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Installing and Configuring Neo4j on Ubuntu 22.04
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While relational databases enjoy longstanding market leadership positions, graph databases are greatly increasing in popularity. Neo4j is the leader among these, and this guide covers everything you need to install, configure, and begin using it on Ubuntu 22.04 LTS.
What Is Neo4j?
Neoj4 is an incredibly popular graph database management system (DBMS). At the time of this writing, it is the most popular graph DBMS, according to DB-engine’s ranking . Available under an open source license , you can freely install Neo4j on virtual machines, like Compute Instances. Once in place, you can create high-performance database applications that emphasize the management of, and searches for, connected data. For example, which people have been co-workers of other people, or which documents share semantic content with other documents. Learn the key benefits of Neo4j in our Introduction to Neo4j guide.
Before You Begin
If you have not already done so, create a Linode account and several Compute Instances. See our Getting Started and Creating a Compute Instance guides. You need two Ubuntu 22.04 LTS instances in the same datacenter. While it’s possible to experiment with Neo4j on a single-core instance backed by one gigabyte of RAM, practical Neo4j applications generally occupy at least four cores and eight or more gigabytes of RAM. Also be sure to add a private IP address to both instances.
Follow our Setting Up and Securing a Compute Instance guide to update your system. You may also wish to set the timezone, configure your hostname, create a limited user account, and harden SSH access.
sudo
. If you’re not familiar with the sudo
command, see the
Users and Groups
guide.The commands, file contents, and other instructions provided throughout this guide may include placeholders. These are typically domain names, IP addresses, usernames, passwords, and other values that are unique to you. The table below identifies these placeholder values and explains what to replace them with:
Placeholders: | Replace With: |
---|---|
INSTANCE_1_PUBLIC_IP | The Neo4j instance’s public IP address. |
INSTANCE_1_PRIVATE_IP | The Neo4j instance’s private IP address. |
YOUR_IP_ADDRESS | The public IP address of your local machine. |
NEO4J_PASSWORD | The password of the administrative neo4j user. |
LOCAL_NETWORK_ADDRESS/SUBNET | The local network address and subnet for the Instacne’s private IPv4 addresses. |
Install Neo4j
Follow the steps below on both Ubuntu 22.04 LTS cloud compute instances to install Neo4j.
Install Neo4j’s missing dependencies:
Instance 1 & 2sudo apt install apt-transport-https gnupg2 unzip
Install the official Neo4j package repository’s GPG key:
Instance 1 & 2curl -fsSL https://debian.neo4j.com/neotechnology.gpg.key | sudo gpg --dearmor -o /etc/apt/trusted.gpg.d/neo4j.gpg
Make the official Neo4j package repository available to your Ubuntu cloud compute instance:
Instance 1 & 2echo 'deb https://debian.neo4j.com stable latest' | sudo tee -a /etc/apt/sources.list.d/neo4j.list
Update your package manager:
Instance 1 & 2sudo apt update
Install the Neo4j package:
Instance 1 & 2sudo apt install neo4j
Enter Y and press Enter when prompted.
Neo4j is now installed on your instances.
Activate Neo4j
Only follow the steps below on the first instance, this instance acts as the Neo4j server.
Start the Neo4j service:
Instance 1sudo systemctl start neo4j
Enable Neo4j as a system service so that it launches at boot:
Instance 1sudo systemctl enable neo4j
Verify the correct installation of Neo4j:
Instance 1sudo systemctl status neo4j
Look for
active (running)
in the output:● neo4j.service - Neo4j Graph Database Loaded: loaded (/lib/systemd/system/neo4j.service; enabled; vendor preset: enabled) Active: active (running) since Fri 2023-09-29 19:36:26 EDT; 3s ago
When done, press the q key to close the output and return to the terminal prompt.
Neo4j is now active on your first instance.
First Login
With Neo4j installed and running, it’s time to log in to the cypher-shell
for the first time.
Launch Neo4j’s
cypher-shell
interactive interpreter:Instance 1cypher-shell
cypher-shell
requests ausername
andpassword
each time it’s run this way. On a new installation, use the built-in default ofneo4j
as both theusername
andpassword
.cypher-shell
immediately requires a password update for theneo4j
account when first run. Choose a new password for the administrativeneo4j
account and store it somewhere safe for later reference.Once logged in with an updated password, the
cypher-shell
prompt appears:neo4j@neo4j>
Leave a
cypher-shell
session with:Instance 1:exit
The Managing users page of the official Neo4j documentation provides more information about account names and passwords.
