I have a Dockerfile that I am putting together to install a vanilla python environment (into which I will be installing an app, but at a later date).
FROM ubuntu:12.04
# required to build certain python libraries
RUN apt-get install python-dev -y
# install pip - canonical installation instructions from pip-installer.org
# http://www.pip-installer.org/en/latest/installing.html
ADD https://bitbucket.org/pypa/setuptools/raw/bootstrap/ez_setup.py /tmp/ez_setup.py
ADD https://raw.github.com/pypa/pip/master/contrib/get-pip.py /tmp/get-pip.py
RUN python /tmp/ez_setup.py
RUN python /tmp/get-pip.py
RUN pip install --upgrade pip
# install and configure virtualenv
RUN pip install virtualenv
RUN pip install virtualenvwrapper
ENV WORKON_HOME ~/.virtualenvs
RUN mkdir -p $WORKON_HOME
RUN source /usr/local/bin/virtualenvwrapper.sh
The build runs ok until the last line, where I get the following exception:
[previous steps 1-9 removed for clarity]
...
Successfully installed virtualenvwrapper virtualenv-clone stevedore
Cleaning up...
---> 1fc253a8f860
Step 10 : ENV WORKON_HOME ~/.virtualenvs
---> Running in 8b0145d2c80d
---> 0f91a5d96013
Step 11 : RUN mkdir -p $WORKON_HOME
---> Running in 9d2552712ddf
---> 3a87364c7b45
Step 12 : RUN source /usr/local/bin/virtualenvwrapper.sh
---> Running in c13a187261ec
/bin/sh: 1: source: not found
If I ls into that directory (just to test that the previous steps were committed) I can see that the files exist as expected:
$ docker run 3a87 ls /usr/local/bin
easy_install
easy_install-2.7
pip
pip-2.7
virtualenv
virtualenv-2.7
virtualenv-clone
virtualenvwrapper.sh
virtualenvwrapper_lazy.sh
If I try just running the source command I get the same 'not found' error as above. If I RUN an interactive shell session however, source does work:
$ docker run 3a87 bash
source
bash: line 1: source: filename argument required
source: usage: source filename [arguments]
I can run the script from here, and then happily access workon, mkvirtualenv etc.
I've done some digging, and initially it looked as if the problem might lie in the difference between bash as the Ubuntu login shell, and dash as the Ubuntu system shell, dash not supporting the source command.
However, the answer to this appears to be to use '.' instead of source, but this just causes the Docker runtime to blow up with a go panic exception.
What is the best way to run a shell script from a Dockerfile RUN instruction to get around this (am running off the default base image for Ubuntu 12.04 LTS).
Original Answer
FROM ubuntu:14.04
RUN rm /bin/sh && ln -s /bin/bash /bin/sh
This should work for every Ubuntu docker base image. I generally add this line for every Dockerfile I write.
Edit by a concerned bystander
If you want to get the effect of "use bash instead of sh throughout this entire Dockerfile", without altering and possibly damaging* the OS inside the container, you can just tell Docker your intention. That is done like so:
SHELL ["/bin/bash", "-c"]
* The possible damage is that many scripts in Linux (on a fresh Ubuntu install grep -rHInE '/bin/sh' / returns over 2700 results) expect a fully POSIX shell at /bin/sh. The bash shell isn't just POSIX plus extra builtins. There are builtins (and more) that behave entirely different than those in POSIX. I FULLY support avoiding POSIX (and the fallacy that any script that you didn't test on another shell is going to work because you think you avoided basmisms) and just using bashism. But you do that with a proper shebang in your script. Not by pulling the POSIX shell out from under the entire OS. (Unless you have time to verify all 2700 plus scripts that come with Linux plus all those in any packages you install.)
More detail in this answer below. https://stackoverflow.com/a/45087082/117471
The default shell for the RUN instruction is ["/bin/sh", "-c"].
RUN "source file" # translates to: RUN /bin/sh -c "source file"
Using SHELL instruction, you can change default shell for subsequent RUN instructions in Dockerfile:
SHELL ["/bin/bash", "-c"]
Now, default shell has changed and you don't need to explicitly define it in every RUN instruction
RUN "source file" # now translates to: RUN /bin/bash -c "source file"
Additional Note: You could also add --login option which would start a login shell. This means ~/.bashrc for example would be read and you don't need to source it explicitly before your command
Simplest way is to use the dot operator in place of source, which is the sh equivalent of the bash source command:
Instead of:
RUN source /usr/local/bin/virtualenvwrapper.sh
Use:
RUN . /usr/local/bin/virtualenvwrapper.sh
If you are using Docker 1.12 or newer, just use SHELL !
