ai-cli
is a command line script, developed to simplify the execution of machine learning projects.
Docker containers are used to manage dependencies and isolate different projects from the host system.
ai-cli
helps to manages these containers and provides functionality, like:
- Manage project dependecies in differnet docker images
- Separate users
- Jupyter Lab integration
- Run MLflow projects with one command
- Management of CML runners for differnet git repositories
- Conda support using Mamba
- GPU support with CUDA
- Service based domain names using nginx reverse proxy
Download the latest release and install with dpkg -i ai-cli.deb
or clone the repository and execute sudo make install
to install ai-cli system-wide. Each user has to execute ai-cli init
before their first usage. To reach services online, the reverse proxy needs to be started with ai-cli start-proxy
once, globally.
You need to follow Install, System-Wide and User Configuration for a working install. Tested on Ubuntu 20.04.
Install
- Install dependencies:
sudo apt-get install git make dpkg apache2-utils
- Install
docker-ce
from docker website - Install
docker-compose v2
from github (move the executable to/usr/local/bin/docker-compose
, andsudo chmod +x /usr/local/bin/docker-compose
for example) - Install ai-cli:
git clone https://github.com/MArpogaus/ai-cli.git && cd ai-cli && sudo make install
Note:
ai-cli
requires docker daemon to be running.
System-Wide Configuration
Open /etc/ai-cli/config
and edit:
- DVC_DATA (should exist)
- MLFLOW_DATA (must exist, should contain ${USER} for user destinction) User needs to have read/write permissions, e.g. using
chown $USER:$USER PATH
command - CERTS_PATH (should contain .pem, .crt .key files for ssl)
- URLNAME (may be left as localhost if desired)
- DEFAULT_HOST (may be left as error.localhost if desired)
to reflect respective values of your system
Configure a first user like below and start reverse proxy: ai-cli start-proxy
. This needs to be invoked in order to reach exposed web services like jupyter.
User Configuration
The following needs to be done for every new user in order to use ai-cli
.
- Every user that should run ai-cli needs to be added to the
docker
group to not require root. You might need to log-in again or even restart for the change to apply. (e.g.sudo usermod -aG docker $USER
) - Every user needs to have a valid (global) git identity (email and name) set. (e.g.
git config --global user.name "John Doe"
andgit config --global user.email [email protected]
) - Execute
ai-cli init
for every new user to setup workspace and build user containers.
ai-cli
can now be used by the new user for example by starting a jupyter server with ai-cli lab
. Make sure the reverse proxy is running as described above before trying to access jupyter.
ai-cli [OPTIONS] COMMAND [ARGS...]
-v VOLUME Specify additional docker VOLUMEs
-e FILE Specify environment FILE
-g GPUS Enable gpu support. Set specific GPUS, e.g. 0,1 for gpu 0 and 1.
-n NAME Specify experiment NAME
-c CUDA Build with cuda support. Specify CUDA version to use. Tags image with 'c<VERSION>' by default.
-i IMAGE Specify docker IMAGE to be used.
-h Show help
init initialize this script for your user
start-mlflow start mlflow server
stop-mlflow stop mlflow server
restart-mlflow restart mlflow server
start-proxy start nginx reverse proxy
stop-proxy stop nginx reverse proxy
status show status of your environment
build build image from dockerfile
bash start bash shell inside container
notebook start jupyter notebook server
lab start jupyter lab server
runner start cml runner for repo
exec PROGRAMM execute PROGRAMM inside container
run PATH run MLProject from PATH inside container
run-from-git URI run MLProject from git repo at URI inside container
info show basic paths and env variables
version show git commit hash this script is installed with
reset-password Reset Password for mlflow you will setup a new one at next server start
ai-cli
is based on docker images/containers. The list of images associated to a user can be seen with ai-cli status
.
The image ai-cli/:workspace is used by default.
A different associated image can selected by specifying the -t flag.
All below commands need to be executed as the user that should use the respective feature.
After a fresh install, each user needs to execute ai-cli init
before starting to work.
To use the mlflow dashboard, the mlflow server needs to be started using ai-cli start-mlflow
.
To use the jupyter lab environmen start the jupyter server using ai-cli lab
.
For debugging and local execution, a bash shell can be entered using ai-cli bash
.
Hooks can be injected as .sh-files for and after starting a container at /etc/ai-cli/hooks
. An example is provided there.
Conda environments is supported via Mamba by default and are mounted on startup.
Now ai-cli
is ready to be used, examples are provided below.
Assume a mlflow project at current working directory and a started mlflow server:
comand | comment |
---|---|
ai-cli lab |
opens jupyter lab at https://[USER]-lab.[HOST]. Use token from command output to login. |
ai-cli start-mlflow |
opens mlflow server at https://[USER]-mlflow.[HOST]. Can be secured with password |
ai-cli bash |
open bash for local project in docker image. |
ai-cli -e .env run . |
with .env as default environment file, need MLFLOW_EXPERIMENT_NAME defined |
ai-cli -e the_envir run-from-git |
with additionally MLFLOW_GIT_PROJECT (git https url) defined |
ai-cli run-from-git "https://<token>:<password>@<uri>#<path/to/MLProject (optional)> -v <branch or commit hash> |
directly pass url, set name with -n NAME |
ai-cli
is built to support tensorflow with cuda.
To use cuda, a cuda-enabled image is necessary.
To create a cuda image, use the build command and specify the desired cuda version using the -c
switch.
ai-cli -c 11.2 build
.
For the cuda container to use the gpu, add the -g
option when using any command to actually include gpus that cuda can use.
This makes the specified gpu(s) available and switches the runtime to "nvidia".
Note, that docker-nvidia-runtime needs to be set up correctly beforehand.
For example ai-cli -g 0 -c 11.2 bash
opens a bash command line with inside the container, exposing gpu "0" with support for cuda 11.2. Note, that the images for cuda 11.2 need to be built beforhand as stated above.
It can be verified that the gpu is used, using nvidia-smi
inside the container. Note, that the cuda version shown by nvidia-smi does not necessarily represent the correct version because of differences between driver API and runtime API version.
Also, the command is not installed by default.
ai-cli
supports starting a CML runner locally for your CI/CD Workflow.
Here is how to use ai-cli runner GIT-ORIGIN-HTTPS ACCESS-TOKEN
.
- Create access token for your project (as owner, scope: api in gitlab) or personal access token.
- Enable CI for your repository. (Settings->General->Visibility, project features, permissions->Repository->CI/CD->Save Changes in gitlab)
- Configure pipeline (.gitlab-ci.yml, in gitlab). For the local runner to pickup a job, the job needs to have the tag
ai-cli
. For Example:test: tags: - ai-cli script: - echo "Hello World" >> report.md - cml comment create report.md
- Copy the https clone link for your repository. Start your local runner using this link.
Now the runner is ready to pick up your jobs.
issue | help |
---|---|
run fails with error "too many 500 error responses" |
Provide experiment name with -n flag. If name already used, try with new name. Names deleted on the mlflow-dashboard still count as used. |
AI-CLI Simplifying AI Experiments
Copyright (C) 2022 Marcel Arpogaus, Julian Jandeleit
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
Parts of this work have been funded by the Federal Ministry for the Environment, Nature Conservation and Nuclear Safety due to a decision of the German Federal Parliament (AI4Grids: 67KI2012A).