Using Cypher-Shell
Now that you can login and logout, follow along with the steps below to learn how to enter and retrieve Neo4j data.
Log in again using the newly created password for the administrative
neo4j
account:Instance 1cypher-shell
The
:help
command provides a list of available commands:Instance 1:help
Available commands: :begin Open a transaction :commit Commit the currently open transaction :connect Connects to a database :disconnect Disconnects from database :exit Exit the logger :help Show this help message :history Statement history :impersonate Impersonate user :param Set the value of a query parameter :rollback Rollback the currently open transaction :source Executes Cypher statements from a file :sysinfo Neo4j system information :use Set the active database For help on a specific command type: :help command Keyboard shortcuts: Up and down arrows to access statement history. Tab for autocompletion of commands, hit twice to select suggestion from list using arrow keys. For help on cypher please visit: https://neo4j.com/docs/cypher-manual/current/
Continue by entering some sample data. For example, imagine you’re involved in a neighborhood “Welcome” organization. First, create a node for the organization:
Instance 1CREATE (:Welcome);
0 rows ready to start consuming query after 64 ms, results consumed after another 0 ms Added 1 nodes, Added 1 labels
Now add a record for one of its members:
Instance 1CREATE (:Welcome {name: 'Mary Jones'});
0 rows ready to start consuming query after 32 ms, results consumed after another 0 ms Added 1 nodes, Set 1 properties, Added 1 labels
Confirm that Neo4j stored this new data by retrieving it:
Instance 1Match (node) Return node;
+---------------------------------+ | node | +---------------------------------+ | (:Welcome) | | (:Welcome {name: "Mary Jones"}) | +---------------------------------+ 2 rows ready to start consuming query after 25 ms, results consumed after another 5 ms
When done, exit the
cypher-shell
prompt:Instance 1:exit
Neo4j’s Cypher language is capable of much more. The Getting Started with Cypher page on the official Neo4j documentation site is a good place to discover its capabilities.
Neo4j Configuration Essentials
Neo4j is an enterprise-class database manager whose typical installations measure in the terabytes. Neo4j configuration is a deep subject that the Neo4j Operations Manual v5 only begins to reveal. However, everyone who works with Ubuntu 22.04 LTS installations needs to be familiar with this basic configuration procedure.
Open Neo4j’s installation configuration file, located by default at
/etc/neo4j/neo4j.conf
in Ubuntu 22.04 LTS:Instance 1sudo nano /etc/neo4j/neo4j.conf
When done editing, press CTRL+X, followed by Y then Enter to save the file and exit
nano
.Make any changes to this configuration file effective using the following command:
Instance 1sudo systemctl restart neo4j
Neo4j’s default configuration is solid, with few reasons to alter it. To configure your Neo4j server in more advanced ways, reference the official Neo4j documentation site as your starting point.
Accept Local Network Connections
Below are the essential updates your Neo4j server needs to enable local network connections.
Open
neo4j.conf
in a text editor with root permissions:Instance 1sudo nano /etc/neo4j/neo4j.conf
Locate the
#server.default_listen_address=0.0.0.0
line and remove its comment character (#
) so that it appears as shown below:- File: /etc/neo4j/neo4j.conf
1 2 3 4 5 6 7 8 9
... #***************************************************************** # Network connector configuration #***************************************************************** # With default configuration Neo4j only accepts local connections. # To accept non-local connections, uncomment this line: server.default_listen_address=0.0.0.0 ...
Enabling this line (by removing the comment) alerts Neo4j to listen to all IPv4 network interfaces.
Restriction to specific IPv4 ports, and extension to IPv6, are other possibilities for advanced practitioners. For now, activation of
default_listen
is the only update you need to make to Neo4j itself.When done, press CTRL+X, followed by Y then Enter to save the file and exit
nano
.In order for the changes to take effect, restart Neo4j:
Instance 1sudo systemctl restart neo4j
Use the following command to update the default firewall settings to allow access from the entire local network:
Instance 1sudo ufw allow from LOCAL_NETWORK_ADDRESS/SUBNET to any port 7687 proto tcp
Note If you’re connecting to your compute instance via SSH, make sure to open port
22
before enabling UFW. Otherwise, your connection might be lost, leaving the LISH Console as the only way to log back in to your instance.Use the following command to open the SSH port (
22
):Instance 1sudo ufw allow 22/tcp
Enable the system firewall:
Instance 1sudo ufw enable
When prompted, press y to continue.
