open-vault/vault/request_forwarding.go

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package vault
import (
"bytes"
"context"
"crypto/ecdsa"
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"crypto/tls"
"crypto/x509"
"errors"
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"fmt"
math "math"
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"net/http"
"net/url"
"sync"
"time"
log "github.com/hashicorp/go-hclog"
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"github.com/hashicorp/vault/helper/forwarding"
"github.com/hashicorp/vault/vault/replication"
cache "github.com/patrickmn/go-cache"
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"golang.org/x/net/http2"
"google.golang.org/grpc"
"google.golang.org/grpc/keepalive"
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)
const (
clusterListenerAcceptDeadline = 500 * time.Millisecond
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// PerformanceReplicationALPN is the negotiated protocol used for
// performance replication.
PerformanceReplicationALPN = "replication_v1"
// DRReplicationALPN is the negotiated protocol used for
// dr replication.
DRReplicationALPN = "replication_dr_v1"
perfStandbyALPN = "perf_standby_v1"
requestForwardingALPN = "req_fw_sb-act_v1"
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)
var (
// Making this a package var allows tests to modify
HeartbeatInterval = 5 * time.Second
)
type requestForwardingHandler struct {
fws *http2.Server
fwRPCServer *grpc.Server
logger log.Logger
ha bool
core *Core
stopCh chan struct{}
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}
type requestForwardingClusterClient struct {
core *Core
}
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// NewRequestForwardingHandler creates a cluster handler for use with request
// forwarding.
func NewRequestForwardingHandler(c *Core, fws *http2.Server, perfStandbySlots chan struct{}, perfStandbyRepCluster *replication.Cluster, perfStandbyCache *cache.Cache) (*requestForwardingHandler, error) {
// Resolve locally to avoid races
ha := c.ha != nil
fwRPCServer := grpc.NewServer(
grpc.KeepaliveParams(keepalive.ServerParameters{
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Time: 2 * HeartbeatInterval,
}),
grpc.MaxRecvMsgSize(math.MaxInt32),
grpc.MaxSendMsgSize(math.MaxInt32),
)
if ha && c.clusterHandler != nil {
RegisterRequestForwardingServer(fwRPCServer, &forwardedRequestRPCServer{
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core: c,
handler: c.clusterHandler,
perfStandbySlots: perfStandbySlots,
perfStandbyRepCluster: perfStandbyRepCluster,
perfStandbyCache: perfStandbyCache,
})
}
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return &requestForwardingHandler{
fws: fws,
fwRPCServer: fwRPCServer,
ha: ha,
logger: c.logger.Named("request-forward"),
core: c,
stopCh: make(chan struct{}),
}, nil
}
// ClientLookup satisfies the ClusterClient interface and returns the ha tls
// client certs.
func (c *requestForwardingClusterClient) ClientLookup(ctx context.Context, requestInfo *tls.CertificateRequestInfo) (*tls.Certificate, error) {
parsedCert := c.core.localClusterParsedCert.Load().(*x509.Certificate)
if parsedCert == nil {
return nil, nil
}
currCert := c.core.localClusterCert.Load().([]byte)
if len(currCert) == 0 {
return nil, nil
}
localCert := make([]byte, len(currCert))
copy(localCert, currCert)
for _, subj := range requestInfo.AcceptableCAs {
if bytes.Equal(subj, parsedCert.RawIssuer) {
return &tls.Certificate{
Certificate: [][]byte{localCert},
PrivateKey: c.core.localClusterPrivateKey.Load().(*ecdsa.PrivateKey),
Leaf: c.core.localClusterParsedCert.Load().(*x509.Certificate),
}, nil
}
}
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return nil, nil
}
// ServerLookup satisfies the ClusterHandler interface and returns the server's
// tls certs.
