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@ -6,17 +6,23 @@ title: New operators tutorial
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Co-op Cloud is made up of a few simple, composable pieces. The system does not rely on any one specific implementation: each part may be replaced and/or extended as needed.
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We want to build a reliable and long-term sustainable project and that means allowing for different implementations, open formats and a diverse project organisation.
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We want to build a resilient and long-term sustainable project and that means allowing for different implementations, open formats and a diverse project organisation.
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Here are the main technical concepts listed below, once you [grok](https://en.wikipedia.org/wiki/Grok) this, you grok the moving parts of the project.
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### Libre software apps
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Libre software apps are tools, websites & clients that you may already use in your daily life: [Nextcloud], [Jitsi], [Mediawiki], [Rocket.chat] and [many more]! These are tools that are created by volunteer communities who use [free software licenses] in order to build up the public software commons and offer more digital alternatives to [proprietary systems].
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Libre software apps are tools, websites & software clients that you may already use in your daily life: [Nextcloud], [Jitsi], [Mediawiki], [Rocket.chat] and [many more]!
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The communities who develop these softwares also publish them using [containers]. For example, here is the [Nextcloud hub.docker.com account] which allows end-users to quickly deploy a new Nextcloud instance. There is a growing consensus in the free software community that containers are a useful and time saving format for distribution.
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These are tools that are created by volunteer communities who use [free software licenses] in order to build up the public software commons and offer more digital alternatives to [proprietary systems].
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Learn more about why we use containers [in the FAQ section](/faq/#why-containers).
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The communities who develop these softwares also publish them using [containers]. For example, here is the [Nextcloud hub.docker.com account] which allows end-users to quickly deploy a new Nextcloud instance.
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There is a growing consensus in the free software community that containers are a useful and time saving format for distribution.
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!!! question "Why did you choose to use containers?"
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Learn more [in the FAQ section](/intro/faq/#why-containers).
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[nextcloud]: https://nextcloud.com
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[jitsi]: https://jitsi.org
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@ -30,15 +36,22 @@ Learn more about why we use containers [in the FAQ section](/faq/#why-containers
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### The recipe packaging format
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However, just having a container of an app is often not enough. The work required to deploy that app in a "production ready" setup is still too time intensive and often involves a duplication of effort. Each service provider needs to deal with the same problems: stable versioning, backup plan, secret management, upgrade plan, monitoring and the list goes on.
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However, just having a container of an app is often not enough. The work required to deploy that app in a "production ready" setup is still too time intensive and often involves a duplication of effort.
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Each service provider needs to deal with the same problems: stable versioning, backup plan, secret management, upgrade plan, monitoring and the list goes on.
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Individual free software projects can't take on all this responsibility. They provide the containers as is, in a secure and ready-to-go manner but it is up to service providers to worry about how the app is deployed.
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Therefore, Co-op Cloud proposes a packaging format, which we refer to as a recipe, that describes the entire production state of the app in a single place. This format uses the existing [standards based compose specification].
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This is a file format which is most commonly used by the [Docker compose] tool but Co-op Cloud **does not** require the use of Docker compose itself. Furthermore, as described below, we also don't rely on the actual Docker CLI itself either. We do however use a lot of the underlying libraries. We're happily `docker` & `docker-compose` CLI independent! Learn more about why we use the compose specification [in the FAQ section](/faq/#why-use-the-compose-specification).
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This is a file format which is most commonly used by the [Docker compose] tool but Co-op Cloud **does not** require the use of Docker compose itself. Furthermore, as described below, we also don't rely on the actual Docker CLI itself either. We do however use a lot of the underlying libraries.
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[Each recipe] that Co-op cloud provides is described using the compose specification and makes use of the upstream project published container. This is the core of our approach to working with the ecosystem of free software communities. We want to maximise the chances of sharing work, knowledge and build solidarity through concrete co-operation.
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!!! question "Why did you choose to use the compose specificiation?"
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Learn more [in the FAQ section](/intro/faq/#why-use-the-compose-specification).
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[Each recipe] that Co-op cloud provides is described using the compose specification and makes use of the upstream project published container when possible (sometimes they don't publish one!).
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This is the core of our approach to working with the ecosystem of free software communities. We want to maximise the chances of sharing work, knowledge and build solidarity through concrete co-operation.
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[standards based compose specification]: https://compose-spec.io
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[docker compose]: https://docs.docker.com/compose/
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@ -46,44 +59,56 @@ This is a file format which is most commonly used by the [Docker compose] tool b
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### Container orchestrator
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Once we have our app packaged as a recipe, we need a deployment environment. Production deployments are typically expected to support a number of features which give hosters and end-users guarantees for uptime, stability and scale.
