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peer.go
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peer.go
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/*
Licensed to the Apache Software Foundation (ASF) under one
or more contributor license agreements. See the NOTICE file
distributed with this work for additional information
regarding copyright ownership. The ASF licenses this file
to you under the Apache License, Version 2.0 (the
"License"); you may not use this file except in compliance
with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing,
software distributed under the License is distributed on an
"AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, either express or implied. See the License for the
specific language governing permissions and limitations
under the License.
*/
package peer
import (
"errors"
"fmt"
"io"
"net"
"sync"
"time"
"golang.org/x/net/context"
"google.golang.org/grpc"
"google.golang.org/grpc/credentials"
"google.golang.org/grpc/grpclog"
"github.com/golang/protobuf/proto"
"github.com/op/go-logging"
"github.com/spf13/viper"
"github.com/openblockchain/obc-peer/openchain/crypto"
"github.com/openblockchain/obc-peer/openchain/ledger"
"github.com/openblockchain/obc-peer/openchain/ledger/statemgmt"
"github.com/openblockchain/obc-peer/openchain/ledger/statemgmt/state"
"github.com/openblockchain/obc-peer/openchain/util"
pb "github.com/openblockchain/obc-peer/protos"
)
const defaultTimeout = time.Second * 3
// Peer provides interface for a peer
type Peer interface {
GetPeerEndpoint() (*pb.PeerEndpoint, error)
NewOpenchainDiscoveryHello() (*pb.OpenchainMessage, error)
}
// BlocksRetriever interface for retrieving blocks .
type BlocksRetriever interface {
RequestBlocks(*pb.SyncBlockRange) (<-chan *pb.SyncBlocks, error)
}
// StateRetriever interface for retrieving state deltas, etc.
type StateRetriever interface {
RequestStateSnapshot() (<-chan *pb.SyncStateSnapshot, error)
RequestStateDeltas(syncBlockRange *pb.SyncBlockRange) (<-chan *pb.SyncStateDeltas, error)
}
// RemoteLedger interface for retrieving remote ledger data.
type RemoteLedger interface {
BlocksRetriever
StateRetriever
}
// BlockChainAccessor interface for retreiving blocks by block number
type BlockChainAccessor interface {
GetBlockByNumber(blockNumber uint64) (*pb.Block, error)
}
// StateAccessor interface for retreiving blocks by block number
type StateAccessor interface {
GetStateSnapshot() (*state.StateSnapshot, error)
GetStateDelta(blockNumber uint64) (*statemgmt.StateDelta, error)
}
// MessageHandler standard interface for handling Openchain messages.
type MessageHandler interface {
RemoteLedger
HandleMessage(msg *pb.OpenchainMessage) error
SendMessage(msg *pb.OpenchainMessage) error
To() (pb.PeerEndpoint, error)
Stop() error
}
// MessageHandlerCoordinator responsible for coordinating between the registered MessageHandler's
type MessageHandlerCoordinator interface {
Peer
SecurityAccessor
BlockChainAccessor
StateAccessor
RegisterHandler(messageHandler MessageHandler) error
DeregisterHandler(messageHandler MessageHandler) error
Broadcast(*pb.OpenchainMessage, pb.PeerEndpoint_Type) []error
Unicast(*pb.OpenchainMessage, *pb.PeerID) error
GetPeers() (*pb.PeersMessage, error)
GetRemoteLedger(receiver *pb.PeerID) (RemoteLedger, error)
PeersDiscovered(*pb.PeersMessage) error
ExecuteTransaction(transaction *pb.Transaction) *pb.Response
}
// ChatStream interface supported by stream between Peers
type ChatStream interface {
Send(*pb.OpenchainMessage) error
Recv() (*pb.OpenchainMessage, error)
}
// SecurityAccessor interface enables a Peer to hand out the crypto object for Peer
type SecurityAccessor interface {
GetSecHelper() crypto.Peer
}
var peerLogger = logging.MustGetLogger("peer")
// NewPeerClientConnection Returns a new grpc.ClientConn to the configured local PEER.
