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comm.go
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comm.go
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/*
Copyright IBM Corp. 2017 All Rights Reserved.
SPDX-License-Identifier: Apache-2.0
*/
package cluster
import (
"bytes"
"context"
"crypto/x509"
"encoding/pem"
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/golang/protobuf/proto"
"github.com/hyperledger/fabric/common/flogging"
"github.com/hyperledger/fabric/core/comm"
"github.com/hyperledger/fabric/protos/orderer"
"github.com/pkg/errors"
"go.uber.org/zap"
"google.golang.org/grpc"
"google.golang.org/grpc/connectivity"
)
const (
// MinimumExpirationWarningInterval is the default minimum time interval
// between consecutive warnings about certificate expiration.
MinimumExpirationWarningInterval = time.Minute * 5
)
var (
errOverflow = errors.New("send queue overflown")
errAborted = errors.New("aborted")
errTimeout = errors.New("rpc timeout expired")
)
// ChannelExtractor extracts the channel of a given message,
// or returns an empty string if that's not possible
type ChannelExtractor interface {
TargetChannel(message proto.Message) string
}
//go:generate mockery -dir . -name Handler -case underscore -output ./mocks/
// Handler handles Step() and Submit() requests and returns a corresponding response
type Handler interface {
OnConsensus(channel string, sender uint64, req *orderer.ConsensusRequest) error
OnSubmit(channel string, sender uint64, req *orderer.SubmitRequest) error
}
// RemoteNode represents a cluster member
type RemoteNode struct {
// ID is unique among all members, and cannot be 0.
ID uint64
// Endpoint is the endpoint of the node, denoted in %s:%d format
Endpoint string
// ServerTLSCert is the DER encoded TLS server certificate of the node
ServerTLSCert []byte
// ClientTLSCert is the DER encoded TLS client certificate of the node
ClientTLSCert []byte
}
// String returns a string representation of this RemoteNode
func (rm RemoteNode) String() string {
return fmt.Sprintf("ID: %d,\nEndpoint: %s,\nServerTLSCert:%s, ClientTLSCert:%s",
rm.ID, rm.Endpoint, DERtoPEM(rm.ServerTLSCert), DERtoPEM(rm.ClientTLSCert))
}
//go:generate mockery -dir . -name Communicator -case underscore -output ./mocks/
// Communicator defines communication for a consenter
type Communicator interface {
// Remote returns a RemoteContext for the given RemoteNode ID in the context
// of the given channel, or error if connection cannot be established, or
// the channel wasn't configured
Remote(channel string, id uint64) (*RemoteContext, error)
// Configure configures the communication to connect to all
// given members, and disconnect from any members not among the given
// members.
Configure(channel string, members []RemoteNode)
// Shutdown shuts down the communicator
Shutdown()
}
// MembersByChannel is a mapping from channel name
// to MemberMapping
type MembersByChannel map[string]MemberMapping
// Comm implements Communicator
type Comm struct {
MinimumExpirationWarningInterval time.Duration
CertExpWarningThreshold time.Duration
shutdownSignal chan struct{}
shutdown bool
SendBufferSize int
Lock sync.RWMutex
Logger *flogging.FabricLogger
ChanExt ChannelExtractor
H Handler
Connections *ConnectionStore
Chan2Members MembersByChannel
Metrics *Metrics
}
type requestContext struct {
channel string
sender uint64
}
// DispatchSubmit identifies the channel and sender of the submit request and passes it
// to the underlying Handler
func (c *Comm) DispatchSubmit(ctx context.Context, request *orderer.SubmitRequest) error {
reqCtx, err := c.requestContext(ctx, request)
if err != nil {
return err
}
return c.H.OnSubmit(reqCtx.channel, reqCtx.sender, request)
