Make AI Accessible: Backend.AI Web UI (web/app) for End-user / DevOps / SysAdmin.
For more information, see manual.
View changelog
Backend.AI Web UI focuses to
- Both desktop app (Windows, macOS and Linux) and web service
- Provide both basic administration and user mode
- Use CLI for detailed administration features such as domain administration
- Versatile devices ready such as mobile, tablet and desktop
- Built-in websocket proxy feature for desktop app
- Session management
- Set default resources for runs
- Monitor current resources sessions using
- Choose and run environment-supported apps
- Web-based Terminal for each session
- Fully-featured Visual Studio Code editor and environments
- Inference service management
- Set / reserve endpoint URL for inference
- Autoscaling setup
- Pipeline
- Experiments (with SACRED / Microsoft NNI / Apache MLFlow)
- AutoML (with Microsoft NNI / Apache MLFlow)
- Manages container streams with pipeline vfolders
- Storage proxy for fast data I/O between backend.ai cluster and user
- Checks queue and scheduled jobs
- Storage management
- Create / delete folders
- Upload / download files (with upload progress)
- Integrated SSH/SFTP server (app mode only)
- Share folders with friends / groups
- Node management
- See calculation nodes in Backend.AI cluster
- Live statistics of bare-metal / VM nodes
- Statistics
- User resource statistics
- Session statistics
- Workload statistics
- Per-node statistics
- Insight (working)
- Configurations
- User-specific web / app configurations
- System maintenances
- Beta features
- WebUI logs / errors
- License
- Check current license information (for enterprise only)
- Plugins
- Per-site specific plugin architecture
- Device plugins / storage plugins
- Help & manuals
- Online manual
- Kernel managements
- List supported kernels
- Add kernel
- Refresh kernel list
- Categorize repository
- Add/update resource templates
- Add/remove docker registries
- User management
- User creation / deletion / key management / resource templates
- Keypair management
- Allocate resource limitation for keys
- Add / remove resource policies for keys
- Manager settings
- Add /setting repository
- Plugin support
- Proxy mode to support various app environments (with node.js (web), electron (app) )
- Needs backend.ai-wsproxy package
- Service information
- Component compatibility
- Security check
- License information
- Work with Web server (github/lablup/backend.ai-webserver)
- Delegate login to web server
- Support userid / password login
backend.ai-webui
production version is also served as backend.ai-app
and refered by backend.ai-webserver
as submodule. If you use backend.ai-webserver
, you are using latest stable release of backend.ai-webui
.
Backend.AI Web UI uses config.toml
located in app root directory. You can prepare many config.toml.[POSTFIX]
in configs
directory to switch various configurations.
NOTE: Update only
config.toml.sample
when you update configurations. Any files inconfigs
directory are auto-created viaMakefile
.
These are options in config.toml
.
You can refer the role of each key in config.toml.sample
When enabling debug mode, It will show certain features used for debugging in both web and app respectively.
- Show raw error messages
- Enable creating session with manual image name
If you want to run the app(electron) in debugging mode, you have to first initialize and build the Electron app.
If you have initialized and built the app(electron), please run the app(electron) in debugging mode with this command:
$ make test_electron
You can debug the app.
- main : Development branch
- release : Latest release branch
- feature/[feature-branch] : Feature branch. Uses
git flow
development scheme. - tags/v[versions] : version tags. Each tag represents release versions.
Backend.AI Web UI is built with
lit-element
as webcomponent frameworkreact
as library for web UInpm
as package managerrollup
as bundlerelectron
as app shellwatchman
as file change watcher for development
View Code of conduct for community guidelines.
$ npm i
If this is not your first-time compilation, please clean the temporary directories with this command:
$ make clean
You must perform first-time compilation for testing. Some additional mandatory packages should be copied to proper location.
$ make compile_wsproxy
To run relay-compiler
with the watch option(npm run relay -- --watch
) on a React project, you need to install watchman
. If you use Homebrew on Linux, it's a great way to get a recent Watchman build. Please refer to the official installation guide.
On a terminal:
$ npm run build:d # To watch source changes
On another terminal:
$ npm run server:d # To run dev. web server
On yet another terminal:
$ npm run wsproxy # To run websocket proxy
If you want to change port for your development environment, Add your configuration to /react/.env.development
file in the project:
PORT=YOURPORT
Defaultly, PORT
is 9081
$ npm run lint # To check lints
The project uses testcafe
as testing framework.
