ntfy/docs/develop.md

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# Development
Hurray 🥳 🎉, you are interested in writing code for ntfy! **That's awesome.** 😎
I tried my very best to write up detailed instructions, but if at any point in time you run into issues, don't
hesitate to **contact me on [Discord](https://discord.gg/cT7ECsZj9w) or [Matrix](https://matrix.to/#/#ntfy:matrix.org)**.
## ntfy server
The ntfy server source code is available [on GitHub](https://github.com/binwiederhier/ntfy). The codebase for the
server consists of three components:
* **The main server/client** is written in [Go](https://go.dev/) (so you'll need Go). Its main entrypoint is at
[main.go](https://github.com/binwiederhier/ntfy/blob/main/main.go), and the meat you're likely interested in is
in [server.go](https://github.com/binwiederhier/ntfy/blob/main/server/server.go). Notably, the server uses a
[SQLite](https://sqlite.org) library called [go-sqlite3](https://github.com/mattn/go-sqlite3), which requires
[Cgo](https://go.dev/blog/cgo) and `CGO_ENABLED=1` to be set. Otherwise things will not work (see below).
* **The documentation** is generated by [MkDocs](https://www.mkdocs.org/) and [Material for MkDocs](https://squidfunk.github.io/mkdocs-material/),
which is written in [Python](https://www.python.org/). You'll need Python and MkDocs (via `pip`) only if you want to
build the docs.
* **The web app** is written in [React](https://reactjs.org/), using [MUI](https://mui.com/). It uses [Vite](https://vitejs.dev/)
to build the production build. If you want to modify the web app, you need [nodejs](https://nodejs.org/en/) (for `npm`)
and install all the 100,000 dependencies (*sigh*).
All of these components are built and then **baked into one binary**.
### Navigating the code
Code:
* [main.go](https://github.com/binwiederhier/ntfy/blob/main/main.go) - Main entrypoint into the CLI, for both server and client
* [cmd/](https://github.com/binwiederhier/ntfy/tree/main/cmd) - CLI commands, such as `serve` or `publish`
* [server/](https://github.com/binwiederhier/ntfy/tree/main/server) - The meat of the server logic
* [docs/](https://github.com/binwiederhier/ntfy/tree/main/docs) - The [MkDocs](https://www.mkdocs.org/) documentation, also see `mkdocs.yml`
* [web/](https://github.com/binwiederhier/ntfy/tree/main/web) - The [React](https://reactjs.org/) application, also see `web/package.json`
Build related:
* [Makefile](https://github.com/binwiederhier/ntfy/blob/main/Makefile) - Main entrypoint for all things related to building
* [.goreleaser.yml](https://github.com/binwiederhier/ntfy/blob/main/.goreleaser.yml) - Describes all build outputs (for [GoReleaser](https://goreleaser.com/))
* [go.mod](https://github.com/binwiederhier/ntfy/blob/main/go.mod) - Go modules dependency file
* [mkdocs.yml](https://github.com/binwiederhier/ntfy/blob/main/mkdocs.yml) - Config file for the docs (for [MkDocs](https://www.mkdocs.org/))
* [web/package.json](https://github.com/binwiederhier/ntfy/blob/main/web/package.json) - Build and dependency file for web app (for npm)
The `web/` and `docs/` folder are the sources for web app and documentation. During the build process,
the generated output is copied to `server/site` (web app and landing page) and `server/docs` (documentation).
### Build/test on Gitpod
To get a quick working development environment you can use [Gitpod](https://gitpod.io), an in-browser IDE
that makes it easy to develop ntfy without having to set up a desktop IDE. For any real development,
I do suggest a proper IDE like [IntelliJ IDEA](https://www.jetbrains.com/idea/).
[![Open in Gitpod](https://gitpod.io/button/open-in-gitpod.svg)](https://gitpod.io/#https://github.com/binwiederhier/ntfy)
### Build requirements
* [Go](https://go.dev/) (required for main server)
* [gcc](https://gcc.gnu.org/) (required main server, for SQLite cgo-based bindings)
* [Make](https://www.gnu.org/software/make/) (required for convenience)
* [libsqlite3/libsqlite3-dev](https://www.sqlite.org/) (required for main server, for SQLite cgo-based bindings)
* [GoReleaser](https://goreleaser.com/) (required for a proper main server build)
* [Python](https://www.python.org/) (for `pip`, only to build the docs)
* [nodejs](https://nodejs.org/en/) (for `npm`, only to build the web app)
### Install dependencies
These steps **assume Ubuntu**. Steps may vary on different Linux distributions.
