// Apache License v2.0 (copyright Cloud Native Labs & Rancher Labs) // - modified from https://github.com/cloudnativelabs/kube-router/blob/ee9f6d890d10609284098229fa1e283ab5d83b93/pkg/controllers/netpol/pod.go // +build !windows package netpol import ( "crypto/sha256" "encoding/base32" "errors" "fmt" "strconv" "strings" "time" "github.com/coreos/go-iptables/iptables" "github.com/rancher/k3s/pkg/agent/netpol/utils" api "k8s.io/api/core/v1" networking "k8s.io/api/networking/v1" v1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/labels" "k8s.io/apimachinery/pkg/util/intstr" listers "k8s.io/client-go/listers/core/v1" "k8s.io/client-go/tools/cache" glog "k8s.io/klog" ) func (npc *NetworkPolicyController) newNetworkPolicyEventHandler() cache.ResourceEventHandler { return cache.ResourceEventHandlerFuncs{ AddFunc: func(obj interface{}) { npc.OnNetworkPolicyUpdate(obj) }, UpdateFunc: func(oldObj, newObj interface{}) { npc.OnNetworkPolicyUpdate(newObj) }, DeleteFunc: func(obj interface{}) { npc.handleNetworkPolicyDelete(obj) }, } } // OnNetworkPolicyUpdate handles updates to network policy from the kubernetes api server func (npc *NetworkPolicyController) OnNetworkPolicyUpdate(obj interface{}) { netpol := obj.(*networking.NetworkPolicy) glog.V(2).Infof("Received update for network policy: %s/%s", netpol.Namespace, netpol.Name) npc.RequestFullSync() } func (npc *NetworkPolicyController) handleNetworkPolicyDelete(obj interface{}) { netpol, ok := obj.(*networking.NetworkPolicy) if !ok { tombstone, ok := obj.(cache.DeletedFinalStateUnknown) if !ok { glog.Errorf("unexpected object type: %v", obj) return } if netpol, ok = tombstone.Obj.(*networking.NetworkPolicy); !ok { glog.Errorf("unexpected object type: %v", obj) return } } glog.V(2).Infof("Received network policy: %s/%s delete event", netpol.Namespace, netpol.Name) npc.RequestFullSync() } // Configure iptables rules representing each network policy. All pod's matched by // network policy spec podselector labels are grouped together in one ipset which // is used for matching destination ip address. Each ingress rule in the network // policyspec is evaluated to set of matching pods, which are grouped in to a // ipset used for source ip addr matching. func (npc *NetworkPolicyController) syncNetworkPolicyChains(networkPoliciesInfo []networkPolicyInfo, version string) (map[string]bool, map[string]bool, error) { start := time.Now() defer func() { endTime := time.Since(start) glog.V(2).Infof("Syncing network policy chains took %v", endTime) }() activePolicyChains := make(map[string]bool) activePolicyIPSets := make(map[string]bool) iptablesCmdHandler, err := iptables.New() if err != nil { glog.Fatalf("Failed to initialize iptables executor due to: %s", err.Error()) } // run through all network policies for _, policy := range networkPoliciesInfo { // ensure there is a unique chain per network policy in filter table policyChainName := networkPolicyChainName(policy.namespace, policy.name, version) err := iptablesCmdHandler.NewChain("filter", policyChainName) if err != nil && err.(*iptables.Error).ExitStatus() != 1 { return nil, nil, fmt.Errorf("Failed to run iptables command: %s", err.Error()) } activePolicyChains[policyChainName] = true currnetPodIps := make([]string, 0, len(policy.targetPods)) for ip := range policy.targetPods { currnetPodIps = append(currnetPodIps, ip) } if policy.policyType == "both" || policy.policyType == "ingress" { // create a ipset for all destination pod ip's matched by the policy spec PodSelector targetDestPodIPSetName := policyDestinationPodIPSetName(policy.namespace, policy.name) targetDestPodIPSet, err := npc.ipSetHandler.Create(targetDestPodIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return nil, nil, fmt.Errorf("failed to create ipset: %s", err.Error()) } err = targetDestPodIPSet.Refresh(currnetPodIps) if err != nil { glog.Errorf("failed to refresh targetDestPodIPSet,: " + err.Error()) } err = npc.processIngressRules(policy, targetDestPodIPSetName, activePolicyIPSets, version) if err != nil { return nil, nil, err } activePolicyIPSets[targetDestPodIPSet.Name] = true } if policy.policyType == "both" || policy.policyType == "egress" { // create a ipset for all source pod ip's matched by the policy spec PodSelector targetSourcePodIPSetName := policySourcePodIPSetName(policy.namespace, policy.name) targetSourcePodIPSet, err := npc.ipSetHandler.Create(targetSourcePodIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return nil, nil, fmt.Errorf("failed to create ipset: %s", err.Error()) } err = targetSourcePodIPSet.Refresh(currnetPodIps) if err != nil { glog.Errorf("failed to refresh targetSourcePodIPSet: " + err.Error()) } err = npc.processEgressRules(policy, targetSourcePodIPSetName, activePolicyIPSets, version) if err != nil { return nil, nil, err } activePolicyIPSets[targetSourcePodIPSet.Name] = true } } glog.V(2).Infof("Iptables chains in the filter table are synchronized with the network policies.") return activePolicyChains, activePolicyIPSets, nil } func (npc *NetworkPolicyController) processIngressRules(policy networkPolicyInfo, targetDestPodIPSetName string, activePolicyIPSets map[string]bool, version string) error { // From network policy spec: "If field 'Ingress' is empty then this NetworkPolicy does not allow any traffic " // so no whitelist rules to be added to the network policy if policy.ingressRules == nil { return nil } iptablesCmdHandler, err := iptables.New() if err != nil { return fmt.Errorf("Failed to initialize iptables executor due to: %s", err.Error()) } policyChainName := networkPolicyChainName(policy.namespace, policy.name, version) // run through all the ingress rules in the spec and create iptables rules // in the chain for the network policy for i, ingressRule := range policy.ingressRules { if len(ingressRule.srcPods) != 0 { srcPodIPSetName := policyIndexedSourcePodIPSetName(policy.namespace, policy.name, i) srcPodIPSet, err := npc.ipSetHandler.Create(srcPodIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[srcPodIPSet.Name] = true ingressRuleSrcPodIPs := make([]string, 0, len(ingressRule.srcPods)) for _, pod := range ingressRule.srcPods { ingressRuleSrcPodIPs = append(ingressRuleSrcPodIPs, pod.ip) } err = srcPodIPSet.Refresh(ingressRuleSrcPodIPs) if err != nil { glog.Errorf("failed to refresh srcPodIPSet: " + err.Error()) } if len(ingressRule.ports) != 0 { // case where 'ports' details and 'from' details specified in the ingress rule // so match on specified source and destination ip's and specified port (if any) and protocol for _, portProtocol := range ingressRule.ports { comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcPodIPSetName, targetDestPodIPSetName, portProtocol.protocol, portProtocol.port); err != nil { return err } } } if len(ingressRule.namedPorts) != 0 { for j, endPoints := range ingressRule.namedPorts { namedPortIPSetName := policyIndexedIngressNamedPortIPSetName(policy.namespace, policy.name, i, j) namedPortIPSet, err := npc.ipSetHandler.Create(namedPortIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[namedPortIPSet.Name] = true err = namedPortIPSet.Refresh(endPoints.ips) if err != nil { glog.Errorf("failed to refresh namedPortIPSet: " + err.Error()) } comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcPodIPSetName, namedPortIPSetName, endPoints.protocol, endPoints.port); err != nil { return err } } } if len(ingressRule.ports) == 0 && len(ingressRule.namedPorts) == 0 { // case where no 'ports' details specified in the ingress rule but 'from' details specified // so match on specified source and destination ip with all port and protocol comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcPodIPSetName, targetDestPodIPSetName, "", ""); err != nil { return err } } } // case where only 'ports' details specified but no 'from' details in the ingress rule // so match on all sources, with specified port (if any) and protocol if ingressRule.matchAllSource && !ingressRule.matchAllPorts { for _, portProtocol := range ingressRule.ports { comment := "rule to ACCEPT traffic from all sources