# deploy-rs A Simple, multi-profile Nix-flake deploy tool. **This is very early development software, you should expect to find issues, and things will change** ## Usage Basic usage: `deploy [options] `. The given flake can be just a source `my-flake`, or optionally specify the node to deploy `my-flake#my-node`, or specify a profile too `my-flake#my-node.my-profile`. You can try out this tool easily with `nix run`: - `nix run github:serokell/deploy-rs your-flake` If you require a signing key to push closures to your server, specify the path to it in the `LOCAL_KEY` environment variable. Check out `deploy --help` for CLI flags! Remember to check there before making one-time changes to things like hostnames. There is also an `activate` binary though this should be ignored, it is only used internally and for testing/hacking purposes. ## API ### Profile This is the core of how `deploy-rs` was designed, any number of these can run on a node, as any user (see further down for specifying user information). If you want to mimick the behaviour of traditional tools like NixOps or Morph, try just defining one `profile` called `system`, as root, containing a nixosSystem, and you can even similarly use [home-manager](https://github.com/nix-community/home-manager) on any non-privileged user. ```nix { # A derivation containing your required software, and a script to activate it in `${path}/activate` # For ease of use, `deploy-rs` provides a function to easy all this required activation script to any derivation # Both the working directory and `$PROFILE` will point to `profilePath` path = deploy-rs.lib.x86_64-linux.setActivate pkgs.hello "./bin/hello"; # An optional path to where your profile should be installed to, this is useful if you want to use a common profile name across multiple users, but would have conflicts in your node's profile list. # This will default to `"/nix/var/nix/profiles/$PROFILE_NAME` if `user` is root (see: generic options), and `/nix/var/nix/profiles/per-user/$USER/$PROFILE_NAME` if it is not. profilePath = "/nix/var/nix/profiles/per-user/someuser/someprofile"; # ...generic options... (see lower section) } ``` ### Node This defines a single node/server, and the profiles you intend it to run. ```nix { # The hostname of your server, don't worry, this can be overridden at runtime if needed hostname = "my.server.gov"; # An optional list containing the order you want profiles to be deployed. # This will take effect whenever you run `deploy` without specifying a profile, causing it to deploy every profile automatically. # Any profiles not in this list will still be deployed (in an arbitrary order) after those which are listed profilesOrder = [ "something" "system" ]; profiles = { # Definition format shown above system = {}; something = {}; }; # ...generic options... (see lower section) } ``` ### Deploy This is the top level attribute containing all of the options for this tool ```nix { nodes = { # Definition format shown above my-node = {}; another-node = {}; }; # ...generic options... (see lower section) } ``` ### Generic options This is a set of options that can be put in any of the above definitions, with the priority being `profile > node > deploy` ```nix { # This is the user that deploy-rs will use when connecting. # This will default to your own username if not specified anywhere sshUser = "admin"; # This is the user that the profile will be deployed to (will use sudo if not the same as above). # If `sshUser` is specified, this will be the default (though it will _not_ default to your own username) user = "root"; # This is an optional list of arguments that will be passed to SSH. sshOpts = [ "-p" "2121" ]; # Fast connection to the node. If this is true, copy the whole closure instead of letting the node substitute. # This defaults to `false` fastConnection = false; # If the previous profile should be re-activated if activation fails. # this defaults to `true` autoRollback = true; # If the node should wait for `deploy` to connect for a second time after activation, to confirm the server has not been ruined. # This defaults to `false`, though it is strongly recommend you activate it if you value safety magicRollback = true; # The path which deploy-rs will use for temporary files, this is currently only used by `magicRollback` to create an inotify watcher in # If not specified, this will default to `/tmp/deploy-rs` # (if `magicRollback` is in use, this _must_ be writable by `user`) tempPath = "/home/someuser/.deploy-rs"; } ``` ### Putting it together `deploy-rs` is designed to be used with Nix flakes (this currently requires an unstable version of Nix to work with). There is a Flake-less mode of operation which will automatically be used if your available Nix version does not support flakes, however you will likely want to use a flake anyway, just with `flake-compat` (see [this wiki page](https://nixos.wiki/wiki/Flakes) for usage). `deploy-rs` also outputs a `lib` attribute, with tools used to make your definitions simpler and safer, including `deploy-rs.lib.${system}.setActivate` (see prior section "Profile"), and `deploy-rs.lib.${system}.deployChecks` which will let `nix flake check` ensure your deployment is defined correctly. A basic example of a flake that works with `deploy-rs` and deploys a simple NixOS configuration could look like this ```nix { description = "Deployment for my server cluster"; # For accessing `deploy-rs`'s utility Nix functions inputs.deploy-rs.url = "github:serokell/deploy-rs"; outputs = { self, nixpkgs, deploy-rs }: { nixosConfigurations.some-random-system = nixpkgs.lib.nixosSystem { system = "x86_64-linux"; modules = [ ./some-random-system/configuration.nix ]; }; deploy.nodes.some-random-system.profiles.system = { user = "root"; path = deploy-rs.lib.x86_64-linux.setActivate self.nixosConfigurations.some-random-system.config.system.build.toplevel "./bin/switch-to-configuration switch"; }; }; # This is highly advised, and will prevent many possible mistakes checks = builtins.mapAttrs (system: deployLib: deployLib.deployChecks self.deploy) deploy-rs.lib; } ``` There are full working deploy-rs Nix expressions in the [examples folder](./examples), and there is a JSON schema [here](./interface.json) which is used internally by the `deployChecks` mentioned above to validate your expressions. ## Idea `deploy-rs` is a simple Rust program that will take a Nix flake and use it to deploy any of your defined profiles to your nodes. This is _strongly_ based off of [serokell/deploy](https://github.com/serokell/deploy), designed to replace it and expand upon it. This type of design (as opposed to more traditional tools like NixOps or morph) allows for lesser-privileged deployments, and the ability to update different things independently of eachother. ## Things to work on - ~~Ordered profiles~~ - ~~Automatic rollbacks~~ - ~~UI~~ - automatic kexec lustration of servers (maybe) - Remote health checks - ~~Rollback on reconnection failure (technically, rollback if not reconnected to)~~ - Optionally build on remote server ## About Serokell deploy-rs is maintained and funded with ❤️ by [Serokell](https://serokell.io/). The names and logo for Serokell are trademark of Serokell OÜ. We love open source software! See [our other projects](https://serokell.io/community?utm_source=github) or [hire us](https://serokell.io/hire-us?utm_source=github) to design, develop and grow your idea!