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Merge pull request #18627 from londoncalling/cloud-installs

[WIP] docs updates per issue 18282 cloud installs
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moxiegirl 2015-12-29 14:54:18 -08:00
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<!--[metadata]>
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title = "Amazon EC2 Installation"
description = "Installation instructions for Docker on Amazon EC2."
keywords = ["amazon ec2, cloud, docker, documentation, installation"]
[menu.main]
parent = "smn_cloud"
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<![end-metadata]-->
## Amazon EC2
You can install Docker on any AWS EC2 Amazon Machine Image (AMI) which runs an
operating system that Docker supports. Amazon's website includes specific
instructions for [installing on Amazon
Linux](http://docs.aws.amazon.com/AmazonECS/latest/developerguide/docker-basics.html#install_docker). To install on
another AMI, follow the instructions for its specific operating
system in this installation guide.
For detailed information on Amazon AWS support for Docker, refer to [Amazon's
documentation](http://docs.aws.amazon.com/AmazonECS/latest/developerguide/docker-basics.html).

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<!--[metadata]>
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title = "Installation on Microsoft Azure platform"
description = "Instructions for creating a Docker-ready virtual machine on Microsoft Azure cloud platform."
keywords = ["Docker, Docker documentation, installation, azure, microsoft"]
[menu.main]
parent = "smn_cloud"
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<![end-metadata]-->
# Microsoft Azure
## Creating a Docker host machine on Azure
Please check out to the following detailed tutorials on [Microsoft Azure][0]
website to find out different ways to create a Docker-ready Linux virtual
machines on Azure:
* [Docker Virtual Machine Extensions on Azure][1]
* [How to use the Docker VM Extension from Azure Cross-Platform Interface][2]
* [How to use the Docker VM Extension with the Azure Portal][3]
* [Using Docker Machine with Azure][4]
## What next?
Continue with the [User Guide](../userguide/index.md).
[0]: https://azure.microsoft.com/
[1]: https://azure.microsoft.com/en-us/documentation/articles/virtual-machines-docker-vm-extension/
[2]: https://azure.microsoft.com/documentation/articles/virtual-machines-docker-with-xplat-cli/
[3]: https://azure.microsoft.com/documentation/articles/virtual-machines-docker-with-portal/
[4]: https://azure.microsoft.com/en-us/documentation/articles/virtual-machines-docker-machine/

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<!--[metadata]>
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title = "Example: Manual install on a cloud provider"
description = "Example of a manual install of Docker Engine on a cloud provider, using Amazon Web Services (AWS) EC2. Shows how to create an EC2 instance, and install Docker Engine on it."
keywords = ["cloud, docker, machine, documentation, installation, AWS, EC2"]
[menu.main]
parent = "smn_cloud"
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<![end-metadata]-->
# Example: Manual install on a cloud provider
You can install Docker Engine directly to servers you have on cloud providers. This example shows how to create an <a href="https://aws.amazon.com/" target="_blank"> Amazon Web Services (AWS)</a> EC2 instance, and install Docker Engine on it.
You can use this same general approach to create Dockerized hosts on other cloud providers.
### Step 1. Sign up for AWS
1. If you are not already an AWS user, sign up for <a href="https://aws.amazon.com/" target="_blank"> AWS</a> to create an account and get root access to EC2 cloud computers. If you have an Amazon account, you can use it as your root user account.
2. Create an IAM (Identity and Access Management) administrator user, an admin group, and a key pair associated with a region.
From the AWS menus, select **Services** > **IAM** to get started.
See the AWS documentation on <a href="http://docs.aws.amazon.com/AWSEC2/latest/UserGuide/get-set-up-for-amazon-ec2.html" target="_blank">Setting Up with Amazon EC2</a>. Follow the steps for "Create an IAM User" and "Create a Key Pair".
If you are just getting started with AWS and EC2, you do not need to create a virtual private cloud (VPC) or specify a subnet. The newer EC2-VPC platform (accounts created after 2013-12-04) comes with a default VPC and subnet in each availability zone. When you launch an instance, it automatically uses the default VPC.
