mirror of https://github.com/status-im/consul.git
461 lines
15 KiB
Go
461 lines
15 KiB
Go
package connect
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import (
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"crypto/tls"
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"crypto/x509"
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"crypto/x509/pkix"
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"encoding/asn1"
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"errors"
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"fmt"
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"io/ioutil"
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"log"
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"net"
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"net/url"
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"sync"
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"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/api"
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)
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// parseLeafX509Cert will parse an X509 certificate
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// from the TLS certificate and store the parsed
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// value in the TLS certificate as the Leaf field.
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func parseLeafX509Cert(leaf *tls.Certificate) error {
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if leaf == nil {
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// nothing to parse for nil cert
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return nil
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}
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if leaf.Leaf != nil {
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// leaf cert was already parsed
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return nil
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}
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cert, err := x509.ParseCertificate(leaf.Certificate[0])
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if err != nil {
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return err
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}
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leaf.Leaf = cert
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return nil
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}
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// verifierFunc is a function that can accept rawCertificate bytes from a peer
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// and verify them against a given tls.Config. It's called from the
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// tls.Config.VerifyPeerCertificate hook.
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//
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// We don't pass verifiedChains since that is always nil in our usage.
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// Implementations can use the roots provided in the cfg to verify the certs.
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//
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// The passed *tls.Config may have a nil VerifyPeerCertificates function but
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// will have correct roots, leaf and other fields.
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type verifierFunc func(cfg *tls.Config, rawCerts [][]byte) error
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// defaultTLSConfig returns the standard config with no peer verifier. It is
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// insecure to use it as-is.
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func defaultTLSConfig() *tls.Config {
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cfg := &tls.Config{
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MinVersion: tls.VersionTLS12,
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ClientAuth: tls.RequireAndVerifyClientCert,
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// We don't have access to go internals that decide if AES hardware
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// acceleration is available in order to prefer CHA CHA if not. So let's
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// just always prefer AES for now. We can look into doing something uglier
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// later like using an external lib for AES checking if it seems important.
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// https://github.com/golang/go/blob/df91b8044dbe790c69c16058330f545be069cc1f/src/crypto/tls/common.go#L919:14
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CipherSuites: []uint16{
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tls.TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256,
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tls.TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384,
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tls.TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256,
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tls.TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384,
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tls.TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305,
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tls.TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305,
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},
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// We have to set this since otherwise Go will attempt to verify DNS names
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// match DNS SAN/CN which we don't want. We hook up VerifyPeerCertificate to
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// do our own path validation as well as Connect AuthZ.
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InsecureSkipVerify: true,
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// Include h2 to allow connect http servers to automatically support http2.
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// See: https://github.com/golang/go/blob/917c33fe8672116b04848cf11545296789cafd3b/src/net/http/server.go#L2724-L2731
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NextProtos: []string{"h2"},
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}
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return cfg
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}
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// devTLSConfigFromFiles returns a default TLS Config but with certs and CAs
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// based on local files for dev. No verification is setup.
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func devTLSConfigFromFiles(caFile, certFile,
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keyFile string) (*tls.Config, error) {
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roots := x509.NewCertPool()
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bs, err := ioutil.ReadFile(caFile)
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if err != nil {
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return nil, err
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}
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roots.AppendCertsFromPEM(bs)
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cert, err := tls.LoadX509KeyPair(certFile, keyFile)
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if err != nil {
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return nil, err
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}
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cfg := defaultTLSConfig()
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cfg.Certificates = []tls.Certificate{cert}
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cfg.RootCAs = roots
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cfg.ClientCAs = roots
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return cfg, nil
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}
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// PKIXNameFromRawSubject attempts to parse a DER encoded "Subject" as a PKIX
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// Name. It's useful for inspecting root certificates in an x509.CertPool which
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// only expose RawSubject via the Subjects method.
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func PKIXNameFromRawSubject(raw []byte) (*pkix.Name, error) {
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var subject pkix.RDNSequence
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if _, err := asn1.Unmarshal(raw, &subject); err != nil {
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return nil, err
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}
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var name pkix.Name
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name.FillFromRDNSequence(&subject)
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return &name, nil
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}
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// CommonNamesFromCertPool returns the common names of the certificates in the
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// cert pool.
