mirror of https://github.com/docker/cli.git
579 lines
21 KiB
Markdown
579 lines
21 KiB
Markdown
page_title: Dockerfile Reference
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page_description: Dockerfiles use a simple DSL which allows you to automate the steps you would normally manually take to create an image.
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page_keywords: builder, docker, Dockerfile, automation, image creation
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# Dockerfile Reference
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**Docker can build images automatically** by reading the instructions
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from a `Dockerfile`. A `Dockerfile` is a text document that contains all
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the commands you would normally execute manually in order to build a
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Docker image. By calling `docker build` from your terminal, you can have
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Docker build your image step by step, executing the instructions
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successively.
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## Usage
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To [*build*](../commandline/cli/#cli-build) an image from a source repository,
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create a description file called `Dockerfile` at the root of your repository.
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This file will describe the steps to assemble the image.
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Then call `docker build` with the path of your source repository as the argument
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(for example, `.`):
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$ sudo docker build .
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The path to the source repository defines where to find the *context* of
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the build. The build is run by the Docker daemon, not by the CLI, so the
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whole context must be transferred to the daemon. The Docker CLI reports
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"Sending build context to Docker daemon" when the context is sent to the daemon.
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> **Warning**
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> Avoid using your root directory, `/`, as the root of the source repository. The
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> `docker build` command will use whatever directory contains the Dockerfile as the build
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> context (including all of its subdirectories). The build context will be sent to the
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> Docker daemon before building the image, which means if you use `/` as the source
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> repository, the entire contents of your hard drive will get sent to the daemon (and
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> thus to the machine running the daemon). You probably don't want that.
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In most cases, it's best to put each Dockerfile in an empty directory, and then add only
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the files needed for building that Dockerfile to that directory. To further speed up the
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build, you can exclude files and directories by adding a `.dockerignore` file to the same
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directory.
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You can specify a repository and tag at which to save the new image if
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the build succeeds:
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$ sudo docker build -t shykes/myapp .
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The Docker daemon will run your steps one-by-one, committing the result
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to a new image if necessary, before finally outputting the ID of your
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new image. The Docker daemon will automatically clean up the context you
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sent.
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Note that each instruction is run independently, and causes a new image
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to be created - so `RUN cd /tmp` will not have any effect on the next
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instructions.
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Whenever possible, Docker will re-use the intermediate images,
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accelerating `docker build` significantly (indicated by `Using cache`):
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$ docker build -t SvenDowideit/ambassador .
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Uploading context 10.24 kB
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Uploading context
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Step 1 : FROM docker-ut
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---> cbba202fe96b
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Step 2 : MAINTAINER SvenDowideit@home.org.au
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---> Using cache
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---> 51182097be13
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Step 3 : CMD env | grep _TCP= | sed 's/.*_PORT_\([0-9]*\)_TCP=tcp:\/\/\(.*\):\(.*\)/socat TCP4-LISTEN:\1,fork,reuseaddr TCP4:\2:\3 \&/' | sh && top
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---> Using cache
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---> 1a5ffc17324d
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Successfully built 1a5ffc17324d
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When you're done with your build, you're ready to look into [*Pushing a
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repository to its registry*]( /userguide/dockerrepos/#image-push).
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## Format
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Here is the format of the `Dockerfile`:
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# Comment
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INSTRUCTION arguments
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The Instruction is not case-sensitive, however convention is for them to
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be UPPERCASE in order to distinguish them from arguments more easily.
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Docker runs the instructions in a `Dockerfile` in order. **The
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first instruction must be \`FROM\`** in order to specify the [*Base
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Image*](/terms/image/#base-image-def) from which you are building.
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Docker will treat lines that *begin* with `#` as a
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comment. A `#` marker anywhere else in the line will
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be treated as an argument. This allows statements like:
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# Comment
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RUN echo 'we are running some # of cool things'
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Here is the set of instructions you can use in a `Dockerfile` for building
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images.
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## The `.dockerignore` file
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If a file named `.dockerignore` exists in the source repository, then it
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is interpreted as a newline-separated list of exclusion patterns.
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Exclusion patterns match files or directories relative to the source repository
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that will be excluded from the context. Globbing is done using Go's
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[filepath.Match](http://golang.org/pkg/path/filepath#Match) rules.
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The following example shows the use of the `.dockerignore` file to exclude the
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`.git` directory from the context. Its effect can be seen in the changed size of
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the uploaded context.
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$ docker build .