func NewPeerClientConnection() (*grpc.ClientConn, error) {
return NewPeerClientConnectionWithAddress(viper.GetString("peer.address"))
}
// GetLocalIP returns the non loopback local IP of the host
func GetLocalIP() string {
addrs, err := net.InterfaceAddrs()
if err != nil {
return ""
}
for _, address := range addrs {
// check the address type and if it is not a loopback then display it
if ipnet, ok := address.(*net.IPNet); ok && !ipnet.IP.IsLoopback() {
if ipnet.IP.To4() != nil {
return ipnet.IP.String()
}
}
}
return ""
}
// GetLocalAddress returns the address:port the local peer is operating on. Affected by env:peer.addressAutoDetect
func GetLocalAddress() (peerAddress string, err error) {
if viper.GetBool("peer.addressAutoDetect") {
// Need to get the port from the peer.address setting, and append to the determined host IP
_, port, err := net.SplitHostPort(viper.GetString("peer.address"))
if err != nil {
err = fmt.Errorf("Error auto detecting Peer's address: %s", err)
return "", err
}
peerAddress = net.JoinHostPort(GetLocalIP(), port)
//peerLogger.Info("Auto detected peer address: %s", peerAddress)
} else {
peerAddress = viper.GetString("peer.address")
}
return
}
// GetPeerEndpoint returns the PeerEndpoint for this Peer instance. Affected by env:peer.addressAutoDetect
func GetPeerEndpoint() (*pb.PeerEndpoint, error) {
var peerAddress string
var peerType pb.PeerEndpoint_Type
peerAddress, err := GetLocalAddress()
if err != nil {
return nil, err
}
if viper.GetBool("peer.validator.enabled") {
peerType = pb.PeerEndpoint_VALIDATOR
} else {
peerType = pb.PeerEndpoint_NON_VALIDATOR
}
return &pb.PeerEndpoint{ID: &pb.PeerID{Name: viper.GetString("peer.id")}, Address: peerAddress, Type: peerType}, nil
}
// NewPeerClientConnectionWithAddress Returns a new grpc.ClientConn to the configured local PEER.
func NewPeerClientConnectionWithAddress(peerAddress string) (*grpc.ClientConn, error) {
var opts []grpc.DialOption
if viper.GetBool("peer.tls.enabled") {
var sn string
if viper.GetString("peer.tls.server-host-override") != "" {
sn = viper.GetString("peer.tls.server-host-override")
}
var creds credentials.TransportAuthenticator
if viper.GetString("peer.tls.cert.file") != "" {
var err error
creds, err = credentials.NewClientTLSFromFile(viper.GetString("peer.tls.cert.file"), sn)
if err != nil {
grpclog.Fatalf("Failed to create TLS credentials %v", err)
}
} else {
creds = credentials.NewClientTLSFromCert(nil, sn)
}
opts = append(opts, grpc.WithTransportCredentials(creds))
} else {
// No security, disable in grpc
opts = append(opts, grpc.WithInsecure())
}
opts = append(opts, grpc.WithTimeout(defaultTimeout))
opts = append(opts, grpc.WithBlock())
conn, err := grpc.Dial(peerAddress, opts...)
if err != nil {
return nil, err
}
return conn, err
}
type ledgerWrapper struct {
sync.RWMutex
ledger *ledger.Ledger
}
type handlerMap struct {
sync.RWMutex
m map[pb.PeerID]MessageHandler
}
type HandlerFactory func(MessageHandlerCoordinator, ChatStream, bool, MessageHandler) (MessageHandler, error)
// PeerImpl implementation of the Peer service
type PeerImpl struct {
handlerFactory HandlerFactory
handlerMap *handlerMap
ledgerWrapper *ledgerWrapper
secHelper crypto.Peer
}
// NewPeerWithHandler returns a Peer which uses the supplied handler factory function for creating new handlers on new Chat service invocations.
