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https://codeberg.org/forgejo/forgejo.git
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8ea1d32bea
* update github.com/caddyserver/certmagic v0.12.0 -> v0.13.0 * migrate
376 lines
12 KiB
Go
Vendored
376 lines
12 KiB
Go
Vendored
// Copyright 2015 Matthew Holt
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package certmagic
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import (
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"context"
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"crypto/tls"
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"crypto/x509"
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"fmt"
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weakrand "math/rand"
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"net"
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"net/http"
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"net/url"
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"strconv"
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"strings"
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"sync"
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"time"
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"github.com/mholt/acmez"
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"github.com/mholt/acmez/acme"
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"go.uber.org/zap"
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)
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func init() {
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weakrand.Seed(time.Now().UnixNano())
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}
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// acmeClient holds state necessary to perform ACME operations
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// for certificate management with an ACME account. Call
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// ACMEManager.newACMEClientWithAccount() to get a valid one.
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type acmeClient struct {
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mgr *ACMEManager
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acmeClient *acmez.Client
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account acme.Account
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}
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// newACMEClientWithAccount creates an ACME client ready to use with an account, including
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// loading one from storage or registering a new account with the CA if necessary. If
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// useTestCA is true, am.TestCA will be used if set; otherwise, the primary CA will be used.
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func (am *ACMEManager) newACMEClientWithAccount(ctx context.Context, useTestCA, interactive bool) (*acmeClient, error) {
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// first, get underlying ACME client
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client, err := am.newACMEClient(useTestCA)
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if err != nil {
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return nil, err
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}
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// look up or create the ACME account
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var account acme.Account
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if am.AccountKeyPEM != "" {
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account, err = am.GetAccount(ctx, []byte(am.AccountKeyPEM))
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} else {
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account, err = am.getAccount(client.Directory, am.Email)
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}
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if err != nil {
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return nil, fmt.Errorf("getting ACME account: %v", err)
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}
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// register account if it is new
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if account.Status == "" {
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if am.NewAccountFunc != nil {
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account, err = am.NewAccountFunc(ctx, am, account)
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if err != nil {
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return nil, fmt.Errorf("account pre-registration callback: %v", err)
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}
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}
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// agree to terms
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if interactive {
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if !am.Agreed {
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var termsURL string
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dir, err := client.GetDirectory(ctx)
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if err != nil {
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return nil, fmt.Errorf("getting directory: %w", err)
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}
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if dir.Meta != nil {
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termsURL = dir.Meta.TermsOfService
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}
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if termsURL != "" {
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am.Agreed = am.askUserAgreement(termsURL)
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if !am.Agreed {
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return nil, fmt.Errorf("user must agree to CA terms")
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}
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}
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}
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} else {
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// can't prompt a user who isn't there; they should
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// have reviewed the terms beforehand
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am.Agreed = true
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}
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account.TermsOfServiceAgreed = am.Agreed
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// associate account with external binding, if configured
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if am.ExternalAccount != nil {
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err := account.SetExternalAccountBinding(ctx, client.Client, *am.ExternalAccount)
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if err != nil {
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return nil, err
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}
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}
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// create account
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account, err = client.NewAccount(ctx, account)
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if err != nil {
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return nil, fmt.Errorf("registering account %v with server: %w", account.Contact, err)
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}
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// persist the account to storage
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err = am.saveAccount(client.Directory, account)
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if err != nil {
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return nil, fmt.Errorf("could not save account %v: %v", account.Contact, err)
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}
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}
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c := &acmeClient{
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mgr: am,
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acmeClient: client,
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account: account,
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}
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return c, nil
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}
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// newACMEClient creates a new underlying ACME client using the settings in am,
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// independent of any particular ACME account. If useTestCA is true, am.TestCA
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// will be used if it is set; otherwise, the primary CA will be used.
