Mutual TLS
This policy enables automatic encrypted mTLS traffic for all the services in a Mesh
, as well as assigning an identity to every data plane proxy. Kuma supports different types of CA backends as well as automatic certificate rotation.
Kuma ships with the following CA (Certificate Authority) supported backends:
- builtin: it automatically auto-generates a CA root certificate and key, that are also being automatically stored as a Secret.
- provided: the CA root certificate and key are being provided by the user in the form of a Secret.
Once a CA backend has been specified, Kuma will then automatically generate a certificate for every data plane proxy in the Mesh
. The certificates that Kuma generates are SPIFFE compatible and are used for AuthN/Z use-cases in order to identify every workload in our system.
The certificates that Kuma generates have a SAN set to spiffe://<mesh name>/<service name>
. When Kuma enforces policies that require an identity like TrafficPermission
it will extract the SAN from the client certificate and use it to match the service identity.
Remember that by default mTLS is not enabled and needs to be explicitly enabled as described below. Also remember that by default when mTLS is enabled all traffic is denied unless a TrafficPermission
policy is being configured to explicitly allow traffic across proxies.
Always make sure that a TrafficPermission
resource is present before enabling mTLS in a Mesh in order to avoid unexpected traffic interruptions caused by a lack of authorization between proxies.
To enable mTLS we need to configure the mtls
property in a Mesh
resource. We can have as many backends
as we want, but only one at a time can be enabled via the enabledBackend
property.
If enabledBackend
is missing or empty, then mTLS will be disabled for the entire Mesh.
Usage of “builtin” CA
This is the fastest and simplest way to enable mTLS in Kuma.
With a builtin
CA backend type, Kuma will dynamically generate its own CA root certificate and key that it uses to automatically provision (and rotate) certificates for every replica of every service.
We can specify more than one builtin
backend with different names, and each one of them will be automatically provisioned with a unique pair of certificate + key (they are not shared).
To enable a builtin
mTLS for the entire Mesh we can apply the following configuration:
apiVersion: kuma.io/v1alpha1
kind: Mesh
metadata:
name: default
spec:
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: builtin
dpCert:
rotation:
expiration: 1d
conf:
caCert:
RSAbits: 2048
expiration: 10y
We will apply the configuration with kubectl apply -f [..]
.
type: Mesh
name: default
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: builtin
dpCert:
rotation:
expiration: 1d
conf:
caCert:
RSAbits: 2048
expiration: 10y
We will apply the configuration with kumactl apply -f [..]
or via the HTTP API.
A few considerations:
- The
dpCert
configuration determines how often Kuma should automatically rotate the certificates assigned to every data plane proxy. - The
caCert
configuration determines a few properties that Kuma will use when auto-generating the CA root certificate.
Storage of Secrets
When using a builtin
backend Kuma automatically generates a root CA certificate and key that are being stored as a Kuma Secret resource with the following name:
{mesh name}.ca-builtin-cert-{backend name}
for the certificate{mesh name}.ca-builtin-key-{backend name}
for the key
On Kubernetes, Kuma secrets are being stored in the kuma-system
namespace, while on Universal they are being stored in the underlying backend configured in kuma-cp
.
We can retrieve the secrets via kumactl
on both Universal and Kubernetes, or via kubectl
on Kubernetes only:
The following command can be executed on any Kuma backend:
kumactl get secrets [-m MESH]
# MESH NAME AGE
# default default.ca-builtin-cert-ca-1 1m
# default default.ca-builtin-key-ca-1 1m
The following command can be executed only on Kubernetes:
kubectl get secrets \
-n kuma-system \
--field-selector='type=system.kuma.io/secret'
# NAME TYPE DATA AGE
# default.ca-builtin-cert-ca-1 system.kuma.io/secret 1 1m
# default.ca-builtin-key-ca-1 system.kuma.io/secret 1 1m
Usage of “provided” CA
If you choose to provide your own CA root certificate and key, you can use the provided
backend. With this option, you must also manage the certificate lifecycle yourself.
Unlike the builtin
backend, with provided
you first upload the certificate and key as Secret resources, and then reference the Secrets in the mTLS configuration.
Kuma then provisions data plane proxy certificates for every replica of every service from the CA root certificate and key.
Sample configuration:
apiVersion: kuma.io/v1alpha1
kind: Mesh
metadata:
name: default
spec:
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: provided
dpCert:
rotation:
expiration: 1d
conf:
cert:
secret: name-of-secret
key:
secret: name-of-secret
We will apply the configuration with kubectl apply -f [..]
.
type: Mesh
name: default
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: provided
dpCert:
rotation:
expiration: 1d
conf:
cert:
secret: name-of-secret
key:
secret: name-of-secret
We will apply the configuration with kumactl apply -f [..]
or via the HTTP API.
