p2p: pass start time to flowrate and cleanup constructors (#7838)

After poking around #7828, I saw the oppertunity for this cleanup, which I think is both reasonable on its own, and quite low impact, and removes the math around process start time.
2 years ago · be83ec6664
--- a/internal/blocksync/pool.go
+++ b/internal/blocksync/pool.go
@ -331,8 +331,16 @@ func (pool *BlockPool) SetPeerRange(peerID types.NodeID, base int64, height int6
 		peer.base = base
 		peer.height = height
 	} else {
 		peer = newBPPeer(pool, peerID, base, height)
 		peer.logger = pool.logger.With("peer", peerID)
 		peer = &bpPeer{
 			pool:       pool,
 			id:         peerID,
 			base:       base,
 			height:     height,
 			numPending: 0,
 			logger:     pool.logger.With("peer", peerID),
 			startAt:    time.Now(),
 		}

 		pool.peers[peerID] = peer
 	}

@ -490,24 +498,13 @@ type bpPeer struct {
 	recvMonitor *flowrate.Monitor

 	timeout *time.Timer
 	startAt time.Time

 	logger log.Logger
 }

 func newBPPeer(pool *BlockPool, peerID types.NodeID, base int64, height int64) *bpPeer {
 	peer := &bpPeer{
 		pool:       pool,
 		id:         peerID,
 		base:       base,
 		height:     height,
 		numPending: 0,
 		logger:     log.NewNopLogger(),
 	}
 	return peer
 }

 func (peer *bpPeer) resetMonitor() {
 	peer.recvMonitor = flowrate.New(time.Second, time.Second*40)
 	peer.recvMonitor = flowrate.New(peer.startAt, time.Second, time.Second*40)
 	initialValue := float64(minRecvRate) * math.E
 	peer.recvMonitor.SetREMA(initialValue)
 }
--- a/internal/libs/flowrate/flowrate.go
+++ b/internal/libs/flowrate/flowrate.go
@ -14,11 +14,12 @@ import (

 // Monitor monitors and limits the transfer rate of a data stream.
 type Monitor struct {
 	mu      sync.Mutex    // Mutex guarding access to all internal fields
 	active  bool          // Flag indicating an active transfer
 	start   time.Duration // Transfer start time (clock() value)
 	bytes   int64         // Total number of bytes transferred
 	samples int64         // Total number of samples taken
 	mu       sync.Mutex    // Mutex guarding access to all internal fields
 	active   bool          // Flag indicating an active transfer
 	start    time.Duration // Transfer start time (clock() value)
 	pStartAt time.Time     // time of process start
 	bytes    int64         // Total number of bytes transferred
 	samples  int64         // Total number of samples taken

 	rSample float64 // Most recent transfer rate sample (bytes per second)
 	rEMA    float64 // Exponential moving average of rSample
@ -45,21 +46,22 @@ type Monitor struct {
 //
 // The default values for sampleRate and windowSize (if <= 0) are 100ms and 1s,
 // respectively.
 func New(sampleRate, windowSize time.Duration) *Monitor {
 func New(startAt time.Time, sampleRate, windowSize time.Duration) *Monitor {
 	if sampleRate = clockRound(sampleRate); sampleRate <= 0 {
 		sampleRate = 5 * clockRate
 	}
 	if windowSize <= 0 {
 		windowSize = 1 * time.Second
 	}
 	now := clock()
 	now := clock(startAt)
 	return &Monitor{
 		active:  true,
 		start:   now,
 		rWindow: windowSize.Seconds(),
 		sLast:   now,
 		sRate:   sampleRate,
 		tLast:   now,
 		active:   true,
 		start:    now,
 		rWindow:  windowSize.Seconds(),
 		sLast:    now,
 		sRate:    sampleRate,
 		tLast:    now,
 		pStartAt: startAt,
 	}
 }

@ -129,7 +131,7 @@ func (m *Monitor) Status() Status {
 	now := m.update(0)
 	s := Status{
 		Active:   m.active,
 		Start:    clockToTime(m.start),
 		Start:    m.pStartAt.Add(m.start),
 		Duration: m.sLast - m.start,
 		Idle:     now - m.tLast,
 		Bytes:    m.bytes,
@ -222,7 +224,7 @@ func (m *Monitor) update(n int) (now time.Duration) {
 	if !m.active {
 		return
 	}
 	if now = clock(); n > 0 {
 	if now = clock(m.pStartAt); n > 0 {
 		m.tLast = now
 	}
 	m.sBytes += int64(n)
--- a/internal/libs/flowrate/util.go
+++ b/internal/libs/flowrate/util.go
@ -13,18 +13,9 @@ import (
 // clockRate is the resolution and precision of clock().
 const clockRate = 20 * time.Millisecond

