package consensus import ( "context" "fmt" "os" "runtime" "runtime/pprof" "sync" "testing" "time" "github.com/tendermint/tendermint/abci/example/kvstore" cmn "github.com/tendermint/tendermint/libs/common" "github.com/tendermint/tendermint/libs/log" cfg "github.com/tendermint/tendermint/config" "github.com/tendermint/tendermint/p2p" p2pdummy "github.com/tendermint/tendermint/p2p/dummy" "github.com/tendermint/tendermint/types" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func init() { config = ResetConfig("consensus_reactor_test") } //---------------------------------------------- // in-process testnets func startConsensusNet(t *testing.T, css []*ConsensusState, N int) ([]*ConsensusReactor, []chan interface{}, []*types.EventBus) { reactors := make([]*ConsensusReactor, N) eventChans := make([]chan interface{}, N) eventBuses := make([]*types.EventBus, N) for i := 0; i < N; i++ { /*logger, err := tmflags.ParseLogLevel("consensus:info,*:error", logger, "info") if err != nil { t.Fatal(err)}*/ reactors[i] = NewConsensusReactor(css[i], true) // so we dont start the consensus states reactors[i].SetLogger(css[i].Logger) // eventBus is already started with the cs eventBuses[i] = css[i].eventBus reactors[i].SetEventBus(eventBuses[i]) eventChans[i] = make(chan interface{}, 1) err := eventBuses[i].Subscribe(context.Background(), testSubscriber, types.EventQueryNewBlock, eventChans[i]) require.NoError(t, err) } // make connected switches and start all reactors p2p.MakeConnectedSwitches(config.P2P, N, func(i int, s *p2p.Switch) *p2p.Switch { s.AddReactor("CONSENSUS", reactors[i]) s.SetLogger(reactors[i].conS.Logger.With("module", "p2p")) return s }, p2p.Connect2Switches) // now that everyone is connected, start the state machines // If we started the state machines before everyone was connected, // we'd block when the cs fires NewBlockEvent and the peers are trying to start their reactors // TODO: is this still true with new pubsub? for i := 0; i < N; i++ { s := reactors[i].conS.GetState() reactors[i].SwitchToConsensus(s, 0) } return reactors, eventChans, eventBuses } func stopConsensusNet(logger log.Logger, reactors []*ConsensusReactor, eventBuses []*types.EventBus) { logger.Info("stopConsensusNet", "n", len(reactors)) for i, r := range reactors { logger.Info("stopConsensusNet: Stopping ConsensusReactor", "i", i) r.Switch.Stop() } for i, b := range eventBuses { logger.Info("stopConsensusNet: Stopping eventBus", "i", i) b.Stop() } logger.Info("stopConsensusNet: DONE", "n", len(reactors)) } // Ensure a testnet makes blocks func TestReactorBasic(t *testing.T) { N := 4 css := randConsensusNet(N, "consensus_reactor_test", newMockTickerFunc(true), newCounter) reactors, eventChans, eventBuses := startConsensusNet(t, css, N) defer stopConsensusNet(log.TestingLogger(), reactors, eventBuses) // wait till everyone makes the first new block timeoutWaitGroup(t, N, func(j int) { <-eventChans[j] }, css) } // Ensure a testnet sends proposal heartbeats and makes blocks when there are txs func TestReactorProposalHeartbeats(t *testing.T) { N := 4 css := randConsensusNet(N, "consensus_reactor_test", newMockTickerFunc(true), newCounter, func(c *cfg.Config) { c.Consensus.CreateEmptyBlocks = false }) reactors, eventChans, eventBuses := startConsensusNet(t, css, N) defer stopConsensusNet(log.TestingLogger(), reactors, eventBuses) heartbeatChans := make([]chan interface{}, N) var err error for i := 0; i < N; i++ { heartbeatChans[i] = make(chan interface{}, 1) err = eventBuses[i].Subscribe(context.Background(), testSubscriber, types.EventQueryProposalHeartbeat, heartbeatChans[i]) require.NoError(t, err) } // wait till everyone sends a proposal heartbeat timeoutWaitGroup(t, N, func(j int) { <-heartbeatChans[j] }, css) // send a tx if err := css[3].mempool.CheckTx([]byte{1, 2, 3}, nil); err != nil { //t.Fatal(err) } // wait till everyone makes the first new block timeoutWaitGroup(t, N, func(j int) { <-eventChans[j] }, css) } // Test we record block parts from other peers func TestReactorRecordsBlockParts(t *testing.T) { // create dummy peer peer := p2pdummy.NewPeer() ps := NewPeerState(peer).SetLogger(log.TestingLogger()) peer.Set(types.PeerStateKey, ps) // create reactor css := randConsensusNet(1, "consensus_reactor_records_block_parts_test", newMockTickerFunc(true), newPersistentKVStore) reactor := NewConsensusReactor(css[0], false) // so we dont start the consensus states reactor.SetEventBus(css[0].eventBus) reactor.SetLogger(log.TestingLogger()) sw := p2p.MakeSwitch(cfg.DefaultP2PConfig(), 1, "testing", "123.123.123", func(i int, sw *p2p.Switch) *p2p.Switch { return sw }) reactor.SetSwitch(sw) err := reactor.Start() require.NoError(t, err) defer reactor.Stop() // 1) new block part parts := types.NewPartSetFromData(cmn.RandBytes(100), 10) msg := &BlockPartMessage{ Height: 2, Round: 0, Part: parts.GetPart(0), } bz, err := cdc.MarshalBinaryBare(msg) require.NoError(t, err) reactor.Receive(DataChannel, peer, bz) require.Equal(t, 1, ps.BlockPartsSent(), "number of block parts sent should have increased by 1") // 2) block part with the same height, but different round msg.Round = 1 bz, err = cdc.MarshalBinaryBare(msg) require.NoError(t, err) reactor.Receive(DataChannel, peer, bz) require.Equal(t, 1, ps.BlockPartsSent(), "number of block parts sent should stay the same") // 3) block part from earlier height msg.Height = 1 msg.Round = 0 bz, err = cdc.MarshalBinaryBare(msg) require.NoError(t, err) reactor.Receive(DataChannel, peer, bz) require.Equal(t, 1, ps.BlockPartsSent(), "number of block parts sent should stay the same") } // Test we record votes from other peers. func TestReactorRecordsVotes(t *testing.T) { // Create dummy peer. peer := p2pdummy.NewPeer() ps := NewPeerState(peer).SetLogger(log.TestingLogger()) peer.Set(types.PeerStateKey, ps) // Create reactor. css := randConsensusNet(1, "consensus_reactor_records_votes_test", newMockTickerFunc(true), newPersistentKVStore) reactor := NewConsensusReactor(css[0], false) // so we dont start the consensus states reactor.SetEventBus(css[0].eventBus) reactor.SetLogger(log.TestingLogger()) sw := p2p.MakeSwitch(cfg.DefaultP2PConfig(), 1, "testing", "123.123.123", func(i int, sw *p2p.Switch) *p2p.Switch { return sw }) reactor.SetSwitch(sw) err := reactor.Start() require.NoError(t, err) defer reactor.Stop() _, val := css[0].state.Validators.GetByIndex(0) // 1) new vote vote := &types.Vote{ ValidatorIndex: 0, ValidatorAddress: val.Address, Height: 2, Round: 0, Timestamp: time.Now().UTC(), Type: types.VoteTypePrevote, BlockID: types.BlockID{}, } bz, err := cdc.MarshalBinaryBare(&VoteMessage{vote}) require.NoError(t, err) reactor.Receive(VoteChannel, peer, bz) assert.Equal(t, 1, ps.VotesSent(), "number of votes sent should have increased by 1") // 2) vote with the same height, but different round vote.Round = 1 bz, err = cdc.MarshalBinaryBare(&VoteMessage{vote}) require.NoError(t, err) reactor.Receive(VoteChannel, peer, bz) assert.Equal(t, 1, ps.VotesSent(), "number of votes sent should stay the same") // 3) vote from earlier height vote.Height = 1 vote.Round = 0 bz, err = cdc.MarshalBinaryBare(&VoteMessage{vote}) require.NoError(t, err) reactor.Receive(VoteChannel, peer, bz) assert.Equal(t, 1, ps.VotesSent(), "number of votes sent should stay the same") } //------------------------------------------------------------- // ensure we can make blocks despite cycling a validator set func TestReactorVotingPowerChange(t *testing.T) { nVals := 4 logger := log.TestingLogger() css := randConsensusNet(nVals, "consensus_voting_power_changes_test", newMockTickerFunc(true), newPersistentKVStore) reactors, eventChans, eventBuses := startConsensusNet(t, css, nVals) defer stopConsensusNet(logger, reactors, eventBuses) // map of active validators activeVals := make(map[string]struct{}) for i := 0; i < nVals; i++ { activeVals[string(css[i].privValidator.GetAddress())] = struct{}{} } // wait till everyone makes block 1 timeoutWaitGroup(t, nVals, func(j int) { <-eventChans[j] }, css) //--------------------------------------------------------------------------- logger.Debug("---------------------------- Testing changing the voting power of one validator a few times") val1PubKey := css[0].privValidator.GetPubKey() val1PubKeyABCI := types.TM2PB.PubKey(val1PubKey) updateValidatorTx := kvstore.MakeValSetChangeTx(val1PubKeyABCI, 25) previousTotalVotingPower := css[0].GetRoundState().LastValidators.TotalVotingPower() waitForAndValidateBlock(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlockWithTx(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) if css[0].GetRoundState().LastValidators.TotalVotingPower() == previousTotalVotingPower { t.Fatalf("expected voting power to change (before: %d, after: %d)", previousTotalVotingPower, css[0].GetRoundState().LastValidators.TotalVotingPower()) } updateValidatorTx = kvstore.MakeValSetChangeTx(val1PubKeyABCI, 2) previousTotalVotingPower = css[0].GetRoundState().LastValidators.TotalVotingPower() waitForAndValidateBlock(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlockWithTx(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) if css[0].GetRoundState().LastValidators.TotalVotingPower() == previousTotalVotingPower { t.Fatalf("expected voting power to change (before: %d, after: %d)", previousTotalVotingPower, css[0].GetRoundState().LastValidators.TotalVotingPower()) } updateValidatorTx = kvstore.MakeValSetChangeTx(val1PubKeyABCI, 26) previousTotalVotingPower = css[0].GetRoundState().LastValidators.TotalVotingPower() waitForAndValidateBlock(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlockWithTx(t, nVals, activeVals, eventChans, css, updateValidatorTx) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) waitForAndValidateBlock(t, nVals, activeVals, eventChans, css) if css[0].GetRoundState().LastValidators.TotalVotingPower() == previousTotalVotingPower { t.Fatalf("expected voting power to change (before: %d, after: %d)", previousTotalVotingPower, css[0].GetRoundState().LastValidators.TotalVotingPower()) } } func TestReactorValidatorSetChanges(t *testing.T) { nPeers := 7 nVals := 4 css := randConsensusNetWithPeers(nVals, nPeers, "consensus_val_set_changes_test", newMockTickerFunc(true), newPersistentKVStore) logger := log.TestingLogger() reactors, eventChans, eventBuses := startConsensusNet(t, css, nPeers) defer stopConsensusNet(logger, reactors, eventBuses) // map of active validators activeVals := make(map[string]struct{}) for i := 0; i < nVals; i++ { activeVals[string(css[i].privValidator.GetAddress())] = struct{}{} } // wait till everyone makes block 1 timeoutWaitGroup(t, nPeers, func(j int) { <-eventChans[j] }, css) //--------------------------------------------------------------------------- logger.Info("---------------------------- Testing adding one validator") newValidatorPubKey1 := css[nVals].privValidator.GetPubKey() valPubKey1ABCI := types.TM2PB.PubKey(newValidatorPubKey1) newValidatorTx1 := kvstore.MakeValSetChangeTx(valPubKey1ABCI, testMinPower) // wait till everyone makes block 2 // ensure the commit includes all validators // send newValTx to change vals in block 3 waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css, newValidatorTx1) // wait till everyone makes block 3. // it includes the commit for block 2, which is by the original validator set