neo4j-go-driver

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Published: May 16, 2023 License: Apache-2.0

README

neo4j-go-driver

This is the official Neo4j Go Driver.

Getting the Driver

Go version prerequisites

The Go driver only works with actively maintained Go versions.

Read Go official release policy to learn more.

Module version

Make sure your application has been set up to use go modules (there should be a go.mod file in your application root).

5.x

Add the driver with:

go get github.com/neo4j/neo4j-go-driver/v5
4.x

Add the driver with:

go get github.com/neo4j/neo4j-go-driver/v4
1.x

For versions 1.x of the driver (notice the absence of /v4 or /v5), run instead the following:

go get github.com/neo4j/neo4j-go-driver

Documentation

Drivers manual that describes general driver concepts in depth here. Go package API documentation here.

Preview Features

The preview feature is a new feature that is a candidate for a future GA status.

It enables users to try the feature out and maintainers to refine and update it.

The preview features are not considered to be experimental, temporary or unstable.

However, they may change more rapidly, without following the usual deprecation cycle.

Most preview features are expected to be granted the GA status unless some unexpected conditions arise.

Due to the increased flexibility of the preview status, user feedback is encouraged so that it can be considered before the GA status.

Every preview feature gets a dedicated GitHub Discussion where users can share their initial impressions and thoughts.

Migrating from previous versions

See migration guide for information on how to migrate from previous versions of the driver to the current one.

Minimum Viable Snippet

Connect, execute a statement and handle results

Make sure to use the configuration in the code that matches the version of Neo4j server that you run.

package main

import (
    "context"
    "fmt"
    "github.com/neo4j/neo4j-go-driver/v5/neo4j"
)

func main() {
    dbUri := "neo4j://localhost" // scheme://host(:port) (default port is 7687)
    driver, err := neo4j.NewDriverWithContext(dbUri, neo4j.BasicAuth("neo4j", "letmein!", ""))
    if err != nil {
        panic(err)
    }
    // Starting with 5.0, you can control the execution of most driver APIs
    // To keep things simple, we create here a never-cancelling context
    // Read https://pkg.go.dev/context to learn more about contexts
    ctx := context.Background()
    // Handle driver lifetime based on your application lifetime requirements.
    // driver's lifetime is usually bound by the application lifetime, which usually implies one driver instance per
    // application

    defer driver.Close(ctx) // Make sure to handle errors during deferred calls
    item, err := insertItem(ctx, driver)
    if err != nil {
        panic(err)
    }
    fmt.Printf("%v\n", item)
}

func insertItem(ctx context.Context, driver neo4j.DriverWithContext) (*Item, error) {
    result, err := neo4j.ExecuteQuery(ctx, driver,
        "CREATE (n:Item { id: $id, name: $name }) RETURN n",
        map[string]any{
            "id":   1,
            "name": "Item 1",
        }, neo4j.EagerResultTransformer)
    if err != nil {
        return nil, err
    }
    itemNode, _, err := neo4j.GetRecordValue[neo4j.Node](result.Records[0], "n")
    if err != nil {
        return nil, fmt.Errorf("could not find node n")
    }
    id, err := neo4j.GetProperty[int64](itemNode, "id")
    if err != nil {
        return nil, err
    }
    name, err := neo4j.GetProperty[string](itemNode, "name")
    if err != nil {
        return nil, err
    }
    return &Item{Id: id, Name: name}, nil
}

type Item struct {
    Id   int64
    Name string
}

func (i *Item) String() string {
    return fmt.Sprintf("Item (id: %d, name: %q)", i.Id, i.Name)
}

Server/Driver compatibility

Starting with 5.0, the Neo4j Drivers will be moving to a monthly release cadence. A minor version will be released on the last Friday of each month so as to maintain versioning consistency with the core product (Neo4j DBMS) which has also moved to a monthly cadence.

As a policy, patch versions will not be released except on rare occasions. Bug fixes and updates will go into the latest minor version and users should upgrade to that. Driver upgrades within a major version will never contain breaking API changes.

