Linea Besu
Linea Besu is an implementation of the Besu client that extends its functionality using plugins adapted specifically for Linea, such as the Linea Sequencer plugin.
Plugins enable full functionality for the node. For example,
Linea-specific API endpoints like linea_estimateGas
require the linea-sequencer
plugin.
Plugins are installed with the advanced
profile during the configuration steps.
The advanced
profile option doesn't currently support macOS/ARM. Please use
Linux/ARM or Windows/X86_64.
We recommend using Linea Besu over standard Besu if you intend to run a node to interact with the blockchain, rather than just following it. Use Linea Besu if:
- You are responsible for operating nodes as a service for others to use.
- You want to use Linea with a personal, private RPC endpoint.
Run using the binary distribution​
Step 1. Download the Linea Besu package​
Download the latest version of the Linea Besu package from the releases page.
Find the Assets subheading on the latest release and download the file named
linea-besu-package-<version>.tar.gz
.
Step 2. Extract the package contents​
The linea-besu-package-<version>.tar.gz
is a compressed file; move it to the directory of your choice
and extract it.
tar -xzvf linea-besu-package-<version>.tar.gz
Step 3. Define disk space volume (optional)​
Define a volume size appropriate to your expected usage. Besu nodes use:
- Full node: Total size 230.3 GB; increasing by 8.62 GB daily
- Archive node: Total size 2.95 TB; increasing by 4.38 GB daily
Last updated: Nov 25, 2024
Use these figures as a basis to determine the extent to which you want to future-proof your node.
Ensure you mount the data-path
to the custom volume when you start the node.
Blockchain clients can take up a lot of disk space. By defining the amount of disk space you're willing to dedicate to your client (and the block data that it will be syncing), you can ensure that you still have enough room on your disk for whatever else you need.
Select the relevant operating system for the steps on how to create a custom volume.
Ubuntu
- Open Terminal
- Use the
df -h
command to check the available disk space - Choose a maximum size for the volume. We'll use 100GB for this example.
- Use
fallocate
to create a file of the desired size, e.g.fallocate -l 100G myfile.img
- Use
mkfs.ext4
to format the file as an ext4 filesystem. e.g.mkfs.ext4 myfile.img
- Mount the file using
mount
, e.g.mount -o loop myfile.img /mnt/myvolume
- The contents will now be available in
/mnt/myvolume
, up to a maximum of 100GB
MacOS
- Open Terminal
- Use the
df -h
command to check the available disk space - Choose a maximum size for the volume. We'll use 100GB for this example.
- Use
hdiutil
to create a sparse image of the desired size, e.g.hdiutil create -size 100g -type SPARSE -fs HFS+X myfile.dmg
- Mount the image using
hdiutil
, e.g.hdiutil attach myfile.dmg
- The contents will now be available mounted under
/Volumes
, up to a maximum of 100GB
Windows
Without Windows Subsystem Linux
- Open Command Prompt as Administrator
- Use the
dir
command to check available disk space on the volume you want to create the disk image - Choose a maximum size for the volume. We'll use 100GB for this example.
- Use the
fsutil
command to create a sparse file of the desired size, e.g.fsutil file createnew myfile.img 107374182400
(for a 100GB file) - Initialize the disk image using
diskpart
:diskpart
select vdisk file="myfile.img"
create vdisk maximum=100000
attach vdisk
exit
- Format the volume using
format
, e.g.format F: /FS:NTFS /A:64K /Q
- The new volume will now be available as drive letter F:, up to the maximum 100GB size
To mount an existing disk image:
- Open Command Prompt as Administrator
- Use
diskpart
select vdisk file="myfile.img"
attach vdisk
- The disk image will be mounted and accessible under the assigned drive letter
With Windows Subsystem Linux
- Open WSL
- Use the
df -h
command to check the available disk space - Choose a maximum size for the volume. We'll use 100GB for this example.