Short Answer:
general:
SHELL ["/bin/bash", "-c"]
for python vituralenv:
SHELL ["/bin/bash", "-c", "source /usr/local/bin/virtualenvwrapper.sh"]
Long Answer:
from https://docs.docker.com/engine/reference/builder/#shell
SHELL ["executable", "parameters"]
The SHELL instruction allows the default shell used for the shell form
of commands to be overridden. The default shell on Linux is
["/bin/sh", "-c"], and on Windows is ["cmd", "/S", "/C"]. The SHELL
instruction must be written in JSON form in a Dockerfile.
The SHELL instruction is particularly useful on Windows where there
are two commonly used and quite different native shells: cmd and
powershell, as well as alternate shells available including sh.
The SHELL instruction can appear multiple times. Each SHELL
instruction overrides all previous SHELL instructions, and affects all
subsequent instructions. For example:
FROM microsoft/windowsservercore
# Executed as cmd /S /C echo default
RUN echo default
# Executed as cmd /S /C powershell -command Write-Host default
RUN powershell -command Write-Host default
# Executed as powershell -command Write-Host hello
SHELL ["powershell", "-command"]
RUN Write-Host hello
# Executed as cmd /S /C echo hello
SHELL ["cmd", "/S"", "/C"]
RUN echo hello
The following instructions can be affected by the SHELL instruction
when the shell form of them is used in a Dockerfile: RUN, CMD and
ENTRYPOINT.
The following example is a common pattern found on Windows which can
be streamlined by using the SHELL instruction:
...
RUN powershell -command Execute-MyCmdlet -param1 "c:\foo.txt"
...
The command invoked by docker will be:
cmd /S /C powershell -command Execute-MyCmdlet -param1 "c:\foo.txt"
This is inefficient for two reasons. First, there is an un-necessary
cmd.exe command processor (aka shell) being invoked. Second, each RUN
instruction in the shell form requires an extra powershell -command
prefixing the command.
To make this more efficient, one of two mechanisms can be employed.
One is to use the JSON form of the RUN command such as:
...
RUN ["powershell", "-command", "Execute-MyCmdlet", "-param1 \"c:\\foo.txt\""]
...
While the JSON form is unambiguous and does not use the un-necessary
cmd.exe, it does require more verbosity through double-quoting and
escaping. The alternate mechanism is to use the SHELL instruction and
the shell form, making a more natural syntax for Windows users,
especially when combined with the escape parser directive:
# escape=`
FROM microsoft/nanoserver
SHELL ["powershell","-command"]
RUN New-Item -ItemType Directory C:\Example
ADD Execute-MyCmdlet.ps1 c:\example\
RUN c:\example\Execute-MyCmdlet -sample 'hello world'
Resulting in:
PS E:\docker\build\shell> docker build -t shell .
Sending build context to Docker daemon 4.096 kB
Step 1/5 : FROM microsoft/nanoserver
---> 22738ff49c6d
Step 2/5 : SHELL powershell -command
---> Running in 6fcdb6855ae2
---> 6331462d4300
Removing intermediate container 6fcdb6855ae2
Step 3/5 : RUN New-Item -ItemType Directory C:\Example
---> Running in d0eef8386e97
Directory: C:\
Mode LastWriteTime Length Name
---- ------------- ------ ----
d----- 10/28/2016 11:26 AM Example
---> 3f2fbf1395d9
Removing intermediate container d0eef8386e97
Step 4/5 : ADD Execute-MyCmdlet.ps1 c:\example\
---> a955b2621c31
Removing intermediate container b825593d39fc
Step 5/5 : RUN c:\example\Execute-MyCmdlet 'hello world'
---> Running in be6d8e63fe75
hello world
---> 8e559e9bf424
Removing intermediate container be6d8e63fe75
Successfully built 8e559e9bf424
PS E:\docker\build\shell>
The SHELL instruction could also be used to modify the way in which a
shell operates. For example, using SHELL cmd /S /C /V:ON|OFF on
Windows, delayed environment variable expansion semantics could be
modified.
The SHELL instruction can also be used on Linux should an alternate
shell be required such as zsh, csh, tcsh and others.
The SHELL feature was added in Docker 1.12.
I had the same problem and in order to execute pip install inside virtualenv I had to use this command:
RUN pip install virtualenv virtualenvwrapper
RUN mkdir -p /opt/virtualenvs
ENV WORKON_HOME /opt/virtualenvs
RUN /bin/bash -c "source /usr/local/bin/virtualenvwrapper.sh \
&& mkvirtualenv myapp \
&& workon myapp \
&& pip install -r /mycode/myapp/requirements.txt"
I hope it helps.
