github.com/cryptogateway/go-paymex@v0.0.0-20210204174735-96277fb1e602/les/fetcher_test.go (about) 1 // Copyright 2020 The go-ethereum Authors 2 // This file is part of the go-ethereum library. 3 // 4 // The go-ethereum library is free software: you can redistribute it and/or modify 5 // it under the terms of the GNU Lesser General Public License as published by 6 // the Free Software Foundation, either version 3 of the License, or 7 // (at your option) any later version. 8 // 9 // The go-ethereum library is distributed in the hope that it will be useful, 10 // but WITHOUT ANY WARRANTY; without even the implied warranty of 11 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 12 // GNU Lesser General Public License for more details. 13 // 14 // You should have received a copy of the GNU Lesser General Public License 15 // along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>. 16 17 package les 18 19 import ( 20 "math/big" 21 "testing" 22 "time" 23 24 "github.com/cryptogateway/go-paymex/consensus/ethash" 25 "github.com/cryptogateway/go-paymex/core" 26 "github.com/cryptogateway/go-paymex/core/rawdb" 27 "github.com/cryptogateway/go-paymex/core/types" 28 "github.com/cryptogateway/go-paymex/p2p/enode" 29 ) 30 31 // verifyImportEvent verifies that one single event arrive on an import channel. 32 func verifyImportEvent(t *testing.T, imported chan interface{}, arrive bool) { 33 if arrive { 34 select { 35 case <-imported: 36 case <-time.After(time.Second): 37 t.Fatalf("import timeout") 38 } 39 } else { 40 select { 41 case <-imported: 42 t.Fatalf("import invoked") 43 case <-time.After(20 * time.Millisecond): 44 } 45 } 46 } 47 48 // verifyImportDone verifies that no more events are arriving on an import channel. 49 func verifyImportDone(t *testing.T, imported chan interface{}) { 50 select { 51 case <-imported: 52 t.Fatalf("extra block imported") 53 case <-time.After(50 * time.Millisecond): 54 } 55 } 56 57 // verifyChainHeight verifies the chain height is as expected. 58 func verifyChainHeight(t *testing.T, fetcher *lightFetcher, height uint64) { 59 local := fetcher.chain.CurrentHeader().Number.Uint64() 60 if local != height { 61 t.Fatalf("chain height mismatch, got %d, want %d", local, height) 62 } 63 } 64 65 func TestSequentialAnnouncementsLes2(t *testing.T) { testSequentialAnnouncements(t, 2) } 66 func TestSequentialAnnouncementsLes3(t *testing.T) { testSequentialAnnouncements(t, 3) } 67 68 func testSequentialAnnouncements(t *testing.T, protocol int) { 69 s, c, teardown := newClientServerEnv(t, 4, protocol, nil, nil, 0, false, false, true) 70 defer teardown() 71 72 // Create connected peer pair. 73 c.handler.fetcher.noAnnounce = true // Ignore the first announce from peer which can trigger a resync. 74 p1, _, err := newTestPeerPair("peer", protocol, s.handler, c.handler) 75 if err != nil { 76 t.Fatalf("Failed to create peer pair %v", err) 77 } 78 c.handler.fetcher.noAnnounce = false 79 80 importCh := make(chan interface{}) 81 c.handler.fetcher.newHeadHook = func(header *types.Header) { 82 importCh <- header 83 } 84 for i := uint64(1); i <= s.backend.Blockchain().CurrentHeader().Number.Uint64(); i++ { 85 header := s.backend.Blockchain().GetHeaderByNumber(i) 86 hash, number := header.Hash(), header.Number.Uint64() 87 td := rawdb.ReadTd(s.db, hash, number) 88 89 announce := announceData{hash, number, td, 0, nil} 90 if p1.cpeer.announceType == announceTypeSigned { 91 announce.sign(s.handler.server.privateKey) 92 } 93 p1.cpeer.sendAnnounce(announce) 94 verifyImportEvent(t, importCh, true) 95 } 96 verifyImportDone(t, importCh) 97 verifyChainHeight(t, c.handler.fetcher, 4) 98 } 99 100 func TestGappedAnnouncementsLes2(t *testing.T) { testGappedAnnouncements(t, 2) } 101 func TestGappedAnnouncementsLes3(t *testing.T) { testGappedAnnouncements(t, 3) } 102 103 func testGappedAnnouncements(t *testing.T, protocol int) { 104 s, c, teardown := newClientServerEnv(t, 4, protocol, nil, nil, 0, false, false, true) 105 defer teardown() 106 107 // Create connected peer pair. 108 c.handler.fetcher.noAnnounce = true // Ignore the first announce from peer which can trigger a resync. 109 peer, _, err := newTestPeerPair("peer", protocol, s.handler, c.handler) 110 if err != nil { 111 t.Fatalf("Failed to create peer pair %v", err) 112 } 113 c.handler.fetcher.noAnnounce = false 114 115 done := make(chan *types.Header, 1) 116 c.handler.fetcher.newHeadHook = func(header *types.Header) { done <- header } 117 118 // Prepare announcement by latest header. 119 latest := s.backend.Blockchain().CurrentHeader() 120 hash, number := latest.Hash(), latest.Number.Uint64() 121 td := rawdb.ReadTd(s.db, hash, number) 122 123 // Sign the announcement if necessary. 