To perform functional tests, you must run complete Backend.AI cluster before starting test.
On a terminal:
$ npm run server:d # To run dev. web server
On another terminal:
$ npm run test # Run tests (tests are located in `tests` directory)
On a terminal:
$ npm run server:d # To run test server
OR
$ npm run server:p # To run compiled source
On another terminal:
$ npm run electron:d # Run Electron as dev mode.
$ make compile
Then bundled resource will be prepared in build/rollup
. Basically, both app and web serving is based on static serving sources in the directory. However, to work as single page application, URL request fallback is needed.
If you want to create the bundle zip file,
$ make bundle
will generate compiled static web bundle at ./app
directory. Then you can serve the web bundle via webservers.
If you need to serve with nginx, please install and setup backend.ai-wsproxy
package for websocket proxy. Bundled websocket proxy is simplified version for single-user app.
This is nginx server configuration example. [APP PATH] should be changed to your source path.
server {
listen 443 ssl http2;
listen [::]:443 ssl http2;
server_name [SERVER URL];
charset utf-8;
client_max_body_size 15M; # maximum upload size.
root [APP PATH];
index index.html;
location / {
try_files $uri /index.html;
}
keepalive_timeout 120;
ssl_certificate [CERTIFICATE FILE PATH];
ssl_certificate_key [CERTIFICATE KEY FILE PATH];
}
Make sure that you compile the Web UI.
e.g. You will download the backend.ai-webserver
package.
$ make compile
Good for develop phase. Not recommended for production environment.
Note: This command will use Web UI source in build/rollup
directory. No certificate will be used therefore web server will serve as HTTP.
Copy webserver.example.conf
in docker_build
directory into current directory as webserver.conf
and modify configuration files for your needs.
$ docker-compose build webui-dev # build only
$ docker-compose up webui-dev # for testing
$ docker-compose up -d webui-dev # as a daemon
Visit http://127.0.0.1:8080
to test web server.
Recommended for production.
Note: You have to enter the certificates (chain.pem
and priv.pem
) into certificates
directory. Otherwise, you will have an error during container initialization.
Copy webserver.example.ssl.conf
in docker_build
directory into current directory as webserver.conf
and modify configuration files for your needs.
$ docker-compose build webui # build only
$ docker-compose up webui # for testing
$ docker-compose up -d webui # as a daemon
Visit https://127.0.0.1:443
to test web server serving. Change 127.0.0.1
to your production domain.
$ docker-compose down
$ make compile
$ docker build -t backendai-webui .
Testing / Running example
Check your image name is backendai-webui_webui
or backendai-webui_webui-ssl
. Otherwise, change the image name in the script below.
$ docker run --name backendai-webui -v $(pwd)/config.toml:/usr/share/nginx/html/config.toml -p 80:80 backendai-webui_webui /bin/bash -c "envsubst '$$NGINX_HOST' < /etc/nginx/conf.d/default.template > /etc/nginx/conf.d/default.conf && nginx -g 'daemon off;'"
$ docker run --name backendai-webui-ssl -v $(pwd)/config.toml:/usr/share/nginx/html/config.toml -v $(pwd)/certificates:/etc/certificates -p 443:443 backendai-webui_webui-ssl /bin/bash -c "envsubst '$$NGINX_HOST' < /etc/nginx/conf.d/default-ssl.template > /etc/nginx/conf.d/default.conf && nginx -g 'daemon off;'"
If you need to serve as webserver (ID/password support) without compiling anything, you can use pre-built code through webserver submodule.
To download and deploy web UI from pre-built source, do the following in backend.ai
repository:
$ git submodule update --init --checkout --recursive
This is only needed with pure ES6 dev. environment / browser. Websocket proxy is embedded in Electron and automatically starts.
$ npm run wsproxy
If webui app is behind an external http proxy, and you have to pass through
it to connect to a webserver or manager server, you can set
EXT_HTTP_PROXY
environment variable with the address of the http proxy.
Local websocket proxy then communicates with the final destination via the http
proxy. The address should include the protocol, host, and/or port (if exists).
For example,
$ export EXT_HTTP_PROXY=http://10.20.30.40:3128 (Linux)
$ set EXT_HTTP_PROXY=http://10.20.30.40:3128 (Windows)
Even if you are using Electron embedded websocket proxy, you have to set the environment variable manually to pass through a http proxy.
