package consensus import ( "bytes" "context" "fmt" "testing" "time" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/tendermint/tendermint/abci/example/kvstore" "github.com/tendermint/tendermint/crypto/tmhash" cstypes "github.com/tendermint/tendermint/internal/consensus/types" "github.com/tendermint/tendermint/internal/eventbus" tmpubsub "github.com/tendermint/tendermint/internal/pubsub" "github.com/tendermint/tendermint/libs/log" tmrand "github.com/tendermint/tendermint/libs/rand" tmproto "github.com/tendermint/tendermint/proto/tendermint/types" "github.com/tendermint/tendermint/types" ) /* ProposeSuite x * TestProposerSelection0 - round robin ordering, round 0 x * TestProposerSelection2 - round robin ordering, round 2++ x * TestEnterProposeNoValidator - timeout into prevote round x * TestEnterPropose - finish propose without timing out (we have the proposal) x * TestBadProposal - 2 vals, bad proposal (bad block state hash), should prevote and precommit nil x * TestOversizedBlock - block with too many txs should be rejected FullRoundSuite x * TestFullRound1 - 1 val, full successful round x * TestFullRoundNil - 1 val, full round of nil x * TestFullRound2 - 2 vals, both required for full round LockSuite x * TestLockNoPOL - 2 vals, 4 rounds. one val locked, precommits nil every round except first. x * TestLockPOLRelock - 4 vals, one precommits, other 3 polka at next round, so we unlock and precomit the polka x * TestLockPOLUnlock - 4 vals, one precommits, other 3 polka nil at next round, so we unlock and precomit nil x * TestLockPOLSafety1 - 4 vals. We shouldn't change lock based on polka at earlier round x * TestLockPOLSafety2 - 4 vals. After unlocking, we shouldn't relock based on polka at earlier round * TestNetworkLock - once +1/3 precommits, network should be locked * TestNetworkLockPOL - once +1/3 precommits, the block with more recent polka is committed SlashingSuite x * TestSlashingPrevotes - a validator prevoting twice in a round gets slashed x * TestSlashingPrecommits - a validator precomitting twice in a round gets slashed CatchupSuite * TestCatchup - if we might be behind and we've seen any 2/3 prevotes, round skip to new round, precommit, or prevote HaltSuite x * TestHalt1 - if we see +2/3 precommits after timing out into new round, we should still commit */ //---------------------------------------------------------------------------------------------------- // ProposeSuite func TestStateProposerSelection0(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() config := configSetup(t) cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) height, round := cs1.Height, cs1.Round newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) startTestRound(ctx, cs1, height, round) // Wait for new round so proposer is set. ensureNewRound(t, newRoundCh, height, round) // Commit a block and ensure proposer for the next height is correct. prop := cs1.GetRoundState().Validators.GetProposer() pv, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) address := pv.Address() if !bytes.Equal(prop.Address, address) { t.Fatalf("expected proposer to be validator %d. Got %X", 0, prop.Address) } // Wait for complete proposal. ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() signAddVotes( ctx, t, config, cs1, tmproto.PrecommitType, rs.ProposalBlock.Hash(), rs.ProposalBlockParts.Header(), vss[1:]..., ) // Wait for new round so next validator is set. ensureNewRound(t, newRoundCh, height+1, 0) prop = cs1.GetRoundState().Validators.GetProposer() pv1, err := vss[1].GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() require.True(t, bytes.Equal(prop.Address, addr), "expected proposer to be validator %d. Got %X", 1, prop.Address) } // Now let's do it all again, but starting from round 2 instead of 0 func TestStateProposerSelection2(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) // test needs more work for more than 3 validators height := cs1.Height newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) // this time we jump in at round 2 incrementRound(vss[1:]...) incrementRound(vss[1:]...) var round int32 = 2 startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) // wait for the new round // everyone just votes nil. we get a new proposer each round for i := int32(0); int(i) < len(vss); i++ { prop := cs1.GetRoundState().Validators.GetProposer() pvk, err := vss[int(i+round)%len(vss)].GetPubKey(ctx) require.NoError(t, err) addr := pvk.Address() correctProposer := addr require.True(t, bytes.Equal(prop.Address, correctProposer), "expected RoundState.Validators.GetProposer() to be validator %d. Got %X", int(i+2)%len(vss), prop.Address) rs := cs1.GetRoundState() signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, rs.ProposalBlockParts.Header(), vss[1:]...) ensureNewRound(t, newRoundCh, height, i+round+1) // wait for the new round event each round incrementRound(vss[1:]...) } } // a non-validator should timeout into the prevote round func TestStateEnterProposeNoPrivValidator(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs, _ := randState(ctx, t, config, log.TestingLogger(), 1) cs.SetPrivValidator(ctx, nil) height, round := cs.Height, cs.Round // Listen for propose timeout event timeoutCh := subscribe(ctx, t, cs.eventBus, types.EventQueryTimeoutPropose) startTestRound(ctx, cs, height, round) // if we're not a validator, EnterPropose should timeout ensureNewTimeout(t, timeoutCh, height, round, cs.config.TimeoutPropose.Nanoseconds()) if cs.GetRoundState().Proposal != nil { t.Error("Expected to make no proposal, since no privValidator") } } // a validator should not timeout of the prevote round (TODO: unless the block is really big!) func TestStateEnterProposeYesPrivValidator(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs, _ := randState(ctx, t, config, log.TestingLogger(), 1) height, round := cs.Height, cs.Round // Listen for propose timeout event timeoutCh := subscribe(ctx, t, cs.eventBus, types.EventQueryTimeoutPropose) proposalCh := subscribe(ctx, t, cs.eventBus, types.EventQueryCompleteProposal) cs.enterNewRound(ctx, height, round) cs.startRoutines(ctx, 3) ensureNewProposal(t, proposalCh, height, round) // Check that Proposal, ProposalBlock, ProposalBlockParts are set. rs := cs.GetRoundState() if rs.Proposal == nil { t.Error("rs.Proposal should be set") } if rs.ProposalBlock == nil { t.Error("rs.ProposalBlock should be set") } if rs.ProposalBlockParts.Total() == 0 { t.Error("rs.ProposalBlockParts should be set") } // if we're a validator, enterPropose should not timeout ensureNoNewTimeout(t, timeoutCh, cs.config.TimeoutPropose.Nanoseconds()) } func TestStateBadProposal(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 2) height, round := cs1.Height, cs1.Round vs2 := vss[1] partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) voteCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryVote) propBlock, _, err := cs1.createProposalBlock() // changeProposer(t, cs1, vs2) require.NoError(t, err) // make the