github.com/dominant-strategies/go-quai@v0.28.2/eth/fetcher/tx_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 fetcher 18 19 import ( 20 "errors" 21 "math/big" 22 "math/rand" 23 "testing" 24 "time" 25 26 "github.com/dominant-strategies/go-quai/common" 27 "github.com/dominant-strategies/go-quai/common/mclock" 28 "github.com/dominant-strategies/go-quai/core" 29 "github.com/dominant-strategies/go-quai/core/types" 30 ) 31 32 var ( 33 // testTxs is a set of transactions to use during testing that have meaningful hashes. 34 testTxs = []*types.Transaction{ 35 types.NewTransaction(5577006791947779410, common.Address{0x0f}, new(big.Int), 0, new(big.Int), nil), 36 types.NewTransaction(15352856648520921629, common.Address{0xbb}, new(big.Int), 0, new(big.Int), nil), 37 types.NewTransaction(3916589616287113937, common.Address{0x86}, new(big.Int), 0, new(big.Int), nil), 38 types.NewTransaction(9828766684487745566, common.Address{0xac}, new(big.Int), 0, new(big.Int), nil), 39 } 40 // testTxsHashes is the hashes of the test transactions above 41 testTxsHashes = []common.Hash{testTxs[0].Hash(), testTxs[1].Hash(), testTxs[2].Hash(), testTxs[3].Hash()} 42 ) 43 44 type doTxNotify struct { 45 peer string 46 hashes []common.Hash 47 } 48 type doTxEnqueue struct { 49 peer string 50 txs []*types.Transaction 51 direct bool 52 } 53 type doWait struct { 54 time time.Duration 55 step bool 56 } 57 type doDrop string 58 type doFunc func() 59 60 type isWaiting map[string][]common.Hash 61 type isScheduled struct { 62 tracking map[string][]common.Hash 63 fetching map[string][]common.Hash 64 dangling map[string][]common.Hash 65 } 66 type isUnderpriced int 67 68 // txFetcherTest represents a test scenario that can be executed by the test 69 // runner. 70 type txFetcherTest struct { 71 init func() *TxFetcher 72 steps []interface{} 73 } 74 75 // Tests that transaction announcements are added to a waitlist, and none 76 // of them are scheduled for retrieval until the wait expires. 77 func TestTransactionFetcherWaiting(t *testing.T) { 78 testTransactionFetcherParallel(t, txFetcherTest{ 79 init: func() *TxFetcher { 80 return NewTxFetcher( 81 func(common.Hash) bool { return false }, 82 nil, 83 func(string, []common.Hash) error { return nil }, 84 ) 85 }, 86 steps: []interface{}{ 87 // Initial announcement to get something into the waitlist 88 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}}, 89 isWaiting(map[string][]common.Hash{ 90 "A": {{0x01}, {0x02}}, 91 }), 92 // Announce from a new peer to check that no overwrite happens 93 doTxNotify{peer: "B", hashes: []common.Hash{{0x03}, {0x04}}}, 94 isWaiting(map[string][]common.Hash{ 95 "A": {{0x01}, {0x02}}, 96 "B": {{0x03}, {0x04}}, 97 }), 98 // Announce clashing hashes but unique new peer 99 doTxNotify{peer: "C", hashes: []common.Hash{{0x01}, {0x04}}}, 100 isWaiting(map[string][]common.Hash{ 101 "A": {{0x01}, {0x02}}, 102 "B": {{0x03}, {0x04}}, 103 "C": {{0x01}, {0x04}}, 104 }), 105 // Announce existing and clashing hashes from existing peer 106 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x03}, {0x05}}}, 107 isWaiting(map[string][]common.Hash{ 108 "A": {{0x01}, {0x02}, {0x03}, {0x05}}, 109 "B": {{0x03}, {0x04}}, 110 "C": {{0x01}, {0x04}}, 111 }), 112 isScheduled{tracking: nil, fetching: nil}, 113 114 // Wait for the arrival timeout which should move all expired items 115 // from the wait list to the scheduler 116 doWait{time: txArriveTimeout, step: true}, 117 isWaiting(nil), 118 isScheduled{ 119 tracking: map[string][]common.Hash{ 120 "A": {{0x01}, {0x02}, {0x03}, {0x05}}, 121 "B": {{0x03}, {0x04}}, 122 "C": {{0x01}, {0x04}}, 123 }, 124 fetching: map[string][]common.Hash{ // Depends on deterministic test randomizer 125 "A": {{0x02}, {0x03}, {0x05}}, 126 "C": {{0x01}, {0x04}}, 127 }, 128 }, 129 // Queue up a non-fetchable transaction and then trigger it with a new 130 // peer (weird case to test 1 line in the fetcher) 131 doTxNotify{peer: "C", hashes: []common.Hash{{0x06}, {0x07}}}, 132 isWaiting(map[string][]common.Hash{ 133 "C": {{0x06}, {0x07}}, 134 }), 135 doWait{time: txArriveTimeout, step: true}, 136 isScheduled{ 137 tracking: map[string][]common.Hash{ 138 "A": {{0x01}, {0x02}, {0x03}, {0x05}}, 139 "B": {{0x03}, {0x04}}, 140 "C": {{0x01}, {0x04}, {0x06}, {0x07}}, 141 }, 142 fetching: map[string][]common.Hash{ 143 "A": {{0x02}, {0x03}, {0x05}}, 144 "C": {{0x01}, {0x04}}, 145 }, 146 }, 147 doTxNotify{peer: "D", hashes: []common.Hash{{0x06}, {0x07}}}, 148 isScheduled{ 149 tracking: map[string][]common.Hash{ 150 "A": {{0x01}, {0x02}, {0x03}, {0x05}}, 151 "B": {{0x03}, {0x04}}, 152 "C": {{0x01}, {0x04}, {0x06}, {0x07}}, 153 "D": {{0x06}, {0x07}}, 154 }, 155 fetching: map[string][]common.Hash{ 156 "A": {{0x02}, {0x03}, {0x05}}, 157 "C": {{0x01}, {0x04}}, 158 "D": {{0x06}, {0x07}}, 159 }, 160 }, 161 }, 162 }) 163 } 164 165 // Tests that transaction announcements skip the waiting list if they are 166 // already scheduled. 167 func TestTransactionFetcherSkipWaiting(t *testing.T) { 168 testTransactionFetcherParallel(t, txFetcherTest{ 169 init: func() *TxFetcher { 170 return NewTxFetcher( 171 func(common.Hash) bool { return false }, 172 nil, 173 func(string, []common.Hash) error { return nil }, 174 ) 175 }, 176 steps: []interface{}{ 177 // Push an initial announcement through to the scheduled stage 178 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}}, 179 isWaiting(map[string][]common.Hash{ 180 "A": {{0x01}, {0x02}}, 181 }), 182 isScheduled{tracking: nil, fetching: nil}, 183 184 doWait{time: txArriveTimeout, step: true}, 185 isWaiting(nil), 186 isScheduled{ 187 tracking: map[string][]common.Hash{ 188 "A": {{0x01}, {0x02}}, 189 }, 190 fetching: map[string][]common.Hash{ 191 "A": {{0x01}, {0x02}}, 192 }, 193 }, 194 // Announce overlaps from the same peer, ensure the new ones end up 195 // in stage one, and clashing ones don't get double tracked 196 doTxNotify{peer: "A", hashes: []common.Hash{{0x02}, {0x03}}}, 197 isWaiting(map[string][]common.Hash{ 198 "A": {{0x03}}, 199 }), 200 isScheduled{ 201 tracking: map[string][]common.Hash{ 202 "A": {{0x01}, {0x02}}, 203 }, 204 fetching: map[string][]common.Hash{ 205 "A": {{0x01}, {0x02}}, 206 }, 207 }, 208 // Announce overlaps from a new peer, ensure new transactions end up 209 // in stage one and clashing ones get tracked for the new peer 210 doTxNotify{peer: "B", hashes: []common.Hash{{0x02}, {0x03}, {0x04}}}, 211 isWaiting(map[string][]common.Hash{ 212 "A": {{0x03}}, 213 "B": {{0x03}, {0x04}}, 214 }), 215 isScheduled{ 216 tracking: map[string][]common.Hash{ 217 "A": {{0x01}, {0x02}}, 218 "B": {{0x02}}, 219 }, 220 fetching: map[string][]common.Hash{ 221 "A": {{0x01}, {0x02}}, 222 }, 223 }, 224 }, 225 }) 226 } 227 228 // Tests that only a single transaction request gets scheduled to a peer 229 // and subsequent announces block or get allotted to someone else. 230 func TestTransactionFetcherSingletonRequesting(t *testing.T) { 231 testTransactionFetcherParallel(t, txFetcherTest{ 232 init: func() *TxFetcher { 233 return NewTxFetcher( 234 func(common.Hash) bool { return false }, 235 nil, 236 func(string, []common.Hash) error { return nil }, 237 ) 238 }, 239 steps: []interface{}{ 240 // Push an initial announcement through to the scheduled stage 241 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}}, 242 isWaiting(map[string][]common.Hash{ 243 "A": {{0x01}, {0x02}}, 244 }), 245 isScheduled{tracking: nil, fetching: nil}, 246 247 doWait{time: txArriveTimeout, step: true}, 248 isWaiting(nil), 249 isScheduled{ 250 tracking: map[string][]common.Hash{ 251 "A": {{0x01}, {0x02}}, 252 }, 253 fetching: map[string][]common.Hash{ 254 "A": {{0x01}, {0x02}}, 255 }, 256 }, 257 // Announce a new set of transactions from the same peer and ensure 258 // they do not start fetching since the peer is already busy 259 doTxNotify{peer: "A", hashes: []common.Hash{{0x03}, {0x04}}}, 260 isWaiting(map[string][]common.Hash{ 261 "A": {{0x03}, {0x04}}, 262 }), 263 isScheduled{ 264 tracking: map[string][]common.Hash{ 265 "A": {{0x01}, {0x02}}, 266 }, 267 fetching: map[string][]common.Hash{ 268 "A": {{0x01}, {0x02}}, 269 }, 270 }, 271 doWait{time: txArriveTimeout, step: true}, 272 isWaiting(nil), 273 isScheduled{ 274 tracking: map[string][]common.Hash{ 275 "A": {{0x01}, {0x02}, {0x03}, {0x04}}, 276 }, 277 fetching: map[string][]common.Hash{ 278 "A": {{0x01}, {0x02}}, 279 }, 280 }, 281 // Announce a duplicate set of transactions from a new peer and ensure 282 // uniquely new ones start downloading, even if clashing. 283 doTxNotify{peer: "B", hashes: []common.Hash{{0x02}, {0x03}, {0x05}, {0x06}}}, 284 isWaiting(map[string][]common.Hash{ 285 "B": {{0x05}, {0x06}}, 286 }), 287 isScheduled{ 288 tracking: map[string][]common.Hash{ 289 "A": {{0x01}, {0x02}, {0x03}, {0x04}}, 290 "B": {{0x02}, {0x03}}, 291 }, 292 fetching: map[string][]common.Hash{ 293 "A": {{0x01}, {0x02}}, 294 "B": {{0x03}}, 295 }, 296 }, 297 }, 298 }) 299 } 300 301 // Tests that if a transaction retrieval fails, all the transactions get 302 // instantly schedule back to someone else or the announcements dropped 303 // if no alternate source is available. 304 func TestTransactionFetcherFailedRescheduling(t *testing.T) { 305 // Create a channel to control when tx requests can fail 306 proceed := make(chan struct{}) 307 308 testTransactionFetcherParallel(t, txFetcherTest{ 309 init: func() *TxFetcher { 310 return NewTxFetcher( 311 func(common.Hash) bool { return false }, 312 nil, 313 func(origin string, hashes []common.Hash) error { 314 <-proceed 315 return errors.New("peer disconnected") 316 }, 317 ) 318 }, 319 steps: []interface{}{ 320 // Push an initial announcement through to the scheduled stage 321 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}, {0x02}}}, 322 isWaiting(map[string][]common.Hash{ 323 "A": {{0x01}, {0x02}}, 324 }), 325 isScheduled{tracking: nil, fetching: nil}, 326 327 doWait{time: txArriveTimeout, step: true}, 328 isWaiting(nil), 329 isScheduled{ 330 tracking: map[string][]common.Hash{ 331 "A": {{0x01}, {0x02}}, 332 }, 333 fetching: map[string][]common.Hash{ 334 "A": {{0x01}, {0x02}}, 335 }, 336 }, 337 // While the original peer is stuck in the request, push in an second 338 // data source. 339 doTxNotify{peer: "B", hashes: []common.Hash{{0x02}}}, 340 isWaiting(nil), 341 isScheduled{ 342 tracking: map[string][]common.Hash{ 343 "A": {{0x01}, {0x02}}, 344 "B": {{0x02}}, 345 }, 346 fetching: map[string][]common.Hash{ 347 "A": {{0x01}, {0x02}}, 348 }, 349 }, 350 // Wait until the original request fails and check that transactions 351 // are either rescheduled or dropped 352 doFunc(func() { 353 proceed <- struct{}{} // Allow peer A to return the failure 354 }), 355 doWait{time: 0, step: true}, 356 isWaiting(nil), 357 isScheduled{ 358 tracking: map[string][]common.Hash{ 359 "B": {{0x02}}, 360 }, 361 fetching: map[string][]common.Hash{ 362 "B": {{0x02}}, 363 }, 364 }, 365 doFunc(func() { 366 proceed <- struct{}{} // Allow peer B to return the failure 367 }), 368 doWait{time: 0, step: true}, 369 isWaiting(nil), 370 isScheduled{nil, nil, nil}, 371 }, 372 }) 373 } 374 375 // Tests that if a transaction retrieval succeeds, all alternate origins 376 // are cleaned up. 377 func TestTransactionFetcherCleanup(t *testing.T) { 378 testTransactionFetcherParallel(t, txFetcherTest{ 379 init: func() *TxFetcher { 380 return NewTxFetcher( 381 func(common.Hash) bool { return false }, 382 func(txs []*types.Transaction) []error { 383 return make([]error, len(txs)) 384 }, 385 func(string, []common.Hash) error { return nil }, 386 ) 387 }, 388 steps: []interface{}{ 389 // Push an initial announcement through to the scheduled stage 390 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 391 isWaiting(map[string][]common.Hash{ 392 "A": {testTxsHashes[0]}, 393 }), 394 isScheduled{tracking: nil, fetching: nil}, 395 396 doWait{time: txArriveTimeout, step: true}, 397 isWaiting(nil), 398 isScheduled{ 399 tracking: map[string][]common.Hash{ 400 "A": {testTxsHashes[0]}, 401 }, 402 fetching: map[string][]common.Hash{ 403 "A": {testTxsHashes[0]}, 404 }, 405 }, 406 // Request should be delivered 407 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true}, 408 isScheduled{nil, nil, nil}, 409 }, 410 }) 411 } 412 413 // Tests that if a transaction retrieval succeeds, but the response is empty (no 414 // transactions available, then all are nuked instead of being rescheduled (yes, 415 // this was a bug)). 