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caddy/modules/caddyhttp/autohttps.go

632 lines
23 KiB
Go

// 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 caddyhttp
import (
"fmt"
"net/http"
"strconv"
"strings"
"github.com/caddyserver/caddy/v2"
"github.com/caddyserver/caddy/v2/modules/caddytls"
"github.com/caddyserver/certmagic"
"go.uber.org/zap"
)
// AutoHTTPSConfig is used to disable automatic HTTPS
// or certain aspects of it for a specific server.
// HTTPS is enabled automatically and by default when
// qualifying hostnames are available from the config.
type AutoHTTPSConfig struct {
// If true, automatic HTTPS will be entirely disabled.
Disabled bool `json:"disable,omitempty"`
// If true, only automatic HTTP->HTTPS redirects will
// be disabled.
DisableRedir bool `json:"disable_redirects,omitempty"`
// Hosts/domain names listed here will not be included
// in automatic HTTPS (they will not have certificates
// loaded nor redirects applied).
Skip []string `json:"skip,omitempty"`
// Hosts/domain names listed here will still be enabled
// for automatic HTTPS (unless in the Skip list), except
// that certificates will not be provisioned and managed
// for these names.
SkipCerts []string `json:"skip_certificates,omitempty"`
// By default, automatic HTTPS will obtain and renew
// certificates for qualifying hostnames. However, if
// a certificate with a matching SAN is already loaded
// into the cache, certificate management will not be
// enabled. To force automated certificate management
// regardless of loaded certificates, set this to true.
IgnoreLoadedCerts bool `json:"ignore_loaded_certificates,omitempty"`
}
// Skipped returns true if name is in skipSlice, which
// should be either the Skip or SkipCerts field on ahc.
func (ahc AutoHTTPSConfig) Skipped(name string, skipSlice []string) bool {
for _, n := range skipSlice {
if name == n {
return true
}
}
return false
}
// automaticHTTPSPhase1 provisions all route matchers, determines
// which domain names found in the routes qualify for automatic
// HTTPS, and sets up HTTP->HTTPS redirects. This phase must occur
// at the beginning of provisioning, because it may add routes and
// even servers to the app, which still need to be set up with the
// rest of them during provisioning.
func (app *App) automaticHTTPSPhase1(ctx caddy.Context, repl *caddy.Replacer) error {
// this map acts as a set to store the domain names
// for which we will manage certificates automatically
uniqueDomainsForCerts := make(map[string]struct{})
// this maps domain names for automatic HTTP->HTTPS
// redirects to their destination server addresses
// (there might be more than 1 if bind is used; see
// https://github.com/caddyserver/caddy/issues/3443)
redirDomains := make(map[string][]caddy.NetworkAddress)
for srvName, srv := range app.Servers {
// as a prerequisite, provision route matchers; this is
// required for all routes on all servers, and must be
// done before we attempt to do phase 1 of auto HTTPS,
// since we have to access the decoded host matchers the
// handlers will be provisioned later
if srv.Routes != nil {
err := srv.Routes.ProvisionMatchers(ctx)
if err != nil {
return fmt.Errorf("server %s: setting up route matchers: %v", srvName, err)
}
}
// prepare for automatic HTTPS
if srv.AutoHTTPS == nil {
srv.AutoHTTPS = new(AutoHTTPSConfig)
}
if srv.AutoHTTPS.Disabled {
continue
}
// skip if all listeners use the HTTP port
if !srv.listenersUseAnyPortOtherThan(app.httpPort()) {
app.logger.Info("server is listening only on the HTTP port, so no automatic HTTPS will be applied to this server",
zap.String("server_name", srvName),
zap.Int("http_port", app.httpPort()),
)
srv.AutoHTTPS.Disabled = true
continue
}
// if all listeners are on the HTTPS port, make sure
// there is at least one TLS connection policy; it
// should be obvious that they want to use TLS without
// needing to specify one empty policy to enable it
if srv.TLSConnPolicies == nil &&
!srv.listenersUseAnyPortOtherThan(app.httpsPort()) {
app.logger.Info("server is listening only on the HTTPS port but has no TLS connection policies; adding one to enable TLS",
zap.String("server_name", srvName),
zap.Int("https_port", app.httpsPort()),
)
srv.TLSConnPolicies = caddytls.ConnectionPolicies{new(caddytls.ConnectionPolicy)}
}
// find all qualifying domain names (deduplicated) in this server
// (this is where we need the provisioned, decoded request matchers)
serverDomainSet := make(map[string]struct{})
for routeIdx, route := range srv.Routes {