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Uploading context 18.829 MB
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Uploading context
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Step 0 : FROM busybox
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---> 769b9341d937
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Step 1 : CMD echo Hello World
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---> Using cache
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---> 99cc1ad10469
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Successfully built 99cc1ad10469
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$ echo ".git" > .dockerignore
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$ docker build .
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Uploading context 6.76 MB
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Uploading context
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Step 0 : FROM busybox
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---> 769b9341d937
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Step 1 : CMD echo Hello World
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---> Using cache
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---> 99cc1ad10469
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Successfully built 99cc1ad10469
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## FROM
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FROM <image>
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Or
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FROM <image>:<tag>
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The `FROM` instruction sets the [*Base Image*](/terms/image/#base-image-def)
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for subsequent instructions. As such, a valid `Dockerfile` must have `FROM` as
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its first instruction. The image can be any valid image – it is especially easy
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to start by **pulling an image** from the [*Public Repositories*](
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/userguide/dockerrepos/#using-public-repositories).
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`FROM` must be the first non-comment instruction in the `Dockerfile`.
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`FROM` can appear multiple times within a single `Dockerfile` in order to create
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multiple images. Simply make a note of the last image ID output by the commit
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before each new `FROM` command.
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If no `tag` is given to the `FROM` instruction, `latest` is assumed. If the
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used tag does not exist, an error will be returned.
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## MAINTAINER
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MAINTAINER <name>
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The `MAINTAINER` instruction allows you to set the *Author* field of the
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generated images.
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## RUN
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RUN has 2 forms:
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- `RUN <command>` (the command is run in a shell - `/bin/sh -c`)
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- `RUN ["executable", "param1", "param2"]` (*exec* form)
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The `RUN` instruction will execute any commands in a new layer on top of the
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current image and commit the results. The resulting committed image will be
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used for the next step in the `Dockerfile`.
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Layering `RUN` instructions and generating commits conforms to the core
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concepts of Docker where commits are cheap and containers can be created from
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any point in an image's history, much like source control.
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The *exec* form makes it possible to avoid shell string munging, and to `RUN`
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commands using a base image that does not contain `/bin/sh`.
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> **Note**:
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> To use a different shell, other than '/bin/sh', use the *exec* form
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> passing in the desired shell. For example,
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> `RUN ["/bin/bash", "-c", "echo hello"]`
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The cache for `RUN` instructions isn't invalidated automatically during
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the next build. The cache for an instruction like `RUN apt-get
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dist-upgrade -y` will be reused during the next build. The cache for
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`RUN` instructions can be invalidated by using the `--no-cache` flag,
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for example `docker build --no-cache`.
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The cache for `RUN` instructions can be invalidated by `ADD` instructions. See
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[below](#add) for details.
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### Known Issues (RUN)
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- [Issue 783](https://github.com/docker/docker/issues/783) is about file
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permissions problems that can occur when using the AUFS file system. You
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might notice it during an attempt to `rm` a file, for example. The issue
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describes a workaround.
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## CMD
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The `CMD` instruction has three forms:
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- `CMD ["executable","param1","param2"]` (like an *exec*, this is the preferred form)
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- `CMD ["param1","param2"]` (as *default parameters to ENTRYPOINT*)
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- `CMD command param1 param2` (as a *shell*)
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There can only be one `CMD` instruction in a `Dockerfile`. If you list more than one `CMD`
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then only the last `CMD` will take effect.
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**The main purpose of a `CMD` is to provide defaults for an executing
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container.** These defaults can include an executable, or they can omit
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the executable, in which case you must specify an `ENTRYPOINT`
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instruction as well.
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> **Note**:
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> If `CMD` is used to provide default arguments for the `ENTRYPOINT`
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> instruction, both the `CMD` and `ENTRYPOINT` instructions should be specified
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> with the JSON array format.
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When used in the shell or exec formats, the `CMD` instruction sets the command
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to be executed when running the image.
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If you use the *shell* form of the `CMD`, then the `<command>` will execute in
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`/bin/sh -c`:
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FROM ubuntu
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CMD echo "This is a test." | wc -
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If you want to **run your** `<command>` **without a shell** then you must
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express the command as a JSON array and give the full path to the executable.
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**This array form is the preferred format of `CMD`.** Any additional parameters
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must be individually expressed as strings in the array:
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FROM ubuntu
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CMD ["/usr/bin/wc","--help"]
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If you would like your container to run the same executable every time, then
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you should consider using `ENTRYPOINT` in combination with `CMD`. See
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[*ENTRYPOINT*](#entrypoint).
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If the user specifies arguments to `docker run` then they will override the
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default specified in `CMD`.