to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, "", targetDestPodIPSetName, portProtocol.protocol, portProtocol.port); err != nil { return err } } for j, endPoints := range ingressRule.namedPorts { namedPortIPSetName := policyIndexedIngressNamedPortIPSetName(policy.namespace, policy.name, i, j) namedPortIPSet, err := npc.ipSetHandler.Create(namedPortIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[namedPortIPSet.Name] = true err = namedPortIPSet.Refresh(endPoints.ips) if err != nil { glog.Errorf("failed to refresh namedPortIPSet: " + err.Error()) } comment := "rule to ACCEPT traffic from all sources to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, "", namedPortIPSetName, endPoints.protocol, endPoints.port); err != nil { return err } } } // case where nether ports nor from details are speified in the ingress rule // so match on all ports, protocol, source IP's if ingressRule.matchAllSource && ingressRule.matchAllPorts { comment := "rule to ACCEPT traffic from all sources to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, "", targetDestPodIPSetName, "", ""); err != nil { return err } } if len(ingressRule.srcIPBlocks) != 0 { srcIPBlockIPSetName := policyIndexedSourceIPBlockIPSetName(policy.namespace, policy.name, i) srcIPBlockIPSet, err := npc.ipSetHandler.Create(srcIPBlockIPSetName, utils.TypeHashNet, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[srcIPBlockIPSet.Name] = true err = srcIPBlockIPSet.RefreshWithBuiltinOptions(ingressRule.srcIPBlocks) if err != nil { glog.Errorf("failed to refresh srcIPBlockIPSet: " + err.Error()) } if !ingressRule.matchAllPorts { for _, portProtocol := range ingressRule.ports { comment := "rule to ACCEPT traffic from specified ipBlocks to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcIPBlockIPSetName, targetDestPodIPSetName, portProtocol.protocol, portProtocol.port); err != nil { return err } } for j, endPoints := range ingressRule.namedPorts { namedPortIPSetName := policyIndexedIngressNamedPortIPSetName(policy.namespace, policy.name, i, j) namedPortIPSet, err := npc.ipSetHandler.Create(namedPortIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[namedPortIPSet.Name] = true err = namedPortIPSet.Refresh(endPoints.ips) if err != nil { glog.Errorf("failed to refresh namedPortIPSet: " + err.Error()) } comment := "rule to ACCEPT traffic from specified ipBlocks to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcIPBlockIPSetName, namedPortIPSetName, endPoints.protocol, endPoints.port); err != nil { return err } } } if ingressRule.matchAllPorts { comment := "rule to ACCEPT traffic from specified ipBlocks to dest pods selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, srcIPBlockIPSetName, targetDestPodIPSetName, "", ""); err != nil { return err } } } } return nil } func (npc *NetworkPolicyController) processEgressRules(policy networkPolicyInfo, targetSourcePodIPSetName string, activePolicyIPSets map[string]bool, version string) error { // From network policy spec: "If field 'Ingress' is empty then this NetworkPolicy does not allow any traffic " // so no whitelist rules to be added to the network policy if policy.egressRules == nil { return nil } iptablesCmdHandler, err := iptables.New() if err != nil { return fmt.Errorf("Failed to initialize iptables executor due to: %s", err.Error()) } policyChainName := networkPolicyChainName(policy.namespace, policy.name, version) // run through all the egress rules in the spec and create iptables rules // in the chain for the network policy for i, egressRule := range policy.egressRules { if len(egressRule.dstPods) != 0 { dstPodIPSetName := policyIndexedDestinationPodIPSetName(policy.namespace, policy.name, i) dstPodIPSet, err := npc.ipSetHandler.Create(dstPodIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[dstPodIPSet.Name] = true egressRuleDstPodIps := make([]string, 0, len(egressRule.dstPods)) for _, pod := range egressRule.dstPods { egressRuleDstPodIps = append(egressRuleDstPodIps, pod.ip) } err = dstPodIPSet.Refresh(egressRuleDstPodIps) if err != nil { glog.Errorf("failed to refresh dstPodIPSet: " + err.Error()) } if