dev to main periodic update #75
@ -32,6 +32,7 @@
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- [ownCloud](dashboard/solutions/owncloud.md)
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- [Peertube](dashboard/solutions/peertube.md)
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- [Presearch](dashboard/solutions/presearch.md)
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- [Static Website](dashboard/solutions/static_website.md)
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- [Subsquid](dashboard/solutions/subsquid.md)
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- [Taiga](dashboard/solutions/taiga.md)
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- [Umbrel](dashboard/solutions/umbrel.md)
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@ -149,6 +150,7 @@
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- [TFGrid Stacks](developers/grid_deployment/tfgrid_stacks.md)
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- [Full VM Grid Deployment](developers/grid_deployment/grid_deployment_full_vm.md)
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- [Grid Snapshots](developers/grid_deployment/snapshots.md)
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- [Deploy the Dashboard](developers/grid_deployment/deploy_dashboard.md)
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- [Farmers](farmers/farmers.md)
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- [Build a 3Node](farmers/3node_building/3node_building.md)
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- [1. Create a Farm](farmers/3node_building/1_create_farm.md)
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@ -18,6 +18,7 @@ Easily deploy your favourite applications on the ThreeFold grid with a click of
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- [ownCloud](owncloud.md)
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- [Peertube](peertube.md)
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- [Presearch](presearch.md)
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- [Static Website](static_website.md)
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- [Subsquid](subsquid.md)
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- [Taiga](taiga.md)
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- [Umbrel](umbrel.md)
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@ -4,7 +4,7 @@ Here you will find everything related to deployments on the ThreeFold grid. This
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- Checking the cost of a deployment using [Pricing Calculator](pricing_calculator.md)
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- Finding a node to deploy on using the [Node Finder](node_finder.md)
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- Deploying your desired workload from [Virtual Machines](vm_intro.md), [Orchestrators](orchestrators.md), or [Applictions](applications.md)
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- Deploying your desired workload from [Virtual Machines](vm_intro.md), [Orchestrators](orchestrators.md), or [Applications](applications.md)
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- Renting your own node on the ThreeFold grid from [Dedicated Machines](dedicated_machines.md)
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- Consulting [Your Contracts](your_contracts.md) on the TFGrid
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- Finding or publishing Flists from [Images](images.md)
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BIN
collections/dashboard/solutions/img/solutions_staticwebsite.png
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collections/dashboard/solutions/img/solutions_staticwebsite.png
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collections/dashboard/solutions/img/staticwebsite_list.png
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53
collections/dashboard/solutions/static_website.md
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53
collections/dashboard/solutions/static_website.md
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@ -0,0 +1,53 @@
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<h1> Static Website </h1>
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<h2>Table of Contents </h2>
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- [Introduction](#introduction)
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- [Prerequisites](#prerequisites)
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- [Deployment](#deployment)
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---
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## Introduction
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Static Website is an application where a user provides a GitHub repository URL for the files to be automatically served online using Caddy.
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## Prerequisites
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- Make sure you have a [wallet](wallet_connector.md)
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- From the sidebar click on **Applications**
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- Click on **Static Website**
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## Deployment
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![ ](./img/solutions_staticwebsite.png)
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- Enter an instance name
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- Enter a GitHub repository URL that needs to be cloned
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- Enter the title for the cloned repository
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- Select a capacity package:
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- **Small**: {cpu: 1, memory: 2 , diskSize: 50 }
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- **Medium**: {cpu: 2, memory: 4, diskSize: 100 }
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- **Large**: {cpu: 4, memory: 16, diskSize: 250 }
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- Or choose a **Custom** plan
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- `Dedicated` flag to retrieve only dedicated nodes
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- `Certified` flag to retrieve only certified nodes
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- Choose the location of the node
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- `Region`
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- `Country`
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- `Farm Name`
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- Choose the node to deploy on
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- Note: You can select a specific node with manual selection
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- `Custom Domain` flag allows the user to use a custom domain
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- Choose a gateway node to deploy your static website
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Once this is done, you can see a list of all of your deployed instances:
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![ ](./img/staticwebsite_list.png)
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Click on the button **Visit** under **Actions** to go to your static website!
