Openstack adapter¶
The openstack module provides support for managing various resources on OpenStack, including virtual machines, networks, routers, …
How to use it¶
This guide explains how to start virtual machines on OpenStack.More examples can be found in the examples
folder of this repo.
Prerequisites¶
This tutorial requires you to have an account on an OpenStack. The example below loads the required credentials from environment variables, just like the OpenStack command line tools. Additionally, the following parameters are also required:
ssh_public_key : Your public ssh key (the key itself, not the name of the file it is in)
network_name : The name of the Openstack network to connect the VM to
subnet_name : The name of the Openstack subnet to connect the VM to
network_address: The network address of the subnet above
flavor_name : The name of the Openstack flavor to create the VM from
image_id : The ID of the Openstack image to boot the VM from
os : The OS of the image
Creating machines¶
The following model creates a new virtual machine. The parameters in the list above are exposed as variables at the start of the code snippet.
import openstack
import ssh
## Edit this parameters
image_id = ""
network_name = ""
subnet_name = ""
network_address = ""
flavor_name = ""
ssh_public_key=""
# change OS parameter to match the actual image. If an OS is not modelled in an existing module,
# std::linux can be used for example. However, other modules might not have support for a
# generic os definition such as std::linux
os = std::linux
## End edit
# register ssh key
ssh_key = ssh::Key(name="mykey", public_key=ssh_public_key)
# Define the OpenStack provider to use
provider = openstack::Provider(name="iaas_openstack", connection_url=std::get_env("OS_AUTH_URL"),
username=std::get_env("OS_USERNAME"),
password=std::get_env("OS_PASSWORD"),
tenant=std::get_env("OS_PROJECT_NAME"))
# Define the project/tenant to boot the VM in, but do not let inmanta manage it
project = openstack::Project(provider=provider, name=provider.tenant, description="", enabled=true,
managed=false)
# Define the network objects to connect the virtual machine to but again, do not manage them
net = openstack::Network(provider=provider, project=project, name=network_name, managed=false)
subnet = openstack::Subnet(provider=provider, project=project, network=net, dhcp=true, managed=false,
name=subnet_name, network_address=network_address)
# Define the virtual machine
vm = openstack::Host(provider=provider, project=project, key_pair=ssh_key, name="testhost",
image=image_id, os=os, flavor=flavor_name, user_data="", subnet=subnet)
Getting the agent on the machine¶
The user_data attribute of the :inmanta:entity:openstack::VirtualMachine
entity can inject a shell script that is executed
at first boot of the virtual machine (through cloud-init). Below is an example script to install
the inmanta agent (from RPM) and let it connect back to the management server.
#!/bin/bash
hostname {{ name }}
curl -1sLf \
'https://packages.inmanta.com/public/oss-stable/setup.rpm.sh' \
| sudo -E bash
dnf install -y inmanta-oss-agent
cat > /etc/inmanta/agent.cfg <<EOF
[config]
heartbeat-interval = 60
fact-expire = 60
state-dir=/var/lib/inmanta
environment={{ env_id }}
agent-names=\$node-name
[agent_rest_transport]
port={{port}}
host={{env_server}}
EOF
systemctl start inmanta-agent
systemctl enable inmanta-agent
Pushing resources to the machine¶
You can use adapters from std or other modules to manage resources on the machine. For example, we can create a config file in /tmp by adding the following lines to the model that created the virtual machine:
#put a file on the machine
std::ConfigFile(host = host1, path="/tmp/test", content="I did it!")
Actual usage¶
Creating instances of openstack::Host
, as shown above requires many parameters and relations,
creating a model that is hard to read. Often, these parameters are all the same within a single
model. This means that Inmanta can encapsulate this complexity.
In a larger model, a new Host
type can encapsulate all settings that are the same for all hosts.
Additionally, an entity that represents the infrastructure
can hold shared configuration such as
the provider, monitoring, shared networks, global parameters,…)
For example (full source here <https://github.com/inmanta/openstack/tree/master/examples/openstackclean>
_)
Applied to the example above the main file is reduced to:
import mymodule
import ssh
## Edit this parameters
image_id = ""
network_name = ""
subnet_name = ""
network_address = ""
flavor_name = ""
ssh_public_key=""
# change OS parameter to match the actual image. If an OS is not modelled in an existing module,
# std::linux can be used for example. However, other modules might not have support for a
# generic os definition such as std::linux
os = std::linux
## End edit
# register ssh key
ssh_key = ssh::Key(name="mykey", public_key=ssh_public_key)
# create the cluster
cluster = mymodule::MyCluster(network_name=network_name, subnet_name=subnet_name,
image_id=image_id, flavor=flavor_name, key=ssh_key,
network_address=network_address, os=os)
# make a vm!
host1 = mymodule::MyHost(name="testhost", cluster=cluster)
With the following module:
import openstack
import ssh
entity MyCluster:
"""
A cluster object that represents all shared config and infrastructure,
including connecting to OpenStack.
"""
string network_name
string subnet_name
string network_address
string image_id
string flavor
end
#input: the ssh key for all VMs
MyCluster.key [1] -- ssh::Key
#input: the OS for all VMs
MyCluster.os [1] -- std::OS
#internal: objects needed to construct hosts
MyCluster.provider [1] -- openstack::Provider
MyCluster.project [1] -- openstack::Project
MyCluster.net [1] -- openstack::Network
MyCluster.subnet [1] -- openstack::Subnet
implementation connection for MyCluster:
# Define the OpenStack provider to use
self.provider = openstack::Provider(name="iaas_openstack",
connection_url=std::get_env("OS_AUTH_URL"),
username=std::get_env("OS_USERNAME"),
password=std::get_env("OS_PASSWORD"),
tenant=std::get_env("OS_PROJECT_NAME"))
# Define the project/tenant to boot the VM in, but do not let inmanta manage it
self.project = openstack::Project(provider=self.provider, name=self.provider.tenant,
description="", enabled=true, managed=false)
# Define the network objects to connect the virtual machine to but again, do not manage them
self.net = openstack::Network(provider=self.provider, project=self.project,
name=self.network_name, managed=false)
self.subnet = openstack::Subnet(provider=self.provider, project=self.project,
network=self.net, dhcp=true, name=self.subnet_name,
network_address=self.network_address, managed=false)
end
implement MyCluster using connection
#define our own host type
entity MyHost extends openstack::Host:
end
#input: the cluster object
MyCluster.hosts [0:] -- MyHost.cluster [1]
implementation myhost for MyHost:
#wire up all config for agent injection
env_name = std::environment_name()
env_id = std::environment()
env_server = std::environment_server()
port = std::server_port()
#wire up all config for vm creation
self.provider = cluster.provider
self.project = cluster.project
self.image = cluster.image_id
self.subnet = cluster.subnet
self.user_data = std::template("mymodule/user_data.tmpl")
self.key_pair = cluster.key
self.os = cluster.os
self.flavor = cluster.flavor
end
# use our implemenation
# and also the catchall std::hostDefaults
# and the openstackVM implementation that sets the ip and create the eth0 port
implement MyHost using myhost, std::hostDefaults, openstack::openstackVM, openstack::eth0Port
If this were not an example, we would make the following changes:
hardcode the
image_id
andos
(and perhapsflavor
) into the defintion ofmyhost
.the parameters on top would be moved to either an lsm service or filled in directly into the constructor.
use
std::password
to store passwords, to prevent accidential check-ins with passwords in the source