- Use
fallocate
to create a file of the desired size, e.g.fallocate -l 100G myfile.img
- Use
mkfs.ext4
to format the file as an ext4 filesystem. e.g.mkfs.ext4 myfile.img
- Mount the file using
mount
, e.g.mount -o loop myfile.img /mnt/myvolume
- The contents will now be available in
/mnt/myvolume
, up to a maximum of 100GB
Step 4. Select a profile​
In the extracted directory, find profiles
. The .toml
configuration files in this folder define
the parameters for each possible profile you can select for your Linea Besu node.
- Mainnet
- Linea Sepolia
Select one according to your preferences:
basic-mainnet
: Creates a basic follower node on Linea Mainnet with no plugins enabled.advanced-mainnet
: Creates an advanced node on Linea Mainnet with plugins that enable support forlinea_estimateGas
and thefinalized
block parameter tag.
Select one according to your preferences:
basic-testnet
: Creates a basic follower node on Linea Sepolia with no plugins enabled.advanced-testnet
: Creates an advanced node on Linea Sepolia with plugins that enable support forlinea_estimateGas
and thefinalized
block parameter tag.
Step 5. Start the Linea Besu client​
In a terminal, navigate to the linea-besu-package-<version>
directory, where the bin
, genesis
,
profiles
etc. directories are.
Now run Linea Besu, specifying your preferred profile. The --plugin-linea-l1-rpc-endpoint
must
only be defined if you are running an advanced
node, since this is needed to query finalization
on L1.
- Mainnet
- Linea Sepolia
bin/besu --profile=advanced-mainnet --plugin-linea-l1-rpc-endpoint=<endpoint>
bin/besu --profile=advanced-testnet --plugin-linea-l1-rpc-endpoint=<endpoint>
The node will attempt to find peers to begin synchronizing and to download the world state.
Run using Docker​
Prerequisites​
Download and install Docker.
Step 1. Download the relevant docker-compose.yaml
file​
Access the /docker
directory
in the Linea Besu repository. There are several .yaml
files here corresponding to Besu profiles.
Each profile enables you to run a node with different Linea Besu plugin configurations depending on
your use case.
- Mainnet
- Linea Sepolia
Download the appropriate .yaml
file for your use case:
basic-mainnet
: Creates a basic follower node on Linea Mainnet with no plugins enabled.advanced-mainnet
: Creates an advanced node on Linea Mainnet with plugins that enable support forlinea_estimateGas
and thefinalized
block parameter tag.
Download the appropriate .yaml
file for your use case:
basic-testnet
: Creates a basic follower node on Linea Sepolia with no plugins enabled.advanced-testnet
: Creates an advanced node on Linea Sepolia with plugins that enable support forlinea_estimateGas
and thefinalized
block parameter tag.
Step 2. Update IP address​
In the .yaml
file you downloaded, adjust the --p2p-host
command with your public IP address:
--p2p-host=103.10.10.10
You can use this page to find your public IP address.
Step 3. Configure your L1 RPC endpoint​
If you're using an advanced
profile, insert your preferred L1 RPC endpoint in the
docker-compose.yaml
file:
--plugin-linea-l1-rpc-endpoint=YOUR_L1_RPC_ENDPOINT
If you only intend to run a basic
profile, go straight to the next step.
Step 4. Start the Linea Besu node​
- Mainnet
- Linea Sepolia
In a terminal, navigate to your .yaml
file's directory. Then start the node by running
docker compose
:
docker compose -f ./your-file-path/docker-compose-advanced-mainnet.yaml up
Alternatively, you can run a node without downloading a .yaml
file with a docker run
command.
For example:
docker run -e BESU_PROFILE=advanced-mainnet consensys/linea-besu-package:latest
Adjust the BESU_PROFILE
to match one of the profiles listed in step 1.
In a terminal, navigate to your .yaml
file's directory. Then start the node by running
docker compose
:
docker compose -f ./your-file-path/docker-compose-advanced-testnet.yaml up
Alternatively, you can run a node without downloading a .yaml
file with a docker run
command.
For example:
docker run -e BESU_PROFILE=advanced-testnet consensys/linea-besu-package:latest
Adjust the BESU_PROFILE
to match one of the profiles listed in step 1.