waitForAndValidateBlockWithTx(t, nPeers, activeVals, eventChans, css, newValidatorTx1) // wait till everyone makes block 4. // it includes the commit for block 3, which is by the original validator set waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css) // the commits for block 4 should be with the updated validator set activeVals[string(newValidatorPubKey1.Address())] = struct{}{} // wait till everyone makes block 5 // it includes the commit for block 4, which should have the updated validator set waitForBlockWithUpdatedValsAndValidateIt(t, nPeers, activeVals, eventChans, css) //--------------------------------------------------------------------------- logger.Info("---------------------------- Testing changing the voting power of one validator") updateValidatorPubKey1 := css[nVals].privValidator.GetPubKey() updatePubKey1ABCI := types.TM2PB.PubKey(updateValidatorPubKey1) updateValidatorTx1 := kvstore.MakeValSetChangeTx(updatePubKey1ABCI, 25) previousTotalVotingPower := css[nVals].GetRoundState().LastValidators.TotalVotingPower() waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css, updateValidatorTx1) waitForAndValidateBlockWithTx(t, nPeers, activeVals, eventChans, css, updateValidatorTx1) waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css) waitForBlockWithUpdatedValsAndValidateIt(t, nPeers, activeVals, eventChans, css) if css[nVals].GetRoundState().LastValidators.TotalVotingPower() == previousTotalVotingPower { t.Errorf("expected voting power to change (before: %d, after: %d)", previousTotalVotingPower, css[nVals].GetRoundState().LastValidators.TotalVotingPower()) } //--------------------------------------------------------------------------- logger.Info("---------------------------- Testing adding two validators at once") newValidatorPubKey2 := css[nVals+1].privValidator.GetPubKey() newVal2ABCI := types.TM2PB.PubKey(newValidatorPubKey2) newValidatorTx2 := kvstore.MakeValSetChangeTx(newVal2ABCI, testMinPower) newValidatorPubKey3 := css[nVals+2].privValidator.GetPubKey() newVal3ABCI := types.TM2PB.PubKey(newValidatorPubKey3) newValidatorTx3 := kvstore.MakeValSetChangeTx(newVal3ABCI, testMinPower) waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css, newValidatorTx2, newValidatorTx3) waitForAndValidateBlockWithTx(t, nPeers, activeVals, eventChans, css, newValidatorTx2, newValidatorTx3) waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css) activeVals[string(newValidatorPubKey2.Address())] = struct{}{} activeVals[string(newValidatorPubKey3.Address())] = struct{}{} waitForBlockWithUpdatedValsAndValidateIt(t, nPeers, activeVals, eventChans, css) //--------------------------------------------------------------------------- logger.Info("---------------------------- Testing removing two validators at once") removeValidatorTx2 := kvstore.MakeValSetChangeTx(newVal2ABCI, 0) removeValidatorTx3 := kvstore.MakeValSetChangeTx(newVal3ABCI, 0) waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css, removeValidatorTx2, removeValidatorTx3) waitForAndValidateBlockWithTx(t, nPeers, activeVals, eventChans, css, removeValidatorTx2, removeValidatorTx3) waitForAndValidateBlock(t, nPeers, activeVals, eventChans, css) delete(activeVals, string(newValidatorPubKey2.Address())) delete(activeVals, string(newValidatorPubKey3.Address())) waitForBlockWithUpdatedValsAndValidateIt(t, nPeers, activeVals, eventChans, css) } // Check we can make blocks with skip_timeout_commit=false func TestReactorWithTimeoutCommit(t *testing.T) { N := 4 css := randConsensusNet(N, "consensus_reactor_with_timeout_commit_test", newMockTickerFunc(false), newCounter) // override default SkipTimeoutCommit == true for tests for i := 0; i < N; i++ { css[i].config.SkipTimeoutCommit = false } reactors, eventChans, eventBuses := startConsensusNet(t, css, N-1) defer stopConsensusNet(log.TestingLogger(), reactors, eventBuses) // wait till everyone makes the first new block timeoutWaitGroup(t, N-1, func(j int) { <-eventChans[j] }, css) } func waitForAndValidateBlock(t *testing.T, n int, activeVals map[string]struct{}, eventChans []chan interface{}, css []*ConsensusState, txs ...