JSON parsing Linux Network Namespace (netns) topology builder.
From PyPI:
pip install json2netns
From GitHub:
pip install git+git://github.com/cooperlees/json2netns
- What is a Linux Namespace - aka NetNS?
- WHat is JSON?
The script takes a JSON config file and drives namespace creation from that JSON toplogy file. Lets look at the following simple two network namespace topology:
We have two namespaces that have 1 direct connection via a veth. It also has a OOB (Out of Band) set of interfaces that allow the main Linux Network Namespace to communicate with the netns directly.
- By default it even bridges with a physical interface to allow external packets to be routed into the netns if desired from a physical NIC.
The above topology is represented by sample.json. This config is also used by unittests to ensure correct functioning. We can add to it over time as users require more features.
{
"namespaces": {
"left": {
"id": 1,
"interfaces": {
"left0": {
"prefixes": ["fd00::1/64", "10.1.1.1/24"],
"peer_name": "right0",
"type": "veth"
},
"lo": {
"prefixes": ["fd00:1::/64", "10.6.9.1/32"],
"type": "loopback"
}
},
"oob": false,
"routes": {
"route1": {
"dest_prefix" : "10.6.9.6/32",
"next_hop_ip" : "10.1.1.2",
"egress_if_name" : ""
},
"route2": {
"dest_prefix" : "fd00:6::/64",
"next_hop_ip" : "fd00::2",
"egress_if_name" : ""
}
}
}
},
"oob": {},
"physical_int": ""
}
After installing just point json2netns
at a valid config file and run as
root (in the future we could make it capability aware too - PR Welcome!).
- usage: json2netns [-h] [-d] [--validate] [--workers WORKERS] config action
- create: Create the interfaces and namespaces + bring interfaces up
- check: Print the interface addressing + v4/6 routing tables to stdout
- delete: Remove the namespaces and all interfaces
The code has attempted to be object oriented first. Please try to use inheritance and keep new interface types sub classes of Interface etc. for all code additions.
python3 -m venv [--upgrade-deps] /tmp/tj
/tmp/tj/bin/pip install -r requirements_test.txt
/tmp/tj/bin/pip install -e .
For testing we use ptr.
/tmp/tj/bin/ptr [-k] [--print-cov] [--debug]
-k
: keep venv ptr creates--print-cov
: handy to see what coverage is on all files--debug
: Handy to see all commands run so you can run a step manually