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GLCstakedSUI Network - complete guide to run a Node & Validator
SUI is a layer 1 blockchain designed by Mysten Labs from the ground up in smart contract specific language called MOVE This guide will go over installing a Full Node and Validator from scratch in order to run a Sui network node, assumes a fresh install of Ubuntu 20.04LTS. Hardware Requirements: Node Requirements: Full node requirements are lower, but storage can be expected to increase over time CPUs: 2 RAM: 8GB Storage: 50GB Validator Requirements: Validators perform work and deal with chain...
GLCstakedEasy Guide to Gnosischain Validator - with Lighthouse
This guide is help you set up a Gnosischain Validator, this will cover the full set up on a local device installed with Ubuntu 20.04 LTS. We will be using Lighthouse for consensus layer client and Nethermind for our Execution layer client. Gnosischain merge is on the horizon, this guide is intended to be merge ready the set up will cover steps and configuration needed to run post merge, and today. Gnosischain is using Ethereum Proof of Stake consensus with the Beacon chain to select validator...
GLCstakedCosmos Full Node
Deploy a full node for cosmos chain Cosmos hub is the economic centre of the Interchain cosmos ecosystem. Full node is a node that does not build blocks (non-validating) but stores the chain state and allows direct access to the network. NOTE: full node refers to a non-archival implementation of the node.Cosmos: The Internet of BlockchainsCosmos is an ever-expanding ecosystem of interoperable and sovereign blockchain apps and services, built for a decentralized future.https://cosmos.networkHa...
GLCstakedSUI Network - complete guide to run a Node & Validator
SUI is a layer 1 blockchain designed by Mysten Labs from the ground up in smart contract specific language called MOVE This guide will go over installing a Full Node and Validator from scratch in order to run a Sui network node, assumes a fresh install of Ubuntu 20.04LTS. Hardware Requirements: Node Requirements: Full node requirements are lower, but storage can be expected to increase over time CPUs: 2 RAM: 8GB Storage: 50GB Validator Requirements: Validators perform work and deal with chain...
GLCstakedEasy Guide to Gnosischain Validator - with Lighthouse
This guide is help you set up a Gnosischain Validator, this will cover the full set up on a local device installed with Ubuntu 20.04 LTS. We will be using Lighthouse for consensus layer client and Nethermind for our Execution layer client. Gnosischain merge is on the horizon, this guide is intended to be merge ready the set up will cover steps and configuration needed to run post merge, and today. Gnosischain is using Ethereum Proof of Stake consensus with the Beacon chain to select validator...
GLCstakedCosmos Full Node
Deploy a full node for cosmos chain Cosmos hub is the economic centre of the Interchain cosmos ecosystem. Full node is a node that does not build blocks (non-validating) but stores the chain state and allows direct access to the network. NOTE: full node refers to a non-archival implementation of the node.Cosmos: The Internet of BlockchainsCosmos is an ever-expanding ecosystem of interoperable and sovereign blockchain apps and services, built for a decentralized future.https://cosmos.networkHa...
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Setup Celestia Light Client (Mocha Testnet) on Mobile, ARM based device with Linux installed, this example using Pinephone with Mobian.
(last update: 17/5/23)
Light Node: conducts data availability sampling on the Data Availability network.
This Guide is for running a Light node on an ARM device. such as a Mobile phone with Debian installed. This is experimental, the steps should be similar for other OS some setup might not be compatible and there may be extra difficulties. This is tested with Mobian.
A setup script, for easier install is available here:
deployment scripts for celestia nodes. Contribute to GLCNI/celestia-node-scripts development by creating an account on GitHub.
Hardware Requirements : CPU: Single Core/ 2GB RAM/ Disk: 5 GB SSD/ 56Kbps Download/upload
If you can figure how to flash a phone with Linux, I’ll be using Mobian: a version of Debian compatible with ARM chips.