func (rf *requestForwardingHandler) ServerLookup(ctx context.Context, clientHello *tls.ClientHelloInfo) (*tls.Certificate, error) {
currCert := rf.core.localClusterCert.Load().([]byte)
if len(currCert) == 0 {
return nil, fmt.Errorf("got forwarding connection but no local cert")
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}
localCert := make([]byte, len(currCert))
copy(localCert, currCert)
return &tls.Certificate{
Certificate: [][]byte{localCert},
PrivateKey: rf.core.localClusterPrivateKey.Load().(*ecdsa.PrivateKey),
Leaf: rf.core.localClusterParsedCert.Load().(*x509.Certificate),
}, nil
}
// CALookup satisfies the ClusterHandler interface and returns the ha ca cert.
func (rf *requestForwardingHandler) CALookup(ctx context.Context) (*x509.Certificate, error) {
parsedCert := rf.core.localClusterParsedCert.Load().(*x509.Certificate)
if parsedCert == nil {
return nil, fmt.Errorf("forwarding connection client but no local cert")
}
return parsedCert, nil
}
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// Handoff serves a request forwarding connection.
func (rf *requestForwardingHandler) Handoff(ctx context.Context, shutdownWg *sync.WaitGroup, closeCh chan struct{}, tlsConn *tls.Conn) error {
if !rf.ha {
tlsConn.Close()
return nil
}
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rf.logger.Debug("got request forwarding connection")
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shutdownWg.Add(2)
// quitCh is used to close the connection and the second
// goroutine if the server closes before closeCh.
quitCh := make(chan struct{})
go func() {
select {
case <-quitCh:
case <-closeCh:
case <-rf.stopCh:
}
tlsConn.Close()
shutdownWg.Done()
}()
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go func() {
rf.fws.ServeConn(tlsConn, &http2.ServeConnOpts{
Handler: rf.fwRPCServer,
BaseConfig: &http.Server{
ErrorLog: rf.logger.StandardLogger(nil),
},
})
// close the quitCh which will close the connection and
// the other goroutine.
close(quitCh)
shutdownWg.Done()
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}()
return nil
}
// Stop stops the request forwarding server and closes connections.
func (rf *requestForwardingHandler) Stop() error {
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// Give some time for existing RPCs to drain.
time.Sleep(clusterListenerAcceptDeadline)
close(rf.stopCh)
rf.fwRPCServer.Stop()
return nil
}
// Starts the listeners and servers necessary to handle forwarded requests
func (c *Core) startForwarding(ctx context.Context) error {
c.logger.Debug("cluster listener setup function")
defer c.logger.Debug("leaving cluster listener setup function")
// Clean up in case we have transitioned from a client to a server
c.requestForwardingConnectionLock.Lock()
c.clearForwardingClients()
c.requestForwardingConnectionLock.Unlock()
// Resolve locally to avoid races
if c.ha == nil || c.clusterListener == nil {
return nil
}
perfStandbyRepCluster, perfStandbyCache, perfStandbySlots, err := c.perfStandbyClusterHandler()
if err != nil {
return err
}
handler, err := NewRequestForwardingHandler(c, c.clusterListener.Server(), perfStandbySlots, perfStandbyRepCluster, perfStandbyCache)
if err != nil {
return err
}
c.clusterListener.AddHandler(requestForwardingALPN, handler)
return nil
}
func (c *Core) stopForwarding() {
if c.clusterListener != nil {
c.clusterListener.StopHandler(requestForwardingALPN)
c.clusterListener.StopHandler(perfStandbyALPN)
}
}
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// refreshRequestForwardingConnection ensures that the client/transport are
// alive and that the current active address value matches the most
// recently-known address.
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func (c *Core) refreshRequestForwardingConnection(ctx context.Context, clusterAddr string) error {
c.logger.Debug("refreshing forwarding connection")
defer c.logger.Debug("done refreshing forwarding connection")
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c.requestForwardingConnectionLock.Lock()
defer c.requestForwardingConnectionLock.Unlock()
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// Clean things up first
c.clearForwardingClients()
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// If we don't have anything to connect to, just return
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if clusterAddr == "" {
return nil
}
clusterURL, err := url.Parse(clusterAddr)
if err != nil {
c.logger.Error("error parsing cluster address attempting to refresh forwarding connection", "error", err)
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return err
}
parsedCert := c.localClusterParsedCert.Load().(*x509.Certificate)
if parsedCert == nil {
c.logger.Error("no request forwarding cluster certificate found")
return errors.New("no request forwarding cluster certificate found")
}
if c.clusterListener != nil {
c.clusterListener.AddClient(requestForwardingALPN, &requestForwardingClusterClient{
core: c,
})
}
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// Set up grpc forwarding handling
// It's not really insecure, but we have to dial manually to get the
// ALPN header right. It's just "insecure" because GRPC isn't managing
// the TLS state.