### Step 2. Configure and start an EC2 instance
Launch an instance to create a virtual machine (VM) with a specified operating system (OS) as follows.
1. Log into AWS with your IAM credentials.
On the AWS home page, click **EC2** to go to the dashboard, then click **Launch Instance**.
![EC2 dashboard](images/ec2_launch_instance.png)
AWS EC2 virtual servers are called *instances* in Amazon parlance. Once you set up an account, IAM user and key pair, you are ready to launch an instance. It is at this point that you select the OS for the VM.
2. Choose an Amazon Machine Image (AMI) with the OS and applications you want. For this example, we select an Ubuntu server.
![Launch Ubuntu](images/ec2-ubuntu.png)
3. Choose an instance type.
![Choose a general purpose instance type](images/ec2_instance_type.png)
4. Configure the instance.
You can select the default network and subnet, which are inherently linked to a region and availability zone.
![Configure the instance](images/ec2_instance_details.png)
5. Click **Review and Launch**.
6. Select a key pair to use for this instance.
When you choose to launch, you need to select a key pair to use. Save the `.pem` file to use in the next steps.
The instance is now up-and-running. The menu path to get back to your EC2 instance on AWS is: **EC2 (Virtual Servers in Cloud)** > **EC2 Dashboard** > **Resources** > **Running instances**.
To get help with your private key file, instance IP address, and how to log into the instance via SSH, click the **Connect** button at the top of the AWS instance dashboard.
### Step 3. Log in from a terminal, configure apt, and get packages
1. Log in to the EC2 instance from a command line terminal.
Change directories into the directory containing the SSH key and run this command (or give the path to it as part of the command):
$ ssh -i "YourKey" ubuntu@xx.xxx.xxx.xxx
For our example:
$ cd ~/Desktop/keys/amazon_ec2
$ ssh -i "my-key-pair.pem" ubuntu@xx.xxx.xxx.xxx
We'll follow the instructions for installing Docker on Ubuntu at https://docs.docker.com/engine/installation/ubuntulinux/. The next few steps reflect those instructions.
2. Check the kernel version to make sure it's 3.10 or higher.
ubuntu@ip-xxx-xx-x-xxx:~$ uname -r
3.13.0-48-generic
3. Add the new `gpg` key.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-key adv --keyserver hkp://p80.pool.sks-keyservers.net:80 --recv-keys 58118E89F3A912897C070ADBF76221572C52609D
Executing: gpg --ignore-time-conflict --no-options --no-default-keyring --homedir /tmp/tmp.jNZLKNnKte --no-auto-check-trustdb --trust-model always --keyring /etc/apt/trusted.gpg --primary-keyring /etc/apt/trusted.gpg --keyserver hkp://p80.pool.sks-keyservers.net:80 --recv-keys 58118E89F3A912897C070ADBF76221572C52609D
gpg: requesting key 2C52609D from hkp server p80.pool.sks-keyservers.net
gpg: key 2C52609D: public key "Docker Release Tool (releasedocker) <docker@docker.com>" imported
gpg: Total number processed: 1
gpg: imported: 1 (RSA: 1)
4. Create a `docker.list` file, and add an entry for our OS, Ubuntu Trusty 14.04 (LTS).
ubuntu@ip-xxx-xx-x-xxx:~$ sudo vi /etc/apt/sources.list.d/docker.list
If we were updating an existing file, we'd delete any existing entries.
5. Update the `apt` package index.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-get update
6. Purge the old repo if it exists.
In our case the repo doesn't because this is a new VM, but let's run it anyway just to be sure.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-get purge lxc-docker
Reading package lists... Done
Building dependency tree
Reading state information... Done
Package 'lxc-docker' is not installed, so not removed
0 upgraded, 0 newly installed, 0 to remove and 139 not upgraded.
7. Verify that `apt` is pulling from the correct repository.
ubuntu@ip-172-31-0-151:~$ sudo apt-cache policy docker-engine
docker-engine:
Installed: (none)
Candidate: 1.9.1-0~trusty
Version table:
1.9.1-0~trusty 0
500 https://apt.dockerproject.org/repo/ ubuntu-trusty/main amd64 Packages
1.9.0-0~trusty 0
500 https://apt.dockerproject.org/repo/ ubuntu-trusty/main amd64 Packages
. . .
