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7b1f4a43cf
Add docs and examples for custom claims
649 lines
24 KiB
Markdown
649 lines
24 KiB
Markdown
# Examples
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## Basic client usage
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The basic-client example shows the functionality of the `ca.Client` type. The
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methods work as an SDK for integrating services with the Certificate Authority (CA).
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In [basic-client/client.go](/examples/basic-client/client.go) we see
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the initialization of a client:
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```go
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client, err := ca.NewClient("https://localhost:9000", ca.WithRootSHA256("84a033e84196f73bd593fad7a63e509e57fd982f02084359c4e8c5c864efc27d"))
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```
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The previous code uses the CA address and the root certificate fingerprint.
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The CA url will be present in the token, and the root fingerprint can be present
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too if the `--root root_ca.crt` option is used in the creation of the token. If
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the token does contain the root fingerprint then it is simpler to use:
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```go
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client, err := ca.Bootstrap(token)
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```
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After the initialization there are examples of all the client methods. These
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methods are a convenient way to use the CA API. The first method, `Health`,
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returns the status of the CA server. If the server is up it will return
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`{"status":"ok"}`.
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```go
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health, err := client.Health()
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// Health is a struct created from the JSON response {"status": "ok"}
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```
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The next method `Root` is used to get and verify the root certificate. We
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pass a fingerprint and it downloads the root certificate from the CA and
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verifies that the fingerprint matches. This method uses an insecure HTTP
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client as it might be used in the initialization of the client, but the response
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is considered secure because we have compared against the expected digest.
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```go
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root, err := client.Root("84a033e84196f73bd593fad7a63e509e57fd982f02084359c4e8c5c864efc27d")
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```
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Next we have the most important method; `Sign`. `Sign` will authorize and sign a
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CSR (Certificate Signing Request) that we provide. To authorize this request we use
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a provisioning token issued by an authorized provisioner.
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You can build your own certificate request and add it in
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the `*api.SignRequest`, but our CA SDK contains a method that will generate a
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secure random key and create a CSR - combining the key with the information
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provided in the provisioning token.
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```go
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// Create a CSR from a token and return the SignRequest, the private key, and an
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// error if something failed.
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req, pk, err := ca.CreateSignRequest(token)
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if err != nil { ... }
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// Do the Sign request and return the signed certificate.
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sign, err := client.Sign(req)
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if err != nil { ... }
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```
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Next is the `Renew` method which is used to (you guessed it!) renew certificates.
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Certificate renewal relies on a mTLS connection with using an existing certificate.
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So, as input we will need to pass a transport with the current certificate.
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```go
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// Get a cancelable context to stop the renewal goroutines and timers.
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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// Create a transport with the sign response and the private key.
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tr, err := client.Transport(ctx, sign, pk)
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if err != nil { ... }
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// Renew the certificate. The return type is equivalent to the Sign method.
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renew, err := client.Renew(tr)
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if err != nil { ... }
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```
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The following methods are for inpsecting Provisioners.
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One method that returns a list of provisioners or a the encrypted key of one provisioner.
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```go
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// Without options it will return the first 20 provisioners.
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provisioners, err := client.Provisioners()
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// We can also set a limit up to 100.
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provisioners, err := client.Provisioners(ca.WithProvisionerLimit(100))
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// With a pagination cursor.
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provisioners, err := client.Provisioners(ca.WithProvisionerCursor("1f18c1ecffe54770e9107ce7b39b39735"))
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// Or combine both.
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provisioners, err := client.Provisioners(
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ca.WithProvisionerCursor("1f18c1ecffe54770e9107ce7b39b39735"),
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ca.WithProvisionerLimit(100),
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)
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// Return the encrypted key of one of the returned provisioners. The key
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// returned is an encrypted JWE with the private key used to sign tokens.
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key, err := client.ProvisionerKey("DmAtZt2EhmZr_iTJJ387fr4Md2NbzMXGdXQNW1UWPXk")
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```
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The following example shows how to create a
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tls.Config object that can be injected into servers and clients. By default these
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methods will spin off Go routines that auto-renew a certificate once (approximately)
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two thirds of the duration of the certificate has passed.
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```go
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// Get a cancelable context to stop the renewal goroutines and timers.
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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// Get tls.Config for a server.
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tlsConfig, err := client.GetServerTLSConfig(ctx, sign, pk)
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// Get tls.Config for a client.
