k3s/pkg/agent/netpol/network_policy_controller.go

1743 lines
64 KiB
Go

// Apache License v2.0 (copyright Cloud Native Labs & Rancher Labs)
// - modified from https://github.com/cloudnativelabs/kube-router/blob/d6f9f31a7b/pkg/controllers/netpol/network_policy_controller.go
package netpol
import (
"crypto/sha256"
"encoding/base32"
"errors"
"fmt"
"net"
"regexp"
"strconv"
"strings"
"sync"
"time"
// "github.com/cloudnativelabs/kube-router/pkg/healthcheck"
// "github.com/cloudnativelabs/kube-router/pkg/metrics"
// "github.com/cloudnativelabs/kube-router/pkg/options"
// "github.com/cloudnativelabs/kube-router/pkg/utils"
"github.com/coreos/go-iptables/iptables"
api "k8s.io/api/core/v1"
apiextensions "k8s.io/api/extensions/v1beta1"
networking "k8s.io/api/networking/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/labels"
"k8s.io/apimachinery/pkg/util/intstr"
"k8s.io/client-go/informers"
"k8s.io/client-go/kubernetes"
listers "k8s.io/client-go/listers/core/v1"
"k8s.io/client-go/tools/cache"
log "k8s.io/klog"
)
const (
networkPolicyAnnotation = "net.beta.kubernetes.io/network-policy"
kubePodFirewallChainPrefix = "KUBE-POD-FW-"
kubeNetworkPolicyChainPrefix = "KUBE-NWPLCY-"
kubeSourceIPSetPrefix = "KUBE-SRC-"
kubeDestinationIPSetPrefix = "KUBE-DST-"
)
// Network policy controller provides both ingress and egress filtering for the pods as per the defined network
// policies. Two different types of iptables chains are used. Each pod running on the node which either
// requires ingress or egress filtering gets a pod specific chains. Each network policy has a iptables chain, which
// has rules expressed through ipsets matching source and destination pod ip's. In the FORWARD chain of the
// filter table a rule is added to jump the traffic originating (in case of egress network policy) from the pod
// or destined (in case of ingress network policy) to the pod specific iptables chain. Each
// pod specific iptables chain has rules to jump to the network polices chains, that pod matches. So packet
// originating/destined from/to pod goes through filter table's, FORWARD chain, followed by pod specific chain,
// followed by one or more network policy chains, till there is a match which will accept the packet, or gets
// dropped by the rule in the pod chain, if there is no match.
// NetworkPolicyController struct to hold information required by NetworkPolicyController
type NetworkPolicyController struct {
nodeIP net.IP
nodeHostName string
mu sync.Mutex
syncPeriod time.Duration
MetricsEnabled bool
v1NetworkPolicy bool
readyForUpdates bool
// healthChan chan<- *healthcheck.ControllerHeartbeat
// list of all active network policies expressed as networkPolicyInfo
networkPoliciesInfo *[]networkPolicyInfo
ipSetHandler *IPSet
podLister cache.Indexer
npLister cache.Indexer
nsLister cache.Indexer
PodEventHandler cache.ResourceEventHandler
NamespaceEventHandler cache.ResourceEventHandler
NetworkPolicyEventHandler cache.ResourceEventHandler
}
// internal structure to represent a network policy
type networkPolicyInfo struct {
name string
namespace string
labels map[string]string
// set of pods matching network policy spec podselector label selector
targetPods map[string]podInfo
// whitelist ingress rules from the network policy spec
ingressRules []ingressRule
// whitelist egress rules from the network policy spec
egressRules []egressRule
// policy type "ingress" or "egress" or "both" as defined by PolicyType in the spec
policyType string
}
// internal structure to represent Pod
type podInfo struct {
ip string
name string
namespace string
labels map[string]string
}
// internal structure to represent NetworkPolicyIngressRule in the spec
type ingressRule struct {
matchAllPorts bool
ports []protocolAndPort
namedPorts []endPoints
matchAllSource bool
srcPods []podInfo
srcIPBlocks [][]string
}
// internal structure to represent NetworkPolicyEgressRule in the spec
type egressRule struct {
matchAllPorts bool
ports []protocolAndPort
namedPorts []endPoints
matchAllDestinations bool
dstPods []podInfo
dstIPBlocks [][]string
}
type protocolAndPort struct {
protocol string
port string
}
type endPoints struct {
ips []string
protocolAndPort
}
type numericPort2eps map[string]*endPoints
type protocol2eps map[string]numericPort2eps
type namedPort2eps map[string]protocol2eps
// Run runs forever till we receive notification on stopCh
func (npc *NetworkPolicyController) Run(stopCh <-chan struct{}) {
t := time.NewTicker(npc.syncPeriod)
defer t.Stop()
log.Info("Starting network policy controller")
// npc.healthChan = healthChan
// loop forever till notified to stop on stopCh
for {
select {
case <-stopCh:
log.Info("Shutting down network policies controller")
return
default:
}
log.V(1).Info("Performing periodic sync of iptables to reflect network policies")
err := npc.Sync()
if err != nil {
log.Errorf("Error during periodic sync of network policies in network policy controller. Error: " + err.Error())
log.Errorf("Skipping sending heartbeat from network policy controller as periodic sync failed.")
