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author | Micah Anderson <micah@riseup.net> | 2013-07-09 16:43:39 +0100 |
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committer | Micah Anderson <micah@riseup.net> | 2013-07-09 16:43:39 +0100 |
commit | b4077083b971377636754b2988668a6ddd384da5 (patch) | |
tree | b8e358b5f0f6dfa882d31d7446266111bc0d201b /doc/quick-start.md | |
parent | 625aaa11138bba365958391664299692402f8da4 (diff) | |
parent | 672154a8322901b86c9882854234eae53221a38e (diff) |
Merge remote-tracking branch 'origin/develop'0.2.2
Conflicts:
provider_base/services/webapp.json
Diffstat (limited to 'doc/quick-start.md')
-rw-r--r-- | doc/quick-start.md | 245 |
1 files changed, 245 insertions, 0 deletions
diff --git a/doc/quick-start.md b/doc/quick-start.md new file mode 100644 index 00000000..5ba28f8d --- /dev/null +++ b/doc/quick-start.md @@ -0,0 +1,245 @@ +@title = 'LEAP Platform Quick Start' +@nav_title = 'Quick Start' + +This tutorial walks you through the initial process of creating and deploying a service provider running the [LEAP platform](platform). First examples aim to build a provider in a virtual environment, and in the end running in real hardware is targeted. + +First, a few definitions: + +* **node:** A server that is part of the service provider's infrastructure. All nodes are running the Debian GNU/Linux operating system. +* **sysadmin:** This is you. +* **sysadmin machine:** Your desktop or laptop computer that you use to control the nodes. This machine can be running any variant of Unix, Linux, or Mac OS (however, only Debian derivatives are supported at the moment). + +All the commands in this tutorial are run on your sysadmin machine. In order to complete the tutorial, the sysadmin machine must: + +* Be a real machine with virtualization support in the CPU (VT-x or AMD-V). In other words, not a virtual machine. +* Have at least 4gb of RAM. +* Have a fast internet connection (because you will be downloading a lot of big files, like virtual machine images). + +Install prerequisites +-------------------------------- + +*Debian & Ubuntu* + +Install core prerequisites: + + sudo apt-get install git ruby ruby-dev rsync openssh-client openssl rake make + +Install Vagrant in order to be able to test with local virtual machines (typically optional, but required for this tutorial): + + sudo apt-get install vagrant virtualbox + +<!-- +*Mac OS* + +1. Install rubygems from https://rubygems.org/pages/download (unless the `gem` command is already installed). +2. Install Vagrant.dmg from http://downloads.vagrantup.com/ +--> + +Install leap +--------------------- + +<!--Install the `leap` command as a gem: + + sudo gem install leap_cli + +Alternately, you can install `leap` from source: + + git clone git://leap.se/leap_cli.git + cd leap_cli + rake build +--> + +Install `leap` command from source: + + git clone git://leap.se/leap_cli.git + cd leap_cli + rake build + +Then, install as root user (recommended): + + sudo rake install + +Or, install as unprivileged user: + + rake install + # watch out for the directory leap is installed to, then i.e. + sudo ln -s ~/.gem/ruby/1.9.1/bin/leap /usr/local/bin/leap + +With both methods, you can use now /usr/local/bin/leap, which in most cases will be in your $PATH. + + +Create a provider instance +--------------------------------------- + +A provider instance is a directory tree, usually stored in git, that contains everything you need to manage an infrastructure for a service provider. In this case, we create one for bitmask.net and call the instance directory 'bitmask'. + + mkdir -p ~/leap/bitmask + +Now, we will initialize this directory to make it a provider instance. Your provider instance will need to know where it can find local copy of the git repository leap_platform, which holds the puppet recipes you will need to manage your servers. Typically, you will not need to modify leap_platform. + + cd ~/leap/bitmask + leap new . + +The `leap new` command will ask you for several required values: + +* domain: The primary domain name of your service provider. In this tutorial, we will be using "bitmask.net". +* name: The name of your service provider. +* contact emails: A comma separated list of email addresses that should be used for important service provider contacts (for things like postmaster aliases, Tor contact emails, etc). +* platform: The directory where you have a copy of the `leap_platform` git repository checked out. If it doesn't exist, it will be downloaded for you. + +You may want to poke around and see what is in the files we just created. For example: + + cat provider.json + +Optionally, commit your provider directory using the version control software you fancy. For example: + + git init + git add . + git commit -m "initial commit" + +Now add yourself as a privileged sysadmin who will have access to deploy to servers: + + leap add-user --self + +NOTE: in most cases, `leap` must be run from within a provider instance directory tree (e.g. ~/leap/bitmask). + +Now generate required X509 certificates and keys: + + leap cert ca + leap cert csr + +To see details about the keys and certs that the prior two commands created, you can use `leap inspect` like so: + + leap inspect files/ca/ca.crt + + +Edit provider.json configuration +-------------------------------------- + +There are a few required settings in provider.json. At a minimum, you must have: + + { + "domain": "bitmask.net", + "name": "Bitmask", + "contacts": { + "default": "email1@domain.org, email2@domain.org" + } + } + +For a full list of possible settings, you can use `leap inspect` to see how provider.json is evaluated after including the inherited defaults: + + leap inspect provider.json + +Create nodes +--------------------- + +A "node" is a server that is part of your infrastructure. Every node can have one or more services associated with it. Some nodes are "local" and used only for testing. These local nodes exist only as virtual machines on your computer and