I'm starting with Docker, but I don't know how to configure PyCharm to use a python interpreter located in a container.
It was easy to setup with Vagrant , but there's apparently no official way to do it with Docker yet.
Should I prepare special Docker image with exposed ssh port? How to do that more easily?
UPDATE : PyCharm 2017.1 has a solution for this problem, see this blog entry
Here is how I solved the problem. My circumstances are that I was assigned to do an intervention on a specific area of a web app that used docker-compose to create a set of four containers. Docker-compose is a kind of meta docker that manages multiple docker containers from one command. I did not want to mangle their existing setup since so many things depend on it. But since I was working on one specific part in one of the images I decided that I would extend one of the containers with ssh so that I could debug from PyCharm. Further, I wanted the app to run as normal when started and only by forcing it to quit and then connecting to it from PyCharm would I have a debuggable component. Here is what I did on my mac that uses boot2docker (on VirtualBox) to setup docker correctly.
First, I need to extend the target container, called jqworker
. I am going to use "supervisior"
to do the heavy lifting of managing things.
FROM jqworker
# Get supervisor to control multiple processes, sshd to allow connections.
# And supervisor-stdout allows us to send the output to the main docker output.
RUN apt-get update && apt-get install -y supervisor openssh-server python-pip \
&& pip install supervisor-stdout \
&& mkdir -p /var/run/sshd \
&& mkdir -p /var/log/supervisor \
&& mkdir -p /etc/supervisor/conf.d
COPY ./supervisord.conf /etc/supervisor/conf.d/supervisord.conf
# Fix up SSH, probably should rip this out in real deploy situations.
RUN echo 'root:soup4nuts' | chpasswd
RUN sed -i 's/PermitRootLogin without-password/PermitRootLogin yes/' /etc/ssh/sshd_config
# SSH login fix. Otherwise user is kicked off after login
RUN sed 's@session\s*required\s*pam_loginuid.so@session optional pam_loginuid.so@g' -i /etc/pam.d/sshd
ENV NOTVISIBLE "in users profile"
RUN echo "export VISIBLE=now" >> /etc/profile
# Expose SSH on 22, but this gets mapped to some other address.
EXPOSE 22
# Replace old entrypoint with supervisiord, starts both sshd and worker.py
ENTRYPOINT ["/usr/bin/supervisord"]
Supervisor lets me run multiple tasks from one command, in this case the original command and SSHD. Yes, everyone says that SSHD in docker is evil and containers should this and that and blah blah, but programming is about solving problems, not conforming to arbitrary dicta that ignore context. We need SSH to debug code and are not deploying this to the field, which is one reason we are extending the existing container instead of adding this in to the deployment structure. I am running it locally so that I can debug the code in context.
Here is the supervisord.conf
file, note that I am using the supervisor-stdout
package to direct output to supervisor instead of logging the data as I prefer to see it all in one place:
[supervisord]
nodaemon=true
[program:sshd]
command=/usr/sbin/sshd -D
[program:worker]
command=python /opt/applications/myproject/worker.py -A args
directory=/opt/applications/myproject
stdout_events_enabled=true
stderr_events_enabled=true
[eventlistener:stdout]
command = supervisor_stdout
buffer_size = 100
events = PROCESS_LOG
result_handler = supervisor_stdout:event_handler
I have a build directory containing the above two files, and from a terminal in there I build the Dockerfile
with:
docker build -t fgkrqworker .
This adds it so that I can call it from docker
or docker-compose
. Don't skip the trailing dot!
Since the app uses docker-compose
to run a set of containers, the existing WORKER
container will be replaced with one that solves my problems. But first I want to show that in another part of my docker-compose.yml
I define a mapping from the containers to my local hard drive, this is one of a number of volumes being mapped:
volumes: &VOLUMES
? /Users/me/source/myproject:/opt/applications/myproject
Then the actual definition for my container, which references the above VOLUMES
:
jqworker: &WORKER
image: fgkrqworker
privileged: true
stdin_open: true
detach: true
tty: true
volumes:
<<: *VOLUMES
ports:
- "7722:22"
This maps the SSH port to a known port that is available in the VM, recall I am using boot2docker
which rides on VirtualBox, but the needs to be mapped out to where PyCharm can get at it. In VirtualBox, open the boot2docker
VM and choose Adapter 1
. Sometimes the "Attached to:" combo unselects itself, so watch for that. In my case it should have NAT
selected.
Click "Port Forwarding" and map the inner port to the a port on localhost, I choose to use the same port number. It should be something like:
ssh_mapped
; TCP
; 127.0.0.1
; 7722
; 7722
Note: be careful not to change the boot2docker ssh
setting or you will eventually be unable to start the VM correctly.
