cloudless 0.0.2

The cloudless infrastructure project.

Cloudless

Cloudless makes it easier to interact with cloud resources by doing most of the work that a human doesn't need to care about for you, and by being transparent about what it's doing.

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Installation

This project depends on Python 3.6.0 or greater. To install, run:

pip3 install cloudless

Quick Start

These examples show how to quickly create a simple service that is accessible on port 80 in Google Compute Engine and in Amazon Web Services. Run any command with --help for more usage.

Google Compute Engine

To set up the Google Compute Engine client, you must first create your Google Compute Engine account and navigate to https://console.cloud.google.com/iam-admin/serviceaccounts. There you can select your project and create a service account. Remember the service account email and create a key for this service account. Download and save this key on your local machine, remembering the path.

You will also need the project ID (not the project name). Go to https://console.cloud.google.com/iam-admin/settings/project and select your project to find your project ID.

cldls init --provider gce
cldls network create example-blueprints/network/blueprint.yml
cldls service create mynet myservice example-blueprints/gce-apache/blueprint.yml
cldls paths allow_external mynet myservice 0.0.0.0/0 80
cldls service get mynet myservice
# Navigate to the "public_ip" of each instance in a browser to see the service.

Amazon Web Services

To set up the Amazon Web Services client, follow the steps at https://docs.aws.amazon.com/cli/latest/userguide/cli-chap-getting-started.html to configure the aws cli. Currently, cloudless only uses the "default" aws profile that is configured in this way. After you set up a default profile that works with the AWS cli, everything in cloudless should work.

cldls init --provider aws
cldls network create mynet example-blueprints/network/blueprint.yml
cldls service create mynet myservice example-blueprints/aws-nginx/blueprint.yml
cldls paths allow_external mynet myservice 0.0.0.0/0 80
cldls service get mynet myservice
# Navigate to the "public_ip" of each instance in a browser to see the service.

Client Setup In Python API

In the Python API, you must create a client object to connect to the cloud platform that you'll be working with. The client handles authentication with the cloud provider, so you must pass it the name of the provider and the authentication credentials.

If you are trying this project for the first time, it's recommended that you use the "mock-aws" client.

Google Compute Engine Client

To use the Google Compute Engine client, you must create a service account and download the credentials locally. Because this provider is implemented using Apache Libcloud, you can refer to the Google Compute Engine Driver Setup documentation in that project for more details.

When you have the credentials, you can do something like this, preferably in a dotfile you don't commit to version control. Note the credentials file is in JSON format:

export BUTTER_GCE_USER_ID="sverch-cloudless@cloudless-000000.iam.gserviceaccount.com"
export BUTTER_GCE_CREDENTIALS_PATH="/home/sverch/.gce/credentials.json"
export BUTTER_GCE_PROJECT_NAME="cloudless-000000"

Then, you can run these commands in a python shell to create a GCE client:

import cloudless
import os
client = cloudless.Client("gce", credentials={
    "user_id": os.environ['BUTTER_GCE_USER_ID'],
    "key": os.environ['BUTTER_GCE_CREDENTIALS_PATH'],
    "project": os.environ['BUTTER_GCE_PROJECT_NAME']})

Amazon Web Services Client

Currently no credentials can be passed in as arguments for the AWS provider (they are ignored). However this provider is implemented with Boto, which looks in many other places for the credentials, so you can configure them in other ways. See the boto3 credential setup documentation for more details.

Once you have set up your credentials, you can run the following to create an AWS client:

import cloudless
client = cloudless.Client("aws", credentials={})

Mock Amazon Web Services Client

The Mock AWS client is for demonstration and testing. Since it is all running locally, you don't need any credentials. Simply run:

import cloudless
client = cloudless.Client("mock-aws", credentials={})

Architecture

There are only three objects in Cloudless: A Network, a Service, and a Path. This is an example that shows a Network dev, a public_load_balancer Service, an internal_service Service, a Path from the internet to public_load_balancer on port 443, and a Path from public_load_balancer to internal_service on port 80. See the visualization section for how to generate this graph.

Network

A Network is the top level container for everything else. To create a new network, run:

dev_network = client.network.create("dev")

This will return the "Network" object that describes the network that was created. You can retrieve an existing network or list all existing networks by running:

dev_network = client.network.get("dev")
all_networks = client.network.list()

Finally, to destroy a network:

client.network.destroy(dev_network)

Create should use sane defaults, but if you need to do something special see docs/network-configuration.md.