func NewPeerWithHandler(handlerFact HandlerFactory) (*PeerImpl, error) {
peer := new(PeerImpl)
if handlerFact == nil {
return nil, errors.New("Cannot supply nil handler factory")
}
peer.handlerFactory = handlerFact
peer.handlerMap = &handlerMap{m: make(map[pb.PeerID]MessageHandler)}
// Install security object for peer
if viper.GetBool("security.enabled") {
enrollID := viper.GetString("security.enrollID")
enrollSecret := viper.GetString("security.enrollSecret")
var err error
if viper.GetBool("peer.validator.enabled") {
peerLogger.Debug("Registering validator with enroll ID: %s", enrollID)
if err = crypto.RegisterValidator(enrollID, nil, enrollID, enrollSecret); nil != err {
return nil, err
}
peerLogger.Debug("Initializing validator with enroll ID: %s", enrollID)
peer.secHelper, err = crypto.InitValidator(enrollID, nil)
if nil != err {
return nil, err
}
} else {
peerLogger.Debug("Registering non-validator with enroll ID: %s", enrollID)
if err = crypto.RegisterPeer(enrollID, nil, enrollID, enrollSecret); nil != err {
return nil, err
}
peerLogger.Debug("Initializing non-validator with enroll ID: %s", enrollID)
peer.secHelper, err = crypto.InitPeer(enrollID, nil)
if nil != err {
return nil, err
}
}
}
ledgerPtr, err := ledger.GetLedger()
if err != nil {
return nil, fmt.Errorf("Error constructing NewPeerWithHandler: %s", err)
}
peer.ledgerWrapper = &ledgerWrapper{ledger: ledgerPtr}
go peer.chatWithPeer(viper.GetString("peer.discovery.rootnode"))
return peer, nil
}
// Chat implementation of the the Chat bidi streaming RPC function
func (p *PeerImpl) Chat(stream pb.Peer_ChatServer) error {
return p.handleChat(stream.Context(), stream, false)
}
// GetPeers returns the currently registered PeerEndpoints
func (p *PeerImpl) GetPeers() (*pb.PeersMessage, error) {
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
peers := []*pb.PeerEndpoint{}
for _, msgHandler := range p.handlerMap.m {
peerEndpoint, err := msgHandler.To()
if err != nil {
return nil, fmt.Errorf("Error getting peers: %s", err)
}
peers = append(peers, &peerEndpoint)
}
peersMessage := &pb.PeersMessage{Peers: peers}
return peersMessage, nil
}
// GetRemoteLedger returns the RemoteLedger interface for the remote Peer Endpoint
func (p *PeerImpl) GetRemoteLedger(receiverHandle *pb.PeerID) (RemoteLedger, error) {
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
remoteLedger, ok := p.handlerMap.m[*receiverHandle]
if !ok {
return nil, fmt.Errorf("Remote ledger not found for receiver %s", receiverHandle.Name)
}
return remoteLedger, nil
}
// PeersDiscovered used by MessageHandlers for notifying this coordinator of discovered PeerEndoints. May include this Peer's PeerEndpoint.
