Git with a cup of tea, painless self-hosted git service Mirror for internal git.with.parts use https://git.with.parts
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
gitea/vendor/github.com/caddyserver/certmagic/acmemanager.go

351 lines
11 KiB

package certmagic
import (
"context"
"crypto/x509"
"errors"
"fmt"
"net/http"
"net/url"
"strings"
"time"
"github.com/mholt/acmez"
"github.com/mholt/acmez/acme"
"go.uber.org/zap"
)
// ACMEManager gets certificates using ACME. It implements the PreChecker,
// Issuer, and Revoker interfaces.
//
// It is NOT VALID to use an ACMEManager without calling NewACMEManager().
// It fills in default values from DefaultACME as well as setting up
// internal state that is necessary for valid use. Always call
// NewACMEManager() to get a valid ACMEManager value.
type ACMEManager struct {
// The endpoint of the directory for the ACME
// CA we are to use
CA string
// TestCA is the endpoint of the directory for
// an ACME CA to use to test domain validation,
// but any certs obtained from this CA are
// discarded
TestCA string
// The email address to use when creating or
// selecting an existing ACME server account
Email string
// Set to true if agreed to the CA's
// subscriber agreement
Agreed bool
// An optional external account to associate
// with this ACME account
ExternalAccount *acme.EAB
// Disable all HTTP challenges
DisableHTTPChallenge bool
// Disable all TLS-ALPN challenges
DisableTLSALPNChallenge bool
// The host (ONLY the host, not port) to listen
// on if necessary to start a listener to solve
// an ACME challenge
ListenHost string
// The alternate port to use for the ACME HTTP
// challenge; if non-empty, this port will be
// used instead of HTTPChallengePort to spin up
// a listener for the HTTP challenge
AltHTTPPort int
// The alternate port to use for the ACME
// TLS-ALPN challenge; the system must forward
// TLSALPNChallengePort to this port for
// challenge to succeed
AltTLSALPNPort int
// The solver for the dns-01 challenge;
// usually this is a DNS01Solver value
// from this package
DNS01Solver acmez.Solver
// TrustedRoots specifies a pool of root CA
// certificates to trust when communicating
// over a network to a peer.
TrustedRoots *x509.CertPool
// The maximum amount of time to allow for
// obtaining a certificate. If empty, the
// default from the underlying ACME lib is
// used. If set, it must not be too low so
// as to cancel challenges too early.
CertObtainTimeout time.Duration
// Address of custom DNS resolver to be used
// when communicating with ACME server
Resolver string
// Callback function that is called before a
// new ACME account is registered with the CA;
// it allows for last-second config changes
// of the ACMEManager (TODO: this feature is
// still EXPERIMENTAL and subject to change)
NewAccountFunc func(context.Context, *ACMEManager, acme.Account) error
// Set a logger to enable logging
Logger *zap.Logger
config *Config
httpClient *http.Client
}
// NewACMEManager constructs a valid ACMEManager based on a template
// configuration; any empty values will be filled in by defaults in
// DefaultACME. The associated config is also required.
//
// Typically, you'll create the Config first, then call NewACMEManager(),
// then assign the return value to the Issuer/Revoker fields of the Config.
func NewACMEManager(cfg *Config, template ACMEManager) *ACMEManager {
if cfg == nil {
panic("cannot make valid ACMEManager without an associated CertMagic config")
}
if template.CA == "" {
template.CA = DefaultACME.CA
}
if template.TestCA == "" && template.CA == DefaultACME.CA {
// only use the default test CA if the CA is also
// the default CA; no point in testing against
// Let's Encrypt's staging server if we are not
// using their production server too
template.TestCA = DefaultACME.TestCA
}
if template.Email == "" {
template.Email = DefaultACME.Email
}
if !template.Agreed {
template.Agreed = DefaultACME.Agreed
}
if template.ExternalAccount == nil {
template.ExternalAccount = DefaultACME.ExternalAccount
}
if !template.DisableHTTPChallenge {
template.DisableHTTPChallenge = DefaultACME.DisableHTTPChallenge
}
if !template.DisableTLSALPNChallenge {
template.DisableTLSALPNChallenge = DefaultACME.DisableTLSALPNChallenge
}
if template.ListenHost == "" {
template.ListenHost = DefaultACME.ListenHost
}
if template.AltHTTPPort == 0 {
template.AltHTTPPort = DefaultACME.AltHTTPPort
}
if template.AltTLSALPNPort == 0 {
template.AltTLSALPNPort = DefaultACME.AltTLSALPNPort
}
if template.DNS01Solver == nil {
template.DNS01Solver = DefaultACME.DNS01Solver
}
if template.TrustedRoots == nil {
template.TrustedRoots = DefaultACME.TrustedRoots
}
if template.CertObtainTimeout == 0 {
template.CertObtainTimeout = DefaultACME.CertObtainTimeout
}
if template.Resolver == "" {
template.Resolver = DefaultACME.Resolver
}
if template.NewAccountFunc == nil {
template.NewAccountFunc = DefaultACME.NewAccountFunc
}
if template.Logger == nil {
template.Logger = DefaultACME.Logger
}
template.config = cfg
return &template
}
// IssuerKey returns the unique issuer key for the
// confgured CA endpoint.
func (am *ACMEManager) IssuerKey() string {
return am.issuerKey(am.CA)
}
func (am *ACMEManager) issuerKey(ca string) string {
key := ca
if caURL, err := url.Parse(key); err == nil {
key = caURL.Host
if caURL.Path != "" {
// keep the path, but make sure it's a single
// component (i.e. no forward slashes, and for
// good measure, no backward slashes either)
const hyphen = "-"
repl := strings.NewReplacer(
"/", hyphen,
"\\", hyphen,
)
path := strings.Trim(repl.Replace(caURL.Path), hyphen)
if path != "" {
key += hyphen + path
}
}
}
return key
}
// PreCheck performs a few simple checks before obtaining or
// renewing a certificate with ACME, and returns whether this
// batch is eligible for certificates if using Let's Encrypt.