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dctx, cancelFunc := context.WithCancel(ctx)
c.rpcClientConn, err = grpc.DialContext(dctx, clusterURL.Host,
grpc.WithDialer(c.getGRPCDialer(ctx, requestForwardingALPN, parsedCert.Subject.CommonName, parsedCert)),
grpc.WithInsecure(), // it's not, we handle it in the dialer
grpc.WithKeepaliveParams(keepalive.ClientParameters{
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Time: 2 * HeartbeatInterval,
}),
grpc.WithDefaultCallOptions(
grpc.MaxCallRecvMsgSize(math.MaxInt32),
grpc.MaxCallSendMsgSize(math.MaxInt32),
))
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if err != nil {
cancelFunc()
c.logger.Error("err setting up forwarding rpc client", "error", err)
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return err
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}
c.rpcClientConnContext = dctx
c.rpcClientConnCancelFunc = cancelFunc
c.rpcForwardingClient = &forwardingClient{
RequestForwardingClient: NewRequestForwardingClient(c.rpcClientConn),
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core: c,
echoTicker: time.NewTicker(HeartbeatInterval),
echoContext: dctx,
}
c.rpcForwardingClient.startHeartbeat()
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return nil
}
func (c *Core) clearForwardingClients() {
c.logger.Debug("clearing forwarding clients")
defer c.logger.Debug("done clearing forwarding clients")
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if c.rpcClientConnCancelFunc != nil {
c.rpcClientConnCancelFunc()
c.rpcClientConnCancelFunc = nil
}
if c.rpcClientConn != nil {
c.rpcClientConn.Close()
c.rpcClientConn = nil
}
c.rpcClientConnContext = nil
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c.rpcForwardingClient = nil
if c.clusterListener != nil {
c.clusterListener.RemoveClient(requestForwardingALPN)
}
c.clusterLeaderParams.Store((*ClusterLeaderParams)(nil))
}
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// ForwardRequest forwards a given request to the active node and returns the
// response.
func (c *Core) ForwardRequest(req *http.Request) (int, http.Header, []byte, error) {
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c.requestForwardingConnectionLock.RLock()
defer c.requestForwardingConnectionLock.RUnlock()
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if c.rpcForwardingClient == nil {
return 0, nil, nil, ErrCannotForward
}
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origPath := req.URL.Path
defer func() {
req.URL.Path = origPath
}()
req.URL.Path = req.Context().Value("original_request_path").(string)
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freq, err := forwarding.GenerateForwardedRequest(req)
if err != nil {
c.logger.Error("error creating forwarding RPC request", "error", err)
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return 0, nil, nil, fmt.Errorf("error creating forwarding RPC request")
}
if freq == nil {
c.logger.Error("got nil forwarding RPC request")
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return 0, nil, nil, fmt.Errorf("got nil forwarding RPC request")
}
resp, err := c.rpcForwardingClient.ForwardRequest(c.rpcClientConnContext, freq)
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if err != nil {
c.logger.Error("error during forwarded RPC request", "error", err)
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return 0, nil, nil, fmt.Errorf("error during forwarding RPC request")
}
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var header http.Header
if resp.HeaderEntries != nil {
header = make(http.Header)
for k, v := range resp.HeaderEntries {
header[k] = v.Values
}
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}
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// If we are a perf standby and the request was forwarded to the active node
// we should attempt to wait for the WAL to ship to offer best effort read after
// write guarantees
if c.perfStandby && resp.LastRemoteWal > 0 {
WaitUntilWALShipped(req.Context(), c, resp.LastRemoteWal)
}
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return int(resp.StatusCode), header, resp.Body, nil
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}