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