second validator the proposer by incrementing round round++ incrementRound(vss[1:]...) // make the block bad by tampering with statehash stateHash := propBlock.AppHash if len(stateHash) == 0 { stateHash = make([]byte, 32) } stateHash[0] = (stateHash[0] + 1) % 255 propBlock.AppHash = stateHash propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) blockID := types.BlockID{Hash: propBlock.Hash(), PartSetHeader: propBlockParts.Header()} proposal := types.NewProposal(vs2.Height, round, -1, blockID) p := proposal.ToProto() if err := vs2.SignProposal(ctx, config.ChainID(), p); err != nil { t.Fatal("failed to sign bad proposal", err) } proposal.Signature = p.Signature // set the proposal block if err := cs1.SetProposalAndBlock(ctx, proposal, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } // start the machine startTestRound(ctx, cs1, height, round) // wait for proposal ensureProposal(t, proposalCh, height, round, blockID) // wait for prevote ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], nil) // add bad prevote from vs2 and wait for it bps, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlock.Hash(), bps.Header(), vs2) ensurePrevote(t, voteCh, height, round) // wait for precommit ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) bps2, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlock.Hash(), bps2.Header(), vs2) } func TestStateOversizedBlock(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 2) cs1.state.ConsensusParams.Block.MaxBytes = 2000 height, round := cs1.Height, cs1.Round vs2 := vss[1] partSize := types.BlockPartSizeBytes timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) voteCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryVote) propBlock, _, err := cs1.createProposalBlock() require.NoError(t, err) propBlock.Data.Txs = []types.Tx{tmrand.Bytes(2001)} propBlock.Header.DataHash = propBlock.Data.Hash() // make the second validator the proposer by incrementing round round++ incrementRound(vss[1:]...) propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) blockID := types.BlockID{Hash: propBlock.Hash(), PartSetHeader: propBlockParts.Header()} proposal := types.NewProposal(height, round, -1, blockID) p := proposal.ToProto() if err := vs2.SignProposal(ctx, config.ChainID(), p); err != nil { t.Fatal("failed to sign bad proposal", err) } proposal.Signature = p.Signature totalBytes := 0 for i := 0; i < int(propBlockParts.Total()); i++ { part := propBlockParts.GetPart(i) totalBytes += len(part.Bytes) } if err := cs1.SetProposalAndBlock(ctx, proposal, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } // start the machine startTestRound(ctx, cs1, height, round) t.Log("Block Sizes", "Limit", cs1.state.ConsensusParams.Block.MaxBytes, "Current", totalBytes) // c1 should log an error with the block part message as it exceeds the consensus params. The // block is not added to cs.ProposalBlock so the node timeouts. ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) // and then should send nil prevote and precommit regardless of whether other validators prevote and // precommit on it ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], nil) bps, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlock.Hash(), bps.Header(), vs2) ensurePrevote(t, voteCh, height, round) ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) bps2, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlock.Hash(), bps2.Header(), vs2) } //---------------------------------------------------------------------------------------------------- // FullRoundSuite // propose, prevote, and precommit a block func TestStateFullRound1(t *testing.T) { config := configSetup(t) logger := log.TestingLogger() ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs, vss := randState(ctx, t, config, logger, 1) height, round := cs.Height, cs.Round // NOTE: buffer capacity of 0 ensures we can validate prevote and last commit // before consensus can move to the next height (and cause a race condition) if err := cs.eventBus.Stop(); err != nil { t.Error(err) } eventBus := eventbus.NewDefault(logger.With("module", "events")) cs.SetEventBus(eventBus) if err := eventBus.Start(ctx); err != nil { t.Error(err) } voteCh := subscribe(ctx, t, cs.eventBus, types.EventQueryVote) propCh := subscribe(ctx, t, cs.eventBus, types.EventQueryCompleteProposal) newRoundCh := subscribe(ctx, t, cs.eventBus, types.EventQueryNewRound) // Maybe it would be better to call explicitly startRoutines(4) startTestRound(ctx, cs, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, propCh, height, round) propBlockHash := cs.GetRoundState().ProposalBlock.Hash() ensurePrevote(t, voteCh, height, round) // wait for prevote validatePrevote(ctx, t, cs, round, vss[0], propBlockHash) ensurePrecommit(t, voteCh, height, round) // wait for precommit // we're going to roll right into new height ensureNewRound(t, newRoundCh, height+1, 0) validateLastPrecommit(ctx, t, cs, vss[0], propBlockHash) } // nil is proposed, so prevote and precommit nil func TestStateFullRoundNil(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs, vss := randState(ctx, t, config, log.TestingLogger(), 1) height, round := cs.Height, cs.Round voteCh := subscribe(ctx, t, cs.eventBus, types.EventQueryVote) cs.enterPrevote(ctx, height, round) cs.startRoutines(ctx, 4) ensurePrevote(t, voteCh, height, round) // prevote ensurePrecommit(t, voteCh, height, round) // precommit // should prevote and precommit nil validatePrevoteAndPrecommit(ctx, t, cs, round, -1, vss[0], nil, nil) } // run through propose, prevote, precommit commit with two validators // where the first validator has to wait for votes from the second func TestStateFullRound2(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 2) vs2 := vss[1] height, round := cs1.Height, cs1.Round voteCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryVote) newBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewBlock) // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensurePrevote(t, voteCh, height, round) // prevote // we should be stuck in limbo waiting for more prevotes rs := cs1.GetRoundState() propBlockHash, propPartSetHeader := rs.ProposalBlock.Hash(), rs.ProposalBlockParts.Header() // prevote arrives from vs2: signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propPartSetHeader, vs2) ensurePrevote(t, voteCh, height, round) // prevote ensurePrecommit(t, voteCh, height, round) // precommit // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, 0, 0, vss[0], propBlockHash, propBlockHash) // we should be stuck in limbo waiting for more precommits // precommit arrives from vs2: signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlockHash, propPartSetHeader, vs2) ensurePrecommit(t, voteCh, height, round) // wait to finish commit, propose in next height ensureNewBlock(t, newBlockCh, height) } //------------------------------------------------------------------------------------------ // LockSuite // two validators, 4 rounds. // two vals take turns proposing. val1 locks on first one, precommits nil on everything else func TestStateLockNoPOL(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 2) vs2 := vss[1] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) voteCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryVote) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) /* Round1 (cs1, B) // B B // B B2 */ // start round and wait for prevote cs1.enterNewRound(ctx, height, round) cs1.startRoutines(ctx, 0) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) roundState := cs1.GetRoundState() theBlockHash := roundState.ProposalBlock.Hash() thePartSetHeader := roundState.