416 func TestTransactionFetcherCleanupEmpty(t *testing.T) { 417 testTransactionFetcherParallel(t, txFetcherTest{ 418 init: func() *TxFetcher { 419 return NewTxFetcher( 420 func(common.Hash) bool { return false }, 421 func(txs []*types.Transaction) []error { 422 return make([]error, len(txs)) 423 }, 424 func(string, []common.Hash) error { return nil }, 425 ) 426 }, 427 steps: []interface{}{ 428 // Push an initial announcement through to the scheduled stage 429 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 430 isWaiting(map[string][]common.Hash{ 431 "A": {testTxsHashes[0]}, 432 }), 433 isScheduled{tracking: nil, fetching: nil}, 434 435 doWait{time: txArriveTimeout, step: true}, 436 isWaiting(nil), 437 isScheduled{ 438 tracking: map[string][]common.Hash{ 439 "A": {testTxsHashes[0]}, 440 }, 441 fetching: map[string][]common.Hash{ 442 "A": {testTxsHashes[0]}, 443 }, 444 }, 445 // Deliver an empty response and ensure the transaction is cleared, not rescheduled 446 doTxEnqueue{peer: "A", txs: []*types.Transaction{}, direct: true}, 447 isScheduled{nil, nil, nil}, 448 }, 449 }) 450 } 451 452 // Tests that non-returned transactions are either re-scheduled from a 453 // different peer, or self if they are after the cutoff point. 454 func TestTransactionFetcherMissingRescheduling(t *testing.T) { 455 testTransactionFetcherParallel(t, txFetcherTest{ 456 init: func() *TxFetcher { 457 return NewTxFetcher( 458 func(common.Hash) bool { return false }, 459 func(txs []*types.Transaction) []error { 460 return make([]error, len(txs)) 461 }, 462 func(string, []common.Hash) error { return nil }, 463 ) 464 }, 465 steps: []interface{}{ 466 // Push an initial announcement through to the scheduled stage 467 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}}, 468 isWaiting(map[string][]common.Hash{ 469 "A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}, 470 }), 471 isScheduled{tracking: nil, fetching: nil}, 472 473 doWait{time: txArriveTimeout, step: true}, 474 isWaiting(nil), 475 isScheduled{ 476 tracking: map[string][]common.Hash{ 477 "A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}, 478 }, 479 fetching: map[string][]common.Hash{ 480 "A": {testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}, 481 }, 482 }, 483 // Deliver the middle transaction requested, the one before which 484 // should be dropped and the one after re-requested. 485 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true}, // This depends on the deterministic random 486 isScheduled{ 487 tracking: map[string][]common.Hash{ 488 "A": {testTxsHashes[2]}, 489 }, 490 fetching: map[string][]common.Hash{ 491 "A": {testTxsHashes[2]}, 492 }, 493 }, 494 }, 495 }) 496 } 497 498 // Tests that out of two transactions, if one is missing and the last is 499 // delivered, the peer gets properly cleaned out from the internal state. 500 func TestTransactionFetcherMissingCleanup(t *testing.T) { 501 testTransactionFetcherParallel(t, txFetcherTest{ 502 init: func() *TxFetcher { 503 return NewTxFetcher( 504 func(common.Hash) bool { return false }, 505 func(txs []*types.Transaction) []error { 506 return make([]error, len(txs)) 507 }, 508 func(string, []common.Hash) error { return nil }, 509 ) 510 }, 511 steps: []interface{}{ 512 // Push an initial announcement through to the scheduled stage 513 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}}, 514 isWaiting(map[string][]common.Hash{ 515 "A": {testTxsHashes[0], testTxsHashes[1]}, 516 }), 517 isScheduled{tracking: nil, fetching: nil}, 518 519 doWait{time: txArriveTimeout, step: true}, 520 isWaiting(nil), 521 isScheduled{ 522 tracking: map[string][]common.Hash{ 523 "A": {testTxsHashes[0], testTxsHashes[1]}, 524 }, 525 fetching: map[string][]common.Hash{ 526 "A": {testTxsHashes[0], testTxsHashes[1]}, 527 }, 528 }, 529 // Deliver the middle transaction requested, the one before which 530 // should be dropped and the one after re-requested. 531 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[1]}, direct: true}, // This depends on the deterministic random 532 isScheduled{nil, nil, nil}, 533 }, 534 }) 535 } 536 537 // Tests that transaction broadcasts properly clean up announcements. 538 func TestTransactionFetcherBroadcasts(t *testing.T) { 539 testTransactionFetcherParallel(t, txFetcherTest{ 540 init: func() *TxFetcher { 541 return NewTxFetcher( 542 func(common.Hash) bool { return false }, 543 func(txs []*types.Transaction) []error { 544 return make([]error, len(txs)) 545 }, 546 func(string, []common.Hash) error { return nil }, 547 ) 548 }, 549 steps: []interface{}{ 550 // Set up three transactions to be in different stats, waiting, queued and fetching 551 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 552 doWait{time: txArriveTimeout, step: true}, 553 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}}, 554 doWait{time: txArriveTimeout, step: true}, 555 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[2]}}, 556 557 isWaiting(map[string][]common.Hash{ 558 "A": {testTxsHashes[2]}, 559 }), 560 isScheduled{ 561 tracking: map[string][]common.Hash{ 562 "A": {testTxsHashes[0], testTxsHashes[1]}, 563 }, 564 fetching: map[string][]common.Hash{ 565 "A": {testTxsHashes[0]}, 566 }, 567 }, 568 // Broadcast all the transactions and ensure everything gets cleaned 569 // up, but the dangling request is left alone to avoid doing multiple 570 // concurrent requests. 571 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2]}, direct: false}, 572 isWaiting(nil), 573 isScheduled{ 574 tracking: nil, 575 fetching: nil, 576 dangling: map[string][]common.Hash{ 577 "A": {testTxsHashes[0]}, 578 }, 579 }, 580 // Deliver the requested hashes 581 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2]}, direct: true}, 582 isScheduled{nil, nil, nil}, 583 }, 584 }) 585 } 586 587 // Tests that the waiting list timers properly reset and reschedule. 