zolfa
/
tendermint


								package monitor


								import (

									"encoding/json"

									"math"

									"time"


									"github.com/pkg/errors"


									"github.com/tendermint/tendermint/crypto"

									"github.com/tendermint/tendermint/libs/events"

									"github.com/tendermint/tendermint/libs/log"

									ctypes "github.com/tendermint/tendermint/rpc/core/types"

									rpc_client "github.com/tendermint/tendermint/rpc/lib/client"

									em "github.com/tendermint/tendermint/tools/tm-monitor/eventmeter"

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

								)


								const maxRestarts = 25


								type Node struct {

									rpcAddr string


									IsValidator bool `json:"is_validator"` // validator or non-validator?

									pubKey      crypto.PubKey


									Name         string  `json:"name"`

									Online       bool    `json:"online"`

									Height       int64   `json:"height"`

									BlockLatency float64 `json:"block_latency" amino:"unsafe"` // ms, interval between block commits


									// em holds the ws connection. Each eventMeter callback is called in a separate go-routine.

									em eventMeter


									// rpcClient is an client for making RPC calls to TM

									rpcClient rpc_client.HTTPClient


									blockCh        chan<- tmtypes.Header

									blockLatencyCh chan<- float64

									disconnectCh   chan<- bool


									checkIsValidatorInterval time.Duration


									quit chan struct{}


									logger log.Logger

								}


								func NewNode(rpcAddr string, options ...func(*Node)) *Node {

									em := em.NewEventMeter(rpcAddr, UnmarshalEvent)

									rpcClient := rpc_client.NewURIClient(rpcAddr) // HTTP client by default

									rpcClient.SetCodec(cdc)

									return NewNodeWithEventMeterAndRpcClient(rpcAddr, em, rpcClient, options...)

								}


								func NewNodeWithEventMeterAndRpcClient(rpcAddr string, em eventMeter, rpcClient rpc_client.HTTPClient, options ...func(*Node)) *Node {

									n := &Node{

										rpcAddr:                  rpcAddr,

										em:                       em,

										rpcClient:                rpcClient,

										Name:                     rpcAddr,

										quit:                     make(chan struct{}),

										checkIsValidatorInterval: 5 * time.Second,

										logger:                   log.NewNopLogger(),

									}


									for _, option := range options {

										option(n)

									}


									return n

								}


								// SetCheckIsValidatorInterval lets you change interval for checking whenever

								// node is still a validator or not.

								func SetCheckIsValidatorInterval(d time.Duration) func(n *Node) {

									return func(n *Node) {

										n.checkIsValidatorInterval = d

									}

								}


								func (n *Node) SendBlocksTo(ch chan<- tmtypes.Header) {

									n.blockCh = ch

								}


								func (n *Node) SendBlockLatenciesTo(ch chan<- float64) {

									n.blockLatencyCh = ch

								}


								func (n *Node) NotifyAboutDisconnects(ch chan<- bool) {

									n.disconnectCh = ch

								}


								// SetLogger lets you set your own logger

								func (n *Node) SetLogger(l log.Logger) {

									n.logger = l

									n.em.SetLogger(l)

								}


								func (n *Node) Start() error {

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

										return err

									}


									n.em.RegisterLatencyCallback(latencyCallback(n))

									err := n.em.Subscribe(tmtypes.EventQueryNewBlockHeader.String(), newBlockCallback(n))

									if err != nil {

										return err

									}

									n.em.RegisterDisconnectCallback(disconnectCallback(n))


									n.Online = true


									n.checkIsValidator()

									go n.checkIsValidatorLoop()


									return nil

								}


								func (n *Node) Stop() {

									n.Online = false


									n.em.Stop()


									close(n.quit)

								}


								// implements eventmeter.EventCallbackFunc

								func newBlockCallback(n *Node) em.EventCallbackFunc {

									return func(metric *em.EventMetric, data interface{}) {

										block := data.(tmtypes.TMEventData).(tmtypes.EventDataNewBlockHeader).Header


										n.Height = block.Height

										n.logger.Info("new block", "height", block.Height, "numTxs", block.NumTxs)


										if n.blockCh != nil {

											n.blockCh <- block

										}

									}

								}


								// implements eventmeter.EventLatencyFunc

								func latencyCallback(n *Node) em.LatencyCallbackFunc {

									return func(latency float64) {

										n.BlockLatency = latency / 1000000.0 // ns to ms

										n.logger.Info("new block latency", "latency", n.BlockLatency)


										if n.blockLatencyCh != nil {

											n.blockLatencyCh <- latency

										}

									}

								}


								// implements eventmeter.DisconnectCallbackFunc

								func disconnectCallback(n *Node) em.DisconnectCallbackFunc {

									return func() {

										n.Online = false

										n.logger.Info("status", "down")


										if n.disconnectCh != nil {

											n.disconnectCh <- true

										}

									}

								}


								func (n *Node) RestartEventMeterBackoff() error {

									attempt := 0


									for {

										d := time.Duration(math.Exp2(float64(attempt)))

										time.Sleep(d * time.Second)


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

											n.logger.Info("restart failed", "err", err)

										} else {

											// TODO: authenticate pubkey

											return nil

										}


										attempt++


										if attempt > maxRestarts {

											return errors.New("Reached max restarts")

										}

									}

								}


								func (n *Node) NumValidators() (height int64, num int, err error) {

									height, vals, err := n.validators()

									if err != nil {

										return 0, 0, err

									}

									return height, len(vals), nil

								}


								func (n *Node) validators() (height int64, validators []*tmtypes.Validator, err error) {

									vals := new(ctypes.ResultValidators)

									if _, err = n.rpcClient.Call("validators", nil, vals); err != nil {

										return 0, make([]*tmtypes.Validator, 0), err

									}

									return vals.BlockHeight, vals.Validators, nil

								}


								func (n *Node) checkIsValidatorLoop() {

									for {

										select {

										case <-n.quit:

											return

										case <-time.After(n.checkIsValidatorInterval):

											n.checkIsValidator()

										}

									}

								}


								func (n *Node) checkIsValidator() {

									_, validators, err := n.validators()

									if err == nil {

										for _, v := range validators {

											key, err1 := n.getPubKey()

											if err1 == nil && v.PubKey.Equals(key) {

												n.IsValidator = true

											}

										}

									} else {

										n.logger.Info("check is validator failed", "err", err)

									}

								}


								func (n *Node) getPubKey() (crypto.PubKey, error) {

									if n.pubKey != nil {

										return n.pubKey, nil

									}


									status := new(ctypes.ResultStatus)

									_, err := n.rpcClient.Call("status", nil, status)

									if err != nil {

										return nil, err

									}

									n.pubKey = status.ValidatorInfo.PubKey

									return n.pubKey, nil

								}


								type eventMeter interface {

									Start() error

									Stop()

									RegisterLatencyCallback(em.LatencyCallbackFunc)

									RegisterDisconnectCallback(em.DisconnectCallbackFunc)

									Subscribe(string, em.EventCallbackFunc) error

									Unsubscribe(string) error

									SetLogger(l log.Logger)

								}


								// UnmarshalEvent unmarshals a json event

								func UnmarshalEvent(b json.RawMessage) (string, events.EventData, error) {

									event := new(ctypes.ResultEvent)

									if err := cdc.UnmarshalJSON(b, event); err != nil {

										return "", nil, err

									}

									return event.Query, event.Data, nil

								}