First, install [Go](https://go.dev/) (see [official instructions](https://go.dev/doc/install)):
``` shell
wget https://go.dev/dl/go1.19.1.linux-amd64.tar.gz
sudo rm -rf /usr/local/go && sudo tar -C /usr/local -xzf go1.19.1.linux-amd64.tar.gz
export PATH=$PATH:/usr/local/go/bin:$HOME/go/bin
go version # verifies that it worked
```
Install [GoReleaser](https://goreleaser.com/) (see [official instructions](https://goreleaser.com/install/)):
``` shell
go install github.com/goreleaser/goreleaser@latest
goreleaser -v # verifies that it worked
```
Install [nodejs](https://nodejs.org/en/) (see [official instructions](https://nodejs.org/en/download/package-manager/)):
``` shell
curl -fsSL https://deb.nodesource.com/setup_18.x | sudo -E bash -
sudo apt-get install -y nodejs
npm -v # verifies that it worked
```
Then install a few other things required:
``` shell
sudo apt install \
build-essential \
libsqlite3-dev \
gcc-arm-linux-gnueabi \
gcc-aarch64-linux-gnu \
python3-pip \
git
```
### Check out code
Now check out via git from the [GitHub repository](https://github.com/binwiederhier/ntfy):
=== "via HTTPS"
``` shell
git clone https://github.com/binwiederhier/ntfy.git
cd ntfy
```
=== "via SSH"
``` shell
git clone git@github.com:binwiederhier/ntfy.git
cd ntfy
```
### Build all the things
Now you can finally build everything. There are tons of `make` targets, so maybe just review what's there first
by typing `make`:
``` shell
$ make
Typical commands (more see below):
make build - Build web app, documentation and server/client (sloowwww)
make cli-linux-amd64 - Build server/client binary (amd64, no web app or docs)
make install-linux-amd64 - Install ntfy binary to /usr/bin/ntfy (amd64)
make web - Build the web app
make docs - Build the documentation
make check - Run all tests, vetting/formatting checks and linters
...
```
If you want to build the **ntfy binary including web app and docs for all supported architectures** (amd64, armv7, and arm64),
you can simply run `make build`:
``` shell
$ make build
...
# This builds web app, docs, and the ntfy binary (for amd64, armv7 and arm64).
# This will be SLOW (5+ minutes on my laptop on the first run). Maybe look at the other make targets?
```
You'll see all the outputs in the `dist/` folder afterwards:
``` bash
$ find dist
dist
dist/metadata.json
dist/ntfy_arm64_linux_arm64
dist/ntfy_arm64_linux_arm64/ntfy
dist/ntfy_armv7_linux_arm_7
dist/ntfy_armv7_linux_arm_7/ntfy
dist/ntfy_amd64_linux_amd64
dist/ntfy_amd64_linux_amd64/ntfy
dist/config.yaml
dist/artifacts.json
```
If you also want to build the **Debian/RPM packages and the Docker images for all supported architectures**, you can
use the `make release-snapshot` target:
``` shell
$ make release-snapshot
...
# This will be REALLY SLOW (sometimes 5+ minutes on my laptop)
```
During development, you may want to be more picky and build only certain things. Here are a few examples.
### Build a Docker image only for Linux
This is useful to test the final build with web app, docs, and server without any dependencies locally
``` shell
$ make docker-dev
$ docker run --rm -p 80:80 binwiederhier/ntfy:dev serve
```
### Build the ntfy binary
To build only the `ntfy` binary **without the web app or documentation**, use the `make cli-...` targets:
``` shell
$ make
Build server & client (using GoReleaser, not release version):
make cli - Build server & client (all architectures)
make cli-linux-amd64 - Build server & client (Linux, amd64 only)
make cli-linux-armv6 - Build server & client (Linux, armv6 only)
make cli-linux-armv7 - Build server & client (Linux, armv7 only)
make cli-linux-arm64 - Build server & client (Linux, arm64 only)
make cli-windows-amd64 - Build client (Windows, amd64 only)
make cli-darwin-all - Build client (macOS, arm64+amd64 universal binary)
```
So if you're on an amd64/x86_64-based machine, you may just want to run `make cli-linux-amd64` during testing. On a modern
system, this shouldn't take longer than 5-10 seconds. I often combine it with `install-linux-amd64` so I can run the binary
right away:
``` shell
$ make cli-linux-amd64 install-linux-amd64
$ ntfy serve
```
**During development of the main app, you can also just use `go run main.go`**, as long as you run
`make cli-deps-static-sites`at least once and `CGO_ENABLED=1`:
``` shell
$ export CGO_ENABLED=1
$ make cli-deps-static-sites
$ go run main.go serve
2022/03/18 08:43:55 Listening on :2586[http]
...
```
If you don't run `cli-deps-static-sites`, you may see an error *`pattern ...: no matching files found`*:
```
$ go run main.go serve
server/server.go:85:13: pattern docs: no matching files found
```
This is because we use `go:embed` to embed the documentation and web app, so the Go code expects files to be
present at `server/docs` and `server/site`. If they are not, you'll see the above error. The `cli-deps-static-sites`
target creates dummy files that ensure that you'll be able to build.