588 func TestTransactionFetcherWaitTimerResets(t *testing.T) { 589 testTransactionFetcherParallel(t, txFetcherTest{ 590 init: func() *TxFetcher { 591 return NewTxFetcher( 592 func(common.Hash) bool { return false }, 593 nil, 594 func(string, []common.Hash) error { return nil }, 595 ) 596 }, 597 steps: []interface{}{ 598 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}}, 599 isWaiting(map[string][]common.Hash{ 600 "A": {{0x01}}, 601 }), 602 isScheduled{nil, nil, nil}, 603 doWait{time: txArriveTimeout / 2, step: false}, 604 isWaiting(map[string][]common.Hash{ 605 "A": {{0x01}}, 606 }), 607 isScheduled{nil, nil, nil}, 608 609 doTxNotify{peer: "A", hashes: []common.Hash{{0x02}}}, 610 isWaiting(map[string][]common.Hash{ 611 "A": {{0x01}, {0x02}}, 612 }), 613 isScheduled{nil, nil, nil}, 614 doWait{time: txArriveTimeout / 2, step: true}, 615 isWaiting(map[string][]common.Hash{ 616 "A": {{0x02}}, 617 }), 618 isScheduled{ 619 tracking: map[string][]common.Hash{ 620 "A": {{0x01}}, 621 }, 622 fetching: map[string][]common.Hash{ 623 "A": {{0x01}}, 624 }, 625 }, 626 627 doWait{time: txArriveTimeout / 2, step: true}, 628 isWaiting(nil), 629 isScheduled{ 630 tracking: map[string][]common.Hash{ 631 "A": {{0x01}, {0x02}}, 632 }, 633 fetching: map[string][]common.Hash{ 634 "A": {{0x01}}, 635 }, 636 }, 637 }, 638 }) 639 } 640 641 // Tests that if a transaction request is not replied to, it will time 642 // out and be re-scheduled for someone else. 643 func TestTransactionFetcherTimeoutRescheduling(t *testing.T) { 644 testTransactionFetcherParallel(t, txFetcherTest{ 645 init: func() *TxFetcher { 646 return NewTxFetcher( 647 func(common.Hash) bool { return false }, 648 func(txs []*types.Transaction) []error { 649 return make([]error, len(txs)) 650 }, 651 func(string, []common.Hash) error { return nil }, 652 ) 653 }, 654 steps: []interface{}{ 655 // Push an initial announcement through to the scheduled stage 656 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 657 isWaiting(map[string][]common.Hash{ 658 "A": {testTxsHashes[0]}, 659 }), 660 isScheduled{tracking: nil, fetching: nil}, 661 662 doWait{time: txArriveTimeout, step: true}, 663 isWaiting(nil), 664 isScheduled{ 665 tracking: map[string][]common.Hash{ 666 "A": {testTxsHashes[0]}, 667 }, 668 fetching: map[string][]common.Hash{ 669 "A": {testTxsHashes[0]}, 670 }, 671 }, 672 // Wait until the delivery times out, everything should be cleaned up 673 doWait{time: txFetchTimeout, step: true}, 674 isWaiting(nil), 675 isScheduled{ 676 tracking: nil, 677 fetching: nil, 678 dangling: map[string][]common.Hash{ 679 "A": {}, 680 }, 681 }, 682 // Ensure that followup announcements don't get scheduled 683 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}}, 684 doWait{time: txArriveTimeout, step: true}, 685 isScheduled{ 686 tracking: map[string][]common.Hash{ 687 "A": {testTxsHashes[1]}, 688 }, 689 fetching: nil, 690 dangling: map[string][]common.Hash{ 691 "A": {}, 692 }, 693 }, 694 // If the dangling request arrives a bit later, do not choke 695 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: true}, 696 isWaiting(nil), 697 isScheduled{ 698 tracking: map[string][]common.Hash{ 699 "A": {testTxsHashes[1]}, 700 }, 701 fetching: map[string][]common.Hash{ 702 "A": {testTxsHashes[1]}, 703 }, 704 }, 705 }, 706 }) 707 } 708 709 // Tests that the fetching timeout timers properly reset and reschedule. 710 func TestTransactionFetcherTimeoutTimerResets(t *testing.T) { 711 testTransactionFetcherParallel(t, txFetcherTest{ 712 init: func() *TxFetcher { 713 return NewTxFetcher( 714 func(common.Hash) bool { return false }, 715 nil, 716 func(string, []common.Hash) error { return nil }, 717 ) 718 }, 719 steps: []interface{}{ 720 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}}, 721 doWait{time: txArriveTimeout, step: true}, 722 doTxNotify{peer: "B", hashes: []common.Hash{{0x02}}}, 723 doWait{time: txArriveTimeout, step: true}, 724 725 isWaiting(nil), 726 isScheduled{ 727 tracking: map[string][]common.Hash{ 728 "A": {{0x01}}, 729 "B": {{0x02}}, 730 }, 731 fetching: map[string][]common.Hash{ 732 "A": {{0x01}}, 733 "B": {{0x02}}, 734 }, 735 }, 736 doWait{time: txFetchTimeout - txArriveTimeout, step: true}, 737 isScheduled{ 738 tracking: map[string][]common.Hash{ 739 "B": {{0x02}}, 740 }, 741 fetching: map[string][]common.Hash{ 742 "B": {{0x02}}, 743 }, 744 dangling: map[string][]common.Hash{ 745 "A": {}, 746 }, 747 }, 748 doWait{time: txArriveTimeout, step: true}, 749 isScheduled{ 750 tracking: nil, 751 fetching: nil, 752 dangling: map[string][]common.Hash{ 753 "A": {}, 754 "B": {}, 755 }, 756 }, 757 }, 758 }) 759 } 760 761 // Tests that if thousands of transactions are announces, only a small 762 // number of them will be requested at a time. 763 func TestTransactionFetcherRateLimiting(t *testing.T) { 764 // Create a slew of transactions and to announce them 765 var hashes []common.Hash 766 for i := 0; i < maxTxAnnounces; i++ { 767 hashes = append(hashes, common.Hash{byte(i / 256), byte(i % 256)}) 768 } 769 770 testTransactionFetcherParallel(t, txFetcherTest{ 771 init: func() *TxFetcher { 772 return NewTxFetcher( 773 func(common.Hash) bool { return false }, 774 nil, 775 func(string, []common.Hash) error { return nil }, 776 ) 777 }, 778 steps: []interface{}{ 779 // Announce all the transactions, wait a bit and ensure only a small 780 // percentage gets requested 781 doTxNotify{peer: "A", hashes: hashes}, 782 doWait{time: txArriveTimeout, step: true}, 783 isWaiting(nil), 784 isScheduled{ 785 tracking: map[string][]common.Hash{ 786 "A": hashes, 787 }, 788 fetching: map[string][]common.Hash{ 789 "A": hashes[1643 : 1643+maxTxRetrievals], 790 }, 791 }, 792 }, 793 }) 794 } 795 796 // Tests that then number of transactions a peer is allowed to announce and/or 797 // request at the same time is hard capped. 