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@ -88,3 +88,4 @@ For complementary information on the technology developed by ThreeFold, refer to
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- [TFGrid Stacks](tfgrid_stacks.md)
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- [Full VM Grid Deployment](grid_deployment_full_vm.md)
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- [Grid Snapshots](snapshots.md)
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- [Deploy the Dashboard](deploy_dashboard.md)
|
139
collections/developers/grid_deployment/deploy_dashboard.md
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139
collections/developers/grid_deployment/deploy_dashboard.md
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@ -0,0 +1,139 @@
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<h1>Deploy the Dashboard</h1>
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<h2>Table of Contents</h2>
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- [Introduction](#introduction)
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- [Prerequisites](#prerequisites)
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- [Create an SSH Tunnel](#create-an-ssh-tunnel)
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- [Editor SSH Remote Connection](#editor-ssh-remote-connection)
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- [Set the VM](#set-the-vm)
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- [Build the Dashboard](#build-the-dashboard)
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- [Dashboard Public Access](#dashboard-public-access)
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- [Set the Network](#set-the-network)
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- [Questions and Feedback](#questions-and-feedback)
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***
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## Introduction
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We show how to deploy the Dashboard (devnet) on a full VM. To do so, we set an SSH tunnel and use the VSCodium Remote Explorer function. We will then be able to use a source-code editor to explore the code and see changes on a local browser.
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We also show how to provide a public access to the Dashboard by setting a gateway domain to your full VM deployment. Note that this method is not production-ready and should only be used to test the Dashboard.
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## Prerequisites
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- TFChain account with TFT
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- [Deploy full VM with WireGuard connection](system_administrators@@ssh_wireguard)
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- [Make sure you can connect via SSH on the terminal](system_administrators@@ssh_openssh)
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In this guide, we use WireGuard, but you can use other connection methods, such as [Mycelium](system_administrators@@mycelium_toc).
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## Create an SSH Tunnel
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- Open a terminal and create an SSH tunnel
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```
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ssh -4 -L 5173:127.0.0.1:5173 root@10.20.4.2
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```
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Simply leave this window open and follow the next steps.
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If you use an IPv6 address, e.g. with Mycelium, set `-6` in the line above instead of `-4`.
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## Editor SSH Remote Connection
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You can connect via SSH through the source-code editor to a VM on the grid. In this example, WireGuard is set.
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- Add the SSH Remote extension to [VSCodium](https://vscodium.com/)
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- Add a new SSH remote connection
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- Set the following (adjust with your own username and host)
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```
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Host 10.20.4.2
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HostName 10.20.4.2
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User root
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```
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- Click on `Connect to host`
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## Set the VM
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We set the VM to be able to build the Dashboard.
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```
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apt update && apt install build-essential python3 -y
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wget -qO- https://raw.githubusercontent.com/nvm-sh/nvm/v0.39.7/install.sh | bash
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export NVM_DIR="$HOME/.nvm"
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[ -s "$NVM_DIR/nvm.sh" ] && \. "$NVM_DIR/nvm.sh" # This loads nvm
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[ -s "$NVM_DIR/bash_completion" ] && \. "$NVM_DIR/bash_completion" # This loads nvm bash_completion
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nvm install 18
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npm install -g yarn
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```
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## Build the Dashboard
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We now build the Dashboard.
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Clone the repository, then install, build and run the Dashboard. Note that here it is called `playground`:
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```
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git clone https://github.com/threefoldtech/tfgrid-sdk-ts
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cd tfgrid-sdk-ts/
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yarn install
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make build
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make run project=playground
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```
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You can then access the dev net Dashboard on your local browser.
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To stop running the Dashboard, simply enter ̀`Ctrl-C` on the terminal window.
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## Dashboard Public Access
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> Note: This method is not production-ready. Use only for testing purposes.
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Once you've tested the Dashboard with the SSH tunnel, you can explore how to access it from the public Internet. For this, we will create a gateway domain and bind the host to `0.0.0.0`.
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On the Full VM page, [add a domain](dashboard@@add_domain) to access your deployment from the public Internet.
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- Under `Actions`, click on `Manage Domains`
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- Go to `Add New Domain`
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- Choose a gateway domain under `Select domain`
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- Set the port 5173
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- Click on `Add`
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To run the Dashboard from the added domain, use this instead of the previous `make run` line:
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```
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cd packages/playground
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yarn dev --host 0.0.0.0
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```
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You can then access the Dashboard from the domain you just created.
