package core import ( "bytes" "errors" "fmt" "math/rand" "path" "sync" "testing" "time" "github.com/nspcc-dev/neo-go/internal/testchain" "github.com/nspcc-dev/neo-go/pkg/config" "github.com/nspcc-dev/neo-go/pkg/config/netmode" "github.com/nspcc-dev/neo-go/pkg/core/block" "github.com/nspcc-dev/neo-go/pkg/core/blockchainer" "github.com/nspcc-dev/neo-go/pkg/core/mempool" "github.com/nspcc-dev/neo-go/pkg/core/native" "github.com/nspcc-dev/neo-go/pkg/core/transaction" "github.com/nspcc-dev/neo-go/pkg/crypto/hash" "github.com/nspcc-dev/neo-go/pkg/crypto/keys" "github.com/nspcc-dev/neo-go/pkg/network/payload" "github.com/nspcc-dev/neo-go/pkg/services/notary" "github.com/nspcc-dev/neo-go/pkg/smartcontract" "github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger" "github.com/nspcc-dev/neo-go/pkg/util" "github.com/nspcc-dev/neo-go/pkg/vm/opcode" "github.com/nspcc-dev/neo-go/pkg/wallet" "github.com/stretchr/testify/require" "go.uber.org/zap/zaptest" ) const notaryModulePath = "../services/notary/" func getTestNotary(t *testing.T, bc *Blockchain, walletPath, pass string, onTx func(tx *transaction.Transaction) error) (*wallet.Account, *notary.Notary, *mempool.Pool) { bc.config.P2PNotary = config.P2PNotary{ Enabled: true, UnlockWallet: config.Wallet{ Path: path.Join(notaryModulePath, walletPath), Password: pass, }, } mp := mempool.New(10, 1, true) ntr, err := notary.NewNotary(bc, mp, zaptest.NewLogger(t), onTx) require.NoError(t, err) w, err := wallet.NewWalletFromFile(path.Join(notaryModulePath, walletPath)) require.NoError(t, err) require.NoError(t, w.Accounts[0].Decrypt(pass)) return w.Accounts[0], ntr, mp } func TestNotary(t *testing.T) { bc := newTestChain(t) defer bc.Close() var ( nonce uint32 nvbDiffFallback uint32 = 20 ) mtx := sync.RWMutex{} completedTxes := make(map[util.Uint256]*transaction.Transaction) var unluckies []*payload.P2PNotaryRequest var ( finalizeWithError bool choosy bool ) onTransaction := func(tx *transaction.Transaction) error { mtx.Lock() defer mtx.Unlock() if !choosy { if completedTxes[tx.Hash()] != nil { panic("transaction was completed twice") } if finalizeWithError { return errors.New("error while finalizing transaction") } completedTxes[tx.Hash()] = tx return nil } for _, unl := range unluckies { if tx.Hash().Equals(unl.FallbackTransaction.Hash()) { return errors.New("error while finalizing transaction") } } completedTxes[tx.Hash()] = tx return nil } acc1, ntr1, mp1 := getTestNotary(t, bc, "./testdata/notary1.json", "one", onTransaction) acc2, _, _ := getTestNotary(t, bc, "./testdata/notary2.json", "two", onTransaction) randomAcc, err := keys.NewPrivateKey() require.NoError(t, err) bc.SetNotary(ntr1) bc.RegisterPostBlock(func(bc blockchainer.Blockchainer, pool *mempool.Pool, b *block.Block) { ntr1.PostPersist(bc, pool, b) }) notaryNodes := keys.PublicKeys{acc1.PrivateKey().PublicKey(), acc2.PrivateKey().PublicKey()} bc.setNodesByRole(t, true, native.RoleP2PNotary, notaryNodes) createFallbackTx := func(requester *wallet.Account, mainTx *transaction.Transaction, nvbIncrement ...uint32) *transaction.Transaction { fallback := transaction.New(testchain.Network(), []byte{byte(opcode.RET)}, 2000_0000) fallback.Nonce = nonce nonce++ fallback.SystemFee = 1_0000_0000 fallback.ValidUntilBlock = bc.BlockHeight() + 50 fallback.Signers = []transaction.Signer{ { Account: bc.GetNotaryContractScriptHash(), Scopes: transaction.None, }, { Account: requester.PrivateKey().PublicKey().GetScriptHash(), Scopes: transaction.None, }, } nvb := bc.BlockHeight() + nvbDiffFallback if len(nvbIncrement) != 0 { nvb += nvbIncrement[0] } fallback.Attributes = []transaction.Attribute{ { Type: transaction.NotaryAssistedT, Value: &transaction.NotaryAssisted{NKeys: 0}, }, { Type: transaction.NotValidBeforeT, Value: &transaction.NotValidBefore{Height: nvb}, }, { Type: transaction.ConflictsT, Value: &transaction.Conflicts{Hash: mainTx.Hash()}, }, } fallback.Scripts = []transaction.Witness{ { InvocationScript: append([]byte{byte(opcode.PUSHDATA1), 64}, make([]byte, 64)...), VerificationScript: []byte{}, }, } requester.SignTx(fallback) return fallback } createStandardRequest := func(requesters []*wallet.Account, NVBincrements ...uint32) []*payload.P2PNotaryRequest { mainTx := *transaction.New(testchain.Network(), []byte{byte(opcode.RET)}, 11000000) mainTx.Nonce = nonce nonce++ mainTx.SystemFee = 100000000 mainTx.ValidUntilBlock = bc.BlockHeight() + 2*nvbDiffFallback signers := make([]transaction.Signer, len(requesters)+1) for i := range requesters { signers[i] = transaction.Signer{ Account: requesters[i].PrivateKey().PublicKey().GetScriptHash(), Scopes: transaction.None, } } signers[len(signers)-1] = transaction.Signer{ Account: bc.GetNotaryContractScriptHash(), Scopes: transaction.None, } mainTx.Signers = signers mainTx.Attributes = []transaction.Attribute{ { Type: transaction.NotaryAssistedT, Value: &transaction.NotaryAssisted{NKeys: uint8(len(requesters))}, }, } payloads := make([]*payload.P2PNotaryRequest, len(requesters)) for i := range payloads { cp := mainTx main := &cp scripts := make([]transaction.Witness, len(requesters)+1) for j := range requesters { scripts[j].VerificationScript = requesters[j].PrivateKey().PublicKey().GetVerificationScript() } scripts[i].InvocationScript = append([]byte{byte(opcode.PUSHDATA1), 64}, requesters[i].PrivateKey().Sign(main.GetSignedPart())...) main.Scripts = scripts var fallback *transaction.Transaction if len(NVBincrements) == len(requesters) { fallback = createFallbackTx(requesters[i], main, NVBincrements[i]) } else { fallback = createFallbackTx(requesters[i], main) } payloads[i] = &payload.P2PNotaryRequest{ MainTransaction: main, FallbackTransaction: fallback, Network: netmode.UnitTestNet, } } return payloads } createMultisigRequest := func(m int, requesters []*wallet.Account) []*payload.P2PNotaryRequest { mainTx := *transaction.New(testchain.Network(), []byte{byte(opcode.RET)}, 11000000) mainTx.Nonce = nonce nonce++ mainTx.SystemFee = 100000000 mainTx.ValidUntilBlock = bc.BlockHeight() + 2*nvbDiffFallback pubs := make(keys.PublicKeys, len(requesters)) for i, r := range requesters { pubs[i] = r.PrivateKey().PublicKey() } script, err := smartcontract.CreateMultiSigRedeemScript(m, pubs) require.NoError(t, err) mainTx.Signers = []transaction.Signer{ { Account: hash.Hash160(script), Scopes: transaction.None, }, { Account: bc.GetNotaryContractScriptHash(), Scopes: transaction.None, }, } mainTx.Attributes = []transaction.Attribute{ { Type: transaction.NotaryAssistedT, Value: &transaction.NotaryAssisted{NKeys: uint8(len(requesters))}, }, } payloads := make([]*payload.P2PNotaryRequest, len(requesters)) // we'll collect only m signatures out of n (so only m payloads are needed), but let's create payloads for all requesters (for the next tests) for i := range payloads { cp := mainTx main := &cp main.Scripts = []transaction.Witness{ { InvocationScript: append([]byte{byte(opcode.PUSHDATA1), 64}, requesters[i].PrivateKey().Sign(main.GetSignedPart())...), VerificationScript: script, }, {}, // empty Notary witness } fallback := createFallbackTx(requesters[i], main) payloads[i] = &payload.P2PNotaryRequest{ MainTransaction: main, FallbackTransaction: fallback, Network: netmode.UnitTestNet, } } return payloads } checkSigTx := func(t *testing.T, requests []*payload.P2PNotaryRequest, sentCount int, shouldComplete bool) { nKeys := len(requests) completedTx := completedTxes[requests[0].MainTransaction.Hash()] if sentCount == nKeys && shouldComplete { require.NotNil(t, completedTx, errors.New("main transaction expected to be completed")) require.Equal(t, nKeys+1, len(completedTx.Signers)) require.Equal(t, nKeys+1, len(completedTx.Scripts)) interopCtx := bc.newInteropContext(trigger.Verification, bc.dao, nil, completedTx) for