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This re-aligns the docs with what the cmd line now does. Signed-off-by: Doug Davis <dug@us.ibm.com>
301 lines
12 KiB
Markdown
301 lines
12 KiB
Markdown
% DOCKER(1) Docker User Manuals
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% Docker Community
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% JUNE 2014
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# NAME
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docker-build - Build a new image from the source code at PATH
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# SYNOPSIS
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**docker build**
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[**--build-arg**[=*[]*]]
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[**--cpu-shares**[=*0*]]
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[**--cgroup-parent**[=*CGROUP-PARENT*]]
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[**--help**]
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[**-f**|**--file**[=*PATH/Dockerfile*]]
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[**--force-rm**]
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[**--isolation**[=*default*]]
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[**--no-cache**]
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[**--pull**]
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[**-q**|**--quiet**]
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[**--rm**[=*true*]]
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[**-t**|**--tag**[=*[]*]]
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[**-m**|**--memory**[=*MEMORY*]]
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[**--memory-swap**[=*MEMORY-SWAP*]]
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[**--shm-size**[=*SHM-SIZE*]]
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[**--cpu-period**[=*0*]]
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[**--cpu-quota**[=*0*]]
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[**--cpuset-cpus**[=*CPUSET-CPUS*]]
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[**--cpuset-mems**[=*CPUSET-MEMS*]]
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[**--ulimit**[=*[]*]]
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PATH | URL | -
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# DESCRIPTION
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This will read the Dockerfile from the directory specified in **PATH**.
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It also sends any other files and directories found in the current
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directory to the Docker daemon. The contents of this directory would
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be used by **ADD** commands found within the Dockerfile.
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Warning, this will send a lot of data to the Docker daemon depending
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on the contents of the current directory. The build is run by the Docker
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daemon, not by the CLI, so the whole context must be transferred to the daemon.
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The Docker CLI reports "Sending build context to Docker daemon" when the context is sent to
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the daemon.
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When the URL to a tarball archive or to a single Dockerfile is given, no context is sent from
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the client to the Docker daemon. In this case, the Dockerfile at the root of the archive and
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the rest of the archive will get used as the context of the build. When a Git repository is
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set as the **URL**, the repository is cloned locally and then sent as the context.
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# OPTIONS
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**-f**, **--file**=*PATH/Dockerfile*
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Path to the Dockerfile to use. If the path is a relative path and you are
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building from a local directory, then the path must be relative to that
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directory. If you are building from a remote URL pointing to either a
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tarball or a Git repository, then the path must be relative to the root of
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the remote context. In all cases, the file must be within the build context.
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The default is *Dockerfile*.
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**--build-arg**=*variable*
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name and value of a **buildarg**.
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For example, if you want to pass a value for `http_proxy`, use
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`--build-arg=http_proxy="http://some.proxy.url"`
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Users pass these values at build-time. Docker uses the `buildargs` as the
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environment context for command(s) run via the Dockerfile's `RUN` instruction
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or for variable expansion in other Dockerfile instructions. This is not meant
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for passing secret values. [Read more about the buildargs instruction](/reference/builder/#arg)
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**--force-rm**=*true*|*false*
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Always remove intermediate containers, even after unsuccessful builds. The default is *false*.
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**--isolation**="*default*"
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Isolation specifies the type of isolation technology used by containers.
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**--no-cache**=*true*|*false*
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Do not use cache when building the image. The default is *false*.
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**--help**
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Print usage statement
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**--pull**=*true*|*false*
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Always attempt to pull a newer version of the image. The default is *false*.
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**-q**, **--quiet**=*true*|*false*
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Suppress the build output and print image ID on success. The default is *false*.
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**--rm**=*true*|*false*
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Remove intermediate containers after a successful build. The default is *true*.
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**-t**, **--tag**=""
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Repository names (and optionally with tags) to be applied to the resulting image in case of success.
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**-m**, **--memory**=*MEMORY*
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Memory limit
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**--memory-swap**=*MEMORY-SWAP*
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Total memory (memory + swap), '-1' to disable swap.