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func (am *ACMEManager) newACMEClient(useTestCA bool) (*acmez.Client, error) {
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// ensure defaults are filled in
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var caURL string
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if useTestCA {
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caURL = am.TestCA
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}
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if caURL == "" {
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caURL = am.CA
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}
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if caURL == "" {
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caURL = DefaultACME.CA
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}
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certObtainTimeout := am.CertObtainTimeout
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if certObtainTimeout == 0 {
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certObtainTimeout = DefaultACME.CertObtainTimeout
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}
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// ensure endpoint is secure (assume HTTPS if scheme is missing)
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if !strings.Contains(caURL, "://") {
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caURL = "https://" + caURL
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}
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u, err := url.Parse(caURL)
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if err != nil {
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return nil, err
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}
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if u.Scheme != "https" && !isLoopback(u.Host) && !isInternal(u.Host) {
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return nil, fmt.Errorf("%s: insecure CA URL (HTTPS required)", caURL)
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}
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// set up the dialers and resolver for the ACME client's HTTP client
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dialer := &net.Dialer{
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Timeout: 30 * time.Second,
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KeepAlive: 2 * time.Minute,
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}
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if am.Resolver != "" {
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dialer.Resolver = &net.Resolver{
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PreferGo: true,
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Dial: func(ctx context.Context, network, _ string) (net.Conn, error) {
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return (&net.Dialer{
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Timeout: 15 * time.Second,
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}).DialContext(ctx, network, am.Resolver)
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},
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}
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}
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// TODO: we could potentially reuse the HTTP transport and client
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hc := am.httpClient // TODO: is this racey?
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if am.httpClient == nil {
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transport := &http.Transport{
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Proxy: http.ProxyFromEnvironment,
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DialContext: dialer.DialContext,
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TLSHandshakeTimeout: 15 * time.Second,
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ResponseHeaderTimeout: 15 * time.Second,
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ExpectContinueTimeout: 2 * time.Second,
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ForceAttemptHTTP2: true,
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}
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if am.TrustedRoots != nil {
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transport.TLSClientConfig = &tls.Config{
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RootCAs: am.TrustedRoots,
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}
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}
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hc = &http.Client{
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Transport: transport,
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Timeout: HTTPTimeout,
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}
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am.httpClient = hc
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}
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client := &acmez.Client{
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Client: &acme.Client{
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Directory: caURL,
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PollTimeout: certObtainTimeout,
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UserAgent: buildUAString(),
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HTTPClient: hc,
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},
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ChallengeSolvers: make(map[string]acmez.Solver),
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}
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if am.Logger != nil {
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l := am.Logger.Named("acme_client")
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client.Client.Logger, client.Logger = l, l
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}
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// configure challenges (most of the time, DNS challenge is
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// exclusive of other ones because it is usually only used
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// in situations where the default challenges would fail)
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if am.DNS01Solver == nil {
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// enable HTTP-01 challenge
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if !am.DisableHTTPChallenge {
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useHTTPPort := HTTPChallengePort
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if HTTPPort > 0 && HTTPPort != HTTPChallengePort {
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useHTTPPort = HTTPPort
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}
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if am.AltHTTPPort > 0 {
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useHTTPPort = am.AltHTTPPort
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}
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client.ChallengeSolvers[acme.ChallengeTypeHTTP01] = distributedSolver{
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storage: am.config.Storage,
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storageKeyIssuerPrefix: am.storageKeyCAPrefix(client.Directory),
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solver: &httpSolver{
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acmeManager: am,
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address: net.JoinHostPort(am.ListenHost, strconv.Itoa(useHTTPPort)),
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},
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}
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}
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// enable TLS-ALPN-01 challenge
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if !am.DisableTLSALPNChallenge {
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useTLSALPNPort := TLSALPNChallengePort
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if HTTPSPort > 0 && HTTPSPort != TLSALPNChallengePort {
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useTLSALPNPort = HTTPSPort
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}
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if am.AltTLSALPNPort > 0 {
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useTLSALPNPort = am.AltTLSALPNPort
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}
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client.ChallengeSolvers[acme.ChallengeTypeTLSALPN01] = distributedSolver{
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storage: am.config.Storage,
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storageKeyIssuerPrefix: am.storageKeyCAPrefix(client.Directory),
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solver: &tlsALPNSolver{
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config: am.config,
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address: net.JoinHostPort(am.ListenHost, strconv.Itoa(useTLSALPNPort)),
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},
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}
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}
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} else {
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// use DNS challenge exclusively
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client.ChallengeSolvers[acme.ChallengeTypeDNS01] = am.DNS01Solver
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}