Firewall is active and enabled on system startup
Verify the firewall configuration:
Instance 1sudo ufw status
Status: active To Action From -- ------ ---- 7687/tcp ALLOW 192.168.128.0/17 22/tcp ALLOW Anywhere 22/tcp (v6) ALLOW Anywhere (v6)
Use the following command on the second instance in the same datacenter to reach your server through the local network:
Instance 2cypher-shell -a neo4j://INSTANCE_1_PRIVATE_IP:7687 -u neo4j -p NEO4J_PASSWORD
Use the
neo4j
account along with the password you previously chose, just as you did earlier for a local connection. This places you back in the interactivecypher-shell
practiced in the previous section.Re-run the
MATCH
command from the previous section:Instance 1Match (node) Return node;
You should be presented with the same data as before:
+---------------------------------+ | node | +---------------------------------+ | (:Welcome) | | (:Welcome {name: "Mary Jones"}) | +---------------------------------+ 2 rows ready to start consuming query after 25 ms, results consumed after another 5 ms
When done, exit the
cypher-shell
prompt:Instance 1:exit
This demonstrates management of Neo4j data through a local network connection.
Accept a Remote Connection
Below are the essential updates your Neo4j server needs to enable a remote connection to your local desktop for use with the Neo4j Browser.
Return to the terminal of your Neo4j server and update the default firewall settings to allow access from a single remote machine (e.g. your desktop):
Instance 1sudo ufw allow from YOUR_IP_ADDRESS to any port 7687,7474 proto tcp
Reload the system firewall for changes to take effect:
Instance 1sudo ufw reload
Verify the firewall configuration:
Instance 1sudo ufw status
Status: active To Action From -- ------ ---- 7687/tcp ALLOW 192.168.128.0/17 22/tcp ALLOW Anywhere 7474,7687/tcp ALLOW 01.234.567.89 22/tcp (v6) ALLOW Anywhere (v6)
You should now be able to access your Neo4j instance from a web browser on your local desktop (covered in the next section).
Neo4j is a general-purpose platform, so each of these exercises provides but one example of typical usage. You can adapt these instructions to your own situation. For example, your architecture might call for connections from exactly one external network endpoint which hosts a special-purpose application server. Alternatively, you might use Neo4j as an authoritative data store accessed by hundreds or even thousands of distinct client applications and their connections.
Using the Neo4j Browser
The previous sections cover the command-line cypher-shell
as it is the most basic tool for those new to Neo4j data management. While most developers and administrators should learn cypher-shell
, it’s also possible to instead start with the Neo4j Browser, and never use cypher-shell
.
Open a web browser on your local desktop and navigate to the following URL:
http://INSTANCE_1_PUBLIC_IP:7474
.Enter
neo4j
foruser
and your chosen password forpassword
just as you did earlier through the command-line interface.You should now see a set of quick links to the help topics Getting started with Neo4j Browser, Try Neo4j with live data, and Cypher basics:
In particular, select Open guide under Try Neo4j with live data and follow the directions there.
The tutorial is acting on your Neo4j installation. You’re creating, updating, and finding data in the same Neo4j instance created in previous sections.
After running the first command (step two), switch back to a cloud compute instance and open
cypher-shell
using one of the instructions above.Use the following command to retrieve some of this new data:
Instance 1 or 2MATCH (tom:Person {name: "Tom Hanks"}) RETURN tom;
You should receive data about Tom Hanks from your graph database hosted on the first instance:
+-------------------------------------------+ | tom | +-------------------------------------------+ | (:Person {name: "Tom Hanks", born: 1956}) | +-------------------------------------------+ 1 row ready to start consuming query after 2 ms, results consumed after another 0 ms
One of the many strengths of the Neo4j Browser is that it builds in rich visualization capabilities . For instance, you can work entirely through the API and take advantage of the Neo4j Browser to make quick diagrams about your data.
Conclusion
You should now be able to install a Neo4j graph database on an Ubuntu 22.04 LTS compute instance. You should also know the basics of Neo4j configuration, as well as how to open access across a local network or to a remote machine. Neo4j data can be entered and accessed using the cyper-shell
command-line tool or via the graphical Neo4j Browser.
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