ceremonyclient/go-libp2p-blossomsub/trace.go
2024-08-10 19:34:03 -05:00

553 lines
11 KiB
Go

package blossomsub
import (
"time"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/protocol"
pb "source.quilibrium.com/quilibrium/monorepo/go-libp2p-blossomsub/pb"
)
// EventTracer is a generic event tracer interface.
// This is a high level tracing interface which delivers tracing events, as defined by the protobuf
// schema in pb/trace.proto.
type EventTracer interface {
Trace(evt *pb.TraceEvent)
}
// RawTracer is a low level tracing interface that allows an application to trace the internal
// operation of the pubsub subsystem.
//
// Note that the tracers are invoked synchronously, which means that application tracers must
// take care to not block or modify arguments.
//
// Warning: this interface is not fixed, we may be adding new methods as necessitated by the system
// in the future.
type RawTracer interface {
// AddPeer is invoked when a new peer is added.
AddPeer(p peer.ID, proto protocol.ID)
// RemovePeer is invoked when a peer is removed.
RemovePeer(p peer.ID)
// Join is invoked when a new bitmask is joined
Join(bitmask []byte)
// Leave is invoked when a bitmask is abandoned
Leave(bitmask []byte)
// Graft is invoked when a new peer is grafted on the mesh (BlossomSub)
Graft(p peer.ID, bitmask []byte)
// Prune is invoked when a peer is pruned from the message (BlossomSub)
Prune(p peer.ID, bitmask []byte)
// ValidateMessage is invoked when a message first enters the validation pipeline.
ValidateMessage(msg *Message)
// DeliverMessage is invoked when a message is delivered
DeliverMessage(msg *Message)
// RejectMessage is invoked when a message is Rejected or Ignored.
// The reason argument can be one of the named strings Reject*.
RejectMessage(msg *Message, reason string)
// DuplicateMessage is invoked when a duplicate message is dropped.
DuplicateMessage(msg *Message)
// ThrottlePeer is invoked when a peer is throttled by the peer gater.
ThrottlePeer(p peer.ID)
// RecvRPC is invoked when an incoming RPC is received.
RecvRPC(rpc *RPC)
// SendRPC is invoked when a RPC is sent.
SendRPC(rpc *RPC, p peer.ID)
// DropRPC is invoked when an outbound RPC is dropped, typically because of a queue full.
DropRPC(rpc *RPC, p peer.ID)
// UndeliverableMessage is invoked when the consumer of Subscribe is not reading messages fast enough and
// the pressure release mechanism trigger, dropping messages.
UndeliverableMessage(msg *Message)
}
// pubsub tracer details
type pubsubTracer struct {
tracer EventTracer
raw []RawTracer
pid peer.ID
idGen *msgIDGenerator
}
func (t *pubsubTracer) PublishMessage(msg *Message) {
if t == nil {
return
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_PUBLISH_MESSAGE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
PublishMessage: &pb.TraceEvent_PublishMessage{
MessageID: []byte(t.idGen.ID(msg)),
Bitmask: msg.Message.Bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) ValidateMessage(msg *Message) {
if t == nil {
return
}
if msg.ReceivedFrom != t.pid {
for _, tr := range t.raw {
tr.ValidateMessage(msg)
}
}
}
func (t *pubsubTracer) RejectMessage(msg *Message, reason string) {
if t == nil {
return
}
if msg.ReceivedFrom != t.pid {
for _, tr := range t.raw {
tr.RejectMessage(msg, reason)
}
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_REJECT_MESSAGE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
RejectMessage: &pb.TraceEvent_RejectMessage{
MessageID: []byte(t.idGen.ID(msg)),
ReceivedFrom: []byte(msg.ReceivedFrom),
Reason: &reason,
Bitmask: msg.Bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) DuplicateMessage(msg *Message) {
if t == nil {
return
}
if msg.ReceivedFrom != t.pid {
for _, tr := range t.raw {
tr.DuplicateMessage(msg)
}
}
if t.tracer == nil {
return
}
// disable for now
// now := time.Now().UnixNano()
// evt := &pb.TraceEvent{
// Type: pb.TraceEvent_DUPLICATE_MESSAGE.Enum(),
// PeerID: []byte(t.pid),
// Timestamp: &now,
// DuplicateMessage: &pb.TraceEvent_DuplicateMessage{
// MessageID: []byte(t.idGen.ID(msg)),
// ReceivedFrom: []byte(msg.ReceivedFrom),
// Bitmask: msg.Bitmask,
// },
// }
// t.tracer.Trace(evt)
}
func (t *pubsubTracer) DeliverMessage(msg *Message) {
if t == nil {
return
}
if msg.ReceivedFrom != t.pid {
for _, tr := range t.raw {
tr.DeliverMessage(msg)
}
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_DELIVER_MESSAGE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
DeliverMessage: &pb.TraceEvent_DeliverMessage{
MessageID: []byte(t.idGen.ID(msg)),
Bitmask: msg.Bitmask,
ReceivedFrom: []byte(msg.ReceivedFrom),
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) AddPeer(p peer.ID, proto protocol.ID) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.AddPeer(p, proto)
}
if t.tracer == nil {
return
}
protoStr := string(proto)
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_ADD_PEER.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
AddPeer: &pb.TraceEvent_AddPeer{
PeerID: []byte(p),
