248 lines
9.0 KiB
Plaintext
248 lines
9.0 KiB
Plaintext
---
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layout: docs
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page_title: Connect - Native Application Integration - Go
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sidebar_title: Go Integration
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description: >-
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We provide a library that makes it drop-in simple to integrate Connect with
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most Go applications. For most Go applications, Connect can be natively
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integrated in just a single line of code excluding imports and struct
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initialization.
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---
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# Connect-Native Integration with Go
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-> **Note:** When calling `ConnectAuthorize()` on incoming connections this library
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will return *deny* if `Permissions` are defined on the matching intention.
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The method is currently only suited for networking layer 4 (e.g. TCP) integration.
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We provide a library that makes it drop-in simple to integrate Connect
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with most [Go](https://golang.org/) applications. This page shows examples
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of integrating this library for accepting or establishing Connect-based
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connections. For most Go applications, Connect can be natively integrated
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in just a single line of code excluding imports and struct initialization.
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In addition to this, please read and understand the
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[overview of Connect-Native integrations](/docs/connect/native).
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In particular, after integrating applications with Connect, they must declare
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that they accept Connect-based connections via their service definitions.
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## Accepting Connections
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Any server that supports TLS (HTTP, gRPC, net/rpc, etc.) can begin
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accepting Connect-based connections in just a few lines of code. For most
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existing applications, converting the server to accept Connect-based
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connections will require only a one-line change excluding imports and
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structure initialization.
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The
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Go library exposes a `*tls.Config` that _automatically_ communicates with
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Consul to load certificates and authorize inbound connections during the
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TLS handshake. This also automatically starts goroutines to update any
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changing certs.
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Example, followed by more details:
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```go
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import(
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"net/http"
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"github.com/hashicorp/consul/api"
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"github.com/hashicorp/consul/connect"
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)
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func main() {
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// Create a Consul API client
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client, _ := api.NewClient(api.DefaultConfig())
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// Create an instance representing this service. "my-service" is the
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// name of _this_ service. The service should be cleaned up via Close.
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svc, _ := connect.NewService("my-service", client)
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defer svc.Close()
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// Creating an HTTP server that serves via Connect
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server := &http.Server{
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Addr: ":8080",
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TLSConfig: svc.ServerTLSConfig(),
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// ... other standard fields
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}
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// Serve!
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server.ListenAndServeTLS("", "")
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}
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```
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The first step is to create a Consul API client. This is almost always the
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default configuration with an ACL token set, since you want to communicate
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to the local agent. The default configuration will also read the ACL token
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from environment variables if set. The Go library will use this client to request certificates,
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authorize connections, and more.
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Next, `connect.NewService` is called to create a service structure representing
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the _currently running service_. This structure maintains all the state
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for accepting and establishing connections. An application should generally
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create one service and reuse that one service for all servers and clients.
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Finally, a standard `*http.Server` is created. The magic line is the `TLSConfig`
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value. This is set to a TLS configuration returned by the service structure.
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This TLS configuration is configured to automatically load certificates
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in the background, cache them, and authorize inbound connections. The service
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structure automatically handles maintaining blocking queries to update certificates
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in the background if they change.
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Since the service returns a standard `*tls.Config`, _any_ server that supports
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TLS can be configured. This includes gRPC, net/rpc, basic TCP, and more.
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Another example is shown below with just a plain TLS listener:
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```go
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import(
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"crypto/tls"
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"github.com/hashicorp/consul/api"
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"github.com/hashicorp/consul/connect"
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)
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func main() {
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// Create a Consul API client
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client, _ := api.NewClient(api.DefaultConfig())
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// Create an instance representing this service. "my-service" is the
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// name of _this_ service. The service should be cleaned up via Close.
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svc, _ := connect.NewService("my-service", client)
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defer svc.Close()
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// Creating an HTTP server that serves via Connect
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listener, _ := tls.Listen("tcp", ":8080", svc.ServerTLSConfig())
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defer listener.Close()
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// Accept
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go acceptLoop(listener)
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}
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```
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## HTTP Clients
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For Go applications that need to Connect to HTTP-based upstream dependencies,
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the Go library can construct an `*http.Client` that automatically establishes
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Connect-based connections as long as Consul-based service discovery is used.