Building on the answers on this page I would add that you have to be aware that each RUN statement runs independently of the others with /bin/sh -c and therefore won't get any environment vars that would normally be sourced in login shells.
The best way I have found so far is to add the script to /etc/bash.bashrc and then invoke each command as bash login.
RUN echo "source /usr/local/bin/virtualenvwrapper.sh" >> /etc/bash.bashrc
RUN /bin/bash --login -c "your command"
You could for instance install and setup virtualenvwrapper, create the virtual env, have it activate when you use a bash login, and then install your python modules into this env:
RUN pip install virtualenv virtualenvwrapper
RUN mkdir -p /opt/virtualenvs
ENV WORKON_HOME /opt/virtualenvs
RUN echo "source /usr/local/bin/virtualenvwrapper.sh" >> /etc/bash.bashrc
RUN /bin/bash --login -c "mkvirtualenv myapp"
RUN echo "workon mpyapp" >> /etc/bash.bashrc
RUN /bin/bash --login -c "pip install ..."
Reading the manual on bash startup files helps understand what is sourced when.
According to https://docs.docker.com/engine/reference/builder/#run the default [Linux] shell for RUN is /bin/sh -c. You appear to be expecting bashisms, so you should use the "exec form" of RUN to specify your shell.
RUN ["/bin/bash", "-c", "source /usr/local/bin/virtualenvwrapper.sh"]
Otherwise, using the "shell form" of RUN and specifying a different shell results in nested shells.
# don't do this...
RUN /bin/bash -c "source /usr/local/bin/virtualenvwrapper.sh"
# because it is the same as this...
RUN ["/bin/sh", "-c", "/bin/bash" "-c" "source /usr/local/bin/virtualenvwrapper.sh"]
If you have more than 1 command that needs a different shell, you should read https://docs.docker.com/engine/reference/builder/#shell and change your default shell by placing this before your RUN commands:
SHELL ["/bin/bash", "-c"]
Finally, if you have placed anything in the root user's .bashrc file that you need, you can add the -l flag to the SHELL or RUN command to make it a login shell and ensure that it gets sourced.
Note: I have intentionally ignored the fact that it is pointless to source a script as the only command in a RUN.
According to Docker documentation
To use a different shell, other than ‘/bin/sh’, use the exec form passing in the desired shell. For example,
RUN ["/bin/bash", "-c", "echo hello"]
See https://docs.docker.com/engine/reference/builder/#run
I also had issues in running source in a Dockerfile
This runs perfectly fine for building CentOS 6.6 Docker container, but gave issues in Debian containers
RUN cd ansible && source ./hacking/env-setup
This is how I tackled it, may not be an elegant way but this is what worked for me
RUN echo "source /ansible/hacking/env-setup" >> /tmp/setup
RUN /bin/bash -C "/tmp/setup"
RUN rm -f /tmp/setup
If you have SHELL available you should go with this answer -- don't use the accepted one, which forces you to put the rest of the dockerfile in one command per this comment.
If you are using an old Docker version and don't have access to SHELL, this will work so long as you don't need anything from .bashrc (which is a rare case in Dockerfiles):
ENTRYPOINT ["bash", "--rcfile", "/usr/local/bin/virtualenvwrapper.sh", "-ci"]
Note the -i is needed to make bash read the rcfile at all.
You might want to run bash -v to see what's being sourced.
I would do the following instead of playing with symlinks:
RUN echo "source /usr/local/bin/virtualenvwrapper.sh" >> /etc/bash.bashrc
This is my solution on "Ubuntu 20.04"
RUN apt -y update
RUN apt -y install curl
SHELL ["/bin/bash", "-c"]
RUN curl -o- https://raw.githubusercontent.com/nvm-sh/nvm/v0.38.0/install.sh | bash
RUN source /root/.bashrc
RUN bash -c ". /root/.nvm/nvm.sh && nvm install v16 && nvm alias default v16 && nvm use default"
This might be happening because source is a built-in to bash rather than a binary somewhere on the filesystem. Is your intention for the script you're sourcing to alter the container afterward?
