 32 charatcers",
context: {
errorCode: 1003,
developerNote: "The validated string must contain 32 or more characters."
}
})
eicCode: string;
}
const model = new MyClass();
validate(model).then(errors => {
//errors[0].contexts['minLength'].errorCode === 1003
});
Sometimes you may want to skip validation of the properties that does not exist in the validating object. This is
usually desirable when you want to update some parts of the object, and want to validate only updated parts,
but skip everything else, e.g. skip missing properties.
In such situations you will need to pass a special flag to validate
method:
import {validate} from "class-validator";
// ...
validate(post, { skipMissingProperties: true });
When skipping missing properties, sometimes you want not to skip all missing properties, some of them maybe required
for you, even if skipMissingProperties is set to true. For such cases you should use @IsDefined()
decorator.
@IsDefined()
is the only decorator that ignores skipMissingProperties
option.
In different situations you may want to use different validation schemas of the same object. In such cases you can use validation groups.
import {validate, Min, Length} from "class-validator";
export class User {
@Min(12, {
groups: ["registration"]
})
age: number;
@Length(2, 20, {
groups: ["registration", "admin"]
})
name: string;
}
let user = new User();
user.age = 10;
user.name = "Alex";
validate(user, {
groups: ["registration"]
}); // this will not pass validation
validate(user, {
groups: ["admin"]
}); // this will pass validation
validate(user, {
groups: ["registration", "admin"]
}); // this will not pass validation
validate(user, {
groups: undefined // the default
}); // this will not pass validation since all properties get validated regardless of their groups
validate(user, {
groups: []
}); // this will not pass validation, (equivalent to 'groups: undefined', see above)
There is also a special flag always: true
in validation options that you can use. This flag says that this validation
must be applied always no matter which group is used.
If you have custom validation logic you can create a Constraint class:
First create a file, lets say CustomTextLength.ts
, and define a new class:
import {ValidatorConstraint, ValidatorConstraintInterface, ValidationArguments} from "class-validator";
@ValidatorConstraint({ name: "customText", async: false })
export class CustomTextLength implements ValidatorConstraintInterface {
validate(text: string, args: ValidationArguments) {
return text.length > 1 && text.length < 10; // for async validations you must return a Promise<boolean> here
}
defaultMessage(args: ValidationArguments) { // here you can provide default error message if validation failed
return "Text ($value) is too short or too long!";
}
}
We marked our class with @ValidatorConstraint
decorator.
You can also supply a validation constraint name - this name will be used as "error type" in ValidationError.
If you will not supply a constraint name - it will be auto-generated.
Our class must implement ValidatorConstraintInterface
interface and its validate
method,
which defines validation logic. If validation succeeds, method returns true, otherwise false.
Custom validator can be asynchronous, if you want to perform validation after some asynchronous
operations, simply return a promise with boolean inside in validate
method.
Also we defined optional method defaultMessage
which defines a default error message,
in the case that the decorator's implementation doesn't set an error message.
Then you can use your new validation constraint in your class:
import {Validate} from "class-validator";
import {CustomTextLength} from "./CustomTextLength";
export class Post {
@Validate(CustomTextLength, {
message: "Title is too short or long!"
})
title: string;
}
Here we set our newly created CustomTextLength
validation constraint for Post.title
.
And use validator as usual:
import {validate} from "class-validator";
validate(post).then(errors => {
// ...
});
You can also pass constraints to your validator, like this:
import {Validate} from "class-validator";
import {CustomTextLength} from "./CustomTextLength";
export class Post {
@Validate(CustomTextLength, [3, 20], {
message: "Wrong post title"
})
title: string;
}
And use them from validationArguments
object:
import {ValidationArguments, ValidatorConstraint, ValidatorConstraintInterface} from "class-validator";
@ValidatorConstraint()
export class CustomTextLength implements ValidatorConstraintInterface {
validate(text: string, validationArguments: ValidationArguments) {
return text.length > validationArguments.constraints[0] && text.length < validationArguments.constraints[1];
}
}
You can also create a custom decorators. Its the most elegant way of using a custom validations.