The process should be similar for any compatible OS and device. I am using PinePhone an Open Source phone supporting existing Linux-on-phone projects. This has only 3GB RAM and an internal flash memory of 32GB eMMC, CPU: 64-bit Quad-core 1.2 GHz ARM Cortex A-53.
Download OS and Image writer
NOTE: this install method is now outdated (17/5/23)
as of April 3, 2022 release, Jumpdrive is no longer supported to flash the latest images of Mobian to pinephone, Towboot is now required, more information here:
last supported image: mobian-pinephone-phosh-20220327.img.gz
Here we can head to Mobian, head over to images>pinephone>weekly and download mobian-pinephone-phosh-20211107.img.gz
To experiment with other linux based mobile OS, they can be found here.
Now we need a image writer to flash the OS to the SD card, we can use BalenaEtcher. just head to download and select for whatever OS you want to handle the SD card preparation. To run on Linux, we need to
Add Etcher Debian repository: will need curl sudo apt install curl
curl -1sLf \
'https://dl.cloudsmith.io/public/balena/etcher/setup.deb.sh' \
| sudo -E bash
update system
sudo apt-get update
Install balenaEtcher on Ubuntu Linux
sudo apt-get install balena-etcher-electron
This can be uninstalled later with
sudo apt-get remove balena-etcher-electron
sudo rm /etc/apt/sources.list.d/balena-etcher.list
sudo apt-get update
Format SD card
https://linuxconfig.org/formatting-sd-or-usb-disk-under-linux
Write the Image to SD Card
With balenaEtcher opened, we select ‘flash from file’ this will open your folders, navigate to the folder containing our Mobian image and select
Select Target, SD card, should be inserted into your device and recognized if formatted correctly will appear like so
Then click on ‘Flash’ and wait for the process to finish, then we can insert the SD into our phone and boot.
Alternative: flashing the internal Memory
If we want to just use the internal memory, we need Jumpdrive, can be downloaded here, using BalenaEtcher we can Flash the Jumpdrive image to a microSD card.
Insert the SD with Jumpdrive installed to your phones SD card slot, and when switched on it will enter a boot mode that makes your phone recognized as an external device that can be selected to write too via BalenaEtcher following the same steps above.
Initial boot
The Default Password for Mobian is: 1234
This will be the initial set-up which is self-explanatory, select your preferred language and time zone, etc. We can also configure network settings and connect to WiFi.
“Kings Cross” is the Terminal for Mobian.
Install SSH
Not only is it much easier for inputting commands, in the case of pinephone with mobian you can get locked out of the GUI when under root should the device fall asleep. Find ip with ip a and connect via putty or similar ssh program.
sudo apt-get install openssh-server
sudo systemctl enable ssh
if you have trouble see this thread.
The Easiest way to install Celestia Light node is via the script below and downloading the script for ARM devices,
deployment scripts for celestia nodes. Contribute to GLCNI/celestia-node-scripts development by creating an account on GitHub.
from the $HOME directory, download and make executable
wget https://raw.githubusercontent.com/GLCNI/celestia-node-scripts/main/multi-network/light-node-ARM.sh && chmod a+x light-node-ARM.sh
to run script
./light-node-ARM.sh
Update Device
For Mobian update via the built in software updater, do not run apt upgrade, as it will update packages that are not compatible with ARM it will make your phone go crazy.