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func CommonNamesFromCertPool(p *x509.CertPool) ([]string, error) {
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var names []string
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for _, rawSubj := range p.Subjects() {
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n, err := PKIXNameFromRawSubject(rawSubj)
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if err != nil {
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return nil, err
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}
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names = append(names, n.CommonName)
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}
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return names, nil
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}
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// CertURIFromConn is a helper to extract the service identifier URI from a
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// net.Conn. If the net.Conn is not a *tls.Conn then an error is always
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// returned. If the *tls.Conn didn't present a valid connect certificate, or is
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// not yet past the handshake, an error is returned.
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func CertURIFromConn(conn net.Conn) (connect.CertURI, error) {
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tc, ok := conn.(*tls.Conn)
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if !ok {
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return nil, fmt.Errorf("invalid non-TLS connect client")
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}
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gotURI, err := extractCertURI(tc.ConnectionState().PeerCertificates)
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if err != nil {
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return nil, err
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}
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return connect.ParseCertURI(gotURI)
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}
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// extractCertURI returns the first URI SAN from the leaf certificate presented
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// in the slice. The slice is expected to be the passed from
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// tls.Conn.ConnectionState().PeerCertificates and requires that the leaf has at
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// least one URI and the first URI is the correct one to use.
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func extractCertURI(certs []*x509.Certificate) (*url.URL, error) {
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if len(certs) < 1 {
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return nil, errors.New("no peer certificate presented")
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}
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// Only check the first cert assuming this is the only leaf. It's not clear if
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// services might ever legitimately present multiple leaf certificates or if
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// the slice is just to allow presenting the whole chain of intermediates.
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cert := certs[0]
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// Our certs will only ever have a single URI for now so only check that
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if len(cert.URIs) < 1 {
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return nil, errors.New("peer certificate invalid")
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}
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return cert.URIs[0], nil
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}
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// verifyServerCertMatchesURI is used on tls connections dialled to a connect
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// server to ensure that the certificate it presented has the correct identity.
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func verifyServerCertMatchesURI(certs []*x509.Certificate,
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expected connect.CertURI) error {
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expectedStr := expected.URI().String()
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gotURI, err := extractCertURI(certs)
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if err != nil {
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return errors.New("peer certificate mismatch")
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}
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// We may want to do better than string matching later in some special
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// cases and/or encapsulate the "match" logic inside the CertURI
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// implementation but for now this is all we need.
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if gotURI.String() == expectedStr {
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return nil
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}
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return fmt.Errorf("peer certificate mismatch got %s, want %s",
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gotURI.String(), expectedStr)
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}
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// newServerSideVerifier returns a verifierFunc that wraps the provided
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// api.Client to verify the TLS chain and perform AuthZ for the server end of
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// the connection. The service name provided is used as the target service name
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// for the Authorization.
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func newServerSideVerifier(client *api.Client, serviceName string) verifierFunc {
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return func(tlsCfg *tls.Config, rawCerts [][]byte) error {
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leaf, err := verifyChain(tlsCfg, rawCerts, false)
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if err != nil {
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log.Printf("connect: failed TLS verification: %s", err)
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return err
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}
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// Check leaf is a cert we understand
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if len(leaf.URIs) < 1 {
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log.Printf("connect: invalid leaf certificate")
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return errors.New("connect: invalid leaf certificate")
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}
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certURI, err := connect.ParseCertURI(leaf.URIs[0])
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if err != nil {
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log.Printf("connect: invalid leaf certificate URI")
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return errors.New("connect: invalid leaf certificate URI")
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}
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// No AuthZ if there is no client.
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if client == nil {
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log.Printf("connect: nil client")
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return nil
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}
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// Perform AuthZ
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req := &api.AgentAuthorizeParams{
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Target: serviceName,
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ClientCertURI: certURI.URI().String(),
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ClientCertSerial: connect.HexString(leaf.SerialNumber.Bytes()),
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}
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resp, err := client.Agent().ConnectAuthorize(req)
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if err != nil {
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log.Printf("connect: authz call failed: %s", err)
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return errors.New("connect: authz call failed: " + err.Error())
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}
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if !resp.Authorized {
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log.Printf("connect: authz call denied: %s", resp.Reason)
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return errors.New("connect: authz denied: " + resp.Reason)
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}
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return nil
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}
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}
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// clientSideVerifier is a verifierFunc that performs verification of certificates
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// on the client end of the connection. For now it is just basic TLS
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// verification since the identity check needs additional state and becomes
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// clunky to customise the callback for every outgoing request. That is done
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// within Service.Dial for now.
