Use multi-stage builds
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Multistage builds are useful to anyone who has struggled to optimize Dockerfiles while keeping them easy to read and maintain.
Before multi-stage builds
One of the most challenging things about building images is keeping the image size down. Each instruction in the Dockerfile adds a layer to the image, and you need to remember to clean up any artifacts you don’t need before moving on to the next layer. To write a really efficient Dockerfile, you have traditionally needed to employ shell tricks and other logic to keep the layers as small as possible and to ensure that each layer has the artifacts it needs from the previous layer and nothing else.
It was actually very common to have one Dockerfile to use for development (which contained everything needed to build your application), and a slimmed-down one to use for production, which only contained your application and exactly what was needed to run it. This has been referred to as the “builder pattern”. Maintaining two Dockerfiles is not ideal.
Here’s an example of a
Dockerfile which adhere to the
builder pattern above:
FROM golang:1.7.3 WORKDIR /go/src/github.com/alexellis/href-counter/ COPY app.go . RUN go get -d -v golang.org/x/net/html \ && CGO_ENABLED=0 GOOS=linux go build -a -installsuffix cgo -o app .
Notice that this example also artificially compresses two
RUN commands together
using the Bash
&& operator, to avoid creating an additional layer in the image.
This is failure-prone and hard to maintain. It’s easy to insert another command
and forget to continue the line using the
\ character, for example.
FROM alpine:latest RUN apk --no-cache add ca-certificates WORKDIR /root/ COPY app . CMD ["./app"]
#!/bin/sh echo Building alexellis2/href-counter:build docker build --build-arg https_proxy=$https_proxy --build-arg http_proxy=$http_proxy \ -t alexellis2/href-counter:build . -f Dockerfile.build docker container create --name extract alexellis2/href-counter:build docker container cp extract:/go/src/github.com/alexellis/href-counter/app ./app docker container rm -f extract echo Building alexellis2/href-counter:latest docker build --no-cache -t alexellis2/href-counter:latest . rm ./app
When you run the
build.sh script, it needs to build the first image, create
a container from it to copy the artifact out, then build the second
image. Both images take up room on your system and you still have the
artifact on your local disk as well.
Multi-stage builds vastly simplify this situation!
Use multi-stage builds
With multi-stage builds, you use multiple
FROM statements in your Dockerfile.
FROM instruction can use a different base, and each of them begins a new
stage of the build. You can selectively copy artifacts from one stage to
another, leaving behind everything you don’t want in the final image. To show
how this works, let’s adapt the Dockerfile from the previous section to use
FROM golang:1.7.3 WORKDIR /go/src/github.com/alexellis/href-counter/ RUN go get -d -v golang.org/x/net/html COPY app.go . RUN CGO_ENABLED=0 GOOS=linux go build -a -installsuffix cgo -o app . FROM alpine:latest RUN apk --no-cache add ca-certificates WORKDIR /root/ COPY --from=0 /go/src/github.com/alexellis/href-counter/app . CMD ["./app"]
You only need the single Dockerfile. You don’t need a separate build script,
either. Just run
$ docker build -t alexellis2/href-counter:latest .
The end result is the same tiny production image as before, with a significant reduction in complexity. You don’t need to create any intermediate images and you don’t need to extract any artifacts to your local system at all.
How does it work? The second
FROM instruction starts a new build stage with
alpine:latest image as its base. The
COPY --from=0 line copies just the
built artifact from the previous stage into this new stage. The Go SDK and any
intermediate artifacts are left behind, and not saved in the final image.
Name your build stages
By default, the stages are not named, and you refer to them by their integer
number, starting with 0 for the first
FROM instruction. However, you can
name your stages, by adding an
AS <NAME> to the
FROM instruction. This
example improves the previous one by naming the stages and using the name in
COPY instruction. This means that even if the instructions in your
Dockerfile are re-ordered later, the
COPY doesn’t break.
FROM golang:1.7.3 AS builder WORKDIR /go/src/github.com/alexellis/href-counter/ RUN go get -d -v golang.org/x/net/html COPY app.go . RUN CGO_ENABLED=0 GOOS=linux go build -a -installsuffix cgo -o app . FROM alpine:latest RUN apk --no-cache add ca-certificates WORKDIR /root/ COPY --from=builder /go/src/github.com/alexellis/href-counter/app . CMD ["./app"]
Stop at a specific build stage
When you build your image, you don’t necessarily need to build the entire
Dockerfile including every stage. You can specify a target build stage. The
following command assumes you are using the previous
Dockerfile but stops at
the stage named
$ docker build --target builder -t alexellis2/href-counter:latest .
A few scenarios where this might be very powerful are:
- Debugging a specific build stage
- Using a
debugstage with all debugging symbols or tools enabled, and a lean
- Using a
testingstage in which your app gets populated with test data, but building for production using a different stage which uses real data
Use an external image as a “stage”
When using multi-stage builds, you are not limited to copying from stages you
created earlier in your Dockerfile. You can use the
COPY --from instruction to
copy from a separate image, either using the local image name, a tag available
locally or on a Docker registry, or a tag ID. The Docker client pulls the image
if necessary and copies the artifact from there. The syntax is:
COPY --from=nginx:latest /etc/nginx/nginx.conf /nginx.conf
Use a previous stage as a new stage
You can pick up where a previous stage left off by referring to it when using the
FROM directive. For example:
FROM alpine:latest as builder RUN apk --no-cache add build-base FROM builder as build1 COPY source1.cpp source.cpp RUN g++ -o /binary source.cpp FROM builder as build2 COPY source2.cpp source.cpp RUN g++ -o /binary source.cpp