I ended up putting my env stuff in .profile and mutated SHELL something like
SHELL ["/bin/bash", "-c", "-l"]
# Install ruby version specified in .ruby-version
RUN rvm install $(<.ruby-version)
# Install deps
RUN rvm use $(<.ruby-version) && gem install bundler && bundle install
CMD rvm use $(<.ruby-version) && ./myscript.rb
If you're just trying to use pip to install something into the virtualenv, you can modify the PATH env to look in the virtualenv's bin folder first
ENV PATH="/path/to/venv/bin:${PATH}"
Then any pip install commands that follow in the Dockerfile will find /path/to/venv/bin/pip first and use that, which will install into that virtualenv and not the system python.
Here is an example Dockerfile leveraging several clever techniques to all you to run a full conda environment for every RUN stanza. You can use a similar approach to execute any arbitrary prep in a script file.
Note: there is a lot of nuance when it comes to login/interactive vs nonlogin/noninteractive shells, signals, exec, the way multiple args are handled, quoting, how CMD and ENTRYPOINT interact, and a million other things, so don't be discouraged if when hacking around with these things, stuff goes sideways. I've spent many frustrating hours digging through all manner of literature and I still don't quite get how it all clicks.
## Conda with custom entrypoint from base ubuntu image
## Build with e.g. `docker build -t monoconda .`
## Run with `docker run --rm -it monoconda bash` to drop right into
## the environment `foo` !
FROM ubuntu:18.04
## Install things we need to install more things
RUN apt-get update -qq &&\
apt-get install -qq curl wget git &&\
apt-get install -qq --no-install-recommends \
libssl-dev \
software-properties-common \
&& rm -rf /var/lib/apt/lists/*
## Install miniconda
RUN wget -nv https://repo.anaconda.com/miniconda/Miniconda3-4.7.12-Linux-x86_64.sh -O ~/miniconda.sh && \
/bin/bash ~/miniconda.sh -b -p /opt/conda && \
rm ~/miniconda.sh && \
/opt/conda/bin/conda clean -tipsy && \
ln -s /opt/conda/etc/profile.d/conda.sh /etc/profile.d/conda.sh
## add conda to the path so we can execute it by name
ENV PATH=/opt/conda/bin:$PATH
## Create /entry.sh which will be our new shell entry point. This performs actions to configure the environment
## before starting a new shell (which inherits the env).
## The exec is important! This allows signals to pass
RUN (echo '#!/bin/bash' \
&& echo '__conda_setup="$(/opt/conda/bin/conda shell.bash hook 2> /dev/null)"' \
&& echo 'eval "$__conda_setup"' \
&& echo 'conda activate "${CONDA_TARGET_ENV:-base}"' \
&& echo '>&2 echo "ENTRYPOINT: CONDA_DEFAULT_ENV=${CONDA_DEFAULT_ENV}"' \
&& echo 'exec "$#"'\
) >> /entry.sh && chmod +x /entry.sh
## Tell the docker build process to use this for RUN.
## The default shell on Linux is ["/bin/sh", "-c"], and on Windows is ["cmd", "/S", "/C"]
SHELL ["/entry.sh", "/bin/bash", "-c"]
## Now, every following invocation of RUN will start with the entry script
RUN conda update conda -y
## Create a dummy env
RUN conda create --name foo
## I added this variable such that I have the entry script activate a specific env
ENV CONDA_TARGET_ENV=foo
## This will get installed in the env foo since it gets activated at the start of the RUN stanza
RUN conda install pip
## Configure .bashrc to drop into a conda env and immediately activate our TARGET env
RUN conda init && echo 'conda activate "${CONDA_TARGET_ENV:-base}"' >> ~/.bashrc
ENTRYPOINT ["/entry.sh"]
I've dealing with a similar scenario for an application developed with Django web web framework and these are the steps that worked perfectly for me:
content of my Dockerfile
[mlazo#srvjenkins project_textile]$ cat docker/Dockerfile.debug
FROM malazo/project_textile_ubuntu:latest
ENV PROJECT_DIR=/proyectos/project_textile PROJECT_NAME=project_textile WRAPPER_PATH=/usr/share/virtualenvwrapper/virtualenvwrapper.sh
COPY . ${PROJECT_DIR}/
WORKDIR ${PROJECT_DIR}
RUN echo "source ${WRAPPER_PATH}" > ~/.bashrc
SHELL ["/bin/bash","-c","-l"]
RUN mkvirtualenv -p $(which python3) ${PROJECT_NAME} && \
workon ${PROJECT_NAME} && \
pip3 install -r requirements.txt
EXPOSE 8000
ENTRYPOINT ["tests/container_entrypoint.sh"]
CMD ["public/manage.py","runserver","0:8000"]
content of the ENTRYPOINT file "tests/container_entrypoint.sh":
[mlazo#srvjenkins project_textile]$ cat tests/container_entrypoint.sh
#!/bin/bash
# *-* encoding : UTF-8 *-*
sh tests/deliver_env.sh
source ~/.virtualenvs/project_textile/bin/activate
exec python "$#"
finally, the way I deploy the container was :
[mlazo#srvjenkins project_textile]$ cat ./tests/container_deployment.sh
#!/bin/bash
CONT_NAME="cont_app_server"
IMG_NAME="malazo/project_textile_app"
[ $(docker ps -a |grep -i ${CONT_NAME} |wc -l) -gt 0 ] && docker rm -f ${CONT_NAME}
docker run --name ${CONT_NAME} -p 8000:8000 -e DEBUG=${DEBUG} -e MYSQL_USER=${MYSQL_USER} -e MYSQL_PASSWORD=${MYSQL_PASSWORD} -e MYSQL_HOST=${MYSQL_HOST} -e MYSQL_DATABASE=${MYSQL_DATABASE} -e MYSQL_PORT=${MYSQL_PORT} -d ${IMG_NAME}
I really hope this would be helpful for somebody else.
