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- #
- # IPv4 Bird configuration (Salt managed)
- #
- {%- set node_config = salt['pillar.get']('nodes:' ~ grains['id'], {}) %}
- define AS_OWN = 65132;
- define LO_IP = {{ salt['ffho_net.get_loopback_ip'](node_config, grains['id'], 'v4') }};
- router id {{ salt['ffho_net.get_router_id'](node_config, grains['id']) }};
- # this pseudo-protocol watches all interface up/down events
- protocol device {
- scan time 10;
- };
- # This pseudo-protocol performs synchronization between BIRD's routing
- # tables and the kernel. If your kernel supports multiple routing tables
- # (as Linux 2.2.x does), you can run multiple instances of the kernel
- # protocol and synchronize different kernel tables with different BIRD tables.
- protocol kernel {
- scan time 20; # Scan kernel routing table every 20 seconds
- {% if 'vpn' in node_config.get ('roles') %}
- # Learn host routes set up by VPN server(s) on this machine.
- # As there are two VPN hosts it's important to learn an redistribute
- # these internally to maintain full reachability.
- learn;
- import filter {
- if net ~ [
- 10.132.249.0/24+, # OPS
- 10.132.250.0/24+, # User-srv
- 10.132.251.0/24+, # Infra-srv
- 80.70.181.56/29+ # Vega-IPs
- ] then {
- # Bump perference of learned kernel routes from 10(!) to very high,
- # so they "win" in routed election and there's no clash with any
- # backup route via OSPF.
- preference = 12345;
- accept;
- }
- reject;
- };
- {% else %}
- import none;
- {%- endif %}
- export all;
- }
- #
- # Load additiional configuration (IGP, FFRL, ICVPN, 'n stuff)
- include "/etc/bird/ff-policy.conf";
- include "/etc/bird/bird.d/*.conf";
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