func (p *PeerImpl) PeersDiscovered(peersMessage *pb.PeersMessage) error {
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
thisPeersEndpoint, err := GetPeerEndpoint()
if err != nil {
return fmt.Errorf("Error in processing PeersDiscovered: %s", err)
}
for _, peerEndpoint := range peersMessage.Peers {
// Filter out THIS Peer's endpoint
if *getHandlerKeyFromPeerEndpoint(thisPeersEndpoint) == *getHandlerKeyFromPeerEndpoint(peerEndpoint) {
// NOOP
} else if _, ok := p.handlerMap.m[*getHandlerKeyFromPeerEndpoint(peerEndpoint)]; ok == false {
// Start chat with Peer
go p.chatWithPeer(peerEndpoint.Address)
}
}
return nil
}
func getHandlerKey(peerMessageHandler MessageHandler) (*pb.PeerID, error) {
peerEndpoint, err := peerMessageHandler.To()
if err != nil {
return &pb.PeerID{}, fmt.Errorf("Error getting messageHandler key: %s", err)
}
return peerEndpoint.ID, nil
}
func getHandlerKeyFromPeerEndpoint(peerEndpoint *pb.PeerEndpoint) *pb.PeerID {
return peerEndpoint.ID
}
// RegisterHandler register a MessageHandler with this coordinator
func (p *PeerImpl) RegisterHandler(messageHandler MessageHandler) error {
key, err := getHandlerKey(messageHandler)
if err != nil {
return fmt.Errorf("Error registering handler: %s", err)
}
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
if _, ok := p.handlerMap.m[*key]; ok == true {
// Duplicate, return error
return newDuplicateHandlerError(messageHandler)
}
p.handlerMap.m[*key] = messageHandler
peerLogger.Debug("registered handler with key: %s", key)
return nil
}
// DeregisterHandler deregisters an already registered MessageHandler for this coordinator
func (p *PeerImpl) DeregisterHandler(messageHandler MessageHandler) error {
key, err := getHandlerKey(messageHandler)
if err != nil {
return fmt.Errorf("Error deregistering handler: %s", err)
}
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
if _, ok := p.handlerMap.m[*key]; !ok {
// Handler NOT found
return fmt.Errorf("Error deregistering handler, could not find handler with key: %s", key)
}
delete(p.handlerMap.m, *key)
peerLogger.Debug("Deregistered handler with key: %s", key)
return nil
}
//clone the handler so as to avoid lock across SendMessage
func (p *PeerImpl) cloneHandlerMap(typ pb.PeerEndpoint_Type) map[pb.PeerID]MessageHandler {
p.handlerMap.Lock()
defer p.handlerMap.Unlock()
clone := make(map[pb.PeerID]MessageHandler)
for id, msgHandler := range p.handlerMap.m {
//pb.PeerEndpoint_UNDEFINED collects all peers
if typ != pb.PeerEndpoint_UNDEFINED {
toPeerEndpoint, _ := msgHandler.To()
//ignore endpoints that don't match type filter
if typ != toPeerEndpoint.Type {
continue
}
}
clone[id] = msgHandler
}
return clone
}
// Broadcast broadcast a message to each of the currently registered PeerEndpoints of given type
// Broadcast will broadcast to all registered PeerEndpoints if the type is PeerEndpoint_UNDEFINED
func (p *PeerImpl) Broadcast(msg *pb.OpenchainMessage, typ pb.PeerEndpoint_Type) []error {
cloneMap := p.cloneHandlerMap(typ)
var errorsFromHandlers []error
for _, msgHandler := range cloneMap {
err := msgHandler.SendMessage(msg)
if err != nil {
toPeerEndpoint, _ := msgHandler.To()
errorsFromHandlers = append(errorsFromHandlers, fmt.Errorf("Error broadcasting msg (%s) to PeerEndpoint (%s): %s", msg.Type, toPeerEndpoint, err))
}
}
return errorsFromHandlers
}
// Unicast sends a message to a specific peer.
func (p *PeerImpl) Unicast(msg *pb.OpenchainMessage, receiverHandle *pb.PeerID) error {
p.handlerMap.Lock()
msgHandler := p.handlerMap.m[*receiverHandle]
//don't lock across SendMessage
p.handlerMap.Unlock()
err := msgHandler.SendMessage(msg)
if err != nil {
toPeerEndpoint, _ := msgHandler.To()
return fmt.Errorf("Error unicasting msg (%s) to PeerEndpoint (%s): %s", msg.Type, toPeerEndpoint, err)
}
return nil
}
// SendTransactionsToPeer current temporary mechanism of forwarding transactions to the configured Validator.
