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caddy/caddytls/tls.go

198 lines
6.1 KiB
Go

// Package caddytls facilitates the management of TLS assets and integrates
// Let's Encrypt functionality into Caddy with first-class support for
// creating and renewing certificates automatically. It also implements
// the tls directive.
//
// This package is meant to be used by Caddy server types. To use the
// tls directive, a server type must import this package and call
// RegisterConfigGetter(). The server type must make and keep track of
// the caddytls.Config structs that this package produces. It must also
// add tls to its list of directives. When it comes time to make the
// server instances, the server type can call MakeTLSConfig() to convert
// a []caddytls.Config to a single tls.Config for use in tls.NewListener().
// It is also recommended to call RotateSessionTicketKeys() when
// starting a new listener.
package caddytls
import (
"encoding/json"
"io/ioutil"
"net"
"os"
"strings"
"github.com/xenolf/lego/acme"
)
// HostQualifies returns true if the hostname alone
// appears eligible for automatic HTTPS. For example,
// localhost, empty hostname, and IP addresses are
// not eligible because we cannot obtain certificates
// for those names.
func HostQualifies(hostname string) bool {
return hostname != "localhost" && // localhost is ineligible
// hostname must not be empty
strings.TrimSpace(hostname) != "" &&
// must not contain wildcard (*) characters (until CA supports it)
!strings.Contains(hostname, "*") &&
// must not start or end with a dot
!strings.HasPrefix(hostname, ".") &&
!strings.HasSuffix(hostname, ".") &&
// cannot be an IP address, see
// https://community.letsencrypt.org/t/certificate-for-static-ip/84/2?u=mholt
net.ParseIP(hostname) == nil
}
// existingCertAndKey returns true if the hostname has
// a certificate and private key in storage already under
// the storage provided, otherwise it returns false.
func existingCertAndKey(storage Storage, hostname string) bool {
_, err := os.Stat(storage.SiteCertFile(hostname))
if err != nil {
return false
}
_, err = os.Stat(storage.SiteKeyFile(hostname))
if err != nil {
return false
}
return true
}
// saveCertResource saves the certificate resource to disk. This
// includes the certificate file itself, the private key, and the
// metadata file.
func saveCertResource(storage Storage, cert acme.CertificateResource) error {
err := os.MkdirAll(storage.Site(cert.Domain), 0700)
if err != nil {
return err
}
// Save cert
err = ioutil.WriteFile(storage.SiteCertFile(cert.Domain), cert.Certificate, 0600)
if err != nil {
return err
}
// Save private key
err = ioutil.WriteFile(storage.SiteKeyFile(cert.Domain), cert.PrivateKey, 0600)
if err != nil {
return err
}
// Save cert metadata
jsonBytes, err := json.MarshalIndent(&cert, "", "\t")
if err != nil {
return err
}
err = ioutil.WriteFile(storage.SiteMetaFile(cert.Domain), jsonBytes, 0600)
if err != nil {
return err
}
return nil
}
// Revoke revokes the certificate for host via ACME protocol.
// It assumes the certificate was obtained from the
// CA at DefaultCAUrl.
func Revoke(host string) error {
client, err := newACMEClient(new(Config), true)
if err != nil {
return err
}
return client.Revoke(host)
}
// tlsSniSolver is a type that can solve tls-sni challenges using
// an existing listener and our custom, in-memory certificate cache.
type tlsSniSolver struct{}
// Present adds the challenge certificate to the cache.
func (s tlsSniSolver) Present(domain, token, keyAuth string) error {
cert, err := acme.TLSSNI01ChallengeCert(keyAuth)
if err != nil {
return err
}
cacheCertificate(Certificate{
Certificate: cert,
Names: []string{domain},
})
return nil
}
// CleanUp removes the challenge certificate from the cache.
func (s tlsSniSolver) CleanUp(domain, token, keyAuth string) error {
uncacheCertificate(domain)
return nil
}
// ConfigHolder is any type that has a Config; it presumably is
// connected to a hostname and port on which it is serving.
type ConfigHolder interface {
TLSConfig() *Config
Host() string
Port() string
}
// QualifiesForManagedTLS returns true if c qualifies for
// for managed TLS (but not on-demand TLS specifically).
// It does NOT check to see if a cert and key already exist
// for the config. If the return value is true, you should
// be OK to set c.TLSConfig().Managed to true; then you should
// check that value in the future instead, because the process
// of setting up the config may make it look like it doesn't
// qualify even though it originally did.
func QualifiesForManagedTLS(c ConfigHolder) bool {
if c == nil {
return false
}
tlsConfig := c.TLSConfig()
if tlsConfig == nil {
return false
}
return (!tlsConfig.Manual || tlsConfig.OnDemand) && // user might provide own cert and key
// if self-signed, we've already generated one to use
!tlsConfig.SelfSigned &&
// user can force-disable managed TLS
c.Port() != "80" &&
tlsConfig.ACMEEmail != "off" &&
// we get can't certs for some kinds of hostnames, but
// on-demand TLS allows empty hostnames at startup
(HostQualifies(c.Host()) || tlsConfig.OnDemand)
}
// DNSProviderConstructor is a function that takes credentials and
// returns a type that can solve the ACME DNS challenges.
type DNSProviderConstructor func(credentials ...string) (acme.ChallengeProvider, error)
// dnsProviders is the list of DNS providers that have been plugged in.
var dnsProviders = make(map[string]DNSProviderConstructor)
// RegisterDNSProvider registers provider by name for solving the ACME DNS challenge.
func RegisterDNSProvider(name string, provider DNSProviderConstructor) {
dnsProviders[name] = provider
}
var (
// DefaultEmail represents the Let's Encrypt account email to use if none provided.
DefaultEmail string
// Agreed indicates whether user has agreed to the Let's Encrypt SA.
Agreed bool
// DefaultCAUrl is the default URL to the CA's ACME directory endpoint.
// It's very important to set this unless you set it in every Config.
DefaultCAUrl string
// DefaultKeyType is used as the type of key for new certificates
// when no other key type is specified.
DefaultKeyType = acme.RSA2048
)