for matcherSetIdx, matcherSet := range route.MatcherSets {
for matcherIdx, m := range matcherSet {
if hm, ok := m.(*MatchHost); ok {
for hostMatcherIdx, d := range *hm {
var err error
d, err = repl.ReplaceOrErr(d, true, false)
if err != nil {
return fmt.Errorf("%s: route %d, matcher set %d, matcher %d, host matcher %d: %v",
srvName, routeIdx, matcherSetIdx, matcherIdx, hostMatcherIdx, err)
}
if !srv.AutoHTTPS.Skipped(d, srv.AutoHTTPS.Skip) {
serverDomainSet[d] = struct{}{}
}
}
}
}
}
}
// nothing more to do here if there are no domains that qualify for
// automatic HTTPS and there are no explicit TLS connection policies:
// if there is at least one domain but no TLS conn policy (F&&T), we'll
// add one below; if there are no domains but at least one TLS conn
// policy (meaning TLS is enabled) (T&&F), it could be a catch-all with
// on-demand TLS -- and in that case we would still need HTTP->HTTPS
// redirects, which we set up below; hence these two conditions
if len(serverDomainSet) == 0 && len(srv.TLSConnPolicies) == 0 {
continue
}
// for all the hostnames we found, filter them so we have
// a deduplicated list of names for which to obtain certs
for d := range serverDomainSet {
if certmagic.SubjectQualifiesForCert(d) &&
!srv.AutoHTTPS.Skipped(d, srv.AutoHTTPS.SkipCerts) {
// if a certificate for this name is already loaded,
// don't obtain another one for it, unless we are
// supposed to ignore loaded certificates
if !srv.AutoHTTPS.IgnoreLoadedCerts &&
len(app.tlsApp.AllMatchingCertificates(d)) > 0 {
app.logger.Info("skipping automatic certificate management because one or more matching certificates are already loaded",
zap.String("domain", d),
zap.String("server_name", srvName),
)
continue
}
// most clients don't accept wildcards like *.tld... we
// can handle that, but as a courtesy, warn the user
if strings.Contains(d, "*") &&
strings.Count(strings.Trim(d, "."), ".") == 1 {
app.logger.Warn("most clients do not trust second-level wildcard certificates (*.tld)",
zap.String("domain", d))
}
uniqueDomainsForCerts[d] = struct{}{}
}
}
// tell the server to use TLS if it is not already doing so
if srv.TLSConnPolicies == nil {
srv.TLSConnPolicies = caddytls.ConnectionPolicies{new(caddytls.ConnectionPolicy)}
}
// nothing left to do if auto redirects are disabled
if srv.AutoHTTPS.DisableRedir {
continue
}
app.logger.Info("enabling automatic HTTP->HTTPS redirects",
zap.String("server_name", srvName),
)
// create HTTP->HTTPS redirects
for _, addr := range srv.Listen {
// figure out the address we will redirect to...
addr, err := caddy.ParseNetworkAddress(addr)
if err != nil {
return fmt.Errorf("%s: invalid listener address: %v", srvName, addr)
}
// this address might not have a hostname, i.e. might be a
// catch-all address for a particular port; we need to keep
// track if it is, so we can set up redirects for it anyway
// (e.g. the user might have enabled on-demand TLS); we use
// an empty string to indicate a catch-all, which we have to
// treat special later
if len(serverDomainSet) == 0 {
redirDomains[""] = append(redirDomains[""], addr)
continue
}
// ...and associate it with each domain in this server
for d := range serverDomainSet {
// if this domain is used on more than one HTTPS-enabled
// port, we'll have to choose one, so prefer the HTTPS port
if _, ok := redirDomains[d]; !ok ||
addr.StartPort == uint(app.httpsPort()) {
redirDomains[d] = append(redirDomains[d], addr)
}
}
}
}
// we now have a list of all the unique names for which we need certs;
// turn the set into a slice so that phase 2 can use it
app.allCertDomains = make([]string, 0, len(uniqueDomainsForCerts))
var internal, external []string
uniqueDomainsLoop:
for d := range uniqueDomainsForCerts {
// whether or not there is already an automation policy for this
// name, we should add it to the list to manage a cert for it
app.allCertDomains = append(app.allCertDomains, d)
// some names we've found might already have automation policies
// explicitly specified for them; we should exclude those from
// our hidden/implicit policy, since applying a name to more than
// one automation policy would be confusing and an error
if app.tlsApp.Automation != nil {
for _, ap := range app.tlsApp.Automation.Policies {
for _, apHost := range ap.Subjects {
if apHost == d {
continue uniqueDomainsLoop
}
}
}
}
// if no automation policy exists for the name yet, we
// will associate it with an implicit one
if certmagic.SubjectQualifiesForPublicCert(d) {
external = append(external, d)
} else {
internal = append(internal, d)
}
}