func (p *PeerImpl) SendTransactionsToPeer(peerAddress string, transaction *pb.Transaction) *pb.Response {
conn, err := NewPeerClientConnectionWithAddress(peerAddress)
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error creating client to peer address=%s: %s", peerAddress, err))}
}
defer conn.Close()
serverClient := pb.NewPeerClient(conn)
stream, err := serverClient.Chat(context.Background())
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error opening chat stream to peer address=%s: %s", peerAddress, err))}
}
peerLogger.Debug("Sending HELLO to Peer: %s", peerAddress)
helloMessage, err := p.NewOpenchainDiscoveryHello()
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Unexpected error creating new HelloMessage (%s): %s", peerAddress, err))}
}
if err = stream.Send(helloMessage); err != nil {
stream.CloseSend()
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending hello to peer address=%s: %s", peerAddress, err))}
}
waitc := make(chan struct{})
var response *pb.Response
go func() {
// Make sure to close the wait channel
defer close(waitc)
expectHello := true
for {
in, err := stream.Recv()
if err == io.EOF {
peerLogger.Debug("Received EOF")
// read done.
if response == nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending transactions to peer address=%s, received EOF when expecting %s", peerAddress, pb.OpenchainMessage_DISC_HELLO))}
}
return
}
if err != nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Unexpected error receiving on stream from peer (%s): %s", peerAddress, err))}
return
}
if in.Type == pb.OpenchainMessage_DISC_HELLO {
expectHello = false
peerLogger.Debug("Received %s message as expected, sending transaction...", in.Type)
payload, err := proto.Marshal(transaction)
if err != nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error marshalling transaction to peer address=%s: %s", peerAddress, err))}
return
}
var ttyp pb.OpenchainMessage_Type
if transaction.Type == pb.Transaction_CHAINCODE_EXECUTE || transaction.Type == pb.Transaction_CHAINCODE_NEW {
ttyp = pb.OpenchainMessage_CHAIN_TRANSACTION
} else {
ttyp = pb.OpenchainMessage_CHAIN_QUERY
}
msg := &pb.OpenchainMessage{Type: ttyp, Payload: payload, Timestamp: util.CreateUtcTimestamp()}
peerLogger.Debug("Sending message %s with timestamp %v to Peer %s", msg.Type, msg.Timestamp, peerAddress)
if err = stream.Send(msg); err != nil {
peerLogger.Error(fmt.Sprintf("Error sending message %s with timestamp %v to Peer %s: %s", msg.Type, msg.Timestamp, peerAddress, err))
}
//we are done with all our sends.... trigger stream close
stream.CloseSend()
} else if in.Type == pb.OpenchainMessage_RESPONSE {
peerLogger.Debug("Received %s message as expected, will wait for EOF", in.Type)
response = &pb.Response{}
err = proto.Unmarshal(in.Payload, response)
if err != nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error unpacking Payload from %s message: %s", pb.OpenchainMessage_CONSENSUS, err))}
}
//this should never happen but has to be tested (perhaps panic ?).
//if we did get an out-of-band Response, CloseSend as we may not get a DISC_HELLO
if expectHello {
peerLogger.Error(fmt.Sprintf("Received unexpected %s message, will wait for EOF", in.Type))
stream.CloseSend()
}
} else {
peerLogger.Debug("Got unexpected message %s, with bytes length = %d, doing nothing", in.Type, len(in.Payload))
}
}
}()
//TODO Timeout handling
<-waitc
return response
}
// SendTransactionsToPeer current temporary mechanism of forwarding transactions to the configured Validator
func sendTransactionsToThisPeer(peerAddress string, transaction *pb.Transaction) *pb.Response {
conn, err := NewPeerClientConnectionWithAddress(peerAddress)
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending transactions to peer address=%s: %s", peerAddress, err))}
}
defer conn.Close()
serverClient := pb.NewPeerClient(conn)
stream, err := serverClient.Chat(context.Background())
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending transactions to peer address=%s: %s", peerAddress, err))}
}
peerLogger.Debug("Marshalling transaction %s to send to self", transaction.Type)
data, err := proto.Marshal(transaction)
if err != nil {
return &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending transaction to local peer: %s", err))}
}
waitc := make(chan struct{})
var response *pb.Response
go func() {
// Make sure to close the wait channel
defer close(waitc)
for {
in, err := stream.Recv()
if err == io.EOF {
peerLogger.Debug("Received EOF")
if response == nil {
// read done.
