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# Using SSL Between Helm and Tiller
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This document explains how to create strong SSL/TLS connections between Helm and
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Tiller. The emphasis here is on creating an internal CA, and using both the
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cryptographic and identity functions of SSL.
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> Support for TLS-based auth was introduced in Helm 2.3.0
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Configuring SSL is considered an advanced topic, and knowledge of Helm and Tiller
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is assumed.
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## Overview
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The Tiller authentication model uses client-side SSL certificates. Tiller itself
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verifies these certificates using a certificate authority. Likewise, the client
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also verifies Tiller's identity by certificate authority.
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There are numerous possible configurations for setting up certificates and authorities,
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but the method we cover here will work for most situations.
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> As of Helm 2.7.2, Tiller _requires_ that the client certificate be validated
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> by its CA. In prior versions, Tiller used a weaker validation strategy that
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> allowed self-signed certificates.
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In this guide, we will show how to:
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- Create a private CA that is used to issue certificates for Tiller clients and
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servers.
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- Create a certificate for Tiller
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- Create a certificate for the Helm client
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- Create a Tiller instance that uses the certificate
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- Configure the Helm client to use the CA and client-side certificate
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By the end of this guide, you should have a Tiller instance running that will
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only accept connections from clients who can be authenticated by SSL certificate.
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## Generating Certificate Authorities and Certificates
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One way to generate SSL CAs is via the `openssl` command line tool. There are many
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guides and best practices documents available online. This explanation is focused
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on getting ready within a small amount of time. For production configurations,
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we urge readers to read [the official documentation](https://www.openssl.org) and
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consult other resources.
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### Generate a Certificate Authority
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The simplest way to generate a certificate authority is to run two commands:
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```console
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$ openssl genrsa -out ./ca.key.pem 4096
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$ openssl req -key ca.key.pem -new -x509 -days 7300 -sha256 -out ca.cert.pem -extensions v3_ca
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Enter pass phrase for ca.key.pem:
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You are about to be asked to enter information that will be incorporated
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into your certificate request.
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What you are about to enter is what is called a Distinguished Name or a DN.
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There are quite a few fields but you can leave some blank
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For some fields there will be a default value,
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If you enter '.', the field will be left blank.
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-----
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Country Name (2 letter code) [AU]:US
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State or Province Name (full name) [Some-State]:CO
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Locality Name (eg, city) []:Boulder
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Organization Name (eg, company) [Internet Widgits Pty Ltd]:tiller
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Organizational Unit Name (eg, section) []:
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Common Name (e.g. server FQDN or YOUR name) []:tiller
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Email Address []:tiller@example.com
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```
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Note that the data input above is _sample data_. You should customize to your own
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specifications.
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The above will generate both a secret key and a CA. Note that these two files are
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very important. The key in particular should be handled with particular care.
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Often, you will want to generate an intermediate signing key. For the sake of brevity,
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we will be signing keys with our root CA.
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### Generating Certificates
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We will be generating two certificates, each representing a type of certificate:
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- One certificate is for Tiller. You will want one of these _per tiller host_ that
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you run.
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- One certificate is for the user. You will want one of these _per helm user_.
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Since the commands to generate these are the same, we'll be creating both at the
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same time. The names will indicate their target.
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First, the Tiller key:
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```console
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$ openssl genrsa -out ./tiller.key.pem 4096
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Generating RSA private key, 4096 bit long modulus
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..........................................................................................................................................................................................................................................................................................................................++
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............................................................................++
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e is 65537 (0x10001)
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Enter pass phrase for ./tiller.key.pem:
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Verifying - Enter pass phrase for ./tiller.key.pem:
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```
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Next, generate the Helm client's key:
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```console
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$ openssl genrsa -out ./helm.key.pem 4096
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Generating RSA private key, 4096 bit long modulus
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.....++
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......................................................................................................................................................................................++
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e is 65537 (0x10001)
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Enter pass phrase for ./helm.key.pem:
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Verifying - Enter pass phrase for ./helm.key.pem:
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```
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Again, for production use you will generate one client certificate for each user.
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Next we need to create certificates from these keys. For each certificate, this is
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a two-step process of creating a CSR, and then creating the certificate.
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```console
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$ openssl req -key tiller.key.pem -new -sha256 -out tiller.csr.pem
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Enter pass phrase for tiller.key.pem:
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You are about to be asked to enter information that will be incorporated
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into your certificate request.
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What you are about to enter is what is called a Distinguished Name or a DN.
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There are quite a few fields but you can leave some blank
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For some fields there will be a default value,
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If you enter '.', the field will be left blank.
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-----
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Country Name (2 letter code) [AU]:US
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State or Province Name (full name) [Some-State]:CO
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Locality Name (eg, city) []:Boulder
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Organization Name (eg, company) [Internet Widgits Pty Ltd]:Tiller Server
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Organizational Unit Name (eg, section) []:
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Common Name (e.g. server FQDN or YOUR name) []:tiller-server
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Email Address []:
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Please enter the following 'extra' attributes
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to be sent with your certificate request
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A challenge password []:
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An optional company name []:
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```
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And we repeat this step for the Helm client certificate:
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```console
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$ openssl req -key helm.key.pem -new -sha256 -out helm.csr.pem
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# Answer the questions with your client user's info
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```
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(In rare cases, we've had to add the `-nodes` flag when generating the request.)
