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https://codeberg.org/forgejo/forgejo.git
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8ea1d32bea
* update github.com/caddyserver/certmagic v0.12.0 -> v0.13.0 * migrate
486 lines
16 KiB
Go
Vendored
486 lines
16 KiB
Go
Vendored
// Copyright 2015 Matthew Holt
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Package certmagic automates the obtaining and renewal of TLS certificates,
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// including TLS & HTTPS best practices such as robust OCSP stapling, caching,
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// HTTP->HTTPS redirects, and more.
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//
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// Its high-level API serves your HTTP handlers over HTTPS if you simply give
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// the domain name(s) and the http.Handler; CertMagic will create and run
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// the HTTPS server for you, fully managing certificates during the lifetime
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// of the server. Similarly, it can be used to start TLS listeners or return
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// a ready-to-use tls.Config -- whatever layer you need TLS for, CertMagic
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// makes it easy. See the HTTPS, Listen, and TLS functions for that.
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//
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// If you need more control, create a Cache using NewCache() and then make
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// a Config using New(). You can then call Manage() on the config. But if
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// you use this lower-level API, you'll have to be sure to solve the HTTP
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// and TLS-ALPN challenges yourself (unless you disabled them or use the
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// DNS challenge) by using the provided Config.GetCertificate function
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// in your tls.Config and/or Config.HTTPChallangeHandler in your HTTP
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// handler.
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//
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// See the package's README for more instruction.
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package certmagic
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import (
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"context"
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"crypto"
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"crypto/tls"
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"crypto/x509"
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"fmt"
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"log"
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"net"
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"net/http"
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"sort"
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"strings"
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"sync"
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"time"
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)
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// HTTPS serves mux for all domainNames using the HTTP
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// and HTTPS ports, redirecting all HTTP requests to HTTPS.
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// It uses the Default config.
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//
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// This high-level convenience function is opinionated and
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// applies sane defaults for production use, including
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// timeouts for HTTP requests and responses. To allow very
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// long-lived connections, you should make your own
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// http.Server values and use this package's Listen(), TLS(),
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// or Config.TLSConfig() functions to customize to your needs.
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// For example, servers which need to support large uploads or
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// downloads with slow clients may need to use longer timeouts,
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// thus this function is not suitable.
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//
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// Calling this function signifies your acceptance to
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// the CA's Subscriber Agreement and/or Terms of Service.
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func HTTPS(domainNames []string, mux http.Handler) error {
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if mux == nil {
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mux = http.DefaultServeMux
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}
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DefaultACME.Agreed = true
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cfg := NewDefault()
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err := cfg.ManageSync(domainNames)
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if err != nil {
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return err
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}
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httpWg.Add(1)
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defer httpWg.Done()
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// if we haven't made listeners yet, do so now,
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// and clean them up when all servers are done
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lnMu.Lock()
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if httpLn == nil && httpsLn == nil {
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httpLn, err = net.Listen("tcp", fmt.Sprintf(":%d", HTTPPort))
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if err != nil {
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lnMu.Unlock()
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return err
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}
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tlsConfig := cfg.TLSConfig()
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tlsConfig.NextProtos = append([]string{"h2", "http/1.1"}, tlsConfig.NextProtos...)
