arnaucube
/
go-dvote
mirror of https://github.com/arnaucube/go-dvote.git


								package swarm


								import (

									"context"

									"crypto/ecdsa"

									"fmt"

									"os"

									"os/user"

									"strings"

									"time"


									"github.com/ethereum/go-ethereum/common/hexutil"

									"github.com/ethereum/go-ethereum/node"


									"github.com/ethereum/go-ethereum/crypto"

									"github.com/ethereum/go-ethereum/p2p"


									"github.com/ethereum/go-ethereum/log"

									"github.com/ethereum/go-ethereum/p2p/enode"

									"github.com/ethereum/go-ethereum/swarm"


									swarmapi "github.com/ethereum/go-ethereum/swarm/api"

									"github.com/ethereum/go-ethereum/swarm/network"

									"github.com/ethereum/go-ethereum/swarm/pss"

								)


								const (

									// MaxPeers is the maximum number of p2p peer connections

									MaxPeers = 10

								)


								// SwarmBootnodes list of bootnodes for the SWARM network

								var SwarmBootnodes = []string{

									// EF Swarm Bootnode - AWS - eu-central-1

									"enode://4c113504601930bf2000c29bcd98d1716b6167749f58bad703bae338332fe93cc9d9204f08afb44100dc7bea479205f5d162df579f9a8f76f8b402d339709023@3.122.203.99:30301",

									// EF Swarm Bootnode - AWS - us-west-2

									"enode://89f2ede3371bff1ad9f2088f2012984e280287a4e2b68007c2a6ad994909c51886b4a8e9e2ecc97f9910aca538398e0a5804b0ee80a187fde1ba4f32626322ba@52.35.212.179:30301",

								}


								func newNode(key *ecdsa.PrivateKey, port int, httpport int, wsport int,

									datadir string, modules ...string) (*node.Node, *node.Config, error) {

									if port == 0 {

										port = 30100

									}

									cfg := &node.DefaultConfig

									if key != nil {

										cfg.P2P.PrivateKey = key

									}

									cfg.P2P.MaxPeers = MaxPeers

									cfg.P2P.ListenAddr = fmt.Sprintf("0.0.0.0:%d", port)

									cfg.P2P.EnableMsgEvents = true

									cfg.P2P.NoDiscovery = false

									cfg.P2P.DiscoveryV5 = true

									cfg.IPCPath = datadir + "/node.ipc"

									cfg.DataDir = datadir

									if httpport > 0 {

										cfg.HTTPHost = node.DefaultHTTPHost

										cfg.HTTPPort = httpport

										cfg.HTTPCors = []string{"*"}

									}

									if wsport > 0 {

										cfg.WSHost = node.DefaultWSHost

										cfg.WSPort = wsport

										cfg.WSOrigins = []string{"*"}

										for i := 0; i < len(modules); i++ {

											cfg.WSModules = append(cfg.WSModules, modules[i])

										}

									}

									stack, err := node.New(cfg)

									if err != nil {

										return nil, nil, fmt.Errorf("ServiceNode create fail: %v", err)

									}

									return stack, cfg, nil

								}


								func newSwarm(privkey *ecdsa.PrivateKey, datadir string, port int) (*swarm.Swarm, *swarmapi.Config, node.ServiceConstructor) {

									// create swarm service

									swarmCfg := swarmapi.NewConfig()

									swarmCfg.SyncEnabled = true

									swarmCfg.Port = fmt.Sprintf("%d", port)

									swarmCfg.Path = datadir

									swarmCfg.HiveParams.Discovery = true

									swarmCfg.Discovery = true

									swarmCfg.Pss.MsgTTL = time.Second * 10

									swarmCfg.Pss.CacheTTL = time.Second * 30

									swarmCfg.Pss.AllowRaw = true

									swarmCfg.Init(privkey)

									swarmNode, err := swarm.NewSwarm(swarmCfg, nil)

									if err != nil {

										log.Crit("cannot crate swarm node")

