2018-11-06 02:04:12 +00:00
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# Examples
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2018-11-03 01:55:13 +00:00
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2018-11-06 02:04:12 +00:00
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## Basic client usage
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The basic-client example shows the use of the most of the functioanlity of the
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`ca.Client`, those methods works as an SDK for integrating other services with
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the Certificate Authority (CA).
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In [basic-client/client.go](/examples/basic-client/client.go) we first can see
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the initialization of the 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 use in the creation of the token. If
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this is the case is simpler to rely in the token and use just:
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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're examples of all the client methods, they are
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just a convenient way to use the CA API endpoints. The first method `Health`
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returns the status of the CA server, on the first implementation if the server
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is up it will return just 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 will
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pass a finger print, it will download the root certificate from the CA and it
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will make sure 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 given digest.
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```go
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root, err := client.Root("84a033e84196f73bd593fad7a63e509e57fd982f02084359c4e8c5c864efc27d")
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```
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After Root we have the most important method `Sign`, this is used to sign a
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Certificate Signing Request that we provide. To secure this request we use
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the one-time-token. You can build your own certificate request and add it in
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the `*api.SignRequest`, but the ca package contains a method that will create a
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secure random key, and create the CSR based on the information in the token.
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```go
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// Create a CSR from token and return the sign request, 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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To renew the certificate we can use the `Renew` method, the certificate renewal
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relies on a mTLS connection with a previous certificate, so we will need to pass
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a transport with the previous 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 from 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 and get the new ones.
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// The return type are equivalent to ones in 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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All the previous methods map with one endpoint in the CA API, but the API
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provides a couple more that are used for creating the tokens. For those we have
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a couple of methods, one that returns a list of provisioners and one that
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returns 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 combining 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 example shows also the use of some helper methods used to get configured
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tls.Config objects that can be injected in servers and clients. These methods,
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are also configured to auto-renew the certificate once two thirds of the
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duration of the certificate has passed, approximately.
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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.GetClientTLSConfig(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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```
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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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And just run the client.go with a new token:
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```
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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 new-token client.smallstep.com))
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```
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## Bootstrap Client & Server
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2018-11-03 01:55:13 +00:00
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On this example we are going to see the Certificate Authority running, as well
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as a simple Server using TLS and a simple client doing TLS requests to the
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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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First we will start the certificate authority:
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```
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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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We will start the server and we will type `password` when step asks for the
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provisioner password:
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```
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2018-11-06 02:04:12 +00:00
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certificates $ export STEPPATH=examples/pki
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2018-11-03 01:55:13 +00:00
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certificates $ export STEP_CA_URL=https://localhost:9000
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2018-11-03 02:06:32 +00:00
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certificates $ go run examples/bootstrap-server/server.go $(step ca new-token localhost))
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2018-11-03 01:55:13 +00:00
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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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We try that using cURL with the system certificates it will return an error:
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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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But if we use the root certificate it will properly work:
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```
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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 didn't
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detected a TLS client configuration.
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But if we the client with the certificate name Mike we'll see:
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```
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2018-11-06 02:04:12 +00:00
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certificates $ export STEPPATH=examples/pki
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2018-11-03 01:55:13 +00:00
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certificates $ export STEP_CA_URL=https://localhost:9000
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2018-11-03 02:06:32 +00:00
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certificates $ go run examples/bootstrap-client/client.go $(step ca new-token Mike)
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2018-11-03 01:55:13 +00:00
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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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