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tlsConfig, err := client.GetClientTLSConfig(ctx, sign, pk)
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// Get an http.Transport for a client; this can be used as a http.RoundTripper
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// in an http.Client.
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tr, err := client.Transport(ctx, sign, pk)
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```
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To run the example you need to start the certificate authority:
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```sh
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certificates $ bin/step-ca examples/pki/config/ca.json
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2018/11/02 18:29:25 Serving HTTPS on :9000 ...
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```
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Then run client.go with a new token:
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/basic-client/client.go $(step ca token client.smallstep.com)
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```
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## Bootstrap Client & Server
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In this example we are going run the CA alongside a simple Server using TLS and
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a simple client making TLS requests to the server.
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The examples directory already contains a sample pki configuration with the
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password `password` hardcoded, but you can create your own using `step ca init`.
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These examples show the use of some other helper methods - simple ways to
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create TLS configured http.Server and http.Client objects. The methods are
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`BootstrapServer` and `BootstrapClient`.
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```go
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// Get a cancelable context to stop the renewal goroutines and timers.
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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// Create an http.Server that requires a client certificate
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srv, err := ca.BootstrapServer(ctx, token, &http.Server{
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Addr: ":8443",
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Handler: handler,
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})
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if err != nil {
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panic(err)
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}
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srv.ListenAndServeTLS("", "")
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```
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```go
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// Get a cancelable context to stop the renewal goroutines and timers.
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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// Create an http.Server that does not require a client certificate
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srv, err := ca.BootstrapServerWithMTLS(ctx, token, &http.Server{
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Addr: ":8443",
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Handler: handler,
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}, ca.VerifyClientCertIfGiven())
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if err != nil {
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panic(err)
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}
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srv.ListenAndServeTLS("", "")
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```
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```go
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// Get a cancelable context to stop the renewal goroutines and timers.
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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// Create an http.Client
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client, err := ca.BootstrapClient(ctx, token)
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if err != nil {
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panic(err)
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}
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resp, err := client.Get("https://localhost:8443")
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```
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We will demonstrate the mTLS configuration in a different example. In this
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examplefor we will configure the server to only verify client certificates
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if they are provided.
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To being with let's start the Step CA:
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```sh
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certificates $ bin/step-ca examples/pki/config/ca.json
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2018/11/02 18:29:25 Serving HTTPS on :9000 ...
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```
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Next we will start the bootstrap-tls-server and enter `password` prompted for the
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provisioner password:
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/bootstrap-tls-server/server.go $(step ca token localhost)
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✔ Key ID: DmAtZt2EhmZr_iTJJ387fr4Md2NbzMXGdXQNW1UWPXk (mariano@smallstep.com)
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Please enter the password to decrypt the provisioner key:
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Listening on :8443 ...
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```
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Let's try to cURL our new bootstrap server with the system certificates bundle
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as our root. It should fail.
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```
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certificates $ curl https://localhost:8443
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curl: (60) SSL certificate problem: unable to get local issuer certificate
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More details here: https://curl.haxx.se/docs/sslcerts.html
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curl performs SSL certificate verification by default, using a "bundle"
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of Certificate Authority (CA) public keys (CA certs). If the default
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bundle file isn't adequate, you can specify an alternate file
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using the --cacert option.
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If this HTTPS server uses a certificate signed by a CA represented in
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the bundle, the certificate verification probably failed due to a
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problem with the certificate (it might be expired, or the name might
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not match the domain name in the URL).
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If you'd like to turn off curl's verification of the certificate, use
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the -k (or --insecure) option.
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HTTPS-proxy has similar options --proxy-cacert and --proxy-insecure.
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```
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Now lets use the root certificate generated for the Step PKI. It should work.
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```sh
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certificates $ curl --cacert examples/pki/secrets/root_ca.crt https://localhost:8443
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Hello nobody at 2018-11-03 01:49:25.66912 +0000 UTC!!!
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```
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Notice that in the response we see `nobody`. This is because the server did not
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detected a TLS client configuration.
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But if we create a client with it's own certificate (generated by the Step CA),
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we should see the Common Name of the client certificate:
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/bootstrap-client/client.go $(step ca token Mike)
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✔ Key ID: DmAtZt2EhmZr_iTJJ387fr4Md2NbzMXGdXQNW1UWPXk (mariano@smallstep.com)
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Please enter the password to decrypt the provisioner key:
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Server responded: Hello Mike at 2018-11-03 01:52:52.678215 +0000 UTC!!!
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Server responded: Hello Mike at 2018-11-03 01:52:53.681563 +0000 UTC!!!