See also: https://neo4j.com/developer/kb/neo4j-supported-versions/

Connecting to a causal cluster

You just need to use neo4j as the URL scheme and set host of the URL to one of your core members of the cluster.

if driver, err = neo4j.NewDriver("neo4j://localhost:7687", neo4j.BasicAuth("username", "password", "")); err != nil {
	return err // handle error
}

There are a few points that need to be highlighted:

  • Each Driver instance maintains a pool of connections inside, as a result, it is recommended to only use one driver per application.
  • It is considerably cheap to create new sessions and transactions, as sessions and transactions do not create new connections as long as there are free connections available in the connection pool.
  • The driver is thread-safe, while the session or the transaction is not thread-safe.

Parsing Result Values

Record Stream

A cypher execution result is comprised of a stream of records followed by a result summary. The records inside the result can be accessed via Next()/Record() functions defined on Result. It is important to check Err() after Next() returning false to find out whether it is the end of the result stream or an error that caused the end of result consumption.

	// Next returns false upon error
	for result.Next(ctx) {
		record := result.Record()
		handleRecord(record)
	}
	// Err returns the error that caused Next to return false
	if err = result.Err(); err != nil {
		handleError(err)
	}
Accessing Values in a Record

Values in a Record can be accessed either by index or by alias. The return value is an any which means you need to convert the interface to the expected type

value := record.Values[0]
if value, ok := record.Get('field_name'); ok {
	// a value with alias field_name was found
	// process value
}
Value Types

The driver exposes values in the record as an any type. The underlying types of the returned values depend on the corresponding Cypher types.

The mapping between Cypher types and the types used by this driver (to represent the Cypher type):

Cypher Type Driver Type
null nil
List []any
Map map[string]any
Boolean bool
Integer int64
Float float
String string
ByteArray []byte
Node neo4j.Node
Relationship neo4j.Relationship
Path neo4j.Path
Spatial Types - Point
Cypher Type Driver Type
Point neo4j.Point2D
Point neo4j.Point3D

The temporal types are introduced in Neo4j 3.4 series.

You can create a 2-dimensional Point value using;

point := neo4j.Point2D {X: 1.0, Y: 2.0, SpatialRefId: srId }

or a 3-dimensional point value using;

point := neo4j.Point3D {X: 1.0, Y: 2.0, Z: 3.0, SpatialRefId: srId }

NOTE:

  • For a list of supported srId values, please refer to the docs here.
Temporal Types - Date and Time

The temporal types are introduced in Neo4j 3.4 series. Given the fact that database supports a range of different temporal types, most of them are backed by custom types defined at the driver level.

The mapping among the Cypher temporal types and actual exposed types are as follows:

Cypher Type Driver Type
Date neo4j.Date
Time neo4j.OffsetTime
LocalTime neo4j.LocalTime
DateTime time.Time
LocalDateTime neo4j.LocalDateTime
Duration neo4j.Duration

Receiving a temporal value as driver type:

dateValue := record.Values[0].(neo4j.Date)

All custom temporal types can be constructed from a time.Time value using <Type>Of() (DateOf, OffsetTimeOf, ...) functions.

dateValue := DateOf(time.Date(2005, time.December, 16, 0, 0, 0, 0, time.Local)

Converting a custom temporal value into time.Time (all neo4j temporal types expose Time() function to gets its corresponding time.Time value):

dateValueAsTime := dateValue.Time()

Note:

  • When neo4j.OffsetTime is converted into time.Time or constructed through OffsetTimeOf(time.Time), its Location is given a fixed name of Offset (i.e. assigned time.FixedZone("Offset", offsetTime.offset)).
  • When time.Time values are sent/received through the driver, if its Zone() returns a name of Offset the value is stored with its offset value and with its zone name otherwise.

Logging

Logging at the driver level can be configured by setting Log field of neo4j.Config through configuration functions that can be passed to neo4j.NewDriver function.

Console Logger

For simplicity, we provide a predefined console logger which can be constructed by neo4j.ConsoleLogger function. To enable console logger, you need to specify which level you need to enable (neo4j.ERROR, neo4j.WARNING, neo4j.INFO and neo4j.DEBUG which are ordered by the level of detail).

A simple code snippet that will enable console logging is as follows;

useConsoleLogger := func(level neo4j.LogLevel) func(config *neo4j.Config) {
	return func(config *neo4j.Config) {
		config.Log = neo4j.ConsoleLogger(level)
	}
}

// Construct a new driver
if driver, err = neo4j.NewDriver(uri, neo4j.BasicAuth(username, password, ""), useConsoleLogger(neo4j.ERROR)); err != nil {
	return err
}
defer driver.Close()
Custom Logger

The Log field of the neo4j.Config struct is defined to be of interface neo4j/log.Logger which has the following definition:

type Logger interface {
	Error(name string, id string, err error)
	Warnf(name string, id string, msg string, args ...any)
	Infof(name string, id string, msg string, args ...any)
	Debugf(name string, id string, msg string, args ...any)
}

For a customised logging target, you can implement the above interface and pass an instance of that implementation to the Log field.