While not officially supported (or released), you can build and run the server **on macOS** as well. Simply run
`make cli-darwin-server` to build a binary, or `go run main.go serve` (see above) to run it.
### Build the web app
The sources for the web app live in `web/`. As long as you have `npm` installed (see above), building the web app
is really simple. Just type `make web` and you're in business:
``` shell
$ make web
...
```
This will build the web app using Create React App and then **copy the production build to the `server/site` folder**, so
that when you `make cli` (or `make cli-linux-amd64`, ...), you will have the web app included in the `ntfy` binary.
If you're developing on the web app, it's best to just `cd web` and run `npm start` manually. This will open your browser
at `http://127.0.0.1:3000` with the web app, and as you edit the source files, they will be recompiled and the browser
will automatically refresh:
``` shell
$ cd web
$ npm start
```
### Testing Web Push locally
Reference: <https://stackoverflow.com/questions/34160509/options-for-testing-service-workers-via-http>
#### With the dev servers
1. Get web push keys `go run main.go web-push generate-keys`
2. Run the server with web push enabled
```sh
go run main.go \
--log-level debug \
serve \
--web-push-enabled \
--web-push-public-key KEY \
--web-push-private-key KEY \
--web-push-file=/tmp/webpush.db
```
3. In `web/public/config.js`:
- Set `base_url` to `http://localhost`, This is required as web push can only be used with the server matching the `base_url`.
- Set the `web_push_public_key` correctly.
4. Run `npm run start`
#### With a built package
1. Run `make web-build`
2. Follow steps 1, 2, 4 and 5 from "With the dev servers"
3. Open <http://localhost/>
### Build the docs
The sources for the docs live in `docs/`. Similarly to the web app, you can simply run `make docs` to build the
documentation. As long as you have `mkdocs` installed (see above), this should work fine:
``` shell
$ make docs
...
```
If you are changing the documentation, you should be running `mkdocs serve` directly. This will build the documentation,
serve the files at `http://127.0.0.1:8000/`, and rebuild every time you save the source files:
```
$ mkdocs serve
INFO - Building documentation...
INFO - Cleaning site directory
INFO - Documentation built in 5.53 seconds
INFO - [16:28:14] Serving on http://127.0.0.1:8000/
```
Then you can navigate to http://127.0.0.1:8000/ and whenever you change a markdown file in your text editor it'll automatically update.
## Android app
The ntfy Android app source code is available [on GitHub](https://github.com/binwiederhier/ntfy-android).
The Android app has two flavors:
* **Google Play:** The `play` flavor includes [Firebase (FCM)](https://firebase.google.com/) and requires a Firebase account
* **F-Droid:** The `fdroid` flavor does not include Firebase or Google dependencies
### Navigating the code
* [main/](https://github.com/binwiederhier/ntfy-android/tree/main/app/src/main) - Main Android app source code
* [play/](https://github.com/binwiederhier/ntfy-android/tree/main/app/src/play) - Google Play / Firebase specific code
* [fdroid/](https://github.com/binwiederhier/ntfy-android/tree/main/app/src/fdroid) - F-Droid Firebase stubs
* [build.gradle](https://github.com/binwiederhier/ntfy-android/blob/main/app/build.gradle) - Main build file
### IDE/Environment
You should download [Android Studio](https://developer.android.com/studio) (or [IntelliJ IDEA](https://www.jetbrains.com/idea/)
with the relevant Android plugins). Everything else will just be a pain for you. Do yourself a favor. 😀
### Check out the code
First check out the repository:
=== "via HTTPS"
``` shell
git clone https://github.com/binwiederhier/ntfy-android.git
cd ntfy-android
```
=== "via SSH"
``` shell
git clone git@github.com:binwiederhier/ntfy-android.git
cd ntfy-android
```
Then either follow the steps for building with or without Firebase.
### Build F-Droid flavor (no FCM)
!!! info
I do build the ntfy Android app using IntelliJ IDEA (Android Studio), so I don't know if these Gradle commands will
work without issues. Please give me feedback if it does/doesn't work for you.
Without Firebase, you may want to still change the default `app_base_url` in [values.xml](https://github.com/binwiederhier/ntfy-android/blob/main/app/src/main/res/values/values.xml)
if you're self-hosting the server. Then run:
```
# Remove Google dependencies (FCM)
sed -i -e '/google-services/d' build.gradle
sed -i -e '/google-services/d' app/build.gradle
# To build an unsigned .apk (app/build/outputs/apk/fdroid/*.apk)
./gradlew assembleFdroidRelease
# To build a bundle .aab (app/fdroid/release/*.aab)
./gradlew bundleFdroidRelease
```
### Build Play flavor (FCM)
!!! info
I do build the ntfy Android app using IntelliJ IDEA (Android Studio), so I don't know if these Gradle commands will
work without issues. Please give me feedback if it does/doesn't work for you.
