Northbound gRPC
To enable gRPC support one needs to add –enable-grpc when running configure. Additionally, when launching each daemon one needs to request the gRPC module be loaded and which port to bind to. This can be done by adding -M grpc:<port> to the daemon’s CLI arguments.
Currently there is no gRPC “routing” so you will need to bind your gRPC channel to the particular daemon’s gRPC port to interact with that daemon’s gRPC northbound interface.
The minimum version of gRPC known to work is 1.16.1.
Programming Language Bindings
The gRPC supported programming language bindings can be found here: https://grpc.io/docs/languages/
After picking a programming language that supports gRPC bindings, the next step is to generate the FRR northbound bindings. To generate the northbound bindings you’ll need the programming language binding generator tools and those are language specific.
C++ Example
The next sections will use C++ as an example for accessing FRR northbound through gRPC.
Generating C++ FRR Bindings
Generating FRR northbound bindings for C++ example:
# Install gRPC (e.g., on Ubuntu 20.04)
sudo apt-get install libgrpc++-dev libgrpc-dev
mkdir /tmp/frr-cpp
cd grpc
protoc --cpp_out=/tmp/frr-cpp \
--grpc_out=/tmp/frr-cpp \
-I $(pwd) \
--plugin=protoc-gen-grpc=`which grpc_cpp_plugin` \
frr-northbound.proto
Using C++ To Get Version and Interfaces State
Below is a sample program to print all interfaces discovered.
# test.cpp
#include <string>
#include <sstream>
#include <grpc/grpc.h>
#include <grpcpp/create_channel.h>
#include "frr-northbound.pb.h"
#include "frr-northbound.grpc.pb.h"
int main() {
frr::GetRequest request;
frr::GetResponse reply;
grpc::ClientContext context;
grpc::Status status;
auto channel = grpc::CreateChannel("localhost:50051",
grpc::InsecureChannelCredentials());
auto stub = frr::Northbound::NewStub(channel);
request.set_type(frr::GetRequest::ALL);
request.set_encoding(frr::JSON);
request.set_with_defaults(true);
request.add_path("/frr-interface:lib");
auto stream = stub->Get(&context, request);
std::ostringstream ss;
while (stream->Read(&reply))
ss << reply.data().data() << std::endl;
status = stream->Finish();
assert(status.ok());
std::cout << "Interface Info:\n" << ss.str() << std::endl;
}
Below is how to compile and run the program, with the example output:
$ g++ -o test test.cpp frr-northbound.grpc.pb.cc frr-northbound.pb.cc -lgrpc++ -lprotobuf
$ ./test
Interface Info:
{
"frr-interface:lib": {
"interface": [
{
"name": "lo",
"vrf": "default",
"state": {
"if-index": 1,
"mtu": 0,
"mtu6": 65536,
"speed": 0,
"metric": 0,
"phy-address": "00:00:00:00:00:00"
},
"frr-zebra:zebra": {
"state": {
"up-count": 0,
"down-count": 0,
"ptm-status": "disabled"
}
}
},
{
"name": "r1-eth0",
"vrf": "default",
"state": {
"if-index": 2,
"mtu": 1500,
"mtu6": 1500,
"speed": 10000,
"metric": 0,
"phy-address": "02:37:ac:63:59:b9"
},
"frr-zebra:zebra": {
"state": {
"up-count": 0,
"down-count": 0,
"ptm-status": "disabled"
}
}
}
]
},
"frr-zebra:zebra": {
"mcast-rpf-lookup": "mrib-then-urib",
"workqueue-hold-timer": 10,
"zapi-packets": 1000,
"import-kernel-table": {
"distance": 15
},
"dplane-queue-limit": 200
}
}
Python Example
The next sections will use Python as an example for writing scripts to use the northbound.
Generating Python FRR Bindings
Generating FRR northbound bindings for Python example:
# Install python3 virtual environment capability e.g.,
sudo apt-get install python3-venv
# Create a virtual environment for python grpc and activate
python3 -m venv venv-grpc
source venv-grpc/bin/activate
# Install grpc requirements
pip install grpcio grpcio-tools
mkdir /tmp/frr-python
cd grpc
python3 -m grpc_tools.protoc \
--python_out=/tmp/frr-python \
--grpc_python_out=/tmp/frr-python \
-I $(pwd) \
frr-northbound.proto
Using Python To Get Capabilities and Interfaces State
Below is a sample script to print capabilities and all interfaces Python discovered. This demostrates the 2 different RPC results one gets from gRPC, Unary (GetCapabilities) and Streaming (Get) for the interface state.
import grpc
import frr_northbound_pb2
import frr_northbound_pb2_grpc
channel = grpc.insecure_channel('localhost:50051')
stub = frr_northbound_pb2_grpc.NorthboundStub(channel)
# Print Capabilities
request = frr_northbound_pb2.GetCapabilitiesRequest()
response = stub.GetCapabilities(request)
print(response)
# Print Interface State and Config
request = frr_northbound_pb2.GetRequest()
request.path.append("/frr-interface:lib")
request.type=frr_northbound_pb2.GetRequest.ALL
request.encoding=frr_northbound_pb2.XML
for r in stub.Get(request):
print(r.data.data)
The previous script will output something like:
frr_version: "7.7-dev-my-manual-build"
rollback_support: true
supported_modules {
name: "frr-filter"
organization: "FRRouting"
revision: "2019-07-04"
}
supported_modules {
name: "frr-interface"
organization: "FRRouting"
revision: "2020-02-05"
}
[...]
