+++ title = "Tips & Setup" weight = 20 +++ # Setup / Tips ## Starting Servers with `reStart` When developing, it's very convenient to use the [revolver sbt plugin](https://github.com/spray/sbt-revolver). Start the sbt console and then run: ``` sbt:docspell-root> restserver/reStart ``` This starts a REST server. Once this started up, type: ``` sbt:docspell-root> joex/reStart ``` if also a joex component is required. Prefixing the commads with `~`, results in recompile+restart once a source file is modified. It is possible to start both in the root project: ``` sbt:docspell-root> reStart ``` ## Custom config file The sbt build is setup such that a file `dev.conf` in the directory `local` (at root of the source tree) is picked up as config file, if it exists. So you can create a custom config file for development. For example, a custom database for development may be setup this way: ``` bash #jdbcurl = "jdbc:h2:///home/dev/workspace/projects/docspell/local/docspell-demo.db;MODE=PostgreSQL;DATABASE_TO_LOWER=TRUE;AUTO_SERVER=TRUE" jdbcurl = "jdbc:postgresql://localhost:5432/docspelldev" #jdbcurl = "jdbc:mariadb://localhost:3306/docspelldev" docspell.server { backend { jdbc { url = ${jdbcurl} user = "dev" password = "dev" } } } docspell.joex { jdbc { url = ${jdbcurl} user = "dev" password = "dev" } scheduler { pool-size = 1 } } ``` ## Installing Nix It is recommended to install [nix](https://nixos.org/nix). You can use the official installer or [this one](https://github.com/DeterminateSystems/nix-installer), which will enable Flakes by default. If not enabled, enable flakes by creating a config file: ``` mkdir -p ~/.config/nix #on Linux echo "experimental-features = nix-command flakes" >> ~/.config/nix/nix.conf ``` With nix installed you can use the provided development environments to get started quickly. # Nix Expressions The soure root contains a `flake.nix` file to install docspell via the nix package manager and to integrate it into NixOS. The flake provides docspell packages of the latest release and NixOS modules. It doesn't provide package builds from the current source tree. ## Dev Environments Additionally it provides devshells that can be used to create a development environment for docspell. These two `devShell` definitions address two different setups: one uses a NixOS container and the other a VM. Both provide the same set of services that can be used with the local docspell instance: - postgresql database, with a database `docspell` and user `dev` - solr with a core `docspell` - email setup with smtp/imap and webmail - minio with root user `minioadmin` If you are on NixOS the container is probably more convenient to use. For other systems, the vm should be good. Drop into either shell by running: ``` bash # drop into the environment setup for using a vm nix develop .#dev-vm # drop into the environment setup for using a container nix develop .#docsp-dev ``` Once in such an environment, you can create the container or vm like this: ```bash # dev-vm env # - build the vm vm-build # -run the vm vm-run # - ssh into the vm vm-ssh # docsp-dev container env # - create the container cnt-recreate # - login cnt-login ``` You can use tab completion on `vm-` or `cnt-` and see other useful commands. For instance it allows to recreate solr cores or check logs of services on the container or vm. Then you can adjust your dev config file in `local/dev.conf` to connect to the services on the vm or container. The container exposes the default ports while the vm uses port-forwarding from the host to the guest machine. The ports are define in `flake.nix`. For example, a jdbc connection to postgres on the container can look like this: ``` jdbc.url = "jdbc:postgresql://docsp-dev:5432/docspelldev" ``` on the vm, it would be ``` jdbc.url = "jdbc:postgresql://localhost:6543/docspelldev" ``` You can reach the webmail on both versions at port `8080`. In order to enable sending mails between users, you need to login as some arbitrary user so the underlying services can create the data directories. In your dev docspell you can then connect to smtp on the vm or container. Mails send from docspell can be checked in the webmail. Conversely, you can send mails using webmail to any user and have their mailbox scanned by docspell. ### Direnv Using [direnv](https://direnv.net) entering the dev environment is very convenient. Install this tool (it also has integration in several IDEs and editors) and create a file `.envrc` in the source root: ``` use flake .# ``` The file `.envrc` is git-ignored, because different ones are possible. Here `` refers to either `dev-cnt` or `dev-vm` - one of the devshells defined in `flake.nix`. After allowing direnv to execute this file via `direnv allow` you will be dropped into this environment whenever you enter the directory. It will also preserve your shell, don't need to use bash. ## Checks The command `nix flake check` would run all checks defined in the flake. It will build both packages and runs a vm with docspell installed (via NixOS modules) and check whether the services come up. ## Test VM There is another VM defined in the flake that provides a full setup for docspell. It contains docspell server and joex, a postgresql, a solr and a email setup. The intention is to use it as an easy 'getting started' approach with nix. Once it has started, you can connect to `localhost:7881` to reach docspell. The webmail will be available at `localhost:8080`. You can run this vm with a single command: ``` nix run github:eikek/docspell#nixosConfigurations.test-vm.config.system.build.vm ``` It uses the same setup as the dev-vm, so you can drop into the `.