github.com/aswedchain/aswed@v1.0.1/eth/downloader/queue_test.go (about) 1 // Copyright 2019 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 downloader 18 19 import ( 20 "fmt" 21 "math/big" 22 "math/rand" 23 "sync" 24 "testing" 25 "time" 26 27 "github.com/aswedchain/aswed/common" 28 "github.com/aswedchain/aswed/consensus/ethash" 29 "github.com/aswedchain/aswed/core" 30 "github.com/aswedchain/aswed/core/rawdb" 31 "github.com/aswedchain/aswed/core/types" 32 "github.com/aswedchain/aswed/log" 33 "github.com/aswedchain/aswed/params" 34 ) 35 36 var ( 37 testdb = rawdb.NewMemoryDatabase() 38 genesis = core.GenesisBlockForTesting(testdb, testAddress, big.NewInt(1000000000)) 39 ) 40 41 // makeChain creates a chain of n blocks starting at and including parent. 42 // the returned hash chain is ordered head->parent. In addition, every 3rd block 43 // contains a transaction and every 5th an uncle to allow testing correct block 44 // reassembly. 45 func makeChain(n int, seed byte, parent *types.Block, empty bool) ([]*types.Block, []types.Receipts) { 46 blocks, receipts := core.GenerateChain(params.TestChainConfig, parent, ethash.NewFaker(), testdb, n, func(i int, block *core.BlockGen) { 47 block.SetCoinbase(common.Address{seed}) 48 // Add one tx to every secondblock 49 if !empty && i%2 == 0 { 50 signer := types.MakeSigner(params.TestChainConfig, block.Number()) 51 tx, err := types.SignTx(types.NewTransaction(block.TxNonce(testAddress), common.Address{seed}, big.NewInt(1000), params.TxGas, nil, nil), signer, testKey) 52 if err != nil { 53 panic(err) 54 } 55 block.AddTx(tx) 56 } 57 }) 58 return blocks, receipts 59 } 60 61 type chainData struct { 62 blocks []*types.Block 63 offset int 64 } 65 66 var chain *chainData 67 var emptyChain *chainData 68 69 func init() { 70 // Create a chain of blocks to import 71 targetBlocks := 128 72 blocks, _ := makeChain(targetBlocks, 0, genesis, false) 73 chain = &chainData{blocks, 0} 74 75 blocks, _ = makeChain(targetBlocks, 0, genesis, true) 76 emptyChain = &chainData{blocks, 0} 77 } 78 79 func (chain *chainData) headers() []*types.Header { 80 hdrs := make([]*types.Header, len(chain.blocks)) 81 for i, b := range chain.blocks { 82 hdrs[i] = b.Header() 83 } 84 return hdrs 85 } 86 87 func (chain *chainData) Len() int { 88 return len(chain.blocks) 89 } 90 91 func dummyPeer(id string) *peerConnection { 92 p := &peerConnection{ 93 id: id, 94 lacking: make(map[common.Hash]struct{}), 95 } 96 return p 97 } 98 99 func TestBasics(t *testing.T) { 100 q := newQueue(10, 10) 101 if !q.Idle() { 102 t.Errorf("new queue should be idle") 103 } 104 q.Prepare(1, FastSync) 105 if res := q.Results(false); len(res) != 0 { 106 t.Fatal("new queue should have 0 results") 107 } 108 109 // Schedule a batch of headers 110 q.Schedule(chain.headers(), 1) 111 if q.Idle() { 112 t.Errorf("queue should not be idle") 113 } 114 if got, exp := q.PendingBlocks(), chain.Len(); got != exp { 115 t.Errorf("wrong pending block count, got %d, exp %d", got, exp) 116 } 117 // Only non-empty receipts get added to task-queue 118 if got, exp := q.PendingReceipts(), 64; got != exp { 119 t.Errorf("wrong pending receipt count, got %d, exp %d", got, exp) 120 } 121 // Items are now queued for downloading, next step is that we tell the 122 // queue that a certain peer will deliver them for us 123 { 124 peer := dummyPeer("peer-1") 125 fetchReq, _, throttle := q.ReserveBodies(peer, 50) 126 if !throttle { 127 // queue size is only 10, so throttling should occur 128 t.Fatal("should throttle") 129 } 130 // But we should still get the first things to fetch 131 if got, exp := len(fetchReq.Headers), 5; got != exp { 132 t.Fatalf("expected %d requests, got %d", exp, got) 133 } 134 if got, exp := fetchReq.Headers[0].Number.Uint64(), uint64(1); got != exp { 135 t.Fatalf("expected header %d, got %d", exp, got) 136 } 137 } 138 { 139 peer := dummyPeer("peer-2") 140 fetchReq, _, throttle := q.ReserveBodies(peer, 50) 141 142 // The second peer should hit throttling 143 if !throttle { 144 t.Fatalf("should not throttle") 145 } 146 // And not get any fetches at all, since it was throttled to