github.com/SmartMeshFoundation/Spectrum@v0.0.0-20220621030607-452a266fee1e/p2p/simulations/http_test.go (about) 1 // Copyright 2017 The Spectrum Authors 2 // This file is part of the Spectrum library. 3 // 4 // The Spectrum 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 Spectrum 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 Spectrum library. If not, see <http://www.gnu.org/licenses/>. 16 17 package simulations 18 19 import ( 20 "context" 21 "fmt" 22 "math/rand" 23 "net/http/httptest" 24 "reflect" 25 "sync" 26 "sync/atomic" 27 "testing" 28 "time" 29 30 "github.com/SmartMeshFoundation/Spectrum/event" 31 "github.com/SmartMeshFoundation/Spectrum/node" 32 "github.com/SmartMeshFoundation/Spectrum/p2p" 33 "github.com/SmartMeshFoundation/Spectrum/p2p/discover" 34 "github.com/SmartMeshFoundation/Spectrum/p2p/simulations/adapters" 35 "github.com/SmartMeshFoundation/Spectrum/rpc" 36 ) 37 38 // testService implements the node.Service interface and provides protocols 39 // and APIs which are useful for testing nodes in a simulation network 40 type testService struct { 41 id discover.NodeID 42 43 // peerCount is incremented once a peer handshake has been performed 44 peerCount int64 45 46 peers map[discover.NodeID]*testPeer 47 peersMtx sync.Mutex 48 49 // state stores []byte which is used to test creating and loading 50 // snapshots 51 state atomic.Value 52 } 53 54 func newTestService(ctx *adapters.ServiceContext) (node.Service, error) { 55 svc := &testService{ 56 id: ctx.Config.ID, 57 peers: make(map[discover.NodeID]*testPeer), 58 } 59 svc.state.Store(ctx.Snapshot) 60 return svc, nil 61 } 62 63 type testPeer struct { 64 testReady chan struct{} 65 dumReady chan struct{} 66 } 67 68 func (t *testService) peer(id discover.NodeID) *testPeer { 69 t.peersMtx.Lock() 70 defer t.peersMtx.Unlock() 71 if peer, ok := t.peers[id]; ok { 72 return peer 73 } 74 peer := &testPeer{ 75 testReady: make(chan struct{}), 76 dumReady: make(chan struct{}), 77 } 78 t.peers[id] = peer 79 return peer 80 } 81 82 func (t *testService) Protocols() []p2p.Protocol { 83 return []p2p.Protocol{ 84 { 85 Name: "test", 86 Version: 1, 87 Length: 3, 88 Run: t.RunTest, 89 }, 90 { 91 Name: "dum", 92 Version: 1, 93 Length: 1, 94 Run: t.RunDum, 95 }, 96 { 97 Name: "prb", 98 Version: 1, 99 Length: 1, 100 Run: t.RunPrb, 101 }, 102 } 103 } 104 105 func (t *testService) APIs() []rpc.API { 106 return []rpc.API{{ 107 Namespace: "test", 108 Version: "1.0", 109 Service: &TestAPI{ 110 state: &t.state, 111 peerCount: &t.peerCount, 112 }, 113 }} 114 } 115 116 func (t *testService) Start(server *p2p.Server) error { 117 return nil 118 } 119 120 func (t *testService) Stop() error { 121 return nil 122 } 123 124 // handshake performs a peer handshake by sending and expecting an empty 125 // message with the given code 126 func (t *testService) handshake(rw p2p.MsgReadWriter, code uint64) error { 127 errc := make(chan error, 2) 128 go func() { errc <- p2p.Send(rw, code, struct{}{}) }() 129 go func() { errc <- p2p.ExpectMsg(rw, code, struct{}{}) }() 130 for i := 0; i < 2; i++ { 131 if err := <-errc; err != nil { 132 return err 133 } 134 } 135 return nil 136 } 137 138 func (t *testService) RunTest(p *p2p.Peer, rw p2p.MsgReadWriter) error { 139 peer := t.peer(p.ID()) 140 141 // perform three handshakes with three different message codes, 142 // used to test message sending and filtering 143 if err := t.handshake(rw, 2); err != nil { 144 return err 145 } 146 if err := t.handshake(rw, 1); err != nil { 147 return err 148 } 149 if err := t.handshake(rw, 0); err != nil { 150 return err 151 } 152 153 // close the testReady channel so that other protocols can run 154 close(peer.testReady) 155 