// Copyright 2020 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . package ethtest import ( "fmt" "net" "strings" "time" "github.com/davecgh/go-spew/spew" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth/protocols/eth" "github.com/ethereum/go-ethereum/internal/utesting" "github.com/ethereum/go-ethereum/p2p" "github.com/ethereum/go-ethereum/p2p/enode" "github.com/ethereum/go-ethereum/p2p/rlpx" "github.com/stretchr/testify/assert" ) var pretty = spew.ConfigState{ Indent: " ", DisableCapacities: true, DisablePointerAddresses: true, SortKeys: true, } var timeout = 20 * time.Second // Suite represents a structure used to test the eth // protocol of a node(s). type Suite struct { Dest *enode.Node chain *Chain fullChain *Chain } // NewSuite creates and returns a new eth-test suite that can // be used to test the given node against the given blockchain // data. func NewSuite(dest *enode.Node, chainfile string, genesisfile string) (*Suite, error) { chain, err := loadChain(chainfile, genesisfile) if err != nil { return nil, err } return &Suite{ Dest: dest, chain: chain.Shorten(1000), fullChain: chain, }, nil } func (s *Suite) AllEthTests() []utesting.Test { return []utesting.Test{ // status {Name: "TestStatus", Fn: s.TestStatus}, {Name: "TestStatus_66", Fn: s.TestStatus_66}, // get block headers {Name: "TestGetBlockHeaders", Fn: s.TestGetBlockHeaders}, {Name: "TestGetBlockHeaders_66", Fn: s.TestGetBlockHeaders_66}, {Name: "TestSimultaneousRequests_66", Fn: s.TestSimultaneousRequests_66}, {Name: "TestSameRequestID_66", Fn: s.TestSameRequestID_66}, {Name: "TestZeroRequestID_66", Fn: s.TestZeroRequestID_66}, // get block bodies {Name: "TestGetBlockBodies", Fn: s.TestGetBlockBodies}, {Name: "TestGetBlockBodies_66", Fn: s.TestGetBlockBodies_66}, // broadcast {Name: "TestBroadcast", Fn: s.TestBroadcast}, {Name: "TestBroadcast_66", Fn: s.TestBroadcast_66}, {Name: "TestLargeAnnounce", Fn: s.TestLargeAnnounce}, {Name: "TestLargeAnnounce_66", Fn: s.TestLargeAnnounce_66}, {Name: "TestOldAnnounce", Fn: s.TestOldAnnounce}, {Name: "TestOldAnnounce_66", Fn: s.TestOldAnnounce_66}, // malicious handshakes + status {Name: "TestMaliciousHandshake", Fn: s.TestMaliciousHandshake}, {Name: "TestMaliciousStatus", Fn: s.TestMaliciousStatus}, {Name: "TestMaliciousHandshake_66", Fn: s.TestMaliciousHandshake_66}, {Name: "TestMaliciousStatus_66", Fn: s.TestMaliciousStatus_66}, // test transactions {Name: "TestTransaction", Fn: s.TestTransaction}, {Name: "TestTransaction_66", Fn: s.TestTransaction_66}, {Name: "TestMaliciousTx", Fn: s.TestMaliciousTx}, {Name: "TestMaliciousTx_66", Fn: s.TestMaliciousTx_66}, {Name: "TestLargeTxRequest_66", Fn: s.TestLargeTxRequest_66}, {Name: "TestNewPooledTxs_66", Fn: s.TestNewPooledTxs_66}, } } func (s *Suite) EthTests() []utesting.Test { return []utesting.Test{ {Name: "TestStatus", Fn: s.TestStatus}, {Name: "TestGetBlockHeaders", Fn: s.TestGetBlockHeaders}, {Name: "TestGetBlockBodies", Fn: s.TestGetBlockBodies}, {Name: "TestBroadcast", Fn: s.TestBroadcast}, {Name: "TestLargeAnnounce", Fn: s.TestLargeAnnounce}, {Name: "TestMaliciousHandshake", Fn: s.TestMaliciousHandshake}, {Name: "TestMaliciousStatus", Fn: s.TestMaliciousStatus}, {Name: "TestTransaction", Fn: s.TestTransaction}, {Name: "TestMaliciousTx", Fn: s.TestMaliciousTx}, } } func (s *Suite) Eth66Tests() []utesting.Test { return []utesting.Test{ // only proceed with eth66 test suite if node supports eth 66 protocol {Name: "TestStatus_66", Fn: s.TestStatus_66}, {Name: "TestGetBlockHeaders_66", Fn: s.TestGetBlockHeaders_66}, {Name: "TestSimultaneousRequests_66", Fn: s.TestSimultaneousRequests_66}, {Name: "TestSameRequestID_66", Fn: s.TestSameRequestID_66}, {Name: "TestZeroRequestID_66", Fn: s.TestZeroRequestID_66}, {Name: "TestGetBlockBodies_66", Fn: s.TestGetBlockBodies_66}, {Name: "TestBroadcast_66", Fn: s.TestBroadcast_66}, {Name: "TestLargeAnnounce_66", Fn: s.TestLargeAnnounce_66}, {Name: "TestMaliciousHandshake_66", Fn: s.TestMaliciousHandshake_66}, {Name: "TestMaliciousStatus_66", Fn: s.TestMaliciousStatus_66}, {Name: "TestTransaction_66", Fn: s.TestTransaction_66}, {Name: "TestMaliciousTx_66", Fn: s.TestMaliciousTx_66}, {Name: "TestLargeTxRequest_66", Fn: s.TestLargeTxRequest_66}, {Name: "TestNewPooledTxs_66", Fn: s.TestNewPooledTxs_66}, } } // TestStatus attempts to connect to the given node and exchange // a status message with it, and then check to make sure // the chain head is correct. func (s *Suite) TestStatus(t *utesting.T) { conn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } defer conn.Close() // get protoHandshake conn.handshake(t) // get status switch msg := conn.statusExchange(t, s.chain, nil).(type) { case *Status: t.Logf("got status message: %s", pretty.Sdump(msg)) default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } // TestMaliciousStatus sends a status package with a large total difficulty. func (s *Suite) TestMaliciousStatus(t *utesting.T) { conn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } defer conn.Close() // get protoHandshake conn.handshake(t) status := &Status{ ProtocolVersion: uint32(conn.negotiatedProtoVersion), NetworkID: s.chain.chainConfig.ChainID.Uint64(), TD: largeNumber(2), Head: s.chain.blocks[s.chain.Len()-1].Hash(), Genesis: s.chain.blocks[0].Hash(), ForkID: s.chain.ForkID(), } // get status switch msg := conn.statusExchange(t, s.chain, status).(type) { case *Status: t.Logf("%+v\n", msg) default: t.Fatalf("expected status, got: %#v ", msg) } // wait for disconnect switch msg := conn.ReadAndServe(s.chain, timeout).(type) { case *Disconnect: case *Error: return default: t.Fatalf("expected disconnect, got: %s", pretty.Sdump(msg)) } } // TestGetBlockHeaders tests whether the given node can respond to // a `GetBlockHeaders` request and that the response is accurate. func (s *Suite) TestGetBlockHeaders(t *utesting.T) { conn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } defer conn.Close() conn.handshake(t) conn.statusExchange(t, s.chain, nil) // get block headers req := &GetBlockHeaders{ Origin: eth.HashOrNumber{ Hash: s.chain.blocks[1].Hash(), }, Amount: 2, Skip: 1, Reverse: false, } if err := conn.Write(req); err != nil { t.Fatalf("could not write to connection: %v", err) } switch msg := conn.ReadAndServe(s.chain, timeout).(type) { case *BlockHeaders: headers := *msg for _, header := range headers { num := header.Number.Uint64() t.Logf("received header (%d): %s", num, pretty.Sdump(header.Hash())) assert.Equal(t, s.chain.blocks[int(num)].Header(), header) } default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } // TestGetBlockBodies tests whether the given node can respond to // a `GetBlockBodies` request and that the response is accurate. func (s *Suite) TestGetBlockBodies(t *utesting.T) { conn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } defer conn.Close() conn.handshake(t) conn.statusExchange(t, s.chain, nil) // create block bodies request req := &GetBlockBodies{ s.chain.blocks[54].Hash(), s.chain.blocks[75].Hash(), } if err := conn.Write(req); err != nil { t.Fatalf("could not write to connection: %v", err) } switch msg := conn.ReadAndServe(s.chain, timeout).