package flannel import ( "context" "fmt" "net" "os" "path/filepath" "strings" "github.com/k3s-io/k3s/pkg/agent/util" "github.com/k3s-io/k3s/pkg/daemons/config" "github.com/k3s-io/k3s/pkg/version" "github.com/pkg/errors" "github.com/sirupsen/logrus" v1 "k8s.io/api/core/v1" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/fields" "k8s.io/apimachinery/pkg/runtime" "k8s.io/apimachinery/pkg/watch" typedcorev1 "k8s.io/client-go/kubernetes/typed/core/v1" "k8s.io/client-go/tools/cache" toolswatch "k8s.io/client-go/tools/watch" utilsnet "k8s.io/utils/net" ) const ( cniConf = `{ "name":"cbr0", "cniVersion":"1.0.0", "plugins":[ { "type":"flannel", "delegate":{ "hairpinMode":true, "forceAddress":true, "isDefaultGateway":true } }, { "type":"portmap", "capabilities":{ "portMappings":true } } ] } ` flannelConf = `{ "Network": "%CIDR%", "EnableIPv6": %IPV6_ENABLED%, "EnableIPv4": %IPV4_ENABLED%, "IPv6Network": "%CIDR_IPV6%", "Backend": %backend% } ` vxlanBackend = `{ "Type": "vxlan" }` hostGWBackend = `{ "Type": "host-gw" }` ipsecBackend = `{ "Type": "ipsec", "UDPEncap": true, "PSK": "%psk%" }` wireguardBackend = `{ "Type": "extension", "PreStartupCommand": "wg genkey | tee %flannelConfDir%/privatekey | wg pubkey", "PostStartupCommand": "export SUBNET_IP=$(echo $SUBNET | cut -d'/' -f 1); ip link del flannel.1 2>/dev/null; echo $PATH >&2; wg-add.sh flannel.1 && wg set flannel.1 listen-port 51820 private-key %flannelConfDir%/privatekey && ip addr add $SUBNET_IP/32 dev flannel.1 && ip link set flannel.1 up && ip route add $NETWORK dev flannel.1", "ShutdownCommand": "ip link del flannel.1", "SubnetAddCommand": "read PUBLICKEY; wg set flannel.1 peer $PUBLICKEY endpoint $PUBLIC_IP:51820 allowed-ips $SUBNET persistent-keepalive 25", "SubnetRemoveCommand": "read PUBLICKEY; wg set flannel.1 peer $PUBLICKEY remove" }` wireguardNativeBackend = `{ "Type": "wireguard", "PersistentKeepaliveInterval": 25 }` emptyIPv6Network = "::/0" ipv4 = iota ipv6 ) func Prepare(ctx context.Context, nodeConfig *config.Node) error { if err := createCNIConf(nodeConfig.AgentConfig.CNIConfDir); err != nil { return err } return createFlannelConf(nodeConfig) } func Run(ctx context.Context, nodeConfig *config.Node, nodes typedcorev1.NodeInterface) error { logrus.Infof("Starting flannel with backend %s", nodeConfig.FlannelBackend) if err := waitForPodCIDR(ctx, nodeConfig.AgentConfig.NodeName, nodes); err != nil { return errors.Wrap(err, "flannel failed to wait for PodCIDR assignment") } netMode, err := findNetMode(nodeConfig.AgentConfig.ClusterCIDRs) if err != nil { return errors.Wrap(err, "failed to check netMode for flannel") } go func() { err := flannel(ctx, nodeConfig.FlannelIface, nodeConfig.FlannelConfFile, nodeConfig.AgentConfig.KubeConfigKubelet, nodeConfig.FlannelIPv6Masq, netMode) if err != nil && !errors.Is(err, context.Canceled) { logrus.Fatalf("flannel exited: %v", err) } }() return nil } // waitForPodCIDR watches nodes with this node's name, and returns when the PodCIDR has been set. func waitForPodCIDR(ctx context.Context, nodeName string, nodes typedcorev1.NodeInterface) error { fieldSelector := fields.Set{metav1.ObjectNameField: nodeName}.String() lw := &cache.ListWatch{ ListFunc: func(options metav1.ListOptions) (object runtime.Object, e error) { options.FieldSelector = fieldSelector return nodes.List(ctx, options) }, WatchFunc: func(options metav1.ListOptions) (i watch.Interface, e error) { options.FieldSelector = fieldSelector return nodes.Watch(ctx, options) }, } condition := func(ev watch.Event) (bool, error) { if n, ok := ev.Object.