Creating your own VNF charm (Release ONE): Difference between revisions
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====Layers==== | ====Layers==== | ||
Layers are individual components that, when combined, result in a finished product. The diagram below describes what our example ''pingpong'' charm looks like, followed by a walkthrough of how it is built. The completed charm is available in the [https://osm.etsi.org/gitweb/?p=osm/juju-charms.git;a=summary juju-charms] repository. | |||
<nowiki> | |||
+------------------+ | |||
| | | |||
| Layers | | |||
| | | |||
| +------------+ | | |||
| | | | | |||
| | Base | | | |||
| | | | | |||
| +------+-----+ | | |||
| | | | |||
| +------v-----+ | | |||
| | | | | |||
| | sshproxy | | +-----------------+ | |||
| | | | | | | |||
| +------+-----+ | | pingpong | | |||
| | +------------> | | |||
| +------v-----+ | | charm | | |||
| | | | | | | |||
| | vnfproxy | | +-----------------+ | |||
| | | | | |||
| +------+-----+ | | |||
| | | | |||
| +------v-----+ | | |||
| | | | | |||
| | pingpong | | | |||
| | | | | |||
| +------------+ | | |||
| | | |||
+------------------+ | |||
</nowiki> | |||
Create the layer for your proxy charm: | Create the layer for your proxy charm: | ||
Line 86: | Line 120: | ||
- layer:vnfproxy | - layer:vnfproxy | ||
</nowiki> | </nowiki> | ||
The ''[https://jujucharms.com/docs/stable/authors-charm-metadata metadata.yaml]'' file describes what your charm is and sets certain properties used by Juju. | |||
<nowiki> | |||
name: pingpong | |||
summary: A service to test latency between machines. | |||
maintainer: Adam Israel <adam.israel@canonical.com> | |||
description: | | |||
The pingpong charm manages the pingpong vnfd deployed by Open Source Mano. | |||
tags: | |||
- nfv | |||
subordinate: false | |||
series: | |||
- trusty | |||
- xenial | |||
</nowiki> | |||
This means that your charm will include the basic layer, required for all charms, and the vnfproxy layer, which has been designed to aid in the development in proxy charms by implementing common functionality. | This means that your charm will include the basic layer, required for all charms, and the vnfproxy layer, which has been designed to aid in the development in proxy charms by implementing common functionality. | ||
Line 131: | Line 182: | ||
</nowiki> | </nowiki> | ||
For each action, we need to create a script to invoke the | For each action, we need to create a script to invoke the reactive framework. This is a boilerplate script that will be used for every action. The first step is to create the first action script and make it executable. | ||
<nowiki> | |||
cat <<'EOF' >> actions/set-server | |||
#!/usr/bin/env python3 | |||
import sys | |||
sys.path.append('lib') | |||
from charms.reactive import main | |||
from charms.reactive import set_state | |||
from charmhelpers.core.hookenv import action_fail, action_name | |||
""" | |||
`set_state` only works here because it's flushed to disk inside the `main()` | |||
loop. remove_state will need to be called inside the action method. | |||
""" | |||
set_state('actions.{}'.format(action_name())) | |||
try: | |||
main() | |||
except Exception as e: | |||
action_fail(repr(e)) | |||
EOF | |||
chmod +x actions/run | |||
</nowiki> | |||
Next, copy this script for the remaining actions: | |||
<nowiki> | <nowiki> | ||
cp actions/set-server actions/set-rate | |||
cp actions/set-server actions/get-stats | |||
cp actions/set-server actions/set-state | |||
cp actions/set-server actions/get-rate | |||
cp actions/set-server actions/get-server | |||
</nowiki> | |||
The last step is to map the action to the command(s) to be run. To do this, open up reactive/pingpong.py and add this code. | |||
<nowiki> | |||
@when('actions.set-server') | |||
def set_server(): | |||
err = '' | |||
try: | |||
cmd = "" | |||
result, err = charms.sshproxy._run(cmd) | |||
except: | |||
action_fail('command failed:' + err) | |||
else: | |||
action_set({'outout': result}) | |||
finally: | |||
remove_flag('actions.set-server') | |||
</nowiki> | </nowiki> | ||