}
// else {
// healthcheck.SendHeartBeat(healthChan, "NPC")
// }
npc.readyForUpdates = true
select {
case <-stopCh:
log.Infof("Shutting down network policies controller")
return
case <-t.C:
}
}
}
// OnPodUpdate handles updates to pods from the Kubernetes api server
func (npc *NetworkPolicyController) OnPodUpdate(obj interface{}) {
pod := obj.(*api.Pod)
log.V(2).Infof("Received update to pod: %s/%s", pod.Namespace, pod.Name)
if !npc.readyForUpdates {
log.V(3).Infof("Skipping update to pod: %s/%s, controller still performing bootup full-sync", pod.Namespace, pod.Name)
return
}
err := npc.Sync()
if err != nil {
log.Errorf("Error syncing network policy for the update to pod: %s/%s Error: %s", pod.Namespace, pod.Name, err)
}
}
// OnNetworkPolicyUpdate handles updates to network policy from the kubernetes api server
func (npc *NetworkPolicyController) OnNetworkPolicyUpdate(obj interface{}) {
netpol := obj.(*networking.NetworkPolicy)
log.V(2).Infof("Received update for network policy: %s/%s", netpol.Namespace, netpol.Name)
if !npc.readyForUpdates {
log.V(3).Infof("Skipping update to network policy: %s/%s, controller still performing bootup full-sync", netpol.Namespace, netpol.Name)
return
}
err := npc.Sync()
if err != nil {
log.Errorf("Error syncing network policy for the update to network policy: %s/%s Error: %s", netpol.Namespace, netpol.Name, err)
}
}
// OnNamespaceUpdate handles updates to namespace from kubernetes api server
func (npc *NetworkPolicyController) OnNamespaceUpdate(obj interface{}) {
namespace := obj.(*api.Namespace)
// namespace (and annotations on it) has no significance in GA ver of network policy
if npc.v1NetworkPolicy {
return
}
log.V(2).Infof("Received update for namespace: %s", namespace.Name)
err := npc.Sync()
if err != nil {
log.Errorf("Error syncing on namespace update: %s", err)
}
}
// Sync synchronizes iptables to desired state of network policies
func (npc *NetworkPolicyController) Sync() error {
var err error
npc.mu.Lock()
defer npc.mu.Unlock()
// healthcheck.SendHeartBeat(npc.healthChan, "NPC")
start := time.Now()
syncVersion := strconv.FormatInt(start.UnixNano(), 10)
defer func() {
endTime := time.Since(start)
// if npc.MetricsEnabled {
// metrics.ControllerIPtablesSyncTime.Observe(endTime.Seconds())
// }
log.V(1).Infof("sync iptables took %v", endTime)
}()
log.V(1).Infof("Starting sync of iptables with version: %s", syncVersion)
if npc.v1NetworkPolicy {
npc.networkPoliciesInfo, err = npc.buildNetworkPoliciesInfo()
if err != nil {
return errors.New("Aborting sync. Failed to build network policies: " + err.Error())
}
} else {
// TODO remove the Beta support
npc.networkPoliciesInfo, err = npc.buildBetaNetworkPoliciesInfo()
if err != nil {
return errors.New("Aborting sync. Failed to build network policies: " + err.Error())
}
}
activePolicyChains, activePolicyIPSets, err := npc.syncNetworkPolicyChains(syncVersion)
if err != nil {
return errors.New("Aborting sync. Failed to sync network policy chains: " + err.Error())
}
activePodFwChains, err := npc.syncPodFirewallChains(syncVersion)
if err != nil {
return errors.New("Aborting sync. Failed to sync pod firewalls: " + err.Error())
}
err = cleanupStaleRules(activePolicyChains, activePodFwChains, activePolicyIPSets)
if err != nil {
return errors.New("Aborting sync. Failed to cleanup stale iptables rules: " + err.Error())
}
return nil
}
// 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(version string) (map[string]bool, map[string]bool, error) {
start := time.Now()
defer func() {
endTime := time.Since(start)
// metrics.ControllerPolicyChainsSyncTime.Observe(endTime.Seconds())
log.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 {
log.Fatalf("Failed to initialize iptables executor due to: %s", err.Error())
}
// run through all network policies
for _, policy := range *npc.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
// 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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return nil, nil, fmt.Errorf("failed to create ipset: %s", err.Error())
}
// 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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return nil, nil, fmt.Errorf("failed to create ipset: %s", err.Error())
}
activePolicyIPSets[targetDestPodIPSet.Name] = true
activePolicyIPSets[targetSourcePodIPSet.Name] = true
currentPodIPs := make([]string, 0, len(policy.targetPods))
for ip := range policy.targetPods {
currentPodIPs = append(currentPodIPs, ip)
}
err = targetSourcePodIPSet.Refresh(currentPodIPs, OptionTimeout, "0")