}
// DispatchConsensus identifies the channel and sender of the step request and passes it
// to the underlying Handler
func (c *Comm) DispatchConsensus(ctx context.Context, request *orderer.ConsensusRequest) error {
reqCtx, err := c.requestContext(ctx, request)
if err != nil {
return err
}
return c.H.OnConsensus(reqCtx.channel, reqCtx.sender, request)
}
// classifyRequest identifies the sender and channel of the request and returns
// it wrapped in a requestContext
func (c *Comm) requestContext(ctx context.Context, msg proto.Message) (*requestContext, error) {
channel := c.ChanExt.TargetChannel(msg)
if channel == "" {
return nil, errors.Errorf("badly formatted message, cannot extract channel")
}
c.Lock.RLock()
mapping, exists := c.Chan2Members[channel]
c.Lock.RUnlock()
if !exists {
return nil, errors.Errorf("channel %s doesn't exist", channel)
}
cert := comm.ExtractRawCertificateFromContext(ctx)
if len(cert) == 0 {
return nil, errors.Errorf("no TLS certificate sent")
}
stub := mapping.LookupByClientCert(cert)
if stub == nil {
return nil, errors.Errorf("certificate extracted from TLS connection isn't authorized")
}
return &requestContext{
channel: channel,
sender: stub.ID,
}, nil
}
// Remote obtains a RemoteContext linked to the destination node on the context
// of a given channel
func (c *Comm) Remote(channel string, id uint64) (*RemoteContext, error) {
c.Lock.RLock()
defer c.Lock.RUnlock()
if c.shutdown {
return nil, errors.New("communication has been shut down")
}
mapping, exists := c.Chan2Members[channel]
if !exists {
return nil, errors.Errorf("channel %s doesn't exist", channel)
}
stub := mapping.ByID(id)
if stub == nil {
return nil, errors.Errorf("node %d doesn't exist in channel %s's membership", id, channel)
}
if stub.Active() {
return stub.RemoteContext, nil
}
err := stub.Activate(c.createRemoteContext(stub, channel))
if err != nil {
return nil, errors.WithStack(err)
}
return stub.RemoteContext, nil
}
// Configure configures the channel with the given RemoteNodes
func (c *Comm) Configure(channel string, newNodes []RemoteNode) {
//c.Logger.Infof("Entering, channel: %s, nodes: %v", channel, newNodes) rm for logic bug
defer c.Logger.Infof("Exiting")
c.Lock.Lock()
defer c.Lock.Unlock()
c.createShutdownSignalIfNeeded()
if c.shutdown {
return
}
beforeConfigChange := c.serverCertsInUse()
// Update the channel-scoped mapping with the new nodes
c.applyMembershipConfig(channel, newNodes)
// Close connections to nodes that are not present in the new membership
c.cleanUnusedConnections(beforeConfigChange)
}
func (c *Comm) createShutdownSignalIfNeeded() {
if c.shutdownSignal == nil {
c.shutdownSignal = make(chan struct{})
}
}
// Shutdown shuts down the instance
func (c *Comm) Shutdown() {
c.Lock.Lock()
defer c.Lock.Unlock()
c.createShutdownSignalIfNeeded()
if !c.shutdown {
close(c.shutdownSignal)
}
c.shutdown = true
for _, members := range c.Chan2Members {
for _, member := range members {
c.Connections.Disconnect(member.ServerTLSCert)
}
}
}
// cleanUnusedConnections disconnects all connections that are un-used
// at the moment of the invocation
func (c *Comm) cleanUnusedConnections(serverCertsBeforeConfig StringSet) {
// Scan all nodes after the reconfiguration
serverCertsAfterConfig := c.serverCertsInUse()
// Filter out the certificates that remained after the reconfiguration
serverCertsBeforeConfig.subtract(serverCertsAfterConfig)
// Close the connections to all these nodes as they shouldn't be in use now
for serverCertificate := range serverCertsBeforeConfig {
c.Connections.Disconnect([]byte(serverCertificate))
}
}
// serverCertsInUse returns the server certificates that are in use
// represented as strings.