A few considerations:
- The
dpCert
configuration determines how often Kuma should automatically rotate the certificates assigned to every data plane proxy. - The Secrets must exist before referencing them in a
provided
backend.
CA requirements
When using an arbitrary certificate and key for a provided
backend, we must make sure that we comply with the following requirements:
- It MUST be a self-signed Root CA certificate (Intermediate CA certificates are not allowed)
- It MUST have basic constraint
CA
set totrue
(see X509-SVID: 4.1. Basic Constraints (opens new window)) - It MUST have key usage extension
keyCertSign
set (see X509-SVID: 4.3. Key Usage (opens new window)) - It MUST NOT have key usage extension ‘digitalSignature’ set (see X509-SVID: Appendix A. X.509 Field Reference (opens new window))
- It MUST NOT have key usage extension ‘keyAgreement’ set (see X509-SVID: Appendix A. X.509 Field Reference (opens new window))
- It MUST NOT have key usage extension ‘keyEncipherment’ set (see X509-SVID: Appendix A. X.509 Field Reference (opens new window))
Do not use the following example in production, instead generate valid and compliant certificates. This example is intended for usage in a development environment.
Below we can find an example to generate a sample CA certificate + key:
The following command will generate a CA root certificate and key that can be uploaded to Kuma as a Secret and then used in a provided
mTLS backend:
SAMPLE_CA_CONFIG="
[req]
distinguished_name=dn
[ dn ]
[ ext ]
basicConstraints=CA:TRUE,pathlen:0
keyUsage=keyCertSign
"
openssl req -config <(echo "$SAMPLE_CA_CONFIG") -new -newkey rsa:2048 -nodes \
-subj "/CN=Hello" -x509 -extensions ext -keyout key.pem -out crt.pem
The command will generate a certificate at crt.pem
and the key at key.pem
. We can generate the Kuma Secret resources by following the Secret reference.
Development Mode
In development mode we may want to provide the cert
and key
properties of the provided
backend without necessarily having to create a Secret resource, but by using either a file or an inline value.
Using the file
and inline
modes in production presents a security risk since it makes the values of our CA root certificate and key more easily accessible from a malicious actor. We highly recommend using file
and inline
only in development mode.
Kuma offers an alternative way to specify the CA root certificate and key:
Please note the file
and inline
properties that are being used instead of secret
:
apiVersion: kuma.io/v1alpha1
kind: Mesh
metadata:
name: default
spec:
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: provided
config:
cert:
inline: LS0tLS1CRUdJTiBDRVJUSUZJQ0FURS0tLS0tCk1JSURHekNDQWdPZ0F3S... # cert in Base64
key:
file: /opt/cert.key
Please note the file
and inline
properties that are being used instead of secret
:
type: Mesh
name: default
mtls:
enabledBackend: ca-1
backends:
- name: ca-1
type: provided
config:
cert:
inline: LS0tLS1CRUdJTiBDRVJUSUZJQ0FURS0tLS0tCk1JSURHekNDQWdPZ0F3S... # cert in Base64
key:
file: /opt/cert.key
Certificate Rotation
Once a CA backend has been configured, Kuma will utilize the CA root certificate and key to automatically provision a certificate for every data plane proxy that it connects to kuma-cp
.
Unlike the CA certificate, the data plane proxy certificates are not permanently stored anywhere but they only reside in memory. These certificates are designed to be short-lived and rotated often by Kuma.
By default, the expiration time of a data plane proxy certificate is 30
days. Kuma rotates these certificates automatically after 4/5 of the certificate validity time (ie: for the default 30
days expiration, that would be every 24
days).
You can update the duration of the data plane proxy certificates by updating the dpCert
property on every available mTLS backend.
You can inspect the certificate rotation statistics by executing the following command (supported on both Kubernetes and Universal):
We can use the Kuma CLI:
kumactl inspect dataplanes
# MESH NAME TAGS STATUS LAST CONNECTED AGO LAST UPDATED AGO TOTAL UPDATES TOTAL ERRORS CERT REGENERATED AGO CERT EXPIRATION CERT REGENERATIONS
# default web-01 service=web Online 5s 3s 4 0 3s 2020-05-11 16:01:34 2
Please note the CERT REGENERATED AGO
, CERT EXPIRATION
, CERT REGENERATIONS
columns.
We can use the Kuma HTTP API by retrieving the Dataplane Insight resource and inspecting the dataplaneInsight
object.
...
dataplaneInsight": {
...
"mTLS": {
"certificateExpirationTime": "2020-05-14T20:15:23Z",
"lastCertificateRegeneration": "2020-05-13T20:15:23.994549539Z",
"certificateRegenerations": 1
}
}
...
A new data plane proxy certificate is automatically generated when:
- A data plane proxy is restarted.
- The control plane is restarted.
- The data plane proxy connects to a new control plane.