[]byte) { timeoutWaitGroup(t, n, func(j int) { css[j].Logger.Debug("waitForAndValidateBlock") newBlockI, ok := <-eventChans[j] if !ok { return } newBlock := newBlockI.(types.EventDataNewBlock).Block css[j].Logger.Debug("waitForAndValidateBlock: Got block", "height", newBlock.Height) err := validateBlock(newBlock, activeVals) assert.Nil(t, err) for _, tx := range txs { err := css[j].mempool.CheckTx(tx, nil) assert.Nil(t, err) } }, css) } func waitForAndValidateBlockWithTx(t *testing.T, n int, activeVals map[string]struct{}, eventChans []chan interface{}, css []*ConsensusState, txs ...[]byte) { timeoutWaitGroup(t, n, func(j int) { ntxs := 0 BLOCK_TX_LOOP: for { css[j].Logger.Debug("waitForAndValidateBlockWithTx", "ntxs", ntxs) newBlockI, ok := <-eventChans[j] if !ok { return } newBlock := newBlockI.(types.EventDataNewBlock).Block css[j].Logger.Debug("waitForAndValidateBlockWithTx: Got block", "height", newBlock.Height) err := validateBlock(newBlock, activeVals) assert.Nil(t, err) // check that txs match the txs we're waiting for. // note they could be spread over multiple blocks, // but they should be in order. for _, tx := range newBlock.Data.Txs { assert.EqualValues(t, txs[ntxs], tx) ntxs++ } if ntxs == len(txs) { break BLOCK_TX_LOOP } } }, css) } func waitForBlockWithUpdatedValsAndValidateIt(t *testing.T, n int, updatedVals map[string]struct{}, eventChans []chan interface{}, css []*ConsensusState) { timeoutWaitGroup(t, n, func(j int) { var newBlock *types.Block LOOP: for { css[j].Logger.Debug("waitForBlockWithUpdatedValsAndValidateIt") newBlockI, ok := <-eventChans[j] if !ok { return } newBlock = newBlockI.(types.EventDataNewBlock).Block if newBlock.LastCommit.Size() == len(updatedVals) { css[j].Logger.Debug("waitForBlockWithUpdatedValsAndValidateIt: Got block", "height", newBlock.Height) break LOOP } else { css[j].Logger.Debug("waitForBlockWithUpdatedValsAndValidateIt: Got block with no new validators. Skipping", "height", newBlock.Height) } } err := validateBlock(newBlock, updatedVals) assert.Nil(t, err) }, css) } // expects high synchrony! func validateBlock(block *types.Block, activeVals map[string]struct{}) error { if block.LastCommit.Size() != len(activeVals) { return fmt.Errorf("Commit size doesn't match number of active validators. Got %d, expected %d", block.LastCommit.Size(), len(activeVals)) } for _, vote := range block.LastCommit.Precommits { if _, ok := activeVals[string(vote.ValidatorAddress)]; !ok { return fmt.Errorf("Found vote for unactive validator %X", vote.ValidatorAddress) } } return nil } func timeoutWaitGroup(t *testing.T, n int, f func(int), css []*ConsensusState) { wg := new(sync.WaitGroup) wg.Add(n) for i := 0; i < n; i++ { go func(j int) { f(j) wg.Done() }(i) } done := make(chan struct{}) go func() { wg.Wait() close(done) }() // we're running many nodes in-process, possibly in in a virtual machine, // and spewing debug messages - making a block could take a while, timeout := time.Second * 300 select { case <-done: case <-time.After(timeout): for i, cs := range css { t.Log("#################") t.Log("Validator", i) t.Log(cs.GetRoundState()) t.Log("") } os.Stdout.Write([]byte("pprof.Lookup('goroutine'):\n")) pprof.Lookup("goroutine").WriteTo(os.Stdout, 1) capture() panic("Timed out waiting for all validators to commit a block") } } func capture() { trace := make([]byte, 10240000) count := runtime.Stack(trace, true) fmt.Printf("Stack of %d bytes: %s\n", count, trace) }