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Once we have our app packaged as a recipe, we need a deployment environment (e.g. a server & something to keep the containers running). Production deployments are typically expected to support a number of features which give hosters and end-users guarantees for stability.
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The Co-op cloud makes use of [Docker swarm] as a deployment environment. It offers an approriate feature set which allows us to support zero-down time upgrades, seamless app rollbacks, automatic deploy failure handling, scaling, hybrid cloud setups and maintain a decentralised design.
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Learn more about why we use Docker swarm [in the FAQ section](/faq/#why-docker-swarm).
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!!! question "Why did you choose to use Docker Swarm?"
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Learn more [in the FAQ section](/intro/faq/#why-docker-swarm).
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[docker swarm]: https://docs.docker.com/engine/swarm/
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### Command-line tool
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Finally, with an app and deployment environment, we need a tool to read the recipe package format and actually deploy it to that environment. For this, we have developed and published the [abra] command-line tool.
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Finally, we need a tool to read the recipe package format and actually deploy the app. For this, we have developed and published the [abra] command-line tool.
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`abra` aims at providing a simple command-line interface for managing your own Co-op Cloud. You can bootstrap machines with the required tools, create new apps, deploy them, back them up, restore them and so on. `abra` is written in [Go](https://go.dev/) and uses a lot of the libraries that the `docker` and `docker-compose` CLIs use but does not rely on them directly.
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`abra` aims at providing a simple command-line interface for managing your own Co-op Cloud. You can bootstrap machines with the required tools, create new apps and deploy them. `abra` is written in [Go](https://go.dev/) and uses a lot of the libraries that the `docker` and `docker-compose` CLIs use but does not rely on those interfaces directly.
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`abra` is our flagship command-line client but it does not need to be the only client. `abra` was designed in such a way that is complements a workflow which can still be done completely manually. If Co-op Cloud goes away tomorrow, our configuration commons would still be useful and usable.
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[abra]: https://git.autonomic.zone/coop-cloud/abra
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[abra]: /abra/
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## Deploy your first app
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> - TODO: explain how you can add an existing server with `abra`
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> - TODO: explain how to you create a server with `abra`
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> - TODO: explain what to keep in mind with a server, port 80/44, traefik proxy, docker runtime, etc.
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In order to deploy an app you need two things:
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1. a server (e.g. [Hetzner VPS](https://www.hetzner.com/cloud)), with 1. SSH access and 2. a public IP address
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2. a DNS provider (e.g. [Gandi](https://www.gandi.net/en))
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1. a server with SSH access and a public IP address
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2. a domain name pointing to that server
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### Create a server
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The tutorial tries to help you make choices about which server and which DNS setup you need to run a Co-op Cloud deployment but it does not go into great depth about how to set up a new server.
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!!! question "Can `abra` help automate this?"
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As described further on in this tutorial, `abra` can help bootstrap new servers & configure DNS records for you. We'll skip that for now since we're just getting started. See the [operators handbook](/operators/handbook) for more on these topics after you finish the tutorial.
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### Server setup
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Co-op Cloud has itself near zero system requirements. You only need to worry about the system resource usage of your apps and the overhead of running containers with the docker runtime (often negligible. If you want to know more, see [this FAQ entry](/faq/#isnt-running-everything-in-containers-inefficient)).
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We will deploy a new Nextcloud instance in this guide, so you will only need 1GB of RAM according to [their documentation](https://docs.nextcloud.com/server/latest/admin_manual/installation/system_requirements.html). You may also be interested in this [FAQ entry](/faq/#arent-containers-horrible-from-a-security-perspective) if you are curious about security in the context of containers.
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### Wire up DNS
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Most Co-op Cloud deployments have been run on Debian machines so far. Some experiments have been done on single board computers & servers with low resource capacities.
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Typically, you'll need two A records, one to point to the VPS itself and another to support sub-domains for the apps. You can then support an app hosted on your root domain (e.g. `example.com`) and other apps on sub-domains (e.g. `foo.example.com`, `bar.example.com`). At time of writing, it is not possible to support multiple apps sharing the same domain.
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You need to keep port `:80` and `:443` free on your server for web proxying to your apps. Typically, you don't need to keep any other ports free as the core web proxy ([Traefik](https://traefik.io)) keeps all app ports internal to its network. Sometimes however, you need to expose an app port when you need to use a transport which would perform better or more reliably without proxying.
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!!! question "Do you support multiple web proxies?"
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We do not know if it is feasible and convenient to set things up on an existing server with another web proxy which uses ports `:80` & `:443`. We'd happily receive reports and documentation on how to do this if you manage to set it up!