len(egressRule.ports) != 0 { // case where 'ports' details and 'from' details specified in the egress rule // so match on specified source and destination ip's and specified port (if any) and protocol for _, portProtocol := range egressRule.ports { comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, dstPodIPSetName, portProtocol.protocol, portProtocol.port); err != nil { return err } } } if len(egressRule.namedPorts) != 0 { for j, endPoints := range egressRule.namedPorts { namedPortIPSetName := policyIndexedEgressNamedPortIPSetName(policy.namespace, policy.name, i, j) namedPortIPSet, err := npc.ipSetHandler.Create(namedPortIPSetName, utils.TypeHashIP, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[namedPortIPSet.Name] = true err = namedPortIPSet.Refresh(endPoints.ips) if err != nil { glog.Errorf("failed to refresh namedPortIPSet: " + err.Error()) } comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, namedPortIPSetName, endPoints.protocol, endPoints.port); err != nil { return err } } } if len(egressRule.ports) == 0 && len(egressRule.namedPorts) == 0 { // case where no 'ports' details specified in the ingress rule but 'from' details specified // so match on specified source and destination ip with all port and protocol comment := "rule to ACCEPT traffic from source pods to dest pods selected by policy name " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, dstPodIPSetName, "", ""); err != nil { return err } } } // case where only 'ports' details specified but no 'to' details in the egress rule // so match on all sources, with specified port (if any) and protocol if egressRule.matchAllDestinations && !egressRule.matchAllPorts { for _, portProtocol := range egressRule.ports { comment := "rule to ACCEPT traffic from source pods to all destinations selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, "", portProtocol.protocol, portProtocol.port); err != nil { return err } } } // case where nether ports nor from details are speified in the egress rule // so match on all ports, protocol, source IP's if egressRule.matchAllDestinations && egressRule.matchAllPorts { comment := "rule to ACCEPT traffic from source pods to all destinations selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, "", "", ""); err != nil { return err } } if len(egressRule.dstIPBlocks) != 0 { dstIPBlockIPSetName := policyIndexedDestinationIPBlockIPSetName(policy.namespace, policy.name, i) dstIPBlockIPSet, err := npc.ipSetHandler.Create(dstIPBlockIPSetName, utils.TypeHashNet, utils.OptionTimeout, "0") if err != nil { return fmt.Errorf("failed to create ipset: %s", err.Error()) } activePolicyIPSets[dstIPBlockIPSet.Name] = true err = dstIPBlockIPSet.RefreshWithBuiltinOptions(egressRule.dstIPBlocks) if err != nil { glog.Errorf("failed to refresh dstIPBlockIPSet: " + err.Error()) } if !egressRule.matchAllPorts { for _, portProtocol := range egressRule.ports { comment := "rule to ACCEPT traffic from source pods to specified ipBlocks selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, dstIPBlockIPSetName, portProtocol.protocol, portProtocol.port); err != nil { return err } } } if egressRule.matchAllPorts { comment := "rule to ACCEPT traffic from source pods to specified ipBlocks selected by policy name: " + policy.name + " namespace " + policy.namespace if err := npc.appendRuleToPolicyChain(iptablesCmdHandler, policyChainName, comment, targetSourcePodIPSetName, dstIPBlockIPSetName, "", ""); err != nil { return err } } } } return nil } func (npc *NetworkPolicyController) appendRuleToPolicyChain(iptablesCmdHandler *iptables.IPTables, policyChainName, comment, srcIPSetName, dstIPSetName, protocol, dPort string) error { if iptablesCmdHandler == nil { return fmt.Errorf("Failed to run iptables command: iptablesCmdHandler is nil") } args := make([]string, 0) if comment != "" { args = append(args, "-m", "comment", "--comment", comment) } if srcIPSetName != "" { args = append(args, "-m", "set", "--match-set", srcIPSetName, "src") } if dstIPSetName != "" { args = append(args, "-m", "set", "--match-set", dstIPSetName, "dst") } if