 // czero is the process start time rounded down to the nearest clockRate
 // increment.
 var czero = time.Now().Round(clockRate)

 // clock returns a low resolution timestamp relative to the process start time.
 func clock() time.Duration {
 	return time.Now().Round(clockRate).Sub(czero)
 }

 // clockToTime converts a clock() timestamp to an absolute time.Time value.
 func clockToTime(c time.Duration) time.Time {
 	return czero.Add(c)
 func clock(startAt time.Time) time.Duration {
 	return time.Now().Round(clockRate).Sub(startAt)
 }

 // clockRound returns d rounded to the nearest clockRate increment.
--- a/internal/p2p/conn/connection.go
+++ b/internal/p2p/conn/connection.go
@ -134,6 +134,9 @@ type MConnConfig struct {

 	// Maximum wait time for pongs
 	PongTimeout time.Duration `mapstructure:"pong_timeout"`

 	// Process/Transport Start time
 	StartTime time.Time `mapstructure:",omitempty"`
 }

 // DefaultMConnConfig returns the default config.
@ -145,33 +148,17 @@ func DefaultMConnConfig() MConnConfig {
 		FlushThrottle:           defaultFlushThrottle,
 		PingInterval:            defaultPingInterval,
 		PongTimeout:             defaultPongTimeout,
 		StartTime:               time.Now(),
 	}
 }

 // NewMConnection wraps net.Conn and creates multiplex connection
 // NewMConnection wraps net.Conn and creates multiplex connection with a config
 func NewMConnection(
 	logger log.Logger,
 	conn net.Conn,
 	chDescs []*ChannelDescriptor,
 	onReceive receiveCbFunc,
 	onError errorCbFunc,
 ) *MConnection {
 	return NewMConnectionWithConfig(
 		logger,
 		conn,
 		chDescs,
 		onReceive,
 		onError,
 		DefaultMConnConfig())
 }

 // NewMConnectionWithConfig wraps net.Conn and creates multiplex connection with a config
 func NewMConnectionWithConfig(
 	logger log.Logger,
 	conn net.Conn,
 	chDescs []*ChannelDescriptor,
 	onReceive receiveCbFunc,
 	onError errorCbFunc,
 	config MConnConfig,
 ) *MConnection {
 	if config.PongTimeout >= config.PingInterval {
@ -183,8 +170,8 @@ func NewMConnectionWithConfig(
 		conn:          conn,
 		bufConnReader: bufio.NewReaderSize(conn, minReadBufferSize),
 		bufConnWriter: bufio.NewWriterSize(conn, minWriteBufferSize),
 		sendMonitor:   flowrate.New(0, 0),
 		recvMonitor:   flowrate.New(0, 0),
 		sendMonitor:   flowrate.New(config.StartTime, 0, 0),
 		recvMonitor:   flowrate.New(config.StartTime, 0, 0),
 		send:          make(chan struct{}, 1),
 		pong:          make(chan struct{}, 1),
 		onReceive:     onReceive,
--- a/internal/p2p/conn/connection_test.go
+++ b/internal/p2p/conn/connection_test.go
@ -42,7 +42,7 @@ func createMConnectionWithCallbacks(
 	cfg.PingInterval = 90 * time.Millisecond
 	cfg.PongTimeout = 45 * time.Millisecond
 	chDescs := []*ChannelDescriptor{{ID: 0x01, Priority: 1, SendQueueCapacity: 1}}
 	c := NewMConnectionWithConfig(logger, conn, chDescs, onReceive, onError, cfg)
 	c := NewMConnection(logger, conn, chDescs, onReceive, onError, cfg)
 	return c
 }

@ -453,7 +453,7 @@ func newClientAndServerConnsForReadErrors(
 	}
 	logger := log.TestingLogger()

 	mconnClient := NewMConnection(logger.With("module", "client"), client, chDescs, onReceive, onError)
 	mconnClient := NewMConnection(logger.With("module", "client"), client, chDescs, onReceive, onError, DefaultMConnConfig())
 	err := mconnClient.Start(ctx)
 	require.NoError(t, err)

--- a/internal/p2p/transport_mconn.go
+++ b/internal/p2p/transport_mconn.go
@ -376,7 +376,7 @@ func (c *mConnConnection) handshake(
 		return nil, types.NodeInfo{}, nil, err
 	}

 	mconn := conn.NewMConnectionWithConfig(
 	mconn := conn.NewMConnection(
 		c.logger.With("peer", c.RemoteEndpoint().NodeAddress(peerInfo.NodeID)),
 		secretConn,
 		c.channelDescs,