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### DNS setup
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You'll need two A records, one to point to the VPS itself and another to support sub-domains for the apps. You can then support an app hosted on your root domain (e.g. `example.com`) and other apps on sub-domains (e.g. `foo.example.com`, `bar.example.com`).
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Your entries in your DNS provider setup might look like the following.
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@ -92,68 +117,86 @@ Your entries in your DNS provider setup might look like the following.
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Where `116.203.211.204` can be replaced with the IP address of your server.
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### Bootstrap `abra`
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!!! question "How do I know my DNS is working?"
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> TODO: this could come eariler, this could be the first step? You can create servers/manage DNS now with `abra`...
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You can use a tool like `dig` on the command-line to check if your server has the necessary DNS records set up. Something like `dig +short <domain>` should show the IP address of your server if things are working.
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You have two options for setting up your command-line client. You can install `abra` on your local development machine or remotely on the actual server. Please see
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### Command-line setup
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Once your DNS and Docker daemon are up, you can install [`abra`](https://git.coopcloud.tech/coop-cloud/abra) locally on your developer machine and hook it up to your server.
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#### Install `abra`
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Firstly, install `abra` locally.
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Now we can install [`abra`](/abra) locally on your machine and hook it up to your server.
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We support a script-based installation method (script source [here](https://git.coopcloud.tech/coop-cloud/abra/src/branch/main/scripts/installer/installer)):
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```bash
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curl https://install.abra.autonomic.zone | bash
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curl https://install.abra.coopcloud.tech | bash
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```
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The source for this script [is here](https://git.coopcloud.tech/coop-cloud/abra/src/branch/main/scripts/installer/installer).
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the installer will verify the checksum. If you want to download abra yourself, you can grab it from the [releases page](https://git.coopcloud.tech/coop-cloud/abra/releases) along with the checksums.txt file. If you decide to do this, please run:
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```bash
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grep $(sha256sum abra_[version]_[platform]) checksums.txt > /dev/null && echo "checksum OK"
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```
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if "checksum OK" appears in your terminal - you're good to go! otherwise, you have downloaded a corrupted file.
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You may need to add the `~/.local/bin/` directory with your `$PATH` in order to run the executable.
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The installer will verify the downloaded binary checksum. You may need to add the `~/.local/bin/` directory with your `$PATH` in order to run the executable. You can validate that everything is in working order by listing the default help output:
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```bash
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export PATH=$PATH:$HOME/.local/bin
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abra -h # check it works
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```
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Now you can connect `abra` with your new server.
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If you run into issues during installation, [please report a ticket](https://git.coopcloud.tech/coop-cloud/abra/issues/new) :pray:
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Once you're all set up, we **highly** recommend configuring command-line auto-completion for `abra`. See `abra autocomplete -h` for more on how to do this.
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!!! question "Can I install `abra` on my server?"
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Yes, this is possible, see [this handbook entry](/operators/handbook/#running-abra-server-side) for more. The instructions for setup are a little different however.
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#### Add your server
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Now you can connect `abra` with your server. You need to have a working SSH configuration before you can do this. That means you can run `ssh <domain>` on your command-line and everything Works :tm:.
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```bash
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abra server add example.com
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abra server add <domain> -p
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```
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Where `example.com` is replaced with your server DNS name.
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!!! warning "Beware of SSH dragons"
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!!! note "About SSH"
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`abra` uses plain 'ol SSH under the hood and aims to make use of your existing SSH configurations in `~/.ssh/config` and interfaces with your running `ssh-agent` for password protected secret key files.
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`abra` uses Docker's built-in SSH support to make a secure connection to a
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remote Docker daemon, to deploy and manage apps from your local development
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machine.
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The "server add" command listed above assumes that that you make SSH connections on port 22 using your current username. If that is not he case, pass the new values as position arguments:
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If you need to specify a non-standard port, and/or different username, for SSH,
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add them as extra arguments:
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abra server add <domain> <user> <port> -p
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```bash
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abra server add -p example.com username 2222
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```
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It's best to take a moment to read [this troubleshooting entry](/abra/trouble/#ssh-connection-issues) if you're running into SSH connection issues with `abra`. Running "server add" with "-d/--debug" should help you debug what is going on under the hood.
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The `-p` or `--provision` flag means that abra will initialise the [new single-host swarm](https://docs.docker.com/engine/swarm/key-concepts/) on your server.
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The `-p` or `--provision` flag means that `abra` will install Docker and initialise the [new single-host swarm](https://docs.docker.com/engine/swarm/key-concepts/) on your server.
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You will now have a new `~/.abra/` folder on your local file system which stores all the configuration of your Co-op Cloud instance. You can easily share this as a git repository with others.
