zolfa
/
tendermint


								package types


								import (

									"encoding/json"

									"fmt"

									"sync"


									"github.com/tendermint/go-crypto"

									"github.com/tendermint/go-event-meter"

									"github.com/tendermint/go-events"

									client "github.com/tendermint/go-rpc/client"

									"github.com/tendermint/go-wire"

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

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

								)


								//------------------------------------------------

								// validator types

								//------------------------------------------------


								//------------------------------------------------

								// simple validator set and validator (just crypto, no network)


								// validator set (independent of chains)

								type ValidatorSet struct {

									ID         string       `json:"id"`

									Validators []*Validator `json:"validators"`

								}


								func (vs *ValidatorSet) Validator(valID string) (*Validator, error) {

									for _, v := range vs.Validators {

										if v.ID == valID {

											return v, nil

										}

									}

									return nil, fmt.Errorf("Unknwon validator %s", valID)

								}


								// validator (independent of chain)

								type Validator struct {

									ID     string        `json:"id"`

									PubKey crypto.PubKey `json:"pub_key"`

									Chains []string      `json:"chains,omitempty"` // TODO: put this elsewhere (?)

								}


								//------------------------------------------------

								// Live validator on a chain


								// Validator on a chain

								// Returned over RPC but also used to manage state

								// Responsible for communication with the validator

								type ValidatorState struct {

									Config *ValidatorConfig `json:"config"`

									Status *ValidatorStatus `json:"status"`


									// Currently we get IPs and dial,

									// but should reverse so the nodes dial the netmon,

									// both for node privacy and easier reconfig (validators changing ip/port)

									em     *eventmeter.EventMeter // holds a ws connection to the val

									client *client.ClientURI      // rpc client

								}


								// Start a new event meter, including the websocket connection

								// Also create the http rpc client for convenienve

								func (vs *ValidatorState) Start() error {

									// we need the lock because RPCAddr can be updated concurrently

									vs.Config.mtx.Lock()

									rpcAddr := vs.Config.RPCAddr

									vs.Config.mtx.Unlock()


									em := eventmeter.NewEventMeter(rpcAddr, UnmarshalEvent)

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

										return err

									}

									vs.em = em

									vs.client = client.NewClientURI(fmt.Sprintf("http://%s", rpcAddr))

									return nil

								}


								func (vs *ValidatorState) Stop() {

									vs.em.Stop()

								}


								func (vs *ValidatorState) EventMeter() *eventmeter.EventMeter {

									return vs.em

								}


								func (vs *ValidatorState) NewBlock(block *tmtypes.Header) {

									vs.Status.mtx.Lock()

									defer vs.Status.mtx.Unlock()

									vs.Status.BlockHeight = block.Height

								}


								func (vs *ValidatorState) UpdateLatency(latency float64) float64 {

									vs.Status.mtx.Lock()

									defer vs.Status.mtx.Unlock()

									old := vs.Status.Latency

									vs.Status.Latency = latency

									return old

								}


								func (vs *ValidatorState) SetOnline(isOnline bool) {

									vs.Status.mtx.Lock()

									defer vs.Status.mtx.Unlock()

									vs.Status.Online = isOnline

								}


								// Return the validators pubkey. If it's not yet set, get it from the node

								// TODO: proof that it's the node's key

								// XXX: Is this necessary? Why would it not be set

								func (vs *ValidatorState) PubKey() crypto.PubKey {

									if vs.Config.Validator.PubKey != nil {

										return vs.Config.Validator.PubKey

									}


									var result ctypes.TMResult

									_, err := vs.client.Call("status", nil, &result)

									if err != nil {

										log.Error("Error getting validator pubkey", "addr", vs.Config.RPCAddr, "val", vs.Config.Validator.ID, "error", err)

										return nil

									}

									status := result.(*ctypes.ResultStatus)

									vs.Config.Validator.PubKey = status.PubKey

									return vs.Config.Validator.PubKey

								}


								type ValidatorConfig struct {

									mtx       sync.Mutex

									Validator *Validator `json:"validator"`

									P2PAddr   string     `json:"p2p_addr"`

									RPCAddr   string     `json:"rpc_addr"`

									Index     int        `json:"index,omitempty"`

								}


								// TODO: update p2p address


								func (vc *ValidatorConfig) UpdateRPCAddress(rpcAddr string) {

									vc.mtx.Lock()

									defer vc.mtx.Unlock()

									vc.RPCAddr = rpcAddr

								}


								type ValidatorStatus struct {

									mtx         sync.Mutex

									Online      bool    `json:"online"`

									Latency     float64 `json:"latency" wire:"unsafe"`

									BlockHeight int     `json:"block_height"`

								}


								//------------------------------------------------------------

								// utility


								// Unmarshal a json event

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

									var err error

									result := new(ctypes.TMResult)

									wire.ReadJSONPtr(result, b, &err)

									if err != nil {

										return "", nil, err

									}

									event, ok := (*result).(*ctypes.ResultEvent)

									if !ok {

										return "", nil, nil // TODO: handle non-event messages (ie. return from subscribe/unsubscribe)

										// fmt.Errorf("Result is not type *ctypes.ResultEvent. Got %v", reflect.TypeOf(*result))

									}

									return event.Name, event.Data, nil

								}