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Example, followed by more details:
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```go
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import(
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"github.com/hashicorp/consul/api"
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"github.com/hashicorp/consul/connect"
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)
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func main() {
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// Create a Consul API client
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client, _ := api.NewClient(api.DefaultConfig())
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// Create an instance representing this service. "my-service" is the
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// name of _this_ service. The service should be cleaned up via Close.
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svc, _ := connect.NewService("my-service", client)
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defer svc.Close()
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// Get an HTTP client
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httpClient := svc.HTTPClient()
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// Perform a request, then use the standard response
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resp, _ := httpClient.Get("https://userinfo.service.consul/user/mitchellh")
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}
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```
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The first step is to create a Consul API client and service. These are the
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same steps as accepting connections and are explained in detail in the
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section above. If your application is both a client and server, both the
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API client and service structure can be shared and reused.
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Next, we call `svc.HTTPClient()` to return a specially configured
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`*http.Client`. This client will automatically established Connect-based
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connections using Consul service discovery.
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Finally, we perform an HTTP `GET` request to a hypothetical userinfo service.
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The HTTP client configuration automatically sends the correct client
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certificate, verifies the server certificate, and manages background
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goroutines for updating our certificates as necessary.
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If the application already uses a manually constructed `*http.Client`,
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the `svc.HTTPDialTLS` function can be used to configure the
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`http.Transport.DialTLS` field to achieve equivalent behavior.
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### Hostname Requirements
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The hostname used in the request URL is used to identify the logical service
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discovery mechanism for the target. **It's not actually resolved via DNS** but
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used as a logical identifier for a Consul service discovery mechanism. It has
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the following specific limitations:
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- The scheme must be `https://`.
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- It must be a Consul DNS name in one of the following forms:
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- `<name>.service[.<datacenter>].consul` to discover a healthy service
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instance for a given service.
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- `<name>.query[.<datacenter>].consul` to discover an instance via
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[Prepared Query](/api/query).
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- The top-level domain _must_ be `.consul` even if your cluster has a custom
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`domain` configured for its DNS interface. This might be relaxed in the
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future.
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- Tag filters for services are not currently supported (i.e.
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`tag1.web.service.consul`) however the same behaviour can be achieved using a
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prepared query.
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- External DNS names, raw IP addresses and so on will cause an error and should
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be fetched using a separate `HTTPClient`.
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## Raw TLS Connection
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For a raw `net.Conn` TLS connection, the `svc.Dial` function can be used.
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This will establish a connection to the desired service via Connect and
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return the `net.Conn`. This connection can then be used as desired.
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Example:
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```go
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import (
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"context"
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"github.com/hashicorp/consul/api"
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"github.com/hashicorp/consul/connect"
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)
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func main() {
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// Create a Consul API client
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client, _ := api.NewClient(api.DefaultConfig())
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// Create an instance representing this service. "my-service" is the
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// name of _this_ service. The service should be cleaned up via Close.
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svc, _ := connect.NewService("my-service", client)
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defer svc.Close()
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// Connect to the "userinfo" Consul service.
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conn, _ := svc.Dial(context.Background(), &connect.ConsulResolver{
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Client: client,
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Name: "userinfo",
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})
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}
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```
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This uses a familiar `Dial`-like function to establish raw `net.Conn` values.
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The second parameter to dial is an implementation of the `connect.Resolver`
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interface. The example above uses the `*connect.ConsulResolver` implementation
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to perform Consul-based service discovery. This also automatically determines
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the correct certificate metadata we expect the remote service to serve.
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## Static Addresses, Custom Resolvers
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In the raw TLS connection example, you see the use of a `connect.Resolver`
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implementation. This interface can be implemented to perform address
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resolution. This must return the address and also the URI SAN expected
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in the TLS certificate served by the remote service.
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The Go library provides two built-in resolvers:
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* `*connect.StaticResolver` can be used for static addresses where no
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service discovery is required. The expected cert URI SAN must be
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manually specified.
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* `*connect.ConsulResolver` which resolves services and prepared queries
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via the Consul API. This also automatically determines the expected
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cert URI SAN.
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