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telemetry.go
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telemetry.go
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package notifications
import (
"github.com/google/uuid"
"github.com/rs/zerolog"
"github.com/onflow/flow-go/utils/logging"
"github.com/onflow/flow-go/consensus/hotstuff/model"
"github.com/onflow/flow-go/model/flow"
)
// TelemetryConsumer implements the hotstuff.Consumer interface.
// consumes outbound notifications produced by the The HotStuff state machine.
// For this purpose, the TelemetryConsumer enriches the state machine's notifications:
// * the goal is to identify all events as belonging together that were emitted during
// a path through the state machine.
// * A path through the state machine begins when:
// - a vote is received
// - a block is received
// - a new view is started
// - a timeout is processed
// * Each path through the state machine is identified by a unique id.
// Generally, the TelemetryConsumer could export the collected data to a variety of backends.
// For now, we export the data to a logger.
//
// Telemetry does NOT capture slashing notifications
type TelemetryConsumer struct {
NoopConsumer
pathHandler *PathHandler
}
func NewTelemetryConsumer(log zerolog.Logger, chain flow.ChainID) *TelemetryConsumer {
return &TelemetryConsumer{
pathHandler: NewPathHandler(log, chain),
}
}
func (t *TelemetryConsumer) OnReceiveVote(currentView uint64, vote *model.Vote) {
t.pathHandler.StartNextPath(currentView)
t.pathHandler.NextStep().
Uint64("voted_block_view", vote.View).
Hex("voted_block_id", vote.BlockID[:]).
Hex("voter_id", vote.SignerID[:]).
Msg("OnReceiveVote")
}
func (t *TelemetryConsumer) OnReceiveProposal(currentView uint64, proposal *model.Proposal) {
block := proposal.Block
t.pathHandler.StartNextPath(currentView)
step := t.pathHandler.NextStep()
step.
Uint64("block_view", block.View).
Hex("block_id", logging.ID(block.BlockID)).
Hex("block_proposer_id", logging.ID(block.ProposerID)).
Time("block_time", block.Timestamp)
if block.QC != nil {
step.
Uint64("qc_block_view", block.QC.View).
Hex("qc_block_id", logging.ID(block.QC.BlockID))
}
step.Msg("OnReceiveProposal")
}
func (t *TelemetryConsumer) OnEventProcessed() {
if t.pathHandler.IsCurrentPathClosed() {
return
}
t.pathHandler.NextStep().Msg("PathCompleted")
t.pathHandler.NextStep().Msg("OnEventProcessed")
t.pathHandler.CloseCurrentPath()
}
func (t *TelemetryConsumer) OnStartingTimeout(info *model.TimerInfo) {
if info.Mode == model.ReplicaTimeout {
// the PaceMarker starts a new ReplicaTimeout if and only if it transitions to a higher view
t.pathHandler.StartNextPath(info.View)
}
t.pathHandler.NextStep().
Str("timeout_mode", info.Mode.String()).
Float64("timeout_duration_seconds", info.Duration.Seconds()).
Time("timeout_cutoff", info.StartTime.Add(info.Duration)).
Msg("OnStartingTimeout")
}
func (t *TelemetryConsumer) OnEnteringView(viewNumber uint64, leader flow.Identifier) {
t.pathHandler.NextStep().
Uint64("entered_view", viewNumber).
Hex("leader", leader[:]).
Msg("OnEnteringView")
}
func (t *TelemetryConsumer) OnReachedTimeout(info *model.TimerInfo) {
t.pathHandler.StartNextPath(info.View)
t.pathHandler.NextStep().
Str("timeout_mode", info.Mode.String()).
Time("timeout_start_time", info.StartTime).
Float64("timeout_duration_seconds", info.Duration.Seconds()).
Msg("OnReachedTimeout")
}
func (t *TelemetryConsumer) OnBlockIncorporated(block *model.Block) {
t.pathHandler.NextStep().
Hex("block_id", logging.ID(block.BlockID)).
Msg("OnBlockIncorporated")
}
func (t *TelemetryConsumer) OnFinalizedBlock(block *model.Block) {
t.pathHandler.NextStep().
Hex("block_id", logging.ID(block.BlockID)).