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Now we sign each of these CSRs with the CA certificate we created:
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```console
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$ openssl x509 -req -CA ca.cert.pem -CAkey ca.key.pem -CAcreateserial -in tiller.csr.pem -out tiller.cert.pem
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Signature ok
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subject=/C=US/ST=CO/L=Boulder/O=Tiller Server/CN=tiller-server
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Getting CA Private Key
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Enter pass phrase for ca.key.pem:
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```
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And again for the client certificate:
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```console
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$ openssl x509 -req -CA ca.cert.pem -CAkey ca.key.pem -CAcreateserial -in helm.csr.pem -out helm.cert.pem
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```
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At this point, the important files for us are these:
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```
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# The CA. Make sure the key is kept secret.
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ca.cert.pem
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ca.key.pem
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# The Helm client files
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helm.cert.pem
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helm.key.pem
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# The Tiller server files.
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tiller.cert.pem
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tiller.key.pem
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```
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Now we're ready to move on to the next steps.
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## Creating a Custom Tiller Installation
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Helm includes full support for creating a deployment configured for SSL. By specifying
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a few flags, the `helm init` command can create a new Tiller installation complete
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with all of our SSL configuration.
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To take a look at what this will generate, run this command:
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```console
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$ helm init --dry-run --debug --tiller-tls --tiller-tls-cert ./tiller.cert.pem --tiller-tls-key ./tiller.key.pem --tiller-tls-verify --tls-ca-cert ca.cert.pem
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```
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The output will show you a Deployment, a Secret, and a Service. Your SSL information
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will be preloaded into the Secret, which the Deployment will mount to pods as they
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start up.
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If you want to customize the manifest, you can save that output to a file and then
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use `kubectl create` to load it into your cluster.
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> We strongly recommend enabling RBAC on your cluster and adding [service accounts](rbac.md)
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> with RBAC.
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Otherwise, you can remove the `--dry-run` and `--debug` flags. We also recommend
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putting Tiller in a non-system namespace (`--tiller-namespace=something`) and enable
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a service account (`--service-account=somename`). But for this example we will stay
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with the basics:
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```console
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$ helm init --tiller-tls --tiller-tls-cert ./tiller.cert.pem --tiller-tls-key ./tiller.key.pem --tiller-tls-verify --tls-ca-cert ca.cert.pem
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```
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In a minute or two it should be ready. We can check Tiller like this:
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```console
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$ kubectl -n kube-system get deployment
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NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
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... other stuff
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tiller-deploy 1 1 1 1 2m
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```
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If there is a problem, you may want to use `kubectl get pods -n kube-system` to
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find out what went wrong. With the SSL/TLS support, the most common problems all
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have to do with improperly generated TLS certificates or accidentally swapping the
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cert and the key.
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At this point, you should get a _failure_ when you run basic Helm commands:
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```console
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$ helm ls
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Error: transport is closing
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```
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This is because your Helm client does not have the correct certificate to authenticate
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to Tiller.
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## Configuring the Helm Client
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The Tiller server is now running with TLS protection. It's time to configure the
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Helm client to also perform TLS operations.
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For a quick test, we can specify our configuration manually. We'll run a normal
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Helm command (`helm ls`), but with SSL/TLS enabled.
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```console
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helm ls --tls --tls-ca-cert ca.cert.pem --tls-cert helm.cert.pem --tls-key helm.key.pem
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```
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This configuration sends our client-side certificate to establish identity, uses
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the client key for encryption, and uses the CA certificate to validate the remote
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Tiller's identity.
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Typing a line that is cumbersome, though. The shortcut is to move the key,
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cert, and CA into `$HELM_HOME`:
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```console
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$ cp ca.cert.pem $(helm home)/ca.pem
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$ cp helm.cert.pem $(helm home)/cert.pem
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$ cp helm.key.pem $(helm home)/key.pem
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```
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With this, you can simply run `helm ls --tls` to enable TLS.
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### Troubleshooting
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*Running a command, I get `Error: transport is closing`*
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This is almost always due to a configuration error in which the client is missing
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a certificate (`--tls-cert`) or the certificate is bad.
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*I'm using a certificate, but get `Error: remote error: tls: bad certificate`*
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This means that Tiller's CA cannot verify your certificate. In the examples above,
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we used a single CA to generate both the client and server certificates. In these
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examples, the CA has _signed_ the client's certificate. We then load that CA
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up to Tiller. So when the client certificate is sent to the server, Tiller
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checks the client certificate against the CA.
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*If I use `--tls-verify` on the client, I get `Error: x509: certificate is valid for tiller-server, not localhost`*
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If you plan to use `--tls-verify` on the client, you will need to make sure that
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the host name that Helm connects to matches the host name on the certificate. In
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some cases this is awkward, since Helm will connect over localhost, or the FQDN is
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not available for public resolution.
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## References
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https://github.com/denji/golang-tls
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https://www.openssl.org/docs/
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https://jamielinux.com/docs/openssl-certificate-authority/sign-server-and-client-certificates.html
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