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2aa18cafc6
With CoreDNS now supporting etcdv3 as the DNS backend, we can update our federation target to etcdv3. Users will now be able to use etcdv3 server as the federation backbone. Minio will update bucket data to etcdv3 and CoreDNS can pick that data up and serve it as bucket style DNS path.
221 lines
8.2 KiB
Go
221 lines
8.2 KiB
Go
/*
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*
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* Copyright 2014 gRPC authors.
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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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*
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*/
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// Package credentials implements various credentials supported by gRPC library,
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// which encapsulate all the state needed by a client to authenticate with a
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// server and make various assertions, e.g., about the client's identity, role,
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// or whether it is authorized to make a particular call.
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package credentials // import "google.golang.org/grpc/credentials"
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import (
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"crypto/tls"
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"crypto/x509"
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"errors"
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"fmt"
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"io/ioutil"
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"net"
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"strings"
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"golang.org/x/net/context"
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)
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// alpnProtoStr are the specified application level protocols for gRPC.
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var alpnProtoStr = []string{"h2"}
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// PerRPCCredentials defines the common interface for the credentials which need to
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// attach security information to every RPC (e.g., oauth2).
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type PerRPCCredentials interface {
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// GetRequestMetadata gets the current request metadata, refreshing
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// tokens if required. This should be called by the transport layer on
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// each request, and the data should be populated in headers or other
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// context. If a status code is returned, it will be used as the status
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// for the RPC. uri is the URI of the entry point for the request.
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// When supported by the underlying implementation, ctx can be used for
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// timeout and cancellation.
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// TODO(zhaoq): Define the set of the qualified keys instead of leaving
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// it as an arbitrary string.
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GetRequestMetadata(ctx context.Context, uri ...string) (map[string]string, error)
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// RequireTransportSecurity indicates whether the credentials requires
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// transport security.
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RequireTransportSecurity() bool
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}
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// ProtocolInfo provides information regarding the gRPC wire protocol version,
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// security protocol, security protocol version in use, server name, etc.
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type ProtocolInfo struct {
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// ProtocolVersion is the gRPC wire protocol version.
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ProtocolVersion string
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// SecurityProtocol is the security protocol in use.
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SecurityProtocol string
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// SecurityVersion is the security protocol version.
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SecurityVersion string
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// ServerName is the user-configured server name.
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ServerName string
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}
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// AuthInfo defines the common interface for the auth information the users are interested in.
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type AuthInfo interface {
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AuthType() string
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}
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// ErrConnDispatched indicates that rawConn has been dispatched out of gRPC
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// and the caller should not close rawConn.
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var ErrConnDispatched = errors.New("credentials: rawConn is dispatched out of gRPC")
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// TransportCredentials defines the common interface for all the live gRPC wire
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// protocols and supported transport security protocols (e.g., TLS, SSL).
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type TransportCredentials interface {
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// ClientHandshake does the authentication handshake specified by the corresponding
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// authentication protocol on rawConn for clients. It returns the authenticated
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// connection and the corresponding auth information about the connection.
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// Implementations must use the provided context to implement timely cancellation.
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// gRPC will try to reconnect if the error returned is a temporary error
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// (io.EOF, context.DeadlineExceeded or err.Temporary() == true).
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// If the returned error is a wrapper error, implementations should make sure that
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// the error implements Temporary() to have the correct retry behaviors.
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//
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// If the returned net.Conn is closed, it MUST close the net.Conn provided.
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ClientHandshake(context.Context, string, net.Conn) (net.Conn, AuthInfo, error)
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// ServerHandshake does the authentication handshake for servers. It returns
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// the authenticated connection and the corresponding auth information about
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// the connection.
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//
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// If the returned net.Conn is closed, it MUST close the net.Conn provided.
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ServerHandshake(net.Conn) (net.Conn, AuthInfo, error)
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// Info provides the ProtocolInfo of this TransportCredentials.
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Info() ProtocolInfo
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// Clone makes a copy of this TransportCredentials.
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Clone() TransportCredentials
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// OverrideServerName overrides the server name used to verify the hostname on the returned certificates from the server.
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// gRPC internals also use it to override the virtual hosting name if it is set.