protocol != "" { args = append(args, "-p", protocol) } if dPort != "" { args = append(args, "--dport", dPort) } markComment := "rule to mark traffic matching a network policy" markArgs := append(args, "-j", "MARK", "-m", "comment", "--comment", markComment, "--set-xmark", "0x10000/0x10000") err := iptablesCmdHandler.AppendUnique("filter", policyChainName, markArgs...) if err != nil { return fmt.Errorf("Failed to run iptables command: %s", err.Error()) } returnComment := "rule to RETURN traffic matching a network policy" returnArgs := append(args, "-m", "comment", "--comment", returnComment, "-m", "mark", "--mark", "0x10000/0x10000", "-j", "RETURN") err = iptablesCmdHandler.AppendUnique("filter", policyChainName, returnArgs...) if err != nil { return fmt.Errorf("Failed to run iptables command: %s", err.Error()) } return nil } func (npc *NetworkPolicyController) buildNetworkPoliciesInfo() ([]networkPolicyInfo, error) { NetworkPolicies := make([]networkPolicyInfo, 0) for _, policyObj := range npc.npLister.List() { policy, ok := policyObj.(*networking.NetworkPolicy) podSelector, _ := v1.LabelSelectorAsSelector(&policy.Spec.PodSelector) if !ok { return nil, fmt.Errorf("Failed to convert") } newPolicy := networkPolicyInfo{ name: policy.Name, namespace: policy.Namespace, podSelector: podSelector, policyType: "ingress", } ingressType, egressType := false, false for _, policyType := range policy.Spec.PolicyTypes { if policyType == networking.PolicyTypeIngress { ingressType = true } if policyType == networking.PolicyTypeEgress { egressType = true } } if ingressType && egressType { newPolicy.policyType = "both" } else if egressType { newPolicy.policyType = "egress" } else if ingressType { newPolicy.policyType = "ingress" } matchingPods, err := npc.ListPodsByNamespaceAndLabels(policy.Namespace, podSelector) newPolicy.targetPods = make(map[string]podInfo) namedPort2IngressEps := make(namedPort2eps) if err == nil { for _, matchingPod := range matchingPods { if matchingPod.Status.PodIP == "" { continue } newPolicy.targetPods[matchingPod.Status.PodIP] = podInfo{ip: matchingPod.Status.PodIP, name: matchingPod.ObjectMeta.Name, namespace: matchingPod.ObjectMeta.Namespace, labels: matchingPod.ObjectMeta.Labels} npc.grabNamedPortFromPod(matchingPod, &namedPort2IngressEps) } } if policy.Spec.Ingress == nil { newPolicy.ingressRules = nil } else { newPolicy.ingressRules = make([]ingressRule, 0) } if policy.Spec.Egress == nil { newPolicy.egressRules = nil } else { newPolicy.egressRules = make([]egressRule, 0) } for _, specIngressRule := range policy.Spec.Ingress { ingressRule := ingressRule{} ingressRule.srcPods = make([]podInfo, 0) ingressRule.srcIPBlocks = make([][]string, 0) // If this field is empty or missing in the spec, this rule matches all sources if len(specIngressRule.From) == 0 { ingressRule.matchAllSource = true } else { ingressRule.matchAllSource = false for _, peer := range specIngressRule.From { if peerPods, err := npc.evalPodPeer(policy, peer); err == nil { for _, peerPod := range peerPods { if peerPod.Status.PodIP == "" { continue } ingressRule.srcPods = append(ingressRule.srcPods, podInfo{ip: peerPod.Status.PodIP, name: peerPod.ObjectMeta.Name, namespace: peerPod.ObjectMeta.Namespace, labels: peerPod.ObjectMeta.Labels}) } } ingressRule.srcIPBlocks = append(ingressRule.srcIPBlocks, npc.evalIPBlockPeer(peer)...) } } ingressRule.ports = make([]protocolAndPort, 0) ingressRule.namedPorts = make([]endPoints, 0) // If this field is empty or missing in the spec, this rule matches all ports if len(specIngressRule.Ports) == 0 { ingressRule.matchAllPorts = true } else { ingressRule.matchAllPorts = false ingressRule.ports, ingressRule.namedPorts = npc.processNetworkPolicyPorts(specIngressRule.Ports, namedPort2IngressEps) } newPolicy.ingressRules = append(newPolicy.ingressRules, ingressRule) } for _, specEgressRule := range policy.Spec.Egress { egressRule := egressRule{} egressRule.dstPods = make([]podInfo, 0) egressRule.dstIPBlocks = make([][]string, 0) namedPort2EgressEps := make(namedPort2eps) // If this field is empty or missing in the spec, this rule matches all sources if len(specEgressRule.To) == 0 { egressRule.matchAllDestinations = true } else { egressRule.matchAllDestinations = false for _, peer := range specEgressRule.To { if peerPods, err := npc.evalPodPeer(policy, peer); err == nil { for _, peerPod := range peerPods { if peerPod.Status.PodIP == "" { continue } egressRule.dstPods = append(egressRule.dstPods, podInfo{ip: peerPod.Status.PodIP, name: peerPod.ObjectMeta.Name, namespace: peerPod.ObjectMeta.Namespace, labels: peerPod.ObjectMeta.Labels}) npc.grabNamedPortFromPod(peerPod, &namedPort2EgressEps) } } egressRule.dstIPBlocks = append(egressRule.dstIPBlocks, npc.evalIPBlockPeer(peer)...) } } egressRule.ports = make([]protocolAndPort, 0) egressRule.namedPorts = make([]endPoints, 0) // If this field is empty or missing in the spec, this rule matches all ports if len(specEgressRule.Ports) == 0 { egressRule.matchAllPorts = true } else { egressRule.matchAllPorts = false egressRule.ports, egressRule.namedPorts = npc.processNetworkPolicyPorts(specEgressRule.Ports, namedPort2EgressEps) } newPolicy.egressRules = append(newPolicy.egressRules, egressRule) } NetworkPolicies = append(NetworkPolicies, newPolicy) } return NetworkPolicies, nil } func (npc *NetworkPolicyController) evalPodPeer(policy *networking.NetworkPolicy, peer networking.NetworkPolicyPeer) ([]*api.Pod, error) { var matchingPods []*api.Pod matchingPods = make([]*api.Pod, 0) var err error // spec can have both PodSelector AND NamespaceSelector if peer.NamespaceSelector != nil { namespaceSelector, _ := v1.LabelSelectorAsSelector(peer.NamespaceSelector) namespaces, err := npc.ListNamespaceByLabels(namespaceSelector) if err != nil { return nil, errors.New("Failed to build network policies info due to " + err.Error()) } podSelector := labels.Everything() if peer.PodSelector != nil { podSelector, _ = v1.LabelSelectorAsSelector(peer.PodSelector) } for _, namespace := range namespaces { namespacePods, err := npc.ListPodsByNamespaceAndLabels(namespace.Name, podSelector) if err != nil { return nil, errors.New("Failed to build network policies info due to " + err.Error()) } matchingPods = append(matchingPods, namespacePods...) } } else if peer.PodSelector != nil { podSelector, _ := v1.LabelSelectorAsSelector(peer.PodSelector) matchingPods, err = npc.ListPodsByNamespaceAndLabels(policy.Namespace, podSelector) } return matchingPods, err } func (npc *NetworkPolicyController) processNetworkPolicyPorts(npPorts []networking.NetworkPolicyPort, namedPort2eps namedPort2eps) (numericPorts []protocolAndPort, namedPorts []endPoints) { numericPorts, namedPorts = make([]protocolAndPort, 0), make([]endPoints, 0) for _, npPort := range npPorts { if npPort.Port == nil { numericPorts = append(numericPorts, protocolAndPort{port: "", protocol: string(*npPort.Protocol)}) } else if npPort.Port.Type == intstr.Int { numericPorts = append(numericPorts, protocolAndPort{port: npPort.Port.String(), protocol: string(*npPort.Protocol)}) } else { if protocol2eps, ok := namedPort2eps[npPort.Port.String()]; ok { if numericPort2eps, ok := protocol2eps[string(*npPort.Protocol)]; ok { for _, eps := range numericPort2eps { namedPorts = append(namedPorts, *eps) } } } } } return } func (npc *NetworkPolicyController) ListPodsByNamespaceAndLabels(namespace string, podSelector labels.Selector) (ret []*api.Pod, err error) { podLister := listers.NewPodLister(npc.podLister) allMatchedNameSpacePods, err := podLister.Pods(namespace).List(podSelector) if err != nil { return nil, err } return allMatchedNameSpacePods, nil } func (npc *NetworkPolicyController) ListNamespaceByLabels(namespaceSelector labels.Selector) ([]*api.Namespace, error) { namespaceLister := listers.NewNamespaceLister(npc.nsLister) matchedNamespaces, err := namespaceLister.List(namespaceSelector) if err != nil { return nil, err } return matchedNamespaces, nil } func (npc *NetworkPolicyController) evalIPBlockPeer(peer networking.NetworkPolicyPeer) [][]string { ipBlock := make([][]string, 0) if peer.PodSelector == nil && peer.NamespaceSelector == nil && peer.IPBlock != nil { if cidr := peer.IPBlock.CIDR; strings.HasSuffix(cidr, "/0") { ipBlock = append(ipBlock, []string{"0.0.0.0/1", utils.OptionTimeout, "0"}, []string{"128.0.0.0/1", utils.OptionTimeout, "0"}) } else { ipBlock = append(ipBlock, []string{cidr, utils.OptionTimeout, "0"}) } for _, except := range peer.IPBlock.Except { if strings.HasSuffix(except, "/0") { ipBlock = append(ipBlock, []string{"0.0.0.0/1", utils.OptionTimeout, "0", utils.OptionNoMatch}, []string{"128.0.0.0/1", utils.OptionTimeout, "0", utils.OptionNoMatch}) } else { ipBlock = append(ipBlock, []string{except, utils.OptionTimeout, "0", utils.OptionNoMatch}) } } } return ipBlock } func (npc *NetworkPolicyController) grabNamedPortFromPod(pod *api.Pod, namedPort2eps *namedPort2eps) { if pod == nil || namedPort2eps == nil { return } for k := range pod.Spec.Containers { for _, port := range pod.Spec.Containers[k].Ports { name := port.Name protocol := string(port.Protocol) containerPort := strconv.Itoa(int(port.ContainerPort)) if (*namedPort2eps)[name] == nil { (*namedPort2eps)[name] = make(protocol2eps) } if (*namedPort2eps)[name][protocol] == nil { (*namedPort2eps)[name][protocol] = make(numericPort2eps) } if eps, ok := (*namedPort2eps)[name][protocol][containerPort]; !ok { (*namedPort2eps)[name][protocol][containerPort] = &endPoints{ ips: []string{pod.Status.PodIP}, protocolAndPort: protocolAndPort{port: containerPort, protocol: protocol}, } } else { eps.ips = append(eps.ips, pod.Status.PodIP) } } } } func networkPolicyChainName(namespace, policyName string, version string) string { hash := sha256.Sum256([]byte(namespace + policyName + version)) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeNetworkPolicyChainPrefix + encoded[:16] } func policySourcePodIPSetName(namespace, policyName string) string { hash := sha256.Sum256([]byte(namespace + policyName)) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeSourceIPSetPrefix + encoded[:16] } func policyDestinationPodIPSetName(namespace, policyName string) string { hash := sha256.Sum256([]byte(namespace + policyName)) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeDestinationIPSetPrefix + encoded[:16] } func policyIndexedSourcePodIPSetName(namespace, policyName string, ingressRuleNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "ingressrule" + strconv.Itoa(ingressRuleNo) + "pod")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeSourceIPSetPrefix + encoded[:16] } func policyIndexedDestinationPodIPSetName(namespace, policyName string, egressRuleNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "egressrule" + strconv.Itoa(egressRuleNo) + "pod")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeDestinationIPSetPrefix + encoded[:16] } func policyIndexedSourceIPBlockIPSetName(namespace, policyName string, ingressRuleNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "ingressrule" + strconv.Itoa(ingressRuleNo) + "ipblock")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeSourceIPSetPrefix + encoded[:16] } func policyIndexedDestinationIPBlockIPSetName(namespace, policyName string, egressRuleNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "egressrule" + strconv.Itoa(egressRuleNo) + "ipblock")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeDestinationIPSetPrefix + encoded[:16] } func policyIndexedIngressNamedPortIPSetName(namespace, policyName string, ingressRuleNo, namedPortNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "ingressrule" + strconv.Itoa(ingressRuleNo) + strconv.Itoa(namedPortNo) + "namedport")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeDestinationIPSetPrefix + encoded[:16] } func policyIndexedEgressNamedPortIPSetName(namespace, policyName string, egressRuleNo, namedPortNo int) string { hash := sha256.Sum256([]byte(namespace + policyName + "egressrule" + strconv.Itoa(egressRuleNo) + strconv.Itoa(namedPortNo) + "namedport")) encoded := base32.StdEncoding.EncodeToString(hash[:]) return kubeDestinationIPSetPrefix + encoded[:16] }