So, at this point we have a container that extends my target container. It runs ssh on port 22
and maps it to 7722
since other containers might want to use 22
, and is visible in the VirtualBox environment. VirtualBox maps 7722
to 7722
to the localhost and you can ssh into the container with:
ssh root@localhost -p 7722
Which will then prompt for the password, 'soup4nuts' and you should be able to locate something specific to your container to verify that it is the right one and that everything works OK. I would not mess with root if I were deploying this anywhere but my local machine, so be warned. This is only for debugging locally and you should think twice or thrice about doing this on a live site .
At this point you can probably figure the rest of it out if you have used PyCharm's remote debugging. But here is how I set it up:
First, recall that I have docker-compose.yml
mapping the project directory:
? /Users/me/source/myproject:/opt/applications/myproject
In my container /opt/applications/myproject
is actually /Users/me/source/myproject
on my local hard drive. So, this is the root of my project. My PyCharm sees this directory as the project root and I want PyCharm to write the .pycharm_helpers
here so that it persists between sessions. I am managing source code on the mac side of things, but PyCharm thinks it is a unixy box elsewhere. Yes, it is a bit of kludge until JetBrains incorporates a Docker solution.
First, go to the Project X/Project Structure and create a Content Root of the local mapping, in my case that means /Users/me/source/myproject
Later, come back and add .pycharm_helpers
to the excluded set, we don't want this to end up in source control or confuse PyCharm.
Go to the Build, Execution, Deployment tab, pick Deployment and create a new Deployment of SFTP type. The host is localhost, the port 7722
, the root path is /opt/applications/myproject
and the username is root
and password is soup4nuts
and I checked the option to save the password. I named my Deployment 'dockercompose' so that I would be able to pick it out later.
On the Deployment Mappings tab I set the local path to /Users/me/source/myproject
and deployment and web path to a single '/' but since my code doesn't correspond to a URL and I don't use this to debug, it is a placeholder in the Web Path setting. I don't know how you might set yours.
On the Project X/Project Interpreter tab, create a new Remote Python Interpreter. You can pick the Deployment Configuration and choose the dockercompose
configuration we created above. The host URL should fill in as ssh://root@localhost:7722
and the Python Interpreter Path will likely be /usr/bin/python
. We need to set the PyCharm Helpers Path as the default will not survive the container being redone. I actually went to my project local directory and created a .pycharm_helpers
directory in the root, then set the path here as /opt/applications/myproject/.pycharm_helpers
and when I hit the OK button it copied the files "up" to the directory. I don't know if it will create it automatically or not.
Don't forget that the .pycharm_helpers
directory should probably be excluded on the project roots tab.
At this point you can go to the Build, Execution, Deployment tab, and under Console/Python Console, pick the remote interpreter we created above and set the working directory to /opt/applications/myproject
and you can run your Python Console in the container if you like.
Now you need to create a Run Configuration so that you can remotely debug your python code. Make a new Python configuration and set the script to the one that used to start the python code in the container. Mine, from the supervisor setup, above is:
/opt/applications/myproject/worker.py -A args
So I set the script to /opt/applications/myproject/worker.py
and the parameters to -A args
.
Choose the remote interpreter we created above, and the working directory as needed, for me it is /opt/applications/myproject
and for me that does the job.
Now I want to enter my container and stop the worker.py
script so I can start up a debug version. Of course, if you like you can ignore running the script by default and only use the container for debugging.
I could open a ssh session to stop the script, but docker provides a useful command that will do the work for me by passing it into the environment.
$> docker exec -i -t supervisorctl stop worker
As my process is named 'worker'. Note that you can restart by replacing the stop
command with start
.
Now, in PyCharm start a debug session with the Run Configuration created above. It should connect and start things up and give you console output in the window. Since we killed the one that Supervision originally started it is no longer connected.
This was a seat of the pants operation, so there may be errors and incorrect assumptions I didn't notice. Particularly, the PyCharm setup required a few iterations, so the order may be incorrect, try going through it again if it fails. This is a lot of stuff and easy to skip something critical.
It's not yet here, but shortly this should no longer be a problem, since
Docker support will be introduced in PyCharm starting with PyCharm 4.1 EAP (beginning of April)
In order to avoid any SSH overhead (which makes perfect sense with Docker), docker exec
definitely seems to be the way to go.