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// wrap solvers in our wrapper so that we can keep track of challenge
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// info: this is useful for solving challenges globally as a process;
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// for example, usually there is only one process that can solve the
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// HTTP and TLS-ALPN challenges, and only one server in that process
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// that can bind the necessary port(s), so if a server listening on
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// a different port needed a certificate, it would have to know about
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// the other server listening on that port, and somehow convey its
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// challenge info or share its config, but this isn't always feasible;
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// what the wrapper does is it accesses a global challenge memory so
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// that unrelated servers in this process can all solve each others'
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// challenges without having to know about each other - Caddy's admin
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// endpoint uses this functionality since it and the HTTP/TLS modules
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// do not know about each other
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// (doing this here in a separate loop ensures that even if we expose
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// solver config to users later, we will even wrap their own solvers)
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for name, solver := range client.ChallengeSolvers {
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client.ChallengeSolvers[name] = solverWrapper{solver}
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}
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return client, nil
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}
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func (c *acmeClient) throttle(ctx context.Context, names []string) error {
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// throttling is scoped to CA + account email
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rateLimiterKey := c.acmeClient.Directory + "," + c.mgr.Email
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rateLimitersMu.Lock()
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rl, ok := rateLimiters[rateLimiterKey]
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if !ok {
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rl = NewRateLimiter(RateLimitEvents, RateLimitEventsWindow)
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rateLimiters[rateLimiterKey] = rl
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// TODO: stop rate limiter when it is garbage-collected...
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}
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rateLimitersMu.Unlock()
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if c.mgr.Logger != nil {
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c.mgr.Logger.Info("waiting on internal rate limiter", zap.Strings("identifiers", names))
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}
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err := rl.Wait(ctx)
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if err != nil {
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return err
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}
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if c.mgr.Logger != nil {
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c.mgr.Logger.Info("done waiting on internal rate limiter", zap.Strings("identifiers", names))
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}
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return nil
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}
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func (c *acmeClient) usingTestCA() bool {
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return c.mgr.TestCA != "" && c.acmeClient.Directory == c.mgr.TestCA
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}
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func (c *acmeClient) revoke(ctx context.Context, cert *x509.Certificate, reason int) error {
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return c.acmeClient.RevokeCertificate(ctx, c.account,
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cert, c.account.PrivateKey, reason)
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}
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func buildUAString() string {
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ua := "CertMagic"
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if UserAgent != "" {
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ua = UserAgent + " " + ua
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}
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return ua
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}
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// These internal rate limits are designed to prevent accidentally
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// firehosing a CA's ACME endpoints. They are not intended to
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// replace or replicate the CA's actual rate limits.
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//
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// Let's Encrypt's rate limits can be found here:
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// https://letsencrypt.org/docs/rate-limits/
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//
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// Currently (as of December 2019), Let's Encrypt's most relevant
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// rate limit for large deployments is 300 new orders per account
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// per 3 hours (on average, or best case, that's about 1 every 36
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// seconds, or 2 every 72 seconds, etc.); but it's not reasonable
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// to try to assume that our internal state is the same as the CA's
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// (due to process restarts, config changes, failed validations,
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// etc.) and ultimately, only the CA's actual rate limiter is the
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// authority. Thus, our own rate limiters do not attempt to enforce
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// external rate limits. Doing so causes problems when the domains
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// are not in our control (i.e. serving customer sites) and/or lots
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// of domains fail validation: they clog our internal rate limiter
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// and nearly starve out (or at least slow down) the other domains
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// that need certificates. Failed transactions are already retried
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// with exponential backoff, so adding in rate limiting can slow
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// things down even more.
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//
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// Instead, the point of our internal rate limiter is to avoid
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// hammering the CA's endpoint when there are thousands or even
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// millions of certificates under management. Our goal is to
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// allow small bursts in a relatively short timeframe so as to
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// not block any one domain for too long, without unleashing
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// thousands of requests to the CA at once.
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var (
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rateLimiters = make(map[string]*RingBufferRateLimiter)
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rateLimitersMu sync.RWMutex
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// RateLimitEvents is how many new events can be allowed
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// in RateLimitEventsWindow.
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RateLimitEvents = 20
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// RateLimitEventsWindow is the size of the sliding
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// window that throttles events.
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RateLimitEventsWindow = 1 * time.Minute
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)
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// Some default values passed down to the underlying ACME client.
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var (
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UserAgent string
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HTTPTimeout = 30 * time.Second
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)
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