In ipython, you can run <object>? to get help on any object, for example client.network.create?.

Service

A Service a logical group of instances and whatever resources are needed to support them (subnetworks, firewalls, etc.).

To create a Service, you must first define a configuration file called a "blueprint" that specifies how the service should be configured. This is an example of what a Service blueprint might look like:

---
network:
  subnetwork_max_instance_count: 768

placement:
  availability_zones: 3

instance:
  public_ip: True
  memory: 4GB
  cpus: 1
  gpu: false
  disks:
    - size: 8GB
      type: standard
      device_name: /dev/sda1

image:
  name: "ubuntu/images/hvm-ssd/ubuntu-xenial-16.04-amd64-server-*"

initialization:
  - path: "haproxy-cloud-config.yml"
    vars:
      PrivateIps:
        required: true

The "network" section tells Cloudless to create subnetworks for this service big enough for 768 instances.

The "placement" section tells Cloudless to ensure instances in this service are provisioned across three availaibility zones (which most cloud providers guarantee are meaningfully isolated from each other for resilience).

The "instance" section describes the resource reqirements of each instance. Cloudless will automatically choose a instance type that meets these requirements.

The "image" section represents the name of the image you want your instances to have. In this case, we are using an image name only found in AWS by default, so this example will only work there. See example-blueprints/gce-apache for a GCE example blueprint.

The "initialization" section describes startup scripts that you want to run when the instance boots. You may also pass in variables, which will get passed to the given file as jinja2 template arguments. This is a good place to specify environment specific configuration, so your base image can stay the same across environments.

Once you have the blueprint, the example below shows how you could use it. These examples create a group of private instances and then create some HAProxy instances in front of those instances to balance load. Note that many commands take dev_network as the first argument. That's the same network object returned by the network commands shown above.

internal_service = client.service.create(dev_network, "private",
                                         blueprint="example-blueprints/aws-nginx/blueprint.yml")
private_ips = [instance.private_ip for instance in client.service.get_instances(internal_service)]
load_balancer_service = client.service.create(dev_network, "public",
                                              blueprint="example-blueprints/aws-haproxy/blueprint.yml",
                                              template_vars={"PrivateIps": private_ips})
internal_service = client.service.get(dev_network, "public")
load_balancer_service client.service.get(dev_network, "private")
client.service.list()
client.service.destroy(internal_service)
client.service.destroy(load_balancer_service)

There is another example blueprint that works with GCE if you created the GCE client above:

client.instances.create(dev_nework, "public", blueprint="example-blueprints/gce-apache/blueprint.yml")

Path

The Path is how you tell Cloudless that two services should be able to communicate. No blueprint is needed for this, but you need to have the service objects you created earlier. This example adds a path from the load balancer to the internal service on port 80 and makes the load balancer internet accessible on port 443:

from cloudless.types.networking import CidrBlock
internet = CidrBlock("0.0.0.0/0")
client.paths.add(load_balancer_service, internal_service, 80)
client.paths.add(internet, load_balancer_service, 443)

You can check whether things have access to other things or print out all paths with the following functions:

client.paths.has_access(load_balancer_service, internal_service, 80)
client.paths.internet_accessible(load_balancer_service, 443)
client.paths.internet_accessible(internal_service, 443)
client.paths.list()
print(client.graph())

Visualization

Get a summary in the form of a graphviz compatible dot file by running:

client.graph()

To generate the vizualizations, run:

cd ui && env PROVIDER=<provider> bash graph.sh

And open ui/graph.html in a browser. Note this won't work for the mock-aws provider since it will be running in a different process.

Blueprint Tester

This project also provides a framework to help test that blueprint files work as expected.

Example (cloudless must be installed):

cloudless-test --provider aws --blueprint_dir example-blueprints/haproxy run

Run cloudless-test with no arguments for usage.

This runner tries to import blueprint_fixture.BlueprintTest from the root of your blueprint directory. This must be a class that inherits from cloudless.testutils.fixture.BlueprintTestInterface and implements all the required methods. See the documentation on that class for usage details.

The runner expects the blueprint file that you are testing to be name blueprint.yml in the blueprint directory.

See example-blueprints for all examples.

Testing

To run the local tests run:

pipenv install --dev
tox

To run tests against GCE and AWS, run:

tox -e gce
tox -e aws

For GCE, you must set BUTTER_GCE_USER_ID, BUTTER_GCE_CREDENTIALS_PATH, and BUTTER_GCE_PROJECT_NAME as described above.