func (c *Comm) serverCertsInUse() StringSet {
endpointsInUse := make(StringSet)
for _, mapping := range c.Chan2Members {
endpointsInUse.union(mapping.ServerCertificates())
}
return endpointsInUse
}
// applyMembershipConfig sets the given RemoteNodes for the given channel
func (c *Comm) applyMembershipConfig(channel string, newNodes []RemoteNode) {
mapping := c.getOrCreateMapping(channel)
newNodeIDs := make(map[uint64]struct{})
for _, node := range newNodes {
newNodeIDs[node.ID] = struct{}{}
c.updateStubInMapping(channel, mapping, node)
}
// Remove all stubs without a corresponding node
// in the new nodes
for id, stub := range mapping {
if _, exists := newNodeIDs[id]; exists {
c.Logger.Info(id, "exists in both old and new membership for channel", channel, ", skipping its deactivation")
continue
}
c.Logger.Info("Deactivated node", id, "who's endpoint is", stub.Endpoint, "as it's removed from membership")
delete(mapping, id)
stub.Deactivate()
}
}
// updateStubInMapping updates the given RemoteNode and adds it to the MemberMapping
func (c *Comm) updateStubInMapping(channel string, mapping MemberMapping, node RemoteNode) {
stub := mapping.ByID(node.ID)
if stub == nil {
c.Logger.Info("Allocating a new stub for node", node.ID, "with endpoint of", node.Endpoint, "for channel", channel)
stub = &Stub{}
}
// Check if the TLS server certificate of the node is replaced
// and if so - then deactivate the stub, to trigger
// a re-creation of its gRPC connection
if !bytes.Equal(stub.ServerTLSCert, node.ServerTLSCert) {
c.Logger.Info("Deactivating node", node.ID, "in channel", channel,
"with endpoint of", node.Endpoint, "due to TLS certificate change")
stub.Deactivate()
}
// Overwrite the stub Node data with the new data
stub.RemoteNode = node
// Put the stub into the mapping
mapping.Put(stub)
// Check if the stub needs activation.
if stub.Active() {
return
}
// Activate the stub
stub.Activate(c.createRemoteContext(stub, channel))
}
// createRemoteStub returns a function that creates a RemoteContext.
// It is used as a parameter to Stub.Activate() in order to activate
// a stub atomically.
func (c *Comm) createRemoteContext(stub *Stub, channel string) func() (*RemoteContext, error) {
return func() (*RemoteContext, error) {
cert, err := x509.ParseCertificate(stub.ServerTLSCert)
if err != nil {
pemString := string(pem.EncodeToMemory(&pem.Block{Bytes: stub.ServerTLSCert}))
c.Logger.Errorf("Invalid DER for channel %s, endpoint %s, ID %d: %v", channel, stub.Endpoint, stub.ID, pemString)
return nil, errors.Wrap(err, "invalid certificate DER")
}
c.Logger.Debug("Connecting to", stub.RemoteNode, "for channel", channel)
conn, err := c.Connections.Connection(stub.Endpoint, stub.ServerTLSCert)
if err != nil {
c.Logger.Warningf("Unable to obtain connection to %d(%s) (channel %s): %v", stub.ID, stub.Endpoint, channel, err)
return nil, err
}
probeConnection := func(conn *grpc.ClientConn) error {
connState := conn.GetState()
if connState == connectivity.Connecting {
return errors.Errorf("connection to %d(%s) is in state %s", stub.ID, stub.Endpoint, connState)
}
return nil
}
clusterClient := orderer.NewClusterClient(conn)
workerCountReporter := workerCountReporter{
channel: channel,
}
rc := &RemoteContext{
expiresAt: cert.NotAfter,
minimumExpirationWarningInterval: c.MinimumExpirationWarningInterval,
certExpWarningThreshold: c.CertExpWarningThreshold,
workerCountReporter: workerCountReporter,
Channel: channel,
Metrics: c.Metrics,
SendBuffSize: c.SendBufferSize,
shutdownSignal: c.shutdownSignal,
endpoint: stub.Endpoint,
Logger: c.Logger,
ProbeConn: probeConnection,
conn: conn,
Client: clusterClient,
}
return rc, nil
}
}
// getOrCreateMapping creates a MemberMapping for the given channel
// or returns the existing one.