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> **Note**:
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> don't confuse `RUN` with `CMD`. `RUN` actually runs a command and commits
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> the result; `CMD` does not execute anything at build time, but specifies
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> the intended command for the image.
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## EXPOSE
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EXPOSE <port> [<port>...]
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The `EXPOSE` instructions informs Docker that the container will listen on the
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specified network ports at runtime. Docker uses this information to interconnect
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containers using links (see the [Docker User
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Guide](/userguide/dockerlinks)).
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## ENV
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ENV <key> <value>
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The `ENV` instruction sets the environment variable `<key>` to the value
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`<value>`. This value will be passed to all future `RUN` instructions. This is
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functionally equivalent to prefixing the command with `<key>=<value>`
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The environment variables set using `ENV` will persist when a container is run
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from the resulting image. You can view the values using `docker inspect`, and
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change them using `docker run --env <key>=<value>`.
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> **Note**:
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> One example where this can cause unexpected consequences, is setting
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> `ENV DEBIAN_FRONTEND noninteractive`. Which will persist when the container
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> is run interactively; for example: `docker run -t -i image bash`
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## ADD
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ADD <src> <dest>
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The `ADD` instruction will copy new files from `<src>` and add them to the
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container's filesystem at path `<dest>`.
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`<src>` must be the path to a file or directory relative to the source directory
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being built (also called the *context* of the build) or a remote file URL.
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`<dest>` is the absolute path to which the source will be copied inside the
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destination container.
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All new files and directories are created with a UID and GID of 0.
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In the case where `<src>` is a remote file URL, the destination will
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have permissions of 600.
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> **Note**:
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> If you build by passing a `Dockerfile` through STDIN (`docker
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> build - < somefile`), there is no build context, so the `Dockerfile`
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> can only contain a URL based `ADD` instruction. You can also pass a
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> compressed archive through STDIN: (`docker build - < archive.tar.gz`),
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> the `Dockerfile` at the root of the archive and the rest of the
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> archive will get used at the context of the build.
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> **Note**:
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> If your URL files are protected using authentication, you
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> will need to use `RUN wget`, `RUN curl` or use another tool from
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> within the container as the `ADD` instruction does not support
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> authentication.
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> **Note**:
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> The first encountered `ADD` instruction will invalidate the cache for all
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> following instructions from the Dockerfile if the contents of `<src>` have
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> changed. This includes invalidating the cache for `RUN` instructions.
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The copy obeys the following rules:
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- The `<src>` path must be inside the *context* of the build;
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you cannot `ADD ../something /something`, because the first step of a
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`docker build` is to send the context directory (and subdirectories) to the
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docker daemon.
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- If `<src>` is a URL and `<dest>` does not end with a trailing slash, then a
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file is downloaded from the URL and copied to `<dest>`.
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- If `<src>` is a URL and `<dest>` does end with a trailing slash, then the
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filename is inferred from the URL and the file is downloaded to
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`<dest>/<filename>`. For instance, `ADD http://example.com/foobar /` would
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create the file `/foobar`. The URL must have a nontrivial path so that an
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appropriate filename can be discovered in this case (`http://example.com`
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will not work).
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- If `<src>` is a directory, the entire directory is copied, including
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filesystem metadata.
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- If `<src>` is a *local* tar archive in a recognized compression format
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(identity, gzip, bzip2 or xz) then it is unpacked as a directory. Resources
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from *remote* URLs are **not** decompressed. When a directory is copied or
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unpacked, it has the same behavior as `tar -x`: the result is the union of:
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1. Whatever existed at the destination path and
|
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2. The contents of the source tree, with conflicts resolved in favor
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of "2." on a file-by-file basis.
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- If `<src>` is any other kind of file, it is copied individually along with
|
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its metadata. In this case, if `<dest>` ends with a trailing slash `/`, it
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will be considered a directory and the contents of `<src>` will be written
|
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at `<dest>/base(<src>)`.
|
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|
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- If `<dest>` does not end with a trailing slash, it will be considered a
|
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regular file and the contents of `<src>` will be written at `<dest>`.
|
||
|
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- If `<dest>` doesn't exist, it is created along with all missing directories
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in its path.
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## COPY
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COPY <src> <dest>
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The `COPY` instruction will copy new files from `<src>` and add them to the
|
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container's filesystem at path `<dest>`.