supported_encodings: JSON
supported_encodings: XML
<lib xmlns="http://frrouting.org/yang/interface">
<interface>
<name>lo</name>
<vrf>default</vrf>
<state>
<if-index>1</if-index>
<mtu>0</mtu>
<mtu6>65536</mtu6>
<speed>0</speed>
<metric>0</metric>
<phy-address>00:00:00:00:00:00</phy-address>
</state>
<zebra xmlns="http://frrouting.org/yang/zebra">
<state>
<up-count>0</up-count>
<down-count>0</down-count>
</state>
</zebra>
</interface>
<interface>
<name>r1-eth0</name>
<vrf>default</vrf>
<state>
<if-index>2</if-index>
<mtu>1500</mtu>
<mtu6>1500</mtu6>
<speed>10000</speed>
<metric>0</metric>
<phy-address>f2:62:2e:f3:4c:e4</phy-address>
</state>
<zebra xmlns="http://frrouting.org/yang/zebra">
<state>
<up-count>0</up-count>
<down-count>0</down-count>
</state>
</zebra>
</interface>
</lib>
Ruby Example
Next sections will use Ruby as an example for writing scripts to use the northbound.
Generating Ruby FRR Bindings
Generating FRR northbound bindings for Ruby example:
# Install the required gems:
# - grpc: the gem that will talk with FRR's gRPC plugin.
# - grpc-tools: the gem that provides the code generator.
gem install grpc
gem install grpc-tools
# Create your project/scripts directory:
mkdir /tmp/frr-ruby
# Go to FRR's grpc directory:
cd grpc
# Generate the ruby bindings:
grpc_tools_ruby_protoc \
--ruby_out=/tmp/frr-ruby \
--grpc_out=/tmp/frr-ruby \
frr-northbound.proto
Using Ruby To Get Interfaces State
Here is a sample script to print all interfaces FRR discovered:
require 'frr-northbound_services_pb'
# Create the connection with FRR's gRPC:
stub = Frr::Northbound::Stub.new('localhost:50051', :this_channel_is_insecure)
# Create a new state request to get interface state:
request = Frr::GetRequest.new
request.type = :STATE
request.path.push('/frr-interface:lib')
# Ask FRR.
response = stub.get(request)
# Print the response.
response.each do |result|
result.data.data.each_line do |line|
puts line
end
end
Note
The generated files will assume that they are in the search path (e.g.
inside gem) so you’ll need to either edit it to use require_relative or
tell Ruby where to look for them. For simplicity we’ll use -I . to tell
it is in the current directory.
The previous script will output something like this:
$ cd /tmp/frr-ruby
# Add `-I.` so ruby finds the FRR generated file locally.
$ ruby -I. interface.rb
{
"frr-interface:lib": {
"interface": [
{
"name": "eth0",
"vrf": "default",
"state": {
"if-index": 2,
"mtu": 1500,
"mtu6": 1500,
"speed": 1000,
"metric": 0,
"phy-address": "11:22:33:44:55:66"
},
"frr-zebra:zebra": {
"state": {
"up-count": 0,
"down-count": 0
}
}
},
{
"name": "lo",
"vrf": "default",
"state": {
"if-index": 1,
"mtu": 0,
"mtu6": 65536,
"speed": 0,
"metric": 0,
"phy-address": "00:00:00:00:00:00"
},
"frr-zebra:zebra": {
"state": {
"up-count": 0,
"down-count": 0
}
}
}
]
}
}
Using Ruby To Create BFD Profiles
In this example you’ll learn how to edit configuration using JSON and programmatic (XPath) format.
require 'frr-northbound_services_pb'
# Create the connection with FRR's gRPC:
stub = Frr::Northbound::Stub.new('localhost:50051', :this_channel_is_insecure)
# Create a new candidate configuration change.
new_candidate = stub.create_candidate(Frr::CreateCandidateRequest.new)
# Use JSON to configure.
request = Frr::LoadToCandidateRequest.new
request.candidate_id = new_candidate.candidate_id
request.type = :MERGE
request.config = Frr::DataTree.new
request.config.encoding = :JSON
request.config.data = <<-EOJ
{
"frr-bfdd:bfdd": {
"bfd": {
"profile": [
{
"name": "test-prof",
"detection-multiplier": 4,
"required-receive-interval": 800000
}
]
}
}
}
EOJ
# Load configuration to candidate.
stub.load_to_candidate(request)
# Commit candidate.
stub.commit(
Frr::CommitRequest.new(
candidate_id: new_candidate.candidate_id,
phase: :ALL,
comment: 'create test-prof'
)
)
#
# Now lets delete the previous profile and create a new one.
#
# Create a new candidate configuration change.
new_candidate = stub.create_candidate(Frr::CreateCandidateRequest.new)
# Edit the configuration candidate.
request = Frr::EditCandidateRequest.new
request.candidate_id = new_candidate.candidate_id
# Delete previously created profile.
request.delete.push(
Frr::PathValue.new(
path: "/frr-bfdd:bfdd/bfd/profile[name='test-prof']",
)
)
# Add new profile with two configurations.
request.update.push(
Frr::PathValue.new(
path: "/frr-bfdd:bfdd/bfd/profile[name='test-prof-2']/detection-multiplier",
value: 5.to_s
)
)
request.update.push(
Frr::PathValue.new(
path: "/frr-bfdd:bfdd/bfd/profile[name='test-prof-2']/desired-transmission-interval",
value: 900_000.to_s
)
)
# Modify the candidate.
stub.edit_candidate(request)
# Commit the candidate configuration.
stub.commit(
Frr::CommitRequest.new(
candidate_id: new_candidate.candidate_id,
phase: :ALL,
comment: 'replace test-prof with test-prof-2'
)
)
And here is the new FRR configuration:
$ sudo vtysh -c 'show running-config'
...
bfd
profile test-prof-2
detect-multiplier 5
transmit-interval 900
!
!