// ensure there is an automation policy to handle these certs
err := app.createAutomationPolicies(ctx, external, internal)
if err != nil {
return err
}
// we need to reduce the mapping, i.e. group domains by address
// since new routes are appended to servers by their address
domainsByAddr := make(map[string][]string)
for domain, addrs := range redirDomains {
for _, addr := range addrs {
addrStr := addr.String()
domainsByAddr[addrStr] = append(domainsByAddr[addrStr], domain)
}
}
// these keep track of the redirect server address(es)
// and the routes for those servers which actually
// respond with the redirects
redirServerAddrs := make(map[string]struct{})
redirServers := make(map[string][]Route)
var redirRoutes RouteList
for addrStr, domains := range domainsByAddr {
// build the matcher set for this redirect route; (note that we happen
// to bypass Provision and Validate steps for these matcher modules)
matcherSet := MatcherSet{MatchProtocol("http")}
// match on known domain names, unless it's our special case of a
// catch-all which is an empty string (common among catch-all sites
// that enable on-demand TLS for yet-unknown domain names)
if !(len(domains) == 1 && domains[0] == "") {
matcherSet = append(matcherSet, MatchHost(domains))
}
// build the address to which to redirect
addr, err := caddy.ParseNetworkAddress(addrStr)
if err != nil {
return err
}
redirTo := "https://{http.request.host}"
if addr.StartPort != uint(app.httpsPort()) {
redirTo += ":" + strconv.Itoa(int(addr.StartPort))
}
redirTo += "{http.request.uri}"
// build the route
redirRoute := Route{
MatcherSets: []MatcherSet{matcherSet},
Handlers: []MiddlewareHandler{
StaticResponse{
StatusCode: WeakString(strconv.Itoa(http.StatusPermanentRedirect)),
Headers: http.Header{
"Location": []string{redirTo},
"Connection": []string{"close"},
},
Close: true,
},
},
}
// use the network/host information from the address,
// but change the port to the HTTP port then rebuild
redirAddr := addr
redirAddr.StartPort = uint(app.httpPort())
redirAddr.EndPort = redirAddr.StartPort
redirAddrStr := redirAddr.String()
redirServers[redirAddrStr] = append(redirServers[redirAddrStr], redirRoute)
}
// on-demand TLS means that hostnames may be used which are not
// explicitly defined in the config, and we still need to redirect
// those; so we can append a single catch-all route (notice there
// is no Host matcher) after the other redirect routes which will
// allow us to handle unexpected/new hostnames... however, it's
// not entirely clear what the redirect destination should be,
// so I'm going to just hard-code the app's HTTPS port and call
// it good for now...
// TODO: This implies that all plaintext requests will be blindly
// redirected to their HTTPS equivalent, even if this server
// doesn't handle that hostname at all; I don't think this is a
// bad thing, and it also obscures the actual hostnames that this
// server is configured to match on, which may be desirable, but
// it's not something that should be relied on. We can change this
// if we want to.
appendCatchAll := func(routes []Route) []Route {
redirTo := "https://{http.request.host}"
if app.httpsPort() != DefaultHTTPSPort {
redirTo += ":" + strconv.Itoa(app.httpsPort())
}
redirTo += "{http.request.uri}"
routes = append(routes, Route{
MatcherSets: []MatcherSet{{MatchProtocol("http")}},
Handlers: []MiddlewareHandler{
StaticResponse{
StatusCode: WeakString(strconv.Itoa(http.StatusPermanentRedirect)),
Headers: http.Header{
"Location": []string{redirTo},
"Connection": []string{"close"},
},
Close: true,
},
},
})
return routes
}
redirServersLoop:
for redirServerAddr, routes := range redirServers {
// for each redirect listener, see if there's already a
// server configured to listen on that exact address; if so,
// simply add the redirect route to the end of its route
// list; otherwise, we'll create a new server for all the
// listener addresses that are unused and serve the
// remaining redirects from it
for srvName, srv := range app.Servers {
if srv.hasListenerAddress(redirServerAddr) {
// user has configured a server for the same address
// that the redirect runs from; simply append our
// redirect route to the existing routes, with a
// caveat that their config might override ours
app.logger.Warn("user server is listening on same interface as automatic HTTP->HTTPS redirects; user-configured routes might override these redirects",
zap.String("server_name", srvName),
zap.String("interface", redirServerAddr),
)
srv.Routes = append(srv.Routes, appendCatchAll(routes)...)