The reactive framework, coupled with the script in the ''actions/'' directory, maps the SO's invocation of the action to the block of code with the matching ''@when'' decorator. As demonstrated in the above code, it will execute a command via the ssh (configured automatically by the SO). You could replace with with calls to a REST API or any other RPC method. You can also run code against the LXD container running the charm. | |||
====Building==== | ====Building==== | ||
When you're ready, you can create your charm via the ''charm build'' command: | |||
<nowiki> | |||
$ charm build | |||
build: Composing into /home/stone/charms | |||
build: Destination charm directory: /home/stone/charms/builds/pingpong | |||
build: Please add a `repo` key to your layer.yaml, with a url from which your layer can be cloned. | |||
build: Processing layer: layer:basic | |||
build: Processing layer: layer:sshproxy | |||
build: Processing layer: layer:vnfproxy | |||
build: Processing layer: pingpong | |||
</nowiki> | |||
This combines all layers that you included, and those that they include, into a charm called ''pingpong'', located in the ''~/charms/builds'' directory. | |||
====VNF Descriptor==== | |||
In your Virtual Network Function Descriptor (VNFD), you specify the name of the charm as demonstrated below: | |||
<nowiki> | |||
vnfd:vnfd-catalog: | |||
vnfd:vnfd: | |||
- vnfd:id: rift_pong_vnf | |||
vnfd:name: pong_vnf | |||
vnfd:vnf-configuration: | |||
vnfd:juju: | |||
vnfd:charm: pingpong | |||
</nowiki> | |||
Then the compiled charm (from the builds directory) has to be packaged with the descriptor package under the charm directory. So the ping VNF with the charm would be: | |||
<nowiki> | |||
ping_vnf | |||
├── charms | |||
│ └── pingpong | |||
├── checksums.txt | |||
├── icons | |||
├── images | |||
├── ping_vnfd.yaml | |||
├── README | |||
└── scripts | |||
</nowiki> |
Latest revision as of 15:23, 5 December 2017
Creating a VNF proxy charm
What is a charm
A charm is a collection of scripts and metadata that encapsulate the distilled DevOps knowledge of experts in a particular product. These charms make it easy to reliably and repeatedly deploy applications, then scale them as required with minimal effort.
Driven by Juju, these charms manage the complete lifecycle of the application, including installation, configuration, clustering, and scaling.
What is a proxy charm
OSM Release One supports a limited version of charms that we call "proxy charms". These charms is responsible for doing Day 1 configuration. Configurations are mapped to Juju Actions which manage configuration within the VNFD qcow2 image (over SSH, via RESTful API, etc).
The diagram below illustrates the OSM workflow:
+---------------------+ +---------------------+ | <----+ | | Resource | | Service | | Orchestrator (RO) +----> Orchestrator (SO) | | | | | +------------------+--+ +-------+----^--------+ | | | | | | | | | +-----v-----+ +-v----+--+ | <-------+ | | Virtual | | Proxy | | Machine | | Charm | | +-------> | +-----------+ +---------+
The SO directs the RO to create a virtual machine using the selected VNF image. When that has successfully completed, the SO will instantiate a LXD container, managed by Juju, with the proxy charm. The proxy charm will then communicate with the VNF virtual machine to do Day 1 configuration.
Creating a proxy charm
Setup
If you are running Ubuntu, you can install the latest Juju via its stable PPA:
sudo add-apt-repository ppa:juju/stable sudo apt update sudo apt install juju
Otherwise, you can install the latest release for CentOS, OS X, or Windows.
Once Juju is installed, there are a few steps to prepare for writing your charm.
mkdir -p ~/charms/layers export JUJU_REPOSITORY=~/charms export LAYER_PATH=$JUJU_REPOSITORY/layers cd $LAYER_PATH
Layers
Layers are individual components that, when combined, result in a finished product. The diagram below describes what our example pingpong charm looks like, followed by a walkthrough of how it is built. The completed charm is available in the juju-charms repository.