156 // track the peer 157 atomic.AddInt64(&t.peerCount, 1) 158 defer atomic.AddInt64(&t.peerCount, -1) 159 160 // block until the peer is dropped 161 for { 162 _, err := rw.ReadMsg() 163 if err != nil { 164 return err 165 } 166 } 167 } 168 169 func (t *testService) RunDum(p *p2p.Peer, rw p2p.MsgReadWriter) error { 170 peer := t.peer(p.ID()) 171 172 // wait for the test protocol to perform its handshake 173 <-peer.testReady 174 175 // perform a handshake 176 if err := t.handshake(rw, 0); err != nil { 177 return err 178 } 179 180 // close the dumReady channel so that other protocols can run 181 close(peer.dumReady) 182 183 // block until the peer is dropped 184 for { 185 _, err := rw.ReadMsg() 186 if err != nil { 187 return err 188 } 189 } 190 } 191 func (t *testService) RunPrb(p *p2p.Peer, rw p2p.MsgReadWriter) error { 192 peer := t.peer(p.ID()) 193 194 // wait for the dum protocol to perform its handshake 195 <-peer.dumReady 196 197 // perform a handshake 198 if err := t.handshake(rw, 0); err != nil { 199 return err 200 } 201 202 // block until the peer is dropped 203 for { 204 _, err := rw.ReadMsg() 205 if err != nil { 206 return err 207 } 208 } 209 } 210 211 func (t *testService) Snapshot() ([]byte, error) { 212 return t.state.Load().([]byte), nil 213 } 214 215 // TestAPI provides a test API to: 216 // * get the peer count 217 // * get and set an arbitrary state byte slice 218 // * get and increment a counter 219 // * subscribe to counter increment events 220 type TestAPI struct { 221 state *atomic.Value 222 peerCount *int64 223 counter int64 224 feed event.Feed 225 } 226 227 func (t *TestAPI) PeerCount() int64 { 228 return atomic.LoadInt64(t.peerCount) 229 } 230 231 func (t *TestAPI) Get() int64 { 232 return atomic.LoadInt64(&t.counter) 233 } 234 235 func (t *TestAPI) Add(delta int64) { 236 atomic.AddInt64(&t.counter, delta) 237 t.feed.Send(delta) 238 } 239 240 func (t *TestAPI) GetState() []byte { 241 return t.state.Load().([]byte) 242 } 243 244 func (t *TestAPI) SetState(state []byte) { 245 t.state.Store(state) 246 } 247 248 func (t *TestAPI) Events(ctx context.Context) (*rpc.Subscription, error) { 249 notifier, supported := rpc.NotifierFromContext(ctx) 250 if !supported { 251 return nil, rpc.ErrNotificationsUnsupported 252 } 253 254 rpcSub := notifier.CreateSubscription() 255 256 go func() { 257 events := make(chan int64) 258 sub := t.feed.Subscribe(events) 259 defer sub.Unsubscribe() 260 261 for { 262 select { 263 case event := <-events: 264 notifier.Notify(rpcSub.ID, event) 265 case <-sub.Err(): 266 return 267 case <-rpcSub.Err(): 268 return 269 case <-notifier.Closed(): 270 return 271 } 272 } 273 }() 274 275 return rpcSub, nil 276 } 277 278 var testServices = adapters.Services{ 279 "test": newTestService, 280 } 281 282 func testHTTPServer(t *testing.T) (*Network, *httptest.Server) { 283 adapter := adapters.NewSimAdapter(testServices) 284 network := NewNetwork(adapter, &NetworkConfig{ 285 DefaultService: "test", 286 }) 287 return network, httptest.NewServer(NewServer(network)) 288 } 289 290 // TestHTTPNetwork tests interacting with a simulation network using the HTTP 291 // API 292 func TestHTTPNetwork(t *testing.T) { 293 // start the server 294 network, s := testHTTPServer(t) 295 defer s.Close() 296 297 // subscribe to events so we can check them later 298 client := NewClient(s.URL) 299 events := make(chan *Event, 100) 300 var opts SubscribeOpts 301 sub, err := client.SubscribeNetwork(events, opts) 302 if err != nil { 303 t.Fatalf("error subscribing to network events: %s", err) 304 } 305 defer sub.Unsubscribe() 306 307 // check we can retrieve details about the network 308 gotNetwork, err := client.GetNetwork() 309 