continue redirServersLoop
}
}
// no server with this listener address exists;
// save this address and route for custom server
redirServerAddrs[redirServerAddr] = struct{}{}
redirRoutes = append(redirRoutes, routes...)
}
// if there are routes remaining which do not belong
// in any existing server, make our own to serve the
// rest of the redirects
if len(redirServerAddrs) > 0 {
redirServerAddrsList := make([]string, 0, len(redirServerAddrs))
for a := range redirServerAddrs {
redirServerAddrsList = append(redirServerAddrsList, a)
}
app.Servers["remaining_auto_https_redirects"] = &Server{
Listen: redirServerAddrsList,
Routes: appendCatchAll(redirRoutes),
}
}
return nil
}
// createAutomationPolicy ensures that automated certificates for this
// app are managed properly. This adds up to two automation policies:
// one for the public names, and one for the internal names. If a catch-all
// automation policy exists, it will be shallow-copied and used as the
// base for the new ones (this is important for preserving behavior the
// user intends to be "defaults").
func (app *App) createAutomationPolicies(ctx caddy.Context, publicNames, internalNames []string) error {
// before we begin, loop through the existing automation policies
// and, for any ACMEIssuers we find, make sure they're filled in
// with default values that might be specified in our HTTP app; also
// look for a base (or "catch-all" / default) automation policy,
// which we're going to essentially require, to make sure it has
// those defaults, too
var basePolicy *caddytls.AutomationPolicy
var foundBasePolicy bool
if app.tlsApp.Automation == nil {
// we will expect this to not be nil from now on
app.tlsApp.Automation = new(caddytls.AutomationConfig)
}
for _, ap := range app.tlsApp.Automation.Policies {
// set up default issuer -- honestly, this is only
// really necessary because the HTTP app is opinionated
// and has settings which could be inferred as new
// defaults for the ACMEIssuer in the TLS app
if ap.Issuer == nil {
ap.Issuer = new(caddytls.ACMEIssuer)
}
if acmeIssuer, ok := ap.Issuer.(*caddytls.ACMEIssuer); ok {
err := app.fillInACMEIssuer(acmeIssuer)
if err != nil {
return err
}
}
// while we're here, is this the catch-all/base policy?
if !foundBasePolicy && len(ap.Subjects) == 0 {
basePolicy = ap
foundBasePolicy = true
}
}
if basePolicy == nil {
// no base policy found, we will make one!
basePolicy = new(caddytls.AutomationPolicy)
}
// if the basePolicy has an existing ACMEIssuer, let's
// use it, otherwise we'll make one
baseACMEIssuer, _ := basePolicy.Issuer.(*caddytls.ACMEIssuer)
if baseACMEIssuer == nil {
// note that this happens if basePolicy.Issuer is nil
// OR if it is not nil but is not an ACMEIssuer
baseACMEIssuer = new(caddytls.ACMEIssuer)
}
// if there was a base policy to begin with, we already
// filled in its issuer's defaults; if there wasn't, we
// stil need to do that
if !foundBasePolicy {
err := app.fillInACMEIssuer(baseACMEIssuer)
if err != nil {
return err
}
}
// never overwrite any other issuer that might already be configured
if basePolicy.Issuer == nil {
basePolicy.Issuer = baseACMEIssuer
}
if !foundBasePolicy {
// there was no base policy to begin with, so add
// our base/catch-all policy - this will serve the
// public-looking names as well as any other names
// that don't match any other policy
app.tlsApp.AddAutomationPolicy(basePolicy)
} else {
// a base policy already existed; we might have
// changed it, so re-provision it
err := basePolicy.Provision(app.tlsApp)
if err != nil {
return err
}
}
// public names will be taken care of by the base (catch-all)
// policy, which we've ensured exists if not already specified;
// internal names, however, need to be handled by an internal
// issuer, which we need to make a new policy for, scoped to
// just those names (yes, this logic is a bit asymmetric, but
// it works, because our assumed/natural default issuer is an
// ACME issuer)
if len(internalNames) > 0 {
internalIssuer := new(caddytls.InternalIssuer)
// shallow-copy the base policy; we want to inherit
// from it, not replace it... this takes two lines to
// overrule compiler optimizations
policyCopy := *basePolicy
newPolicy := &policyCopy
// very important to provision the issuer, since we
// are bypassing the JSON-unmarshaling step
if err := internalIssuer.Provision(ctx); err != nil {
return err
}
// this policy should apply only to the given names
// and should use our issuer -- yes, this overrides
// any issuer that may have been set in the base
// policy, but we do this because these names do not
// already have a policy associated with them, which
// is easy to do; consider the case of a Caddyfile
// that has only "localhost" as a name, but sets the
// default/global ACME CA to the Let's Encrypt staging
// endpoint... they probably don't intend to change the
// fundamental set of names that setting applies to,
// rather they just want to change the CA for the set
// of names that would normally use the production API;
// anyway, that gets into the weeds a bit...