func (c *Comm) getOrCreateMapping(channel string) MemberMapping {
// Lazily create a mapping if it doesn't already exist
mapping, exists := c.Chan2Members[channel]
if !exists {
mapping = make(MemberMapping)
c.Chan2Members[channel] = mapping
}
return mapping
}
// Stub holds all information about the remote node,
// including the RemoteContext for it, and serializes
// some operations on it.
type Stub struct {
lock sync.RWMutex
RemoteNode
*RemoteContext
}
// Active returns whether the Stub
// is active or not
func (stub *Stub) Active() bool {
stub.lock.RLock()
defer stub.lock.RUnlock()
return stub.isActive()
}
// Active returns whether the Stub
// is active or not.
func (stub *Stub) isActive() bool {
return stub.RemoteContext != nil
}
// Deactivate deactivates the Stub and
// ceases all communication operations
// invoked on it.
func (stub *Stub) Deactivate() {
stub.lock.Lock()
defer stub.lock.Unlock()
if !stub.isActive() {
return
}
stub.RemoteContext.Abort()
stub.RemoteContext = nil
}
// Activate creates a remote context with the given function callback
// in an atomic manner - if two parallel invocations are invoked on this Stub,
// only a single invocation of createRemoteStub takes place.
func (stub *Stub) Activate(createRemoteContext func() (*RemoteContext, error)) error {
stub.lock.Lock()
defer stub.lock.Unlock()
// Check if the stub has already been activated while we were waiting for the lock
if stub.isActive() {
return nil
}
remoteStub, err := createRemoteContext()
if err != nil {
return errors.WithStack(err)
}
stub.RemoteContext = remoteStub
return nil
}
// RemoteContext interacts with remote cluster
// nodes. Every call can be aborted via call to Abort()
type RemoteContext struct {
expiresAt time.Time
minimumExpirationWarningInterval time.Duration
certExpWarningThreshold time.Duration
Metrics *Metrics
Channel string
SendBuffSize int
shutdownSignal chan struct{}
Logger *flogging.FabricLogger
endpoint string
Client orderer.ClusterClient
ProbeConn func(conn *grpc.ClientConn) error
conn *grpc.ClientConn
nextStreamID uint64
streamsByID streamsMapperReporter
workerCountReporter workerCountReporter
}
// Stream is used to send/receive messages to/from the remote cluster member.
type Stream struct {
abortChan <-chan struct{}
sendBuff chan *orderer.StepRequest
commShutdown chan struct{}
abortReason *atomic.Value
metrics *Metrics
ID uint64
Channel string
NodeName string
Endpoint string
Logger *flogging.FabricLogger
Timeout time.Duration
orderer.Cluster_StepClient
Cancel func(error)
canceled *uint32
expCheck *certificateExpirationCheck
}
// StreamOperation denotes an operation done by a stream, such a Send or Receive.
type StreamOperation func() (*orderer.StepResponse, error)
// Canceled returns whether the stream was canceled.
func (stream *Stream) Canceled() bool {
return atomic.LoadUint32(stream.canceled) == uint32(1)
}
// Send sends the given request to the remote cluster member.
func (stream *Stream) Send(request *orderer.StepRequest) error {
if stream.Canceled() {
return errors.New(stream.abortReason.Load().(string))
}
var allowDrop bool
// We want to drop consensus transactions if the remote node cannot keep up with us,
// otherwise we'll slow down the entire FSM.
if request.GetConsensusRequest() != nil {
allowDrop = true
}
return stream.sendOrDrop(request, allowDrop)
}
// sendOrDrop sends the given request to the remote cluster member, or drops it
// if it is a consensus request and the queue is full.