									}

									// register swarm service to the node

									var swarmService node.ServiceConstructor = func(ctx *node.ServiceContext) (node.Service, error) {

										return swarmNode, nil

									}

									return swarmNode, swarmCfg, swarmService

								}


								type swarmPorts struct {

									WebSockets int

									HTTPRPC    int

									Bzz        int

									P2P        int

								}


								func NewSwarmPorts() *swarmPorts {

									sp := new(swarmPorts)

									sp.WebSockets = 8544

									sp.HTTPRPC = 8543

									sp.Bzz = 8542

									sp.P2P = 31000

									return sp

								}


								type pssMsg struct {

									Msg   []byte

									Peer  *p2p.Peer

									Asym  bool

									Keyid string

								}


								type pssSub struct {

									Unregister func()

									Delivery   (chan pssMsg)

									Address    string

								}


								type SimplePss struct {

									Node       *node.Node

									NodeConfig *node.Config

									EnodeID    string

									Datadir    string

									Key        *ecdsa.PrivateKey

									Pss        *pss.API

									PssPubKey  string

									PssAddr    pss.PssAddress

									PssTopics  map[string]*pssSub

									Hive       *network.Hive

									Ports      *swarmPorts

									LogLevel   string

								}


								func (sn *SimplePss) SetLog(level string) error {

									// ensure good log formats for terminal

									// handle verbosity flag

									loglevel, err := log.LvlFromString(level)

									if err != nil {

										return err

									}

									hs := log.StreamHandler(os.Stderr, log.TerminalFormat(true))

									hf := log.LvlFilterHandler(loglevel, hs)

									h := log.CallerFileHandler(hf)

									log.Root().SetHandler(h)

									return nil

								}


								func (sn *SimplePss) PrintStats() {

									// statistics thread

									go func() {

										for {

											if sn.Node.Server() != nil && sn.Hive != nil {

												addr := fmt.Sprintf("%x", sn.PssAddr)

												var addrs [][]byte

												addrs = append(addrs, []byte(addr))

												peerCount := sn.Node.Server().PeerCount()

												log.Info(fmt.Sprintf("PeerCount:%d NeighDepth:%d", peerCount, sn.Hive.NeighbourhoodDepth()))

											}

											time.Sleep(time.Second * 5)

										}

									}()

								}


								func (sn *SimplePss) SetDatadir(datadir string) {

									sn.Datadir = datadir

								}


								func (sn *SimplePss) SetKey(key *ecdsa.PrivateKey) {

									sn.Key = key

								}


								func (sn *SimplePss) Init() error {

									var err error

									if len(sn.Datadir) < 1 {

										usr, err := user.Current()

										if err != nil {

											return err

										}

										sn.Datadir = usr.HomeDir + "/.dvote/swarm"

										os.MkdirAll(sn.Datadir, 0755)

									}


									sn.SetLog(sn.LogLevel)


									// if sn.Ports are not defined, set the default config

									if (sn.Ports.WebSockets == 0) && (sn.Ports.HTTPRPC == 0) && (sn.Ports.Bzz == 0) && (sn.Ports.P2P == 0) {

										sn.Ports = NewSwarmPorts()

									}


									// create node

									sn.Node, sn.NodeConfig, err = newNode(sn.Key, sn.Ports.P2P,

										sn.Ports.HTTPRPC, sn.Ports.WebSockets, sn.Datadir, "pss")

									if err != nil {

										return err

									}

									// set node key, if not set use the storage one or generate it

									if sn.Key == nil {

										sn.Key = sn.NodeConfig.NodeKey()

									}


									// create and register Swarm service

									swarmNode, _, swarmHandler := newSwarm(sn.Key, sn.Datadir, sn.Ports.Bzz)

									err = sn.Node.Register(swarmHandler)

									if err != nil {

										return fmt.Errorf("swarm register fail %v", err)

									}


									// start the node

									err = sn.Node.Start()

									if err != nil {

										return err

									}

									for _, url := range SwarmBootnodes {

										log.Info("Add bootnode " + url)

										node, err := enode.ParseV4(url)

										if err != nil {

											return err

										}

										sn.Node.Server().AddPeer(node)

									}


									// wait to connect to the p2p network

									_, cancel := context.WithTimeout(context.Background(), time.Second)

									defer cancel()

									time.Sleep(time.Second * 5)