Lets create a decorator called @IsLongerThan
:
Create a decorator itself:
import {registerDecorator, ValidationOptions, ValidationArguments} from "class-validator";
export function IsLongerThan(property: string, validationOptions?: ValidationOptions) {
return function (object: Object, propertyName: string) {
registerDecorator({
name: "isLongerThan",
target: object.constructor,
propertyName: propertyName,
constraints: [property],
options: validationOptions,
validator: {
validate(value: any, args: ValidationArguments) {
const [relatedPropertyName] = args.constraints;
const relatedValue = (args.object as any)[relatedPropertyName];
return typeof value === "string" &&
typeof relatedValue === "string" &&
value.length > relatedValue.length; // you can return a Promise<boolean> here as well, if you want to make async validation
}
}
});
};
}
Put it to use:
import {IsLongerThan} from "./IsLongerThan";
export class Post {
title: string;
@IsLongerThan("title", {
/* you can also use additional validation options, like "groups" in your custom validation decorators. "each" is not supported */
message: "Text must be longer than the title"
})
text: string;
}
In your custom decorators you can also use ValidationConstraint
.
Lets create another custom validation decorator called IsUserAlreadyExist
:
Create a ValidationConstraint and decorator:
import {registerDecorator, ValidationOptions, ValidatorConstraint, ValidatorConstraintInterface, ValidationArguments} from "class-validator";
@ValidatorConstraint({ async: true })
export class IsUserAlreadyExistConstraint implements ValidatorConstraintInterface {
validate(userName: any, args: ValidationArguments) {
return UserRepository.findOneByName(userName).then(user => {
if (user) return false;
return true;
});
}
}
export function IsUserAlreadyExist(validationOptions?: ValidationOptions) {
return function (object: Object, propertyName: string) {
registerDecorator({
target: object.constructor,
propertyName: propertyName,
options: validationOptions,
constraints: [],
validator: IsUserAlreadyExistConstraint
});
};
}
note that we marked our constraint that it will by async by adding { async: true }
in validation options.
And put it to use:
import {IsUserAlreadyExist} from "./IsUserAlreadyExist";
export class User {
@IsUserAlreadyExist({
message: "User $value already exists. Choose another name."
})
name: string;
}
Validator supports service container in the case if want to inject dependencies into your custom validator constraint classes. Here is example how to integrate it with typedi:
import {Container} from "typedi";
import {useContainer, Validator} from "class-validator";
// do this somewhere in the global application level:
useContainer(Container);
let validator = Container.get(Validator);
// now everywhere you can inject Validator class which will go from the container
// also you can inject classes using constructor injection into your custom ValidatorConstraint-s
If you want to perform a simple non async validation you can use validateSync
method instead of regular validate
method. It has the same arguments as validate
method. But note, this method ignores all async validations
you have.
There are several method exist in the Validator that allows to perform non-decorator based validation:
import {Validator} from "class-validator";
// Validation methods
const validator = new Validator();
// common validation methods
validator.isDefined(value); // Checks if value is defined ("!==undefined").
validator.equals(value, comparison); // Checks if value matches ("===") the comparison.
validator.notEquals(value, comparison); // Checks if value does not match ("!==") the comparison.
validator.isEmpty(value); // Checks if given value is empty (=== '', === null, === undefined).
validator.isNotEmpty(value); // Checks if given value is not empty (!== '', !== null, !== undefined).
validator.isIn(value, possibleValues); // Checks if given value is in a array of allowed values.
validator.isNotIn(value, possibleValues); // Checks if given value not in a array of allowed values.
// type validation methods
validator.isBoolean(value); // Checks if a given value is a real boolean.
validator.isDate(value); // Checks if a given value is a real date.
validator.isString(value); // Checks if a given value is a real string.
validator.isArray(value); // Checks if a given value is an array.
validator.isNumber(value, options); // Checks if a given value is a real number.
validator.isInt(value); // Checks if value is an integer.
validator.isEnum(value, entity); // Checks if value is valid for a certain enum entity.
// number validation methods
validator.isDivisibleBy(value, num); // Checks if value is a number that's divisible by another.
validator.isPositive(value); // Checks if the value is a positive number.
validator.isNegative(value); // Checks if the value is a negative number.
validator.min(num, min); // Checks if the first number is greater than or equal to the second.
validator.max(num, max); // Checks if the first number is less than or equal to the second.