Proto: &protoStr,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) RemovePeer(p peer.ID) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.RemovePeer(p)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_REMOVE_PEER.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
RemovePeer: &pb.TraceEvent_RemovePeer{
PeerID: []byte(p),
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) RecvRPC(rpc *RPC) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.RecvRPC(rpc)
}
if t.tracer == nil {
return
}
// disable for now
// now := time.Now().UnixNano()
// evt := &pb.TraceEvent{
// Type: pb.TraceEvent_RECV_RPC.Enum(),
// PeerID: []byte(t.pid),
// Timestamp: &now,
// RecvRPC: &pb.TraceEvent_RecvRPC{
// ReceivedFrom: []byte(rpc.from),
// Meta: t.traceRPCMeta(rpc),
// },
// }
// t.tracer.Trace(evt)
}
func (t *pubsubTracer) SendRPC(rpc *RPC, p peer.ID) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.SendRPC(rpc, p)
}
if t.tracer == nil {
return
}
// disable for now
// now := time.Now().UnixNano()
// evt := &pb.TraceEvent{
// Type: pb.TraceEvent_SEND_RPC.Enum(),
// PeerID: []byte(t.pid),
// Timestamp: &now,
// SendRPC: &pb.TraceEvent_SendRPC{
// SendTo: []byte(p),
// Meta: t.traceRPCMeta(rpc),
// },
// }
// t.tracer.Trace(evt)
}
func (t *pubsubTracer) DropRPC(rpc *RPC, p peer.ID) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.DropRPC(rpc, p)
}
if t.tracer == nil {
return
}
// disable for now
// now := time.Now().UnixNano()
// evt := &pb.TraceEvent{
// Type: pb.TraceEvent_DROP_RPC.Enum(),
// PeerID: []byte(t.pid),
// Timestamp: &now,
// DropRPC: &pb.TraceEvent_DropRPC{
// SendTo: []byte(p),
// Meta: t.traceRPCMeta(rpc),
// },
// }
// t.tracer.Trace(evt)
}
func (t *pubsubTracer) UndeliverableMessage(msg *Message) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.UndeliverableMessage(msg)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_UNDELIVERABLE_MESSAGE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
UndeliverableMessage: &pb.TraceEvent_UndeliverableMessage{
MessageID: []byte(t.idGen.ID(msg)),
Bitmask: msg.Bitmask,
ReceivedFrom: []byte(msg.ReceivedFrom),
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) traceRPCMeta(rpc *RPC) *pb.TraceEvent_RPCMeta {
rpcMeta := new(pb.TraceEvent_RPCMeta)
var msgs []*pb.TraceEvent_MessageMeta
for _, m := range rpc.Publish {
msgs = append(msgs, &pb.TraceEvent_MessageMeta{
MessageID: []byte(t.idGen.RawID(m)),
Bitmask: m.Bitmask,
})
}
rpcMeta.Messages = msgs
var subs []*pb.TraceEvent_SubMeta
for _, sub := range rpc.Subscriptions {
subs = append(subs, &pb.TraceEvent_SubMeta{
Subscribe: &sub.Subscribe,
Bitmask: sub.Bitmask,
})
}
rpcMeta.Subscription = subs
if rpc.Control != nil {
var ihave []*pb.TraceEvent_ControlIHaveMeta
for _, ctl := range rpc.Control.Ihave {
var mids [][]byte
for _, mid := range ctl.MessageIDs {
mids = append(mids, []byte(mid))
}
ihave = append(ihave, &pb.TraceEvent_ControlIHaveMeta{
Bitmask: ctl.Bitmask,
MessageIDs: mids,
})
}
var iwant []*pb.TraceEvent_ControlIWantMeta
for _, ctl := range rpc.Control.Iwant {
var mids [][]byte
for _, mid := range ctl.MessageIDs {
mids = append(mids, []byte(mid))
}
iwant = append(iwant, &pb.TraceEvent_ControlIWantMeta{
MessageIDs: mids,
})
}
var graft []*pb.TraceEvent_ControlGraftMeta
for _, ctl := range rpc.Control.Graft {
graft = append(graft, &pb.TraceEvent_ControlGraftMeta{
Bitmask: ctl.Bitmask,
})
}
var prune []*pb.TraceEvent_ControlPruneMeta
for _, ctl := range rpc.Control.Prune {
peers := make([][]byte, 0, len(ctl.Peers))
for _, pi := range ctl.Peers {
peers = append(peers, pi.PeerID)
}
prune = append(prune, &pb.TraceEvent_ControlPruneMeta{
Bitmask: ctl.Bitmask,
Peers: peers,
})
}
rpcMeta.Control = &pb.TraceEvent_ControlMeta{
Ihave: ihave,
Iwant: iwant,
Graft: graft,
Prune: prune,
}
}
return rpcMeta
}
func (t *pubsubTracer) Join(bitmask []byte) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.Join(bitmask)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_JOIN.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
Join: &pb.TraceEvent_Join{
Bitmask: bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) Leave(bitmask []byte) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.Leave(bitmask)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_LEAVE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
Leave: &pb.TraceEvent_Leave{
Bitmask: bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) Graft(p peer.ID, bitmask []byte) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.Graft(p, bitmask)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_GRAFT.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
Graft: &pb.TraceEvent_Graft{
PeerID: []byte(p),
Bitmask: bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) Prune(p peer.ID, bitmask []byte) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.Prune(p, bitmask)
}
if t.tracer == nil {
return
}
now := time.Now().UnixNano()
evt := &pb.TraceEvent{
Type: pb.TraceEvent_PRUNE.Enum(),
PeerID: []byte(t.pid),
Timestamp: &now,
Prune: &pb.TraceEvent_Prune{
PeerID: []byte(p),
Bitmask: bitmask,
},
}
t.tracer.Trace(evt)
}
func (t *pubsubTracer) ThrottlePeer(p peer.ID) {
if t == nil {
return
}
for _, tr := range t.raw {
tr.ThrottlePeer(p)
}
}