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Version: v6 - stable

Validations & Constraints

In this tutorial you will learn how to setup validations and constraints for your models in Sequelize.

For this tutorial, the following setup will be assumed:

const { Sequelize, Op, Model, DataTypes } = require("sequelize");
const sequelize = new Sequelize("sqlite::memory:");

const User = sequelize.define("user", {
username: {
type: DataTypes.TEXT,
allowNull: false,
unique: true
},
hashedPassword: {
type: DataTypes.STRING(64),
validate: {
is: /^[0-9a-f]{64}$/i
}
}
});

(async () => {
await sequelize.sync({ force: true });
// Code here
})();

Difference between Validations and Constraints

Validations are checks performed in the Sequelize level, in pure JavaScript. They can be arbitrarily complex if you provide a custom validator function, or can be one of the built-in validators offered by Sequelize. If a validation fails, no SQL query will be sent to the database at all.

On the other hand, constraints are rules defined at SQL level. The most basic example of constraint is an Unique Constraint. If a constraint check fails, an error will be thrown by the database and Sequelize will forward this error to JavaScript (in this example, throwing a SequelizeUniqueConstraintError). Note that in this case, the SQL query was performed, unlike the case for validations.

Unique Constraint

Our code example above defines a unique constraint on the username field:

/* ... */ {
username: {
type: DataTypes.TEXT,
allowNull: false,
unique: true
},
} /* ... */

When this model is synchronized (by calling sequelize.sync for example), the username field will be created in the table as `username` TEXT UNIQUE, and an attempt to insert an username that already exists there will throw a SequelizeUniqueConstraintError.

Allowing/disallowing null values

By default, null is an allowed value for every column of a model. This can be disabled setting the allowNull: false option for a column, as it was done in the username field from our code example:

/* ... */ {
username: {
type: DataTypes.TEXT,
allowNull: false,
unique: true
},
} /* ... */

Without allowNull: false, the call User.create({}) would work.

Note about allowNull implementation

The allowNull check is the only check in Sequelize that is a mix of a validation and a constraint in the senses described at the beginning of this tutorial. This is because:

  • If an attempt is made to set null to a field that does not allow null, a ValidationError will be thrown without any SQL query being performed.
  • In addition, after sequelize.sync, the column that has allowNull: false will be defined with a NOT NULL SQL constraint. This way, direct SQL queries that attempt to set the value to null will also fail.

Validators

Model validators allow you to specify format/content/inheritance validations for each attribute of the model. Validations are automatically run on create, update and save. You can also call validate() to manually validate an instance.

Per-attribute validations

You can define your custom validators or use several built-in validators, implemented by validator.js (10.11.0), as shown below.

sequelize.define('foo', {
bar: {
type: DataTypes.STRING,
validate: {
is: /^[a-z]+$/i, // matches this RegExp
is: ["^[a-z]+$",'i'], // same as above, but constructing the RegExp from a string
not: /^[a-z]+$/i, // does not match this RegExp
not: ["^[a-z]+$",'i'], // same as above, but constructing the RegExp from a string
isEmail: true, // checks for email format (foo@bar.com)
isUrl: true, // checks for url format (https://foo.com)
isIP: true, // checks for IPv4 (129.89.23.1) or IPv6 format
isIPv4: true, // checks for IPv4 (129.89.23.1)
isIPv6: true, // checks for IPv6 format
isAlpha: true, // will only allow letters
isAlphanumeric: true, // will only allow alphanumeric characters, so "_abc" will fail
isNumeric: true, // will only allow numbers
isInt: true, // checks for valid integers
isFloat: true, // checks for valid floating point numbers
isDecimal: true, // checks for any numbers
isLowercase: true, // checks for lowercase
isUppercase: true, // checks for uppercase
notNull: true, // won't allow null
isNull: true, // only allows null
notEmpty: true, // don't allow empty strings
equals: 'specific value', // only allow a specific value
contains: 'foo', // force specific substrings
notIn: [['foo', 'bar']], // check the value is not one of these
isIn: [['foo', 'bar']], // check the value is one of these
notContains: 'bar', // don't allow specific substrings
len: [2,10], // only allow values with length between 2 and 10
isUUID: 4, // only allow uuids
isDate: true, // only allow date strings
isAfter: "2011-11-05", // only allow date strings after a specific date
isBefore: "2011-11-05", // only allow date strings before a specific date
max: 23, // only allow values <= 23
min: 23, // only allow values >= 23
isCreditCard: true, // check for valid credit card numbers