Change to root user
sudo -i
Install packages
sudo apt update
sudo apt install curl tar wget clang pkg-config libssl-dev jq build-essential bsdmainutils git make ncdu -y
This command will take a while approximately 20-30 minutes
Install Go
cd /tmp && wget https://go.dev/dl/go1.19.1.linux-arm64.tar.gz
tar -C /usr/local/ -xzf go1.19.1.linux-arm64.tar.gz
add go to PATH
cd /usr/local/ && echo "export PATH=$PATH:/usr/local/go/bin:$HOME/go/bin" >> ~/.bashrc && echo "export GOROOT=/usr/local/go" >> ~/.bashrc && echo "export PATH=$PATH:/usr/local/go/bin:$HOME/go/bin" >> /home//.bashrc && echo "export GOROOT=/usr/local/go" >> /home//.bashrc && source ~/.bashrc && source /home/*/.bashrc
confirm go installed
go version
Install Celestia node
cd $HOME
rm -rf celestia-node
git clone https://github.com/celestiaorg/celestia-node.git
cd celestia-node/
git checkout tags/v0.6.0
make install
make cel-key
Initiate node as a light client
celestia light init
Create system service to run light node
Requires gRPC endpoint to connect to a validator node, replace the $RPC_ENDPOINT with : available endpoint from here: tee <<EOF >/dev/null /etc/systemd/system/celestia-lightd.service [Unit] Description=celestia-lightd Light Node After=network-online.target [Service] User=root ExecStart=/usr/local/bin/celestia light start --core.ip $RPC_ENDPOINT Restart=on-failure RestartSec=3 LimitNOFILE=4096 [Install] WantedBy=multi-user.target" EOF Enable and start service systemctl enable celestia-lightd systemctl daemon-reload systemctl start celestia-lightd Logs can be viewed with journalctl -u celestia-lightd.service -f The service can be stopped with systemctl stop celestia-lightd Set up wallet A wallet is created for you on start up, to pay for data transactions this must be funded, you can find wallet with (in /celestia-node) ./cel-key list --node.type light --keyring-backend test
Setup Celestia Light Client (Mocha Testnet) on Mobile, ARM based device with Linux installed, this example using Pinephone with Mobian.
(last update: 17/5/23)
Light Node: conducts data availability sampling on the Data Availability network.
This Guide is for running a Light node on an ARM device. such as a Mobile phone with Debian installed. This is experimental, the steps should be similar for other OS some setup might not be compatible and there may be extra difficulties. This is tested with Mobian.
A setup script, for easier install is available here:
deployment scripts for celestia nodes. Contribute to GLCNI/celestia-node-scripts development by creating an account on GitHub.
Hardware Requirements : CPU: Single Core/ 2GB RAM/ Disk: 5 GB SSD/ 56Kbps Download/upload
If you can figure how to flash a phone with Linux, I’ll be using Mobian: a version of Debian compatible with ARM chips.
The process should be similar for any compatible OS and device. I am using PinePhone an Open Source phone supporting existing Linux-on-phone projects. This has only 3GB RAM and an internal flash memory of 32GB eMMC, CPU: 64-bit Quad-core 1.2 GHz ARM Cortex A-53.
Download OS and Image writer
NOTE: this install method is now outdated (17/5/23)
as of April 3, 2022 release, Jumpdrive is no longer supported to flash the latest images of Mobian to pinephone, Towboot is now required, more information here:
last supported image: mobian-pinephone-phosh-20220327.img.gz
Here we can head to Mobian, head over to images>pinephone>weekly and download mobian-pinephone-phosh-20211107.img.gz
To experiment with other linux based mobile OS, they can be found here.
Now we need a image writer to flash the OS to the SD card, we can use BalenaEtcher. just head to download and select for whatever OS you want to handle the SD card preparation. To run on Linux, we need to
Add Etcher Debian repository: will need curl sudo apt install curl
curl -1sLf \
'https://dl.cloudsmith.io/public/balena/etcher/setup.deb.sh' \
| sudo -E bash
update system
sudo apt-get update
Install balenaEtcher on Ubuntu Linux
sudo apt-get install balena-etcher-electron
This can be uninstalled later with
sudo apt-get remove balena-etcher-electron
sudo rm /etc/apt/sources.list.d/balena-etcher.list
sudo apt-get update
Format SD card
https://linuxconfig.org/formatting-sd-or-usb-disk-under-linux
Write the Image to SD Card
With balenaEtcher opened, we select ‘flash from file’ this will open your folders, navigate to the folder containing our Mobian image and select
Select Target, SD card, should be inserted into your device and recognized if formatted correctly will appear like so
Then click on ‘Flash’ and wait for the process to finish, then we can insert the SD into our phone and boot.