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// It must be called before dialing. Currently, this is only used by grpclb.
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OverrideServerName(string) error
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}
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// TLSInfo contains the auth information for a TLS authenticated connection.
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// It implements the AuthInfo interface.
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type TLSInfo struct {
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State tls.ConnectionState
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}
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// AuthType returns the type of TLSInfo as a string.
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func (t TLSInfo) AuthType() string {
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return "tls"
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}
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// tlsCreds is the credentials required for authenticating a connection using TLS.
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type tlsCreds struct {
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// TLS configuration
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config *tls.Config
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}
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func (c tlsCreds) Info() ProtocolInfo {
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return ProtocolInfo{
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SecurityProtocol: "tls",
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SecurityVersion: "1.2",
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ServerName: c.config.ServerName,
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}
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}
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func (c *tlsCreds) ClientHandshake(ctx context.Context, authority string, rawConn net.Conn) (_ net.Conn, _ AuthInfo, err error) {
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// use local cfg to avoid clobbering ServerName if using multiple endpoints
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cfg := cloneTLSConfig(c.config)
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if cfg.ServerName == "" {
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colonPos := strings.LastIndex(authority, ":")
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if colonPos == -1 {
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colonPos = len(authority)
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}
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cfg.ServerName = authority[:colonPos]
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}
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conn := tls.Client(rawConn, cfg)
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errChannel := make(chan error, 1)
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go func() {
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errChannel <- conn.Handshake()
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}()
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select {
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case err := <-errChannel:
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if err != nil {
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return nil, nil, err
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}
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case <-ctx.Done():
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return nil, nil, ctx.Err()
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}
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return conn, TLSInfo{conn.ConnectionState()}, nil
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}
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func (c *tlsCreds) ServerHandshake(rawConn net.Conn) (net.Conn, AuthInfo, error) {
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conn := tls.Server(rawConn, c.config)
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if err := conn.Handshake(); err != nil {
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return nil, nil, err
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}
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return conn, TLSInfo{conn.ConnectionState()}, nil
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}
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func (c *tlsCreds) Clone() TransportCredentials {
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return NewTLS(c.config)
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}
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func (c *tlsCreds) OverrideServerName(serverNameOverride string) error {
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c.config.ServerName = serverNameOverride
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return nil
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}
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// NewTLS uses c to construct a TransportCredentials based on TLS.
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func NewTLS(c *tls.Config) TransportCredentials {
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tc := &tlsCreds{cloneTLSConfig(c)}
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tc.config.NextProtos = alpnProtoStr
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return tc
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}
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// NewClientTLSFromCert constructs TLS credentials from the input certificate for client.
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// serverNameOverride is for testing only. If set to a non empty string,
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// it will override the virtual host name of authority (e.g. :authority header field) in requests.
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func NewClientTLSFromCert(cp *x509.CertPool, serverNameOverride string) TransportCredentials {
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return NewTLS(&tls.Config{ServerName: serverNameOverride, RootCAs: cp})
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}
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// NewClientTLSFromFile constructs TLS credentials from the input certificate file for client.
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// serverNameOverride is for testing only. If set to a non empty string,
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// it will override the virtual host name of authority (e.g. :authority header field) in requests.
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func NewClientTLSFromFile(certFile, serverNameOverride string) (TransportCredentials, error) {
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b, err := ioutil.ReadFile(certFile)
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if err != nil {
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return nil, err
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}
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cp := x509.NewCertPool()
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if !cp.AppendCertsFromPEM(b) {
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return nil, fmt.Errorf("credentials: failed to append certificates")
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}
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return NewTLS(&tls.Config{ServerName: serverNameOverride, RootCAs: cp}), nil
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}
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// NewServerTLSFromCert constructs TLS credentials from the input certificate for server.
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func NewServerTLSFromCert(cert *tls.Certificate) TransportCredentials {
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return NewTLS(&tls.Config{Certificates: []tls.Certificate{*cert}})
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}
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// NewServerTLSFromFile constructs TLS credentials from the input certificate file and key
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// file for server.
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func NewServerTLSFromFile(certFile, keyFile string) (TransportCredentials, error) {
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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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return NewTLS(&tls.Config{Certificates: []tls.Certificate{cert}}), nil
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}
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