cannot be accessed from outside (see `leap help local` for more information). + +Create a local node, with the service "webapp": + + leap node add --local web1 services:webapp + +This created a node configuration file in `nodes/web1.json`, but it did not create the virtual machine. In order to test our node "web1", we need to first spin up a virtual machine. The next command will probably take a very long time, because it will need to download a VM image (about 700mb). + + leap local start + +Now that the virtual machine for web1 is running, you need to initialize it and then deploy the recipes to it. You only need to initialize a node once, but there is no harm in doing it multiple times. These commands will take a while to run the first time, as it needs to update the package cache on the new virtual machine. + + leap node init web1 + leap deploy web1 + +That is it, you should now have your first running node. However, the LEAP web application requires a database to run, so let's add a "couchdb" node: + + leap node add --local db1 services:couchdb + leap local start + leap node init db1 + leap deploy db1 + +Access the web application +-------------------------------------------- + +You should now have two local virtual machines running, one for the web application and one for the database. In order to connect to the web application in your browser, you need to point your domain at the IP address of the web application node (named web1 in this example). + +There are a lot of different ways to do this, but one easy way is to modify your `/etc/hosts` file. First, find the IP address of the webapp node: + + leap list webapp --print ip_address + +Then modify `/etc/hosts` like so: + + 10.5.5.47 DOMAIN + +Replacing 'DOMAIN' with whatever you specified as the `domain` in the `leap new` command. + +Next, you can connect to the web application either using a web browser or via the API using the LEAP client. To use a browser, connect to https://DOMAIN. Your browser will complain about an untrusted cert, but for now just bypass this. From there, you should be able to register a new user and login. + +What is going on here? +-------------------------------------------- + +First, some background terminology: + +* **puppet**: Puppet is a system for automating deployment and management of servers (called nodes). +* **hiera files**: In puppet, you can use something called a 'hiera file' to seed a node with a few configuration values. In LEAP, we go all out and put *every* configuration value needed for a node in the hiera file, and automatically compile a custom hiera file for each node. + +When you run `leap deploy`, a bunch of things happen, in this order: + +1. **Compile hiera files**: The hiera configuration file for each node is compiled in YAML format and saved in the directory `hiera`. The source material for this hiera file consists of all the JSON configuration files imported or inherited by the node's JSON config file. +* **Copy required files to node**: All the files needed for puppet to run are rsync'ed to each node. This includes the entire leap_platform directory, as well as the node's hiera file and other files needed by puppet to set up the node (keys, binary files, etc). +* **Puppet is run**: Once the node is ready, leap connects to the node via ssh and runs `puppet apply`. Puppet is applied locally on the node, without a daemon or puppetmaster. + +You can run `leap -v2 deploy` to see exactly what commands are being executed. + +<!-- See [under the hood](under-the-hood) for more details. --> + +Additional commands +------------------------------------------- + +Here are a few useful commands you can run on your new local nodes: + +* `leap ssh web1` -- SSH into node web1 (requires `leap node init web1` first). +* `leap list` -- list all nodes. +* `leap list --print ip_address` -- list a particular attribute of all nodes. +* `leap local reset web1` -- return web1 to a pristine state. +* `leap local stop` -- stop all local virtual machines. +* `leap local status` -- get the running state of all the local virtual machines. +* `leap cert update` -- generate new certificates if needed. + +See the full command reference for more information. + +Node filters +------------------------------------------- + +Many of the `leap` commands take a "node filter". You can use a node filter to target a command at one or more nodes. + +A node filter consists of one or more keywords, with an optional "+" before each keyword. + +* keywords can be a node name, a service type, or a tag. +* the "+" before the keyword constructs an AND condition +* otherwise, multiple keywords together construct an OR condition + +Examples: + +* `leap list openvpn` -- list all nodes with service openvpn. +* `leap list openvpn +production` -- only nodes of service type openvpn AND tag production. +* `leap deploy webapp openvpn` -- deploy to all webapp OR openvpn nodes. +* `leap node init vpn1` -- just init the node named vpn1. + +Running on real hardware +----------------------------------- + +The steps required to initialize and deploy to nodes on the public internet are basically the same as we have seen so far for local testing nodes. There are a few key differences: + +* Obviously, you will need to acquire a real or virtual machine that you can SSH into remotely. +* When creating the node configuration, you should give it the tag "production" if the node is to be used in your production infrastructure. +* When creating the node configuration, you need to specify the IP address of the node. + +For example: + + leap node add db1 tags:production services:couchdb ip_address:4.4.4.4 + +Also, running `leap node init NODE_NAME` on a real server will prompt you to verify the fingerprint of the SSH host key and to provide the root password of the server NODE_NAME. You should only need to do this once. + +What's next +----------------------------------- + +Read the [LEAP platform guide](guide) to learn about planning and securing your infrastructure. + |