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https://github.com/mjl-/mox.git
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daa908e9f4
the vendored dns resolver code is a copy of the go stdlib dns resolver, with awareness of the "authentic data" (i.e. dnssec secure) added, as well as support for enhanced dns errors, and looking up tlsa records (for dane). ideally it would be upstreamed, but the chances seem slim. dnssec-awareness is added to all packages, e.g. spf, dkim, dmarc, iprev. their dnssec status is added to the Received message headers for incoming email. but the main reason to add dnssec was for implementing dane. with dane, the verification of tls certificates can be done through certificates/public keys published in dns (in the tlsa records). this only makes sense (is trustworthy) if those dns records can be verified to be authentic. mox now applies dane to delivering messages over smtp. mox already implemented mta-sts for webpki/pkix-verification of certificates against the (large) pool of CA's, and still enforces those policies when present. but it now also checks for dane records, and will verify those if present. if dane and mta-sts are both absent, the regular opportunistic tls with starttls is still done. and the fallback to plaintext is also still done. mox also makes it easy to setup dane for incoming deliveries, so other servers can deliver with dane tls certificate verification. the quickstart now generates private keys that are used when requesting certificates with acme. the private keys are pre-generated because they must be static and known during setup, because their public keys must be published in tlsa records in dns. autocert would generate private keys on its own, so had to be forked to add the option to provide the private key when requesting a new certificate. hopefully upstream will accept the change and we can drop the fork. with this change, using the quickstart to setup a new mox instance, the checks at internet.nl result in a 100% score, provided the domain is dnssec-signed and the network doesn't have any issues.
156 lines
4.2 KiB
Go
156 lines
4.2 KiB
Go
// Copyright 2016 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package autocert
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import (
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"context"
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"crypto"
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"sync"
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"time"
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)
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// renewJitter is the maximum deviation from Manager.RenewBefore.
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const renewJitter = time.Hour
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// domainRenewal tracks the state used by the periodic timers
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// renewing a single domain's cert.
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type domainRenewal struct {
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m *Manager
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ck certKey
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key crypto.Signer
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timerMu sync.Mutex
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timer *time.Timer
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timerClose chan struct{} // if non-nil, renew closes this channel (and nils out the timer fields) instead of running
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}
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// start starts a cert renewal timer at the time
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// defined by the certificate expiration time exp.
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//
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// If the timer is already started, calling start is a noop.
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func (dr *domainRenewal) start(exp time.Time) {
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dr.timerMu.Lock()
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defer dr.timerMu.Unlock()
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if dr.timer != nil {
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return
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}
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dr.timer = time.AfterFunc(dr.next(exp), dr.renew)
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}
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// stop stops the cert renewal timer and waits for any in-flight calls to renew
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// to complete. If the timer is already stopped, calling stop is a noop.
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func (dr *domainRenewal) stop() {
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dr.timerMu.Lock()
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defer dr.timerMu.Unlock()
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for {
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if dr.timer == nil {
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return
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}
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if dr.timer.Stop() {
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dr.timer = nil
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return
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} else {
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// dr.timer fired, and we acquired dr.timerMu before the renew callback did.
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// (We know this because otherwise the renew callback would have reset dr.timer!)
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timerClose := make(chan struct{})
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dr.timerClose = timerClose
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dr.timerMu.Unlock()
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<-timerClose
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dr.timerMu.Lock()
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}
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}
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}
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// renew is called periodically by a timer.
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// The first renew call is kicked off by dr.start.
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func (dr *domainRenewal) renew() {
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dr.timerMu.Lock()
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defer dr.timerMu.Unlock()
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if dr.timerClose != nil {
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close(dr.timerClose)
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dr.timer, dr.timerClose = nil, nil
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return
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}
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ctx, cancel := context.WithTimeout(context.Background(), 10*time.Minute)
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defer cancel()
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// TODO: rotate dr.key at some point?
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next, err := dr.do(ctx)
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if err != nil {
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next = renewJitter / 2
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next += time.Duration(pseudoRand.int63n(int64(next)))
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}
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testDidRenewLoop(next, err)
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dr.timer = time.AfterFunc(next, dr.renew)
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}
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// updateState locks and replaces the relevant Manager.state item with the given
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// state. It additionally updates dr.key with the given state's key.
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func (dr *domainRenewal) updateState(state *certState) {
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dr.m.stateMu.Lock()
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defer dr.m.stateMu.Unlock()
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dr.key = state.key
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dr.m.state[dr.ck] = state
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}
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// do is similar to Manager.createCert but it doesn't lock a Manager.state item.
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// Instead, it requests a new certificate independently and, upon success,
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// replaces dr.m.state item with a new one and updates cache for the given domain.
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//
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// It may lock and update the Manager.state if the expiration date of the currently
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// cached cert is far enough in the future.
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//
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// The returned value is a time interval after which the renewal should occur again.
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func (dr *domainRenewal) do(ctx context.Context) (time.Duration, error) {
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// a race is likely unavoidable in a distributed environment
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// but we try nonetheless
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if tlscert, err := dr.m.cacheGet(ctx, dr.ck); err == nil {
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next := dr.next(tlscert.Leaf.NotAfter)
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if next > dr.m.renewBefore()+renewJitter {
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signer, ok := tlscert.PrivateKey.(crypto.Signer)
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if ok {
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state := &certState{
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key: signer,
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cert: tlscert.Certificate,
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leaf: tlscert.Leaf,
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}
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dr.updateState(state)
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return next, nil
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}
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}
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}
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der, leaf, err := dr.m.authorizedCert(ctx, dr.key, dr.ck)
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if err != nil {
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return 0, err
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}
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state := &certState{
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key: dr.key,
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cert: der,
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leaf: leaf,
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}
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tlscert, err := state.tlscert()
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if err != nil {
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return 0, err
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}
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if err := dr.m.cachePut(ctx, dr.ck, tlscert); err != nil {
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return 0, err
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}
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dr.updateState(state)
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return dr.next(leaf.NotAfter), nil
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}
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func (dr *domainRenewal) next(expiry time.Time) time.Duration {
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d := expiry.Sub(dr.m.now()) - dr.m.renewBefore()
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// add a bit of randomness to renew deadline
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n := pseudoRand.int63n(int64(renewJitter))
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d -= time.Duration(n)
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if d < 0 {
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return 0
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}
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return d
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}
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var testDidRenewLoop = func(next time.Duration, err error) {}
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