/neo4j-javascript-driver

Neo4j Bolt driver for JavaScript

Primary LanguageJavaScriptApache License 2.0Apache-2.0

Neo4j Driver for Javascript

A database driver for Neo4j 3.0.0+.

Resources to get you started:

Include module in Node.js application

Stable channel:

npm install neo4j-driver
// or
bower install neo4j-driver

Pre-release channel:

npm install neo4j-driver@next

Please note that @next only points to pre-releases that are not suitable for production use. To get the latest stable release omit @next part altogether or use @latest instead.

var neo4j = require('neo4j-driver').v1;

Driver instance should be closed when Node.js application exits:

driver.close();

otherwise application shutdown might hang or it might exit with a non-zero exit code.

Include in web browser

We build a special browser version of the driver, which supports connecting to Neo4j over WebSockets.

<script src="lib/browser/neo4j-web.min.js"></script>

This will make a global neo4j object available, where you can access the v1 API at neo4j.v1:

var driver = neo4j.driver("bolt://localhost", neo4j.auth.basic("neo4j", "neo4j"));

It is not required to explicitly close the driver on a web page. Web browser should gracefully close all open WebSockets when the page is unloaded. However, driver instance should be explicitly closed when it's lifetime is not the same as the lifetime of the web page:

driver.close();

Usage examples

Driver creation:

// Create a driver instance, for the user neo4j with password neo4j.
// It should be enough to have a single driver per database per application.
var driver = neo4j.driver("bolt://localhost", neo4j.auth.basic("neo4j", "neo4j"));

// Register a callback to know if driver creation was successful:
driver.onCompleted = function () {
  // proceed with using the driver, it was successfully instantiated
};

// Register a callback to know if driver creation failed.
// This could happen due to wrong credentials or database unavailability:
driver.onError = function (error) {
  console.log('Driver instantiation failed', error);
};

// Close the driver when application exits.
// This closes all used network connections.
driver.close();

Session API:

// Create a session to run Cypher statements in.
// Note: Always make sure to close sessions when you are done using them!
var session = driver.session();

// Run a Cypher statement, reading the result in a streaming manner as records arrive:
session
  .run('MERGE (alice:Person {name : {nameParam} }) RETURN alice.name AS name', {nameParam: 'Alice'})
  .subscribe({
    onNext: function (record) {
      console.log(record.get('name'));
    },
    onCompleted: function () {
      session.close();
    },
    onError: function (error) {
      console.log(error);
    }
  });

// or
// the Promise way, where the complete result is collected before we act on it:
session
  .run('MERGE (james:Person {name : {nameParam} }) RETURN james.name AS name', {nameParam: 'James'})
  .then(function (result) {
    result.records.forEach(function (record) {
      console.log(record.get('name'));
    });
    session.close();
  })
  .catch(function (error) {
    console.log(error);
  });

Transaction functions API:

// Transaction functions provide a convenient API with minimal boilerplate and
// retries on network fluctuations and transient errors. Maximum retry time is
// configured on the driver level and is 30 seconds by default:
neo4j.driver("bolt://localhost", neo4j.auth.basic("neo4j", "neo4j"), {maxTransactionRetryTime: 30000});

// It is possible to execute read transactions that will benefit from automatic
// retries on both single instance ('bolt' URI scheme) and Causal Cluster
// ('bolt+routing' URI scheme) and will get automatic load balancing in cluster deployments
var readTxResultPromise = session.readTransaction(function (transaction) {
  // used transaction will be committed automatically, no need for explicit commit/rollback

  var result = transaction.run('MATCH (person:Person) RETURN person.name AS name');
  // at this point it is possible to either return the result or process it and return the
  // result of processing it is also possible to run more statements in the same transaction
  return result;
});

// returned Promise can be later consumed like this:
readTxResultPromise.then(function (result) {
  session.close();
  console.log(result.records);
}).catch(function (error) {
  console.log(error);
});