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func clientSideVerifier(tlsCfg *tls.Config, rawCerts [][]byte) error {
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_, err := verifyChain(tlsCfg, rawCerts, true)
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return err
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}
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// verifyChain performs standard TLS verification without enforcing remote
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// hostname matching.
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func verifyChain(tlsCfg *tls.Config, rawCerts [][]byte, client bool) (*x509.Certificate, error) {
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// Fetch leaf and intermediates. This is based on code form tls handshake.
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if len(rawCerts) < 1 {
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return nil, errors.New("tls: no certificates from peer")
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}
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certs := make([]*x509.Certificate, len(rawCerts))
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for i, asn1Data := range rawCerts {
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cert, err := x509.ParseCertificate(asn1Data)
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if err != nil {
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return nil, errors.New("tls: failed to parse certificate from peer: " + err.Error())
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}
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certs[i] = cert
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}
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cas := tlsCfg.RootCAs
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if client {
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cas = tlsCfg.ClientCAs
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}
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opts := x509.VerifyOptions{
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Roots: cas,
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Intermediates: x509.NewCertPool(),
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}
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if !client {
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// Server side only sets KeyUsages in tls. This defaults to ServerAuth in
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// x509 lib. See
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// https://github.com/golang/go/blob/ee7dd810f9ca4e63ecfc1d3044869591783b8b74/src/crypto/x509/verify.go#L866-L868
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opts.KeyUsages = []x509.ExtKeyUsage{x509.ExtKeyUsageClientAuth}
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}
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// All but the first cert are intermediates
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for _, cert := range certs[1:] {
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opts.Intermediates.AddCert(cert)
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}
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_, err := certs[0].Verify(opts)
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return certs[0], err
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}
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// dynamicTLSConfig represents the state for returning a tls.Config that can
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// have root and leaf certificates updated dynamically with all existing clients
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// and servers automatically picking up the changes. It requires initialising
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// with a valid base config from which all the non-certificate and verification
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// params are used. The base config passed should not be modified externally as
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// it is assumed to be serialised by the embedded mutex.
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type dynamicTLSConfig struct {
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base *tls.Config
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sync.RWMutex
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leaf *tls.Certificate
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roots *x509.CertPool
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// readyCh is closed when the config first gets both leaf and roots set.
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// Watchers can wait on this via ReadyWait.
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readyCh chan struct{}
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}
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type tlsCfgUpdate struct {
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ch chan struct{}
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next *tlsCfgUpdate
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}
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// newDynamicTLSConfig returns a dynamicTLSConfig constructed from base.
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// base.Certificates[0] is used as the initial leaf and base.RootCAs is used as
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// the initial roots.
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func newDynamicTLSConfig(base *tls.Config, logger *log.Logger) *dynamicTLSConfig {
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cfg := &dynamicTLSConfig{
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base: base,
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}
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if len(base.Certificates) > 0 {
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cfg.leaf = &base.Certificates[0]
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// If this does error then future calls to Ready will fail
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// It is better to handle not-Ready rather than failing
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if err := parseLeafX509Cert(cfg.leaf); err != nil && logger != nil {
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logger.Printf("[ERR] Error parsing configured leaf certificate: %v", err)
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}
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}
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if base.RootCAs != nil {
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cfg.roots = base.RootCAs
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}
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if !cfg.Ready() {
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cfg.readyCh = make(chan struct{})
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}
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return cfg
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}
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// Get fetches the lastest tls.Config with all the hooks attached to keep it
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// loading the most recent roots and certs even after future changes to cfg.
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//
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// The verifierFunc passed will be attached to the config returned such that it
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// runs with the _latest_ config object returned passed to it. That means that a
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// client can use this config for a long time and will still verify against the
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// latest roots even though the roots in the struct is has can't change.