i, req := range requests { require.Equal(t, req.MainTransaction.Scripts[i], completedTx.Scripts[i]) _, err := bc.verifyHashAgainstScript(completedTx.Signers[i].Account, &completedTx.Scripts[i], interopCtx, -1) require.NoError(t, err) } require.Equal(t, transaction.Witness{ InvocationScript: append([]byte{byte(opcode.PUSHDATA1), 64}, acc1.PrivateKey().Sign(requests[0].MainTransaction.GetSignedPart())...), VerificationScript: []byte{}, }, completedTx.Scripts[nKeys]) } else { require.Nil(t, completedTx, fmt.Errorf("main transaction shouldn't be completed: sent %d out of %d requests", sentCount, nKeys)) } } checkMultisigTx := func(t *testing.T, nSigs int, requests []*payload.P2PNotaryRequest, sentCount int, shouldComplete bool) { completedTx := completedTxes[requests[0].MainTransaction.Hash()] if sentCount >= nSigs && shouldComplete { require.NotNil(t, completedTx, errors.New("main transaction expected to be completed")) require.Equal(t, 2, len(completedTx.Signers)) require.Equal(t, 2, len(completedTx.Scripts)) interopCtx := bc.newInteropContext(trigger.Verification, bc.dao, nil, completedTx) _, err := bc.verifyHashAgainstScript(completedTx.Signers[0].Account, &completedTx.Scripts[0], interopCtx, -1) require.NoError(t, err) require.Equal(t, transaction.Witness{ InvocationScript: append([]byte{byte(opcode.PUSHDATA1), 64}, acc1.PrivateKey().Sign(requests[0].MainTransaction.GetSignedPart())...), VerificationScript: []byte{}, }, completedTx.Scripts[1]) // check that only nSigs out of nKeys signatures are presented in the invocation script for i, req := range requests[:nSigs] { require.True(t, bytes.Contains(completedTx.Scripts[0].InvocationScript, req.MainTransaction.Scripts[0].InvocationScript), fmt.Errorf("signature from extra request #%d shouldn't be presented in the main tx", i)) } // the rest (nKeys-nSigs) out of nKeys shouldn't be presented in the invocation script for i, req := range requests[nSigs:] { require.False(t, bytes.Contains(completedTx.Scripts[0].InvocationScript, req.MainTransaction.Scripts[0].InvocationScript), fmt.Errorf("signature from extra request #%d shouldn't be presented in the main tx", i)) } } else { require.Nil(t, completedTx, fmt.Errorf("main transaction shouldn't be completed: sent %d out of %d requests", sentCount, nSigs)) } } checkFallbackTxs := func(t *testing.T, requests []*payload.P2PNotaryRequest, shouldComplete bool) { for i, req := range requests { completedTx := completedTxes[req.FallbackTransaction.Hash()] if shouldComplete { require.NotNil(t, completedTx, fmt.Errorf("fallback transaction for request #%d expected to be completed", i)) require.Equal(t, 2, len(completedTx.Signers)) require.Equal(t, 2, len(completedTx.Scripts)) require.Equal(t, transaction.Witness{ InvocationScript: append([]byte{byte(opcode.PUSHDATA1), 64}, acc1.PrivateKey().Sign(req.FallbackTransaction.GetSignedPart())...), VerificationScript: []byte{}, }, completedTx.Scripts[0]) interopCtx := bc.newInteropContext(trigger.Verification, bc.dao, nil, completedTx) _, err := bc.verifyHashAgainstScript(completedTx.Signers[1].Account, &completedTx.Scripts[1], interopCtx, -1) require.NoError(t, err) } else { require.Nil(t, completedTx, fmt.Errorf("fallback transaction for request #%d shouldn't be completed", i)) } } } checkCompleteStandardRequest := func(t *testing.T, nKeys int, shouldComplete bool, nvbIncrements ...uint32) []*payload.P2PNotaryRequest { requesters := make([]*wallet.Account, nKeys) for i := range requesters { requesters[i], _ = wallet.NewAccount() } requests := createStandardRequest(requesters, nvbIncrements...) sendOrder := make([]int, nKeys) for i := range sendOrder { sendOrder[i] = i } rand.Shuffle(nKeys, func(i, j int) { sendOrder[j], sendOrder[i] = sendOrder[i], sendOrder[j] }) for i := range requests { ntr1.OnNewRequest(requests[sendOrder[i]]) checkSigTx(t, requests, i+1, shouldComplete) completedCount := len(completedTxes) // check that the same request won't be processed twice ntr1.OnNewRequest(requests[sendOrder[i]]) checkSigTx(t, requests, i+1, shouldComplete) require.Equal(t, completedCount, len(completedTxes)) } return requests } checkCompleteMultisigRequest := func(t *testing.T, nSigs int, nKeys int, shouldComplete bool) []*payload.P2PNotaryRequest { requesters := make([]*wallet.Account, nKeys) for i := range requesters { requesters[i], _ = wallet.NewAccount() } requests := createMultisigRequest(nSigs, requesters) sendOrder := make([]int, nKeys) for i := range sendOrder { sendOrder[i] = i } rand.Shuffle(nKeys, func(i, j int) { sendOrder[j], sendOrder[i] = sendOrder[i], sendOrder[j] }) var submittedRequests []*payload.P2PNotaryRequest // sent only nSigs (m out of n) requests - it should be enough to complete min tx for i := 0; i < nSigs; i++ { submittedRequests = append(submittedRequests, requests[sendOrder[i]]) ntr1.OnNewRequest(requests[sendOrder[i]]) checkMultisigTx(t, nSigs, submittedRequests, i+1, shouldComplete) // check that the same request won't be processed twice ntr1.OnNewRequest(requests[sendOrder[i]]) checkMultisigTx(t, nSigs, submittedRequests, i+1, shouldComplete) } // sent the rest (n-m) out of n requests: main tx is already collected, so only fallbacks should be applied completedCount := len(completedTxes) for i := nSigs; i < nKeys; i++ { submittedRequests = append(submittedRequests, requests[sendOrder[i]]) ntr1.OnNewRequest(requests[sendOrder[i]]) checkMultisigTx(t, nSigs, submittedRequests, i+1, shouldComplete) require.Equal(t, completedCount, len(completedTxes)) } return submittedRequests } // OnNewRequest: missing account ntr1.UpdateNotaryNodes(keys.PublicKeys{randomAcc.PublicKey()}) r := checkCompleteStandardRequest(t, 1, false) checkFallbackTxs(t, r, false) // set account back for the next tests ntr1.UpdateNotaryNodes(keys.PublicKeys{acc1.PrivateKey().PublicKey()}) // OnNewRequest: signature request for _, i := range []int{1, 2, 3, 10} { r := checkCompleteStandardRequest(t, i, true) checkFallbackTxs(t, r, false) } // OnNewRequest: multisignature request r = checkCompleteMultisigRequest(t, 1, 1, true) checkFallbackTxs(t, r, false) r = checkCompleteMultisigRequest(t, 1, 2, true) checkFallbackTxs(t, r, false) r = checkCompleteMultisigRequest(t, 1, 3, true) checkFallbackTxs(t, r, false) r = checkCompleteMultisigRequest(t, 3, 3, true) checkFallbackTxs(t, r, false) r = checkCompleteMultisigRequest(t, 3, 4, true) checkFallbackTxs(t, r, false) r = checkCompleteMultisigRequest(t, 3, 10, true) checkFallbackTxs(t, r, false) // PostPersist: missing account finalizeWithError = true r = checkCompleteStandardRequest(t, 1, false) checkFallbackTxs(t, r, false) finalizeWithError = false ntr1.UpdateNotaryNodes(keys.PublicKeys{randomAcc.PublicKey()}) require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, r, 1, false) checkFallbackTxs(t, r, false) // set account back for the next tests ntr1.UpdateNotaryNodes(keys.PublicKeys{acc1.PrivateKey().PublicKey()}) // PostPersist: complete main transaction, signature request finalizeWithError = true requests := checkCompleteStandardRequest(t, 3, false) // check PostPersist with finalisation error finalizeWithError = true require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) // check PostPersist without finalisation error finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), true) // PostPersist: complete main transaction, multisignature account finalizeWithError = true requests = checkCompleteMultisigRequest(t, 3, 4, false) checkFallbackTxs(t, requests, false) // check PostPersist with finalisation error finalizeWithError = true require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, 3, requests, len(requests), false) checkFallbackTxs(t, requests, false) // check PostPersist without