From now on when you run `apt-get upgrade`, `apt` pulls from the new repository.
### Step 4. Install recommended prerequisites for the OS
For Ubuntu Trusty (and some other versions), its recommended to install the `linux-image-extra` kernel package, which allows you use the `aufs` storage driver, so we'll do that now.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-get update
ubuntu@ip-172-31-0-151:~$ sudo apt-get install linux-image-extra-$(uname -r)
### Step 5. Install Docker Engine on the remote instance
1. Update the apt package index.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-get update
2. Install Docker Engine.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo apt-get install docker-engine
Reading package lists... Done
Building dependency tree
Reading state information... Done
The following extra packages will be installed:
aufs-tools cgroup-lite git git-man liberror-perl
Suggested packages:
git-daemon-run git-daemon-sysvinit git-doc git-el git-email git-gui gitk
gitweb git-arch git-bzr git-cvs git-mediawiki git-svn
The following NEW packages will be installed:
aufs-tools cgroup-lite docker-engine git git-man liberror-perl
0 upgraded, 6 newly installed, 0 to remove and 139 not upgraded.
Need to get 11.0 MB of archives.
After this operation, 60.3 MB of additional disk space will be used.
Do you want to continue? [Y/n] y
Get:1 http://us-west-1.ec2.archive.ubuntu.com/ubuntu/ trusty/universe aufs-tools amd64 1:3.2+20130722-1.1 [92.3 kB]
Get:2 http://us-west-1.ec2.archive.ubuntu.com/ubuntu/ trusty/main liberror-perl all 0.17-1.1 [21.1 kB]
. . .
3. Start the Docker daemon.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo service docker start
4. Verify Docker Engine is installed correctly by running `docker run hello-world`.
ubuntu@ip-xxx-xx-x-xxx:~$ sudo docker run hello-world
ubuntu@ip-172-31-0-151:~$ sudo docker run hello-world
Unable to find image 'hello-world:latest' locally
latest: Pulling from library/hello-world
b901d36b6f2f: Pull complete
0a6ba66e537a: Pull complete
Digest: sha256:8be990ef2aeb16dbcb9271ddfe2610fa6658d13f6dfb8bc72074cc1ca36966a7
Status: Downloaded newer image for hello-world:latest
Hello from Docker.
This message shows that your installation appears to be working correctly.
To generate this message, Docker took the following steps:
1. The Docker client contacted the Docker daemon.
2. The Docker daemon pulled the "hello-world" image from the Docker Hub.
3. The Docker daemon created a new container from that image which runs the executable that produces the output you are currently reading.
4. The Docker daemon streamed that output to the Docker client, which sent it to your terminal.
To try something more ambitious, you can run an Ubuntu container with:
$ docker run -it ubuntu bash
Share images, automate workflows, and more with a free Docker Hub account:
https://hub.docker.com
For more examples and ideas, visit:
https://docs.docker.com/userguide/
## Where to go next
* Would you like a quicker way to do Docker cloud installs? See [Digital Ocean Example: Use Docker Machine to provision Docker on cloud hosts](cloud-ex-aws.md).
* To learn more about options for installing Docker Engine on cloud providers, see [Understand cloud install options and choose one](cloud.md).
* To get started with Docker, see <a href="https://docs.docker.com/engine/userguide/" target="_blank"> Docker User Guide </a>.

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<!--[metadata]>
+++
title = "Example: Use Docker Machine to provision cloud hosts"
description = "Example of using Docker Machine to install Docker Engine on a cloud provider, using Digital Ocean."
keywords = ["cloud, docker, machine, documentation, installation, digitalocean"]
[menu.main]
parent = "smn_cloud"
+++
<![end-metadata]-->
# Example: Use Docker Machine to provision cloud hosts
Docker Machine driver plugins are available for many cloud platforms, so you can use Machine to provision cloud hosts. When you use Docker Machine for provisioning, you create cloud hosts with Docker Engine installed on them.
You'll need to install and run Docker Machine, and create an account with the cloud provider.