(*v1.Node); ok { return n.Spec.PodCIDR != "", nil } return false, errors.New("event object not of type v1.Node") } if _, err := toolswatch.UntilWithSync(ctx, lw, &v1.Node{}, nil, condition); err != nil { return errors.Wrap(err, "failed to wait for PodCIDR assignment") } logrus.Info("Flannel found PodCIDR assigned for node " + nodeName) return nil } func createCNIConf(dir string) error { logrus.Debugf("Creating the CNI conf in directory %s", dir) if dir == "" { return nil } p := filepath.Join(dir, "10-flannel.conflist") return util.WriteFile(p, cniConf) } func createFlannelConf(nodeConfig *config.Node) error { var ipv4Enabled string logrus.Debugf("Creating the flannel configuration for backend %s in file %s", nodeConfig.FlannelBackend, nodeConfig.FlannelConfFile) if nodeConfig.FlannelConfFile == "" { return errors.New("Flannel configuration not defined") } if nodeConfig.FlannelConfOverride { logrus.Infof("Using custom flannel conf defined at %s", nodeConfig.FlannelConfFile) return nil } netMode, err := findNetMode(nodeConfig.AgentConfig.ClusterCIDRs) if err != nil { logrus.Fatalf("Flannel error checking netMode: %v", err) return err } if netMode == ipv4 || netMode == (ipv4+ipv6) { ipv4Enabled = "true" } else { ipv4Enabled = "false" } confJSON := strings.ReplaceAll(flannelConf, "%IPV4_ENABLED%", ipv4Enabled) if netMode == ipv4 { confJSON = strings.ReplaceAll(confJSON, "%CIDR%", nodeConfig.AgentConfig.ClusterCIDR.String()) confJSON = strings.ReplaceAll(confJSON, "%IPV6_ENABLED%", "false") confJSON = strings.ReplaceAll(confJSON, "%CIDR_IPV6%", emptyIPv6Network) } else if netMode == (ipv4 + ipv6) { confJSON = strings.ReplaceAll(confJSON, "%CIDR%", nodeConfig.AgentConfig.ClusterCIDR.String()) confJSON = strings.ReplaceAll(confJSON, "%IPV6_ENABLED%", "true") for _, cidr := range nodeConfig.AgentConfig.ClusterCIDRs { if utilsnet.IsIPv6(cidr.IP) { // Only one ipv6 range available. This might change in future: https://github.com/kubernetes/enhancements/issues/2593 confJSON = strings.ReplaceAll(confJSON, "%CIDR_IPV6%", cidr.String()) } } } else { confJSON = strings.ReplaceAll(confJSON, "%CIDR%", "0.0.0.0/0") confJSON = strings.ReplaceAll(confJSON, "%IPV6_ENABLED%", "true") for _, cidr := range nodeConfig.AgentConfig.ClusterCIDRs { if utilsnet.IsIPv6(cidr.IP) { // Only one ipv6 range available. This might change in future: https://github.com/kubernetes/enhancements/issues/2593 confJSON = strings.ReplaceAll(confJSON, "%CIDR_IPV6%", cidr.String()) } } } var backendConf string switch nodeConfig.FlannelBackend { case config.FlannelBackendVXLAN: backendConf = vxlanBackend case config.FlannelBackendHostGW: backendConf = hostGWBackend case config.FlannelBackendIPSEC: backendConf = strings.ReplaceAll(ipsecBackend, "%psk%", nodeConfig.AgentConfig.IPSECPSK) if err := setupStrongSwan(nodeConfig); err != nil { return err } case config.FlannelBackendWireguard: backendConf = strings.ReplaceAll(wireguardBackend, "%flannelConfDir%", filepath.Dir(nodeConfig.FlannelConfFile)) logrus.Warnf("The wireguard backend is deprecated and will be removed in k3s v1.26, please switch to wireguard-native. Check our docs for information about how to migrate") case config.FlannelBackendWireguardNative: backendConf = wireguardNativeBackend default: return fmt.Errorf("Cannot configure unknown flannel backend '%s'", nodeConfig.FlannelBackend) } confJSON = strings.ReplaceAll(confJSON, "%backend%", backendConf) logrus.Debugf("The flannel configuration is %s", confJSON) return util.WriteFile(nodeConfig.FlannelConfFile, confJSON) } func setupStrongSwan(nodeConfig *config.Node) error { // if data dir env is not set point to root dataDir := os.Getenv(version.ProgramUpper + "_DATA_DIR") if dataDir == "" { dataDir = "/" } dataDir = filepath.Join(dataDir, "etc", "strongswan") info, err := os.Lstat(nodeConfig.AgentConfig.StrongSwanDir) // something exists but is not a symlink, return if err == nil && info.Mode()&os.ModeSymlink == 0 { return nil } if err == nil { target, err := os.Readlink(nodeConfig.AgentConfig.StrongSwanDir) // current link is the same, return if err == nil && target == dataDir { return nil } } // clean up strongswan old link os.Remove(nodeConfig.AgentConfig.StrongSwanDir) // make new strongswan link return os.Symlink(dataDir, nodeConfig.AgentConfig.StrongSwanDir) } // fundNetMode returns the mode (ipv4, ipv6 or dual-stack) in which flannel is operating func findNetMode(cidrs []*net.IPNet) (int, error) { dualStack, err := utilsnet.IsDualStackCIDRs(cidrs) if err != nil { return 0, err } if dualStack { return ipv4 + ipv6, nil } for _, cidr := range cidrs { if utilsnet.IsIPv4CIDR(cidr) { return ipv4, nil } if utilsnet.IsIPv6CIDR(cidr) { return ipv6, nil } } return 0, errors.New("Failed checking netMode") }