func (stream *Stream) sendOrDrop(request *orderer.StepRequest, allowDrop bool) error {
msgType := "transaction"
if allowDrop {
msgType = "consensus"
}
stream.metrics.reportQueueOccupancy(stream.Endpoint, msgType, stream.Channel, len(stream.sendBuff), cap(stream.sendBuff))
if allowDrop && len(stream.sendBuff) == cap(stream.sendBuff) {
stream.Cancel(errOverflow)
stream.metrics.reportMessagesDropped(stream.Endpoint, stream.Channel)
return errOverflow
}
select {
case <-stream.abortChan:
return errors.Errorf("stream %d aborted", stream.ID)
case stream.sendBuff <- request:
return nil
case <-stream.commShutdown:
return nil
}
}
// sendMessage sends the request down the stream
func (stream *Stream) sendMessage(request *orderer.StepRequest) {
start := time.Now()
var err error
defer func() {
if !stream.Logger.IsEnabledFor(zap.DebugLevel) {
return
}
var result string
if err != nil {
result = fmt.Sprintf("but failed due to %s", err.Error())
}
stream.Logger.Debugf("Send of %s to %s(%s) took %v %s", requestAsString(request),
stream.NodeName, stream.Endpoint, time.Since(start), result)
}()
f := func() (*orderer.StepResponse, error) {
startSend := time.Now()
stream.expCheck.checkExpiration(startSend, stream.Channel)
err := stream.Cluster_StepClient.Send(request)
stream.metrics.reportMsgSendTime(stream.Endpoint, stream.Channel, time.Since(startSend))
return nil, err
}
_, err = stream.operateWithTimeout(f)
}
func (stream *Stream) serviceStream() {
defer stream.Cancel(errAborted)
for {
select {
case msg := <-stream.sendBuff:
stream.sendMessage(msg)
case <-stream.abortChan:
return
case <-stream.commShutdown:
return
}
}
}
// Recv receives a message from a remote cluster member.
func (stream *Stream) Recv() (*orderer.StepResponse, error) {
start := time.Now()
defer func() {
if !stream.Logger.IsEnabledFor(zap.DebugLevel) {
return
}
stream.Logger.Debugf("Receive from %s(%s) took %v", stream.NodeName, stream.Endpoint, time.Since(start))
}()
f := func() (*orderer.StepResponse, error) {
return stream.Cluster_StepClient.Recv()
}
return stream.operateWithTimeout(f)
}
// operateWithTimeout performs the given operation on the stream, and blocks until the timeout expires.
func (stream *Stream) operateWithTimeout(invoke StreamOperation) (*orderer.StepResponse, error) {
timer := time.NewTimer(stream.Timeout)
defer timer.Stop()
var operationEnded sync.WaitGroup
operationEnded.Add(1)
responseChan := make(chan struct {
res *orderer.StepResponse
err error
}, 1)
go func() {
defer operationEnded.Done()
res, err := invoke()
responseChan <- struct {
res *orderer.StepResponse
err error
}{res: res, err: err}
}()
select {
case r := <-responseChan:
if r.err != nil {
stream.Cancel(r.err)
}
return r.res, r.err
case <-timer.C:
stream.Logger.Warningf("Stream %d to %s(%s) was forcibly terminated because timeout (%v) expired",
stream.ID, stream.NodeName, stream.Endpoint, stream.Timeout)
stream.Cancel(errTimeout)
// Wait for the operation goroutine to end
operationEnded.Wait()
return nil, errTimeout
}
}
func requestAsString(request *orderer.StepRequest) string {
switch t := request.GetPayload().(type) {
case *orderer.StepRequest_SubmitRequest:
if t.SubmitRequest == nil || t.SubmitRequest.Payload == nil {
return fmt.Sprintf("Empty SubmitRequest: %v", t.SubmitRequest)
}
return fmt.Sprintf("SubmitRequest for channel %s with payload of size %d",
t.SubmitRequest.Channel, len(t.SubmitRequest.Payload.Payload))
case *orderer.StepRequest_ConsensusRequest:
return fmt.Sprintf("ConsensusRequest for channel %s with payload of size %d",
t.ConsensusRequest.Channel, len(t.ConsensusRequest.Payload))
default:
return fmt.Sprintf("unknown type: %v", request)
}
}
// NewStream creates a new stream.