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Server responded: Hello Mike at 2018-11-03 01:52:54.682787 +0000 UTC!!!
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...
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```
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## Bootstrap mTLS Client & Server
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This example demonstrates a stricter configuration of the bootstrap-server. Here
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we configure the server to require mTLS (mutual TLS) with a valid client certificate.
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As always, we begin by starting the CA:
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```sh
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certificates $ bin/step-ca examples/pki/config/ca.json
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2018/11/02 18:29:25 Serving HTTPS on :9000 ...
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```
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Next we start the mTLS server and we enter `password` when prompted for the
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provisioner password:
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/bootstrap-mtls-server/server.go $(step ca token localhost)
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✔ Key ID: DmAtZt2EhmZr_iTJJ387fr4Md2NbzMXGdXQNW1UWPXk (mariano@smallstep.com)
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Please enter the password to decrypt the provisioner key:
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Listening on :8443 ...
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```
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Now that the server is configured to require mTLS cURL-ing should fail even
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if we use the correct root certificate bundle.
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```sh
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certificates $ curl --cacert examples/pki/secrets/root_ca.crt https://localhost:8443
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curl: (35) error:1401E412:SSL routines:CONNECT_CR_FINISHED:sslv3 alert bad certificate
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```
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However, if we use our client (which requests a certificate from the Step CA
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when it starts):
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/bootstrap-client/client.go $(step ca token Mike)
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✔ Key ID: DmAtZt2EhmZr_iTJJ387fr4Md2NbzMXGdXQNW1UWPXk (mariano@smallstep.com)
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Please enter the password to decrypt the provisioner key:
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Server responded: Hello Mike at 2018-11-07 21:54:00.140022 +0000 UTC!!!
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Server responded: Hello Mike at 2018-11-07 21:54:01.140827 +0000 UTC!!!
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Server responded: Hello Mike at 2018-11-07 21:54:02.141578 +0000 UTC!!!
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...
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```
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## Certificate rotation
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We can use the bootstrap-server to demonstrate certificate rotation. We've
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added a second provisioner, named `mike@smallstep.com`, to the CA configuration.
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This provisioner is has a default certificate duration of 2 minutes.
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Let's run the server, and inspect the certificate. We can should be able to
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see the certificate rotate once approximately 2/3rds of it's lifespan has passed.
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```sh
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certificates $ export STEPPATH=examples/pki
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certificates $ export STEP_CA_URL=https://localhost:9000
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certificates $ go run examples/bootstrap-server/server.go $(step ca token localhost)
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✔ Key ID: YYNxZ0rq0WsT2MlqLCWvgme3jszkmt99KjoGEJJwAKs (mike@smallstep.com)
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Please enter the password to decrypt the provisioner key:
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Listening on :8443 ...
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```
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In this case, the certificate will rotate after 74-80 seconds.
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The exact formula is `<duration>-<duration>/3-rand(<duration>/20)` (`duration=120`
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in our example).
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We can use the following command to check the certificate expiration and to make
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sure the certificate changes after 74-80 seconds.
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```sh
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certificates $ step certificate inspect --insecure https://localhost:8443
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```
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## NGINX with Step CA certificates
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The example under the `docker` directory shows how to combine the Step CA
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with NGINX to serve or proxy services using certificates created by the
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Step CA.
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This example creates 3 different docker images:
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* nginx-test: docker image with NGINX and a script using inotify-tools to watch
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for changes in the certificate to reload NGINX.
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* step-ca-test: docker image with the Step CA
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* step-renewer-test: docker image with the step cli tool - it creates the
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certificate and sets a cron that renews the certificate (the cron
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runs every minute for testing purposes).
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To run this test you need to have the docker daemon running. With docker running
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swith to the `examples/docker directory` and run `make`:
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```
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certificates $ cd examples/docker/
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docker $ make
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GOOS=linux go build -o ca/step-ca github.com/smallstep/certificates/cmd/step-ca
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GOOS=linux go build -o renewer/step github.com/smallstep/cli/cmd/step
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docker build -t nginx-test:latest nginx
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...
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docker-compose up
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WARNING: The Docker Engine you're using is running in swarm mode.
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Compose does not use swarm mode to deploy services to multiple nodes in a swarm. All containers will be scheduled on the current node.
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To deploy your application across the swarm, use `docker stack deploy`.
