zolfa
/
tendermint


								package p2p


								import (

									"context"

									"fmt"

									mrand "math/rand"

									"net"


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

									tmnet "github.com/tendermint/tendermint/libs/net"

									tmrand "github.com/tendermint/tendermint/libs/rand"

									"github.com/tendermint/tendermint/types"


									"github.com/tendermint/tendermint/config"

									"github.com/tendermint/tendermint/internal/p2p/conn"

								)


								const testCh = 0x01


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


								func AddPeerToSwitchPeerSet(sw *Switch, peer Peer) {

									sw.peers.Add(peer) //nolint:errcheck // ignore error

								}


								func CreateRandomPeer(outbound bool) Peer {

									addr, netAddr := CreateRoutableAddr()

									p := &peer{

										peerConn: peerConn{outbound: outbound},

										nodeInfo: NodeInfo{

											NodeID:     netAddr.ID,

											ListenAddr: netAddr.DialString(),

										},

										metrics: NopMetrics(),

									}

									p.SetLogger(log.TestingLogger().With("peer", addr))

									return p

								}


								// nolint:gosec // G404: Use of weak random number generator

								func CreateRoutableAddr() (addr string, netAddr *NetAddress) {

									for {

										var err error

										addr = fmt.Sprintf("%X@%v.%v.%v.%v:26656",

											tmrand.Bytes(20),

											mrand.Int()%256,

											mrand.Int()%256,

											mrand.Int()%256,

											mrand.Int()%256)

										netAddr, err = types.NewNetAddressString(addr)

										if err != nil {

											panic(err)

										}

										if netAddr.Routable() {

											break

										}

									}

									return

								}


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

								// Connects switches via arbitrary net.Conn. Used for testing.


								const TestHost = "localhost"


								// MakeConnectedSwitches returns n switches, connected according to the connect func.

								// If connect==Connect2Switches, the switches will be fully connected.

								// initSwitch defines how the i'th switch should be initialized (ie. with what reactors).

								// NOTE: panics if any switch fails to start.

								func MakeConnectedSwitches(cfg *config.P2PConfig,

									n int,

									initSwitch func(int, *Switch) *Switch,

									connect func([]*Switch, int, int),

								) []*Switch {

									switches := make([]*Switch, n)

									for i := 0; i < n; i++ {

										switches[i] = MakeSwitch(cfg, i, TestHost, "123.123.123", initSwitch, log.TestingLogger())

									}


									if err := StartSwitches(switches); err != nil {

										panic(err)

									}


									for i := 0; i < n; i++ {

										for j := i + 1; j < n; j++ {

											connect(switches, i, j)

										}

									}


									return switches

								}


								// Connect2Switches will connect switches i and j via net.Pipe().

								// Blocks until a connection is established.

								// NOTE: caller ensures i and j are within bounds.

								func Connect2Switches(switches []*Switch, i, j int) {

									switchI := switches[i]

									switchJ := switches[j]


									c1, c2 := conn.NetPipe()


									doneCh := make(chan struct{})

									go func() {

										err := switchI.addPeerWithConnection(c1)

										if err != nil {

											panic(err)

										}

										doneCh <- struct{}{}

									}()

									go func() {

										err := switchJ.addPeerWithConnection(c2)

										if err != nil {

											panic(err)

										}

										doneCh <- struct{}{}

									}()

									<-doneCh

									<-doneCh

								}


								func (sw *Switch) addPeerWithConnection(conn net.Conn) error {

									pc, err := testInboundPeerConn(sw.transport.(*MConnTransport), conn)

									if err != nil {

										if err := conn.Close(); err != nil {

											sw.Logger.Error("Error closing connection", "err", err)

										}

										return err

									}

									peerNodeInfo, _, err := pc.conn.Handshake(context.Background(), sw.nodeInfo, sw.nodeKey.PrivKey)

									if err != nil {

										if err := conn.Close(); err != nil {

											sw.Logger.Error("Error closing connection", "err", err)

										}

										return err

									}


									p := newPeer(

										peerNodeInfo,

										pc,

										sw.reactorsByCh,

										sw.StopPeerForError,

									)


									if err = sw.addPeer(p); err != nil {

										pc.CloseConn()

										return err

									}


									return nil

								}


								// StartSwitches calls sw.Start() for each given switch.

