Using renv with Docker

While renv can help capture the state of your R library at some point in time, there are still other aspects of the system that can influence the run-time behavior of your R application. In particular, the same R code can produce different results depending on:

And so on. Docker is a tool that helps solve this problem through the use of containers. Very roughly speaking, one can think of a container as a small, self-contained system within which different applications can be run. Using Docker, one can declaratively state how a container should be built (what operating system it should use, and what system software should be installed within), and use that system to run applications. (For more details, please see https://environments.rstudio.com/docker.)

Using Docker and renv together, one can then ensure that both the underlying system, alongside the required R packages, are fixed and constant for a particular application.

The main challenges in using Docker with renv are:

This vignette will assume you are already familiar with Docker; if you are not yet familiar with Docker, the Docker Documentation provides a thorough introduction. To learn more about using Docker to manage R environments, visit environments.rstudio.com.

We’ll discuss two strategies for using renv with Docker:

  1. Using renv to install packages when the Docker image is generated;
  2. Using renv to install packages when Docker containers are run.

We’ll also explore the pros and cons of each strategy.

Creating Docker Images with renv

With Docker, Dockerfiles are used to define new images. Dockerfiles can be used to declaratively specify how a Docker image should be created. A Docker image captures the state of a machine at some point in time – e.g., a Linux operating system after downloading and installing R 4.2. Docker containers can be created using that image as a base, allowing different independent applications to run using the same pre-defined machine state.

First, you’ll need to get renv installed on your Docker image. The easiest way to accomplish this is with the remotes package. For example, if you wanted to install a specific version of renv from GitHub:

ENV RENV_VERSION 0.15.5
RUN R -e "install.packages('remotes', repos = c(CRAN = 'https://cloud.r-project.org'))"
RUN R -e "remotes::install_github('rstudio/renv@${RENV_VERSION}')"

Next, if you’d like the renv.lock lockfile to be used to install R packages when the Docker image is built, you’ll need to copy it to the container:

WORKDIR /project
COPY renv.lock renv.lock

Next, you need to tell renv which library paths to use for package installation. You can either set the RENV_PATHS_LIBRARY environment variable to a writable path within your Docker container, or copy the renv auto-loader tools into the container so that a project-local library can be automatically provisioned and used when R is launched.

# approach one
ENV RENV_PATHS_LIBRARY renv/library

# approach two
RUN mkdir -p renv
COPY .Rprofile .Rprofile
COPY renv/activate.R renv/activate.R
COPY renv/settings.dcf renv/settings.dcf

Finally, you can run renv::restore() to restore packages as defined in the lockfile:

RUN R -e "renv::restore()"

With this, renv will download and install the requisite packages as appropriate when the image is created. Any new containers created from this image will hence have those R packages installed and visible at run-time.

Dynamically Provisioning R Libraries with renv

The aforementioned approach is useful if you have multiple applications with identical package requirements. However, on occasion, one will have multiple applications built from a single base image, but each application will have its own independent R package requirements. In this case, rather than including the package dependencies in the image itself, it would be preferable for each container to provision its own library at run-time, based on that application’s renv.lock lockfile.

In effect, this is as simple as ensuring that renv::restore() happens at container run-time, rather than image build time. However, on its own, renv::restore() is slow – it needs to download and install packages, which could take prohibitively long if an application needs to be run repeatedly.

The renv package cache can be used to help ameliorate this issue. When the cache is enabled, whenever renv attempts to install or restore an R package, it first checks to see whether that package is already available within the renv cache. If it is, that instance of the package is linked into the project library. Otherwise, the package is first installed into the renv cache, and then that newly-installed copy is linked for use in the project.

In effect, if the renv cache is available, you should only need to pay the cost of package installation once – after that, the newly-installed package will be available for re-use across different projects. At the same time, each project’s package library will remain independent and isolated from one another, so installing a package within one container won’t affect another container.

However, by default, each Docker container will have its own independent filesystem. Ideally, we’d like for all containers launched from a particular image to have access to the same renv cache. To accomplish this, we’ll have to tell each container to use an renv cache located on a shared mount.

In sum, if we’d like to allow for run-time provisioning of R package dependencies, we will need to ensure the renv cache is located on a shared volume, which is visible to any containers launched. We will accomplish this by:

  1. Setting the RENV_PATHS_CACHE environment variable, to tell the instance of renv running in each container where the global cache lives;

  2. Telling Docker to mount some filesystem location from the host filesystem, at some location (RENV_PATHS_CACHE_HOST), to a container-specific location (RENV_PATHS_CACHE_CONTAINER).

For example, if you had a container running a Shiny application:

# the location of the renv cache on the host machine
RENV_PATHS_CACHE_HOST=/opt/local/renv/cache

# where the cache should be mounted in the container
RENV_PATHS_CACHE_CONTAINER=/renv/cache

# run the container with the host cache mounted in the container
docker run --rm \
    -e "RENV_PATHS_CACHE=${RENV_PATHS_CACHE_CONTAINER}" \
    -v "${RENV_PATHS_CACHE_HOST}:${RENV_PATHS_CACHE_CONTAINER}" \
    -p 14618:14618 \
    R -s -e 'renv::restore(); shiny::runApp(host = "0.0.0.0", port = 14618)'

With this, any calls to renv APIs within the created docker container will have access to the mounted cache. The first time you run a container, renv will likely need to populate the cache, and so some time will be spent downloading and installing the required packages. Subsequent runs will be much faster, as renv will be able to reuse the global package cache.

The primary downside with this approach compared to the image-based approach is that it requires you to modify how containers are created, and requires a bit of extra orchestration in how containers are launched. However, once the renv cache is active, newly-created containers will launch very quickly, and a single image can then be used as a base for a myriad of different containers and applications, each with their own independent package dependencies.

Handling the renv Autoloader

When is launched within a project folder, the renv auto-loader (if present) will attempt to download and install renv into the project library. Depending on how your Docker container is configured, this could fail. For example:

Error installing renv:
======================
ERROR: unable to create ‘/usr/local/pipe/renv/library/master/R-4.0/x86_64-pc-linux-gnu/renv’
Warning messages:
1: In system2(r, args, stdout = TRUE, stderr = TRUE) :
  running command ''/usr/lib/R/bin/R' --vanilla CMD INSTALL -l 'renv/library/master/R-4.0/x86_64-pc-linux-gnu' '/tmp/RtmpwM7ooh/renv_0.12.2.tar.gz' 2>&1' had status 1
2: Failed to find an renv installation: the project will not be loaded.
Use `renv::activate()` to re-initialize the project.

Bootstrapping renv into the project library might be un-necessary for you. If that is the case, then you can avoid this behavior by launching R with the --vanilla flag set; for example:

R --vanilla -s -e 'renv::restore()'