798 func TestTransactionFetcherDoSProtection(t *testing.T) { 799 // Create a slew of transactions and to announce them 800 var hashesA []common.Hash 801 for i := 0; i < maxTxAnnounces+1; i++ { 802 hashesA = append(hashesA, common.Hash{0x01, byte(i / 256), byte(i % 256)}) 803 } 804 var hashesB []common.Hash 805 for i := 0; i < maxTxAnnounces+1; i++ { 806 hashesB = append(hashesB, common.Hash{0x02, byte(i / 256), byte(i % 256)}) 807 } 808 testTransactionFetcherParallel(t, txFetcherTest{ 809 init: func() *TxFetcher { 810 return NewTxFetcher( 811 func(common.Hash) bool { return false }, 812 nil, 813 func(string, []common.Hash) error { return nil }, 814 ) 815 }, 816 steps: []interface{}{ 817 // Announce half of the transaction and wait for them to be scheduled 818 doTxNotify{peer: "A", hashes: hashesA[:maxTxAnnounces/2]}, 819 doTxNotify{peer: "B", hashes: hashesB[:maxTxAnnounces/2-1]}, 820 doWait{time: txArriveTimeout, step: true}, 821 822 // Announce the second half and keep them in the wait list 823 doTxNotify{peer: "A", hashes: hashesA[maxTxAnnounces/2 : maxTxAnnounces]}, 824 doTxNotify{peer: "B", hashes: hashesB[maxTxAnnounces/2-1 : maxTxAnnounces-1]}, 825 826 // Ensure the hashes are split half and half 827 isWaiting(map[string][]common.Hash{ 828 "A": hashesA[maxTxAnnounces/2 : maxTxAnnounces], 829 "B": hashesB[maxTxAnnounces/2-1 : maxTxAnnounces-1], 830 }), 831 isScheduled{ 832 tracking: map[string][]common.Hash{ 833 "A": hashesA[:maxTxAnnounces/2], 834 "B": hashesB[:maxTxAnnounces/2-1], 835 }, 836 fetching: map[string][]common.Hash{ 837 "A": hashesA[1643 : 1643+maxTxRetrievals], 838 "B": append(append([]common.Hash{}, hashesB[maxTxAnnounces/2-3:maxTxAnnounces/2-1]...), hashesB[:maxTxRetrievals-2]...), 839 }, 840 }, 841 // Ensure that adding even one more hash results in dropping the hash 842 doTxNotify{peer: "A", hashes: []common.Hash{hashesA[maxTxAnnounces]}}, 843 doTxNotify{peer: "B", hashes: hashesB[maxTxAnnounces-1 : maxTxAnnounces+1]}, 844 845 isWaiting(map[string][]common.Hash{ 846 "A": hashesA[maxTxAnnounces/2 : maxTxAnnounces], 847 "B": hashesB[maxTxAnnounces/2-1 : maxTxAnnounces], 848 }), 849 isScheduled{ 850 tracking: map[string][]common.Hash{ 851 "A": hashesA[:maxTxAnnounces/2], 852 "B": hashesB[:maxTxAnnounces/2-1], 853 }, 854 fetching: map[string][]common.Hash{ 855 "A": hashesA[1643 : 1643+maxTxRetrievals], 856 "B": append(append([]common.Hash{}, hashesB[maxTxAnnounces/2-3:maxTxAnnounces/2-1]...), hashesB[:maxTxRetrievals-2]...), 857 }, 858 }, 859 }, 860 }) 861 } 862 863 // Tests that underpriced transactions don't get rescheduled after being rejected. 864 func TestTransactionFetcherUnderpricedDedup(t *testing.T) { 865 testTransactionFetcherParallel(t, txFetcherTest{ 866 init: func() *TxFetcher { 867 return NewTxFetcher( 868 func(common.Hash) bool { return false }, 869 func(txs []*types.Transaction) []error { 870 errs := make([]error, len(txs)) 871 for i := 0; i < len(errs); i++ { 872 if i%2 == 0 { 873 errs[i] = core.ErrUnderpriced 874 } else { 875 errs[i] = core.ErrReplaceUnderpriced 876 } 877 } 878 return errs 879 }, 880 func(string, []common.Hash) error { return nil }, 881 ) 882 }, 883 steps: []interface{}{ 884 // Deliver a transaction through the fetcher, but reject as underpriced 885 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}}, 886 doWait{time: txArriveTimeout, step: true}, 887 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1]}, direct: true}, 888 isScheduled{nil, nil, nil}, 889 890 // Try to announce the transaction again, ensure it's not scheduled back 891 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1], testTxsHashes[2]}}, // [2] is needed to force a step in the fetcher 892 isWaiting(map[string][]common.Hash{ 893 "A": {testTxsHashes[2]}, 894 }), 895 isScheduled{nil, nil, nil}, 896 }, 897 }) 898 } 899 900 // Tests that underpriced transactions don't get rescheduled after being rejected, 901 // but at the same time there's a hard cap on the number of transactions that are 902 // tracked. 903 func TestTransactionFetcherUnderpricedDoSProtection(t *testing.T) { 904 // Temporarily disable fetch timeouts as they massively mess up the simulated clock 905 defer func(timeout time.Duration) { txFetchTimeout = timeout }(txFetchTimeout) 906 txFetchTimeout = 24 * time.Hour 907 908 // Create a slew of transactions to max out the underpriced set 909 var txs []*types.Transaction 910 for i := 0; i < maxTxUnderpricedSetSize+1; i++ { 911 txs = append(txs, types.NewTransaction(rand.Uint64(), common.Address{byte(rand.Intn(256))}, new(big.Int), 0, new(big.Int), nil)) 912 } 913 hashes := make([]common.Hash, len(txs)) 914 for i, tx := range txs { 915 hashes[i] = tx.Hash() 916 } 917 // Generate a set of steps to announce and deliver the entire set of transactions 918 var steps []interface{} 919 for i := 0; i < maxTxUnderpricedSetSize/maxTxRetrievals; i++ { 920 steps = append(steps, doTxNotify{peer: "A", hashes: hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals]}) 921 steps = append(steps, isWaiting(map[string][]common.Hash{ 922 "A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals], 923 })) 924 steps = append(steps, doWait{time: txArriveTimeout, step: true}) 925 steps = append(steps, isScheduled{ 926 tracking: map[string][]common.Hash{ 927 "A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals], 928 }, 929 fetching: map[string][]common.Hash{ 930 "A": hashes[i*maxTxRetrievals : (i+1)*maxTxRetrievals], 931 }, 932 }) 933 steps = append(steps, doTxEnqueue{peer: "A", txs: txs[i*maxTxRetrievals : (i+1)*maxTxRetrievals], direct: true}) 934 steps = append(steps, isWaiting(nil)) 935 steps = append(steps, isScheduled{nil, nil, nil}) 936 steps = append(steps, isUnderpriced((i+1)*maxTxRetrievals)) 937 } 938 testTransactionFetcher(t, txFetcherTest{ 939 init: func() *TxFetcher { 940 return NewTxFetcher( 941 func(common.Hash) bool { return false }, 942 func(txs []*types.Transaction) []error { 943 errs := make([]error, len(txs)) 944 for i := 0; i < len(errs); i++ { 945 errs[i] = core.ErrUnderpriced 946 } 947 return errs 948 }, 949 func(string, []common.Hash) error { return nil }, 950 ) 951 }, 952 steps: append(steps, []interface{}{ 953 // The preparation of the test has already been done in `steps`, add the last check 954 doTxNotify{peer: "A", hashes: []common.Hash{hashes[maxTxUnderpricedSetSize]}}, 955 doWait{time: txArriveTimeout, step: true}, 956 doTxEnqueue{peer: "A", txs: []*types.Transaction{txs[maxTxUnderpricedSetSize]}, direct: true}, 957 isUnderpriced(maxTxUnderpricedSetSize), 958 }...), 959 }) 960 } 961 962 // Tests that unexpected deliveries don't corrupt the internal state. 