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Creating network "docker_default" with the default driver
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Creating docker_ca_1 ... done
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Creating docker_renewer_1 ... done
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Creating docker_nginx_1 ... done
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Attaching to docker_ca_1, docker_renewer_1, docker_nginx_1
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ca_1 | 2018/11/12 19:39:16 Serving HTTPS on :443 ...
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nginx_1 | Setting up watches.
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nginx_1 | Watches established.
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...
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```
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Make will build the binaries for step and step-ca, create the images, create the
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containers and start them using docker composer.
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NGINX will be listening on your local machine on https://localhost:4443, but to
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make sure the cert is right we need to add the following entry to `/etc/hosts`:
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```
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127.0.0.1 nginx
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```
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Now we can use cURL to verify:
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```sh
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docker $ curl --cacert ca/pki/secrets/root_ca.crt https://nginx:4443/
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<!DOCTYPE html>
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<html>
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<head>
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<title>Welcome to nginx!</title>
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<style>
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body {
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width: 35em;
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margin: 0 auto;
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font-family: Tahoma, Verdana, Arial, sans-serif;
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}
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</style>
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</head>
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<body>
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<h1>Welcome to nginx!</h1>
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<p>If you see this page, the nginx web server is successfully installed and
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working. Further configuration is required.</p>
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<p>For online documentation and support please refer to
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<a href="http://nginx.org/">nginx.org</a>.<br/>
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Commercial support is available at
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<a href="http://nginx.com/">nginx.com</a>.</p>
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<p><em>Thank you for using nginx.</em></p>
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</body>
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</html>
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```
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We can use `make inspect` to witness the certificate being rotated every minute.
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```sh
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docker $ make inspect | head
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step certificate inspect https://localhost:4443 --insecure
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Certificate:
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Data:
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Version: 3 (0x2)
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Serial Number: 220353801925419530569669982276277771655 (0xa5c6993a7e110e6f009c83c79edc1d87)
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Signature Algorithm: ECDSA-SHA256
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Issuer: CN=Smallstep Intermediate CA
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Validity
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Not Before: Nov 10 02:13:00 2018 UTC
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Not After : Nov 11 02:13:00 2018 UTC
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docker $ make inspect | head
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step certificate inspect https://localhost:4443 --insecure
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Certificate:
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Data:
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Version: 3 (0x2)
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Serial Number: 207756171799719353821615361892302471392 (0x9c4c621c04d3e8be401ff0d14c5440e0)
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Signature Algorithm: ECDSA-SHA256
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Issuer: CN=Smallstep Intermediate CA
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Validity
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Not Before: Nov 10 02:14:00 2018 UTC
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Not After : Nov 11 02:14:00 2018 UTC
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```
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Finally, to cleanup the containers and volumes created in this demo use `make down`:
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```sh
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docker $ make down
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docker-compose down
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Stopping docker_nginx_1 ... done
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Stopping docker_renewer_1 ... done
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Stopping docker_ca_1 ... done
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Removing docker_nginx_1 ... done
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Removing docker_renewer_1 ... done
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Removing docker_ca_1 ... done
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Removing network docker_default
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```
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## Basic Federation
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The [basic-federation example](basic-federation) showcases how to securely facilitate communication between relying parties of multiple autonomous certificate authorities. Federation is what's required when services are spread between multiple independent Kubernetes clusters, public clouds, and/or serverless cloud functions to enable service communication across boundaries.
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This example uses a pre-generated PKI (public/private key material). Do not use pre-generated PKIs for dev, staging, or production purposes outside of this example.
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### Launch Online CAs
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Bring up two online CAs; `Cloud CA` and `Kubernetes CA`.
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```bash
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$ step-ca ./pki/cloud/config/ca.federated.json
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Please enter the password to decrypt intermediate_ca_key: password
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2019/01/22 13:38:52 Serving HTTPS on :1443 ...
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```
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```bash
|
|
$ step-ca ./pki/kubernetes/config/ca.federated.json
|
|
Please enter the password to decrypt intermediate_ca_key: password
|
|
2019/01/22 13:39:44 Serving HTTPS on :2443 ...
|
|
```
|
|
|
|
Notice the difference between the two configuration options below. `Cloud CA` will list `Kubernetes CA` in the `federatedRoots` section and vice versa for the federated options.
