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package pex |
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import ( |
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"fmt" |
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"github.com/tendermint/tendermint/libs/log" |
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"github.com/tendermint/tendermint/libs/service" |
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"github.com/tendermint/tendermint/p2p" |
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protop2p "github.com/tendermint/tendermint/proto/tendermint/p2p" |
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) |
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var ( |
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_ service.Service = (*ReactorV2)(nil) |
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_ p2p.Wrapper = (*protop2p.Message)(nil) |
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) |
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const ( |
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maxAddresses uint16 = 100 |
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) |
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// ReactorV2 is a PEX reactor for the new P2P stack. The legacy reactor
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// is Reactor.
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//
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// FIXME: Rename this when Reactor is removed, and consider moving to p2p/.
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type ReactorV2 struct { |
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service.BaseService |
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peerManager *p2p.PeerManager |
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pexCh *p2p.Channel |
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peerUpdates *p2p.PeerUpdatesCh |
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closeCh chan struct{} |
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} |
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// NewReactor returns a reference to a new reactor.
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func NewReactorV2( |
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logger log.Logger, |
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peerManager *p2p.PeerManager, |
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pexCh *p2p.Channel, |
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peerUpdates *p2p.PeerUpdatesCh, |
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) *ReactorV2 { |
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r := &ReactorV2{ |
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peerManager: peerManager, |
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pexCh: pexCh, |
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peerUpdates: peerUpdates, |
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closeCh: make(chan struct{}), |
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} |
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r.BaseService = *service.NewBaseService(logger, "PEX", r) |
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return r |
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} |
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// OnStart starts separate go routines for each p2p Channel and listens for
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// envelopes on each. In addition, it also listens for peer updates and handles
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// messages on that p2p channel accordingly. The caller must be sure to execute
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// OnStop to ensure the outbound p2p Channels are closed.
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func (r *ReactorV2) OnStart() error { |
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go r.processPexCh() |
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go r.processPeerUpdates() |
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return nil |
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} |
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// OnStop stops the reactor by signaling to all spawned goroutines to exit and
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// blocking until they all exit.
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func (r *ReactorV2) OnStop() { |
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// Close closeCh to signal to all spawned goroutines to gracefully exit. All
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// p2p Channels should execute Close().
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close(r.closeCh) |
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// Wait for all p2p Channels to be closed before returning. This ensures we
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// can easily reason about synchronization of all p2p Channels and ensure no
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// panics will occur.
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<-r.pexCh.Done() |
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<-r.peerUpdates.Done() |
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} |
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// handlePexMessage handles envelopes sent from peers on the PexChannel.
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func (r *ReactorV2) handlePexMessage(envelope p2p.Envelope) error { |
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logger := r.Logger.With("peer", envelope.From) |
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// FIXME: We may want to add DoS protection here, by rate limiting peers and
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// only processing addresses we actually requested.
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switch msg := envelope.Message.(type) { |
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case *protop2p.PexRequest: |
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endpoints := r.peerManager.Advertise(envelope.From, maxAddresses) |
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resp := &protop2p.PexAddrs{Addrs: make([]protop2p.NetAddress, 0, len(endpoints))} |
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for _, endpoint := range endpoints { |
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// FIXME: This shouldn't rely on NetAddress.
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resp.Addrs = append(resp.Addrs, endpoint.NetAddress().ToProto()) |
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} |
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r.pexCh.Out() <- p2p.Envelope{To: envelope.From, Message: resp} |
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case *protop2p.PexAddrs: |
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for _, pbAddr := range msg.Addrs { |
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// FIXME: This shouldn't rely on NetAddress.
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netaddr, err := p2p.NetAddressFromProto(pbAddr) |
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if err != nil { |
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logger.Debug("received invalid PEX address", "addr", netaddr, "err", err) |
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continue |
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} |
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if err = r.peerManager.Add(netaddr.Endpoint().PeerAddress()); err != nil { |
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logger.Debug("received invalid PEX address", "addr", netaddr, "err", err) |
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continue |
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} |
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} |
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default: |
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return fmt.Errorf("received unknown message: %T", msg) |
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} |
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return nil |
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} |
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// handleMessage handles an Envelope sent from a peer on a specific p2p Channel.
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// It will handle errors and any possible panics gracefully. A caller can handle
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// any error returned by sending a PeerError on the respective channel.
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func (r *ReactorV2) handleMessage(chID p2p.ChannelID, envelope p2p.Envelope) (err error) { |
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defer func() { |
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if e := recover(); e != nil { |
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err = fmt.Errorf("panic in processing message: %v", e) |
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} |
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}() |
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r.Logger.Debug("received message", "peer", envelope.From) |
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switch chID { |
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case p2p.ChannelID(PexChannel): |
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err = r.handlePexMessage(envelope) |
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default: |
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err = fmt.Errorf("unknown channel ID (%d) for envelope (%v)", chID, envelope) |
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} |
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return err |
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} |
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// processPexCh implements a blocking event loop where we listen for p2p
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// Envelope messages from the pexCh.
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func (r *ReactorV2) processPexCh() { |
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defer r.pexCh.Close() |
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for { |
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select { |
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case envelope := <-r.pexCh.In(): |
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if err := r.handleMessage(r.pexCh.ID(), envelope); err != nil { |
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r.Logger.Error("failed to process message", "ch_id", r.pexCh.ID(), "envelope", envelope, "err", err) |
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r.pexCh.Error() <- p2p.PeerError{ |
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PeerID: envelope.From, |
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Err: err, |
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Severity: p2p.PeerErrorSeverityLow, |
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} |
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} |
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case <-r.closeCh: |
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r.Logger.Debug("stopped listening on PEX channel; closing...") |
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return |
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} |
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} |
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} |
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// processPeerUpdate processes a PeerUpdate. For added peers, PeerStatusUp, we
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// send a request for addresses.
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func (r *ReactorV2) processPeerUpdate(peerUpdate p2p.PeerUpdate) { |
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r.Logger.Debug("received peer update", "peer", peerUpdate.PeerID, "status", peerUpdate.Status) |
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if peerUpdate.Status == p2p.PeerStatusUp { |
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r.pexCh.Out() <- p2p.Envelope{ |
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To: peerUpdate.PeerID, |
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Message: &protop2p.PexRequest{}, |
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} |
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} |
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} |
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// processPeerUpdates initiates a blocking process where we listen for and handle
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// PeerUpdate messages. When the reactor is stopped, we will catch the signal and
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// close the p2p PeerUpdatesCh gracefully.
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func (r *ReactorV2) processPeerUpdates() { |
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defer r.peerUpdates.Close() |
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for { |
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select { |
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case peerUpdate := <-r.peerUpdates.Updates(): |
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r.processPeerUpdate(peerUpdate) |
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case <-r.closeCh: |
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r.Logger.Debug("stopped listening on peer updates channel; closing...") |
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return |
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} |
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} |
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} |