// Examples of custom validators:
isEven(value) {
if (parseInt(value) % 2 !== 0) {
throw new Error('Only even values are allowed!');
}
}
isGreaterThanOtherField(value) {
if (parseInt(value) <= parseInt(this.otherField)) {
throw new Error('Bar must be greater than otherField.');
}
}
}
}
});

Note that where multiple arguments need to be passed to the built-in validation functions, the arguments to be passed must be in an array. But if a single array argument is to be passed, for instance an array of acceptable strings for isIn, this will be interpreted as multiple string arguments instead of one array argument. To work around this pass a single-length array of arguments, such as [['foo', 'bar']] as shown above.

To use a custom error message instead of that provided by validator.js, use an object instead of the plain value or array of arguments, for example a validator which needs no argument can be given a custom message with

isInt: {
msg: "Must be an integer number of pennies"
}

or if arguments need to also be passed add an args property:

isIn: {
args: [['en', 'zh']],
msg: "Must be English or Chinese"
}

When using custom validator functions the error message will be whatever message the thrown Error object holds.

See the validator.js project for more details on the built in validation methods.

Hint: You can also define a custom function for the logging part. Just pass a function. The first parameter will be the string that is logged.

allowNull interaction with other validators

If a particular field of a model is set to not allow null (with allowNull: false) and that value has been set to null, all validators will be skipped and a ValidationError will be thrown.

On the other hand, if it is set to allow null (with allowNull: true) and that value has been set to null, only the built-in validators will be skipped, while the custom validators will still run.

This means you can, for instance, have a string field which validates its length to be between 5 and 10 characters, but which also allows null (since the length validator will be skipped automatically when the value is null):

class User extends Model {}
User.init({
username: {
type: DataTypes.STRING,
allowNull: true,
validate: {
len: [5, 10]
}
}
}, { sequelize });

You also can conditionally allow null values, with a custom validator, since it won't be skipped:

class User extends Model {}
User.init({
age: Sequelize.INTEGER,
name: {
type: DataTypes.STRING,
allowNull: true,
validate: {
customValidator(value) {
if (value === null && this.age !== 10) {
throw new Error("name can't be null unless age is 10");
}
}
}
}
}, { sequelize });

You can customize allowNull error message by setting the notNull validator:

class User extends Model {}
User.init({
name: {
type: DataTypes.STRING,
allowNull: false,
validate: {
notNull: {
msg: 'Please enter your name'
}
}
}
}, { sequelize });

Model-wide validations

Validations can also be defined to check the model after the field-specific validators. Using this you could, for example, ensure either neither of latitude and longitude are set or both, and fail if one but not the other is set.

Model validator methods are called with the model object's context and are deemed to fail if they throw an error, otherwise pass. This is just the same as with custom field-specific validators.

Any error messages collected are put in the validation result object alongside the field validation errors, with keys named after the failed validation method's key in the validate option object. Even though there can only be one error message for each model validation method at any one time, it is presented as a single string error in an array, to maximize consistency with the field errors.

An example:

class Place extends Model {}
Place.init({
name: Sequelize.STRING,
address: Sequelize.STRING,
latitude: {
type: DataTypes.INTEGER,
validate: {
min: -90,
max: 90
}
},
longitude: {
type: DataTypes.INTEGER,
validate: {
min: -180,
max: 180
}
},
}, {
sequelize,
validate: {
bothCoordsOrNone() {
if ((this.latitude === null) !== (this.longitude === null)) {
throw new Error('Either both latitude and longitude, or neither!');
}
}
}
})

In this simple case an object fails validation if either latitude or longitude is given, but not both. If we try to build one with an out-of-range latitude and no longitude, somePlace.validate() might return:

{
'latitude': ['Invalid number: latitude'],
'bothCoordsOrNone': ['Either both latitude and longitude, or neither!']
}

Such validation could have also been done with a custom validator defined on a single attribute (such as the latitude attribute, by checking (value === null) !== (this.longitude === null)), but the model-wide validation approach is cleaner.