if err != nil {
log.Errorf("failed to refresh targetSourcePodIPSet: " + err.Error())
}
err = targetDestPodIPSet.Refresh(currentPodIPs, OptionTimeout, "0")
if err != nil {
log.Errorf("failed to refresh targetDestPodIPSet: " + err.Error())
}
err = npc.processIngressRules(policy, targetDestPodIPSetName, activePolicyIPSets, version)
if err != nil {
return nil, nil, err
}
err = npc.processEgressRules(policy, targetSourcePodIPSetName, activePolicyIPSets, version)
if err != nil {
return nil, nil, err
}
}
log.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, TypeHashIP, 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, OptionTimeout, "0")
if err != nil {
log.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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return fmt.Errorf("failed to create ipset: %s", err.Error())
}
activePolicyIPSets[namedPortIPSet.Name] = true
err = namedPortIPSet.Refresh(endPoints.ips, OptionTimeout, "0")
if err != nil {
log.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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return fmt.Errorf("failed to create ipset: %s", err.Error())
}
activePolicyIPSets[namedPortIPSet.Name] = true
err = namedPortIPSet.Refresh(endPoints.ips, OptionTimeout, "0")
if err != nil {
log.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 specified 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, TypeHashNet, 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 {
log.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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return fmt.Errorf("failed to create ipset: %s", err.Error())
}
activePolicyIPSets[namedPortIPSet.Name] = true
err = namedPortIPSet.Refresh(endPoints.ips, OptionTimeout, "0")
if err != nil {
log.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, TypeHashIP, 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, OptionTimeout, "0")
if err != nil {
log.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, TypeHashIP, OptionTimeout, "0")
if err != nil {
return fmt.Errorf("failed to create ipset: %s", err.Error())
}
activePolicyIPSets[namedPortIPSet.Name] = true
err = namedPortIPSet.Refresh(endPoints.ips, OptionTimeout, "0")
if err != nil {
log.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 specified 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, TypeHashNet, 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 {
log.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", "--set", srcIPSetName, "src")
}
if dstIPSetName != "" {
args = append(args, "-m", "set", "--set", dstIPSetName, "dst")
}
if protocol != "" {
args = append(args, "-p", protocol)
}
if dPort != "" {
args = append(args, "--dport", dPort)
}
args = append(args, "-j", "ACCEPT")
err := iptablesCmdHandler.AppendUnique("filter", policyChainName, args...)
if err != nil {
return fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
return nil
}
func (npc *NetworkPolicyController) syncPodFirewallChains(version string) (map[string]bool, error) {
activePodFwChains := make(map[string]bool)
iptablesCmdHandler, err := iptables.New()
if err != nil {
log.Fatalf("Failed to initialize iptables executor: %s", err.Error())
}
// loop through the pods running on the node which to which ingress network policies to be applied
ingressNetworkPolicyEnabledPods, err := npc.getIngressNetworkPolicyEnabledPods(npc.nodeIP.String())
if err != nil {
return nil, err
}
for _, pod := range *ingressNetworkPolicyEnabledPods {
// below condition occurs when we get trasient update while removing or adding pod
// subseqent update will do the correct action
if len(pod.ip) == 0 || pod.ip == "" {
continue
}
// ensure pod specific firewall chain exist for all the pods that need ingress firewall
podFwChainName := podFirewallChainName(pod.namespace, pod.name, version)
err = iptablesCmdHandler.NewChain("filter", podFwChainName)
if err != nil && err.(*iptables.Error).ExitStatus() != 1 {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
activePodFwChains[podFwChainName] = true
// add entries in pod firewall to run through required network policies
for _, policy := range *npc.networkPoliciesInfo {
if _, ok := policy.targetPods[pod.ip]; ok {
comment := "run through nw policy " + policy.name
policyChainName := networkPolicyChainName(policy.namespace, policy.name, version)
args := []string{"-m", "comment", "--comment", comment, "-j", policyChainName}
exists, err := iptablesCmdHandler.Exists("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", podFwChainName, 1, args...)