// date validation methods
validator.minDate(date, minDate); // Checks if the value is a date that's after the specified date.
validator.maxDate(date, minDate); // Checks if the value is a date that's before the specified date.
// string-type validation methods
validator.isBooleanString(str); // Checks if a string is a boolean.
validator.isNumberString(str); // Checks if the string is numeric.
// string validation methods
validator.contains(str, seed); // Checks if the string contains the seed.
validator.notContains(str, seed); // Checks if the string does not contain the seed.
validator.isAlpha(str); // Checks if the string contains only letters (a-zA-Z).
validator.isAlphanumeric(str); // Checks if the string contains only letters and numbers.
validator.isDecimal(str, options); // Checks if the string is a valid decimal value.
validator.isAscii(str); // Checks if the string contains ASCII chars only.
validator.isBase64(str); // Checks if a string is base64 encoded.
validator.isByteLength(str, min, max); // Checks if the string's length (in bytes) falls in a range.
validator.isCreditCard(str); // Checks if the string is a credit card.
validator.isCurrency(str, options); // Checks if the string is a valid currency amount.
validator.isEmail(str, options); // Checks if the string is an email.
validator.isFQDN(str, options); // Checks if the string is a fully qualified domain name (e.g. domain.com).
validator.isFullWidth(str); // Checks if the string contains any full-width chars.
validator.isHalfWidth(str); // Checks if the string contains any half-width chars.
validator.isVariableWidth(str); // Checks if the string contains variable-width chars.
validator.isHexColor(str); // Checks if the string is a hexadecimal color.
validator.isHexadecimal(str); // Checks if the string is a hexadecimal number.
validator.isIP(str, version); // Checks if the string is an IP (version 4 or 6).
validator.isISBN(str, version); // Checks if the string is an ISBN (version 10 or 13).
validator.isISIN(str); // Checks if the string is an ISIN (stock/security identifier).
validator.isISO8601(str); // Checks if the string is a valid ISO 8601 date.
validator.isJSON(str); // Checks if the string is valid JSON (note: uses JSON.parse).
validator.isLowercase(str); // Checks if the string is lowercase.
validator.isMobilePhone(str, locale); // Checks if the string is a mobile phone number.
validator.isISO31661Alpha2(str); // Check if the string is a valid ISO 3166-1 alpha-2
validator.isISO31661Alpha3(str); // Check if the string is a valid ISO 3166-1 alpha-3
validator.isPhoneNumber(str, region); // Checks if the string is a valid phone number.
validator.isMongoId(str); // Checks if the string is a valid hex-encoded representation of a MongoDB ObjectId.
validator.isMultibyte(str); // Checks if the string contains one or more multibyte chars.
validator.isSurrogatePair(str); // Checks if the string contains any surrogate pairs chars.
validator.isURL(str, options); // Checks if the string is an url.
validator.isUUID(str, version); // Checks if the string is a UUID (version 3, 4 or 5).
validator.isUppercase(str); // Checks if the string is uppercase.
validator.length(str, min, max); // Checks if the string's length falls in a range.
validator.minLength(str, min); // Checks if the string's length is not less than given number.
validator.maxLength(str, max); // Checks if the string's length is not more than given number.
validator.matches(str, pattern, modifiers); // Checks if string matches the pattern. Either matches('foo', /foo/i) or matches('foo', 'foo', 'i').
validator.isMilitaryTime(str); // Checks if the string is a valid representation of military time in the format HH:MM.
// array validation methods
validator.arrayContains(array, values); // Checks if array contains all values from the given array of values.
validator.arrayNotContains(array, values); // Checks if array does not contain any of the given values.
validator.arrayNotEmpty(array); // Checks if given array is not empty.
validator.arrayMinSize(array, min); // Checks if array's length is at least `min` number.
validator.arrayMaxSize(array, max); // Checks if array's length is as most `max` number.
validator.arrayUnique(array); // Checks if all array's values are unique. Comparison for objects is reference-based.
// object validation methods
validator.isInstance(value, target); // Checks value is an instance of the target.