(type) { case *BlockBodies: t.Logf("received %d block bodies", len(*msg)) default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } // TestBroadcast tests whether a block announcement is correctly // propagated to the given node's peer(s). func (s *Suite) TestBroadcast(t *utesting.T) { s.sendNextBlock(t) } func (s *Suite) sendNextBlock(t *utesting.T) { sendConn, receiveConn := s.setupConnection(t), s.setupConnection(t) defer sendConn.Close() defer receiveConn.Close() // create new block announcement nextBlock := len(s.chain.blocks) blockAnnouncement := &NewBlock{ Block: s.fullChain.blocks[nextBlock], TD: s.fullChain.TD(nextBlock + 1), } // send announcement and wait for node to request the header s.testAnnounce(t, sendConn, receiveConn, blockAnnouncement) // wait for client to update its chain if err := receiveConn.waitForBlock(s.fullChain.blocks[nextBlock]); err != nil { t.Fatal(err) } // update test suite chain s.chain.blocks = append(s.chain.blocks, s.fullChain.blocks[nextBlock]) } // TestMaliciousHandshake tries to send malicious data during the handshake. func (s *Suite) TestMaliciousHandshake(t *utesting.T) { conn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } defer conn.Close() // write hello to client pub0 := crypto.FromECDSAPub(&conn.ourKey.PublicKey)[1:] handshakes := []*Hello{ { Version: 5, Caps: []p2p.Cap{ {Name: largeString(2), Version: 64}, }, ID: pub0, }, { Version: 5, Caps: []p2p.Cap{ {Name: "eth", Version: 64}, {Name: "eth", Version: 65}, }, ID: append(pub0, byte(0)), }, { Version: 5, Caps: []p2p.Cap{ {Name: "eth", Version: 64}, {Name: "eth", Version: 65}, }, ID: append(pub0, pub0...), }, { Version: 5, Caps: []p2p.Cap{ {Name: "eth", Version: 64}, {Name: "eth", Version: 65}, }, ID: largeBuffer(2), }, { Version: 5, Caps: []p2p.Cap{ {Name: largeString(2), Version: 64}, }, ID: largeBuffer(2), }, } for i, handshake := range handshakes { t.Logf("Testing malicious handshake %v\n", i) // Init the handshake if err := conn.Write(handshake); err != nil { t.Fatalf("could not write to connection: %v", err) } // check that the peer disconnected timeout := 20 * time.Second // Discard one hello for i := 0; i < 2; i++ { switch msg := conn.ReadAndServe(s.chain, timeout).(type) { case *Disconnect: case *Error: case *Hello: // Hello's are send concurrently, so ignore them continue default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } // Dial for the next round conn, err = s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } } } // TestLargeAnnounce tests the announcement mechanism with a large block. func (s *Suite) TestLargeAnnounce(t *utesting.T) { nextBlock := len(s.chain.blocks) blocks := []*NewBlock{ { Block: largeBlock(), TD: s.fullChain.TD(nextBlock + 1), }, { Block: s.fullChain.blocks[nextBlock], TD: largeNumber(2), }, { Block: largeBlock(), TD: largeNumber(2), }, { Block: s.fullChain.blocks[nextBlock], TD: s.fullChain.TD(nextBlock + 1), }, } for i, blockAnnouncement := range blocks[0:3] { t.Logf("Testing malicious announcement: %v\n", i) sendConn := s.setupConnection(t) if err := sendConn.Write(blockAnnouncement); err != nil { t.Fatalf("could not write to connection: %v", err) } // Invalid announcement, check that peer disconnected switch msg := sendConn.ReadAndServe(s.chain, time.Second*8).(type) { case *Disconnect: case *Error: break default: t.Fatalf("unexpected: %s wanted disconnect", pretty.Sdump(msg)) } sendConn.Close() } // Test the last block as a valid block s.sendNextBlock(t) } func (s *Suite) TestOldAnnounce(t *utesting.T) { sendConn, recvConn := s.setupConnection(t), s.setupConnection(t) defer sendConn.Close() defer recvConn.Close() s.oldAnnounce(t, sendConn, recvConn) } func (s *Suite) oldAnnounce(t *utesting.T, sendConn, receiveConn *Conn) { oldBlockAnnounce := &NewBlock{ Block: s.chain.blocks[len(s.chain.blocks)/2], TD: s.chain.blocks[len(s.chain.blocks)/2].Difficulty(), } if err := sendConn.Write(oldBlockAnnounce); err != nil { t.Fatalf("could not write to connection: %v", err) } switch msg := receiveConn.ReadAndServe(s.chain, time.Second*8).