/dapper

Docker build wrapper

Primary LanguageGoApache License 2.0Apache-2.0

Dapper - Docker Build Wrapper

Dapper is a tool to wrap any existing build tool in an consistent environment. This allows people to build your software from source or modify it without worrying about setting up a build environment. The approach is very simple and taken from a common pattern that has adopted by many open source projects. Create a file called Dockerfile.dapper in the root of your repository. Dapper will build that Dockerfile and then execute a container based off of the resulting image. Dapper will also copy in source files and copy out resulting artifacts or will use bind mounting if you choose.

Installation

curl -sL https://releases.rancher.com/dapper/latest/dapper-$(uname -s)-$(uname -m) > /usr/local/bin/dapper
chmod +x /usr/local/bin/dapper

From source

go get github.com/rancher/dapper

Example

Dapper is built using dapper so the following is a decent example

go get github.com/rancher/dapper
git clone https://github.com/rancher/dapper.git
cd dapper
dapper

This is the Dockerfile.dapper used

FROM golang:1.15
RUN go get github.com/tools/godep
ENV DAPPER_SOURCE /go/src/github.com/rancher/dapper
ENV DAPPER_OUTPUT bin
WORKDIR ${DAPPER_SOURCE}
ENTRYPOINT ["./script/build"]

Using

Dockerfile.dapper

The Dockerfile.dapper is intended to create a build environment but not really build your code. For example if you need build tools such as make or bundler or language environments for Ruby, Python, Java, etc.

The ENTRYPOINT, CMD, and WORKDIR defined in Dockerfile.dapper are what are used to initiate your build. When running dapper foo bar, foo bar will be passed as the docker CMD. For example, running dapper make install will do the basic equivalent of docker run -it --rm build-image make install. If you want you can set the ENTRYPOINT to make and then dapper install will be the same as make install. Either approach is fine.

You can also customize your build container image with build arguments (via ARG Dockerfile instructions), which are populated from environment variables on dapper image build. That is useful if you want to parameterize your build for different platforms and you're using essentially the same build environment, only on different platforms. For example, if you have ARG ARCH in Dockerfile.dapper, you can have ARCH=arm in your environment variables, and when you run dapper -s your dapper image is built with --build-arg ARCH=arm and $ARCH is effectively replaced with arm in the resulting dapper image.

Dapper Modes: Bind mount or CP

Dapper runs in two modes bind or cp, meaning bind mount in the source or cp in the source. Depending on your environment one or the other could be preferred. If your host is Linux bind mounting is typically preferred because it is very fast. If you are running on Mac, Windows, or with a remote Docker daemon, CP is usually your only option. You can force a specific mode with

dapper --mode|m MODE

For example dapper -m cp or dapper -m bind.

Interactive Shell

If you just want a shell in the build environment run dapper -s.

Configuring

Configuring the behavior of Dapper is done through ENV variables in the Dockerfile.dapper.

DAPPER_SOURCE

DAPPER_SOURCE is the location in the container of where your source should be. For go applications this might look like ENV DAPPER_SOURCE /go/src/github.com/rancher/dapper

In bind mode DAPPER_SOURCE is used in the Docker run command as follows

docker run -v .:${DAPPER_SOURCE} build-image

In CP mode DAPPER_SOURCE is used in a Docker cp command as follows

docker cp . build-container:${DAPPER_SOURCE}

The default value of DAPPER_SOURCE is /source.

DAPPER_CP

DAPPER_CP is the location in the host that should be copied to DAPPER_SOURCE in the container.

In bind mode DAPPER_CP is used in the Docker run command as follows

docker run -v ${DAPPER_CP}:/source/ build-image

In CP mode DAPPER_CP is used in a Docker cp command as follows

docker cp ${DAPPER_CP} build-container:/source/

The default value of DAPPER_CP is ..

DAPPER_OUTPUT

DAPPER_OUTPUT is used after the build is done to copy the build artifacts back to the host. The setting is only used in CP mode. After the build is done equivalent Docker cp command is ran

docker cp ${DAPPER_SOURCE}/${DAPPER_OUTPUT} .

If you don't want the DAPPER_OUTPUT to be relative to the DAPPER_SOURCE then set DAPPER_OUTPUT to a strings that starts with /.

DAPPER_DOCKER_SOCKET

Setting DAPPER_DOCKER_SOCKET will cause the Docker socket to be bind mounted into your build. This is so that your build can use Docker without requiring Docker-in-Docker. The equivalent parameter will be added to Docker.

docker run -v /var/run/docker.sock:/var/run/docker.sock build-image

DAPPER_RUN_ARGS

DAPPER_RUN_ARGS is used to add any parameters to the Docker run command for the build container. For example you may want to set --privileged if you need to do advanced operations as root.

DAPPER_ENV

DAPPER_ENV is a list of ENV variables that should be copied for the host context. Setting DAPPER_ENV=A B C is the equivalent of adding to the Docker run command the following

docker run -e A -e B -e C build-image

License

Copyright (c) 2015-2018 Rancher Labs, Inc.

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.