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) // prevote // we should now be stuck in limbo forever, waiting for more prevotes // prevote arrives from vs2: signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, theBlockHash, thePartSetHeader, vs2) ensurePrevote(t, voteCh, height, round) // prevote ensurePrecommit(t, voteCh, height, round) // precommit // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], theBlockHash, theBlockHash) // we should now be stuck in limbo forever, waiting for more precommits // lets add one for a different block hash := make([]byte, len(theBlockHash)) copy(hash, theBlockHash) hash[0] = (hash[0] + 1) % 255 signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, hash, thePartSetHeader, vs2) ensurePrecommit(t, voteCh, height, round) // precommit // (note we're entering precommit for a second time this round) // but with invalid args. then we enterPrecommitWait, and the timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) /// round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("#### ONTO ROUND 1") /* Round2 (cs1, B) // B B2 */ incrementRound(vs2) // now we're on a new round and not the proposer, so wait for timeout ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) rs := cs1.GetRoundState() require.Nil(t, rs.ProposalBlock, "Expected proposal block to be nil") // wait to finish prevote ensurePrevote(t, voteCh, height, round) // we should have prevoted our locked block validatePrevote(ctx, t, cs1, round, vss[0], rs.LockedBlock.Hash()) // add a conflicting prevote from the other validator bps, err := rs.LockedBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, hash, bps.Header(), vs2) ensurePrevote(t, voteCh, height, round) // now we're going to enter prevote again, but with invalid args // and then prevote wait, which should timeout. then wait for precommit ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Prevote(round).Nanoseconds()) ensurePrecommit(t, voteCh, height, round) // precommit // the proposed block should still be locked and our precommit added // we should precommit nil and be locked on the proposal validatePrecommit(ctx, t, cs1, round, 0, vss[0], nil, theBlockHash) // add conflicting precommit from vs2 bps2, err := rs.LockedBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, hash, bps2.Header(), vs2) ensurePrecommit(t, voteCh, height, round) // (note we're entering precommit for a second time this round, but with invalid args // then we enterPrecommitWait and timeout into NewRound ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // entering new round ensureNewRound(t, newRoundCh, height, round) t.Log("#### ONTO ROUND 2") /* Round3 (vs2, _) // B, B2 */ incrementRound(vs2) ensureNewProposal(t, proposalCh, height, round) rs = cs1.GetRoundState() // now we're on a new round and are the proposer require.True(t, bytes.Equal(rs.ProposalBlock.Hash(), rs.LockedBlock.Hash()), "Expected proposal block to be locked block. Got %v, Expected %v", rs.ProposalBlock, rs.LockedBlock) ensurePrevote(t, voteCh, height, round) // prevote validatePrevote(ctx, t, cs1, round, vss[0], rs.LockedBlock.Hash()) bps0, err := rs.ProposalBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, hash, bps0.Header(), vs2) ensurePrevote(t, voteCh, height, round) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Prevote(round).Nanoseconds()) ensurePrecommit(t, voteCh, height, round) // precommit validatePrecommit(ctx, t, cs1, round, 0, vss[0], nil, theBlockHash) // precommit nil but be locked on proposal bps1, err := rs.ProposalBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes( ctx, t, config, cs1, tmproto.PrecommitType, hash, bps1.Header(), vs2) // NOTE: conflicting precommits at same height ensurePrecommit(t, voteCh, height, round) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) // needed so generated block is different than locked block cs2, _ := randState(ctx, t, config, log.TestingLogger(), 2) require.NoError(t, err) // before we time out into new round, set next proposal block prop, propBlock := decideProposal(ctx, t, cs2, vs2, vs2.Height, vs2.Round+1) if prop == nil || propBlock == nil { t.Fatal("Failed to create proposal block with vs2") } incrementRound(vs2) round++ // entering new round ensureNewRound(t, newRoundCh, height, round) t.Log("#### ONTO ROUND 3") /* Round4 (vs2, C) // B C // B C */ // now we're on a new round and not the proposer // so set the proposal block bps3, err := propBlock.MakePartSet(partSize) require.NoError(t, err) if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, bps3, ""); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height, round) ensurePrevote(t, voteCh, height, round) // prevote // prevote for locked block (not proposal) validatePrevote(ctx, t, cs1, 3, vss[0], cs1.LockedBlock.Hash()) // prevote for proposed block bps4, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlock.Hash(), bps4.Header(), vs2) ensurePrevote(t, voteCh, height, round) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Prevote(round).Nanoseconds()) ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, 0, vss[0], nil, theBlockHash) // precommit nil but locked on proposal bps5, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes( ctx, t, config, cs1, tmproto.PrecommitType, propBlock.Hash(), bps5.Header(), vs2) // NOTE: conflicting precommits at same height ensurePrecommit(t, voteCh, height, round) } // 4 vals in two rounds, // in round one: v1 precommits, other 3 only prevote so the block isn't committed // in round two: v1 prevotes the same block that the node is locked on // the others prevote a new block hence v1 changes lock and precommits the new block with the others func TestStateLockPOLRelock(t *testing.T) { config := configSetup(t) logger := log.TestingLogger() ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, logger, 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) newBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewBlockHeader) // everything done from perspective of cs1 /* Round1 (cs1, B) // B B B B// B nil B nil eg. vs2 and vs4 didn't see the 2/3 prevotes */ // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() theBlockHash := rs.ProposalBlock.Hash() theBlockParts := rs.