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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"
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"github.com/mholt/acmez"
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)
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// AutomationConfig governs the automated management of TLS certificates.
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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.
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// 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`.
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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,
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// and updates them if they are getting stale. Default: 1h
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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
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// performed. Default: 10m
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RenewCheckInterval caddy . Duration ` json:"renew_interval,omitempty" `
httpcaddyfile, caddytls: Multiple edge case fixes; add tests
- Create two default automation policies; if the TLS app is used in
isolation with the 'automate' certificate loader, it will now use
an internal issuer for internal-only names, and an ACME issuer for
all other names by default.
- If the HTTP Caddyfile adds an 'automate' loader, it now also adds an
automation policy for any names in that loader that do not qualify
for public certificates so that they will be issued internally. (It
might be nice if this wasn't necessary, but the alternative is to
either make auto-HTTPS logic way more complex by scanning the names in
the 'automate' loader, or to have an automation policy without an
issuer switch between default issuer based on the name being issued
a certificate - I think I like the latter option better, right now we
do something kind of like that but at a level above each individual
automation policies, we do that switch only when no automation
policies match, rather than when a policy without an issuer does
match.)
- Set the default LoggerName rather than a LoggerNames with an empty
host value, which is now taken literally rather than as a catch-all.
- hostsFromKeys, the function that gets a list of hosts from server
block keys, no longer returns an empty string in its resulting slice,
ever.
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defaultPublicAutomationPolicy * AutomationPolicy
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defaultInternalAutomationPolicy * AutomationPolicy // only initialized if necessary
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}
// 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" `
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// 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" `
// DEPRECATED: Use `issuers` instead (November 2020). This field will
// be removed in the future.
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IssuerRaw json . RawMessage ` json:"issuer,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" `
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// Issuers stores the decoded issuer parameters. This is only
// used to populate an underlying certmagic.Config's Issuers
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// field; it is not referenced thereafter.
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Issuers [ ] certmagic . Issuer ` json:"-" `
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magic * certmagic . Config
storage certmagic . Storage
}
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// Provision sets up ap and builds its underlying CertMagic config.
func ( ap * AutomationPolicy ) Provision ( tlsApp * TLS ) error {
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// 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 {
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// 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
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}
}
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// check the rate limiter last because
// doing so makes a reservation
if ! onDemandRateLimiter . Allow ( ) {
return fmt . Errorf ( "on-demand rate limit exceeded" )
}
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return nil
} ,
}
}
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// TODO: IssuerRaw field deprecated as of November 2020 - remove this shim after deprecation is complete
if ap . IssuerRaw != nil {
tlsApp . logger . Warn ( "the 'issuer' field is deprecated and will be removed in the future; use 'issuers' instead; your issuer has been appended automatically for now" )
ap . IssuersRaw = append ( ap . IssuersRaw , ap . IssuerRaw )
}
// 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 )
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}
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for _ , issVal := range val . ( [ ] interface { } ) {
ap . Issuers = append ( ap . Issuers , issVal . ( certmagic . Issuer ) )
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}
}
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issuers := ap . Issuers
if len ( issuers ) == 0 {
var err error
issuers , err = DefaultIssuers ( tlsApp . ctx )
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if err != nil {
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return err
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}
}
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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 )
}
}
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keySource := certmagic . StandardKeyGenerator {
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KeyType : supportedCertKeyTypes [ keyType ] ,
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}
storage := ap . storage
if storage == nil {
storage = tlsApp . ctx . Storage ( )
}
template := certmagic . Config {
MustStaple : ap . MustStaple ,
RenewalWindowRatio : ap . RenewalWindowRatio ,
KeySource : keySource ,
OnDemand : ond ,
Storage : storage ,
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Issuers : issuers ,
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Logger : tlsApp . logger ,
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}
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!)
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for _ , issuer := range ap . magic . Issuers {
if annoying , ok := issuer . ( ConfigSetter ) ; ok {
annoying . SetConfig ( ap . magic )
}
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}
return nil
}
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// DefaultIssuers returns empty but provisioned default Issuers.
// This function is experimental and has no compatibility promises.
func DefaultIssuers ( ctx caddy . Context ) ( [ ] certmagic . Issuer , error ) {
acme := new ( ACMEIssuer )
err := acme . Provision ( ctx )
if err != nil {
return nil , err
}
zerossl := new ( ZeroSSLIssuer )
err = zerossl . Provision ( ctx )
if err != nil {
return nil , err
}
// TODO: eventually, insert ZeroSSL into first position in the slice -- see also httpcaddyfile/tlsapp.go for where similar defaults are configured
return [ ] certmagic . Issuer { acme , zerossl } , nil
}
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// 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.
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//
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// NOTE: DNS providers are currently being upgraded,
// and this API is subject to change, but should be
// stabilized soon.
DNS * DNSChallengeConfig ` json:"dns,omitempty" `
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// Optionally customize the host to which a listener
// is bound if required for solving a challenge.
BindHost string ` json:"bind_host,omitempty" `
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}
// 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" `
}
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// DNSChallengeConfig configures the ACME DNS challenge.
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//
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// 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.
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ProviderRaw json . RawMessage ` json:"provider,omitempty" caddy:"namespace=dns.providers inline_key=name" `
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// The TTL of the TXT record used for the DNS challenge.
TTL caddy . Duration ` json:"ttl,omitempty" `
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// How long to wait for DNS record to propagate.
PropagationTimeout caddy . Duration ` json:"propagation_timeout,omitempty" `
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// Custom DNS resolvers to prefer over system/built-in defaults.
// Often necessary to configure when using split-horizon DNS.
Resolvers [ ] string ` json:"resolvers,omitempty" `
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solver acmez . Solver
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}
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// OnDemandConfig configures on-demand TLS, for obtaining
// needed certificates at handshake-time. Because this
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// 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.
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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" )
} ,
}
)