Msg("OnFinalizedBlock")
}
func (t *TelemetryConsumer) OnQcTriggeredViewChange(qc *flow.QuorumCertificate, newView uint64) {
t.pathHandler.NextStep().
Uint64("qc_block_view", qc.View).
Uint64("next_view", newView).
Hex("qc_block_id", qc.BlockID[:]).
Msg("OnQcTriggeredViewChange")
}
func (t *TelemetryConsumer) OnProposingBlock(proposal *model.Proposal) {
block := proposal.Block
step := t.pathHandler.NextStep()
step.
Uint64("block_view", block.View).
Hex("block_id", logging.ID(block.BlockID)).
Hex("block_proposer_id", logging.ID(block.ProposerID)).
Time("block_time", block.Timestamp)
if block.QC != nil {
step.
Uint64("qc_block_view", block.QC.View).
Hex("qc_block_id", logging.ID(block.QC.BlockID))
}
step.Msg("OnProposingBlock")
}
func (t *TelemetryConsumer) OnVoting(vote *model.Vote) {
t.pathHandler.NextStep().
Uint64("voted_block_view", vote.View).
Hex("voted_block_id", vote.BlockID[:]).
Hex("voter_id", vote.SignerID[:]).
Msg("OnVoting")
}
func (t *TelemetryConsumer) OnForkChoiceGenerated(current_view uint64, qc *flow.QuorumCertificate) {
t.pathHandler.NextStep().
Uint64("block_view", current_view).
Msg("OnForkChoiceGenerated")
// Telemetry does not capture the details of the qc as the qc will be included in the
// proposed block, whose details (including the qc) are captured by telemetry
}
func (t *TelemetryConsumer) OnQcConstructedFromVotes(qc *flow.QuorumCertificate) {
t.pathHandler.NextStep().
Uint64("qc_block_view", qc.View).
Hex("qc_block_id", qc.BlockID[:]).
Msg("OnQcIncorporated")
}
func (t *TelemetryConsumer) OnQcIncorporated(qc *flow.QuorumCertificate) {
t.pathHandler.NextStep().
Uint64("qc_block_view", qc.View).
Hex("qc_block_id", qc.BlockID[:]).
Msg("OnQcIncorporated")
}
// PathHandler maintains a notion of the current path through the state machine.
// It allows to close a path and open new path. Each path is identified by a unique
// (randomly generated) uuid. Along each path, we can capture information about relevant
// Steps (each step is represented by a Zerolog Event).
// In case there is no currently open path, the PathHandler still returns a Step,
// but such steps are logged as telemetry errors.
type PathHandler struct {
chain flow.ChainID
log zerolog.Logger
// currentPath holds a Zerolog Context with the information about the current path.
// We represent the case where the current path has been closed by nil value.
currentPath *zerolog.Context
}
// NewPathHandler instantiate a new PathHandler.
// The PathHandler has no currently open path
func NewPathHandler(log zerolog.Logger, chain flow.ChainID) *PathHandler {
return &PathHandler{
chain: chain,
log: log.With().Str("hotstuff", "telemetry").Str("chain", chain.String()).Logger(),
currentPath: nil,
}
}
// StartNextPath starts a new Path. Implicitly closes previous path if still open.
// Returns self-reference for chaining
func (p *PathHandler) StartNextPath(view uint64) *PathHandler {
if p.currentPath != nil {
p.NextStep().Msg("PathCompleted")
}
c := p.log.With().
Str("path_id", uuid.New().String()).
Uint64("view", view)
p.currentPath = &c
return p
}
// CloseCurrentPath closes the current path. Repeated calls to CloseCurrentPath are handled.
// All Details hereafter, until a new Path is started, are logged as telemetry Errors.
// Returns self-reference for chaining
func (p *PathHandler) CloseCurrentPath() *PathHandler {
p.currentPath = nil
return p
}
// IsCurrentPathOpen if and only is the most recently started path has been closed.
func (p *PathHandler) IsCurrentPathClosed() bool {
return p.currentPath == nil
}
// NextStep returns a Zerolog event for the currently open path. If the current path
// is closed, the event will be logged as telemetry error.
func (p *PathHandler) NextStep() *zerolog.Event {
if p.currentPath == nil {
l := p.log.With().Str("error", "no path").Logger()
return l.Error()
}
l := p.currentPath.Logger()
return l.Info()
}