								// It returns the first encountered error.

								func StartSwitches(switches []*Switch) error {

									for _, s := range switches {

										err := s.Start() // start switch and reactors

										if err != nil {

											return err

										}

									}

									return nil

								}


								func MakeSwitch(

									cfg *config.P2PConfig,

									i int,

									network, version string,

									initSwitch func(int, *Switch) *Switch,

									logger log.Logger,

									opts ...SwitchOption,

								) *Switch {


									nodeKey := GenNodeKey()

									nodeInfo := testNodeInfo(nodeKey.ID, fmt.Sprintf("node%d", i))

									addr, err := types.NewNetAddressString(

										nodeKey.ID.AddressString(nodeInfo.ListenAddr),

									)

									if err != nil {

										panic(err)

									}


									swLogger := logger.With("switch", i)

									t := NewMConnTransport(swLogger, MConnConfig(cfg),

										[]*ChannelDescriptor{}, MConnTransportOptions{})


									// TODO: let the config be passed in?

									sw := initSwitch(i, NewSwitch(cfg, t, opts...))

									sw.SetLogger(swLogger)

									sw.SetNodeKey(nodeKey)


									if err := t.Listen(NewEndpoint(addr)); err != nil {

										panic(err)

									}


									ni := nodeInfo

									ni.Channels = []byte{}

									for ch := range sw.reactorsByCh {

										ni.Channels = append(ni.Channels, ch)

									}

									nodeInfo = ni


									// TODO: We need to setup reactors ahead of time so the NodeInfo is properly

									// populated and we don't have to do those awkward overrides and setters.

									sw.SetNodeInfo(nodeInfo)


									return sw

								}


								func testInboundPeerConn(

									transport *MConnTransport,

									conn net.Conn,

								) (peerConn, error) {

									return testPeerConn(transport, conn, false, false)

								}


								func testPeerConn(

									transport *MConnTransport,

									rawConn net.Conn,

									outbound, persistent bool,

								) (pc peerConn, err error) {


									conn := newMConnConnection(transport.logger, rawConn, transport.mConnConfig, transport.channelDescs)


									return newPeerConn(outbound, persistent, conn), nil

								}


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

								// rand node info


								func testNodeInfo(id types.NodeID, name string) NodeInfo {

									return testNodeInfoWithNetwork(id, name, "testing")

								}


								func testNodeInfoWithNetwork(id types.NodeID, name, network string) NodeInfo {

									return NodeInfo{

										ProtocolVersion: defaultProtocolVersion,

										NodeID:          id,

										ListenAddr:      fmt.Sprintf("127.0.0.1:%d", getFreePort()),

										Network:         network,

										Version:         "1.2.3-rc0-deadbeef",

										Channels:        []byte{testCh},

										Moniker:         name,

										Other: NodeInfoOther{

											TxIndex:    "on",

											RPCAddress: fmt.Sprintf("127.0.0.1:%d", getFreePort()),

										},

									}

								}


								func getFreePort() int {

									port, err := tmnet.GetFreePort()

									if err != nil {

										panic(err)

									}

									return port

								}


								type AddrBookMock struct {

									Addrs        map[string]struct{}

									OurAddrs     map[string]struct{}

									PrivateAddrs map[string]struct{}

								}


								var _ AddrBook = (*AddrBookMock)(nil)


								func (book *AddrBookMock) AddAddress(addr *NetAddress, src *NetAddress) error {

									book.Addrs[addr.String()] = struct{}{}

									return nil

								}

								func (book *AddrBookMock) AddOurAddress(addr *NetAddress) { book.OurAddrs[addr.String()] = struct{}{} }

								func (book *AddrBookMock) OurAddress(addr *NetAddress) bool {

									_, ok := book.OurAddrs[addr.String()]

									return ok

								}

								func (book *AddrBookMock) MarkGood(types.NodeID) {}

								func (book *AddrBookMock) HasAddress(addr *NetAddress) bool {

									_, ok := book.Addrs[addr.String()]

									return ok

								}

								func (book *AddrBookMock) RemoveAddress(addr *NetAddress) {

									delete(book.Addrs, addr.String())

								}

								func (book *AddrBookMock) Save() {}

								func (book *AddrBookMock) AddPrivateIDs(addrs []string) {

									for _, addr := range addrs {

										book.PrivateAddrs[addr] = struct{}{}

									}

								}