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## Set the Network
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You can set the network by running the configuration script. Simply set the network as the **MODE** (e.g. **main**, **test**, **dev**):
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```
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cd packages/playground/public
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MODE=main ../scripts/build-env.sh
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```
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Once you've set the configuration file, you can build and run the Dashboard.
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## Questions and Feedback
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If you have any questions or feedback, please let us know by either writing a post on the [ThreeFold Forum](https://forum.threefold.io/), or by chatting with us on the [TF Grid Tester Community](https://t.me/threefoldtesting) Telegram channel.
|
@ -7,3 +7,4 @@ The TFGrid whole source code is open-source and instances of the grid can be dep
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- [TFGrid Stacks](tfgrid_stacks.md)
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- [Full VM Grid Deployment](grid_deployment_full_vm.md)
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- [Grid Snapshots](snapshots.md)
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- [Deploy the Dashboard](deploy_dashboard.md)
|
@ -5,7 +5,7 @@
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|
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- [Introduction](#introduction)
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- [Connect to Other Nodes](#connect-to-other-nodes)
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- [Possible Peers](#possible-peers)
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- [Hosted Public Nodes](#hosted-public-nodes)
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- [Default Port](#default-port)
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- [Check Network Information](#check-network-information)
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- [Test the Network](#test-the-network)
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@ -36,18 +36,32 @@ If you are using other tun inferface, e.g. utun3 (default), you can set a differ
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mycelium --peers tcp://83.231.240.31:9651 quic://185.206.122.71:9651 --tun-name utun9
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```
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## Possible Peers
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## Hosted Public Nodes
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Here are some possible peers.
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A couple of public nodes are provided, which can be freely connected to. This allows
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anyone to join the global network. These are hosted in 3 geographic regions, on both
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IPv4 and IPv6, and supporting both the Tcp and Quic protocols. The nodes are the
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following:
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```
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tcp://146.185.93.83:9651
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quic://83.231.240.31:9651
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quic://185.206.122.71:9651
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tcp://[2a04:f340:c0:71:28cc:b2ff:fe63:dd1c]:9651
|
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tcp://[2001:728:1000:402:78d3:cdff:fe63:e07e]:9651
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quic://[2a10:b600:1:0:ec4:7aff:fe30:8235]:9651
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```
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| Node ID | Region | IPv4 | IPv6 | Tcp port | Quic port |
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| --- | --- | --- | --- | --- | --- |
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| 01 | DE | 188.40.132.242 | 2a01:4f8:221:1e0b::2 | 9651 | 9651 |
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| 02 | DE | 136.243.47.186 | 2a01:4f8:212:fa6::2 | 9651 | 9651 |
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| 03 | BE | 185.69.166.7 | 2a02:1802:5e:0:8478:51ff:fee2:3331 | 9651 | 9651 |
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| 04 | BE | 185.69.166.8 | 2a02:1802:5e:0:8c9e:7dff:fec9:f0d2 | 9651 | 9651 |
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| 05 | FI | 65.21.231.58 | 2a01:4f9:6a:1dc5::2 | 9651 | 9651 |
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| 06 | FI | 65.109.18.113 | 2a01:4f9:5a:1042::2 | 9651 | 9651 |
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|
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These nodes are all interconnected, so 2 peers who each connect to a different node
|
||||
(or set of disjoint nodes) will still be able to reach each other. For optimal performance,
|
||||
it is recommended to connect to all of the above at once however. An example connection
|
||||
string could be:
|
||||
|
||||
`--peers tcp://188.40.132.242:9651 "tcp://[2a01:4f8:212:fa6::2]:9651" quic://185.69.166.7:9651 "tcp://[2a02:1802:5e:0:8c9e:7dff:fec9:f0d2]:9651" tcp://65.21.231.58:9651 "quic://[2a01:4f9:5a:1042::2]:9651"`
|
||||
|
||||
It is up to the user to decide which peers he wants to use, over which protocol.
|
||||
Note that quotation may or may not be required, depending on which shell is being
|
||||
used.
|
||||
|
||||
## Default Port
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user