if err != nil && err.(*iptables.Error).ExitStatus() != 1 {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
}
}
comment := "rule to permit the traffic traffic to pods when source is the pod's local node"
args := []string{"-m", "comment", "--comment", comment, "-m", "addrtype", "--src-type", "LOCAL", "-d", pod.ip, "-j", "ACCEPT"}
exists, err := iptablesCmdHandler.Exists("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", podFwChainName, 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// ensure there is rule in filter table and FORWARD chain to jump to pod specific firewall chain
// this rule applies to the traffic getting routed (coming for other node pods)
comment = "rule to jump traffic destined to POD name:" + pod.name + " namespace: " + pod.namespace +
" to chain " + podFwChainName
args = []string{"-m", "comment", "--comment", comment, "-d", pod.ip, "-j", podFwChainName}
exists, err = iptablesCmdHandler.Exists("filter", "FORWARD", args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", "FORWARD", 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// ensure there is rule in filter table and OUTPUT chain to jump to pod specific firewall chain
// this rule applies to the traffic from a pod getting routed back to another pod on same node by service proxy
exists, err = iptablesCmdHandler.Exists("filter", "OUTPUT", args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", "OUTPUT", 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// ensure there is rule in filter table and forward chain to jump to pod specific firewall chain
// this rule applies to the traffic getting switched (coming for same node pods)
comment = "rule to jump traffic destined to POD name:" + pod.name + " namespace: " + pod.namespace +
" to chain " + podFwChainName
args = []string{"-m", "physdev", "--physdev-is-bridged",
"-m", "comment", "--comment", comment,
"-d", pod.ip,
"-j", podFwChainName}
exists, err = iptablesCmdHandler.Exists("filter", "FORWARD", args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err = iptablesCmdHandler.Insert("filter", "FORWARD", 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// add default DROP rule at the end of chain
comment = "default rule to REJECT traffic destined for POD name:" + pod.name + " namespace: " + pod.namespace
args = []string{"-m", "comment", "--comment", comment, "-j", "REJECT"}
err = iptablesCmdHandler.AppendUnique("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
// ensure stateful firewall, that permits return traffic for the traffic originated by the pod
comment = "rule for stateful firewall for pod"
args = []string{"-m", "comment", "--comment", comment, "-m", "conntrack", "--ctstate", "RELATED,ESTABLISHED", "-j", "ACCEPT"}
exists, err = iptablesCmdHandler.Exists("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", podFwChainName, 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
}
// loop through the pods running on the node which egress network policies to be applied
egressNetworkPolicyEnabledPods, err := npc.getEgressNetworkPolicyEnabledPods(npc.nodeIP.String())
if err != nil {
return nil, err
}
for _, pod := range *egressNetworkPolicyEnabledPods {
// below condition occurs when we get trasient update while removing or adding pod
// subseqent update will do the correct action
if len(pod.ip) == 0 || pod.ip == "" {
continue
}
// ensure pod specific firewall chain exist for all the pods that need egress firewall
podFwChainName := podFirewallChainName(pod.namespace, pod.name, version)
err = iptablesCmdHandler.NewChain("filter", podFwChainName)
if err != nil && err.(*iptables.Error).ExitStatus() != 1 {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
activePodFwChains[podFwChainName] = true
// add entries in pod firewall to run through required network policies
for _, policy := range *npc.networkPoliciesInfo {
if _, ok := policy.targetPods[pod.ip]; ok {
comment := "run through nw policy " + policy.name
policyChainName := networkPolicyChainName(policy.namespace, policy.name, version)
args := []string{"-m", "comment", "--comment", comment, "-j", policyChainName}
exists, err := iptablesCmdHandler.Exists("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", podFwChainName, 1, args...)
if err != nil && err.(*iptables.Error).ExitStatus() != 1 {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
}
}
// ensure there is rule in filter table and FORWARD chain to jump to pod specific firewall chain
// this rule applies to the traffic getting routed (coming for other node pods)
comment := "rule to jump traffic from POD name:" + pod.name + " namespace: " + pod.namespace +
" to chain " + podFwChainName
args := []string{"-m", "comment", "--comment", comment, "-s", pod.ip, "-j", podFwChainName}
exists, err := iptablesCmdHandler.Exists("filter", "FORWARD", args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", "FORWARD", 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// ensure there is rule in filter table and forward chain to jump to pod specific firewall chain
// this rule applies to the traffic getting switched (coming for same node pods)
comment = "rule to jump traffic from POD name:" + pod.name + " namespace: " + pod.namespace +
" to chain " + podFwChainName
args = []string{"-m", "physdev", "--physdev-is-bridged",
"-m", "comment", "--comment", comment,
"-s", pod.ip,
"-j", podFwChainName}
exists, err = iptablesCmdHandler.Exists("filter", "FORWARD", args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err = iptablesCmdHandler.Insert("filter", "FORWARD", 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
// add default DROP rule at the end of chain
comment = "default rule to REJECT traffic destined for POD name:" + pod.name + " namespace: " + pod.namespace
args = []string{"-m", "comment", "--comment", comment, "-j", "REJECT"}
err = iptablesCmdHandler.AppendUnique("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
// ensure stateful firewall, that permits return traffic for the traffic originated by the pod
comment = "rule for stateful firewall for pod"
args = []string{"-m", "comment", "--comment", comment, "-m", "conntrack", "--ctstate", "RELATED,ESTABLISHED", "-j", "ACCEPT"}
exists, err = iptablesCmdHandler.Exists("filter", podFwChainName, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
if !exists {
err := iptablesCmdHandler.Insert("filter", podFwChainName, 1, args...)