Then you provide account verification, security credentials, and configuration options for the providers as flags to `docker-machine create`. The flags are unique for each cloud-specific driver. For instance, to pass a Digital Ocean access token you use the `--digitalocean-access-token` flag.
As an example, let's take a look at how to create a Dockerized <a href="https://digitalocean.com" target="_blank">Digital Ocean</a> _Droplet_ (cloud server).
### Step 1. Create a Digital Ocean account and log in
If you have not done so already, go to <a href="https://digitalocean.com" target="_blank">Digital Ocean</a>, create an account, and log in.
### Step 2. Generate a personal access token
To generate your access token:
1. Go to the Digital Ocean administrator console and click **API** in the header.
![Click API in Digital Ocean console](images/ocean_click_api.png)
2. Click **Generate New Token** to get to the token generator.
![Generate token](images/ocean_gen_token.png)
3. Give the token a clever name (e.g. "machine"), make sure the **Write (Optional)** checkbox is checked, and click **Generate Token**.
![Name and generate token](images/ocean_token_create.png)
4. Grab (copy to clipboard) the generated big long hex string and store it somewhere safe.
![Copy and save personal access token](images/ocean_save_token.png)
This is the personal access token you'll use in the next step to create your cloud server.
### Step 3. Start Docker Machine
1. If you have not done so already, install Docker Machine on your local host.
* <a href="https://docs.docker.com/engine/installation/mac/" target="_blank"> How to install Docker Machine on Mac OS X</a>
* <a href="https://docs.docker.com/engine/installation/windows/" target="_blank">How to install Docker Machine on Windows</a>
* <a href="https://docs.docker.com/machine/install-machine/" target="_blank">Install Docker Machine directly</a> (e.g., on Linux)
2. At a command terminal, use `docker-machine ls` to get a list of Docker Machines and their status.
$ docker-machine ls
NAME ACTIVE DRIVER STATE URL SWARM
default - virtualbox Stopped
3. If Machine is stopped, start it.
$ docker-machine start default
(default) OUT | Starting VM...
Started machines may have new IP addresses. You may need to re-run the `docker-machine env` command.
4. Set environment variables to connect your shell to the local VM.
$ docker-machine env default
export DOCKER_TLS_VERIFY="1"
export DOCKER_HOST="tcp://xxx.xxx.xx.xxx:xxxx"
export DOCKER_CERT_PATH="/Users/londoncalling/.docker/machine/machines/default"
export DOCKER_MACHINE_NAME="default"
# Run this command to configure your shell:
# eval "$(docker-machine env default)"
eval "$(docker-machine env default)"
5. Re-run `docker-machine ls` to check that it's now running.
$ docker-machine ls
NAME ACTIVE DRIVER STATE URL SWARM
default * virtualbox Running tcp:////xxx.xxx.xx.xxx:xxxx
6. Run some Docker commands to make sure that Docker Engine is also up-and-running.
We'll run `docker run hello-world` again, but you could try `docker ps`, `docker run docker/whalesay cowsay boo`, or another command to verify that Docker is running.
$ docker run hello-world
Hello from Docker.
This message shows that your installation appears to be working correctly.
To generate this message, Docker took the following steps:
1. The Docker client contacted the Docker daemon.
2. The Docker daemon pulled the "hello-world" image from the Docker Hub.
3. The Docker daemon created a new container from that image which runs the executable that produces the output you are currently reading.
4. The Docker daemon streamed that output to the Docker client, which sent it to your terminal.
To try something more ambitious, you can run an Ubuntu container with:
$ docker run -it ubuntu bash
Share images, automate workflows, and more with a free Docker Hub account: https://hub.docker.com
For more examples and ideas, visit:
https://docs.docker.com/userguide/
### Step 4. Use Docker Machine to Create the Droplet
1. Run `docker-machine create` with the `digitalocean` driver and pass your key to the `--digitalocean-access-token` flag, along with a name for the new cloud server.
For this example, we'll call our new Droplet "docker-sandbox".
$ docker-machine create --driver digitalocean --digitalocean-access-token 455275108641c7716462d6f35d08b76b246b6b6151a816cf75de63c5ef918872 docker-sandbox
Running pre-create checks...