if err != nil { 310 t.Fatalf("error getting network: %s", err) 311 } 312 if gotNetwork.ID != network.ID { 313 t.Fatalf("expected network to have ID %q, got %q", network.ID, gotNetwork.ID) 314 } 315 316 // start a simulation network 317 nodeIDs := startTestNetwork(t, client) 318 319 // check we got all the events 320 x := &expectEvents{t, events, sub} 321 x.expect( 322 x.nodeEvent(nodeIDs[0], false), 323 x.nodeEvent(nodeIDs[1], false), 324 x.nodeEvent(nodeIDs[0], true), 325 x.nodeEvent(nodeIDs[1], true), 326 x.connEvent(nodeIDs[0], nodeIDs[1], false), 327 x.connEvent(nodeIDs[0], nodeIDs[1], true), 328 ) 329 330 // reconnect the stream and check we get the current nodes and conns 331 events = make(chan *Event, 100) 332 opts.Current = true 333 sub, err = client.SubscribeNetwork(events, opts) 334 if err != nil { 335 t.Fatalf("error subscribing to network events: %s", err) 336 } 337 defer sub.Unsubscribe() 338 x = &expectEvents{t, events, sub} 339 x.expect( 340 x.nodeEvent(nodeIDs[0], true), 341 x.nodeEvent(nodeIDs[1], true), 342 x.connEvent(nodeIDs[0], nodeIDs[1], true), 343 ) 344 } 345 346 func startTestNetwork(t *testing.T, client *Client) []string { 347 // create two nodes 348 nodeCount := 2 349 nodeIDs := make([]string, nodeCount) 350 for i := 0; i < nodeCount; i++ { 351 node, err := client.CreateNode(nil) 352 if err != nil { 353 t.Fatalf("error creating node: %s", err) 354 } 355 nodeIDs[i] = node.ID 356 } 357 358 // check both nodes exist 359 nodes, err := client.GetNodes() 360 if err != nil { 361 t.Fatalf("error getting nodes: %s", err) 362 } 363 if len(nodes) != nodeCount { 364 t.Fatalf("expected %d nodes, got %d", nodeCount, len(nodes)) 365 } 366 for i, nodeID := range nodeIDs { 367 if nodes[i].ID != nodeID { 368 t.Fatalf("expected node %d to have ID %q, got %q", i, nodeID, nodes[i].ID) 369 } 370 node, err := client.GetNode(nodeID) 371 if err != nil { 372 t.Fatalf("error getting node %d: %s", i, err) 373 } 374 if node.ID != nodeID { 375 t.Fatalf("expected node %d to have ID %q, got %q", i, nodeID, node.ID) 376 } 377 } 378 379 // start both nodes 380 for _, nodeID := range nodeIDs { 381 if err := client.StartNode(nodeID); err != nil { 382 t.Fatalf("error starting node %q: %s", nodeID, err) 383 } 384 } 385 386 // connect the nodes 387 for i := 0; i < nodeCount-1; i++ { 388 peerId := i + 1 389 if i == nodeCount-1 { 390 peerId = 0 391 } 392 if err := client.ConnectNode(nodeIDs[i], nodeIDs[peerId]); err != nil { 393 t.Fatalf("error connecting nodes: %s", err) 394 } 395 } 396 397 return nodeIDs 398 } 399 400 type expectEvents struct { 401 *testing.T 402 403 events chan *Event 404 sub event.Subscription 405 } 406 407 func (t *expectEvents) nodeEvent(id string, up bool) *Event { 408 return &Event{ 409 Type: EventTypeNode, 410 Node: &Node{ 411 Config: &adapters.NodeConfig{ 412 ID: discover.MustHexID(id), 413 }, 414 Up: up, 415 }, 416 } 417 } 418 419 func (t *expectEvents) connEvent(one, other string, up bool) *Event { 420 return &Event{ 421 Type: EventTypeConn, 422 Conn: &Conn{ 423 One: discover.MustHexID(one), 424 Other: discover.MustHexID(other), 425 Up: up, 426 }, 427 } 428 } 429 430 func (t *expectEvents) expectMsgs(expected map[MsgFilter]int) { 431 actual := make(map[MsgFilter]int) 432 timeout := time.After(10 * time.Second) 433 loop: 434 for { 435 select { 436 case event := <-t.events: 437 t.Logf("received %s event: %s", event.Type, event) 438 439 if event.Type != EventTypeMsg || event.Msg.Received { 440 continue loop 441 } 442 if event.Msg == nil { 443 t.Fatal("expected event.Msg to be set") 444 } 445 filter := MsgFilter{ 446 Proto: event.Msg.Protocol, 447 Code: int64(event.Msg.Code), 448 } 449 actual[filter]++ 450 if actual[filter] > expected[filter] { 451 t.Fatalf("received too many msgs for filter: %v", filter) 452 } 453 if reflect.DeepEqual(actual, expected) { 454 return 455 } 456 457 case err := <-t.sub.Err(): 458 t.Fatalf("network stream closed unexpectedly: %s", err) 459 460 case <-timeout: 461 t.Fatal("timed out waiting for expected events") 462 } 463 } 464 } 465 466 func (t *expectEvents) expect(events ...