#dev-vm` development shell and use `vm-ssh` to connect to the running test vm. Once connected to the machine, you can see the docspell config file via ```bash systemctl show docspell-joex.service | grep "ExecStart=" | sed 's/^ExecStart=.*path=\([^;]*\).*/\1/' | xargs tac | grep -m 1 . | awk '{print $NF}' | tr -d '"' | xargs jq '.' # or replace "joex" with "restserver" systemctl show docspell-restserver.service | grep "ExecStart=" | sed 's/^ExecStart=.*path=\([^;]*\).*/\1/' | xargs tac | grep -m 1 . | awk '{print $NF}' | tr -d '"' | xargs jq '.' ``` # Developing Frontend The frontend is a SPA written in [Elm](https://elm-lang.org). The UI framework in use is [tailwind](https://tailwindcss.com). The frontend code is in the sub-project `webapp`. Running sbt's `compile` task, compiles elm sources and creates the final CSS file. Whenever the `restserver` module is build by sbt, the `webapp` sub-project is built as well and the final files to deliver are updated. So, when in sbt shell, "watch-compile" the project `restserver`, (via `~ restserver/compile`), re-compiles elm-code on change. However, it also re-creates the final css, which is a rather long task. To speed things up when only developing the frontend, a bash script is provided in `project/dev-ui-build.sh`. Start the `restserver` once, using `restserver/reStart` task as described above. Then run this script in the source root. It will watch elm files and the css file and re-compiles only on change writing the resulting files in the correct locations so they get picked up by the restserver. Now you can edit elm files and the `index.css` and then only refresh the page. Elm compilation is *very* fast, it's difficult to reach the refresh button before it is done compiling :). When editing the CSS, it takes a little longer, but this is hardly necessary, thanks to tailwind. There is still a problem: the browser caches the js and css files by default, so a page refresh is not enough, you need to clear the cache, too. To avoid this annoyance, set a env variable `DOCSPELL_ENV` to the value `dev`. Docspell then adds a response header, preventing the browser to cache these files. This must be done, obviously, before starting the restserver: ``` bash $ export DOCSPELL_ENV=dev $ sbt "restserver/reStart" ``` # Developing Backend ## OpenAPI The http API is specified in the corresponding `-openapi.yml` file. The `component` section is being used to generate code for the client and the server, so that both are always in sync. However, the route definitions are not checked against the server implementation. Changes to the openapi files can be checked by running a sbt task: ``` scala restapi/openapiLint //and/or joexapi/openapiLint ``` These tasks must not show any errors (it is checked by the CI). The warnings should also be fixed. # Release The CI and making a release is done via github actions. The workflow is roughly like this: - each PR is only merged if the `sbt ci` task returns successfully. This is ensured by the `ci.yml` workflow that triggers on each pull request - each commit to the `master` branch is also going through `sbt ci` and then a prerelease is created. The tag `nightly` is used to point to the latest commit in `master`. Note, that this is [discouraged by git](https://git-scm.com/docs/git-tag#_on_re_tagging), but github doesn't allow to create a release without a tag. So this tag moves (and is not really a tag then…). After the prerelease is created, the docker images are built and pushed to docker hub into the [docspell](https://hub.docker.com/u/docspell) organization. The docker images are also tagged with `nightly` at docker hub. This is all done via the `realease-nightly.yml` workflow. - A stable release is started by pushing a tag with pattern `v*` to github. This triggers the `release.yml` workflow which builds the packages and creates a release in *draft mode*. The `sbt ci` task *is not* run, because it is meant to only release commits already in the `master` branch. After this completes, the release notes need to be added manually and then the release must be published at github. This then triggers the `docker-images.yml` workflow, which builds the corresponding docker images and pushes them to docker hub. The docker images are tagged with the exact version and the `latest` tag is moved to the new images. Another manual step is to set the branch `current-docs` to its new state and push it to github. This will trigger a build+publish of the website. - Publishing the website happens automatically on each push to the branch `current-docs`. Changes to the current website must be based on this branch. Some notes: I wanted a 2/3 step process when doing a stable release, to be able to add release notes manually (I don't want this to be automated right now) and to do some testing with the packages before publishing the release. However, for the nightly releases, this doesn't matter - everything must be automated here obviously. I also wanted the docker images to be built from the exact same artifacts that have been released at github (in contrast to being built again).