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httpsLn, err = tls.Listen("tcp", fmt.Sprintf(":%d", HTTPSPort), tlsConfig)
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if err != nil {
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httpLn.Close()
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httpLn = nil
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lnMu.Unlock()
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return err
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}
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go func() {
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httpWg.Wait()
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lnMu.Lock()
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httpLn.Close()
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httpsLn.Close()
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lnMu.Unlock()
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}()
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}
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hln, hsln := httpLn, httpsLn
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lnMu.Unlock()
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// create HTTP/S servers that are configured
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// with sane default timeouts and appropriate
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// handlers (the HTTP server solves the HTTP
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// challenge and issues redirects to HTTPS,
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// while the HTTPS server simply serves the
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// user's handler)
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httpServer := &http.Server{
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ReadHeaderTimeout: 5 * time.Second,
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ReadTimeout: 5 * time.Second,
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WriteTimeout: 5 * time.Second,
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IdleTimeout: 5 * time.Second,
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}
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if len(cfg.Issuers) > 0 {
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if am, ok := cfg.Issuers[0].(*ACMEManager); ok {
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httpServer.Handler = am.HTTPChallengeHandler(http.HandlerFunc(httpRedirectHandler))
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}
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}
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httpsServer := &http.Server{
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ReadHeaderTimeout: 10 * time.Second,
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ReadTimeout: 30 * time.Second,
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WriteTimeout: 2 * time.Minute,
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IdleTimeout: 5 * time.Minute,
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Handler: mux,
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}
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log.Printf("%v Serving HTTP->HTTPS on %s and %s",
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domainNames, hln.Addr(), hsln.Addr())
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go httpServer.Serve(hln)
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return httpsServer.Serve(hsln)
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}
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func httpRedirectHandler(w http.ResponseWriter, r *http.Request) {
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toURL := "https://"
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// since we redirect to the standard HTTPS port, we
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// do not need to include it in the redirect URL
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requestHost := hostOnly(r.Host)
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toURL += requestHost
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toURL += r.URL.RequestURI()
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// get rid of this disgusting unencrypted HTTP connection 🤢
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w.Header().Set("Connection", "close")
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http.Redirect(w, r, toURL, http.StatusMovedPermanently)
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}
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// TLS enables management of certificates for domainNames
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// and returns a valid tls.Config. It uses the Default
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// config.
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//
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// Because this is a convenience function that returns
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// only a tls.Config, it does not assume HTTP is being
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// served on the HTTP port, so the HTTP challenge is
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// disabled (no HTTPChallengeHandler is necessary). The
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// package variable Default is modified so that the
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// HTTP challenge is disabled.
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//
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// Calling this function signifies your acceptance to
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// the CA's Subscriber Agreement and/or Terms of Service.
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func TLS(domainNames []string) (*tls.Config, error) {
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DefaultACME.Agreed = true
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DefaultACME.DisableHTTPChallenge = true
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cfg := NewDefault()
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return cfg.TLSConfig(), cfg.ManageSync(domainNames)
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}
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// Listen manages certificates for domainName and returns a
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// TLS listener. It uses the Default config.
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//
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// Because this convenience function returns only a TLS-enabled
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// listener and does not presume HTTP is also being served,
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// the HTTP challenge will be disabled. The package variable
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// Default is modified so that the HTTP challenge is disabled.
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//
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// Calling this function signifies your acceptance to
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// the CA's Subscriber Agreement and/or Terms of Service.
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func Listen(domainNames []string) (net.Listener, error) {
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DefaultACME.Agreed = true
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DefaultACME.DisableHTTPChallenge = true
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cfg := NewDefault()
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err := cfg.ManageSync(domainNames)
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if err != nil {
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return nil, err
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}
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return tls.Listen("tcp", fmt.Sprintf(":%d", HTTPSPort), cfg.TLSConfig())
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}
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// ManageSync obtains certificates for domainNames and keeps them
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// renewed using the Default config.
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//
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// This is a slightly lower-level function; you will need to
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// wire up support for the ACME challenges yourself. You can
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// obtain a Config to help you do that by calling NewDefault().
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//
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// You will need to ensure that you use a TLS config that gets
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// certificates from this Config and that the HTTP and TLS-ALPN
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// challenges can be solved. The easiest way to do this is to
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// use NewDefault().TLSConfig() as your TLS config and to wrap
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// your HTTP handler with NewDefault().HTTPChallengeHandler().
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// If you don't have an HTTP server, you will need to disable
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// the HTTP challenge.
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//
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// If you already have a TLS config you want to use, you can
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// simply set its GetCertificate field to
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// NewDefault().GetCertificate.
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//
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// Calling this function signifies your acceptance to
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// the CA's Subscriber Agreement and/or Terms of Service.
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func ManageSync(domainNames []string) error {
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DefaultACME.Agreed = true
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return NewDefault().ManageSync(domainNames)
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}
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// ManageAsync is the same as ManageSync, except that
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// certificates are managed asynchronously. This means
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// that the function will return before certificates
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// are ready, and errors that occur during certificate
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// obtain or renew operations are only logged. It is
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// vital that you monitor the logs if using this method,
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// which is only recommended for automated/non-interactive
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// environments.