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`<src>` must be the path to a file or directory relative to the source directory
|
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being built (also called the *context* of the build).
|
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`<dest>` is the absolute path to which the source will be copied inside the
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destination container.
|
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All new files and directories are created with a UID and GID of 0.
|
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|
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> **Note**:
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> If you build using STDIN (`docker build - < somefile`), there is no
|
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> build context, so `COPY` can't be used.
|
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|
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The copy obeys the following rules:
|
||
|
||
- The `<src>` path must be inside the *context* of the build;
|
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you cannot `COPY ../something /something`, because the first step of a
|
||
`docker build` is to send the context directory (and subdirectories) to the
|
||
docker daemon.
|
||
|
||
- If `<src>` is a directory, the entire directory is copied, including
|
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filesystem metadata.
|
||
|
||
- If `<src>` is any other kind of file, it is copied individually along with
|
||
its metadata. In this case, if `<dest>` ends with a trailing slash `/`, it
|
||
will be considered a directory and the contents of `<src>` will be written
|
||
at `<dest>/base(<src>)`.
|
||
|
||
- If `<dest>` does not end with a trailing slash, it will be considered a
|
||
regular file and the contents of `<src>` will be written at `<dest>`.
|
||
|
||
- If `<dest>` doesn't exist, it is created along with all missing directories
|
||
in its path.
|
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|
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## ENTRYPOINT
|
||
|
||
ENTRYPOINT has two forms:
|
||
|
||
- `ENTRYPOINT ["executable", "param1", "param2"]`
|
||
(like an *exec*, the preferred form)
|
||
- `ENTRYPOINT command param1 param2`
|
||
(as a *shell*)
|
||
|
||
There can only be one `ENTRYPOINT` in a `Dockerfile`. If you have more
|
||
than one `ENTRYPOINT`, then only the last one in the `Dockerfile` will
|
||
have an effect.
|
||
|
||
An `ENTRYPOINT` helps you to configure a container that you can run as
|
||
an executable. That is, when you specify an `ENTRYPOINT`, then the whole
|
||
container runs as if it was just that executable.
|
||
|
||
Unlike the behavior of the `CMD` instruction, The `ENTRYPOINT`
|
||
instruction adds an entry command that will **not** be overwritten when
|
||
arguments are passed to `docker run`. This allows arguments to be passed
|
||
to the entry point, i.e. `docker run <image> -d` will pass the `-d`
|
||
argument to the entry point.
|
||
|
||
You can specify parameters either in the `ENTRYPOINT` JSON array (as in
|
||
"like an exec" above), or by using a `CMD` instruction. Parameters in
|
||
the `ENTRYPOINT` instruction will not be overridden by the `docker run`
|
||
arguments, but parameters specified via a `CMD` instruction will be
|
||
overridden by `docker run` arguments.
|
||
|
||
Like a `CMD`, you can specify a plain string for the `ENTRYPOINT` and it
|
||
will execute in `/bin/sh -c`:
|
||
|
||
FROM ubuntu
|
||
ENTRYPOINT ls -l
|
||
|
||
For example, that `Dockerfile`'s image will *always* take a directory as
|
||
an input and return a directory listing. If you wanted to make this
|
||
optional but default, you could use a `CMD` instruction:
|
||
|
||
FROM ubuntu
|
||
CMD ["-l"]
|
||
ENTRYPOINT ["ls"]
|
||
|
||
> **Note**:
|
||
> It is preferable to use the JSON array format for specifying
|
||
> `ENTRYPOINT` instructions.
|
||
|
||
## VOLUME
|
||
|
||
VOLUME ["/data"]
|
||
|
||
The `VOLUME` instruction will create a mount point with the specified name
|
||
and mark it as holding externally mounted volumes from native host or other
|
||
containers. The value can be a JSON array, `VOLUME ["/var/log/"]`, or a plain
|
||
string, `VOLUME /var/log`. For more information/examples and mounting
|
||
instructions via the Docker client, refer to [*Share Directories via Volumes*](
|
||
/userguide/dockervolumes/#volume-def) documentation.
|
||
|
||
## USER
|
||
|
||
USER daemon
|
||
|
||
The `USER` instruction sets the user name or UID to use when running the image
|
||
and for any following `RUN` directives.
|
||
|
||
## WORKDIR
|
||
|
||
WORKDIR /path/to/workdir
|
||
|
||
The `WORKDIR` instruction sets the working directory for any `RUN`, `CMD` and
|
||
`ENTRYPOINT` instructions that follow it in the `Dockerfile`.
|
||
|
||
It can be used multiple times in the one `Dockerfile`. If a relative path
|
||
is provided, it will be relative to the path of the previous `WORKDIR`
|
||
instruction. For example:
|
||
|
||
WORKDIR /a
|
||
WORKDIR b
|
||
WORKDIR c
|
||
RUN pwd
|
||
|
||
The output of the final `pwd` command in this Dockerfile would be
|
||
`/a/b/c`.