|
|
|
|
```bash
|
|
$ diff pki/cloud/config/ca.json pki/cloud/config/ca.federated.json
|
|
3c3
|
|
< "federatedRoots": [],
|
|
---
|
|
> "federatedRoots": ["pki/cloud/certs/kubernetes_root_ca.crt"],
|
|
```
|
|
|
|
### Bring up Demo Server
|
|
|
|
This demo server leverages step's [SDK](https://godoc.org/github.com/smallstep/certificates/ca) to obtain certs, automatically renew them, and fetch a bundle of trusted roots. When it starts up it will report what root certificates it will use to authenticate client certs.
|
|
|
|
```bash
|
|
go run server/main.go $(step ca token \
|
|
--ca-url https://localhost:1443 \
|
|
--root ./pki/cloud/certs/root_ca.crt \
|
|
127.0.0.1)
|
|
✔ Key ID: EE1ZiqkMaxsUdpz8SCSkRBzwK9TWUoidQnMnJ8Eryn8 (sebastian@smallstep.com)
|
|
✔ Please enter the password to decrypt the provisioner key: password
|
|
Server is using federated root certificates
|
|
Accepting certs anchored in CN=Smallstep Public Cloud Root CA
|
|
Accepting certs anchored in CN=Smallstep Kubernetes Root CA
|
|
Listening on :8443 ...
|
|
```
|
|
|
|
### Run Demo Client
|
|
|
|
Similarly step's [SDK](https://godoc.org/github.com/smallstep/certificates/ca) provides a client option to mutually authenticate connections to servers. It automatically handles cert bootstrapping, renewal, and fetches a bundle of trusted roots. The demo client will send HTTP requests to the demo server periodically (every 5s).
|
|
|
|
```bash
|
|
$ go run client/main.go $(step ca token sdk_client \
|
|
--ca-url https://localhost:2443 \
|
|
--root ./pki/kubernetes/certs/root_ca.crt)
|
|
✔ Key ID: S5gYgpeqcIAgc1Zr4myZXpgJ_Ao4ryS6F6wqg9o8RYo (sebastian@smallstep.com)
|
|
✔ Please enter the password to decrypt the provisioner key: password
|
|
Server responded: Hello sdk_client (cert issued by 'Smallstep Kubernetes Root CA') at 2019-01-23 00:51:38.576648 +0000 UTC
|
|
```
|
|
|
|
### Curl as Client
|
|
|
|
While the demo client provides a convenient way to periodically send requests to the demo server curl in combination with a client cert from `Kubernetes CA` can be used to hit the server instead:
|
|
|
|
```bash
|
|
$ step ca certificate kube_client kube_client.crt kube_client.key \
|
|
--ca-url https://localhost:2443 \
|
|
--root pki/kubernetes/certs/root_ca.crt
|
|
✔ Key ID: S5gYgpeqcIAgc1Zr4myZXpgJ_Ao4ryS6F6wqg9o8RYo (sebastian@smallstep.com)
|
|
✔ Please enter the password to decrypt the provisioner key:
|
|
✔ CA: https://localhost:2443/1.0/sign
|
|
✔ Certificate: kube_client.crt
|
|
✔ Private Key: kube_client.key
|
|
```
|
|
|
|
Federation relies on a bundle of multiple trusted roots which need to be fetched before passed into curl.
|
|
|
|
```bash
|
|
$ step ca federation --ca-url https://localhost:1443 \
|
|
--root pki/cloud/certs/root_ca.crt \
|
|
federated.pem
|
|
The federation certificate bundle has been saved in federated.pem.
|
|
```
|
|
|
|
Passing the cert (issued by `Kubernetes CA`) into curl using the appropriate command line flags:
|
|
|
|
```bash
|
|
$ curl -i --cacert federated.pem \
|
|
--cert kube_client.crt \
|
|
--key kube_client.key \
|
|
https://127.0.0.1:8443
|
|
|
|
HTTP/2 200
|
|
content-type: text/plain; charset=utf-8
|
|
content-length: 105
|
|
date: Mon, 28 Jan 2019 15:24:54 GMT
|
|
|
|
Hello kube_client (cert issued by 'Smallstep Kubernetes Root CA') at 2019-01-28 15:24:54.864373 +0000 UTC
|
|
```
|
|
|
|
Since the demo server is enrolled with the federated `Cloud CA` that trusts certs issued by the `Kubernetes CA` through federation the connection is successfully established.
|
|
|
|
## Custom certificate validity periods using Custom Claims
|
|
|
|
Bring up the certificate authority with the example:
|
|
|
|
```sh
|
|
certificates $ step-ca examples/pki/config/ca.json
|
|
2019/03/11 13:37:03 Serving HTTPS on :9000 ...