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func ManageAsync(ctx context.Context, domainNames []string) error {
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DefaultACME.Agreed = true
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return NewDefault().ManageAsync(ctx, domainNames)
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}
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// OnDemandConfig configures on-demand TLS (certificate
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// operations as-needed, like during TLS handshakes,
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// rather than immediately).
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//
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// When this package's high-level convenience functions
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// are used (HTTPS, Manage, etc., where the Default
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// config is used as a template), this struct regulates
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// certificate operations using an implicit whitelist
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// containing the names passed into those functions if
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// no DecisionFunc is set. This ensures some degree of
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// control by default to avoid certificate operations for
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// aribtrary domain names. To override this whitelist,
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// manually specify a DecisionFunc. To impose rate limits,
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// specify your own DecisionFunc.
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type OnDemandConfig struct {
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// If set, this function will be called to determine
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// whether a certificate can be obtained or renewed
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// for the given name. If an error is returned, the
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// request will be denied.
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DecisionFunc func(name string) error
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// List of whitelisted hostnames (SNI values) for
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// deferred (on-demand) obtaining of certificates.
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// Used only by higher-level functions in this
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// package to persist the list of hostnames that
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// the config is supposed to manage. This is done
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// because it seems reasonable that if you say
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// "Manage [domain names...]", then only those
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// domain names should be able to have certs;
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// we don't NEED this feature, but it makes sense
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// for higher-level convenience functions to be
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// able to retain their convenience (alternative
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// is: the user manually creates a DecisionFunc
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// that whitelists the same names it already
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// passed into Manage) and without letting clients
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// have their run of any domain names they want.
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// Only enforced if len > 0.
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hostWhitelist []string
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}
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func (o *OnDemandConfig) whitelistContains(name string) bool {
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for _, n := range o.hostWhitelist {
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if strings.EqualFold(n, name) {
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return true
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}
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}
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return false
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}
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// isLoopback returns true if the hostname of addr looks
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// explicitly like a common local hostname. addr must only
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// be a host or a host:port combination.
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func isLoopback(addr string) bool {
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host := hostOnly(addr)
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return host == "localhost" ||
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strings.Trim(host, "[]") == "::1" ||
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strings.HasPrefix(host, "127.")
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}
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// isInternal returns true if the IP of addr
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// belongs to a private network IP range. addr
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// must only be an IP or an IP:port combination.
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// Loopback addresses are considered false.
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func isInternal(addr string) bool {
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privateNetworks := []string{
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"10.0.0.0/8",
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"172.16.0.0/12",
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"192.168.0.0/16",
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"fc00::/7",
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}
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host := hostOnly(addr)
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ip := net.ParseIP(host)
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if ip == nil {
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return false
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}
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for _, privateNetwork := range privateNetworks {
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_, ipnet, _ := net.ParseCIDR(privateNetwork)
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if ipnet.Contains(ip) {
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return true
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}
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}
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return false
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}
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// hostOnly returns only the host portion of hostport.
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// If there is no port or if there is an error splitting
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// the port off, the whole input string is returned.
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func hostOnly(hostport string) string {
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host, _, err := net.SplitHostPort(hostport)
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if err != nil {
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return hostport // OK; probably had no port to begin with
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}
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return host
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}
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// PreChecker is an interface that can be optionally implemented by
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// Issuers. Pre-checks are performed before each call (or batch of
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// identical calls) to Issue(), giving the issuer the option to ensure
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// it has all the necessary information/state.
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type PreChecker interface {
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PreCheck(ctx context.Context, names []string, interactive bool) error
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}
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// Issuer is a type that can issue certificates.
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type Issuer interface {
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// Issue obtains a certificate for the given CSR. It
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// must honor context cancellation if it is long-running.
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// It can also use the context to find out if the current
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// call is part of a retry, via AttemptsCtxKey.
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Issue(ctx context.Context, request *x509.CertificateRequest) (*IssuedCertificate, error)
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// IssuerKey must return a string that uniquely identifies
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// this particular configuration of the Issuer such that
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// any certificates obtained by this Issuer will be treated
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// as identical if they have the same SANs.