Creating machine...
(docker-sandbox) OUT | Creating SSH key...
(docker-sandbox) OUT | Creating Digital Ocean droplet...
(docker-sandbox) OUT | Waiting for IP address to be assigned to the Droplet...
Waiting for machine to be running, this may take a few minutes...
Machine is running, waiting for SSH to be available...
Detecting operating system of created instance...
Detecting the provisioner...
Provisioning created instance...
Copying certs to the local machine directory...
Copying certs to the remote machine...
Setting Docker configuration on the remote daemon...
To see how to connect Docker to this machine, run: docker-machine env docker-sandbox
When the Droplet is created, Docker generates a unique SSH key and stores it on your local system in `~/.docker/machines`. Initially, this is used to provision the host. Later, it's used under the hood to access the Droplet directly with the `docker-machine ssh` command. Docker Engine is installed on the cloud server and the daemon is configured to accept remote connections over TCP using TLS for authentication.
2. Go to the Digital Ocean console to view the new Droplet.
![Droplet in Digital Ocean created with Machine](images/ocean_droplet.png)
3. At the command terminal, run `docker-machine ls`.
$ docker-machine ls
NAME ACTIVE DRIVER STATE URL SWARM
default * virtualbox Running tcp://192.168.99.100:2376
docker-sandbox - digitalocean Running tcp://45.55.139.48:2376
Notice that the new cloud server is running but is not the active host. Our command shell is still connected to the default machine, which is currently the active host as indicated by the asterisk (*).
4. Run `docker-machine env docker-sandbox` to get the environment commands for the new remote host, then run `eval` as directed to re-configure the shell to connect to `docker-sandbox`.
$ docker-machine env docker-sandbox
export DOCKER_TLS_VERIFY="1"
export DOCKER_HOST="tcp://45.55.222.72:2376"
export DOCKER_CERT_PATH="/Users/victoriabialas/.docker/machine/machines/docker-sandbox"
export DOCKER_MACHINE_NAME="docker-sandbox"
# Run this command to configure your shell:
# eval "$(docker-machine env docker-sandbox)"
$ eval "$(docker-machine env docker-sandbox)"
5. Re-run `docker-machine ls` to verify that our new server is the active machine, as indicated by the asterisk (*) in the ACTIVE column.
$ docker-machine ls
NAME ACTIVE DRIVER STATE URL SWARM
default - virtualbox Running tcp://192.168.99.100:2376
docker-sandbox * digitalocean Running tcp://45.55.222.72:2376
6. Log in to the Droplet with the `docker-machine ssh` command.
$ docker-machine ssh docker-sandbox
Welcome to Ubuntu 14.04.3 LTS (GNU/Linux 3.13.0-71-generic x86_64)
* Documentation: https://help.ubuntu.com/
System information as of Mon Dec 21 21:38:53 EST 2015
System load: 0.77 Processes: 70
Usage of /: 11.4% of 19.56GB Users logged in: 0
Memory usage: 15% IP address for eth0: 45.55.139.48
Swap usage: 0% IP address for docker0: 172.17.0.1
Graph this data and manage this system at:
https://landscape.canonical.com/
7. Verify Docker Engine is installed correctly by running `docker run hello-world`.
ubuntu@ip-172-31-0-151:~$ sudo docker run hello-world
Unable to find image 'hello-world:latest' locally
latest: Pulling from library/hello-world
b901d36b6f2f: Pull complete
0a6ba66e537a: Pull complete
Digest: sha256:8be990ef2aeb16dbcb9271ddfe2610fa6658d13f6dfb8bc72074cc1ca36966a7
Status: Downloaded newer image for hello-world:latest
Hello from Docker.
This message shows that your installation appears to be working correctly.
. . .
You can type keyboard command Control-D or `exit` to log out of the remote server.