if err != nil {
return nil, fmt.Errorf("Failed to run iptables command: %s", err.Error())
}
}
}
return activePodFwChains, nil
}
func cleanupStaleRules(activePolicyChains, activePodFwChains, activePolicyIPSets map[string]bool) error {
cleanupPodFwChains := make([]string, 0)
cleanupPolicyChains := make([]string, 0)
cleanupPolicyIPSets := make([]*Set, 0)
iptablesCmdHandler, err := iptables.New()
if err != nil {
log.Fatalf("failed to initialize iptables command executor due to %s", err.Error())
}
ipsets, err := NewIPSet(false)
if err != nil {
log.Fatalf("failed to create ipsets command executor due to %s", err.Error())
}
err = ipsets.Save()
if err != nil {
log.Fatalf("failed to initialize ipsets command executor due to %s", err.Error())
}
// get the list of chains created for pod firewall and network policies
chains, err := iptablesCmdHandler.ListChains("filter")
for _, chain := range chains {
if strings.HasPrefix(chain, kubeNetworkPolicyChainPrefix) {
if _, ok := activePolicyChains[chain]; !ok {
cleanupPolicyChains = append(cleanupPolicyChains, chain)
}
}
if strings.HasPrefix(chain, kubePodFirewallChainPrefix) {
if _, ok := activePodFwChains[chain]; !ok {
cleanupPodFwChains = append(cleanupPodFwChains, chain)
}
}
}
for _, set := range ipsets.Sets {
if strings.HasPrefix(set.Name, kubeSourceIPSetPrefix) ||
strings.HasPrefix(set.Name, kubeDestinationIPSetPrefix) {
if _, ok := activePolicyIPSets[set.Name]; !ok {
cleanupPolicyIPSets = append(cleanupPolicyIPSets, set)
}
}
}
// cleanup FORWARD chain rules to jump to pod firewall
for _, chain := range cleanupPodFwChains {
forwardChainRules, err := iptablesCmdHandler.List("filter", "FORWARD")
if err != nil {
return fmt.Errorf("failed to list rules in filter table, FORWARD chain due to %s", err.Error())
}
outputChainRules, err := iptablesCmdHandler.List("filter", "OUTPUT")
if err != nil {
return fmt.Errorf("failed to list rules in filter table, OUTPUT chain due to %s", err.Error())
}
// TODO delete rule by spec, than rule number to avoid extra loop
var realRuleNo int
for i, rule := range forwardChainRules {
if strings.Contains(rule, chain) {
err = iptablesCmdHandler.Delete("filter", "FORWARD", strconv.Itoa(i-realRuleNo))
if err != nil {
return fmt.Errorf("failed to delete rule: %s from the FORWARD chain of filter table due to %s", rule, err.Error())
}
realRuleNo++
}
}
realRuleNo = 0
for i, rule := range outputChainRules {
if strings.Contains(rule, chain) {
err = iptablesCmdHandler.Delete("filter", "OUTPUT", strconv.Itoa(i-realRuleNo))
if err != nil {
return fmt.Errorf("failed to delete rule: %s from the OUTPUT chain of filter table due to %s", rule, err.Error())
}
realRuleNo++
}
}
}
// cleanup pod firewall chain
for _, chain := range cleanupPodFwChains {
log.V(2).Infof("Found pod fw chain to cleanup: %s", chain)
err = iptablesCmdHandler.ClearChain("filter", chain)
if err != nil {
return fmt.Errorf("Failed to flush the rules in chain %s due to %s", chain, err.Error())
}
err = iptablesCmdHandler.DeleteChain("filter", chain)
if err != nil {
return fmt.Errorf("Failed to delete the chain %s due to %s", chain, err.Error())
}
log.V(2).Infof("Deleted pod specific firewall chain: %s from the filter table", chain)
}
// cleanup network policy chains
for _, policyChain := range cleanupPolicyChains {
log.V(2).Infof("Found policy chain to cleanup %s", policyChain)
// first clean up any references from pod firewall chain
for podFwChain := range activePodFwChains {
podFwChainRules, err := iptablesCmdHandler.List("filter", podFwChain)
if err != nil {
}
for i, rule := range podFwChainRules {
if strings.Contains(rule, policyChain) {
err = iptablesCmdHandler.Delete("filter", podFwChain, strconv.Itoa(i))
if err != nil {
return fmt.Errorf("Failed to delete rule %s from the chain %s", rule, podFwChain)
}
break
}
}
}
err = iptablesCmdHandler.ClearChain("filter", policyChain)
if err != nil {
return fmt.Errorf("Failed to flush the rules in chain %s due to %s", policyChain, err)
}
err = iptablesCmdHandler.DeleteChain("filter", policyChain)
if err != nil {
return fmt.Errorf("Failed to flush the rules in chain %s due to %s", policyChain, err)
}
log.V(2).Infof("Deleted network policy chain: %s from the filter table", policyChain)
}
// cleanup network policy ipsets
for _, set := range cleanupPolicyIPSets {
err = set.Destroy()
if err != nil {
return fmt.Errorf("Failed to delete ipset %s due to %s", set.Name, err)
}
}
return nil
}
func (npc *NetworkPolicyController) getIngressNetworkPolicyEnabledPods(nodeIP string) (*map[string]podInfo, error) {
nodePods := make(map[string]podInfo)
for _, obj := range npc.podLister.List() {
pod := obj.(*api.Pod)
if strings.Compare(pod.Status.HostIP, nodeIP) != 0 {
continue
}
for _, policy := range *npc.networkPoliciesInfo {
if policy.namespace != pod.ObjectMeta.Namespace {
continue
}
_, ok := policy.targetPods[pod.Status.PodIP]
if ok && (policy.policyType == "both" || policy.policyType == "ingress") {
log.V(2).Infof("Found pod name: " + pod.ObjectMeta.Name + " namespace: " + pod.ObjectMeta.Namespace + " for which network policies need to be applied.")
