caddy/modules/caddytls/automation.go

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// Copyright 2015 Matthew Holt and The Caddy Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package caddytls
import (
"encoding/json"
"fmt"
"net/http"
"time"
"github.com/caddyserver/caddy/v2"
"github.com/caddyserver/certmagic"
"github.com/mholt/acmez"
)
// AutomationConfig governs the automated management of TLS certificates.
type AutomationConfig struct {
// The list of automation policies. The first matching
// policy will be applied for a given certificate/name.
Policies []*AutomationPolicy `json:"policies,omitempty"`
// On-Demand TLS defers certificate operations to the
// moment they are needed, e.g. during a TLS handshake.
// Useful when you don't know all the hostnames at
// config-time, or when you are not in control of the
// domain names you are managing certificates for.
// In 2015, Caddy became the first web server to
// implement this experimental technology.
//
// Note that this field does not enable on-demand TLS,
// it only configures it for when it is used. To enable
// it, create an automation policy with `on_demand`.
OnDemand *OnDemandConfig `json:"on_demand,omitempty"`
// Caddy staples OCSP (and caches the response) for all
// qualifying certificates by default. This setting
// changes how often it scans responses for freshness,
// and updates them if they are getting stale. Default: 1h
OCSPCheckInterval caddy.Duration `json:"ocsp_interval,omitempty"`
// Every so often, Caddy will scan all loaded, managed
// certificates for expiration. This setting changes how
// frequently the scan for expiring certificates is
// performed. Default: 10m
RenewCheckInterval caddy.Duration `json:"renew_interval,omitempty"`
// How often to scan storage units for old or expired
// assets and remove them. These scans exert lots of
// reads (and list operations) on the storage module, so
// choose a longer interval for large deployments.
// Default: 24h
//
// Storage will always be cleaned when the process first
// starts. Then, a new cleaning will be started this
// duration after the previous cleaning started if the
// previous cleaning finished in less than half the time
// of this interval (otherwise next start will be skipped).
StorageCleanInterval caddy.Duration `json:"storage_clean_interval,omitempty"`
defaultPublicAutomationPolicy *AutomationPolicy
defaultInternalAutomationPolicy *AutomationPolicy // only initialized if necessary
}
// AutomationPolicy designates the policy for automating the
// management (obtaining, renewal, and revocation) of managed
// TLS certificates.
//
// An AutomationPolicy value is not valid until it has been
// provisioned; use the `AddAutomationPolicy()` method on the
// TLS app to properly provision a new policy.
type AutomationPolicy struct {
// Which subjects (hostnames or IP addresses) this policy applies to.
Subjects []string `json:"subjects,omitempty"`
// The modules that may issue certificates. Default: internal if all
// subjects do not qualify for public certificates; othewise acme and
// zerossl.
IssuersRaw []json.RawMessage `json:"issuers,omitempty" caddy:"namespace=tls.issuance inline_key=module"`
// If true, certificates will be requested with MustStaple. Not all
// CAs support this, and there are potentially serious consequences
// of enabling this feature without proper threat modeling.
MustStaple bool `json:"must_staple,omitempty"`
// How long before a certificate's expiration to try renewing it,
// as a function of its total lifetime. As a general and conservative
// rule, it is a good idea to renew a certificate when it has about
// 1/3 of its total lifetime remaining. This utilizes the majority
// of the certificate's lifetime while still saving time to
// troubleshoot problems. However, for extremely short-lived certs,
// you may wish to increase the ratio to ~1/2.
RenewalWindowRatio float64 `json:"renewal_window_ratio,omitempty"`
// The type of key to generate for certificates.
// Supported values: `ed25519`, `p256`, `p384`, `rsa2048`, `rsa4096`.
KeyType string `json:"key_type,omitempty"`
// Optionally configure a separate storage module associated with this
// manager, instead of using Caddy's global/default-configured storage.
StorageRaw json.RawMessage `json:"storage,omitempty" caddy:"namespace=caddy.storage inline_key=module"`
// If true, certificates will be managed "on demand"; that is, during
// TLS handshakes or when needed, as opposed to at startup or config
// load.
OnDemand bool `json:"on_demand,omitempty"`
// Disables OCSP stapling. Disabling OCSP stapling puts clients at
// greater risk, reduces their privacy, and usually lowers client
// performance. It is NOT recommended to disable this unless you
// are able to justify the costs.
// EXPERIMENTAL. Subject to change.
DisableOCSPStapling bool `json:"disable_ocsp_stapling,omitempty"`
// Overrides the URLs of OCSP responders embedded in certificates.
// Each key is a OCSP server URL to override, and its value is the
// replacement. An empty value will disable querying of that server.
