# Use the Docker command line To list available commands, either run `docker` with no parameters or execute `docker help`: $ docker Usage: docker [OPTIONS] COMMAND [arg...] docker daemon [ --help | ... ] docker [ --help | -v | --version ] -H, --host=[]: The socket(s) to bind to in daemon mode, specified using one or more tcp://host:port, unix:///path/to/socket, fd://* or fd://socketfd. A self-sufficient runtime for Linux containers. ... Depending on your Docker system configuration, you may be required to preface each `docker` command with `sudo`. To avoid having to use `sudo` with the `docker` command, your system administrator can create a Unix group called `docker` and add users to it. For more information about installing Docker or `sudo` configuration, refer to the [installation](/installation) instructions for your operating system. ## Environment variables For easy reference, the following list of environment variables are supported by the `docker` command line: * `DOCKER_CONFIG` The location of your client configuration files. * `DOCKER_CERT_PATH` The location of your authentication keys. * `DOCKER_DRIVER` The graph driver to use. * `DOCKER_HOST` Daemon socket to connect to. * `DOCKER_NOWARN_KERNEL_VERSION` Prevent warnings that your Linux kernel is unsuitable for Docker. * `DOCKER_RAMDISK` If set this will disable 'pivot_root'. * `DOCKER_TLS_VERIFY` When set Docker uses TLS and verifies the remote. * `DOCKER_CONTENT_TRUST` When set Docker uses notary to sign and verify images. Equates to `--disable-content-trust=false` for build, create, pull, push, run. * `DOCKER_TMPDIR` Location for temporary Docker files. Because Docker is developed using 'Go', you can also use any environment variables used by the 'Go' runtime. In particular, you may find these useful: * `HTTP_PROXY` * `HTTPS_PROXY` * `NO_PROXY` These Go environment variables are case-insensitive. See the [Go specification](http://golang.org/pkg/net/http/) for details on these variables. ## Configuration files By default, the Docker command line stores its configuration files in a directory called `.docker` within your `HOME` directory. However, you can specify a different location via the `DOCKER_CONFIG` environment variable or the `--config` command line option. If both are specified, then the `--config` option overrides the `DOCKER_CONFIG` environment variable. For example: docker --config ~/testconfigs/ ps Instructs Docker to use the configuration files in your `~/testconfigs/` directory when running the `ps` command. Docker manages most of the files in the configuration directory and you should not modify them. However, you *can modify* the `config.json` file to control certain aspects of how the `docker` command behaves. Currently, you can modify the `docker` command behavior using environment variables or command-line options. You can also use options within `config.json` to modify some of the same behavior. When using these mechanisms, you must keep in mind the order of precedence among them. Command line options override environment variables and environment variables override properties you specify in a `config.json` file. The `config.json` file stores a JSON encoding of several properties: The property `HttpHeaders` specifies a set of headers to include in all messages sent from the Docker client to the daemon. Docker does not try to interpret or understand these header; it simply puts them into the messages. Docker does not allow these headers to change any headers it sets for itself. The property `psFormat` specifies the default format for `docker ps` output. When the `--format` flag is not provided with the `docker ps` command, Docker's client uses this property. If this property is not set, the client falls back to the default table format. For a list of supported formatting directives, see the [**Formatting** section in the `docker ps` documentation](../ps) Following is a sample `config.json` file: { "HttpHeaders": { "MyHeader": "MyValue" }, "psFormat": "table {{.ID}}\\t{{.Image}}\\t{{.Command}}\\t{{.Labels}}" } ## Help To list the help on any command just execute the command, followed by the `--help` option. $ docker run --help Usage: docker run [OPTIONS] IMAGE [COMMAND] [ARG...] Run a command in a new container -a, --attach=[] Attach to STDIN, STDOUT or STDERR -c, --cpu-shares=0 CPU shares (relative weight) ... ## Option types Single character command line options can be combined, so rather than typing `docker run -i -t --name test busybox sh`, you can write `docker run -it --name test busybox sh`. ### Boolean Boolean options take the form `-d=false`. The value you see in the help text is the default value which is set if you do **not** specify that flag. If you specify a Boolean flag without a value, this will set the flag to `true`, irrespective of the default value. For example, running `docker run -d` will set the value to `true`, so your container **will** run in "detached" mode, in the background. Options which default to `true` (e.g., `docker build --rm=true`) can only be set to the non-default value by explicitly setting them to `false`: $ docker build --rm=false . ### Multi You can specify options like `-a=[]` multiple times in a single command line, for example in these commands: $ docker run -a stdin -a stdout -i -t ubuntu /bin/bash $ docker run -a stdin -a stdout -a stderr ubuntu /bin/ls Sometimes, multiple options can call for a more complex value string as for `-v`: $ docker run -v /host:/container example/mysql > **Note:** > Do not use the `-t` and `-a stderr` options together due to > limitations in the `pty` implementation. All `stderr` in `pty` mode > simply goes to `stdout`. ### Strings and Integers Options like `--name=""` expect a string, and they can only be specified once. Options like `-c=0` expect an integer, and they can only be specified once.