nodePods[pod.Status.PodIP] = podInfo{ip: pod.Status.PodIP,
name: pod.ObjectMeta.Name,
namespace: pod.ObjectMeta.Namespace,
labels: pod.ObjectMeta.Labels}
break
}
}
}
return &nodePods, nil
}
func (npc *NetworkPolicyController) getEgressNetworkPolicyEnabledPods(nodeIP string) (*map[string]podInfo, error) {
nodePods := make(map[string]podInfo)
for _, obj := range npc.podLister.List() {
pod := obj.(*api.Pod)
if strings.Compare(pod.Status.HostIP, nodeIP) != 0 {
continue
}
for _, policy := range *npc.networkPoliciesInfo {
if policy.namespace != pod.ObjectMeta.Namespace {
continue
}
_, ok := policy.targetPods[pod.Status.PodIP]
if ok && (policy.policyType == "both" || policy.policyType == "egress") {
log.V(2).Infof("Found pod name: " + pod.ObjectMeta.Name + " namespace: " + pod.ObjectMeta.Namespace + " for which network policies need to be applied.")
nodePods[pod.Status.PodIP] = podInfo{ip: pod.Status.PodIP,
name: pod.ObjectMeta.Name,
namespace: pod.ObjectMeta.Namespace,
labels: pod.ObjectMeta.Labels}
break
}
}
}
return &nodePods, nil
}
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) processBetaNetworkPolicyPorts(npPorts []apiextensions.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) buildNetworkPoliciesInfo() (*[]networkPolicyInfo, error) {
NetworkPolicies := make([]networkPolicyInfo, 0)
for _, policyObj := range npc.npLister.List() {
policy, ok := policyObj.(*networking.NetworkPolicy)
if !ok {
return nil, fmt.Errorf("Failed to convert")
}
newPolicy := networkPolicyInfo{
name: policy.Name,
namespace: policy.Namespace,
labels: policy.Spec.PodSelector.MatchLabels,
policyType: "ingress",
}
// check if there is explicitly specified PolicyTypes in the spec
if len(policy.Spec.PolicyTypes) > 0 {
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"
}
} else {
if policy.Spec.Egress != nil && policy.Spec.Ingress != nil {
newPolicy.policyType = "both"
} else if policy.Spec.Egress != nil {
newPolicy.policyType = "egress"
} else if policy.Spec.Ingress != nil {
newPolicy.policyType = "ingress"
}
}
matchingPods, err := npc.ListPodsByNamespaceAndLabels(policy.Namespace, policy.Spec.PodSelector.MatchLabels)
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 {
namespaces, err := npc.ListNamespaceByLabels(peer.NamespaceSelector.MatchLabels)
if err != nil {
return nil, errors.New("Failed to build network policies info due to " + err.Error())
}
var podSelectorLabels map[string]string
if peer.PodSelector != nil {
podSelectorLabels = peer.PodSelector.MatchLabels
}
for _, namespace := range namespaces {
namespacePods, err := npc.ListPodsByNamespaceAndLabels(namespace.Name, podSelectorLabels)
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 {
matchingPods, err = npc.ListPodsByNamespaceAndLabels(policy.Namespace, peer.PodSelector.MatchLabels)
}
return matchingPods, err
}
func (npc *NetworkPolicyController) ListPodsByNamespaceAndLabels(namespace string, labelsToMatch labels.Set) (ret []*api.Pod, err error) {
podLister := listers.NewPodLister(npc.podLister)
allMatchedNameSpacePods, err := podLister.Pods(namespace).List(labelsToMatch.AsSelector())
if err != nil {
return nil, err
}
return allMatchedNameSpacePods, nil
}
func (npc *NetworkPolicyController) ListNamespaceByLabels(set labels.Set) ([]*api.Namespace, error) {
namespaceLister := listers.NewNamespaceLister(npc.nsLister)
matchedNamespaces, err := namespaceLister.List(set.AsSelector())
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", OptionTimeout, "0"}, []string{"128.0.0.0/1", OptionTimeout, "0"})
} else {
ipBlock = append(ipBlock, []string{cidr, OptionTimeout, "0"})
}
for _, except := range peer.IPBlock.Except {
if strings.HasSuffix(except, "/0") {
ipBlock = append(ipBlock, []string{"0.0.0.0/1", OptionTimeout, "0", OptionNoMatch}, []string{"128.0.0.0/1", OptionTimeout, "0", OptionNoMatch})