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) // prevote signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, theBlockHash, theBlockParts, vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // our precommit // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], theBlockHash, theBlockHash) // add precommits from the rest signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) // before we timeout to the new round set the new proposal cs2 := newState(ctx, t, logger, cs1.state, vs2, kvstore.NewApplication()) prop, propBlock := decideProposal(ctx, t, cs2, vs2, vs2.Height, vs2.Round+1) if prop == nil || propBlock == nil { t.Fatal("Failed to create proposal block with vs2") } propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) propBlockHash := propBlock.Hash() require.NotEqual(t, propBlockHash, theBlockHash) incrementRound(vs2, vs3, vs4) // timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round //XXX: this isnt guaranteed to get there before the timeoutPropose ... if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 1") /* Round2 (vs2, C) // B C C C // C C C _) cs1 changes lock! */ // now we're on a new round and not the proposer // but we should receive the proposal ensureNewProposal(t, proposalCh, height, round) // go to prevote, node should prevote for locked block (not the new proposal) - this is relocking ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], theBlockHash) // now lets add prevotes from everyone else for the new block signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propBlockParts.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // we should have unlocked and locked on the new block, sending a precommit for this new block validatePrecommit(ctx, t, cs1, round, round, vss[0], propBlockHash, propBlockHash) // more prevote creating a majority on the new block and this is then committed signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlockHash, propBlockParts.Header(), vs2, vs3) ensureNewBlockHeader(t, newBlockCh, height, propBlockHash) ensureNewRound(t, newRoundCh, height+1, 0) } // 4 vals, one precommits, other 3 polka at next round, so we unlock and precomit the polka func TestStateLockPOLUnlock(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) unlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryUnlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // everything done from perspective of cs1 /* Round1 (cs1, B) // B B B B // B nil B nil eg. didn't see the 2/3 prevotes */ // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() theBlockHash := rs.ProposalBlock.Hash() theBlockParts := rs.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], theBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, theBlockHash, theBlockParts, vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], theBlockHash, theBlockHash) // add precommits from the rest signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs4) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, theBlockHash, theBlockParts, vs3) // before we time out into new round, set next proposal block prop, propBlock := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round+1) propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) // timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) rs = cs1.GetRoundState() lockedBlockHash := rs.LockedBlock.Hash() incrementRound(vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("#### ONTO ROUND 1") /* Round2 (vs2, C) // B nil nil nil // nil nil nil _ cs1 unlocks! */ //XXX: this isnt guaranteed to get there before the timeoutPropose ... if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height, round) // go to prevote, prevote for locked block (not proposal) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], lockedBlockHash) // now lets add prevotes from everyone else for nil (a polka!) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, nil, types.PartSetHeader{}, vs2, vs3, vs4) // the polka makes us unlock and precommit nil ensureNewUnlock(t, unlockCh, height, round) ensurePrecommit(t, voteCh, height, round) // we should have unlocked and committed nil // NOTE: since we don't relock on nil, the lock round is -1 validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3) ensureNewRound(t, newRoundCh, height, round+1) } // 4 vals, v1 locks on proposed block in the first round but the other validators only prevote // In the second round, v1 misses the proposal but sees a majority prevote an unknown block so // v1 should unlock and precommit nil. In the third round another block is proposed, all vals // prevote and now v1 can lock onto the third block and precommit that func TestStateLockPOLUnlockOnUnknownBlock(t *testing.T) { config := configSetup(t) logger := log.TestingLogger() ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, logger, 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) // everything done from perspective of cs1 /* Round0 (cs1, A) // A A A A// A nil nil nil */ // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() firstBlockHash := rs.ProposalBlock.Hash() firstBlockParts := rs.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) // prevote signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, firstBlockHash, firstBlockParts, vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // our precommit // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], firstBlockHash, firstBlockHash) // add precommits from the rest signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) // before we timeout to the new round set the new proposal cs2 := newState(ctx, t, logger, cs1.state, vs2, kvstore.NewApplication()) prop, propBlock := decideProposal(ctx, t, cs2, vs2, vs2.Height, vs2.Round+1) if prop == nil || propBlock == nil { t.Fatal("Failed to create proposal block with vs2") } secondBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) secondBlockHash := propBlock.Hash() require.NotEqual(t, secondBlockHash, firstBlockHash) incrementRound(vs2, vs3, vs4) // timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 1") /* Round1 (vs2, B) // A B B B // nil nil nil nil) */ // now we're on a new round but v1 misses the proposal // go to prevote, node should prevote for locked block (not the new proposal) - this is relocking ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], firstBlockHash) // now lets add prevotes from everyone else for the new block signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, secondBlockHash, secondBlockParts.