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It is important to note that `<domain>` here is a publicy accessible domain name which points to your server IP address. `abra` does make sure this is the case and this is done to avoid issues with HTTPS certificate rate limiting.
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### Deploy Traefik
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You will now have a new `~/.abra/` folder on your local file system which stores all the configuration of your Co-op Cloud instance.
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In order to have your Co-op cloud installation automagically provision SSL certificates, we will first install [Traefik](https://doc.traefik.io/traefik/). This tool is the main entrypoint for all web requests (e.g. like NGINX) and supports automatic SSL certificate configuration and other quality-of-life features which make deploying libre apps more enjoyable.
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`abra` should now register this server as managed in your server listing:
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```
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abra server ls
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```
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!!! question "How do I share my configs in `~/.abra`?"
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It's possible and quite easy, see [this handbook entry](/operators/handbook/#understanding-app-and-server-configuration) for more.
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### Web proxy setup
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In order to have your Co-op cloud deployment serve the public internet, we need to install the core web proxy, [Traefik](https://doc.traefik.io/traefik/).
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Traefik is the main entrypoint for all web requests (e.g. like NGINX) and supports automatic SSL certificate configuration and other quality-of-life features which make deploying libre apps more enjoyable.
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To get started, you'll need to create a new app:
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```bash
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abra app new traefik
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```
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You will want to take a look at your generated configuration and tweak the `LETS_ENCRYPT_EMAIL` value:
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Choose your newly registered server and specify a domain name.
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You will want to take a look at your generated configuration and tweak the `LETS_ENCRYPT_EMAIL` value. You can do that by running `abra app config`:
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```bash
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abra app config traefik
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@ -161,55 +204,44 @@ abra app config traefik
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Every app you deploy will have one of these `.env` files, which contains variables which will be injected into app configurations when deployed. Variables starting with `#` are optional, others are required.
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Now it is time to deploy:
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```
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abra app deploy traefik
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abra app deploy <traefik-domain>
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```
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### Deploy Nextcloud
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And now we can deploy apps.
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Let's create a new Nextcloud app.
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And now we can deploy apps. Let's create a new Nextcloud app.
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```bash
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abra app new nextcloud
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abra app new nextcloud -S
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```
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And we need to generate secrets for the app: database connection password, root password and admin password.
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The `-S` or `--secrets` flag is used to generate secrets for the app: database connection password, root password and admin password. `abra` generates these randomly and on a one-time basis and sends them to be stored encrypted on your server.
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```bash
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abra app secret generate --all nextcloud
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```
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!!! warning "Beware of password dragons"
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!!! warning
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Take care, these secrets are only shown once on the terminal so make sure
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to take note of them! `abra` makes use of the [Docker secrets](/secrets/)
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mechanism to ship these secrets securely to the server and store them as
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encrypted data.
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Take care, these secrets are only shown once on the terminal so make sure to take note of them! `abra` makes use of the [Docker secrets](/operators/handbook/#managing-secret-data) mechanism to ship these secrets securely to the server and store them as encrypted data.
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Then we can deploy the Nextcloud.
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```bash
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abra app deploy nextcloud
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abra app deploy <nextcloud-domain>
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```
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We can watch to see that things come up correctly.
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`abra app deploy` will wait nearly a minute for an app to deploy until it times out and shows some helpful commands for how to debug what is going on. If things don't come up in time, try running the following:
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|
|
```bash
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abra app ps nextcloud # status check
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abra app logs nextcloud # logs watch
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```
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abra app ps -w <nextcloud-domain> # status check
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abra app logs <nextcloud-domain> # logs trailing
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abra app errors -w <nextcloud-domain> # error catcher
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|
```
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|
!!! note
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Your new `traefik` instance will detect that a new app is coming up and generate SSL certificates for it. You can see what `traefik` is up to using the same commands above but replacing `<netcloud-domain>` with the `<traefik-domain>` you chose earlier (`abra app ls` will remind you what domains you chose :grinning:).
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|
|
Since Nextcloud takes some time to come up live, you can run the `ps`
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|
|
command under `watch` like so.
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|
## Finishing up
|
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|
|
```bash
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|
|
watch abra app ps nextcloud
|
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|
|
```
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|
Hopefully you got something running! Well done! The [operators handbook](/operators/handbook) would probably be the next place to go check out if you're looking for more help. Especially on topics of ongoing maintenance.
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And you can wait until you see that all containers have the "Running" state.
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|
|
Your `traefik` instance will detect that a new app is coming up and generate SSL certificates for it.
|
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|
If not, please [get in touch](/intro/contact) or [raise a ticket](https://git.coopcloud.tech/coop-cloud/abra/issues/new) and we'll try to help out. We want our operator onboarding to be as smooth as possible, so we do appreciate any feedback we receive.
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