// EXPERIMENTAL. Subject to change.
OCSPOverrides map[string]string `json:"ocsp_overrides,omitempty"`
// Issuers stores the decoded issuer parameters. This is only
// used to populate an underlying certmagic.Config's Issuers
// field; it is not referenced thereafter.
Issuers []certmagic.Issuer `json:"-"`
magic *certmagic.Config
storage certmagic.Storage
}
// Provision sets up ap and builds its underlying CertMagic config.
func (ap *AutomationPolicy) Provision(tlsApp *TLS) error {
// policy-specific storage implementation
if ap.StorageRaw != nil {
val, err := tlsApp.ctx.LoadModule(ap, "StorageRaw")
if err != nil {
return fmt.Errorf("loading TLS storage module: %v", err)
}
cmStorage, err := val.(caddy.StorageConverter).CertMagicStorage()
if err != nil {
return fmt.Errorf("creating TLS storage configuration: %v", err)
}
ap.storage = cmStorage
}
var ond *certmagic.OnDemandConfig
if ap.OnDemand {
ond = &certmagic.OnDemandConfig{
DecisionFunc: func(name string) error {
// if an "ask" endpoint was defined, consult it first
if tlsApp.Automation != nil &&
tlsApp.Automation.OnDemand != nil &&
tlsApp.Automation.OnDemand.Ask != "" {
err := onDemandAskRequest(tlsApp.Automation.OnDemand.Ask, name)
if err != nil {
return err
}
}
// check the rate limiter last because
// doing so makes a reservation
if !onDemandRateLimiter.Allow() {
return fmt.Errorf("on-demand rate limit exceeded")
}
return nil
},
}
}
// load and provision any explicitly-configured issuer modules
if ap.IssuersRaw != nil {
val, err := tlsApp.ctx.LoadModule(ap, "IssuersRaw")
if err != nil {
return fmt.Errorf("loading TLS automation management module: %s", err)
}
for _, issVal := range val.([]interface{}) {
ap.Issuers = append(ap.Issuers, issVal.(certmagic.Issuer))
}
}
issuers := ap.Issuers
if len(issuers) == 0 {
var err error
issuers, err = DefaultIssuersProvisioned(tlsApp.ctx)
if err != nil {
return err
}
}
keyType := ap.KeyType
if keyType != "" {
var err error
keyType, err = caddy.NewReplacer().ReplaceOrErr(ap.KeyType, true, true)
if err != nil {
return fmt.Errorf("invalid key type %s: %s", ap.KeyType, err)
}
if _, ok := supportedCertKeyTypes[keyType]; !ok {
return fmt.Errorf("unrecognized key type: %s", keyType)
}
}
keySource := certmagic.StandardKeyGenerator{
KeyType: supportedCertKeyTypes[keyType],
}
storage := ap.storage
if storage == nil {
storage = tlsApp.ctx.Storage()
}
template := certmagic.Config{
MustStaple: ap.MustStaple,
RenewalWindowRatio: ap.RenewalWindowRatio,
KeySource: keySource,
OnDemand: ond,
OCSP: certmagic.OCSPConfig{
DisableStapling: ap.DisableOCSPStapling,
ResponderOverrides: ap.OCSPOverrides,
},
Storage: storage,
Issuers: issuers,
Logger: tlsApp.logger,
}
ap.magic = certmagic.New(tlsApp.certCache, template)
// sometimes issuers may need the parent certmagic.Config in
// order to function properly (for example, ACMEIssuer needs
// access to the correct storage and cache so it can solve
// ACME challenges -- it's an annoying, inelegant circular
// dependency that I don't know how to resolve nicely!)
for _, issuer := range ap.magic.Issuers {
if annoying, ok := issuer.(ConfigSetter); ok {
annoying.SetConfig(ap.magic)
}
}
return nil
}
// DefaultIssuers returns empty Issuers (not provisioned) to be used as defaults.
// This function is experimental and has no compatibility promises.
func DefaultIssuers() []certmagic.Issuer {
return []certmagic.Issuer{
new(ACMEIssuer),
&ZeroSSLIssuer{ACMEIssuer: new(ACMEIssuer)},
}
}
// DefaultIssuersProvisioned returns empty but provisioned default Issuers from
// DefaultIssuers(). This function is experimental and has no compatibility promises.
func DefaultIssuersProvisioned(ctx caddy.Context) ([]certmagic.Issuer, error) {
issuers := DefaultIssuers()
for i, iss := range issuers {
if prov, ok := iss.(caddy.Provisioner); ok {
err := prov.Provision(ctx)
if err != nil {
return nil, fmt.Errorf("provisioning default issuer %d: %T: %v", i, iss, err)
}
}
}
return issuers, nil
}
// ChallengesConfig configures the ACME challenges.
type ChallengesConfig struct {
// HTTP configures the ACME HTTP challenge. This
// challenge is enabled and used automatically
// and by default.