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // we should have unlocked and locked on the new block, sending a precommit for this new block validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, secondBlockParts, "some peer"); err != nil { t.Fatal(err) } // more prevote creating a majority on the new block and this is then committed signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) // before we timeout to the new round set the new proposal cs3 := newState(ctx, t, logger, cs1.state, vs3, kvstore.NewApplication()) require.NoError(t, err) prop, propBlock = decideProposal(ctx, t, cs3, vs3, vs3.Height, vs3.Round+1) if prop == nil || propBlock == nil { t.Fatal("Failed to create proposal block with vs2") } thirdPropBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) thirdPropBlockHash := propBlock.Hash() require.NotEqual(t, secondBlockHash, thirdPropBlockHash) incrementRound(vs2, vs3, vs4) // timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 2") /* Round2 (vs3, C) // C C C C // C nil nil nil) */ if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, thirdPropBlockParts, "some peer"); err != nil { t.Fatal(err) } ensurePrevote(t, voteCh, height, round) // we are no longer locked to the first block so we should be able to prevote validatePrevote(ctx, t, cs1, round, vss[0], thirdPropBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, thirdPropBlockHash, thirdPropBlockParts.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // we have a majority, now vs1 can change lock to the third block validatePrecommit(ctx, t, cs1, round, round, vss[0], thirdPropBlockHash, thirdPropBlockHash) } // 4 vals // a polka at round 1 but we miss it // then a polka at round 2 that we lock on // then we see the polka from round 1 but shouldn't unlock func TestStateLockPOLSafety1(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, cs1.Height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() propBlock := rs.ProposalBlock ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlock.Hash()) // the others sign a polka but we don't see it bps, err := propBlock.MakePartSet(partSize) require.NoError(t, err) prevotes := signVotes(ctx, t, config, tmproto.PrevoteType, propBlock.Hash(), bps.Header(), vs2, vs3, vs4) t.Logf("old prop hash %v", fmt.Sprintf("%X", propBlock.Hash())) // we do see them precommit nil signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) // cs1 precommit nil ensurePrecommit(t, voteCh, height, round) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) t.Log("### ONTO ROUND 1") prop, propBlock := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round+1) propBlockHash := propBlock.Hash() propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) incrementRound(vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) //XXX: this isnt guaranteed to get there before the timeoutPropose ... if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } /*Round2 // we timeout and prevote our lock // a polka happened but we didn't see it! */ ensureNewProposal(t, proposalCh, height, round) rs = cs1.GetRoundState() require.Nil(t, rs.LockedBlock, "we should not be locked!") t.Logf("new prop hash %v", fmt.Sprintf("%X", propBlockHash)) // go to prevote, prevote for proposal block ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash) // now we see the others prevote for it, so we should lock on it signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propBlockParts.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // we should have precommitted validatePrecommit(ctx, t, cs1, round, round, vss[0], propBlockHash, propBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) incrementRound(vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 2") /*Round3 we see the polka from round 1 but we shouldn't unlock! */ // timeout of propose ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) // finish prevote ensurePrevote(t, voteCh, height, round) // we should prevote what we're locked on validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash) newStepCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRoundStep) // before prevotes from the previous round are added // add prevotes from the earlier round addVotes(cs1, prevotes...) t.Log("Done adding prevotes!") ensureNoNewRoundStep(t, newStepCh) } // 4 vals. // polka P0 at R0, P1 at R1, and P2 at R2, // we lock on P0 at R0, don't see P1, and unlock using P2 at R2 // then we should make sure we don't lock using P1 // What we want: // dont see P0, lock on P1 at R1, dont unlock using P0 at R2 func TestStateLockPOLSafety2(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) unlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryUnlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // the block for R0: gets polkad but we miss it // (even though we signed it, shhh) _, propBlock0 := decideProposal(ctx, t, cs1, vss[0], height, round) propBlockHash0 := propBlock0.Hash() propBlockParts0, err := propBlock0.MakePartSet(partSize) require.NoError(t, err) propBlockID0 := types.BlockID{Hash: propBlockHash0, PartSetHeader: propBlockParts0.Header()} // the others sign a polka but we don't see it prevotes := signVotes(ctx, t, config, tmproto.PrevoteType, propBlockHash0, propBlockParts0.Header(), vs2, vs3, vs4) // the block for round 1 prop1, propBlock1 := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round+1) propBlockHash1 := propBlock1.Hash() propBlockParts1, err := propBlock1.MakePartSet(partSize) require.NoError(t, err) incrementRound(vs2, vs3, vs4) round++ // moving to the next round t.Log("### ONTO Round 1") // jump in at round 1 startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) if err := cs1.SetProposalAndBlock(ctx, prop1, propBlock1, propBlockParts1, "some peer"); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height, round) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash1) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash1, propBlockParts1.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], propBlockHash1, propBlockHash1) // add precommits from the rest signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs4) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlockHash1, propBlockParts1.Header(), vs3) incrementRound(vs2, vs3, vs4) // timeout of precommit wait to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round // in round 2 we see the polkad block from round 0 newProp := types.NewProposal(height, round, 0, propBlockID0) p := newProp.ToProto() if err := vs3.SignProposal(ctx, config.ChainID(), p); err != nil { t.Fatal(err) } newProp.Signature = p.Signature if err := cs1.SetProposalAndBlock(ctx, newProp, propBlock0, propBlockParts0, "some peer"); err != nil { t.Fatal(err) } // Add the pol votes addVotes(cs1, prevotes...) ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO Round 2") /*Round2 // now we see the polka from round 1, but we shouldnt unlock */ ensureNewProposal(t, proposalCh, height, round) ensureNoNewUnlock(t, unlockCh) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash1) } // 4 vals. // polka P0 at R0 for B0. We lock B0 on P0 at R0. P0 unlocks value at R1. // What we want: // P0 proposes B0 at R3. func TestProposeValidBlock(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) unlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryUnlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, cs1.Height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() propBlock := rs.ProposalBlock propBlockHash := propBlock.Hash() ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash) // the others sign a polka bps, err := propBlock.MakePartSet(partSize) require.NoError(t, err) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, bps.