newPolicy.Subjects = internalNames
newPolicy.Issuer = internalIssuer
err := app.tlsApp.AddAutomationPolicy(newPolicy)
if err != nil {
return err
}
}
// we just changed a lot of stuff, so double-check that it's all good
err := app.tlsApp.Validate()
if err != nil {
return err
}
return nil
}
// fillInACMEIssuer fills in default values into acmeIssuer that
// are defined in app; these values at time of writing are just
// app.HTTPPort and app.HTTPSPort, which are used by ACMEIssuer.
// Sure, we could just use the global/CertMagic defaults, but if
// a user has configured those ports in the HTTP app, it makes
// sense to use them in the TLS app too, even if they forgot (or
// were too lazy, like me) to set it in each automation policy
// that uses it -- this just makes things a little less tedious
// for the user, so they don't have to repeat those ports in
// potentially many places. This function never steps on existing
// config values. If any changes are made, acmeIssuer is
// reprovisioned. acmeIssuer must not be nil.
func (app *App) fillInACMEIssuer(acmeIssuer *caddytls.ACMEIssuer) error {
if app.HTTPPort > 0 || app.HTTPSPort > 0 {
if acmeIssuer.Challenges == nil {
acmeIssuer.Challenges = new(caddytls.ChallengesConfig)
}
}
if app.HTTPPort > 0 {
if acmeIssuer.Challenges.HTTP == nil {
acmeIssuer.Challenges.HTTP = new(caddytls.HTTPChallengeConfig)
}
// don't overwrite existing explicit config
if acmeIssuer.Challenges.HTTP.AlternatePort == 0 {
acmeIssuer.Challenges.HTTP.AlternatePort = app.HTTPPort
}
}
if app.HTTPSPort > 0 {
if acmeIssuer.Challenges.TLSALPN == nil {
acmeIssuer.Challenges.TLSALPN = new(caddytls.TLSALPNChallengeConfig)
}
// don't overwrite existing explicit config
if acmeIssuer.Challenges.TLSALPN.AlternatePort == 0 {
acmeIssuer.Challenges.TLSALPN.AlternatePort = app.HTTPSPort
}
}
// we must provision all ACME issuers, even if nothing
// was changed, because we don't know if they are new
// and haven't been provisioned yet; if an ACME issuer
// never gets provisioned, its Agree field stays false,
// which leads to, um, problems later on
return acmeIssuer.Provision(app.ctx)
}
// automaticHTTPSPhase2 begins certificate management for
// all names in the qualifying domain set for each server.
// This phase must occur after provisioning and at the end
// of app start, after all the servers have been started.
// Doing this last ensures that there won't be any race
// for listeners on the HTTP or HTTPS ports when management
// is async (if CertMagic's solvers bind to those ports
// first, then our servers would fail to bind to them,
// which would be bad, since CertMagic's bindings are
// temporary and don't serve the user's sites!).
func (app *App) automaticHTTPSPhase2() error {
if len(app.allCertDomains) == 0 {
return nil
}
app.logger.Info("enabling automatic TLS certificate management",
zap.Strings("domains", app.allCertDomains),
)
err := app.tlsApp.Manage(app.allCertDomains)
if err != nil {
return fmt.Errorf("managing certificates for %v: %s", app.allCertDomains, err)
}
app.allCertDomains = nil // no longer needed; allow GC to deallocate
return nil
}