UUID and time-based UUID data types

The driver provides ways to generate and decode UUIDs and time-based UUID.


The Uuid class provides support for representing Cassandra uuid data type. To generate a version 4 unique identifier, use the Uuid static method random():

const Uuid = require('dse-driver').types.Uuid;
const id = Uuid.random();

The driver decodes Cassandra uuid data type values as an instances of Uuid.

client.execute('SELECT id FROM users')
  .then(function (result) {
    console.log(result.rows[0].id instanceof Uuid); // true
    console.log(result.rows[0].id.toString());      // xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx

You can also parse a string representation of a uuid into a `Uuid instance:

const id = Uuid.fromString(stringValue);
console.log(id instanceof Uuid);            // true
console.log(id.toString() === stringValue); // true


The TimeUuid class provides support for representing Cassandra timeuuid data type. To generate a time-based identifier, you can use the now() and fromDate() static methods:

const TimeUuid = require('dse-driver').types.TimeUuid;
const id1 = TimeUuid.now();
const id2 = TimeUuid.fromDate(new Date());

The driver decodes CQL timeuuid data type values as instances of TimeUuid.

client.execute('SELECT id, timeid FROM sensor')
  .then(function (result) {
    console.log(result.rows[0].timeid instanceof TimeUuid); // true
    console.log(result.rows[0].timeid instanceof Uuid); // true, it inherits from Uuid
    console.log(result.rows[0].timeid.toString());      // <- xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
    console.log(result.rows[0].timeid.getDate());       // <- Date stored in the identifier

You can specify the other parts of the identifier, such as the node and the clock sequence, or the 100-nanosecond precision value of the date using the optional parameters in fromDate() method.

const ticks = 9123; // A number from 0 to 9999
const id = TimeUuid.fromDate(new Date(), ticks, node, clock);