Greetings,
I had the same issue. If you also use a python base image you can change the shebang line in your shell script to #!/bin/bash.
See for example the container_entrypoint.sh from Manuel Lazo.
How do I install the anaconda / miniconda without prompts on Linux command line?
Is there a way to pass -y kind of option to agree to the T&Cs, suggested installation location etc. by default?
can be achieved by bash miniconda.sh -b (thanks #darthbith)
The command line usage for this can only be seen with -h flag but not --help, so I missed it.
To install the anaconda to another place, use the -p option:
bash anaconda.sh -b -p /some/path
AFAIK pyenv let you install anaconda/miniconda
(after successful instalation)
pyenv install --list
pyenv install miniconda3-4.3.30
For a quick installation of miniconda silently I use a wrapper
script script that can be executed from the terminal without
even downloading the script. It takes the installation destination path
as an argument (in this case ~/miniconda) and does some validation too.
curl -s https://gist.githubusercontent.com/mherkazandjian/cce01cf3e15c0b41c1c4321245a99096/raw/03c86dae9a212446cf5b095643854f029b39c921/miniconda_installer.sh | bash -s -- ~/miniconda
Silent installation can be done like this, but it doesn't update the PATH variable so you can't run it after the installation with a short command like conda:
cd /tmp/
curl -LO https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh
bash Miniconda3-latest-Linux-x86_64.sh -b -u
Here -b means batch/silent mode, and -u means update the existing installation of Miniconda at that path, rather than failing.
You need to run additional commands to initialize PATH and other shell init scripts, e.g. for Bash:
source ~/miniconda3/bin/activate
conda init bash
When I changed my current user to admin using
sudo su admin
I found that the environment variable changed too. What I intend to do is to change my user to admin with the env not changed.
Then I found a command as follows:
sudo bash -c "su - admin"
This command does indeed what I want, but I googled about bash -c, with no clue to why this command can do that for me. Could anyone give me a clear explanation? Thanks a lot.
first you should read the sudo manpage and set theses options in the /etc/sudoers file or you can do it interactively (see second below).
default sudoers file may not preserve the existing $USER environment unless you set the config options to do so. You'll want to read up on env_reset because depending on your OS distribution the sudo config will be different in most cases.
I dont mean to be terse but I am on a mobile device..
I do not recommend using sudo su .. for anything. whomever is sharing sudo su with the public is a newb, and you can accomplish the same cleaner with just sudo.
with your example whats happining is you are starting a subshell owned by the original user ("not admin") . you are starting the subshell with -c "string" sudo has the equivelant of the shell's -c using -s which either reads the shell from the arg passed to -s or the shell defined in the passwd file.
second you should use:
$ sudo -u admin -E -s
much cleaner right ? :)
-u sets the user, obviously
-s we just explained
-E preserves the orig user env
see for yourself just
$ echo $HOME # should show the original users /home/orig_user
$ env
your original env is preserved with none of that sudo su ugliness.
if you were interested in simulating a users login without preserving the env..
$ sudo -u user -i
or for root:
Might require -E depending on distro sudoers file
$ sudo -s
or
$ sudo -i
-i simulates the login and uses the users env.
hopefully this helps and someone will kindly format it to be more readable since im on my mobile.
bash with -c argument defines below.
-c string
If the -c option is present, then commands are read from string. If there are arguments after the string, they are assigned to the positional parameters, starting with $0.
Thanks & Regards,
Alok