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//
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// Certificates obtained from Issuers with the same IssuerKey
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// will overwrite others with the same SANs. For example, an
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// Issuer might be able to obtain certificates from different
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// CAs, say A and B. It is likely that the CAs have different
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// use cases and purposes (e.g. testing and production), so
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// their respective certificates should not overwrite eaach
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// other.
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IssuerKey() string
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}
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// Revoker can revoke certificates. Reason codes are defined
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// by RFC 5280 §5.3.1: https://tools.ietf.org/html/rfc5280#section-5.3.1
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// and are available as constants in our ACME library.
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type Revoker interface {
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Revoke(ctx context.Context, cert CertificateResource, reason int) error
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}
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// KeyGenerator can generate a private key.
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type KeyGenerator interface {
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// GenerateKey generates a private key. The returned
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// PrivateKey must be able to expose its associated
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// public key.
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GenerateKey() (crypto.PrivateKey, error)
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}
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// IssuedCertificate represents a certificate that was just issued.
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type IssuedCertificate struct {
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// The PEM-encoding of DER-encoded ASN.1 data.
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Certificate []byte
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// Any extra information to serialize alongside the
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// certificate in storage.
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Metadata interface{}
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}
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// CertificateResource associates a certificate with its private
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// key and other useful information, for use in maintaining the
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// certificate.
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type CertificateResource struct {
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// The list of names on the certificate;
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// for convenience only.
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SANs []string `json:"sans,omitempty"`
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// The PEM-encoding of DER-encoded ASN.1 data
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// for the cert or chain.
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CertificatePEM []byte `json:"-"`
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// The PEM-encoding of the certificate's private key.
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PrivateKeyPEM []byte `json:"-"`
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// Any extra information associated with the certificate,
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// usually provided by the issuer implementation.
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IssuerData interface{} `json:"issuer_data,omitempty"`
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}
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// NamesKey returns the list of SANs as a single string,
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// truncated to some ridiculously long size limit. It
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// can act as a key for the set of names on the resource.
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func (cr *CertificateResource) NamesKey() string {
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sort.Strings(cr.SANs)
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result := strings.Join(cr.SANs, ",")
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if len(result) > 1024 {
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const trunc = "_trunc"
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result = result[:1024-len(trunc)] + trunc
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}
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return result
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}
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// Default contains the package defaults for the
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// various Config fields. This is used as a template
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// when creating your own Configs with New() or
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// NewDefault(), and it is also used as the Config
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// by all the high-level functions in this package
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// that abstract away most configuration (HTTPS(),
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// TLS(), Listen(), etc).
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//
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// The fields of this value will be used for Config
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// fields which are unset. Feel free to modify these
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// defaults, but do not use this Config by itself: it
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// is only a template. Valid configurations can be
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// obtained by calling New() (if you have your own
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// certificate cache) or NewDefault() (if you only
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// need a single config and want to use the default
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// cache).
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//
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// Even if the Issuers or Storage fields are not set,
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// defaults will be applied in the call to New().
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var Default = Config{
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RenewalWindowRatio: DefaultRenewalWindowRatio,
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Storage: defaultFileStorage,
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KeySource: DefaultKeyGenerator,
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}
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const (
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// HTTPChallengePort is the officially-designated port for
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// the HTTP challenge according to the ACME spec.
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HTTPChallengePort = 80
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// TLSALPNChallengePort is the officially-designated port for
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// the TLS-ALPN challenge according to the ACME spec.
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TLSALPNChallengePort = 443
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)
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// Port variables must remain their defaults unless you
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// forward packets from the defaults to whatever these
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// are set to; otherwise ACME challenges will fail.
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var (
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// HTTPPort is the port on which to serve HTTP
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// and, as such, the HTTP challenge (unless
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// Default.AltHTTPPort is set).
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HTTPPort = 80
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// HTTPSPort is the port on which to serve HTTPS
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// and, as such, the TLS-ALPN challenge
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// (unless Default.AltTLSALPNPort is set).
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HTTPSPort = 443
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)
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// Variables for conveniently serving HTTPS.
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var (
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httpLn, httpsLn net.Listener
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lnMu sync.Mutex
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httpWg sync.WaitGroup
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)
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// Maximum size for the stack trace when recovering from panics.
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const stackTraceBufferSize = 1024 * 128
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