finalisation error finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, 3, requests, len(requests), true) checkFallbackTxs(t, requests, false) // PostPersist: complete fallback, signature request finalizeWithError = true requests = checkCompleteStandardRequest(t, 3, false) checkFallbackTxs(t, requests, false) // make fallbacks valid _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) // check PostPersist for valid fallbacks with finalisation error require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests, false) // check PostPersist for valid fallbacks without finalisation error finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests, true) // PostPersist: complete fallback, multisignature request nSigs, nKeys := 3, 5 // check OnNewRequest with finalization error finalizeWithError = true requests = checkCompleteMultisigRequest(t, nSigs, nKeys, false) checkFallbackTxs(t, requests, false) // make fallbacks valid _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) // check PostPersist for valid fallbacks with finalisation error require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests, false) // check PostPersist for valid fallbacks without finalisation error finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests[:nSigs], true) // the rest of fallbacks should also be applied even if the main tx was already constructed by the moment they were sent checkFallbackTxs(t, requests[nSigs:], true) // PostPersist: partial fallbacks completion due to finalisation errors finalizeWithError = true requests = checkCompleteStandardRequest(t, 5, false) checkFallbackTxs(t, requests, false) // make fallbacks valid _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) // some of fallbacks should fail finalisation unluckies = []*payload.P2PNotaryRequest{requests[0], requests[4]} lucky := requests[1:4] choosy = true // check PostPersist for lucky fallbacks require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, lucky, true) checkFallbackTxs(t, unluckies, false) // reset finalisation function for unlucky fallbacks to finalise without an error choosy = false finalizeWithError = false // check PostPersist for unlucky fallbacks require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, lucky, true) checkFallbackTxs(t, unluckies, true) // PostPersist: different NVBs // check OnNewRequest with finalization error and different NVBs finalizeWithError = true requests = checkCompleteStandardRequest(t, 5, false, 1, 2, 3, 4, 5) checkFallbackTxs(t, requests, false) // generate blocks to reach the most earlier fallback's NVB _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) // check PostPersist for valid fallbacks without finalisation error finalizeWithError = false for i := range requests { require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests[:i+1], true) checkFallbackTxs(t, requests[i+1:], false) } // OnRequestRemoval: missing account // check OnNewRequest with finalization error finalizeWithError = true requests = checkCompleteStandardRequest(t, 4, false) checkFallbackTxs(t, requests, false) // make fallbacks valid and remove one fallback _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) ntr1.UpdateNotaryNodes(keys.PublicKeys{randomAcc.PublicKey()}) ntr1.OnRequestRemoval(requests[3]) // non of the fallbacks should be completed finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests, false) // set account back for the next tests ntr1.UpdateNotaryNodes(keys.PublicKeys{acc1.PrivateKey().PublicKey()}) // OnRequestRemoval: signature request, remove one fallback // check OnNewRequest with finalization error finalizeWithError = true requests = checkCompleteStandardRequest(t, 4, false) checkFallbackTxs(t, requests, false) // make fallbacks valid and remove one fallback _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) unlucky := requests[3] ntr1.OnRequestRemoval(unlucky) // rest