// It is possible to execute write transactions that will benefit from automatic retries
// on both single instance ('bolt' URI scheme) and Causal Cluster ('bolt+routing' URI scheme)
var writeTxResultPromise = session.writeTransaction(function (transaction) {
  // used transaction will be committed automatically, no need for explicit commit/rollback

  var result = transaction.run('MERGE (alice:Person {name : \'Alice\' }) RETURN alice.name AS name');
  // at this point it is possible to either return the result or process it and return the
  // result of processing it is also possible to run more statements in the same transaction
  return result.records.map(function (record) {
    return record.get('name');
  });
});

// returned Promise can be later consumed like this:
writeTxResultPromise.then(function (namesArray) {
  session.close();
  console.log(namesArray);
}).catch(function (error) {
  console.log(error);
});

Explicit transactions API:

// run statement in a transaction
var tx = session.beginTransaction();
tx.run("MERGE (bob:Person {name : {nameParam} }) RETURN bob.name AS name", {nameParam: 'Bob'})
  .subscribe({
    onNext: function (record) {
      console.log(record.get('name'));
    },
    onCompleted: function () {
      session.close();
    },
    onError: function (error) {
      console.log(error);
    }
  });

//decide if the transaction should be committed or rolled back
var success = false;

if (success) {
  tx.commit()
    .subscribe({
      onCompleted: function () {
        // this transaction is now committed 
      },
      onError: function (error) {
        console.log(error);
      }
    });
} else {
  //transaction is rolled black and nothing is created in the database
  console.log('rolled back');
  tx.rollback();
}

Subscriber API allows following combinations of onNext, onCompleted and onError callback invocations:

  • zero or more onNext followed by onCompleted when operation was successful. onError will not be invoked in this case
  • zero or more onNext followed by onError when operation failed. Callback onError might be invoked after couple onNext invocations because records are streamed lazily by the database. onCompleted will not be invoked in this case

Building

npm install
npm build

This produces browser-compatible standalone files under lib/browser and a Node.js module version under lib/. See files under examples/ on how to use.

Testing

Tests require latest Boltkit to be installed in the system. It is needed to start, stop and configure local test database. Boltkit can be installed with the following command:

pip install --upgrade boltkit

To run tests against "default" Neo4j version:

./runTests.sh

To run tests against specified Neo4j version:

./runTests.sh '-e 3.1.3'

Simple npm test can also be used if you already have a running version of a compatible Neo4j server.

For development, you can have the build tool rerun the tests each time you change the source code:

gulp watch-n-test

Testing on windows

Running tests on windows requires PhantomJS installed and its bin folder added in windows system variable Path. To run the same test suite, run .\runTest.ps1 instead in powershell with admin right. The admin right is required to start/stop Neo4j properly as a system service. While there is no need to grab admin right if you are running tests against an existing Neo4j server using npm test.

A note on numbers and the Integer type

The Neo4j type system includes 64-bit integer values. However, Javascript can only safely represent integers between -(253 - 1) and (253 - 1). In order to support the full Neo4j type system, the driver will not automatically convert to javascript integers. Any time the driver receives an integer value from Neo4j, it will be represented with an internal integer type by the driver.

Write integers

Number written directly e.g. session.run("CREATE (n:Node {age: {age}})", {age: 22}) will be of type Float in Neo4j. To write the age as an integer the neo4j.int method should be used:

var neo4j = require('neo4j-driver').v1;

session.run("CREATE (n {age: {myIntParam}})", {myIntParam: neo4j.int(22)});

To write integers larger than can be represented as JavaScript numbers, use a string argument to neo4j.int:

session.run("CREATE (n {age: {myIntParam}})", {myIntParam: neo4j.int("9223372036854775807")});

Read integers

Since Integers can be larger than can be represented as JavaScript numbers, it is only safe to convert to JavaScript numbers if you know that they will not exceed (253 - 1) in size. In order to facilitate working with integers the driver include neo4j.isInt, neo4j.integer.inSafeRange, neo4j.integer.toNumber, and neo4j.integer.toString.

var aSmallInteger = neo4j.int(123);
if (neo4j.integer.inSafeRange(aSmallInteger)) {
    var aNumber = aSmallInteger.toNumber();
}

If you will be handling integers larger than that, you should convert them to strings:

var aLargerInteger = neo4j.int("9223372036854775807");
if (!neo4j.integer.inSafeRange(aSmallInteger)) {
    var integerAsString = aLargerInteger.toString();
}