HTTP *HTTPChallengeConfig `json:"http,omitempty"`
// TLSALPN configures the ACME TLS-ALPN challenge.
// This challenge is enabled and used automatically
// and by default.
TLSALPN *TLSALPNChallengeConfig `json:"tls-alpn,omitempty"`
// Configures the ACME DNS challenge. Because this
// challenge typically requires credentials for
// interfacing with a DNS provider, this challenge is
// not enabled by default. This is the only challenge
// type which does not require a direct connection
// to Caddy from an external server.
//
// NOTE: DNS providers are currently being upgraded,
// and this API is subject to change, but should be
// stabilized soon.
DNS *DNSChallengeConfig `json:"dns,omitempty"`
// Optionally customize the host to which a listener
// is bound if required for solving a challenge.
BindHost string `json:"bind_host,omitempty"`
}
// HTTPChallengeConfig configures the ACME HTTP challenge.
type HTTPChallengeConfig struct {
// If true, the HTTP challenge will be disabled.
Disabled bool `json:"disabled,omitempty"`
// An alternate port on which to service this
// challenge. Note that the HTTP challenge port is
// hard-coded into the spec and cannot be changed,
// so you would have to forward packets from the
// standard HTTP challenge port to this one.
AlternatePort int `json:"alternate_port,omitempty"`
}
// TLSALPNChallengeConfig configures the ACME TLS-ALPN challenge.
type TLSALPNChallengeConfig struct {
// If true, the TLS-ALPN challenge will be disabled.
Disabled bool `json:"disabled,omitempty"`
// An alternate port on which to service this
// challenge. Note that the TLS-ALPN challenge port
// is hard-coded into the spec and cannot be changed,
// so you would have to forward packets from the
// standard TLS-ALPN challenge port to this one.
AlternatePort int `json:"alternate_port,omitempty"`
}
// DNSChallengeConfig configures the ACME DNS challenge.
//
// NOTE: This API is still experimental and is subject to change.
type DNSChallengeConfig struct {
// The DNS provider module to use which will manage
// the DNS records relevant to the ACME challenge.
ProviderRaw json.RawMessage `json:"provider,omitempty" caddy:"namespace=dns.providers inline_key=name"`
// The TTL of the TXT record used for the DNS challenge.
TTL caddy.Duration `json:"ttl,omitempty"`
// How long to wait for DNS record to propagate.
PropagationTimeout caddy.Duration `json:"propagation_timeout,omitempty"`
// Custom DNS resolvers to prefer over system/built-in defaults.
// Often necessary to configure when using split-horizon DNS.
Resolvers []string `json:"resolvers,omitempty"`
solver acmez.Solver
}
// OnDemandConfig configures on-demand TLS, for obtaining
// needed certificates at handshake-time. Because this
// feature can easily be abused, you should use this to
// establish rate limits and/or an internal endpoint that
// Caddy can "ask" if it should be allowed to manage
// certificates for a given hostname.
type OnDemandConfig struct {
// An optional rate limit to throttle the
// issuance of certificates from handshakes.
RateLimit *RateLimit `json:"rate_limit,omitempty"`
// If Caddy needs to obtain or renew a certificate
// during a TLS handshake, it will perform a quick
// HTTP request to this URL to check if it should be
// allowed to try to get a certificate for the name
// in the "domain" query string parameter, like so:
// `?domain=example.com`. The endpoint must return a
// 200 OK status if a certificate is allowed;
// anything else will cause it to be denied.
// Redirects are not followed.
Ask string `json:"ask,omitempty"`
}
// RateLimit specifies an interval with optional burst size.
type RateLimit struct {
// A duration value. A certificate may be obtained 'burst'
// times during this interval.
Interval caddy.Duration `json:"interval,omitempty"`
// How many times during an interval a certificate can be obtained.
Burst int `json:"burst,omitempty"`
}
// ConfigSetter is implemented by certmagic.Issuers that
// need access to a parent certmagic.Config as part of
// their provisioning phase. For example, the ACMEIssuer
// requires a config so it can access storage and the
// cache to solve ACME challenges.
type ConfigSetter interface {
SetConfig(cfg *certmagic.Config)
}
// These perpetual values are used for on-demand TLS.
var (
onDemandRateLimiter = certmagic.NewRateLimiter(0, 0)
onDemandAskClient = &http.Client{
Timeout: 10 * time.Second,
CheckRedirect: func(req *http.Request, via []*http.Request) error {
return fmt.Errorf("following http redirects is not allowed")
},
}
)