begin with 147 if fetchReq != nil { 148 t.Fatalf("should have no fetches, got %d", len(fetchReq.Headers)) 149 } 150 } 151 //fmt.Printf("blockTaskQueue len: %d\n", q.blockTaskQueue.Size()) 152 //fmt.Printf("receiptTaskQueue len: %d\n", q.receiptTaskQueue.Size()) 153 { 154 // The receipt delivering peer should not be affected 155 // by the throttling of body deliveries 156 peer := dummyPeer("peer-3") 157 fetchReq, _, throttle := q.ReserveReceipts(peer, 50) 158 if !throttle { 159 // queue size is only 10, so throttling should occur 160 t.Fatal("should throttle") 161 } 162 // But we should still get the first things to fetch 163 if got, exp := len(fetchReq.Headers), 5; got != exp { 164 t.Fatalf("expected %d requests, got %d", exp, got) 165 } 166 if got, exp := fetchReq.Headers[0].Number.Uint64(), uint64(1); got != exp { 167 t.Fatalf("expected header %d, got %d", exp, got) 168 } 169 170 } 171 //fmt.Printf("blockTaskQueue len: %d\n", q.blockTaskQueue.Size()) 172 //fmt.Printf("receiptTaskQueue len: %d\n", q.receiptTaskQueue.Size()) 173 //fmt.Printf("processable: %d\n", q.resultCache.countCompleted()) 174 } 175 176 func TestEmptyBlocks(t *testing.T) { 177 q := newQueue(10, 10) 178 179 q.Prepare(1, FastSync) 180 // Schedule a batch of headers 181 q.Schedule(emptyChain.headers(), 1) 182 if q.Idle() { 183 t.Errorf("queue should not be idle") 184 } 185 if got, exp := q.PendingBlocks(), len(emptyChain.blocks); got != exp { 186 t.Errorf("wrong pending block count, got %d, exp %d", got, exp) 187 } 188 if got, exp := q.PendingReceipts(), 0; got != exp { 189 t.Errorf("wrong pending receipt count, got %d, exp %d", got, exp) 190 } 191 // They won't be processable, because the fetchresults haven't been 192 // created yet 193 if got, exp := q.resultCache.countCompleted(), 0; got != exp { 194 t.Errorf("wrong processable count, got %d, exp %d", got, exp) 195 } 196 197 // Items are now queued for downloading, next step is that we tell the 198 // queue that a certain peer will deliver them for us 199 // That should trigger all of them to suddenly become 'done' 200 { 201 // Reserve blocks 202 peer := dummyPeer("peer-1") 203 fetchReq, _, _ := q.ReserveBodies(peer, 50) 204 205 // there should be nothing to fetch, blocks are empty 206 if fetchReq != nil { 207 t.Fatal("there should be no body fetch tasks remaining") 208 } 209 210 } 211 if q.blockTaskQueue.Size() != len(emptyChain.blocks)-10 { 212 t.Errorf("expected block task queue to be 0, got %d", q.blockTaskQueue.Size()) 213 } 214 if q.receiptTaskQueue.Size() != 0 { 215 t.Errorf("expected receipt task queue to be 0, got %d", q.receiptTaskQueue.Size()) 216 } 217 //fmt.Printf("receiptTaskQueue len: %d\n", q.receiptTaskQueue.Size()) 218 { 219 peer := dummyPeer("peer-3") 220 fetchReq, _, _ := q.ReserveReceipts(peer, 50) 221 222 // there should be nothing to fetch, blocks are empty 223 if fetchReq != nil { 224 t.Fatal("there should be no body fetch tasks remaining") 225 } 226 } 227 if got, exp := q.resultCache.countCompleted(), 10; got != exp { 228 t.Errorf("wrong processable count, got %d, exp %d", got, exp) 229 } 230 } 231 232 // XTestDelivery does some more extensive testing of events that happen, 233 // blocks that become known and peers that make reservations and deliveries. 234 // disabled since it's not really a unit-test, but can be executed to test 235 // some more advanced scenarios 236 func XTestDelivery(t *testing.T) { 237 // the outside network, holding blocks 238 blo, rec := makeChain(128, 0, genesis, false) 239 world := newNetwork() 240 world.receipts = rec 241 world.chain = blo 242 world.progress(10) 243 if false { 244 log.Root().SetHandler(log.StdoutHandler) 245 246 } 247 q := newQueue(10, 10) 248 var wg sync.WaitGroup 249 q.Prepare(1, FastSync) 250 wg.Add(1) 251 go func() { 252 // deliver headers 253 defer wg.Done() 254 c := 1 255 for { 256 //fmt.Printf("getting headers from %d\n", c) 257 hdrs := world.headers(c) 258 l := len(hdrs) 259 //fmt.Printf("scheduling %d headers, first %d last %d\n", 260 // l, hdrs[0].Number.Uint64(), hdrs[len(hdrs)-1].Number.Uint64()) 261 q.Schedule(hdrs, uint64(c)) 262 c += l 