} else {
ipBlock = append(ipBlock, []string{except, OptionTimeout, "0", 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 (npc *NetworkPolicyController) buildBetaNetworkPoliciesInfo() (*[]networkPolicyInfo, error) {
NetworkPolicies := make([]networkPolicyInfo, 0)
for _, policyObj := range npc.npLister.List() {
policy, _ := policyObj.(*apiextensions.NetworkPolicy)
newPolicy := networkPolicyInfo{
name: policy.Name,
namespace: policy.Namespace,
labels: policy.Spec.PodSelector.MatchLabels,
}
matchingPods, err := npc.ListPodsByNamespaceAndLabels(policy.Namespace, policy.Spec.PodSelector.MatchLabels)
newPolicy.targetPods = make(map[string]podInfo)
newPolicy.ingressRules = make([]ingressRule, 0)
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)
}
}
for _, specIngressRule := range policy.Spec.Ingress {
ingressRule := ingressRule{}
ingressRule.ports = make([]protocolAndPort, 0)
ingressRule.namedPorts = make([]endPoints, 0)
ingressRule.ports, ingressRule.namedPorts = npc.processBetaNetworkPolicyPorts(specIngressRule.Ports, namedPort2IngressEps)
ingressRule.srcPods = make([]podInfo, 0)
for _, peer := range specIngressRule.From {
matchingPods, err := npc.ListPodsByNamespaceAndLabels(policy.Namespace, peer.PodSelector.MatchLabels)
if err == nil {
for _, matchingPod := range matchingPods {
if matchingPod.Status.PodIP == "" {
continue
}
ingressRule.srcPods = append(ingressRule.srcPods,
podInfo{ip: matchingPod.Status.PodIP,
name: matchingPod.ObjectMeta.Name,
namespace: matchingPod.ObjectMeta.Namespace,
labels: matchingPod.ObjectMeta.Labels})
}
}
}
newPolicy.ingressRules = append(newPolicy.ingressRules, ingressRule)
}
NetworkPolicies = append(NetworkPolicies, newPolicy)
}
return &NetworkPolicies, nil
}
func podFirewallChainName(namespace, podName string, version string) string {
hash := sha256.Sum256([]byte(namespace + podName + version))
encoded := base32.StdEncoding.EncodeToString(hash[:])
return kubePodFirewallChainPrefix + encoded[:16]
}
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]
}
// Cleanup cleanup configurations done
func (npc *NetworkPolicyController) Cleanup() {
log.Info("Cleaning up iptables configuration permanently done by kube-router")
iptablesCmdHandler, err := iptables.New()
if err != nil {
log.Errorf("Failed to initialize iptables executor: %s", err.Error())
}
// delete jump rules in FORWARD chain to pod specific firewall chain
forwardChainRules, err := iptablesCmdHandler.List("filter", "FORWARD")
if err != nil {
log.Errorf("Failed to delete iptables rules as part of cleanup")
return
}
// TODO: need a better way to delte rule with out using number
var realRuleNo int
for i, rule := range forwardChainRules {
if strings.Contains(rule, kubePodFirewallChainPrefix) {
err = iptablesCmdHandler.Delete("filter", "FORWARD", strconv.Itoa(i-realRuleNo))
realRuleNo++
}
}
// delete jump rules in OUTPUT chain to pod specific firewall chain
forwardChainRules, err = iptablesCmdHandler.List("filter", "OUTPUT")
if err != nil {
log.Errorf("Failed to delete iptables rules as part of cleanup")
return
}
// TODO: need a better way to delte rule with out using number
realRuleNo = 0
for i, rule := range forwardChainRules {
if strings.Contains(rule, kubePodFirewallChainPrefix) {
err = iptablesCmdHandler.Delete("filter", "OUTPUT", strconv.Itoa(i-realRuleNo))
realRuleNo++
}
}
// flush and delete pod specific firewall chain
chains, err := iptablesCmdHandler.ListChains("filter")
for _, chain := range chains {
if strings.HasPrefix(chain, kubePodFirewallChainPrefix) {
err = iptablesCmdHandler.ClearChain("filter", chain)
if err != nil {
log.Errorf("Failed to cleanup iptables rules: " + err.Error())
return
}
err = iptablesCmdHandler.DeleteChain("filter", chain)
if err != nil {