Decorator | Description |
---|---|
Common validation decorators | |
@IsDefined(value: any) | Checks if value is defined (!== undefined, !== null). This is the only decorator that ignores skipMissingProperties option. |
@IsOptional() | Checks if given value is empty (=== null, === undefined) and if so, ignores all the validators on the property. |
@Equals(comparison: any) | Checks if value equals ("===") comparison. |
@NotEquals(comparison: any) | Checks if value not equal ("!==") comparison. |
@IsEmpty() | Checks if given value is empty (=== '', === null, === undefined). |
@IsNotEmpty() | Checks if given value is not empty (!== '', !== null, !== undefined). |
@IsIn(values: any[]) | Checks if value is in a array of allowed values. |
@IsNotIn(values: any[]) | Checks if value is not in a array of disallowed values. |
Type validation decorators | |
@IsBoolean() | Checks if a value is a boolean. |
@IsDate() | Checks if the value is a date. |
@IsString() | Checks if the string is a string. |
@IsNumber(options: IsNumberOptions) | Checks if the value is a number. |
@IsInt() | Checks if the value is an integer number. |
@IsArray() | Checks if the value is an array |
@IsEnum(entity: object) | Checks if the value is an valid enum |
Number validation decorators | |
@IsDivisibleBy(num: number) | Checks if the value is a number that's divisible by another. |
@IsPositive() | Checks if the value is a positive number. |
@IsNegative() | Checks if the value is a negative number. |
@Min(min: number) | Checks if the given number is greater than or equal to given number. |
@Max(max: number) | Checks if the given number is less than or equal to given number. |
Date validation decorators | |
@MinDate(date: Date) | Checks if the value is a date that's after the specified date. |
@MaxDate(date: Date) | Checks if the value is a date that's before the specified date. |
String-type validation decorators | |
@IsBooleanString() | Checks if a string is a boolean (e.g. is "true" or "false"). |
@IsDateString() | Checks if a string is a complete representation of a date (e.g. "2017-06-07T14:34:08.700Z", "2017-06-07T14:34:08.700 or "2017-06-07T14:34:08+04:00"). |
@IsNumberString() | Checks if a string is a number. |
String validation decorators | |
@Contains(seed: string) | Checks if the string contains the seed. |
@NotContains(seed: string) | Checks if the string not contains the seed. |
@IsAlpha() | Checks if the string contains only letters (a-zA-Z). |
@IsAlphanumeric() | Checks if the string contains only letters and numbers. |
@IsDecimal(options?: IsDecimalOptions) | Checks if the string is a valid decimal value. Default IsDecimalOptions are force_decimal=False , decimal_digits: '1,' , locale: 'en-US', |
@IsAscii() | Checks if the string contains ASCII chars only. |
@IsBase64() | Checks if a string is base64 encoded. |
@IsByteLength(min: number, max?: number) | Checks if the string's length (in bytes) falls in a range. |
@IsCreditCard() | Checks if the string is a credit card. |
@IsCurrency(options?: IsCurrencyOptions) | Checks if the string is a valid currency amount. |
@IsEmail(options?: IsEmailOptions) | Checks if the string is an email. |
@IsFQDN(options?: IsFQDNOptions) | Checks if the string is a fully qualified domain name (e.g. domain.com). |
@IsFullWidth() | Checks if the string contains any full-width chars. |
@IsHalfWidth() | Checks if the string contains any half-width chars. |
@IsVariableWidth() | Checks if the string contains a mixture of full and half-width chars. |
@IsHexColor() | Checks if the string is a hexadecimal color. |
@IsHexadecimal() | Checks if the string is a hexadecimal number. |
@IsIP(version?: "4"|"6") | Checks if the string is an IP (version 4 or 6). |
@IsISBN(version?: "10"|"13") | Checks if the string is an ISBN (version 10 or 13). |
@IsISIN() | Checks if the string is an ISIN (stock/security identifier). |
@IsISO8601() | Checks if the string is a valid ISO 8601 date. |
@IsJSON() | Checks if the string is valid JSON. |
@IsLowercase() | Checks if the string is lowercase. |
@IsMobilePhone(locale: string) | Checks if the string is a mobile phone number. |
@IsISO31661Alpha2() | Check if the string is a valid ISO 3166-1 alpha-2 officially assigned country code. |
@IsISO31661Alpha3() | Check if the string is a valid ISO 3166-1 alpha-3 officially assigned country code. |
@IsPhoneNumber(region: string) | Checks if the string is a valid phone number. "region" accepts 2 characters uppercase country code (e.g. DE, US, CH).If users must enter the intl. prefix (e.g. +41), then you may pass "ZZ" or null as region. See google-libphonenumber, metadata.js:countryCodeToRegionCodeMap on github |