// It is not thread safe, and Send() or Recv() block only until the timeout expires.
func (rc *RemoteContext) NewStream(timeout time.Duration) (*Stream, error) {
if err := rc.ProbeConn(rc.conn); err != nil {
return nil, err
}
ctx, cancel := context.WithCancel(context.TODO())
stream, err := rc.Client.Step(ctx)
if err != nil {
cancel()
return nil, errors.WithStack(err)
}
streamID := atomic.AddUint64(&rc.nextStreamID, 1)
nodeName := commonNameFromContext(stream.Context())
var canceled uint32
abortChan := make(chan struct{})
abort := func() {
cancel()
rc.streamsByID.Delete(streamID)
rc.Metrics.reportEgressStreamCount(rc.Channel, atomic.LoadUint32(&rc.streamsByID.size))
rc.Logger.Debugf("Stream %d to %s(%s) is aborted", streamID, nodeName, rc.endpoint)
atomic.StoreUint32(&canceled, 1)
close(abortChan)
}
once := &sync.Once{}
abortReason := &atomic.Value{}
cancelWithReason := func(err error) {
abortReason.Store(err.Error())
once.Do(abort)
}
logger := flogging.MustGetLogger("orderer.common.cluster.step")
stepLogger := logger.WithOptions(zap.AddCallerSkip(1))
s := &Stream{
Channel: rc.Channel,
metrics: rc.Metrics,
abortReason: abortReason,
abortChan: abortChan,
sendBuff: make(chan *orderer.StepRequest, rc.SendBuffSize),
commShutdown: rc.shutdownSignal,
NodeName: nodeName,
Logger: stepLogger,
ID: streamID,
Endpoint: rc.endpoint,
Timeout: timeout,
Cluster_StepClient: stream,
Cancel: cancelWithReason,
canceled: &canceled,
}
s.expCheck = &certificateExpirationCheck{
minimumExpirationWarningInterval: rc.minimumExpirationWarningInterval,
expirationWarningThreshold: rc.certExpWarningThreshold,
expiresAt: rc.expiresAt,
endpoint: s.Endpoint,
nodeName: s.NodeName,
alert: func(template string, args ...interface{}) {
s.Logger.Warningf(template, args...)
},
}
rc.Logger.Debugf("Created new stream to %s with ID of %d and buffer size of %d",
rc.endpoint, streamID, cap(s.sendBuff))
rc.streamsByID.Store(streamID, s)
rc.Metrics.reportEgressStreamCount(rc.Channel, atomic.LoadUint32(&rc.streamsByID.size))
go func() {
rc.workerCountReporter.increment(s.metrics)
s.serviceStream()
rc.workerCountReporter.decrement(s.metrics)
}()
return s, nil
}
// Abort aborts the contexts the RemoteContext uses, thus effectively
// causes all operations that use this RemoteContext to terminate.
func (rc *RemoteContext) Abort() {
rc.streamsByID.Range(func(_, value interface{}) bool {
value.(*Stream).Cancel(errAborted)
return false
})
}
func commonNameFromContext(ctx context.Context) string {
cert := comm.ExtractCertificateFromContext(ctx)
if cert == nil {
return "unidentified node"
}
return cert.Subject.CommonName
}
type streamsMapperReporter struct {
size uint32
sync.Map
}
func (smr *streamsMapperReporter) Delete(key interface{}) {
smr.Map.Delete(key)
atomic.AddUint32(&smr.size, ^uint32(0))
}
func (smr *streamsMapperReporter) Store(key, value interface{}) {
smr.Map.Store(key, value)
atomic.AddUint32(&smr.size, 1)
}
type workerCountReporter struct {
channel string
workerCount uint32
}
func (wcr *workerCountReporter) increment(m *Metrics) {
count := atomic.AddUint32(&wcr.workerCount, 1)
m.reportWorkerCount(wcr.channel, count)
}
func (wcr *workerCountReporter) decrement(m *Metrics) {
// ^0 flips all zeros to ones, which means
// 2^32 - 1, and then we add this number wcr.workerCount.
// It follows from commutativity of the unsigned integers group
// that wcr.workerCount + 2^32 - 1 = wcr.workerCount - 1 + 2^32
// which is just wcr.workerCount - 1.
count := atomic.AddUint32(&wcr.workerCount, ^uint32(0))
m.reportWorkerCount(wcr.channel, count)
}