#### Understand the defaults and options on the create command
For convenience, `docker-machine` will use sensible defaults for choosing settings such as the image that the server is based on, but you override the defaults using the respective flags (e.g. `--digitalocean-image`). This is useful if, for example, you want to create a cloud server with a lot of memory and CPUs (by default `docker-machine` creates a small server). For a full list of the flags/settings available and their defaults, see the output of `docker-machine create -h` at the command line. See also <a href="https://docs.docker.com/machine/drivers/os-base/" target="_blank">Driver options and operating system defaults</a> and information about the <a href="https://docs.docker.com/machine/reference/create/" target="_blank">create</a> command in the Docker Machine documentation.
### Step 5. Use Docker Machine to remove the Droplet
To remove a host and all of its containers and images, first stop the machine, then use `docker-machine rm`:
$ docker-machine stop docker-sandbox
$ docker-machine rm docker-sandbox
Do you really want to remove "docker-sandbox"? (y/n): y
Successfully removed docker-sandbox
$ docker-machine ls
NAME ACTIVE DRIVER STATE URL SWARM
default * virtualbox Running tcp:////xxx.xxx.xx.xxx:xxxx
If you monitor the Digital Ocean console while you run these commands, you will see it update first to reflect that the Droplet was stopped, and then removed.
If you create a host with Docker Machine, but remove it through the cloud provider console, Machine will lose track of the server status. So please use the `docker-machine rm` command for hosts you create with `docker-machine --create`.
## Where to go next
* To learn more about options for installing Docker Engine on cloud providers, see [Understand cloud install options and choose one](cloud.md).
* To learn more about using Docker Machine to provision cloud hosts, see <a href="https://docs.docker.com/machine/get-started-cloud/" target="_blank">Using Docker Machine with a cloud provider</a>.
* To get started with Docker, see <a href="https://docs.docker.com/engine/userguide/" target="_blank"> Docker User Guide</a>.

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<!--[metadata]>
+++
title = "Choose how to install"
description = "Installation instructions for Docker on cloud."
keywords = ["cloud, docker, machine, documentation, installation"]
[menu.main]
parent = "smn_cloud"
weight=-3
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<![end-metadata]-->
# Understand cloud install options and choose one
You can install Docker Engine on any cloud platform that runs an operating system (OS) that Docker supports. This includes many flavors and versions of Linux, along with Mac and Windows.
You have two options for installing:
* Manually install on the cloud (create cloud hosts, then install Docker Engine on them)
* Use Docker Machine to provision cloud hosts
## Manually install Docker Engine on a cloud host
To install on a cloud provider:
1. Create an account with the cloud provider, and read cloud provider documentation to understand their process for creating hosts.
2. Decide which OS you want to run on the cloud host.
3. Understand the Docker prerequisites and install process for the chosen OS. See [Install Docker Engine](index.md) for a list of supported systems and links to the install guides.
4. Create a host with a Docker supported OS, and install Docker per the instructions for that OS.
[Example: Manual install on a cloud provider](cloud-ex-aws.md) shows how to create an <a href="https://aws.amazon.com/" target="_blank"> Amazon Web Services (AWS)</a> EC2 instance, and install Docker Engine on it.
## Use Docker Machine to provision cloud hosts
Docker Machine driver plugins are available for several popular cloud platforms, so you can use Machine to provision one or more Dockerized hosts on those platforms.
With Docker Machine, you can use the same interface to create cloud hosts with Docker Engine on them, each configured per the options you specify.
To do this, you use the `docker-machine create` command with the driver for the cloud provider, and provider-specific flags for account verification, security credentials, and other configuration details.
[Example: Use Docker Machine to provision cloud hosts](cloud-ex-machine-ocean.md) walks you through the steps to set up Docker Machine and provision a Dockerized host on [Digital Ocean](https://www.digitalocean.com/).
## Where to go next
* [Example: Manual install on a cloud provider](cloud-ex-aws.md) (AWS EC2)
* [Example: Use Docker Machine to provision cloud hosts](cloud-ex-machine-ocean.md) (Digital Ocean)
* [Using Docker Machine with a cloud provider](https://docs.docker.com/machine/get-started-cloud/)
* <a href="https://docs.docker.com/engine/userguide/" target="_blank"> Docker User Guide </a> (after your install is complete, get started using Docker)

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<!--[metadata]>
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title = "Installation on Google Cloud Platform"
description = "Installation instructions for Docker on the Google Cloud Platform."