@IsMongoId() | Checks if the string is a valid hex-encoded representation of a MongoDB ObjectId. |
@IsMultibyte() | Checks if the string contains one or more multibyte chars. |
@IsNumberString() | Checks if the string is numeric. |
@IsSurrogatePair() | Checks if the string contains any surrogate pairs chars. |
@IsUrl(options?: IsURLOptions) | Checks if the string is an url. |
@IsUUID(version?: "3"|"4"|"5") | Checks if the string is a UUID (version 3, 4 or 5). |
@IsUppercase() | Checks if the string is uppercase. |
@Length(min: number, max?: number) | Checks if the string's length falls in a range. |
@MinLength(min: number) | Checks if the string's length is not less than given number. |
@MaxLength(max: number) | Checks if the string's length is not more than given number. |
@Matches(pattern: RegExp, modifiers?: string) | Checks if string matches the pattern. Either matches('foo', /foo/i) or matches('foo', 'foo', 'i'). |
@IsMilitaryTime() | Checks if the string is a valid representation of military time in the format HH:MM. |
Array validation decorators | |
@ArrayContains(values: any[]) | Checks if array contains all values from the given array of values. |
@ArrayNotContains(values: any[]) | Checks if array does not contain any of the given values. |
@ArrayNotEmpty() | Checks if given array is not empty. |
@ArrayMinSize(min: number) | Checks if array's length is as minimal this number. |
@ArrayMaxSize(max: number) | Checks if array's length is as maximal this number. |
@ArrayUnique() | Checks if all array's values are unique. Comparison for objects is reference-based. |
Object validation decorators | |
@IsInstance(value: any) | Checks if the property is an instance of the passed value. |
Other decorators | |
@Allow() | Prevent stripping off the property when no other constraint is specified for it. |
You can define your validation schemas without decorators:
.json
fileThis feature maybe useful in the cases if:
Here is an example of using it:
Create a schema object:
import {ValidationSchema} from "class-validator";
export let UserValidationSchema: ValidationSchema = { // using interface here is not required, its just for type-safety
name: "myUserSchema", // this is required, and must be unique
properties: {
firstName: [{
type: "minLength", // validation type. All validation types are listed in ValidationTypes class.
constraints: [2]
}, {
type: "maxLength",
constraints: [20]
}],
lastName: [{
type: "minLength",
constraints: [2]
}, {
type: "maxLength",
constraints: [20]
}],
email: [{
type: "isEmail"
}]
}
};
Same schema can be provided in .json
file, depend on your wish.
Register your schema:
import {registerSchema} from "class-validator";
import {UserValidationSchema} from "./UserValidationSchema";
registerSchema(UserValidationSchema); // if schema is in .json file, then you can simply do registerSchema(require("path-to-schema.json"));
Better to put this code in a global place, maybe when you bootstrap your application, for example in app.ts
.
Validate your object using validation schema:
import {validate} from "class-validator";
const user = { firstName: "Johny", secondName: "Cage", email: "johny@cage.com" };
validate("myUserSchema", user).then(errors => {
if (errors.length > 0) {
console.log("Validation failed: ", errors);
} else {
console.log("Validation succeed.");
}
});
That's it. Here "myUserSchema"
is the name of our validation schema.
validate
method will perform validation based on this schema
Due to nature of the decorators, the validated object has to be instantiated using new Class()
syntax. If you have your class defined using class-validator decorators and you want to validate plain JS object (literal object or returned by JSON.parse), you need to transform it to the class instance (e.g. using class-transformer) or just use the class-transformer-validator extension which can do that for you.
Take a look on samples in ./sample for more examples of usages.
There are several extensions that simplify class-validator integration with other modules:
See information about breaking changes and release notes here.
FAQs
Decorator-based property validation for classes.
The npm package class-validator receives a total of 2,761,944 weekly downloads. As such, class-validator popularity was classified as popular.
We found that class-validator demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 2 open source maintainers collaborating on the project.
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