124 announce := announceData{hash, number, td, 0, nil} 125 if peer.cpeer.announceType == announceTypeSigned { 126 announce.sign(s.handler.server.privateKey) 127 } 128 peer.cpeer.sendAnnounce(announce) 129 130 <-done // Wait syncing 131 verifyChainHeight(t, c.handler.fetcher, 4) 132 133 // Send a reorged announcement 134 var newAnno = make(chan struct{}, 1) 135 c.handler.fetcher.noAnnounce = true 136 c.handler.fetcher.newAnnounce = func(*serverPeer, *announceData) { 137 newAnno <- struct{}{} 138 } 139 blocks, _ := core.GenerateChain(rawdb.ReadChainConfig(s.db, s.backend.Blockchain().Genesis().Hash()), s.backend.Blockchain().GetBlockByNumber(3), 140 ethash.NewFaker(), s.db, 2, func(i int, gen *core.BlockGen) { 141 gen.OffsetTime(-9) // higher block difficulty 142 }) 143 s.backend.Blockchain().InsertChain(blocks) 144 <-newAnno 145 c.handler.fetcher.noAnnounce = false 146 c.handler.fetcher.newAnnounce = nil 147 148 latest = blocks[len(blocks)-1].Header() 149 hash, number = latest.Hash(), latest.Number.Uint64() 150 td = rawdb.ReadTd(s.db, hash, number) 151 152 announce = announceData{hash, number, td, 1, nil} 153 if peer.cpeer.announceType == announceTypeSigned { 154 announce.sign(s.handler.server.privateKey) 155 } 156 peer.cpeer.sendAnnounce(announce) 157 158 <-done // Wait syncing 159 verifyChainHeight(t, c.handler.fetcher, 5) 160 } 161 162 func TestTrustedAnnouncementsLes2(t *testing.T) { testTrustedAnnouncement(t, 2) } 163 func TestTrustedAnnouncementsLes3(t *testing.T) { testTrustedAnnouncement(t, 3) } 164 165 func testTrustedAnnouncement(t *testing.T, protocol int) { 166 var ( 167 servers []*testServer 168 teardowns []func() 169 nodes []*enode.Node 170 ids []string 171 cpeers []*clientPeer 172 speers []*serverPeer 173 ) 174 for i := 0; i < 10; i++ { 175 s, n, teardown := newTestServerPeer(t, 10, protocol) 176 177 servers = append(servers, s) 178 nodes = append(nodes, n) 179 teardowns = append(teardowns, teardown) 180 181 // A half of them are trusted servers. 182 if i < 5 { 183 ids = append(ids, n.String()) 184 } 185 } 186 _, c, teardown := newClientServerEnv(t, 0, protocol, nil, ids, 60, false, false, true) 187 defer teardown() 188 defer func() { 189 for i := 0; i < len(teardowns); i++ { 190 teardowns[i]() 191 } 192 }() 193 194 c.handler.fetcher.noAnnounce = true // Ignore the first announce from peer which can trigger a resync. 195 196 // Connect all server instances. 197 for i := 0; i < len(servers); i++ { 198 sp, cp, err := connect(servers[i].handler, nodes[i].ID(), c.handler, protocol) 199 if err != nil { 200 t.Fatalf("connect server and client failed, err %s", err) 201 } 202 cpeers = append(cpeers, cp) 203 speers = append(speers, sp) 204 } 205 c.handler.fetcher.noAnnounce = false 206 207 newHead := make(chan *types.Header, 1) 208 c.handler.fetcher.newHeadHook = func(header *types.Header) { newHead <- header } 209 210 check := func(height []uint64, expected uint64, callback func()) { 211 for i := 0; i < len(height); i++ { 212 for j := 0; j < len(servers); j++ { 213 h := servers[j].backend.Blockchain().GetHeaderByNumber(height[i]) 214 hash, number := h.Hash(), h.Number.Uint64() 215 td := rawdb.ReadTd(servers[j].db, hash, number) 216 217 // Sign the announcement if necessary. 218 announce := announceData{hash, number, td, 0, nil} 219 p := cpeers[j] 220 if p.announceType == announceTypeSigned { 221 announce.sign(servers[j].handler.server.privateKey) 222 } 223 p.sendAnnounce(announce) 224 } 225 } 226 if callback != nil { 227 callback() 228 } 229 verifyChainHeight(t, c.handler.fetcher, expected) 230 } 231 check([]uint64{1}, 1, func() { <-newHead }) // Sequential announcements 232 check([]uint64{4}, 4, func() { <-newHead }) // ULC-style light syncing, rollback untrusted headers 233 check([]uint64{10}, 10, func() { <-newHead }) // Sync the whole chain. 234 } 235 236 func TestInvalidAnnounces(t *testing.T) { 237 s, c, teardown := newClientServerEnv(t, 4, lpv3, nil, nil, 0, false, false, true) 238 defer teardown() 239 240 // Create connected peer pair. 241 c.handler.fetcher.noAnnounce = true // Ignore the first announce from peer which can trigger a resync. 242 peer, _, err := newTestPeerPair("peer", lpv3, s.handler, c.handler) 243 if err != nil { 244 t.Fatalf("Failed to create peer pair %v", err) 245 } 246 c.handler.fetcher.noAnnounce = false 247 248 done := make(chan *types.Header, 1) 249 c.handler.fetcher.newHeadHook = func(header *types.Header) { done <- header } 250 251 // Prepare announcement by latest header. 252 headerOne := s.backend.Blockchain().GetHeaderByNumber(1) 253 hash, number := headerOne.Hash(), headerOne.Number.Uint64() 254 td := big.NewInt(200) // bad td 255 256 // Sign the announcement if necessary. 257 announce := announceData{hash, number, td, 0, nil} 258 if peer.cpeer.announceType == announceTypeSigned { 259 announce.sign(s.handler.server.privateKey) 260 } 261 peer.cpeer.sendAnnounce(announce) 262 <-done // Wait syncing 263 264 // Ensure the bad peer is evicited 265 if c.handler.backend.peers.len() != 0 { 266 t.Fatalf("Failed to evict invalid peer") 267 } 268 }