# Overall architecture ## Configuring the OS This repo contains a bunch of scripts to configure NixOS on all cluster nodes. Most scripts are invoked with the following syntax: - for scripts that generate secrets: `./gen_<something> <cluster_name>` to generate the secrets to be used on cluster `<cluster_name>` - for deployment scripts: - `./deploy_<something> <cluster_name>` to run the deployment script on all nodes of the cluster `<cluster_name>` - `./deploy_<something> <cluster_name> <node1> <node2> ...` to run the deployment script only on nodes `node1, node2, ...` of cluster `<cluster_name>`. All deployment scripts can use the following parameters passed as environment variables: - `SUDO_PASS`: optionnally, the password for `sudo` on cluster nodes. If not set, it will be asked at the begninning. - `SSH_USER`: optionnally, the user to try to login using SSH. If not set, the username from your local machine will be used. ### Assumptions (how to setup your environment) - you have an SSH access to all of your cluster nodes (listed in `cluster/<cluster_name>/ssh_config`) - your account is in group `wheel` and you know its password (you need it to become root using `sudo`); the password is the same on all cluster nodes (see below for password management tools) - you have a clone of the secrets repository in your `pass` password store, for instance at `~/.password-store/deuxfleurs` (scripts in this repo will read and write all secrets in `pass` under `deuxfleurs/cluster/<cluster_name>/`) ### Deploying the NixOS configuration The NixOS configuration makes use of a certain number of files: - files in `nix/` that are the same for all deployments on all clusters - the file `cluster/<cluster_name>/cluster.nix`, a Nix configuration file that is specific to the cluster but is copied the same on all cluster nodes - files in `cluster/<cluster_name>/site/`, which are specific to the various sites on which Nix nodes are deployed - files in `cluster/<cluster_name>/node/` which are specific to each node To deploy the NixOS configuration on the cluster, simply do: ``` ./deploy_nixos <cluster_name> ``` or to deploy only on a single node: ``` ./deploy_nixos <cluster_name> <node_name> ``` To upgrade NixOS, use the `./upgrade_nixos` script instead (it has the same syntax). ### Generating and deploying a PKI for Consul and Nomad First, if the PKI has not yet been created, create it with: ``` ./gen_pki <cluster_name> ``` Then, deploy the PKI on all nodes with: ``` ./deploy_pki <cluster_name> ``` Note that certificates are valid for not much more than one year: every year in January, `gen_pki` and `deploy_pki` have to be re-run to generate certificates for the new year. ### Adding administrators and password management Adminstrators are defined in the `cluster.nix` file for each cluster (they could also be defined in the site-specific Nix files if necessary). This is where their public SSH keys for remote access are put. Administrators will also need passwords to administrate the cluster, as we are not using passwordless sudo. To set the password for a new administrator, they must have a working `pass` installation as specified above. They must then run: ``` ./passwd <cluster_name> <user_name> ``` to set their password in the `pass` database (the password is hashed, so other administrators cannot learn their password even if they have access to the `pass` db). Then, an administrator that already has root access must run the following (after syncing the `pass` db) to set the password correctly on all cluster nodes: ``` ./deploy_passwords <cluster_name> ``` ## Deploying stuff on Nomad ### Connecting to Nomad Connect using SSH to one of the cluster nodes, forwarding port 14646 to port 4646 on localhost, and port 8501 to port 8501 on localhost. You can for instance use an entry in your `~/.ssh/config` that looks like this: ``` Host caribou HostName 2a01:e0a:c:a720::23 LocalForward 14646 127.0.0.1:4646 LocalForward 8501 127.0.0.1:8501 LocalForward 1389 bottin.service.staging.consul:389 ``` Then, in a separate window, launch `./tlsproxy <cluster_name>`: this will launch `socat` proxies that strip the TLS layer and allow you to simply access Nomad and Consul on the regular, unencrypted URLs: `http://localhost:4646` for Nomad and `http://localhost:8500` for Consul. Keep this terminal window for as long as you need to access Nomad and Consul on the cluster. ### Setting scheduler config Some configuration options have to be tweaked in the orchestrator. Use `nomad orchestrator scheduler set-config` to obtain the following result: ```bash $ nomad operator scheduler get-config --json { "KnownLeader": true, "LastContact": 0, "LastIndex": 0, "NextToken": "", "RequestTime": 0, "SchedulerConfig": { "CreateIndex": 5, "MemoryOversubscriptionEnabled": true, # << THIS "ModifyIndex": 399239, "PauseEvalBroker": false, "PreemptionConfig": { "BatchSchedulerEnabled": true, # << THIS "ServiceSchedulerEnabled": true, # << THIS "SysBatchSchedulerEnabled": true # << THIS "SystemSchedulerEnabled": true # << THIS }, "RejectJobRegistration": false, "SchedulerAlgorithm": "binpack" } } ``` ### Launching services To launch a service, e.g. `app/core`, use `nomad plan` first: ``` cd cluster/staging/app/core/deploy nomad plan core-system.hcl ``` If the diff looks fine, then you can run the job for real (the index is printed in the output of `nomad plan`): ``` nomad job run -check-index NNN core-system.hcl ``` There may be several jobs in the same directory, for instance `core-system.hcl` and `core-service.hcl`. ### Which services to launch Stuff should be started in this order: 1. `app/core` 2. `app/telemetry` 3. `app/garage` 4. `app/directory` Then, other stuff can be started in any order, e.g.: - `app/im` - `app/cryptpad` - `app/drone-ci` ## Operating garage Garage is operated using its command-line interface, which can be accessed using any node of the cluster running garage: ``` docker ps # to find the identifier of the container running garage docker exec -ti <id> /garage <cli args...> ```