+------------------+ | | | Layers | | | | +------------+ | | | | | | | Base | | | | | | | +------+-----+ | | | | | +------v-----+ | | | | | | | sshproxy | | +-----------------+ | | | | | | | +------+-----+ | | pingpong | | | +------------> | | +------v-----+ | | charm | | | | | | | | | vnfproxy | | +-----------------+ | | | | | +------+-----+ | | | | | +------v-----+ | | | | | | | pingpong | | | | | | | +------------+ | | | +------------------+
Create the layer for your proxy charm:
charm create pingpong cd pingpong
This will create a charm layer ready for customization:
. ├── config.yaml ├── icon.svg ├── layer.yaml ├── metadata.yaml ├── reactive │ └── pingpong.py ├── README.ex └── tests ├── 00-setup └── 10-deploy
Next, modify layers.yaml to the following:
includes: - layer:basic - layer:vnfproxy
The metadata.yaml file describes what your charm is and sets certain properties used by Juju.
name: pingpong summary: A service to test latency between machines. maintainer: Adam Israel <adam.israel@canonical.com> description: | The pingpong charm manages the pingpong vnfd deployed by Open Source Mano. tags: - nfv subordinate: false series: - trusty - xenial
This means that your charm will include the basic layer, required for all charms, and the vnfproxy layer, which has been designed to aid in the development in proxy charms by implementing common functionality.
Actions
There are three pieces that make up an action: actions.yaml, which define an action, the actions/ directory where we'll place a small script that invokes the reactive framework, and the python code in reactive/pingpong.py that performs said action.
In actions.yaml, we define the actions we wish to support:
set-server: description: "Set the target IP address and port" params: server-ip: description: "IP on which the target service is listening." type: string default: "" server-port: description: "Port on which the target service is listening." type: integer default: 5555 required: - server-ip set-rate: description: "Set the rate of packet generation." params: rate: description: "Packet rate." type: integer default: 5 get-stats: description: "Get the stats." get-state: description: "Get the admin state of the target service." get-rate: description: "Get the rate set on the target service." get-server: description: "Get the target server and IP set"
mkdir actions/
For each action, we need to create a script to invoke the reactive framework. This is a boilerplate script that will be used for every action. The first step is to create the first action script and make it executable.
cat <<'EOF' >> actions/set-server #!/usr/bin/env python3 import sys sys.path.append('lib') from charms.reactive import main from charms.reactive import set_state from charmhelpers.core.hookenv import action_fail, action_name """ `set_state` only works here because it's flushed to disk inside the `main()` loop. remove_state will need to be called inside the action method. """ set_state('actions.{}'.format(action_name())) try: main() except Exception as e: action_fail(repr(e)) EOF chmod +x actions/run
Next, copy this script for the remaining actions:
cp actions/set-server actions/set-rate cp actions/set-server actions/get-stats cp actions/set-server actions/set-state cp actions/set-server actions/get-rate cp actions/set-server actions/get-server
The last step is to map the action to the command(s) to be run. To do this, open up reactive/pingpong.py and add this code.
@when('actions.set-server') def set_server(): err = '' try: cmd = "" result, err = charms.sshproxy._run(cmd) except: action_fail('command failed:' + err) else: action_set({'outout': result}) finally: remove_flag('actions.set-server')
The reactive framework, coupled with the script in the actions/ directory, maps the SO's invocation of the action to the block of code with the matching @when decorator. As demonstrated in the above code, it will execute a command via the ssh (configured automatically by the SO). You could replace with with calls to a REST API or any other RPC method. You can also run code against the LXD container running the charm.
Building
When you're ready, you can create your charm via the charm build command:
$ charm build build: Composing into /home/stone/charms build: Destination charm directory: /home/stone/charms/builds/pingpong build: Please add a `repo` key to your layer.yaml, with a url from which your layer can be cloned. build: Processing layer: layer:basic build: Processing layer: layer:sshproxy build: Processing layer: layer:vnfproxy build: Processing layer: pingpong
This combines all layers that you included, and those that they include, into a charm called pingpong, located in the ~/charms/builds directory.
VNF Descriptor
In your Virtual Network Function Descriptor (VNFD), you specify the name of the charm as demonstrated below:
vnfd:vnfd-catalog: vnfd:vnfd: - vnfd:id: rift_pong_vnf vnfd:name: pong_vnf vnfd:vnf-configuration: vnfd:juju: vnfd:charm: pingpong
Then the compiled charm (from the builds directory) has to be packaged with the descriptor package under the charm directory. So the ping VNF with the charm would be:
ping_vnf ├── charms │ └── pingpong ├── checksums.txt ├── icons ├── images ├── ping_vnfd.yaml ├── README └── scripts