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**--shm-size**=*SHM-SIZE*
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Size of `/dev/shm`. The format is `<number><unit>`. `number` must be greater than `0`.
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Unit is optional and can be `b` (bytes), `k` (kilobytes), `m` (megabytes), or `g` (gigabytes). If you omit the unit, the system uses bytes.
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If you omit the size entirely, the system uses `64m`.
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**--cpu-shares**=*0*
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CPU shares (relative weight).
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By default, all containers get the same proportion of CPU cycles.
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CPU shares is a 'relative weight', relative to the default setting of 1024.
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This default value is defined here:
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```
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cat /sys/fs/cgroup/cpu/cpu.shares
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1024
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```
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You can change this proportion by adjusting the container's CPU share
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weighting relative to the weighting of all other running containers.
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To modify the proportion from the default of 1024, use the **--cpu-shares**
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flag to set the weighting to 2 or higher.
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Container CPU share Flag
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{C0} 60% of CPU --cpu-shares=614 (614 is 60% of 1024)
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{C1} 40% of CPU --cpu-shares=410 (410 is 40% of 1024)
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The proportion is only applied when CPU-intensive processes are running.
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When tasks in one container are idle, the other containers can use the
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left-over CPU time. The actual amount of CPU time used varies depending on
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the number of containers running on the system.
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For example, consider three containers, where one has **--cpu-shares=1024** and
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two others have **--cpu-shares=512**. When processes in all three
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containers attempt to use 100% of CPU, the first container would receive
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50% of the total CPU time. If you add a fourth container with **--cpu-shares=1024**,
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the first container only gets 33% of the CPU. The remaining containers
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receive 16.5%, 16.5% and 33% of the CPU.
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Container CPU share Flag CPU time
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{C0} 100% --cpu-shares=1024 33%
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{C1} 50% --cpu-shares=512 16.5%
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{C2} 50% --cpu-shares=512 16.5%
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{C4} 100% --cpu-shares=1024 33%
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On a multi-core system, the shares of CPU time are distributed across the CPU
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cores. Even if a container is limited to less than 100% of CPU time, it can
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use 100% of each individual CPU core.
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For example, consider a system with more than three cores. If you start one
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container **{C0}** with **--cpu-shares=512** running one process, and another container
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**{C1}** with **--cpu-shares=1024** running two processes, this can result in the following
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division of CPU shares:
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PID container CPU CPU share
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100 {C0} 0 100% of CPU0
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101 {C1} 1 100% of CPU1
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102 {C1} 2 100% of CPU2
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**--cpu-period**=*0*
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Limit the CPU CFS (Completely Fair Scheduler) period.
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Limit the container's CPU usage. This flag causes the kernel to restrict the
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container's CPU usage to the period you specify.
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**--cpu-quota**=*0*
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Limit the CPU CFS (Completely Fair Scheduler) quota.
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By default, containers run with the full CPU resource. This flag causes the
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kernel to restrict the container's CPU usage to the quota you specify.
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**--cpuset-cpus**=*CPUSET-CPUS*
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CPUs in which to allow execution (0-3, 0,1).
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**--cpuset-mems**=*CPUSET-MEMS*
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Memory nodes (MEMs) in which to allow execution (0-3, 0,1). Only effective on
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NUMA systems.
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For example, if you have four memory nodes on your system (0-3), use `--cpuset-mems=0,1`
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to ensure the processes in your Docker container only use memory from the first
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two memory nodes.
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**--cgroup-parent**=*CGROUP-PARENT*
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Path to `cgroups` under which the container's `cgroup` are created.
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If the path is not absolute, the path is considered relative to the `cgroups` path of the init process.
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Cgroups are created if they do not already exist.
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**--ulimit**=[]
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Ulimit options
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For more information about `ulimit` see [Setting ulimits in a
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container](https://docs.docker.com/reference/commandline/run/#setting-ulimits-in-a-container)
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# EXAMPLES
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## Building an image using a Dockerfile located inside the current directory
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Docker images can be built using the build command and a Dockerfile:
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docker build .