Bolt tracing

Logging Bolt messages is done at the session level and is configured independently of the logging configuration described above. This is disabled by default.

Console Bolt logger

For simplicity, we provide a predefined console logger which can be constructed by neo4j.ConsoleBoltLogger.

session := driver.NewSession(neo4j.SessionConfig{
	BoltLogger: neo4j.ConsoleBoltLogger(),
})
defer session.Close()
// [...]
Custom Bolt Logger

The BoltLogger field of the neo4j.SessionConfig struct is defined to be of interface neo4j/log.BoltLogger which has the following definition:

type BoltLogger interface {
	LogClientMessage(context string, msg string, args ...any)
	LogServerMessage(context string, msg string, args ...any)
}

For a customised logging target, you can implement the above interface and pass an instance of that implementation to the BoltLogger field.

Development

This section describes instructions to use during the development phase of the driver.

Prerequisites

The Go driver on this branch requires at least Go 1.18 and relies on Go modules for dependency resolution.

Unit Testing

You can run unit tests as follows:

go test -short ./...
Integration and Benchmark Testing

For these tests, you'll need to start a Neo4j server. This can be done with Neo4j Desktop or with the official Docker image:

docker run --rm \
  --env NEO4J_ACCEPT_LICENSE_AGREEMENT=yes \
  --env NEO4J_AUTH=neo4j/password \
  --publish=7687:7687 \
  --health-cmd 'cypher-shell -u neo4j -p password "RETURN 1"' \
  --health-interval 5s \
  --health-timeout 5s \
  --health-retries 5 \
  neo4j:4.4-enterprise

Once the server is running, you run integration tests like this:

TEST_NEO4J_HOST="localhost" TEST_NEO4J_VERSION=4.4 \
  go test ./neo4j/test-integration/...

Likewise, benchmark tests are run like this:

cd benchmark
go run . neo4j://localhost neo4j password
All-In-One / Acceptance Testing

Tests require the latest Testkit, Python3 and Docker.

Testkit needs to be cloned and configured to run against the Go Driver. Use the following steps to configure it.

  1. Clone the Testkit repository
git clone https://github.com/neo4j-drivers/testkit.git
  1. Under the Testkit folder, install the requirements.
pip3 install -r requirements.txt
  1. Define the following required environment variables
export TEST_DRIVER_NAME=go
export TEST_DRIVER_REPO=<path for the root folder of driver repository>

To run test against some Neo4j version:

python3 main.py

More details about how to use Testkit can be found on its repository

Directories

Path Synopsis
Package neo4j provides required functionality to connect and execute statements against a Neo4j Database.
Package neo4j provides required functionality to connect and execute statements against a Neo4j Database.
db
dbtype
Package dbtype contains definitions of supported database types.
Package dbtype contains definitions of supported database types.
internal/bolt
Package bolt contains implementations of the database functionality.
Package bolt contains implementations of the database functionality.
internal/connector
Package connector is responsible for connecting to a database server.
Package connector is responsible for connecting to a database server.
internal/db
Package db defines generic database functionality.
Package db defines generic database functionality.
internal/packstream
Package packstream handles serialization of data sent to database server and deserialization of data received from database server.
Package packstream handles serialization of data sent to database server and deserialization of data received from database server.
internal/pool
Package pool handles the database connection pool.
Package pool handles the database connection pool.
internal/retry
Package retry handles retry operations.
Package retry handles retry operations.
internal/testutil
Package testutil contains shared test functionality
Package testutil contains shared test functionality
log
Package log defines the logging interface used internally by the driver and provides default logging implementations.
Package log defines the logging interface used internally by the driver and provides default logging implementations.
test-integration/dbserver
Package dbserver is used by integration tests to connect to databases
Package dbserver is used by integration tests to connect to databases
Tool used for verifying driver under load.
Tool used for verifying driver under load.
Implementation of testkit backend
Implementation of testkit backend

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