flock/pkg/agent/runtime_linux.go

//go:build linux

package agent

import (
	"context"
	"fmt"
	"net"
	"os"
	"time"

	"code.fritzlab.net/fritzlab/flock/pkg/agent/netpol"
)

// hostMultipathHashSysctls is the set of node-level sysctls flock-agent
// best-effort writes at startup. Default policy 0 hashes only on
// (saddr, daddr); policy 1 adds L4 (sport, dport, proto), giving real
// per-connection ECMP across multipath nexthops — required for sensible
// distribution across multiple anycast pods on the same node.
var hostMultipathHashSysctls = map[string]string{
	"/proc/sys/net/ipv4/fib_multipath_hash_policy": "1",
	"/proc/sys/net/ipv6/fib_multipath_hash_policy": "1",
}

// applyHostSysctls writes the sysctls in m, logging but not failing on
// errors. flock-agent is privileged so this works in the production
// DaemonSet; in environments where it doesn't, single-pod-per-node
// anycast still works (this only affects the multi-pod-per-node case).
func applyHostSysctls(s *Server) {
	for path, value := range hostMultipathHashSysctls {
		if err := os.WriteFile(path, []byte(value), 0o644); err != nil {
			s.Logger.Warn("set host sysctl", "path", path, "value", value, "err", err)
			continue
		}
		s.Logger.Info("host sysctl set", "path", path, "value", value)
	}
}

// configureRuntime wires Pod informer, IPAM, netlink, and BIRD on a real
// Linux node. Steps:
//
//  1. Wait for NodeConfig (operator-applied per-node CR).
//  2. Reconcile any pre-existing kernel state from allocations.json into
//     IPAM.used (so we never re-allocate an in-flight pod's IP).
//  3. Garbage-collect any state==pending entries (partial ADDs from a
//     previous agent generation).
//  4. Start the Pod informer (filtered to spec.nodeName == node).
//  5. Build PodHandler and SetHandlers(add, del, check).
//  6. Install BIRD blackhole summary routes + render initial config.
func (s *Server) configureRuntime(ctx context.Context) error {
	applyHostSysctls(s)

	if err := s.firstAvailableNodeConfig(ctx, 60*time.Second); err != nil {
		return err
	}
	nc := s.NodeConfig.Load()

	ipam, err := NewIPAM(nc.Spec.CIDR6, nc.Spec.CIDR4)
	if err != nil {
		return fmt.Errorf("init ipam: %w", err)
	}

	// Reconcile committed entries; GC pending entries.
	for _, a := range s.Store.Snapshot() {
		switch a.State {
		case StateCommitted:
			if a.IP6 != "" {
				ipam.MarkInUse(net.ParseIP(a.IP6))
			}
			if a.IP4 != "" {
				ipam.MarkInUse(net.ParseIP(a.IP4))
			}
		case StatePending:
			s.Logger.Info("GC pending allocation", "container_id", a.ContainerID)
			_ = Teardown(a.ContainerID, net.ParseIP(a.IP6), net.ParseIP(a.IP4))
			_ = s.Store.Delete(a.ContainerID)
		}
	}

	pods, err := StartPodInformer(ctx, s.restCfg, s.Node, s.Logger)
	if err != nil {
		return fmt.Errorf("pod informer: %w", err)
	}

	// Keep NetworkUnavailable=False so the node.kubernetes.io/network-
	// unavailable taint never gets re-applied. Calico's calico-node sets
	// it on shutdown; without an owner replacing it, kubelet's controller
	// taints the node and blocks scheduling.
	go keepNetworkAvailable(ctx, s.restCfg, s.Node, s.Logger)

	bird := &BirdManager{
		NodeName:    s.Node,
		ConfigPath:  "/etc/flock/bird/bird.conf",
		BirdcSocket: "/run/flock/bird.ctl",
		Logger:      s.Logger,
	}
	// Install kernel blackhole routes for the node summary CIDRs. These
	// stay regardless of BGP — they keep the kernel from sending unknown
	// destinations within our /64 to a default route loop.
	if err := bird.SummaryRoutes(nc); err != nil {
		s.Logger.Warn("install summary routes", "err", err)
	}
	// Calico is fenced off this node (Tigera Installation CR adds a
	// nodeAffinity excluding flock.fritzlab.net/agent on
	// calicoNodeDaemonSet). flock now owns BGP from this host.
	routerID := routerIDFromNodeIP(s.restCfg)
	if err := bird.Render(nc, nil, nil, routerID); err != nil {
		s.Logger.Warn("initial bird render", "err", err)
	}

	// AnycastReconciler is the single owner of bird re-renders going
	// forward. It runs every 2s + on Pod readiness changes + on each
	// successful CNI ADD/DEL.
	anycast := NewAnycastReconciler(s.Node, s.Store, pods, s.NodeConfig, bird, routerID, s.Logger)
	pods.OnReadyChange(anycast.Trigger)
	go anycast.Run(ctx)

	// Background tick for SummaryRoutes (idempotent) in case the kernel
	// blackhole disappears for any reason.
	go func() {
		t := time.NewTicker(60 * time.Second)
		defer t.Stop()
		for {
			select {
			case <-ctx.Done():
				return
			case <-t.C:
				if cur := s.NodeConfig.Load(); cur != nil {
					_ = bird.SummaryRoutes(cur)
				}
			}
		}
	}()

	// NetworkPolicy enforcement.
	world := netpol.NewWorld(s.Logger)
	if err := world.Start(ctx, s.restCfg); err != nil {
		return fmt.Errorf("netpol informers: %w", err)
	}
	npApplier := &netpol.Applier{}
	npReconciler := netpol.NewReconciler(world, func() []netpol.Pod {
		return collectLocalPods(s.Store, pods)
	}, npApplier, s.Logger)
	go npReconciler.Run(ctx)

	handler := &PodHandler{
		Node:         s.Node,
		Store:        s.Store,
		IPAM:         ipam,
		Pods:         pods,
		NodeConfig:   s.NodeConfig,
		Logger:       s.Logger,
		SetupFunc:    Setup,
		TeardownFunc: Teardown,
		AfterCommit: func() {
			anycast.Trigger()
			// Re-evaluate policy on every CNI ADD/DEL so a brand-new
			// pod's chain lands before its first packet egresses.
			npReconciler.Trigger()
		},
	}
	s.RPC.SetHandlers(handler.Add, handler.Del, handler.Check)
	s.Logger.Info("runtime ready",
		"asn", nc.Spec.BGP.ASN,
		"cidr6", nc.Spec.CIDR6,
		"cidr4", nc.Spec.CIDR4,
		"committed", len(s.Store.Snapshot()),
	)
	return nil
}

// routerIDFromNodeIP picks a stable IPv4 to use as BIRD router-id. Uses
// the host network for now; falls back to a synthesized value derived
// from the node name if no v4 is reachable.
func routerIDFromNodeIP(_ interface{}) string {
	// Best-effort: read the kernel route table for a default-route src.
	addrs, err := net.InterfaceAddrs()
	if err == nil {
		for _, a := range addrs {
			ipn, ok := a.(*net.IPNet)
			if !ok {
				continue
			}
			v4 := ipn.IP.To4()
			if v4 == nil || v4.IsLoopback() || v4.IsLinkLocalUnicast() {
				continue
			}
			return v4.String()
		}
	}
	// Fallback: 127.0.0.1 — bird will accept it but BGP peers won't like a
	// duplicate router-id. The agent log will scream above this if it fires.
	return "127.0.0.1"
}