*Event) { 467 timeout := time.After(10 * time.Second) 468 i := 0 469 for { 470 select { 471 case event := <-t.events: 472 t.Logf("received %s event: %s", event.Type, event) 473 474 expected := events[i] 475 if event.Type != expected.Type { 476 t.Fatalf("expected event %d to have type %q, got %q", i, expected.Type, event.Type) 477 } 478 479 switch expected.Type { 480 481 case EventTypeNode: 482 if event.Node == nil { 483 t.Fatal("expected event.Node to be set") 484 } 485 if event.Node.ID() != expected.Node.ID() { 486 t.Fatalf("expected node event %d to have id %q, got %q", i, expected.Node.ID().TerminalString(), event.Node.ID().TerminalString()) 487 } 488 if event.Node.Up != expected.Node.Up { 489 t.Fatalf("expected node event %d to have up=%t, got up=%t", i, expected.Node.Up, event.Node.Up) 490 } 491 492 case EventTypeConn: 493 if event.Conn == nil { 494 t.Fatal("expected event.Conn to be set") 495 } 496 if event.Conn.One != expected.Conn.One { 497 t.Fatalf("expected conn event %d to have one=%q, got one=%q", i, expected.Conn.One.TerminalString(), event.Conn.One.TerminalString()) 498 } 499 if event.Conn.Other != expected.Conn.Other { 500 t.Fatalf("expected conn event %d to have other=%q, got other=%q", i, expected.Conn.Other.TerminalString(), event.Conn.Other.TerminalString()) 501 } 502 if event.Conn.Up != expected.Conn.Up { 503 t.Fatalf("expected conn event %d to have up=%t, got up=%t", i, expected.Conn.Up, event.Conn.Up) 504 } 505 506 } 507 508 i++ 509 if i == len(events) { 510 return 511 } 512 513 case err := <-t.sub.Err(): 514 t.Fatalf("network stream closed unexpectedly: %s", err) 515 516 case <-timeout: 517 t.Fatal("timed out waiting for expected events") 518 } 519 } 520 } 521 522 // TestHTTPNodeRPC tests calling RPC methods on nodes via the HTTP API 523 func TestHTTPNodeRPC(t *testing.T) { 524 // start the server 525 _, s := testHTTPServer(t) 526 defer s.Close() 527 528 // start a node in the network 529 client := NewClient(s.URL) 530 node, err := client.CreateNode(nil) 531 if err != nil { 532 t.Fatalf("error creating node: %s", err) 533 } 534 if err := client.StartNode(node.ID); err != nil { 535 t.Fatalf("error starting node: %s", err) 536 } 537 538 // create two RPC clients 539 ctx, cancel := context.WithTimeout(context.Background(), 10*time.Second) 540 defer cancel() 541 rpcClient1, err := client.RPCClient(ctx, node.ID) 542 if err != nil { 543 t.Fatalf("error getting node RPC client: %s", err) 544 } 545 rpcClient2, err := client.RPCClient(ctx, node.ID) 546 if err != nil { 547 t.Fatalf("error getting node RPC client: %s", err) 548 } 549 550 // subscribe to events using client 1 551 events := make(chan int64, 1) 552 sub, err := rpcClient1.Subscribe(ctx, "test", events, "events") 553 if err != nil { 554 t.Fatalf("error subscribing to events: %s", err) 555 } 556 defer sub.Unsubscribe() 557 558 // call some RPC methods using client 2 559 if err := rpcClient2.CallContext(ctx, nil, "test_add", 10); err != nil { 560 t.Fatalf("error calling RPC method: %s", err) 561 } 562 var result int64 563 if err := rpcClient2.CallContext(ctx, &result, "test_get"); err != nil { 564 t.Fatalf("error calling RPC method: %s", err) 565 } 566 if result != 10 { 567 t.Fatalf("expected result to be 10, got %d", result) 568 } 569 570 // check we got an