You can prepare site-specific configuration as toml
format. Also, you can build site-specific web bundle refering in configs
directory.
Note: Default setup will build es6-bundled
version. If you want to use es6-unbundled
, make sure that your webserver supports HTTP/2 and setup as HTTPS with proper certification.
$ make web site=[SITE CONFIG FILE POSTFIX]
If no prefix is given, default configuration file will be used.
Example:
$ make web site=beta
You can manually modify config.toml for your need.
Electron building is automated using Makefile
.
$ make clean # clean prebuilt codes
$ make mac # build macOS app (both Intel/Apple)
$ make mac_x64 # build macOS app (Intel x64)
$ make mac_arm64 # build macOS app (Apple Silicon)
$ make win # build win64 app
$ make linux # build linux app
$ make all # build win64/macos/linux app
$ make win
Note: Building Windows x86-64 on other than Windows requires Wine > 3.0
Note: On macOS Catalina, use scripts/build-windows-app.sh to build Windows 32bitpackage. From macOS 10.15+, wine 32x is not supported.
Note: Now the make win
command support only Windows x64 app, therefore you do not need to use build-windows-app.sh
anymore.
$ make mac
NOTE: Sometimes Apple silicon version compiled on Intel machine does not work.
$ make mac_x64
$ make mac_arm64
- Export keychain from Keychain Access. Exported p12 should contain:
- Certificate for Developer ID Application
- Corresponding Private Key
- Apple Developer ID CA Certificate. Version of signing certificate (G1 or G2) matters, so be careful to check appropriate version! To export multiple items at once, just select all items (Cmd-Click), right click one of the selected item and then click "Export n item(s)...".
- Set following environment variables when running
make mac_*
.
BAI_APP_SIGN=1
BAI_APP_SIGN_APPLE_ID="<Apple ID which has access to created signing certificate>"
BAI_APP_SIGN_APPLE_ID_PASSWORD="<App-specific password of target Apple ID>"
BAI_APP_SIGN_IDENTITY="<Signing Identity>"
BAI_APP_SIGN_KEYCHAIN_B64="<Base64 encoded version of exported p12 file>"
BAI_APP_SIGN_KEYCHAIN_PASSWORD="<Import password of exported p12 file>"
Signing Identity is equivalent to the name of signing certificate added on Keychain Access.
$ make linux
Note: Packaging usually performs right after app building. Therefore you do not need this option in normal condition.
Note: Packaging macOS disk image requires electron-installer-dmg to make macOS disk image. It requires Python 2+ to build binary for package.
Note: There are two Electron configuration files, main.js
and main.electron-packager.js
. Local Electron run uses main.js
, not main.electron-packager.js
that is used for real Electron app.
$ make dep # Compile with app dependencies
$ npm run electron:d # OR, ./node_modules/electron/cli.js .
The electron app reads the configuration from ./build/electron-app/app/config.toml
, which is copied from the root config.toml
file during make clean && make dep
.
If you configure [server].webServerURL
, the electron app will load the web contents (including config.toml
) from the designated server.
The server may be either a npm run server:d
instance or a ./py -m ai.backend.web.server
daemon from the mono-repo.
This is known as the "web shell" mode and allows live edits of the web UI while running it inside the electron app.
Locale resources are JSON files located in resources/i18n
.
Currently WebUI supports these languages:
- English
- Korean
- French
- Russian
- Mongolian
- Indonesian
Run
$ make i18n
to update / extract i18n resources.
- Use
_t
as i18n resource handler on lit-element templates. - Use
_tr
as i18n resource handler if i18n resource has HTML code inside. - Use
_text
as i18n resource handler on lit-element Javascript code.
In lit-html template:
<div>${_t('general.helloworld')}</div>
In i18n resource (en.json):
{
"general":{
"helloworld": "Hello World"
}
}
- Copy
en.json
to target language. (e.g.ko.json
) - Add language identifier to
supportLanguageCodes
inbackend-ai-webui.ts
. e.g.
@property({type: Array}) supportLanguageCodes = ["en", "ko"];
- Add language information to
supportLanguages
inbackend-ai-usersettings-general-list.ts
.
Note: DO NOT DELETE 'default' language. It is used for browser language.
@property({type: Array}) supportLanguages = [
{name: _text("language.Browser"), code: "default"},
{name: _text("language.English"), code: "en"},
{name: _text("language.Korean"), code: "ko"}
];