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // we should have precommitted validatePrecommit(ctx, t, cs1, round, round, vss[0], propBlockHash, propBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) incrementRound(vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 2") // timeout of propose ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, nil, types.PartSetHeader{}, vs2, vs3, vs4) ensureNewUnlock(t, unlockCh, height, round) ensurePrecommit(t, voteCh, height, round) // we should have precommitted validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) incrementRound(vs2, vs3, vs4) incrementRound(vs2, vs3, vs4) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) round += 2 // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 3") ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) t.Log("### ONTO ROUND 4") ensureNewProposal(t, proposalCh, height, round) rs = cs1.GetRoundState() assert.True(t, bytes.Equal(rs.ProposalBlock.Hash(), propBlockHash)) assert.True(t, bytes.Equal(rs.ProposalBlock.Hash(), rs.ValidBlock.Hash())) assert.True(t, rs.Proposal.POLRound == rs.ValidRound) assert.True(t, bytes.Equal(rs.Proposal.BlockID.Hash, rs.ValidBlock.Hash())) } // What we want: // P0 miss to lock B but set valid block to B after receiving delayed prevote. func TestSetValidBlockOnDelayedPrevote(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) validBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryValidBlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, cs1.Height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() propBlock := rs.ProposalBlock propBlockHash := propBlock.Hash() propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], propBlockHash) // vs2 send prevote for propBlock signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propBlockParts.Header(), vs2) // vs3 send prevote nil signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, nil, types.PartSetHeader{}, vs3) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Prevote(round).Nanoseconds()) ensurePrecommit(t, voteCh, height, round) // we should have precommitted validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) rs = cs1.GetRoundState() assert.True(t, rs.ValidBlock == nil) assert.True(t, rs.ValidBlockParts == nil) assert.True(t, rs.ValidRound == -1) // vs2 send (delayed) prevote for propBlock signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propBlockParts.Header(), vs4) ensureNewValidBlock(t, validBlockCh, height, round) rs = cs1.GetRoundState() assert.True(t, bytes.Equal(rs.ValidBlock.Hash(), propBlockHash)) assert.True(t, rs.ValidBlockParts.Header().Equals(propBlockParts.Header())) assert.True(t, rs.ValidRound == round) } // What we want: // P0 miss to lock B as Proposal Block is missing, but set valid block to B after // receiving delayed Block Proposal. func TestSetValidBlockOnDelayedProposal(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) validBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryValidBlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) round++ // move to round in which P0 is not proposer incrementRound(vs2, vs3, vs4) startTestRound(ctx, cs1, cs1.Height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], nil) prop, propBlock := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round+1) propBlockHash := propBlock.Hash() propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) // vs2, vs3 and vs4 send prevote for propBlock signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlockHash, propBlockParts.Header(), vs2, vs3, vs4) ensureNewValidBlock(t, validBlockCh, height, round) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Prevote(round).Nanoseconds()) ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() assert.True(t, bytes.Equal(rs.ValidBlock.Hash(), propBlockHash)) assert.True(t, rs.ValidBlockParts.Header().Equals(propBlockParts.Header())) assert.True(t, rs.ValidRound == round) } // 4 vals, 3 Nil Precommits at P0 // What we want: // P0 waits for timeoutPrecommit before starting next round func TestWaitingTimeoutOnNilPolka(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) // start round startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) ensureNewRound(t, newRoundCh, height, round+1) } // 4 vals, 3 Prevotes for nil from the higher round. // What we want: // P0 waits for timeoutPropose in the next round before entering prevote func TestWaitingTimeoutProposeOnNewRound(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensurePrevote(t, voteCh, height, round) incrementRound(vss[1:]...) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, nil, types.PartSetHeader{}, vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) rs := cs1.GetRoundState() assert.True(t, rs.Step == cstypes.RoundStepPropose) // P0 does not prevote before timeoutPropose expires ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Propose(round).Nanoseconds()) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], nil) } // 4 vals, 3 Precommits for nil from the higher round. // What we want: // P0 jump to higher round, precommit and start precommit wait func TestRoundSkipOnNilPolkaFromHigherRound(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensurePrevote(t, voteCh, height, round) incrementRound(vss[1:]...) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2, vs3, vs4) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, -1, vss[0], nil, nil) ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) } // 4 vals, 3 Prevotes for nil in the current round. // What we want: // P0 wait for timeoutPropose to expire before sending prevote. func TestWaitTimeoutProposeOnNilPolkaForTheCurrentRound(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, int32(1) timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round in which PO is not proposer startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) incrementRound(vss[1:]...) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, nil, types.PartSetHeader{}, vs2, vs3, vs4) ensureNewTimeout(t, timeoutProposeCh, height, round, cs1.config.Propose(round).Nanoseconds()) ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], nil) } // What we want: // P0 emit NewValidBlock event upon receiving 2/3+ Precommit for B but hasn't received block B yet func TestEmitNewValidBlockEventOnCommitWithoutBlock(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, int32(1) incrementRound(vs2, vs3, vs4) partSize := types.BlockPartSizeBytes newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) validBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryValidBlock) _, propBlock := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round) propBlockHash := propBlock.Hash() propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) // start round in which PO is not proposer startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) // vs2, vs3 and vs4 send precommit for propBlock signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlockHash, propBlockParts.Header(), vs2, vs3, vs4) ensureNewValidBlock(t, validBlockCh, height, round) rs := cs1.GetRoundState() assert.True(t, rs.Step == cstypes.RoundStepCommit) assert.True(t, rs.ProposalBlock == nil) assert.True(t, rs.ProposalBlockParts.Header().Equals(propBlockParts.Header())) } // What we want: // P0 receives 2/3+ Precommit for B for round 0, while being in round 1. It emits NewValidBlock event. // After receiving block, it executes block and moves to the next height. func TestCommitFromPreviousRound(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, int32(1) partSize := types.BlockPartSizeBytes newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) validBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryValidBlock) proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) prop, propBlock := decideProposal(ctx, t, cs1, vs2, vs2.Height, vs2.Round) propBlockHash := propBlock.Hash() propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) // start round in which PO is not proposer startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) // vs2, vs3 and vs4 send precommit for propBlock for the previous round signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlockHash, propBlockParts.Header(), vs2, vs3, vs4) ensureNewValidBlock(t, validBlockCh, height, round) rs := cs1.GetRoundState() assert.True(t, rs.Step == cstypes.RoundStepCommit) assert.True(t, rs.CommitRound == vs2.Round) assert.True(t, rs.ProposalBlock == nil) assert.True(t, rs.ProposalBlockParts.Header().Equals(propBlockParts.Header())) if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height, round) ensureNewRound(t, newRoundCh, height+1, 0) } type fakeTxNotifier struct { ch chan struct{} } func (n *fakeTxNotifier) TxsAvailable() <-chan struct{} { return n.ch } func (n *fakeTxNotifier) Notify() { n.ch <- struct{}{} } // 2 vals precommit votes for a block but node times out waiting for the third. Move to next round // and third precommit arrives which leads to the commit of that header and the correct // start of the next round func TestStartNextHeightCorrectlyAfterTimeout(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() config.Consensus.SkipTimeoutCommit = false cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) cs1.txNotifier = &fakeTxNotifier{ch: make(chan struct{})} vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutProposeCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutPropose) precommitTimeoutCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) newBlockHeader := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewBlockHeader) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() theBlockHash := rs.ProposalBlock.Hash() theBlockParts := rs.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], theBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, theBlockHash, theBlockParts, vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], theBlockHash, theBlockHash) // add precommits signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, theBlockHash, theBlockParts, vs3) // wait till timeout occurs ensurePrecommitTimeout(t, precommitTimeoutCh) ensureNewRound(t, newRoundCh, height, round+1) // majority is now reached signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, theBlockHash, theBlockParts, vs4) ensureNewBlockHeader(t, newBlockHeader, height, theBlockHash) cs1.txNotifier.(*fakeTxNotifier).Notify() ensureNewTimeout(t, timeoutProposeCh, height+1, round, cs1.config.Propose(round).Nanoseconds()) rs = cs1.GetRoundState() assert.False( t, rs.TriggeredTimeoutPrecommit, "triggeredTimeoutPrecommit should be false at the beginning of each round") } func TestResetTimeoutPrecommitUponNewHeight(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() config.Consensus.SkipTimeoutCommit = false cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) newBlockHeader := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewBlockHeader) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() theBlockHash := rs.ProposalBlock.Hash() theBlockParts := rs.ProposalBlockParts.Header() ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], theBlockHash) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, theBlockHash, theBlockParts, vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) validatePrecommit(ctx, t, cs1, round, round, vss[0], theBlockHash, theBlockHash) // add precommits signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, theBlockHash, theBlockParts, vs3) signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, theBlockHash, theBlockParts, vs4) ensureNewBlockHeader(t, newBlockHeader, height, theBlockHash) prop, propBlock := decideProposal(ctx, t, cs1, vs2, height+1, 0) propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) if err := cs1.SetProposalAndBlock(ctx, prop, propBlock, propBlockParts, "some peer"); err != nil { t.Fatal(err) } ensureNewProposal(t, proposalCh, height+1, 0) rs = cs1.GetRoundState() assert.False( t, rs.TriggeredTimeoutPrecommit, "triggeredTimeoutPrecommit should be false at the beginning of each height") } //------------------------------------------------------------------------------------------ // SlashingSuite // TODO: Slashing /* func TestStateSlashingPrevotes(t *testing.T) { cs1, vss := randState(2) vs2 := vss[1] proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) voteCh := subscribeToVoter(ctx, t, cs1, cs1.privValidator.GetAddress()) // start round and wait for propose and prevote startTestRound(cs1, cs1.Height, 0) <-newRoundCh re := <-proposalCh <-voteCh // prevote rs := re.(types.EventDataRoundState).RoundState.(*cstypes.RoundState) // we should now be stuck in limbo forever, waiting for more prevotes // add one for a different block should cause us to go into prevote wait hash := rs.ProposalBlock.Hash() hash[0] = byte(hash[0]+1) % 255 signAddVotes(cs1, tmproto.PrevoteType, hash, rs.ProposalBlockParts.Header(), vs2) <-timeoutWaitCh // NOTE: we have to send the vote for different block first so we don't just go into precommit round right // away and ignore more prevotes (and thus fail to slash!) // add the conflicting vote signAddVotes(cs1, tmproto.PrevoteType, rs.ProposalBlock.Hash(), rs.ProposalBlockParts.Header(), vs2) // XXX: Check for existence of Dupeout info } func TestStateSlashingPrecommits(t *testing.T) { cs1, vss := randState(2) vs2 := vss[1] proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) voteCh := subscribeToVoter(ctx, t, cs1, cs1.privValidator.GetAddress()) // start round and wait for propose and prevote startTestRound(cs1, cs1.Height, 0) <-newRoundCh re := <-proposalCh <-voteCh // prevote // add prevote from vs2 signAddVotes(cs1, tmproto.PrevoteType, rs.ProposalBlock.Hash(), rs.ProposalBlockParts.Header(), vs2) <-voteCh // precommit // we should now be stuck in limbo forever, waiting for more prevotes // add one for a different block