963 func TestTransactionFetcherOutOfBoundDeliveries(t *testing.T) { 964 testTransactionFetcherParallel(t, txFetcherTest{ 965 init: func() *TxFetcher { 966 return NewTxFetcher( 967 func(common.Hash) bool { return false }, 968 func(txs []*types.Transaction) []error { 969 return make([]error, len(txs)) 970 }, 971 func(string, []common.Hash) error { return nil }, 972 ) 973 }, 974 steps: []interface{}{ 975 // Deliver something out of the blue 976 isWaiting(nil), 977 isScheduled{nil, nil, nil}, 978 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}, direct: false}, 979 isWaiting(nil), 980 isScheduled{nil, nil, nil}, 981 982 // Set up a few hashes into various stages 983 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 984 doWait{time: txArriveTimeout, step: true}, 985 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[1]}}, 986 doWait{time: txArriveTimeout, step: true}, 987 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[2]}}, 988 989 isWaiting(map[string][]common.Hash{ 990 "A": {testTxsHashes[2]}, 991 }), 992 isScheduled{ 993 tracking: map[string][]common.Hash{ 994 "A": {testTxsHashes[0], testTxsHashes[1]}, 995 }, 996 fetching: map[string][]common.Hash{ 997 "A": {testTxsHashes[0]}, 998 }, 999 }, 1000 // Deliver everything and more out of the blue 1001 doTxEnqueue{peer: "B", txs: []*types.Transaction{testTxs[0], testTxs[1], testTxs[2], testTxs[3]}, direct: true}, 1002 isWaiting(nil), 1003 isScheduled{ 1004 tracking: nil, 1005 fetching: nil, 1006 dangling: map[string][]common.Hash{ 1007 "A": {testTxsHashes[0]}, 1008 }, 1009 }, 1010 }, 1011 }) 1012 } 1013 1014 // Tests that dropping a peer cleans out all internal data structures in all the 1015 // live or danglng stages. 1016 func TestTransactionFetcherDrop(t *testing.T) { 1017 testTransactionFetcherParallel(t, txFetcherTest{ 1018 init: func() *TxFetcher { 1019 return NewTxFetcher( 1020 func(common.Hash) bool { return false }, 1021 func(txs []*types.Transaction) []error { 1022 return make([]error, len(txs)) 1023 }, 1024 func(string, []common.Hash) error { return nil }, 1025 ) 1026 }, 1027 steps: []interface{}{ 1028 // Set up a few hashes into various stages 1029 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}}, 1030 doWait{time: txArriveTimeout, step: true}, 1031 doTxNotify{peer: "A", hashes: []common.Hash{{0x02}}}, 1032 doWait{time: txArriveTimeout, step: true}, 1033 doTxNotify{peer: "A", hashes: []common.Hash{{0x03}}}, 1034 1035 isWaiting(map[string][]common.Hash{ 1036 "A": {{0x03}}, 1037 }), 1038 isScheduled{ 1039 tracking: map[string][]common.Hash{ 1040 "A": {{0x01}, {0x02}}, 1041 }, 1042 fetching: map[string][]common.Hash{ 1043 "A": {{0x01}}, 1044 }, 1045 }, 1046 // Drop the peer and ensure everything's cleaned out 1047 doDrop("A"), 1048 isWaiting(nil), 1049 isScheduled{nil, nil, nil}, 1050 1051 // Push the node into a dangling (timeout) state 1052 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 1053 doWait{time: txArriveTimeout, step: true}, 1054 isWaiting(nil), 1055 isScheduled{ 1056 tracking: map[string][]common.Hash{ 1057 "A": {testTxsHashes[0]}, 1058 }, 1059 fetching: map[string][]common.Hash{ 1060 "A": {testTxsHashes[0]}, 1061 }, 1062 }, 1063 doWait{time: txFetchTimeout, step: true}, 1064 isWaiting(nil), 1065 isScheduled{ 1066 tracking: nil, 1067 fetching: nil, 1068 dangling: map[string][]common.Hash{ 1069 "A": {}, 1070 }, 1071 }, 1072 // Drop the peer and ensure everything's cleaned out 1073 doDrop("A"), 1074 isWaiting(nil), 1075 isScheduled{nil, nil, nil}, 1076 }, 1077 }) 1078 } 1079 1080 // Tests that dropping a peer instantly reschedules failed announcements to any 1081 // available peer. 1082 func TestTransactionFetcherDropRescheduling(t *testing.T) { 1083 testTransactionFetcherParallel(t, txFetcherTest{ 1084 init: func() *TxFetcher { 1085 return NewTxFetcher( 1086 func(common.Hash) bool { return false }, 1087 func(txs []*types.Transaction) []error { 1088 return make([]error, len(txs)) 1089 }, 1090 func(string, []common.Hash) error { return nil }, 1091 ) 1092 }, 1093 steps: []interface{}{ 1094 // Set up a few hashes into various stages 1095 doTxNotify{peer: "A", hashes: []common.Hash{{0x01}}}, 1096 doWait{time: txArriveTimeout, step: true}, 1097 doTxNotify{peer: "B", hashes: []common.Hash{{0x01}}}, 1098 1099 isWaiting(nil), 1100 isScheduled{ 1101 tracking: map[string][]common.Hash{ 1102 "A": {{0x01}}, 1103 "B": {{0x01}}, 1104 }, 1105 fetching: map[string][]common.Hash{ 1106 "A": {{0x01}}, 1107 }, 1108 }, 1109 // Drop the peer and ensure everything's cleaned out 1110 doDrop("A"), 1111 isWaiting(nil), 1112 isScheduled{ 1113 tracking: map[string][]common.Hash{ 1114 "B": {{0x01}}, 1115 }, 1116 fetching: map[string][]common.Hash{ 1117 "B": {{0x01}}, 1118 }, 1119 }, 1120 }, 1121 }) 1122 } 1123 1124 // This test reproduces a crash caught by the fuzzer. The root cause was a 1125 // dangling transaction timing out and clashing on readd with a concurrently 1126 // announced one. 1127 func TestTransactionFetcherFuzzCrash01(t *testing.T) { 1128 testTransactionFetcherParallel(t, txFetcherTest{ 1129 init: func() *TxFetcher { 1130 return NewTxFetcher( 1131 func(common.Hash) bool { return false }, 1132 func(txs []*types.Transaction) []error { 1133 return make([]error, len(txs)) 1134 }, 1135 func(string, []common.Hash) error { return nil }, 1136 ) 1137 }, 1138 steps: []interface{}{ 1139 // Get a transaction into fetching mode and make it dangling with a broadcast 1140 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 1141 doWait{time: txArriveTimeout, step: true}, 1142 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}}, 1143 1144 // Notify the dangling transaction once more and crash via a timeout 1145 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 1146 doWait{time: txFetchTimeout, step: true}, 1147 }, 1148 }) 1149 } 1150 1151 // This test reproduces a crash caught by the fuzzer. The root cause was a 1152 // dangling transaction getting peer-dropped and clashing on readd with a 1153 // concurrently announced one. 1154 func