keywords = ["Docker, Docker documentation, installation, google, Google Compute Engine, Google Cloud Platform"]
[menu.main]
parent = "smn_cloud"
+++
<![end-metadata]-->
# Google Cloud Platform
## QuickStart with Container-optimized Google Compute Engine images
1. Go to [Google Cloud Console][1] and create a new Cloud Project with
[Compute Engine enabled][2]
2. Download and configure the [Google Cloud SDK][3] to use your
project with the following commands:
$ curl -sSL https://sdk.cloud.google.com | bash
$ gcloud auth login
$ gcloud config set project <google-cloud-project-id>
3. Start a new instance using the latest [Container-optimized image][4]:
(select a zone close to you and the desired instance size)
$ gcloud compute instances create docker-playground \
--image container-vm \
--zone us-central1-a \
--machine-type f1-micro
4. Connect to the instance using SSH:
$ gcloud compute ssh --zone us-central1-a docker-playground
docker-playground:~$ sudo docker run hello-world
Hello from Docker.
This message shows that your installation appears to be working correctly.
...
Read more about [deploying Containers on Google Cloud Platform][5].
[1]: https://cloud.google.com/console
[2]: https://developers.google.com/compute/docs/signup
[3]: https://developers.google.com/cloud/sdk
[4]: https://developers.google.com/compute/docs/containers#container-optimized_google_compute_engine_images
[5]: https://developers.google.com/compute/docs/containers

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@ -26,12 +26,9 @@ Docker Engine is supported on Linux, Cloud, Windows, and OS X. Installation inst
If your linux distribution is not listed above, don't give up yet. To try out Docker on a distribution that is not listed above, go here: [Installation from binaries](binaries.md). If your linux distribution is not listed above, don't give up yet. To try out Docker on a distribution that is not listed above, go here: [Installation from binaries](binaries.md).
## On Cloud ## On Cloud
* [Amazon EC2 Installation](amazon.md) * [Choose how to Install](cloud.md)
* [Install on Joyent Public Cloud](joyent.md) * [Example: Manual install on a cloud provider](cloud-ex-aws.md)
* [Google Cloud Platform](google.md) * [Example: Use Docker Machine to provision cloud hosts](cloud-ex-machine-ocean.md)
* [IBM SoftLayer](softlayer.md)
* [Microsoft Azure platform](azure.md)
* [Rackspace Cloud](rackspace.md)
## On OSX and Windows ## On OSX and Windows
* [Mac OS X](mac.md) * [Mac OS X](mac.md)
@ -45,4 +42,3 @@ Instructions for installing prior releases of Docker can be found in the followi
* [About Docker](../misc/index.md) * [About Docker](../misc/index.md)
* [Support](https://www.docker.com/support/) * [Support](https://www.docker.com/support/)
* [Training](https://training.docker.com//) * [Training](https://training.docker.com//)

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<!--[metadata]>
+++
title = "Joyent Triton Elastic Container Service"
description = "Installation instructions for Docker on the Joyent's Triton Elastic Container Service."
keywords = ["Docker, Docker documentation, installation, joyent, Triton, Joyent Public Cloud, Joyent Compute Service, Joyent Container Service"]
[menu.main]
parent = "smn_cloud"
+++
<![end-metadata]-->
## Using Joyent's Triton Elastic Container Service for Docker
Joyent's Triton Elastic Container Service for Docker uses the native Docker API
and allows you to securely provision containers on bare metal. For detailed
instructions on using Joyent with Docker, see [Deploying Couchbase clusters the
easy way with Triton and
Docker](https://www.joyent.com/blog/couchbase-in-docker-containers) from Joyent.
Joyent provides a `sdc-docker-setup.sh` script that makes it easy to use Docker
with Joyent. The [Docker API guide for
Triton](https://apidocs.joyent.com/docker) has details on using this script.
Once you are up and running with Joyent, continue with the [Docker user guide](../userguide/index.md).

