flock/pkg/routing/bird/config.go

// Package bird renders BIRD2 configuration for flock-agent. The agent
// writes the rendered file to a shared volume; the bird sidecar reads it,
// and the agent calls birdc reload (over the shared birdc unix socket) on
// changes.
package bird

import (
	"bytes"
	"fmt"
	"net"
	"sort"
	"text/template"
)

// NodeBGP describes the inputs needed to render a node's BIRD config.
type NodeBGP struct {
	NodeName string
	RouterID string // IPv4 (any usable v4 on the node, typically the host's)
	LocalASN uint32
	Peers    []Peer
	// CIDR6 / CIDR4 are the per-node summary aggregates the agent wants
	// advertised. The agent installs blackhole kernel routes for each so
	// BIRD's protocol kernel imports them.
	CIDR6 []string
	CIDR4 []string
	// Anycast6/4 are the currently-Ready anycast /128 and /32 addresses.
	Anycast6 []string
	Anycast4 []string
}

type Peer struct {
	// Family is "v6" or "v4".
	Family  string
	Address string
	ASN     uint32
}

const tpl = `# Generated by flock-agent. DO NOT EDIT.
log syslog all;
router id {{.RouterID}};

protocol device { scan time 10; }
protocol direct { interface "lo"; }

protocol kernel kernel6 {
  learn;
  ipv6 {
    import all;
    export all;
  };
}
protocol kernel kernel4 {
  learn;
  ipv4 {
    import all;
    export all;
  };
}

protocol static static6 {
  ipv6;
  {{range $cidr := .CIDR6}}route {{$cidr}} blackhole;
  {{end}}
}
protocol static static4 {
  ipv4;
  {{range $cidr := .CIDR4}}route {{$cidr}} blackhole;
  {{end}}
}
{{range $i, $p := .Peers}}{{if eq $p.Family "v6"}}
protocol bgp upstream6_{{$i}} {
  local as {{$.LocalASN}};
  neighbor {{$p.Address}} as {{$p.ASN}};
  graceful restart;
  ipv6 {
    import all;
    export filter {
      {{range $cidr := $.CIDR6}}if net = {{$cidr}} then accept;
      {{end}}{{range $a := $.Anycast6}}if net = {{$a}}/128 then accept;
      {{end}}reject;
    };
  };
}
{{else if eq $p.Family "v4"}}
protocol bgp upstream4_{{$i}} {
  local as {{$.LocalASN}};
  neighbor {{$p.Address}} as {{$p.ASN}};
  graceful restart;
  ipv4 {
    import all;
    export filter {
      {{range $cidr := $.CIDR4}}if net = {{$cidr}} then accept;
      {{end}}{{range $a := $.Anycast4}}if net = {{$a}}/32 then accept;
      {{end}}reject;
    };
  };
}
{{end}}{{end}}`

// Render produces the bird.conf text.
func Render(in NodeBGP) (string, error) {
	if in.RouterID == "" {
		return "", fmt.Errorf("RouterID is required")
	}
	if in.LocalASN == 0 {
		return "", fmt.Errorf("LocalASN is required")
	}
	// Stable order — important so config changes only when something real
	// changes (avoids needless birdc reloads).
	in = normalize(in)

	t, err := template.New("bird").Parse(tpl)
	if err != nil {
		return "", err
	}
	var buf bytes.Buffer
	if err := t.Execute(&buf, in); err != nil {
		return "", err
	}
	return buf.String(), nil
}

func normalize(in NodeBGP) NodeBGP {
	cp := in
	cp.CIDR6 = sortedUnique(in.CIDR6)
	cp.CIDR4 = sortedUnique(in.CIDR4)
	cp.Anycast6 = sortedUnique(in.Anycast6)
	cp.Anycast4 = sortedUnique(in.Anycast4)
	cp.Peers = append([]Peer(nil), in.Peers...)
	sort.SliceStable(cp.Peers, func(i, j int) bool {
		if cp.Peers[i].Family != cp.Peers[j].Family {
			return cp.Peers[i].Family < cp.Peers[j].Family
		}
		return cp.Peers[i].Address < cp.Peers[j].Address
	})
	return cp
}

func sortedUnique(s []string) []string {
	if len(s) == 0 {
		return nil
	}
	cp := append([]string(nil), s...)
	sort.Strings(cp)
	out := cp[:0]
	for i, v := range cp {
		if i == 0 || v != cp[i-1] {
			out = append(out, v)
		}
	}
	return out
}

// FamilyOf returns "v6" or "v4" for a peer address string.
func FamilyOf(addr string) string {
	ip := net.ParseIP(addr)
	if ip == nil {
		return ""
	}
	if ip.To4() != nil {
		return "v4"
	}
	return "v6"
}