263 } 264 }() 265 wg.Add(1) 266 go func() { 267 // collect results 268 defer wg.Done() 269 tot := 0 270 for { 271 res := q.Results(true) 272 tot += len(res) 273 fmt.Printf("got %d results, %d tot\n", len(res), tot) 274 // Now we can forget about these 275 world.forget(res[len(res)-1].Header.Number.Uint64()) 276 277 } 278 }() 279 wg.Add(1) 280 go func() { 281 defer wg.Done() 282 // reserve body fetch 283 i := 4 284 for { 285 peer := dummyPeer(fmt.Sprintf("peer-%d", i)) 286 f, _, _ := q.ReserveBodies(peer, rand.Intn(30)) 287 if f != nil { 288 var emptyList []*types.Header 289 var txs [][]*types.Transaction 290 var uncles [][]*types.Header 291 numToSkip := rand.Intn(len(f.Headers)) 292 for _, hdr := range f.Headers[0 : len(f.Headers)-numToSkip] { 293 txs = append(txs, world.getTransactions(hdr.Number.Uint64())) 294 uncles = append(uncles, emptyList) 295 } 296 time.Sleep(100 * time.Millisecond) 297 _, err := q.DeliverBodies(peer.id, txs, uncles) 298 if err != nil { 299 fmt.Printf("delivered %d bodies %v\n", len(txs), err) 300 } 301 } else { 302 i++ 303 time.Sleep(200 * time.Millisecond) 304 } 305 } 306 }() 307 go func() { 308 defer wg.Done() 309 // reserve receiptfetch 310 peer := dummyPeer("peer-3") 311 for { 312 f, _, _ := q.ReserveReceipts(peer, rand.Intn(50)) 313 if f != nil { 314 var rcs [][]*types.Receipt 315 for _, hdr := range f.Headers { 316 rcs = append(rcs, world.getReceipts(hdr.Number.Uint64())) 317 } 318 _, err := q.DeliverReceipts(peer.id, rcs) 319 if err != nil { 320 fmt.Printf("delivered %d receipts %v\n", len(rcs), err) 321 } 322 time.Sleep(100 * time.Millisecond) 323 } else { 324 time.Sleep(200 * time.Millisecond) 325 } 326 } 327 }() 328 wg.Add(1) 329 go func() { 330 defer wg.Done() 331 for i := 0; i < 50; i++ { 332 time.Sleep(300 * time.Millisecond) 333 //world.tick() 334 //fmt.Printf("trying to progress\n") 335 world.progress(rand.Intn(100)) 336 } 337 for i := 0; i < 50; i++ { 338 time.Sleep(2990 * time.Millisecond) 339 340 } 341 }() 342 wg.Add(1) 343 go func() { 344 defer wg.Done() 345 for { 346 time.Sleep(990 * time.Millisecond) 347 fmt.Printf("world block tip is %d\n", 348 world.chain[len(world.chain)-1].Header().Number.Uint64()) 349 fmt.Println(q.Stats()) 350 } 351 }() 352 wg.Wait() 353 } 354 355 func newNetwork() *network { 356 var l sync.RWMutex 357 return &network{ 358 cond: sync.NewCond(&l), 359 offset: 1, // block 1 is at blocks[0] 360 } 361 } 362 363 // represents the network 364 type network struct { 365 offset int 366 chain []*types.Block 367 receipts []types.Receipts 368 lock sync.RWMutex 369 cond *sync.Cond 370 } 371 372 func (n *network) getTransactions(blocknum uint64) types.Transactions { 373 index := blocknum - uint64(n.offset) 374 return n.chain[index].Transactions() 375 } 376 func (n *network) getReceipts(blocknum uint64) types.Receipts { 377 index := blocknum - uint64(n.offset) 378 if got := n.chain[index].Header().Number.Uint64(); got != blocknum { 379 fmt.Printf("Err, got %d exp %d\n", got, blocknum) 380 panic("sd") 381 } 382 return n.receipts[index] 383 } 384 385 func (n *network) forget(blocknum uint64) { 386 index := blocknum - uint64(n.offset) 387 n.chain = n.chain[index:] 388 n.receipts = n.receipts[index:] 389 n.offset = int(blocknum) 390 391 } 392 func (n *network) progress(numBlocks int) { 393 394 n.lock.Lock() 395 defer n.lock.Unlock() 396 //fmt.Printf("progressing...\n") 397 newBlocks, newR := makeChain(numBlocks, 0, n.chain[len(n.chain)-1], false) 398 n.chain = append(n.chain, newBlocks...) 399 n.receipts = append(n.receipts, newR...) 400 n.cond.Broadcast() 401 402 } 403 404 func (n *network) headers(from int) []*types.Header { 405 numHeaders := 128 406 var hdrs []*types.Header 407 index := from - n.offset 408 409 for index >= len(n.chain) { 410 // wait for progress 411 n.cond.L.Lock() 412 //fmt.Printf("header going into wait\n") 413 n.cond.Wait() 414 index = from - n.offset 415 n.cond.L.Unlock() 416 } 417 n.lock.RLock() 418 defer n.lock.RUnlock() 419 for i, b := range n.chain[index:] { 420 hdrs = append(hdrs, b.Header()) 421 if i >= numHeaders { 422 break 423 } 424 } 425 return hdrs 426 }