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<!--[metadata]>
+++
title = "Installation on Rackspace Cloud"
description = "Installation instructions for Docker on Rackspace Cloud."
keywords = ["Rackspace Cloud, installation, docker, linux, ubuntu"]
[menu.main]
parent = "smn_cloud"
+++
<![end-metadata]-->
# Rackspace Cloud
Installing Docker on Ubuntu provided by Rackspace is pretty
straightforward, and you should mostly be able to follow the
[*Ubuntu*](ubuntulinux.md#ubuntu-linux) installation guide.
**However, there is one caveat:**
If you are using any Linux not already shipping with the 3.8 kernel you
will need to install it. And this is a little more difficult on
Rackspace.
Rackspace boots their servers using grub's `menu.lst`
and does not like non `virtual` packages (e.g., Xen compatible)
kernels there, although they do work. This results in
`update-grub` not having the expected result, and
you will need to set the kernel manually.
**Do not attempt this on a production machine!**
# update apt
$ apt-get update
# install the new kernel
$ apt-get install linux-generic-lts-raring
Great, now you have the kernel installed in `/boot/`, next you need to
make it boot next time.
# find the exact names
$ find /boot/ -name '*3.8*'
# this should return some results
Now you need to manually edit `/boot/grub/menu.lst`,
you will find a section at the bottom with the existing options. Copy
the top one and substitute the new kernel into that. Make sure the new
kernel is on top, and double check the kernel and initrd lines point to
the right files.
Take special care to double check the kernel and initrd entries.
# now edit /boot/grub/menu.lst
$ vi /boot/grub/menu.lst
It will probably look something like this:
## ## End Default Options ##
title Ubuntu 12.04.2 LTS, kernel 3.8.x generic
root (hd0)
kernel /boot/vmlinuz-3.8.0-19-generic root=/dev/xvda1 ro quiet splash console=hvc0
initrd /boot/initrd.img-3.8.0-19-generic
title Ubuntu 12.04.2 LTS, kernel 3.2.0-38-virtual
root (hd0)
kernel /boot/vmlinuz-3.2.0-38-virtual root=/dev/xvda1 ro quiet splash console=hvc0
initrd /boot/initrd.img-3.2.0-38-virtual
title Ubuntu 12.04.2 LTS, kernel 3.2.0-38-virtual (recovery mode)
root (hd0)
kernel /boot/vmlinuz-3.2.0-38-virtual root=/dev/xvda1 ro quiet splash single
initrd /boot/initrd.img-3.2.0-38-virtual
Reboot the server (either via command line or console)
# reboot
Verify the kernel was updated
$ uname -a
# Linux docker-12-04 3.8.0-19-generic #30~precise1-Ubuntu SMP Wed May 1 22:26:36 UTC 2013 x86_64 x86_64 x86_64 GNU/Linux
# nice! 3.8.
Now you can finish with the [*Ubuntu*](ubuntulinux.md#ubuntu-linux)
instructions.

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<!--[metadata]>
+++
title = "Installation on IBM SoftLayer "
description = "Installation instructions for Docker on IBM Softlayer."
keywords = ["IBM SoftLayer, cloud, docker, documentation, installation"]
[menu.main]
parent = "smn_cloud"
+++
<![end-metadata]-->
# IBM SoftLayer
1. Create an [IBM SoftLayer account](
https://www.softlayer.com/cloud-servers/).
2. Log in to the [SoftLayer Customer Portal](
https://control.softlayer.com/).
3. From the *Devices* menu select [*Device List*](https://control.softlayer.com/devices)
4. Click *Order Devices* on the top right of the window below the menu bar.
5. Under *Virtual Server* click [*Hourly*](https://manage.softlayer.com/Sales/orderHourlyComputingInstance)
6. Create a new *SoftLayer Virtual Server Instance* (VSI) using the default
values for all the fields and choose:
- The desired location for *Datacenter*
- *Ubuntu Linux 12.04 LTS Precise Pangolin - Minimal Install (64 bit)*
for *Operating System*.
7. Click the *Continue Your Order* button at the bottom right.
8. Fill out VSI *hostname* and *domain*.
9. Insert the required *User Metadata* and place the order.
10. Then continue with the [*Ubuntu*](ubuntulinux.md#ubuntu-linux)
instructions.
## What next?
Continue with the [User Guide](../userguide/index.md).