(type) { case *NewBlock: block := *msg if block.Block.Hash() == oldBlockAnnounce.Block.Hash() { t.Fatalf("unexpected: block propagated: %s", pretty.Sdump(msg)) } case *NewBlockHashes: hashes := *msg for _, hash := range hashes { if hash.Hash == oldBlockAnnounce.Block.Hash() { t.Fatalf("unexpected: block announced: %s", pretty.Sdump(msg)) } } case *Error: errMsg := *msg // check to make sure error is timeout (propagation didn't come through == test successful) if !strings.Contains(errMsg.String(), "timeout") { t.Fatalf("unexpected error: %v", pretty.Sdump(msg)) } default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } func (s *Suite) testAnnounce(t *utesting.T, sendConn, receiveConn *Conn, blockAnnouncement *NewBlock) { // Announce the block. if err := sendConn.Write(blockAnnouncement); err != nil { t.Fatalf("could not write to connection: %v", err) } s.waitAnnounce(t, receiveConn, blockAnnouncement) } func (s *Suite) waitAnnounce(t *utesting.T, conn *Conn, blockAnnouncement *NewBlock) { switch msg := conn.ReadAndServe(s.chain, timeout).(type) { case *NewBlock: t.Logf("received NewBlock message: %s", pretty.Sdump(msg.Block)) assert.Equal(t, blockAnnouncement.Block.Header(), msg.Block.Header(), "wrong block header in announcement", ) assert.Equal(t, blockAnnouncement.TD, msg.TD, "wrong TD in announcement", ) case *NewBlockHashes: message := *msg t.Logf("received NewBlockHashes message: %s", pretty.Sdump(message)) assert.Equal(t, blockAnnouncement.Block.Hash(), message[0].Hash, "wrong block hash in announcement", ) default: t.Fatalf("unexpected: %s", pretty.Sdump(msg)) } } func (s *Suite) setupConnection(t *utesting.T) *Conn { // create conn sendConn, err := s.dial() if err != nil { t.Fatalf("could not dial: %v", err) } sendConn.handshake(t) sendConn.statusExchange(t, s.chain, nil) return sendConn } // dial attempts to dial the given node and perform a handshake, // returning the created Conn if successful. func (s *Suite) dial() (*Conn, error) { var conn Conn // dial fd, err := net.Dial("tcp", fmt.Sprintf("%v:%d", s.Dest.IP(), s.Dest.TCP())) if err != nil { return nil, err } conn.Conn = rlpx.NewConn(fd, s.Dest.Pubkey()) // do encHandshake conn.ourKey, _ = crypto.GenerateKey() _, err = conn.Handshake(conn.ourKey) if err != nil { return nil, err } // set default p2p capabilities conn.caps = []p2p.Cap{ {Name: "eth", Version: 64}, {Name: "eth", Version: 65}, } conn.ourHighestProtoVersion = 65 return &conn, nil } func (s *Suite) TestTransaction(t *utesting.T) { tests := []*types.Transaction{ getNextTxFromChain(t, s), unknownTx(t, s), } for i, tx := range tests { t.Logf("Testing tx propagation: %v\n", i) sendSuccessfulTx(t, s, tx) } } func (s *Suite) TestMaliciousTx(t *utesting.T) { badTxs := []*types.Transaction{ getOldTxFromChain(t, s), invalidNonceTx(t, s), hugeAmount(t, s), hugeGasPrice(t, s), hugeData(t, s), } sendConn := s.setupConnection(t) defer sendConn.Close() // set up receiving connection before sending txs to make sure // no announcements are missed recvConn := s.setupConnection(t) defer recvConn.Close() for i, tx := range badTxs { t.Logf("Testing malicious tx propagation: %v\n", i) if err := sendConn.Write(&Transactions{tx}); err != nil { t.Fatalf("could not write to connection: %v", err) } } // check to make sure bad txs aren't propagated waitForTxPropagation(t, s, badTxs, recvConn) }