log.Errorf("Failed to cleanup iptables rules: " + err.Error())
return
}
}
}
// flush and delete per network policy specific chain
chains, err = iptablesCmdHandler.ListChains("filter")
for _, chain := range chains {
if strings.HasPrefix(chain, kubeNetworkPolicyChainPrefix) {
err = iptablesCmdHandler.ClearChain("filter", chain)
if err != nil {
log.Errorf("Failed to cleanup iptables rules: " + err.Error())
return
}
err = iptablesCmdHandler.DeleteChain("filter", chain)
if err != nil {
log.Errorf("Failed to cleanup iptables rules: " + err.Error())
return
}
}
}
// delete all ipsets
ipset, err := NewIPSet(false)
if err != nil {
log.Errorf("Failed to clean up ipsets: " + err.Error())
}
err = ipset.Save()
if err != nil {
log.Errorf("Failed to clean up ipsets: " + err.Error())
}
err = ipset.DestroyAllWithin()
if err != nil {
log.Errorf("Failed to clean up ipsets: " + err.Error())
}
log.Infof("Successfully cleaned the iptables configuration done by kube-router")
}
func (npc *NetworkPolicyController) newPodEventHandler() cache.ResourceEventHandler {
return cache.ResourceEventHandlerFuncs{
AddFunc: func(obj interface{}) {
npc.OnPodUpdate(obj)
},
UpdateFunc: func(oldObj, newObj interface{}) {
newPoObj := newObj.(*api.Pod)
oldPoObj := oldObj.(*api.Pod)
if newPoObj.Status.Phase != oldPoObj.Status.Phase || newPoObj.Status.PodIP != oldPoObj.Status.PodIP {
// for the network policies, we are only interested in pod status phase change or IP change
npc.OnPodUpdate(newObj)
}
},
DeleteFunc: func(obj interface{}) {
npc.OnPodUpdate(obj)
},
}
}
func (npc *NetworkPolicyController) newNamespaceEventHandler() cache.ResourceEventHandler {
return cache.ResourceEventHandlerFuncs{
AddFunc: func(obj interface{}) {
npc.OnNamespaceUpdate(obj)
},
UpdateFunc: func(oldObj, newObj interface{}) {
npc.OnNamespaceUpdate(newObj)
},
DeleteFunc: func(obj interface{}) {
npc.OnNamespaceUpdate(obj)
},
}
}
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.OnNetworkPolicyUpdate(obj)
},
}
}
// NewNetworkPolicyController returns new NetworkPolicyController object
func NewNetworkPolicyController(
stopCh <-chan struct{},
clientset kubernetes.Interface,
ipTablesSyncPeriod time.Duration,
hostnameOverride string) (*NetworkPolicyController, error) {
npc := NetworkPolicyController{}
informerFactory := informers.NewSharedInformerFactory(clientset, 0)
podInformer := informerFactory.Core().V1().Pods().Informer()
nsInformer := informerFactory.Core().V1().Namespaces().Informer()
npInformer := informerFactory.Networking().V1().NetworkPolicies().Informer()
informerFactory.Start(stopCh)
// if config.MetricsEnabled {
// //Register the metrics for this controller
// prometheus.MustRegister(metrics.ControllerIPtablesSyncTime)
// prometheus.MustRegister(metrics.ControllerPolicyChainsSyncTime)
// npc.MetricsEnabled = true
// }
npc.syncPeriod = ipTablesSyncPeriod
npc.v1NetworkPolicy = true
v, _ := clientset.Discovery().ServerVersion()
valid := regexp.MustCompile("[0-9]")
v.Minor = strings.Join(valid.FindAllString(v.Minor, -1), "")
minorVer, _ := strconv.Atoi(v.Minor)
if v.Major == "1" && minorVer < 7 {
npc.v1NetworkPolicy = false
}
node, err := clientset.CoreV1().Nodes().Get(hostnameOverride, metav1.GetOptions{})
if err != nil {
return nil, err
}
npc.nodeHostName = node.Name
nodeIP, err := GetNodeIP(node)
if err != nil {
return nil, err
}
npc.nodeIP = nodeIP
ipset, err := NewIPSet(false)
if err != nil {
return nil, err
}
err = ipset.Save()
if err != nil {
return nil, err
}
npc.ipSetHandler = ipset
npc.podLister = podInformer.GetIndexer()
npc.PodEventHandler = npc.newPodEventHandler()
npc.nsLister = nsInformer.GetIndexer()
npc.NamespaceEventHandler = npc.newNamespaceEventHandler()
npc.npLister = npInformer.GetIndexer()
npc.NetworkPolicyEventHandler = npc.newNetworkPolicyEventHandler()
return &npc, nil
}