zolfa
/
tendermint


								package monitor


								import (

									"fmt"

									"math/rand"

									"time"


									"github.com/pkg/errors"

									tmtypes "github.com/tendermint/tendermint/types"

									"github.com/tendermint/tmlibs/log"

								)


								// waiting more than this many seconds for a block means we're unhealthy

								const nodeLivenessTimeout = 5 * time.Second


								// Monitor keeps track of the nodes and updates common statistics upon

								// receiving new events from nodes.

								//

								// Common statistics is stored in Network struct.

								type Monitor struct {

									Nodes   []*Node

									Network *Network


									monitorQuit chan struct{}            // monitor exitting

									nodeQuit    map[string]chan struct{} // node is being stopped and removed from under the monitor


									recalculateNetworkUptimeEvery time.Duration

									numValidatorsUpdateInterval   time.Duration


									logger log.Logger

								}


								// NewMonitor creates new instance of a Monitor. You can provide options to

								// change some default values.

								//

								// Example:

								//   NewMonitor(monitor.SetNumValidatorsUpdateInterval(1 * time.Second))

								func NewMonitor(options ...func(*Monitor)) *Monitor {

									m := &Monitor{

										Nodes:                         make([]*Node, 0),

										Network:                       NewNetwork(),

										monitorQuit:                   make(chan struct{}),

										nodeQuit:                      make(map[string]chan struct{}),

										recalculateNetworkUptimeEvery: 10 * time.Second,

										numValidatorsUpdateInterval:   5 * time.Second,

										logger: log.NewNopLogger(),

									}


									for _, option := range options {

										option(m)

									}


									return m

								}


								// RecalculateNetworkUptimeEvery lets you change network uptime update interval.

								func RecalculateNetworkUptimeEvery(d time.Duration) func(m *Monitor) {

									return func(m *Monitor) {

										m.recalculateNetworkUptimeEvery = d

									}

								}


								// SetNumValidatorsUpdateInterval lets you change num validators update interval.

								func SetNumValidatorsUpdateInterval(d time.Duration) func(m *Monitor) {

									return func(m *Monitor) {

										m.numValidatorsUpdateInterval = d

									}

								}


								// SetLogger lets you set your own logger

								func (m *Monitor) SetLogger(l log.Logger) {

									m.logger = l

								}


								// Monitor begins to monitor the node `n`. The node will be started and added

								// to the monitor.

								func (m *Monitor) Monitor(n *Node) error {

									m.Nodes = append(m.Nodes, n)


									blockCh := make(chan tmtypes.Header, 10)

									n.SendBlocksTo(blockCh)

									blockLatencyCh := make(chan float64, 10)

									n.SendBlockLatenciesTo(blockLatencyCh)

									disconnectCh := make(chan bool, 10)

									n.NotifyAboutDisconnects(disconnectCh)


									if err := n.Start(); err != nil {

										return err

									}


									m.Network.NewNode(n.Name)


									m.nodeQuit[n.Name] = make(chan struct{})

									go m.listen(n.Name, blockCh, blockLatencyCh, disconnectCh, m.nodeQuit[n.Name])


									return nil

								}


								// Unmonitor stops monitoring node `n`. The node will be stopped and removed

								// from the monitor.

								func (m *Monitor) Unmonitor(n *Node) {

									m.Network.NodeDeleted(n.Name)


									n.Stop()

									close(m.nodeQuit[n.Name])

									delete(m.nodeQuit, n.Name)

									i, _ := m.NodeByName(n.Name)

									m.Nodes[i] = m.Nodes[len(m.Nodes)-1]

									m.Nodes = m.Nodes[:len(m.Nodes)-1]

								}


								// NodeByName returns the node and its index if such node exists within the

								// monitor. Otherwise, -1 and nil are returned.

								func (m *Monitor) NodeByName(name string) (index int, node *Node) {

									for i, n := range m.Nodes {

										if name == n.Name {

											return i, n

										}

									}

									return -1, nil

								}


								// Start starts the monitor's routines: recalculating network uptime and

								// updating number of validators.

								func (m *Monitor) Start() error {

									go m.recalculateNetworkUptimeLoop()

									go m.updateNumValidatorLoop()


									return nil

								}


								// Stop stops the monitor's routines.

								func (m *Monitor) Stop() {

									close(m.monitorQuit)


									for _, n := range m.Nodes {

										m.Unmonitor(n)

									}

								}


								// main loop where we listen for events from the node

								func (m *Monitor) listen(nodeName string, blockCh <-chan tmtypes.Header, blockLatencyCh <-chan float64, disconnectCh <-chan bool, quit <-chan struct{}) {

									logger := m.logger.With("node", nodeName)


									for {

										select {

										case <-quit:

											return

										case b := <-blockCh:

											m.Network.NewBlock(b)

											m.Network.NodeIsOnline(nodeName)

										case l := <-blockLatencyCh:

											m.Network.NewBlockLatency(l)

											m.Network.NodeIsOnline(nodeName)

										case disconnected := <-disconnectCh:

											if disconnected {

												m.Network.NodeIsDown(nodeName)

											} else {

												m.Network.NodeIsOnline(nodeName)

											}

										case <-time.After(nodeLivenessTimeout):

											logger.Info("event", fmt.Sprintf("node was not responding for %v", nodeLivenessTimeout))

											m.Network.NodeIsDown(nodeName)

										}

									}

								}


								// recalculateNetworkUptimeLoop every N seconds.

								func (m *Monitor) recalculateNetworkUptimeLoop() {

									for {

										select {

										case <-m.monitorQuit:

											return

										case <-time.After(m.recalculateNetworkUptimeEvery):

											m.Network.RecalculateUptime()

										}

									}

								}


								// updateNumValidatorLoop sends a request to a random node once every N seconds,

								// which in turn makes an RPC call to get the latest validators.

								func (m *Monitor) updateNumValidatorLoop() {

									rand.Seed(time.Now().Unix())


									var height uint64

									var num int

									var err error


									for {

										if 0 == len(m.Nodes) {

											time.Sleep(m.numValidatorsUpdateInterval)

											continue

										}


										randomNodeIndex := rand.Intn(len(m.Nodes))


										select {

										case <-m.monitorQuit:

											return

										case <-time.After(m.numValidatorsUpdateInterval):

											i := 0

											for _, n := range m.Nodes {

												if i == randomNodeIndex {

													height, num, err = n.NumValidators()

													if err != nil {

														m.logger.Info("err", errors.Wrap(err, "update num validators failed"))

													}

													break

												}

												i++

											}


											if m.Network.Height <= height {

												m.Network.NumValidators = num

											}

										}

									}

								}