|
||
|
||
## ONBUILD
|
||
|
||
ONBUILD [INSTRUCTION]
|
||
|
||
The `ONBUILD` instruction adds to the image a *trigger* instruction to
|
||
be executed at a later time, when the image is used as the base for
|
||
another build. The trigger will be executed in the context of the
|
||
downstream build, as if it had been inserted immediately after the
|
||
`FROM` instruction in the downstream `Dockerfile`.
|
||
|
||
Any build instruction can be registered as a trigger.
|
||
|
||
This is useful if you are building an image which will be used as a base
|
||
to build other images, for example an application build environment or a
|
||
daemon which may be customized with user-specific configuration.
|
||
|
||
For example, if your image is a reusable Python application builder, it
|
||
will require application source code to be added in a particular
|
||
directory, and it might require a build script to be called *after*
|
||
that. You can't just call `ADD` and `RUN` now, because you don't yet
|
||
have access to the application source code, and it will be different for
|
||
each application build. You could simply provide application developers
|
||
with a boilerplate `Dockerfile` to copy-paste into their application, but
|
||
that is inefficient, error-prone and difficult to update because it
|
||
mixes with application-specific code.
|
||
|
||
The solution is to use `ONBUILD` to register advance instructions to
|
||
run later, during the next build stage.
|
||
|
||
Here's how it works:
|
||
|
||
1. When it encounters an `ONBUILD` instruction, the builder adds a
|
||
trigger to the metadata of the image being built. The instruction
|
||
does not otherwise affect the current build.
|
||
2. At the end of the build, a list of all triggers is stored in the
|
||
image manifest, under the key `OnBuild`. They can be inspected with
|
||
the `docker inspect` command.
|
||
3. Later the image may be used as a base for a new build, using the
|
||
`FROM` instruction. As part of processing the `FROM` instruction,
|
||
the downstream builder looks for `ONBUILD` triggers, and executes
|
||
them in the same order they were registered. If any of the triggers
|
||
fail, the `FROM` instruction is aborted which in turn causes the
|
||
build to fail. If all triggers succeed, the `FROM` instruction
|
||
completes and the build continues as usual.
|
||
4. Triggers are cleared from the final image after being executed. In
|
||
other words they are not inherited by "grand-children" builds.
|
||
|
||
For example you might add something like this:
|
||
|
||
[...]
|
||
ONBUILD ADD . /app/src
|
||
ONBUILD RUN /usr/local/bin/python-build --dir /app/src
|
||
[...]
|
||
|
||
> **Warning**: Chaining `ONBUILD` instructions using `ONBUILD ONBUILD` isn't allowed.
|
||
|
||
> **Warning**: The `ONBUILD` instruction may not trigger `FROM` or `MAINTAINER` instructions.
|
||
|
||
## Dockerfile Examples
|
||
|
||
# Nginx
|
||
#
|
||
# VERSION 0.0.1
|
||
|
||
FROM ubuntu
|
||
MAINTAINER Victor Vieux <victor@docker.com>
|
||
|
||
RUN apt-get update && apt-get install -y inotify-tools nginx apache2 openssh-server
|
||
|
||
# Firefox over VNC
|
||
#
|
||
# VERSION 0.3
|
||
|
||
FROM ubuntu
|
||
|
||
# Install vnc, xvfb in order to create a 'fake' display and firefox
|
||
RUN apt-get update && apt-get install -y x11vnc xvfb firefox
|
||
RUN mkdir /.vnc
|
||
# Setup a password
|
||
RUN x11vnc -storepasswd 1234 ~/.vnc/passwd
|
||
# Autostart firefox (might not be the best way, but it does the trick)
|
||
RUN bash -c 'echo "firefox" >> /.bashrc'
|
||
|
||
EXPOSE 5900
|
||
CMD ["x11vnc", "-forever", "-usepw", "-create"]
|
||
|
||
# Multiple images example
|
||
#
|
||
# VERSION 0.1
|
||
|
||
FROM ubuntu
|
||
RUN echo foo > bar
|
||
# Will output something like ===> 907ad6c2736f
|
||
|
||
FROM ubuntu
|
||
RUN echo moo > oink
|
||
# Will output something like ===> 695d7793cbe4
|
||
|
||
# You᾿ll now have two images, 907ad6c2736f with /bar, and 695d7793cbe4 with
|
||
# /oink.
|
||
|