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error sending transactions to this peer, received EOF when expecting %s", pb.OpenchainMessage_DISC_HELLO))}
}
return
}
if err != nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Unexpected error receiving on stream from peer (%s): %s", peerAddress, err))}
return
}
//receive response and wait for stream to be closed (triggered by CloseSend)
if in.Type == pb.OpenchainMessage_RESPONSE {
peerLogger.Debug("Received %s message as expected, will wait for EOF", in.Type)
response = &pb.Response{}
err = proto.Unmarshal(in.Payload, response)
if err != nil {
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Error unpacking Payload from %s message: %s", pb.OpenchainMessage_CONSENSUS, err))}
}
} else {
peerLogger.Debug("Got unexpected message %s, with bytes length = %d, doing nothing", in.Type, len(in.Payload))
response = &pb.Response{Status: pb.Response_FAILURE, Msg: []byte(fmt.Sprintf("Got unexpected message %s, with bytes length = %d, doing nothing", in.Type, len(in.Payload)))}
}
}
}()
var ttyp pb.OpenchainMessage_Type
if transaction.Type == pb.Transaction_CHAINCODE_EXECUTE || transaction.Type == pb.Transaction_CHAINCODE_NEW {
ttyp = pb.OpenchainMessage_CHAIN_TRANSACTION
} else {
ttyp = pb.OpenchainMessage_CHAIN_QUERY
}
msg := &pb.OpenchainMessage{Type: ttyp, Payload: data, Timestamp: util.CreateUtcTimestamp()}
peerLogger.Debug("Sending message %s with timestamp %v to self", msg.Type, msg.Timestamp)
if err = stream.Send(msg); err != nil {
peerLogger.Error(fmt.Sprintf("Error sending message %s with timestamp %v to Peer %s: %s", msg.Type, msg.Timestamp, peerAddress, err))
}
//we are done from client side.
stream.CloseSend()
<-waitc
return response
}
func (p *PeerImpl) chatWithPeer(peerAddress string) error {
if len(peerAddress) == 0 {
peerLogger.Debug("Starting up the first peer")
return nil // nothing to do
}
for {
time.Sleep(1 * time.Second)
peerLogger.Debug("Initiating Chat with peer address: %s", peerAddress)
conn, err := NewPeerClientConnectionWithAddress(peerAddress)
if err != nil {
e := fmt.Errorf("Error creating connection to peer address=%s: %s", peerAddress, err)
peerLogger.Error(e.Error())
continue
}
serverClient := pb.NewPeerClient(conn)
ctx := context.Background()
stream, err := serverClient.Chat(ctx)
if err != nil {
e := fmt.Errorf("Error establishing chat with peer address=%s: %s", peerAddress, err)
peerLogger.Error(fmt.Sprintf("%s", e.Error()))
continue
}
peerLogger.Debug("Established Chat with peer address: %s", peerAddress)
p.handleChat(ctx, stream, true)
stream.CloseSend()
}
}
// Chat implementation of the the Chat bidi streaming RPC function
func (p *PeerImpl) handleChat(ctx context.Context, stream ChatStream, initiatedStream bool) error {
deadline, ok := ctx.Deadline()
peerLogger.Debug("Current context deadline = %s, ok = %v", deadline, ok)
handler, err := p.handlerFactory(p, stream, initiatedStream, nil)
if err != nil {
return fmt.Errorf("Error creating handler during handleChat initiation: %s", err)
}
defer handler.Stop()
for {
in, err := stream.Recv()
if err == io.EOF {
peerLogger.Debug("Received EOF, ending Chat")
return nil
}
if err != nil {
e := fmt.Errorf("Error during Chat, stopping handler: %s", err)
peerLogger.Error(e.Error())
return e
}
err = handler.HandleMessage(in)
if err != nil {
peerLogger.Error(fmt.Sprintf("Error handling message: %s", err))
//return err
}
}
}
// The address to stream requests to