|
|
```
|
|
|
|
The example comes with multiple provisioner options, two of which have custom claims to expand the validity of certificates:
|
|
|
|
```sh
|
|
$ step ca provisioner list | jq '.[] | "\(.name): \(.claims.defaultTLSCertDuration)"'
|
|
# null means step default of 24h for cert validity
|
|
"mariano@smallstep.com: null"
|
|
"mike@smallstep.com: 2m0s"
|
|
"decade: 87600h0m0s"
|
|
"90days: 2160h0m0s"
|
|
```
|
|
|
|
A closer look at a duration-bound provisioner, `90days` for instance, reveals the custom configuration for certificate validity.
|
|
|
|
```sh
|
|
$ step ca provisioner list | jq '.[3].claims'
|
|
{
|
|
"maxTLSCertDuration": "2160h0m0s",
|
|
"defaultTLSCertDuration": "2160h0m0s"
|
|
}
|
|
```
|
|
|
|
Certificates with different validity periods can be generated using the respective provisioners.
|
|
The durations are strings which are a sequence of decimal numbers, each with optional fraction and a unit suffix, such as "300ms" or "2h45m". Valid time units are "ns", "us" (or "µs"), "ms", "s", "m", "h".
|
|
|
|
Please see [Getting Started](https://github.com/smallstep/certificates/blob/master/docs/GETTING_STARTED.md) in the docs directory to learn what custom claims configuration options are available and how to use them.
|
|
|
|
```sh
|
|
$ step ca certificate decade decade.crt decade.key
|
|
✔ Key ID: iu7VZxKUcquv1BCWuvEUOyRy4zYyCmgt61OpRW5VbRE (decade)
|
|
✔ Please enter the password to decrypt the provisioner key: password
|
|
✔ CA: https://localhost:9000/1.0/sign
|
|
✔ Certificate: decade.crt
|
|
✔ Private Key: decade.key
|
|
$ step certificate inspect --format json decade.crt | jq .validity
|
|
{
|
|
"start": "2019-03-11T22:34:30Z",
|
|
"end": "2029-03-08T22:34:30Z",
|
|
"length": 315360000
|
|
}
|
|
|
|
$ step ca certificate 90days 90days.crt 90days.key
|
|
✔ Key ID: 2LgjIvfirblnFMC6FjUr8jYkO8nOqz4rKoarCc8kiGU (90days)
|
|
✔ Please enter the password to decrypt the provisioner key: password
|
|
✔ CA: https://localhost:9000/1.0/sign
|
|
✔ Certificate: 90days.crt
|
|
✔ Private Key: 90days.key
|
|
$ step certificate inspect --format json 90days.crt | jq .validity
|
|
{
|
|
"start": "2019-03-11T22:35:39Z",
|
|
"end": "2019-06-09T22:35:39Z",
|
|
"length": 7776000
|
|
}
|
|
```
|
|
|
|
## Configuration Management Tools
|
|
|
|
Configuration management tools such as Puppet, Chef, Ansible, Salt, etc. make
|
|
automation and deployment a whole lot easier and more manageable. Step CLI and
|
|
CA are built with automation in mind and are easy to configure using your
|
|
favorite tools
|
|
|
|
# Puppet
|
|
|
|
The following are snippets and files that users can add to their puppet
|
|
manifests to easily instrument services with TLS.
|
|
|
|
** [step.pp](./puppet/step.pp) ** - Install `step` from source and configure the `step` user, group,
|
|
and home directory for use by the Step CLI and CA.
|
|
** [step_ca.pp](./puppet/step_ca.pp) ** - Install `step-ca` from source. Configure
|
|
certificates and secrets and run the Step CA.
|
|
** [tls_server.pp](./puppet/tls_server.pp) ** - This is your service, instrumented
|
|
with the Step CA SDK to request, receive, and renew TLS certificates. See
|
|
[the bootstrap-tls-server](./bootstrap-tls-server/server.go) for a
|
|
simple integration example.
|
|
|
|
**Note:** This is a significantly oversimplified example that will not work standalone.
|
|
A complete Puppet configuration should use a service manager (like
|
|
[systemctl](https://www.digitalocean.com/community/tutorials/how-to-use-systemctl-to-manage-systemd-services-and-units))
|
|
and a secret store (like [Hiera](https://puppet.com/docs/puppet/6.0/hiera_intro.html)).
|
|
If you are interested in seeing a more complete example please let us know and we'll
|
|
make one available.
|
|
|