TestTransactionFetcherFuzzCrash02(t *testing.T) { 1155 testTransactionFetcherParallel(t, txFetcherTest{ 1156 init: func() *TxFetcher { 1157 return NewTxFetcher( 1158 func(common.Hash) bool { return false }, 1159 func(txs []*types.Transaction) []error { 1160 return make([]error, len(txs)) 1161 }, 1162 func(string, []common.Hash) error { return nil }, 1163 ) 1164 }, 1165 steps: []interface{}{ 1166 // Get a transaction into fetching mode and make it dangling with a broadcast 1167 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 1168 doWait{time: txArriveTimeout, step: true}, 1169 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}}, 1170 1171 // Notify the dangling transaction once more, re-fetch, and crash via a drop and timeout 1172 doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}}, 1173 doWait{time: txArriveTimeout, step: true}, 1174 doDrop("A"), 1175 doWait{time: txFetchTimeout, step: true}, 1176 }, 1177 }) 1178 } 1179 1180 // This test reproduces a crash caught by the fuzzer. The root cause was a 1181 // dangling transaction getting rescheduled via a partial delivery, clashing 1182 // with a concurrent notify. 1183 func TestTransactionFetcherFuzzCrash03(t *testing.T) { 1184 testTransactionFetcherParallel(t, txFetcherTest{ 1185 init: func() *TxFetcher { 1186 return NewTxFetcher( 1187 func(common.Hash) bool { return false }, 1188 func(txs []*types.Transaction) []error { 1189 return make([]error, len(txs)) 1190 }, 1191 func(string, []common.Hash) error { return nil }, 1192 ) 1193 }, 1194 steps: []interface{}{ 1195 // Get a transaction into fetching mode and make it dangling with a broadcast 1196 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0], testTxsHashes[1]}}, 1197 doWait{time: txFetchTimeout, step: true}, 1198 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0], testTxs[1]}}, 1199 1200 // Notify the dangling transaction once more, partially deliver, clash&crash with a timeout 1201 doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}}, 1202 doWait{time: txArriveTimeout, step: true}, 1203 1204 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[1]}, direct: true}, 1205 doWait{time: txFetchTimeout, step: true}, 1206 }, 1207 }) 1208 } 1209 1210 // This test reproduces a crash caught by the fuzzer. The root cause was a 1211 // dangling transaction getting rescheduled via a disconnect, clashing with 1212 // a concurrent notify. 1213 func TestTransactionFetcherFuzzCrash04(t *testing.T) { 1214 // Create a channel to control when tx requests can fail 1215 proceed := make(chan struct{}) 1216 1217 testTransactionFetcherParallel(t, txFetcherTest{ 1218 init: func() *TxFetcher { 1219 return NewTxFetcher( 1220 func(common.Hash) bool { return false }, 1221 func(txs []*types.Transaction) []error { 1222 return make([]error, len(txs)) 1223 }, 1224 func(string, []common.Hash) error { 1225 <-proceed 1226 return errors.New("peer disconnected") 1227 }, 1228 ) 1229 }, 1230 steps: []interface{}{ 1231 // Get a transaction into fetching mode and make it dangling with a broadcast 1232 doTxNotify{peer: "A", hashes: []common.Hash{testTxsHashes[0]}}, 1233 doWait{time: txArriveTimeout, step: true}, 1234 doTxEnqueue{peer: "A", txs: []*types.Transaction{testTxs[0]}}, 1235 1236 // Notify the dangling transaction once more, re-fetch, and crash via an in-flight disconnect 1237 doTxNotify{peer: "B", hashes: []common.Hash{testTxsHashes[0]}}, 1238 doWait{time: txArriveTimeout, step: true}, 1239 doFunc(func() { 1240 proceed <- struct{}{} // Allow peer A to return the failure 1241 }), 1242 doWait{time: 0, step: true}, 1243 doWait{time: txFetchTimeout, step: true}, 1244 }, 1245 }) 1246 } 1247 1248 func testTransactionFetcherParallel(t *testing.T, tt txFetcherTest) { 1249 t.Parallel() 1250 testTransactionFetcher(t, tt) 1251 } 1252 1253 func testTransactionFetcher(t *testing.T, tt txFetcherTest) { 1254 // Create a fetcher and hook into it's simulated fields 1255 clock := new(mclock.Simulated) 1256 wait := make(chan struct{}) 1257 1258 fetcher := tt.init() 1259 fetcher.clock = clock 1260 fetcher.step = wait 1261 fetcher.rand = rand.New(rand.NewSource(0x3a29)) 1262 1263 fetcher.Start() 1264 defer fetcher.Stop() 1265 1266 // Crunch through all the test steps and execute them 1267 for i, step := range tt.steps { 1268 switch step := step.(type) { 1269 case doTxNotify: 1270 if err := fetcher.Notify(step.peer, step.hashes); err != nil { 1271 t.Errorf("step %d: %v", i, err) 1272 } 1273 <-wait // Fetcher needs to process this, wait until it's done 1274 select { 1275 case <-wait: 1276 panic("wtf") 1277 case <-time.After(time.Millisecond): 1278 } 1279 1280 case doTxEnqueue: 1281 if err := fetcher.Enqueue(step.peer, step.txs, step.direct); err != nil { 1282 t.Errorf("step %d: %v", i, err) 1283 } 1284 <-wait // Fetcher needs to process this, wait until it's done 1285 1286 case doWait: 1287 clock.Run(step.time) 1288 if step.step { 1289 <-wait // Fetcher supposed to do something, wait until it's done 1290 } 1291 1292 case doDrop: 1293 if err := fetcher.Drop(string(step)); err != nil { 1294 t.Errorf("step %d: %v", i, err) 1295 } 1296 <-wait // Fetcher needs to process this, wait until it's done 1297 1298 case doFunc: 1299 step() 1300 1301 case isWaiting: 1302 // We need to check that the waiting list (stage 1) internals 1303 // match with the expected set. Check the peer->hash mappings 1304 // first. 