These don't belong in pkg/proxy/util; they involve a completely
unrelated definition of proxying.
Since each is only used from one place, just inline them at the
callers.
kube-proxy sets the sysctl net.ipv4.conf.all.route_localnet=1
so NodePort services can be accessed on the loopback addresses in
IPv4, but this may present security issues.
Leverage the --nodeport-addresses flag to opt-out of this feature,
if the list is not empty and none of the IP ranges contains an IPv4
loopback address this sysctl is not set.
In addition, add a warning to inform users about this behavior.
* Fix regression in kube-proxy
Don't use a prepend() - that allocates. Instead, make Write() take
either strings or slices (I wish we could express that better).
* WIP: switch to intf
* WIP: less appends
* tests and ipvs
* Migrate to Structured Logs in `pkg/proxy/util`
* Minor fixes
* change key to cidr and remove namespace arg
* Update key from cidr to CIDR
Co-authored-by: JUN YANG <69306452+yangjunmyfm192085@users.noreply.github.com>
* Update key cidr to CIDR
Co-authored-by: JUN YANG <69306452+yangjunmyfm192085@users.noreply.github.com>
* Update key ip to IP
Co-authored-by: JUN YANG <69306452+yangjunmyfm192085@users.noreply.github.com>
* Update key ip to IP
Co-authored-by: JUN YANG <69306452+yangjunmyfm192085@users.noreply.github.com>
* Interchange svcNamespace and svcName
* Change first letter of all messages to capital
* Change key names in endpoints.go
* Change all keynames to lower bumby caps convention
Co-authored-by: JUN YANG <69306452+yangjunmyfm192085@users.noreply.github.com>
The nat KUBE-SERVICES chain is called from OUTPUT and PREROUTING stages. In
clusters with large number of services, the nat-KUBE-SERVICES chain is the largest
chain with for eg: 33k rules. This patch aims to move the KubeMarkMasq rules from
the kubeServicesChain into the respective KUBE-SVC-* chains. This way during each
packet-rule matching we won't have to traverse the MASQ rules of all services which
get accumulated in the KUBE-SERVICES and/or KUBE-NODEPORTS chains. Since the
jump to KUBE-MARK-MASQ ultimately sets the 0x400 mark for nodeIP SNAT, it should not
matter whether the jump is made from KUBE-SERVICES or KUBE-SVC-* chains.
Specifically we change:
1) For ClusterIP svc, we move the KUBE-MARK-MASQ jump rule from KUBE-SERVICES
chain into KUBE-SVC-* chain.
2) For ExternalIP svc, we move the KUBE-MARK-MASQ jump rule in the case of
non-ServiceExternalTrafficPolicyTypeLocal from KUBE-SERVICES
chain into KUBE-SVC-* chain.
3) For NodePorts svc, we move the KUBE-MARK-MASQ jump rule in case of
non-ServiceExternalTrafficPolicyTypeLocal from KUBE-NODEPORTS chain to
KUBE-SVC-* chain.
4) For load-balancer svc, we don't change anything since it is already svc specific
due to creation of KUBE-FW-* chains per svc.
This would cut the rules per svc in KUBE-SERVICES and KUBE-NODEPORTS in half.
* api: structure change
* api: defaulting, conversion, and validation
* [FIX] validation: auto remove second ip/family when service changes to SingleStack
* [FIX] api: defaulting, conversion, and validation
* api-server: clusterIPs alloc, printers, storage and strategy
* [FIX] clusterIPs default on read
* alloc: auto remove second ip/family when service changes to SingleStack
* api-server: repair loop handling for clusterIPs
* api-server: force kubernetes default service into single stack
* api-server: tie dualstack feature flag with endpoint feature flag
* controller-manager: feature flag, endpoint, and endpointSlice controllers handling multi family service
* [FIX] controller-manager: feature flag, endpoint, and endpointSlicecontrollers handling multi family service
* kube-proxy: feature-flag, utils, proxier, and meta proxier
* [FIX] kubeproxy: call both proxier at the same time
* kubenet: remove forced pod IP sorting
* kubectl: modify describe to include ClusterIPs, IPFamilies, and IPFamilyPolicy
* e2e: fix tests that depends on IPFamily field AND add dual stack tests
* e2e: fix expected error message for ClusterIP immutability
* add integration tests for dualstack
the third phase of dual stack is a very complex change in the API,
basically it introduces Dual Stack services. Main changes are:
- It pluralizes the Service IPFamily field to IPFamilies,
and removes the singular field.
- It introduces a new field IPFamilyPolicyType that can take
3 values to express the "dual-stack(mad)ness" of the cluster:
SingleStack, PreferDualStack and RequireDualStack
- It pluralizes ClusterIP to ClusterIPs.
The goal is to add coverage to the services API operations,
taking into account the 6 different modes a cluster can have:
- single stack: IP4 or IPv6 (as of today)
- dual stack: IPv4 only, IPv6 only, IPv4 - IPv6, IPv6 - IPv4
* [FIX] add integration tests for dualstack
* generated data
* generated files
Co-authored-by: Antonio Ojea <aojea@redhat.com>
The provided DialContext wraps existing clients' DialContext in an attempt to
preserve any existing timeout configuration. In some cases, we may replace
infinite timeouts with golang defaults.
- scaleio: tcp connect/keepalive values changed from 0/15 to 30/30
- storageos: no change
instead of receiving the service name and namespace we
can obtain it from the service object directly.
Signed-off-by: Antonio Ojea <antonio.ojea.garcia@gmail.com>