To build your own version with Firebase, you must:
* Create a Firebase/FCM account
* Place your account file at `app/google-services.json`
* And change `app_base_url` in [values.xml](https://github.com/binwiederhier/ntfy-android/blob/main/app/src/main/res/values/values.xml)
* Then run:
```
# To build an unsigned .apk (app/build/outputs/apk/play/*.apk)
./gradlew assemblePlayRelease
# To build a bundle .aab (app/play/release/*.aab)
./gradlew bundlePlayRelease
```
## iOS app
Building the iOS app is very involved. Please report any inconsistencies or issues with it. The requirements are
strictly based off of my development on this app. There may be other versions of macOS / XCode that work.
### Requirements
1. macOS Monterey or later
1. XCode 13.2+
1. A physical iOS device (for push notifications, Firebase does not work in the XCode simulator)
1. Firebase account
1. Apple Developer license? (I forget if it's possible to do testing without purchasing the license)
### Apple setup
!!! info
Along with this step, the [PLIST Deployment](#plist-deployment-and-configuration) step is also required
for these changes to take effect in the iOS app.
1. [Create a new key in Apple Developer Member Center](https://developer.apple.com/account/resources/authkeys/add)
1. Select "Apple Push Notifications service (APNs)"
1. Download the newly created key (should have a file name similar to `AuthKey_ZZZZZZ.p8`, where `ZZZZZZ` is the **Key ID**)
1. Record your **Team ID** - it can be seen in the top-right corner of the page, or on your Account > Membership page
1. Next, navigate to "Project Settings" in the firebase console for your project, and select the iOS app you created. Then, click "Cloud Messaging" in the left sidebar, and scroll down to the "APNs Authentication Key" section. Click "Upload Key", and upload the key you downloaded from Apple Developer.
!!! warning
If you don't do the above setups for APNS, **notifications will not post instantly or sometimes at all**. This is because of the missing APNS key, which is required for firebase to send notifications to the iOS app. See below for a snip from the firebase docs.
If you don't have an APNs authentication key, you can still send notifications to iOS devices, but they won't be delivered
instantly. Instead, they'll be delivered when the device wakes up to check for new notifications or when your application
sends a firebase request to check for them. The time to check for new notifications can vary from a few seconds to hours,
days or even weeks. Enabling APNs authentication keys ensures that notifications are delivered instantly and is strongly
recommended.
### Firebase setup
1. If you haven't already, create a Google / Firebase account
1. Visit the [Firebase console](https://console.firebase.google.com)
1. Create a new Firebase project:
1. Enter a project name
1. Disable Google Analytics (currently iOS app does not support analytics)
1. On the "Project settings" page, add an iOS app
1. Apple bundle ID - "com.copephobia.ntfy-ios" (this can be changed to match XCode's ntfy.sh target > "Bundle Identifier" value)
1. Register the app
1. Download the config file - GoogleInfo.plist (this will need to be included in the ntfy-ios repository / XCode)
1. Generate a new service account private key for the ntfy server
1. Go to "Project settings" > "Service accounts"
1. Click "Generate new private key" to generate and download a private key to use for sending messages via the ntfy server
### ntfy server
Note that the ntfy server is not officially supported on macOS. It should, however, be able to run on macOS using these
steps:
1. If not already made, make the `/etc/ntfy/` directory and move the service account private key to that folder
1. Copy the `server/server.yml` file from the ntfy repository to `/etc/ntfy/`
1. Modify the `/etc/ntfy/server.yml` file `firebase-key-file` value to the path of the private key
1. Install go: `brew install go`
1. In the ntfy repository, run `make cli-darwin-server`.
### XCode setup
1. Follow step 4 of [https://firebase.google.com/docs/ios/setup](Add Firebase to your Apple project) to install the
`firebase-ios-sdk` in XCode, if it's not already present - you can select any packages in addition to Firebase Core / Firebase Messaging
1. Similarly, install the SQLite.swift package dependency in XCode
1. When running the debug build, ensure XCode is pointed to the connected iOS device - registering for push notifications does not work in the iOS simulators
### PLIST config
To have instant notifications/better notification delivery when using firebase, you will need to add the
`GoogleService-Info.plist` file to your project. Here's how to do that:
1. In XCode, find the NTFY app target. **Not** the NSE app target.
1. Find the Asset/ folder in the project navigator
1. Drag the `GoogleService-Info.plist` file into the Asset/ folder that you get from the firebase console. It can be
found in the "Project settings" > "General" > "Your apps" with a button labled "GoogleService-Info.plist"
After that, you should be all set!