of the fallbacks should be completed finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests[:3], true) require.Nil(t, completedTxes[unlucky.FallbackTransaction.Hash()]) // OnRequestRemoval: signature request, remove all fallbacks finalizeWithError = true requests = checkCompleteStandardRequest(t, 4, false) // remove all fallbacks _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) for i := range requests { ntr1.OnRequestRemoval(requests[i]) } // then the whole request should be removed, i.e. there are no completed transactions finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests, false) // OnRequestRemoval: signature request, remove unexisting fallback ntr1.OnRequestRemoval(requests[0]) require.NoError(t, bc.AddBlock(bc.newBlock())) checkSigTx(t, requests, len(requests), false) checkFallbackTxs(t, requests, false) // OnRequestRemoval: multisignature request, remove one fallback nSigs, nKeys = 3, 5 // check OnNewRequest with finalization error finalizeWithError = true requests = checkCompleteMultisigRequest(t, nSigs, nKeys, false) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests, false) // make fallbacks valid and remove the last fallback _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) unlucky = requests[nSigs-1] ntr1.OnRequestRemoval(unlucky) // then (m-1) out of n fallbacks should be completed finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests[:nSigs-1], true) require.Nil(t, completedTxes[unlucky.FallbackTransaction.Hash()]) // the rest (n-(m-1)) out of n fallbacks should also be completed even if main tx has been collected by the moment they were sent checkFallbackTxs(t, requests[nSigs:], true) // OnRequestRemoval: multisignature request, remove all fallbacks finalizeWithError = true requests = checkCompleteMultisigRequest(t, nSigs, nKeys, false) // make fallbacks valid and then remove all of them _, err = bc.genBlocks(int(nvbDiffFallback)) require.NoError(t, err) for i := range requests { ntr1.OnRequestRemoval(requests[i]) } // then the whole request should be removed, i.e. there are no completed transactions finalizeWithError = false require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests, false) // // OnRequestRemoval: multisignature request, remove unexisting fallbac, i.e. there still shouldn't be any completed transactions after this ntr1.OnRequestRemoval(requests[0]) require.NoError(t, bc.AddBlock(bc.newBlock())) checkMultisigTx(t, nSigs, requests, len(requests), false) checkFallbackTxs(t, requests, false) // Subscriptions test mp1.RunSubscriptions() go ntr1.Run() defer func() { ntr1.Stop() mp1.StopSubscriptions() }() finalizeWithError = false requester1, _ := wallet.NewAccount() requester2, _ := wallet.NewAccount() amount := int64(100_0000_0000) feer := NewNotaryFeerStub(bc) transferTokenFromMultisigAccountCheckOK(t, bc, bc.GetNotaryContractScriptHash(), bc.contracts.GAS.Hash, amount, requester1.PrivateKey().PublicKey().GetScriptHash(), int64(bc.BlockHeight()+50)) checkBalanceOf(t, bc, bc.contracts.Notary.Hash, int(amount)) transferTokenFromMultisigAccountCheckOK(t, bc, bc.GetNotaryContractScriptHash(), bc.contracts.GAS.Hash, amount, requester2.PrivateKey().PublicKey().GetScriptHash(), int64(bc.BlockHeight()+50)) checkBalanceOf(t, bc, bc.contracts.Notary.Hash, int(2*amount)) // create request for 2 standard signatures => main tx should be completed after the second request is added to the pool requests = createStandardRequest([]*wallet.Account{requester1, requester2}) require.NoError(t, mp1.Add(requests[0].FallbackTransaction, feer, requests[0])) require.NoError(t, mp1.Add(requests[1].FallbackTransaction, feer, requests[1])) require.Eventually(t, func() bool { mtx.RLock() defer mtx.RUnlock() return completedTxes[requests[0].MainTransaction.Hash()] != nil }, time.Second, time.Millisecond) checkFallbackTxs(t, requests, false) }