event from client 1 571 select { 572 case event := <-events: 573 if event != 10 { 574 t.Fatalf("expected event to be 10, got %d", event) 575 } 576 case <-ctx.Done(): 577 t.Fatal(ctx.Err()) 578 } 579 } 580 581 // TestHTTPSnapshot tests creating and loading network snapshots 582 func TestHTTPSnapshot(t *testing.T) { 583 // start the server 584 _, s := testHTTPServer(t) 585 defer s.Close() 586 587 // create a two-node network 588 client := NewClient(s.URL) 589 nodeCount := 2 590 nodes := make([]*p2p.NodeInfo, nodeCount) 591 for i := 0; i < nodeCount; i++ { 592 node, err := client.CreateNode(nil) 593 if err != nil { 594 t.Fatalf("error creating node: %s", err) 595 } 596 if err := client.StartNode(node.ID); err != nil { 597 t.Fatalf("error starting node: %s", err) 598 } 599 nodes[i] = node 600 } 601 if err := client.ConnectNode(nodes[0].ID, nodes[1].ID); err != nil { 602 t.Fatalf("error connecting nodes: %s", err) 603 } 604 605 // store some state in the test services 606 states := make([]string, nodeCount) 607 for i, node := range nodes { 608 rpc, err := client.RPCClient(context.Background(), node.ID) 609 if err != nil { 610 t.Fatalf("error getting RPC client: %s", err) 611 } 612 defer rpc.Close() 613 state := fmt.Sprintf("%x", rand.Int()) 614 if err := rpc.Call(nil, "test_setState", []byte(state)); err != nil { 615 t.Fatalf("error setting service state: %s", err) 616 } 617 states[i] = state 618 } 619 620 // create a snapshot 621 snap, err := client.CreateSnapshot() 622 if err != nil { 623 t.Fatalf("error creating snapshot: %s", err) 624 } 625 for i, state := range states { 626 gotState := snap.Nodes[i].Snapshots["test"] 627 if string(gotState) != state { 628 t.Fatalf("expected snapshot state %q, got %q", state, gotState) 629 } 630 } 631 632 // create another network 633 _, s = testHTTPServer(t) 634 defer s.Close() 635 client = NewClient(s.URL) 636 637 // subscribe to events so we can check them later 638 events := make(chan *Event, 100) 639 var opts SubscribeOpts 640 sub, err := client.SubscribeNetwork(events, opts) 641 if err != nil { 642 t.Fatalf("error subscribing to network events: %s", err) 643 } 644 defer sub.Unsubscribe() 645 646 // load the snapshot 647 if err := client.LoadSnapshot(snap); err != nil { 648 t.Fatalf("error loading snapshot: %s", err) 649 } 650 651 // check the nodes and connection exists 652 net, err := client.GetNetwork() 653 if err != nil { 654 t.Fatalf("error getting network: %s", err) 655 } 656 if len(net.Nodes) != nodeCount { 657 t.Fatalf("expected network to have %d nodes, got %d", nodeCount, len(net.Nodes)) 658 } 659 for i, node := range nodes { 660 id := net.Nodes[i].ID().String() 661 if id != node.ID { 662 t.Fatalf("expected node %d to have ID %s, got %s", i, node.ID, id) 663 } 664 } 665 if len(net.Conns) != 1 { 666 t.Fatalf("expected network to have 1 connection, got %d", len(net.Conns)) 667 } 668 conn := net.Conns[0] 669 if conn.One.String() != nodes[0].ID { 670 t.Fatalf("expected connection to have one=%q, got one=%q", nodes[0].ID, conn.One) 671 } 672 if conn.Other.String() != nodes[1].ID { 673 t.Fatalf("expected connection to have other=%q, got other=%q", nodes[1].ID, conn.Other) 674 } 675 676 // check the node states were restored 677 for i, node := range nodes { 678 rpc, err := client.RPCClient(context.Background(), node.ID) 679 if err != nil { 680 t.Fatalf("error getting RPC client: %s", err) 681 } 682 defer rpc.Close() 683 var state []byte 684 if err := rpc.Call(&state, "test_getState"); err != nil { 685 t.Fatalf("error getting service state: %s", err) 686 } 687 if string(state) != states[i] { 688 t.Fatalf("expected snapshot state %q, got %q", states[i], state) 689 } 690 } 691 692 // check we got all the events 693 x := &expectEvents{t, events, sub} 694 x.expect( 695 x.nodeEvent(nodes[0].ID, false), 696 x.nodeEvent(nodes[0].ID, true), 697 x.nodeEvent(nodes[1].ID, false), 698 x.nodeEvent(nodes[1].ID, true), 699 x.connEvent(nodes[0].ID, nodes[1].ID, false), 700 x.connEvent(nodes[0].ID, nodes[1].ID, true), 701 ) 702 } 703 704 // TestMsgFilterPassMultiple tests streaming message events using a filter 705 // with multiple protocols 706 func TestMsgFilterPassMultiple(t *testing.T) { 707 // start the server 708 _, s := testHTTPServer(t) 709 defer s.Close() 710 711 // subscribe to events with a message filter 712 client := NewClient(s.URL) 713 events := make(chan *Event, 10) 714 opts := SubscribeOpts{ 715 Filter: "prb:0-test:0", 716 } 717 sub, err := client.SubscribeNetwork(events, opts) 718 if err != nil { 719 t.Fatalf("error subscribing to network events: %s", err) 720 } 721 defer sub.Unsubscribe() 722 723 // start a simulation network 724 startTestNetwork(t, client) 725 726 // check we got the expected events 727 x := &expectEvents{t, events, sub} 728 x.expectMsgs(map[MsgFilter]int{ 729 {"test", 0}: 2, 730 {"prb", 0}: 2, 731 }) 732 } 733 734 // TestMsgFilterPassWildcard tests streaming message events using a filter 735 // with a code wildcard 736 func TestMsgFilterPassWildcard(t *testing.T) { 737 // start the server 738 _, s := testHTTPServer(t) 739 defer s.Close() 740 741 // subscribe to events with a message filter 742 client := NewClient(s.URL) 743 events := make(chan *Event, 10) 744 opts := SubscribeOpts{ 745 Filter: "prb:0,2-test:*", 746 } 747 sub, err := client.SubscribeNetwork(events, opts) 748 if err != nil { 749 t.Fatalf("error subscribing to network events: %s", err) 750 } 751 defer sub.Unsubscribe() 752 753 // start a simulation network 754 startTestNetwork(t, client) 755 756 // check we got the expected events 757 x := &expectEvents{t, events, sub} 758 x.expectMsgs(map[MsgFilter]int{ 759 {"test", 2}: 2, 760 {"test", 1}: 2, 761 {"test", 0}: 2, 762 {"prb", 0}: 2, 763 }) 764 } 765 766 // TestMsgFilterPassSingle tests streaming message events using a filter 767 // with a single protocol and code 768 func TestMsgFilterPassSingle(t *testing.T) { 769 // start the server 770 _, s := testHTTPServer(t) 771 defer s.Close() 772 773 // subscribe to events with a message filter 774 client := NewClient(s.URL) 775 events := make(chan *Event, 10) 776 opts := SubscribeOpts{ 777 Filter: "dum:0", 778 } 779 sub, err := client.SubscribeNetwork(events, opts) 780 if err != nil { 781 t.Fatalf("error subscribing to network events: %s", err) 782 } 783 defer sub.Unsubscribe() 784 785 // start a simulation network 786 startTestNetwork(t, client) 787 788 // check we got the expected events 789 x := &expectEvents{t, events, sub} 790 x.expectMsgs(map[MsgFilter]int{ 791 {"dum", 0}: 2, 792 }) 793 } 794 795 // TestMsgFilterPassSingle tests streaming message events using an invalid 796 // filter 797 func TestMsgFilterFailBadParams(t *testing.T) { 798 // start the server 799 _, s := testHTTPServer(t) 800 defer s.Close() 801 802 client := NewClient(s.URL) 803 events := make(chan *Event, 10) 804 opts := SubscribeOpts{ 805 Filter: "foo:", 806 } 807 _, err := client.SubscribeNetwork(events, opts) 808 if err == nil { 809 t.Fatalf("expected event subscription to fail but succeeded!") 810 } 811 812 opts.Filter = "bzz:aa" 813 _, err = client.SubscribeNetwork(events, opts) 814 if err == nil { 815 t.Fatalf("expected event subscription to fail but succeeded!") 816 } 817 818 opts.Filter = "invalid" 819 _, err = client.SubscribeNetwork(events, opts) 820 if err == nil { 821 t.Fatalf("expected event subscription to fail but succeeded!") 822 } 823 }