Based on the original ip-masq-agent, v2 aims to solve more specific networking cases, allow for more configuration options, and improve observability. This includes:
- Merging configuration from multiple sources
- Detecting conflicting configurations
- Fixing security vulnerabilities
- Quickly crashing on errors
The ip-masq-agent configures iptables
rules to MASQUERADE
traffic outside link-local (optional, enabled by default) and additional arbitrary IP ranges.
It creates an iptables
chain called IP-MASQ-AGENT
, which contains match rules for link local (169.254.0.0/16
) and each of the user-specified IP ranges. It also creates a rule in POSTROUTING
that jumps to this chain for any traffic not bound for a LOCAL
destination.
IPs that match the rules (except for the final rule) in IP-MASQ-AGENT
are not subject to MASQUERADE
via the IP-MASQ-AGENT
chain (they RETURN
early from the chain). The final rule in the IP-MASQ-AGENT
chain will MASQUERADE
any non-LOCAL
traffic.
RETURN
in IP-MASQ-AGENT
resumes rule processing at the next rule the calling chain, POSTROUTING
. Take care to avoid creating additional rules in POSTROUTING
that cause packets bound for your configured ranges to undergo MASQUERADE
.
This repo includes an example yaml file that can be used to launch the ip-masq-agent as a DaemonSet in a Kubernetes cluster.
kubectl create -f examples/ip-masq-agent.yaml
Important: You should not attempt to run this agent in a cluster where the Kubelet is also configuring a non-masquerade CIDR. You can pass --non-masquerade-cidr=0.0.0.0/0
to the Kubelet to nullify its rule, which will prevent the Kubelet from interfering with this agent.
By default, the agent is configured to treat the three private IP ranges specified by RFC 1918 as non-masquerade CIDRs. These ranges are 10.0.0.0/8
, 172.16.0.0/12
, and 192.168.0.0/16
. To change this behavior, see the flags section below. The agent will also treat link-local (169.254.0.0/16
) as a non-masquerade CIDR by default.
By default, the agent is configured to reload its configuration from the /etc/config/
directory in its container every 60 seconds.
The agent configuration file should be written in yaml or json syntax, and may contain three optional keys:
nonMasqueradeCIDRs []string
: A list strings in CIDR notation that specify the non-masquerade ranges.masqLinkLocal bool
: Whether to masquerade traffic to169.254.0.0/16
. False by default.masqLinkLocalIPv6 bool
: Whether to masquerade traffic tofe80::/10
. False by default.
The agent will look for config files in its container at /etc/config/
. This file can be provided via a ConfigMap
, plumbed into the container by specifying it as a projected volume, and mounting it.
As a result, the agent can be reconfigured in a live cluster by creating or editing these ConfigMaps
. Please ensure that your file name in the ConfigMaps
matches the config file prefix: ip-masq-*
.
This repo includes an example use-case. You can modify it to your needs and apply it to your cluster:
kubectl create configmap examples/config-custom.yaml
Note that we created the ConfigMap
in the same namespace as the DaemonSet Pods, and named the ConfigMap
to match the spec in examples/ip-masq-agent.yaml
. This is necessary for the ConfigMap
to appear in the Pods' filesystems.
Tolerance of multiple ConfigMaps
allows custom keys to be defined while avoiding conflicts of any ConfigMaps
that will need to be reconciled dynamically. This repo also provides an example of what might be configured by a cloud provider:
kubectl create configmap examples/config-reconciled.yaml
The cloud provider may wish to reconcile a ConfigMap
so that it can be in-sync with the subnet of the cluster.
The agent accepts multiple flags, which may be specified in the yaml file.
masq-chain
: The name of the iptables
chain to use. Default set to IP-MASQ-AGENT
.
nomasq-all-reserved-ranges
: Whether or not to masquerade all RFC reserved ranges when the configmap is empty. The default is false
. When false
, the agent will masquerade to every destination except the ranges reserved by RFC 1918 (namely 10.0.0.0/8
, 172.16.0.0/12
, and 192.168.0.0/16
). When true
, the agent will masquerade to every destination that is not marked reserved by an RFC. The full list of ranges is (10.0.0.0/8
, 172.16.0.0/12
, 192.168.0.0/16
, 100.64.0.0/10
, 192.0.0.0/24
, 192.0.2.0/24
, 192.88.99.0/24
, 198.18.0.0/15
, 198.51.100.0/24
, 203.0.113.0/24
, and 240.0.0.0/4
). Note however, that this list of ranges is overridden by specifying the nonMasqueradeCIDRs key in the agent configmap.
enable-ipv6
: Whether to configure ip6tables rules. Default is false
.
resync-interval
: How often to refresh the config (in seconds). Default set to 60
.
klog also offers a range of flags that the agent inherits from (e.g. --v
for log verbosity level).
(from the incubator proposal)
This agent solves the problem of configuring the CIDR ranges for non-masquerade in a cluster (via iptables rules). Today, this is accomplished by passing a --non-masquerade-cidr
flag to the Kubelet, which only allows one CIDR to be configured as non-masquerade. RFC 1918, however, defines three ranges (10/8
, 172.16/12
, 192.168/16
) for the private IP address space.
Some users will want to communicate between these ranges without masquerade - for instance, if an organization's existing network uses the 10/8
range, they may wish to run their cluster and Pod
s in 192.168/16
to avoid IP conflicts. They will also want these Pod
s to be able to communicate efficiently (no masquerade) with each-other and with their existing network resources in 10/8
. This requires that every node in their cluster skips masquerade for both ranges.
We are trying to eliminate networking code from the Kubelet, so rather than extend the Kubelet to accept multiple CIDRs, ip-masq-agent allows you to run a DaemonSet that configures a list of CIDRs as non-masquerade.
This project welcomes contributions and suggestions.
Clone the repo to $GOPATH/src/github.com/Azure/ip-masq-agent-v2
.
The build tooling is based on thockin/go-build-template.
Run make
or make build
to compile the ip-masq-agent. This will use a Docker image
to build the agent, with the current directory volume-mounted into place. This
will store incremental state for the fastest possible build. Run make all-build
to build for all architectures.
Run make test
to run the unit tests.
Run make container
to build the container image. It will calculate the image
tag based on the most recent git tag, and whether the repo is "dirty" since
that tag (see make version
). Run make all-container
to build containers
for all architectures.
Run make push
to push the container image to REGISTRY
. Run make all-push
to push the container images for all architectures.
Run make clean
to clean up.
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