should cause us to go into prevote wait hash := rs.ProposalBlock.Hash() hash[0] = byte(hash[0]+1) % 255 signAddVotes(cs1, tmproto.PrecommitType, hash, rs.ProposalBlockParts.Header(), vs2) // NOTE: we have to send the vote for different block first so we don't just go into precommit round right // away and ignore more prevotes (and thus fail to slash!) // add precommit from vs2 signAddVotes(cs1, tmproto.PrecommitType, rs.ProposalBlock.Hash(), rs.ProposalBlockParts.Header(), vs2) // XXX: Check for existence of Dupeout info } */ //------------------------------------------------------------------------------------------ // CatchupSuite //------------------------------------------------------------------------------------------ // HaltSuite // 4 vals. // we receive a final precommit after going into next round, but others might have gone to commit already! func TestStateHalt1(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs1, vss := randState(ctx, t, config, log.TestingLogger(), 4) vs2, vs3, vs4 := vss[1], vss[2], vss[3] height, round := cs1.Height, cs1.Round partSize := types.BlockPartSizeBytes proposalCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryCompleteProposal) timeoutWaitCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryTimeoutWait) newRoundCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewRound) newBlockCh := subscribe(ctx, t, cs1.eventBus, types.EventQueryNewBlock) pv1, err := cs1.privValidator.GetPubKey(ctx) require.NoError(t, err) addr := pv1.Address() voteCh := subscribeToVoter(ctx, t, cs1, addr) // start round and wait for propose and prevote startTestRound(ctx, cs1, height, round) ensureNewRound(t, newRoundCh, height, round) ensureNewProposal(t, proposalCh, height, round) rs := cs1.GetRoundState() propBlock := rs.ProposalBlock propBlockParts, err := propBlock.MakePartSet(partSize) require.NoError(t, err) ensurePrevote(t, voteCh, height, round) signAddVotes(ctx, t, config, cs1, tmproto.PrevoteType, propBlock.Hash(), propBlockParts.Header(), vs2, vs3, vs4) ensurePrecommit(t, voteCh, height, round) // the proposed block should now be locked and our precommit added validatePrecommit(ctx, t, cs1, round, round, vss[0], propBlock.Hash(), propBlock.Hash()) // add precommits from the rest signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, nil, types.PartSetHeader{}, vs2) // didnt receive proposal signAddVotes(ctx, t, config, cs1, tmproto.PrecommitType, propBlock.Hash(), propBlockParts.Header(), vs3) // we receive this later, but vs3 might receive it earlier and with ours will go to commit! precommit4 := signVote(ctx, t, vs4, config, tmproto.PrecommitType, propBlock.Hash(), propBlockParts.Header()) incrementRound(vs2, vs3, vs4) // timeout to new round ensureNewTimeout(t, timeoutWaitCh, height, round, cs1.config.Precommit(round).Nanoseconds()) round++ // moving to the next round ensureNewRound(t, newRoundCh, height, round) rs = cs1.GetRoundState() t.Log("### ONTO ROUND 1") /*Round2 // we timeout and prevote our lock // a polka happened but we didn't see it! */ // go to prevote, prevote for locked block ensurePrevote(t, voteCh, height, round) validatePrevote(ctx, t, cs1, round, vss[0], rs.LockedBlock.Hash()) // now we receive the precommit from the previous round addVotes(cs1, precommit4) // receiving that precommit should take us straight to commit ensureNewBlock(t, newBlockCh, height) ensureNewRound(t, newRoundCh, height+1, 0) } func TestStateOutputsBlockPartsStats(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() // create dummy peer cs, _ := randState(ctx, t, config, log.TestingLogger(), 1) peerID, err := types.NewNodeID("AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA") require.NoError(t, err) // 1) new block part parts := types.NewPartSetFromData(tmrand.Bytes(100), 10) msg := &BlockPartMessage{ Height: 1, Round: 0, Part: parts.GetPart(0), } cs.ProposalBlockParts = types.NewPartSetFromHeader(parts.Header()) cs.handleMsg(ctx, msgInfo{msg, peerID}) statsMessage := <-cs.statsMsgQueue require.Equal(t, msg, statsMessage.Msg, "") require.Equal(t, peerID, statsMessage.PeerID, "") // sending the same part from different peer cs.handleMsg(ctx, msgInfo{msg, "peer2"}) // sending the part with the same height, but different round msg.Round = 1 cs.handleMsg(ctx, msgInfo{msg, peerID}) // sending the part from the smaller height msg.Height = 0 cs.handleMsg(ctx, msgInfo{msg, peerID}) // sending the part from the bigger height msg.Height = 3 cs.handleMsg(ctx, msgInfo{msg, peerID}) select { case <-cs.statsMsgQueue: t.Errorf("should not output stats message after receiving the known block part!") case <-time.After(50 * time.Millisecond): } } func TestStateOutputVoteStats(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() cs, vss := randState(ctx, t, config, log.TestingLogger(), 2) // create dummy peer peerID, err := types.NewNodeID("AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA") require.NoError(t, err) randBytes := tmrand.Bytes(tmhash.Size) vote := signVote(ctx, t, vss[1], config, tmproto.PrecommitType, randBytes, types.PartSetHeader{}) voteMessage := &VoteMessage{vote} cs.handleMsg(ctx, msgInfo{voteMessage, peerID}) statsMessage := <-cs.statsMsgQueue require.Equal(t, voteMessage, statsMessage.Msg, "") require.Equal(t, peerID, statsMessage.PeerID, "") // sending the same part from different peer cs.handleMsg(ctx, msgInfo{&VoteMessage{vote}, "peer2"}) // sending the vote for the bigger height incrementHeight(vss[1]) vote = signVote(ctx, t, vss[1], config, tmproto.PrecommitType, randBytes, types.PartSetHeader{}) cs.handleMsg(ctx, msgInfo{&VoteMessage{vote}, peerID}) select { case <-cs.statsMsgQueue: t.Errorf("should not output stats message after receiving the known vote or vote from bigger height") case <-time.After(50 * time.Millisecond): } } func TestSignSameVoteTwice(t *testing.T) { config := configSetup(t) ctx, cancel := context.WithCancel(context.Background()) defer cancel() _, vss := randState(ctx, t, config, log.TestingLogger(), 2) randBytes := tmrand.Bytes(tmhash.Size) vote := signVote( ctx, t, vss[1], config, tmproto.PrecommitType, randBytes, types.PartSetHeader{Total: 10, Hash: randBytes}, ) vote2 := signVote( ctx, t, vss[1], config, tmproto.PrecommitType, randBytes, types.PartSetHeader{Total: 10, Hash: randBytes}, ) require.Equal(t, vote, vote2) } // subscribe subscribes test client to the given query and returns a channel with cap = 1. func subscribe( ctx context.Context, t *testing.T, eventBus *eventbus.EventBus, q tmpubsub.Query, ) <-chan tmpubsub.Message { t.Helper() sub, err := eventBus.SubscribeWithArgs(ctx, tmpubsub.SubscribeArgs{ ClientID: testSubscriber, Query: q, }) if err != nil { t.Fatalf("Failed to subscribe %q to %v: %v", testSubscriber, q, err) } ch := make(chan tmpubsub.Message) go func() { for { next, err := sub.Next(ctx) if err != nil { if ctx.Err() != nil { return } t.Errorf("Subscription for %v unexpectedly terminated: %v", q, err) return } ch <- next } }() return ch }