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During the build process Docker creates intermediate images. In order to
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keep them, you must explicitly set `--rm=false`.
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docker build --rm=false .
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A good practice is to make a sub-directory with a related name and create
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the Dockerfile in that directory. For example, a directory called mongo may
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contain a Dockerfile to create a Docker MongoDB image. Likewise, another
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directory called httpd may be used to store Dockerfiles for Apache web
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server images.
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It is also a good practice to add the files required for the image to the
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sub-directory. These files will then be specified with the `COPY` or `ADD`
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instructions in the `Dockerfile`.
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Note: If you include a tar file (a good practice), then Docker will
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automatically extract the contents of the tar file specified within the `ADD`
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instruction into the specified target.
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## Building an image and naming that image
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A good practice is to give a name to the image you are building. Note that
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only a-z0-9-_. should be used for consistency. There are no hard rules here but it is best to give the names consideration.
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The **-t**/**--tag** flag is used to rename an image. Here are some examples:
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Though it is not a good practice, image names can be arbitrary:
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docker build -t myimage .
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A better approach is to provide a fully qualified and meaningful repository,
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name, and tag (where the tag in this context means the qualifier after
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the ":"). In this example we build a JBoss image for the Fedora repository
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and give it the version 1.0:
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docker build -t fedora/jboss:1.0 .
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The next example is for the "whenry" user repository and uses Fedora and
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JBoss and gives it the version 2.1 :
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docker build -t whenry/fedora-jboss:v2.1 .
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If you do not provide a version tag then Docker will assign `latest`:
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docker build -t whenry/fedora-jboss .
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When you list the images, the image above will have the tag `latest`.
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You can apply multiple tags to an image. For example, you can apply the `latest`
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tag to a newly built image and add another tag that references a specific
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version.
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For example, to tag an image both as `whenry/fedora-jboss:latest` and
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`whenry/fedora-jboss:v2.1`, use the following:
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docker build -t whenry/fedora-jboss:latest -t whenry/fedora-jboss:v2.1 .
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So renaming an image is arbitrary but consideration should be given to
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a useful convention that makes sense for consumers and should also take
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into account Docker community conventions.
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## Building an image using a URL
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This will clone the specified GitHub repository from the URL and use it
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as context. The Dockerfile at the root of the repository is used as
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Dockerfile. This only works if the GitHub repository is a dedicated
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repository.
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docker build github.com/scollier/purpletest
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Note: You can set an arbitrary Git repository via the `git://` schema.
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## Building an image using a URL to a tarball'ed context
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This will send the URL itself to the Docker daemon. The daemon will fetch the
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tarball archive, decompress it and use its contents as the build context. The
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Dockerfile at the root of the archive and the rest of the archive will get used
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as the context of the build. If you pass an **-f PATH/Dockerfile** option as well,
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the system will look for that file inside the contents of the tarball.
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docker build -f dev/Dockerfile https://10.10.10.1/docker/context.tar.gz
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Note: supported compression formats are 'xz', 'bzip2', 'gzip' and 'identity' (no compression).
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## Specify isolation technology for container (--isolation)
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This option is useful in situations where you are running Docker containers on
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Windows. The `--isolation=<value>` option sets a container's isolation
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technology. On Linux, the only supported is the `default` option which uses
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Linux namespaces. On Microsoft Windows, you can specify these values:
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* `default`: Use the value specified by the Docker daemon's `--exec-opt` . If the `daemon` does not specify an isolation technology, Microsoft Windows uses `process` as its default value.
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* `process`: Namespace isolation only.
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* `hyperv`: Hyper-V hypervisor partition-based isolation.
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Specifying the `--isolation` flag without a value is the same as setting `--isolation="default"`.
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# HISTORY
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March 2014, Originally compiled by William Henry (whenry at redhat dot com)
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based on docker.com source material and internal work.
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June 2014, updated by Sven Dowideit <SvenDowideit@home.org.au>
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June 2015, updated by Sally O'Malley <somalley@redhat.com>
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