Unfortunately I couldn't get it to work so far. It would be great if someone could fill in the blanks. Here is what I did (using PyCharm 4.0.4 and Docker 1.4.1):
Create a file named python_myproject.sh
containing the following:
#!/bin/bash docker exec -i myproject_container /path/to/containers/python2.7
Note that the file's name has to begin with python
otherwise PyCharm will complain.
In PyCharm's settings, under Project Interpreter
, add a new local interpreter. Give it the path to your python_myproject.sh
file.
This is where I'm stuck. After a quite long loading time (the throbber says "Setting up library files"), a window entitled "Invalid Python SDK" appears and says:
Cannot set up a python SDK
at /path/to/python_myproject.sh.
The SDK seems invalid.
In ~/.PyCharm40/system/log/.idea
:
2015-02-19 17:33:30,569 [ 166966] WARN - ution.process.OSProcessHandler - Cannot kill process tree. Trying to destroy process using Java API. Cmdline:
2015-02-19 17:34:30,628 [ 227025] WARN - ution.process.OSProcessHandler - Cannot kill process tree. Trying to destroy process using Java API. Cmdline:
2015-02-19 17:34:30,653 [ 227050] INFO - rains.python.sdk.PythonSdkType -
Timed out
I don't think it's so bad to include SSH inside your container if you really need it. Yes, it's not essential in other use cases since the introduction of docker exec
but since Intellij/PyCharm only support remote interpreter via SSH, it's OK.
You can use phusion/baseimage
as a good starting point to build your own container with SSH and any version of Python you need (it comes by default with PY3).
Theoretically, it would be ideal to keep using Vagrant for this task as well, since it allows you to create a workflow that will work both on Windows/OS X machines (by using boot2docker) and Linux (native Docker).
Practically I wasn't able to make it work on OS X because of the double NAT layer you have to pass in order to get into the SSH service, and it looks like it's not possible to add extra interface to the Vagrant boot2docker box (Vagrant 1.7.2).
If all you need is to debug code which is launched inside docker container, you could use pycharm's python debug server feature. As for me, it is less troublesome way than accessing remote interpreter via SSH. Drawback of this solution is that for auto-complete and all this kind of stuff you should have local copy of container's interpreter and mark it as project's interpreter (works for auto-complete, but i'm not sure that it's possible to debug code from third-party libs in such case) or make container's interpreter files visible to pycharm (not tested at all). Also note that Python debug server is feature of Professional edition .
What you should do for debugging via Python debug server:
1) make sure that directory with your project is added into container. It could look like this line in Dockerfile:
ADD . /path/in/container
2) copy pycharm-debug.egg
( pycharm-debug-py3k.egg
for Python3) from directory where pycharm is installed on your host to directory in container, which is in container's PYTHONPATH. Path to pycharm-debug.egg on developer's host could be:
/Applications/PyCharm.app/Contents/pycharm-debug.egg
/opt/pycharm/pycharm-debug.egg
3) create Run/Debug configuration for launching Python debug server on host as described at To configure a remote debug server
section of docs . Port is any host's port of your choice, but IP is address at which host is accessible from container. It could be:
ifconfig
, for me it is: docker0 Link encap:Ethernet HWaddr 56:84:7a:fe:97:99 inet addr:172.17.42.1 Bcast:0.0.0.0 Mask:255.255.0.0
Also, don't forget to specify path mappings between project's path at developer's host and project's path at container.
This blog post also could be helpful for current step
4) launch this created configuration (for example, via Debug
button, right from Run
one)
5) create python script which would launch your project and add the following code for debug initialization as first lines of this script. (make sure that pycharm-debug.egg
is in PYTHONPATH, or this code couldn't import pydevd
):
import pydevd pydevd.settrace('172.17.42.1', suspend=False, port=8765, stdoutToServer=True, stderrToServer=True)
6) Finally, you could set breakpoints and launch your application from host, in container via created script. For example:
docker-compose run 'container_name' python 'script_name' 'args'
On start, yours launching script will connect to Python debug server, which is running on host, and stop on breakpoints. Debugger features will be available as usual.
Steps specific to PyCharm Professional Edition 2017.2(however they may work with PyCharm CE)
Here are a couple steps I took to get my setup working
A few assumptions of the structure of your (or anyone who might be reading this) project:
bleh
├── README.md
├── api
│ ├── Dockerfile <---- this is the one we want to debug
│ ├── config.example.ini
│ └── src
│ ├── __init__.py <---- this is a pycharm project
│ ├── __main__.py <---- this is a pycharm project
│ └── ...
├── proxy
│ ├── Dockerfile
│ ├── config.example.ini
│ └── src
│ ├── ...