// It also ensures that an email address is available.
func (am *ACMEManager) PreCheck(_ context.Context, names []string, interactive bool) error {
letsEncrypt := strings.Contains(am.CA, "api.letsencrypt.org")
if letsEncrypt {
for _, name := range names {
if !SubjectQualifiesForPublicCert(name) {
return fmt.Errorf("subject does not qualify for a Let's Encrypt certificate: %s", name)
}
}
}
return am.getEmail(interactive)
}
// Issue implements the Issuer interface. It obtains a certificate for the given csr using
// the ACME configuration am.
func (am *ACMEManager) Issue(ctx context.Context, csr *x509.CertificateRequest) (*IssuedCertificate, error) {
if am.config == nil {
panic("missing config pointer (must use NewACMEManager)")
}
var isRetry bool
if attempts, ok := ctx.Value(AttemptsCtxKey).(*int); ok {
isRetry = *attempts > 0
}
cert, usedTestCA, err := am.doIssue(ctx, csr, isRetry)
if err != nil {
return nil, err
}
// important to note that usedTestCA is not necessarily the same as isRetry
// (usedTestCA can be true if the main CA and the test CA happen to be the same)
if isRetry && usedTestCA && am.CA != am.TestCA {
// succeeded with testing endpoint, so try again with production endpoint
// (only if the production endpoint is different from the testing endpoint)
// TODO: This logic is imperfect and could benefit from some refinement.
// The two CA endpoints likely have different states, which could cause one
// to succeed and the other to fail, even if it's not a validation error.
// Two common cases would be:
// 1) Rate limiter state. This is more likely to cause prod to fail while
// staging succeeds, since prod usually has tighter rate limits. Thus, if
// initial attempt failed in prod due to rate limit, first retry (on staging)
// might succeed, and then trying prod again right way would probably still
// fail; normally this would terminate retries but the right thing to do in
// this case is to back off and retry again later. We could refine this logic
// to stick with the production endpoint on retries unless the error changes.
// 2) Cached authorizations state. If a domain validates successfully with
// one endpoint, but then the other endpoint is used, it might fail, e.g. if
// DNS was just changed or is still propagating. In this case, the second CA
// should continue to be retried with backoff, without switching back to the
// other endpoint. This is more likely to happen if a user is testing with
// the staging CA as the main CA, then changes their configuration once they
// think they are ready for the production endpoint.
cert, _, err = am.doIssue(ctx, csr, false)
if err != nil {
// succeeded with test CA but failed just now with the production CA;
// either we are observing differing internal states of each CA that will
// work out with time, or there is a bug/misconfiguration somewhere
// externally; it is hard to tell which! one easy cue is whether the
// error is specifically a 429 (Too Many Requests); if so, we should
// probably keep retrying
var problem acme.Problem
if errors.As(err, &problem) {
if problem.Status == http.StatusTooManyRequests {
// DON'T abort retries; the test CA succeeded (even
// if it's cached, it recently succeeded!) so we just
// need to keep trying (with backoff) until this CA's
// rate limits expire...
// TODO: as mentioned in comment above, we would benefit
// by pinning the main CA at this point instead of
// needlessly retrying with the test CA first each time
return nil, err
}
}
return nil, ErrNoRetry{err}
}
}
return cert, err
}
func (am *ACMEManager) doIssue(ctx context.Context, csr *x509.CertificateRequest, useTestCA bool) (*IssuedCertificate, bool, error) {
client, err := am.newACMEClient(ctx, useTestCA, false)
if err != nil {
return nil, false, err
}
usingTestCA := client.usingTestCA()
nameSet := namesFromCSR(csr)
if !useTestCA {
if err := client.throttle(ctx, nameSet); err != nil {
return nil, usingTestCA, err
}
}
certChains, err := client.acmeClient.ObtainCertificateUsingCSR(ctx, client.account, csr)
if err != nil {
return nil, usingTestCA, fmt.Errorf("%v %w (ca=%s)", nameSet, err, client.acmeClient.Directory)
}
// TODO: ACME server could in theory issue a cert with multiple chains,
// but we don't (yet) have a way to choose one, so just use first one
ic := &IssuedCertificate{
Certificate: certChains[0].ChainPEM,
Metadata: certChains[0],
}
return ic, usingTestCA, nil
}
// Revoke implements the Revoker interface. It revokes the given certificate.
func (am *ACMEManager) Revoke(ctx context.Context, cert CertificateResource, reason int) error {
client, err := am.newACMEClient(ctx, false, false)
if err != nil {
return err
}
certs, err := parseCertsFromPEMBundle(cert.CertificatePEM)
if err != nil {
return err
}
return client.revoke(ctx, certs[0], reason)
}
// DefaultACME specifies the default settings
// to use for ACMEManagers.
var DefaultACME = ACMEManager{
CA: LetsEncryptProductionCA,
TestCA: LetsEncryptStagingCA,
}
// Some well-known CA endpoints available to use.
const (
LetsEncryptStagingCA = "https://acme-staging-v02.api.letsencrypt.org/directory"
LetsEncryptProductionCA = "https://acme-v02.api.letsencrypt.org/directory"
)
// prefixACME is the storage key prefix used for ACME-specific assets.
const prefixACME = "acme"
// Interface guards
var (
_ PreChecker = (*ACMEManager)(nil)
_ Issuer = (*ACMEManager)(nil)
_ Revoker = (*ACMEManager)(nil)
)