func getValidatorStreamAddress() string {
localaddr, _ := GetLocalAddress()
if viper.GetBool("peer.validator.enabled") { // in validator mode, send your own address
return localaddr
} else if valaddr := viper.GetString("peer.discovery.rootnode"); valaddr != "" {
return valaddr
}
return localaddr
}
//ExecuteTransaction executes transactions decides to do execute in dev or prod mode
func (p *PeerImpl) ExecuteTransaction(transaction *pb.Transaction) *pb.Response {
peerAddress := getValidatorStreamAddress()
var response *pb.Response
if viper.GetBool("peer.validator.enabled") { // send gRPC request to yourself
response = sendTransactionsToThisPeer(peerAddress, transaction)
} else {
response = p.SendTransactionsToPeer(peerAddress, transaction)
}
return response
}
// GetPeerEndpoint returns the endpoint for this peer
func (p *PeerImpl) GetPeerEndpoint() (*pb.PeerEndpoint, error) {
ep, err := GetPeerEndpoint()
if err == nil && viper.GetBool("security.enabled") {
// Set the PkiID on the PeerEndpoint if security is enabled
ep.PkiID = p.GetSecHelper().GetID()
}
return ep, err
}
func (p *PeerImpl) newHelloMessage() (*pb.HelloMessage, error) {
endpoint, err := p.GetPeerEndpoint()
if err != nil {
return nil, fmt.Errorf("Error creating hello message: %s", err)
}
p.ledgerWrapper.RLock()
defer p.ledgerWrapper.RUnlock()
size := p.ledgerWrapper.ledger.GetBlockchainSize()
return &pb.HelloMessage{PeerEndpoint: endpoint, BlockNumber: size}, nil
}
// GetBlockByNumber return a block by block number
func (p *PeerImpl) GetBlockByNumber(blockNumber uint64) (*pb.Block, error) {
p.ledgerWrapper.RLock()
defer p.ledgerWrapper.RUnlock()
return p.ledgerWrapper.ledger.GetBlockByNumber(blockNumber)
}
// GetStateSnapshot return the state snapshot
func (p *PeerImpl) GetStateSnapshot() (*state.StateSnapshot, error) {
p.ledgerWrapper.RLock()
defer p.ledgerWrapper.RUnlock()
return p.ledgerWrapper.ledger.GetStateSnapshot()
}
// GetStateDelta return the state delta for the requested block number
func (p *PeerImpl) GetStateDelta(blockNumber uint64) (*statemgmt.StateDelta, error) {
p.ledgerWrapper.RLock()
defer p.ledgerWrapper.RUnlock()
return p.ledgerWrapper.ledger.GetStateDelta(blockNumber)
}
// NewOpenchainDiscoveryHello constructs a new HelloMessage for sending
func (p *PeerImpl) NewOpenchainDiscoveryHello() (*pb.OpenchainMessage, error) {
helloMessage, err := p.newHelloMessage()
if err != nil {
return nil, fmt.Errorf("Error getting new HelloMessage: %s", err)
}
data, err := proto.Marshal(helloMessage)
if err != nil {
return nil, fmt.Errorf("Error marshalling HelloMessage: %s", err)
}
// Need to sign the Discovery Hello message
newDiscoveryHelloMsg := &pb.OpenchainMessage{Type: pb.OpenchainMessage_DISC_HELLO, Payload: data, Timestamp: util.CreateUtcTimestamp()}
p.signOpenchainMessageMutating(newDiscoveryHelloMsg)
return newDiscoveryHelloMsg, nil
}
// GetSecHelper returns the crypto.Peer
func (p *PeerImpl) GetSecHelper() crypto.Peer {
return p.secHelper
}
// signOpenchainMessage modifies the passed in OpenchainMessage by setting the Signature based upon the Payload.
func (p *PeerImpl) signOpenchainMessageMutating(msg *pb.OpenchainMessage) (*pb.OpenchainMessage, error) {
if viper.GetBool("security.enabled") {
sig, err := p.secHelper.Sign(msg.Payload)
if err != nil {
return nil, fmt.Errorf("Error signing Openchain Message: %s", err)
}
// Set the signature in the message
msg.Signature = sig
}
return msg, nil
}