Alternative: flashing the internal Memory
If we want to just use the internal memory, we need Jumpdrive, can be downloaded here, using BalenaEtcher we can Flash the Jumpdrive image to a microSD card.
Insert the SD with Jumpdrive installed to your phones SD card slot, and when switched on it will enter a boot mode that makes your phone recognized as an external device that can be selected to write too via BalenaEtcher following the same steps above.
Initial boot
The Default Password for Mobian is: 1234
This will be the initial set-up which is self-explanatory, select your preferred language and time zone, etc. We can also configure network settings and connect to WiFi.
“Kings Cross” is the Terminal for Mobian.
Install SSH
Not only is it much easier for inputting commands, in the case of pinephone with mobian you can get locked out of the GUI when under root should the device fall asleep. Find ip with ip a and connect via putty or similar ssh program.
sudo apt-get install openssh-server
sudo systemctl enable ssh
if you have trouble see this thread.
The Easiest way to install Celestia Light node is via the script below and downloading the script for ARM devices,
deployment scripts for celestia nodes. Contribute to GLCNI/celestia-node-scripts development by creating an account on GitHub.
from the $HOME directory, download and make executable
wget https://raw.githubusercontent.com/GLCNI/celestia-node-scripts/main/multi-network/light-node-ARM.sh && chmod a+x light-node-ARM.sh
to run script
./light-node-ARM.sh
Update Device
For Mobian update via the built in software updater, do not run apt upgrade, as it will update packages that are not compatible with ARM it will make your phone go crazy.
Change to root user
sudo -i
Install packages
sudo apt update
sudo apt install curl tar wget clang pkg-config libssl-dev jq build-essential bsdmainutils git make ncdu -y
This command will take a while approximately 20-30 minutes
Install Go
cd /tmp && wget https://go.dev/dl/go1.19.1.linux-arm64.tar.gz
tar -C /usr/local/ -xzf go1.19.1.linux-arm64.tar.gz
add go to PATH
cd /usr/local/ && echo "export PATH=$PATH:/usr/local/go/bin:$HOME/go/bin" >> ~/.bashrc && echo "export GOROOT=/usr/local/go" >> ~/.bashrc && echo "export PATH=$PATH:/usr/local/go/bin:$HOME/go/bin" >> /home//.bashrc && echo "export GOROOT=/usr/local/go" >> /home//.bashrc && source ~/.bashrc && source /home/*/.bashrc
confirm go installed
go version
Install Celestia node
cd $HOME
rm -rf celestia-node
git clone https://github.com/celestiaorg/celestia-node.git
cd celestia-node/
git checkout tags/v0.6.0
make install
make cel-key
Initiate node as a light client
celestia light init
Create system service to run light node
Requires gRPC endpoint to connect to a validator node, replace the $RPC_ENDPOINT with : available endpoint from here: tee <<EOF >/dev/null /etc/systemd/system/celestia-lightd.service [Unit] Description=celestia-lightd Light Node After=network-online.target [Service] User=root ExecStart=/usr/local/bin/celestia light start --core.ip $RPC_ENDPOINT Restart=on-failure RestartSec=3 LimitNOFILE=4096 [Install] WantedBy=multi-user.target" EOF Enable and start service systemctl enable celestia-lightd systemctl daemon-reload systemctl start celestia-lightd Logs can be viewed with journalctl -u celestia-lightd.service -f The service can be stopped with systemctl stop celestia-lightd Set up wallet A wallet is created for you on start up, to pay for data transactions this must be funded, you can find wallet with (in /celestia-node) ./cel-key list --node.type light --keyring-backend test
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