									// Get the services API

									for _, a := range swarmNode.APIs() {

										switch a.Service.(type) {

										case *network.Hive:

											sn.Hive = a.Service.(*network.Hive)

										case *pss.API:

											sn.Pss = a.Service.(*pss.API)

										}

									}


									// Create topics map

									sn.PssTopics = make(map[string]*pssSub)


									// Set some extra data

									sn.EnodeID = sn.Node.Server().NodeInfo().Enode

									sn.PssPubKey = hexutil.Encode(crypto.FromECDSAPub(sn.Pss.PublicKey()))

									sn.PssAddr, err = sn.Pss.BaseAddr()

									if err != nil {

										return fmt.Errorf("pss API fail %v", err)

									}


									// Print some information

									log.Info(fmt.Sprintf("My PSS pubkey is %s", sn.PssPubKey))

									log.Info(fmt.Sprintf("My PSS address is %x", sn.PssAddr))


									// Run statistics goroutine

									sn.PrintStats()


									return nil

								}


								func strTopic(topic string) pss.Topic {

									return pss.BytesToTopic([]byte(topic))

								}


								func strSymKey(key string) []byte {

									symKey := make([]byte, 32)

									copy(symKey, []byte(key))

									return symKey

								}


								func strAddress(addr string) pss.PssAddress {

									var pssAddress pss.PssAddress

									pssAddress = []byte(addr)

									return pssAddress

								}


								func (sn *SimplePss) PssSub(subType, key, topic, address string) error {

									pssTopic := strTopic(topic)

									pssAddress := strAddress(address)

									if subType == "sym" {

										_, err := sn.Pss.SetSymmetricKey(strSymKey(key), pssTopic, pssAddress, true)

										if err != nil {

											return err

										}

									}


									sn.PssTopics[topic] = new(pssSub)

									sn.PssTopics[topic].Address = address

									sn.PssTopics[topic].Delivery = make(chan pssMsg)


									var pssHandler pss.HandlerFunc = func(msg []byte, peer *p2p.Peer, asym bool, keyid string) error {

										log.Debug("pss received", "msg", fmt.Sprintf("%s", msg), "keyid", fmt.Sprintf("%s", keyid))


										sn.PssTopics[topic].Delivery <- pssMsg{Msg: msg, Peer: peer, Asym: asym, Keyid: keyid}

										return nil

									}

									topicHandler := pss.NewHandler(pssHandler)

									if subType == "raw" {

										topicHandler = topicHandler.WithProxBin().WithRaw()

									}

									sn.PssTopics[topic].Unregister = sn.Pss.Register(&pssTopic, topicHandler)


									log.Info(fmt.Sprintf("Subscribed to [%s] topic %s", subType, pssTopic.String()))

									return nil

								}


								func (sn *SimplePss) PssPub(subType, key, topic, msg, address string) error {

									var err error

									dstAddr := strAddress(address)

									dstTopic := strTopic(topic)

									if subType == "sym" {

										symKeyId, err := sn.Pss.SetSymmetricKey(strSymKey(key), dstTopic, dstAddr, false)

										if err != nil {

											return err

										}

										// send symetric message

										err = sn.Pss.SendSym(symKeyId, strTopic(topic), hexutil.Bytes(msg))

									}

									if subType == "raw" {

										// sed raw message

										err = sn.Pss.SendRaw(hexutil.Bytes(address), dstTopic, hexutil.Bytes(msg))

									}

									if subType == "asym" {

										// add 0x prefix if not present

										if hasHexPrefix := strings.HasPrefix(key, "0x"); !hasHexPrefix {

											key = "0x" + key

										}


										// check if topic+address is already set for a pubKey

										_, err := sn.Pss.GetPeerAddress(key, dstTopic)

										if err != nil {

											pubKeyBytes, err := hexutil.Decode(key)

											if err != nil {

												return err

											}

											err = sn.Pss.SetPeerPublicKey(pubKeyBytes, dstTopic, dstAddr)

											if err != nil {

												return err

											}

										}


										// send asymetric message

										err = sn.Pss.SendAsym(key, dstTopic, hexutil.Bytes(msg))

									}

									return err

								}