1305 for peer, hashes := range step { 1306 waiting := fetcher.waitslots[peer] 1307 if waiting == nil { 1308 t.Errorf("step %d: peer %s missing from waitslots", i, peer) 1309 continue 1310 } 1311 for _, hash := range hashes { 1312 if _, ok := waiting[hash]; !ok { 1313 t.Errorf("step %d, peer %s: hash %x missing from waitslots", i, peer, hash) 1314 } 1315 } 1316 for hash := range waiting { 1317 if !containsHash(hashes, hash) { 1318 t.Errorf("step %d, peer %s: hash %x extra in waitslots", i, peer, hash) 1319 } 1320 } 1321 } 1322 for peer := range fetcher.waitslots { 1323 if _, ok := step[peer]; !ok { 1324 t.Errorf("step %d: peer %s extra in waitslots", i, peer) 1325 } 1326 } 1327 // Peer->hash sets correct, check the hash->peer and timeout sets 1328 for peer, hashes := range step { 1329 for _, hash := range hashes { 1330 if _, ok := fetcher.waitlist[hash][peer]; !ok { 1331 t.Errorf("step %d, hash %x: peer %s missing from waitlist", i, hash, peer) 1332 } 1333 if _, ok := fetcher.waittime[hash]; !ok { 1334 t.Errorf("step %d: hash %x missing from waittime", i, hash) 1335 } 1336 } 1337 } 1338 for hash, peers := range fetcher.waitlist { 1339 if len(peers) == 0 { 1340 t.Errorf("step %d, hash %x: empty peerset in waitlist", i, hash) 1341 } 1342 for peer := range peers { 1343 if !containsHash(step[peer], hash) { 1344 t.Errorf("step %d, hash %x: peer %s extra in waitlist", i, hash, peer) 1345 } 1346 } 1347 } 1348 for hash := range fetcher.waittime { 1349 var found bool 1350 for _, hashes := range step { 1351 if containsHash(hashes, hash) { 1352 found = true 1353 break 1354 } 1355 } 1356 if !found { 1357 t.Errorf("step %d,: hash %x extra in waittime", i, hash) 1358 } 1359 } 1360 1361 case isScheduled: 1362 // Check that all scheduled announces are accounted for and no 1363 // extra ones are present. 1364 for peer, hashes := range step.tracking { 1365 scheduled := fetcher.announces[peer] 1366 if scheduled == nil { 1367 t.Errorf("step %d: peer %s missing from announces", i, peer) 1368 continue 1369 } 1370 for _, hash := range hashes { 1371 if _, ok := scheduled[hash]; !ok { 1372 t.Errorf("step %d, peer %s: hash %x missing from announces", i, peer, hash) 1373 } 1374 } 1375 for hash := range scheduled { 1376 if !containsHash(hashes, hash) { 1377 t.Errorf("step %d, peer %s: hash %x extra in announces", i, peer, hash) 1378 } 1379 } 1380 } 1381 for peer := range fetcher.announces { 1382 if _, ok := step.tracking[peer]; !ok { 1383 t.Errorf("step %d: peer %s extra in announces", i, peer) 1384 } 1385 } 1386 // Check that all announces required to be fetching are in the 1387 // appropriate sets 1388 for peer, hashes := range step.fetching { 1389 request := fetcher.requests[peer] 1390 if request == nil { 1391 t.Errorf("step %d: peer %s missing from requests", i, peer) 1392 continue 1393 } 1394 for _, hash := range hashes { 1395 if !containsHash(request.hashes, hash) { 1396 t.Errorf("step %d, peer %s: hash %x missing from requests", i, peer, hash) 1397 } 1398 } 1399 for _, hash := range request.hashes { 1400 if !containsHash(hashes, hash) { 1401 t.Errorf("step %d, peer %s: hash %x extra in requests", i, peer, hash) 1402 } 1403 } 1404 } 1405 for peer := range fetcher.requests { 1406 if _, ok := step.fetching[peer]; !ok { 1407 if _, ok := step.dangling[peer]; !ok { 1408 t.Errorf("step %d: peer %s extra in requests", i, peer) 1409 } 1410 } 1411 } 1412 for peer, hashes := range step.fetching { 1413 for _, hash := range hashes { 1414 if _, ok := fetcher.fetching[hash]; !ok { 1415 t.Errorf("step %d, peer %s: hash %x missing from fetching", i, peer, hash) 1416 } 1417 } 1418 } 1419 for hash := range fetcher.fetching { 1420 var found bool 1421 for _, req := range fetcher.requests { 1422 if containsHash(req.hashes, hash) { 1423 found = true 1424 break 1425 } 1426 } 1427 if !found { 1428 t.Errorf("step %d: hash %x extra in fetching", i, hash) 1429 } 1430 } 1431 for _, hashes := range step.fetching { 1432 for _, hash := range hashes { 1433 alternates := fetcher.alternates[hash] 1434 if alternates == nil { 1435 t.Errorf("step %d: hash %x missing from alternates", i, hash) 1436 continue 1437 } 1438 for peer := range alternates { 1439 if _, ok := fetcher.announces[peer]; !ok { 1440 t.Errorf("step %d: peer %s extra in alternates", i, peer) 1441 continue 1442 } 1443 if _, ok := fetcher.announces[peer][hash]; !ok { 1444 t.Errorf("step %d, peer %s: hash %x extra in alternates", i, hash, peer) 1445 continue 1446 } 1447 } 1448 for p := range fetcher.announced[hash] { 1449 if _, ok := alternates[p]; !ok { 1450 t.Errorf("step %d, hash %x: peer %s missing from alternates", i, hash, p) 1451 continue 1452 } 1453 } 1454 } 1455 } 1456 for peer, hashes := range step.dangling { 1457 request := fetcher.requests[peer] 1458 if request == nil { 1459 t.Errorf("step %d: peer %s missing from requests", i, peer) 1460 continue 1461 } 1462 for _, hash := range hashes { 1463 if !containsHash(request.hashes, hash) { 1464 t.Errorf("step %d, peer %s: hash %x missing from requests", i, peer, hash) 1465 } 1466 } 1467 for _, hash := range request.hashes { 1468 if !containsHash(hashes, hash) { 1469 t.Errorf("step %d, peer %s: hash %x extra in requests", i, peer, hash) 1470 } 1471 } 1472 } 1473 // Check that all transaction announces that are scheduled for 1474 // retrieval but not actively being downloaded are tracked only 1475 // in the stage 2 `announced` map. 1476 var queued []common.Hash 1477 for _, hashes := range step.tracking { 1478 for _, hash := range hashes { 1479 var found bool 1480 for _, hs := range step.fetching { 1481 if containsHash(hs, hash) { 1482 found = true 1483 break 1484 } 1485 } 1486 if !found { 1487 queued = append(queued, hash) 1488 } 1489 } 1490 } 1491 for _, hash := range queued { 1492 if _, ok := fetcher.announced[hash]; !ok { 1493 t.Errorf("step %d: hash %x missing from announced", i, hash) 1494 } 1495 } 1496 for hash := range fetcher.announced { 1497 if !containsHash(queued, hash) { 1498 t.Errorf("step %d: hash %x extra in announced", i, hash) 1499 } 1500 } 1501 1502 case isUnderpriced: 1503 if fetcher.underpriced.Cardinality() != int(step) { 1504 t.Errorf("step %d: underpriced set size mismatch: have %d, want %d", i, fetcher.underpriced.Cardinality(), step) 1505 } 1506 1507 default: 1508 t.Fatalf("step %d: unknown step type %T", i, step) 1509 } 1510 // After every step, cross validate the internal uniqueness invariants 1511 // between stage one and stage two. 1512 for hash := range fetcher.waittime { 1513 if _, ok := fetcher.announced[hash]; ok { 1514 t.Errorf("step %d: hash %s present in both stage 1 and 2", i, hash) 1515 } 1516 } 1517 } 1518 } 1519 1520 // containsHash returns whether a hash is contained within a hash slice. 1521 func containsHash(slice []common.Hash, hash common.Hash) bool { 1522 for _, have := range slice { 1523 if have == hash { 1524 return true 1525 } 1526 } 1527 return false 1528 }