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func (cfg *dynamicTLSConfig) Get(v verifierFunc) *tls.Config {
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cfg.RLock()
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defer cfg.RUnlock()
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copy := cfg.base.Clone()
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copy.RootCAs = cfg.roots
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copy.ClientCAs = cfg.roots
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if v != nil {
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copy.VerifyPeerCertificate = func(rawCerts [][]byte, chains [][]*x509.Certificate) error {
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return v(cfg.Get(nil), rawCerts)
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}
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}
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copy.GetCertificate = func(_ *tls.ClientHelloInfo) (*tls.Certificate, error) {
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leaf := cfg.Leaf()
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if leaf == nil {
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return nil, errors.New("tls: no certificates configured")
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}
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return leaf, nil
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}
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copy.GetClientCertificate = func(_ *tls.CertificateRequestInfo) (*tls.Certificate, error) {
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leaf := cfg.Leaf()
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if leaf == nil {
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return nil, errors.New("tls: no certificates configured")
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}
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return leaf, nil
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}
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copy.GetConfigForClient = func(*tls.ClientHelloInfo) (*tls.Config, error) {
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return cfg.Get(v), nil
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}
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return copy
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}
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// SetRoots sets new roots.
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func (cfg *dynamicTLSConfig) SetRoots(roots *x509.CertPool) error {
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cfg.Lock()
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defer cfg.Unlock()
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cfg.roots = roots
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cfg.notify()
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return nil
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}
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// SetLeaf sets a new leaf.
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func (cfg *dynamicTLSConfig) SetLeaf(leaf *tls.Certificate) error {
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cfg.Lock()
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defer cfg.Unlock()
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if err := parseLeafX509Cert(leaf); err != nil {
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return err
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}
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cfg.leaf = leaf
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cfg.notify()
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return nil
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}
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// notify is called under lock during an update to check if we are now ready.
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func (cfg *dynamicTLSConfig) notify() {
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if cfg.readyCh != nil && cfg.leaf != nil && cfg.roots != nil && cfg.leaf.Leaf != nil {
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close(cfg.readyCh)
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cfg.readyCh = nil
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}
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}
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func (cfg *dynamicTLSConfig) VerifyLeafWithRoots() error {
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cfg.RLock()
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defer cfg.RUnlock()
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if cfg.roots == nil {
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return fmt.Errorf("No roots are set")
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} else if cfg.leaf == nil {
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return fmt.Errorf("No leaf certificate is set")
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} else if cfg.leaf.Leaf == nil {
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return fmt.Errorf("Leaf certificate has not been parsed")
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}
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_, err := cfg.leaf.Leaf.Verify(x509.VerifyOptions{Roots: cfg.roots})
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return err
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}
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// Roots returns the current CA root CertPool.
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func (cfg *dynamicTLSConfig) Roots() *x509.CertPool {
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cfg.RLock()
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defer cfg.RUnlock()
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return cfg.roots
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}
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// Leaf returns the current Leaf certificate.
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func (cfg *dynamicTLSConfig) Leaf() *tls.Certificate {
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cfg.RLock()
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defer cfg.RUnlock()
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return cfg.leaf
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}
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// Ready returns whether or not both roots and a leaf certificate are
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// configured. If both are non-nil, they are assumed to be valid and usable.
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func (cfg *dynamicTLSConfig) Ready() bool {
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// not locking because VerifyLeafWithRoots will do that
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return cfg.VerifyLeafWithRoots() == nil
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}
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// ReadyWait returns a chan that is closed when the the Service becomes ready
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// for use for the first time. Note that if the Service is ready when it is
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// called it returns a nil chan. Ready means that it has root and leaf
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// certificates configured but not that the combination is valid nor that
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// the current time is within the validity window of the certificate. The
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// service may subsequently stop being "ready" if it's certificates expire
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// or are revoked and an error prevents new ones from being loaded but this
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// method will not stop returning a nil chan in that case. It is only useful
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// for initial startup. For ongoing health Ready() should be used.
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func (cfg *dynamicTLSConfig) ReadyWait() <-chan struct{} {
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return cfg.readyCh
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}
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