│ └── ...
├── webserver
│ ├── Dockerfile
│ ├── config.example.ini
│ └── src
│ ├── ...
│ └── ...
├── frontend
│ ├── Dockerfile
│ ├── config.example.ini
│ └── src
│ ├── ...
│ └── ...
├── db
│ ├── Dockerfile
│ ├── ...
│ └── migrations
│ ├── ...
│ └── ...
└── docker-compose.yml
bleh
as a my project name only as an example. /Users/myfunkyusername/Projects/bleh
. api
service as shown later in the docker-compose.yml
file Note We're also going to assume a content of your api
's one and only Dockerfile
is as such
FROM python ADD config.example.ini /etc/bleh/config.ini RUN chmod +x /usr/bin/bleh COPY ./src /usr/bin/bleh WORKDIR /usr/bin/bleh RUN pip install -r requirements.txt CMD ["sh", "-c", "python -m bleh --cfg=/etc/bleh/config.ini"]
Note We're assuming your one and only docker-compose.yml
has these contents
version: '2' services: api: build: context: ./api depends_on: - db expose: - "8080" networks: - default frontend: build: context: ./frontend ports: - "80:7000" networks: - default webserver: build: context: ./webserver depends_on: - frontend networks: - default proxy: build: context: ./proxy ports: - "80:80" - "443:443" depends_on: - webserver - api networks: - default db: build: context: ./db expose: - "3306" networks: - default networks: default: driver: bridge
Create docker-machine specifically for the bleh
project
docker-machine create bleh
PyCharm
/ Preferences
/ Build, Execution, Deployment
/ Docker
click +
Docker machine
radio button and highlight bleh
's docker machine in the pull down Apply
PyCharm
/ Preferences
/ Project:bleh
/ Project Interpreter
Project Interpreter
field and select Add Remote
Docker
radio button Server
field, select previously created docker machine for this project bleh_api
) Python interpreter path
needed OK
Run
/ Edit Configurations
select +
to add a configuration Python
Script
field, use location of script file on the docker container that will be run (in this example it's /usr/bin/bleh/__main__.py
as we're giving the absolute location of our target script) Script parameters
field, supply CLI parameters, if any (mimics the Dockerfile
's last CMD
command, which is --cfg=/etc/bleh/config.ini
) Python Interpreter
field, select your previously established remote python interpreter Working directory
field, select the directory where Script
is located within the Docker container (eg /usr/bin/bleh
) Path mappings
field, click the ...
and select local (eg /Users/myfunkyusername/Projects/bleh/api/src
) and remote (eg /usr/bin/bleh
) as above Docker container settings
field, click ...
bleh_api:latest
) Dockerfile
(eg 8080/8080 and expose to 0.0.0.0
using the tcp
protocol, now I haven't shown what your app structure is, but let's assume that you were sane and within your app are also specifying 8080
as the port where your'e serving your data . /usr/bin/bleh
/ /Users/myfunkyusername/Projects/bleh/api/src
Network mode
( thanks Piotr ) is set to <name_of_project_directory>_<name_of_network_from_compose_file>
(eg bleh_default
, you can confirm with docker network ls
from within the correct docker-machine
) These are the steps that got me to a working docker and PyCharm setup.
I don't pretend to be correct in each of these steps. I will gladly update any errors/improvements you find.
With Docker 1.3, use the exec
command to construct the path to the Python interpreter:
sudo docker exec container_name /usr/bin/python
See https://docs.docker.com/reference/commandline/cli/#exec , http://forum.jetbrains.com/thread/PyCharm-2224
You could install SSH inside the container and then expose the port, but that isn't how containers are expected to be used, because you would be bloating them.
I haven't tried this, but I would try creating a Bash script which calls docker exec ...
, as in @Anto's answer .
Then, install the BashSupport extension . Now create a new run configuration which runs your script as a Bash script.
You can get a bit crazy by installing Pycharm in the container and just running it from there. You'd have to do this by docker run -v /tmp/.X11-unix:/tmp/.X11-unix -e DISPLAY=:0.0 pycharm-image
but it should work just fine. But remember that all of Pycharm and your source would be in that container as well. So save, commit, and push early and often.
With PyCharm 5 they added support for docker. You must have your docker configured in docker-machine.
If you don't already use docker-machine you can connect to an existing machine using the generic machine engine and ssh into a vagrant VM or to localhost if you aren't running things in a VM. I didn't find a way around the ssh to localhost unfortunately.
I haven't found a way to mount volumes into the docker image they use, to share files with my dev tree, but it might be possible.
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