forked from TrueCloudLab/neoneo-go
c942402957
We never use it as a proper interface, so it makes no sense keeping it this way.
318 lines
11 KiB
Go
318 lines
11 KiB
Go
package neotest
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import (
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"encoding/json"
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"fmt"
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"strings"
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"testing"
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"github.com/nspcc-dev/neo-go/pkg/config/netmode"
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"github.com/nspcc-dev/neo-go/pkg/core/block"
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"github.com/nspcc-dev/neo-go/pkg/core/blockchainer"
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"github.com/nspcc-dev/neo-go/pkg/core/fee"
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"github.com/nspcc-dev/neo-go/pkg/core/native"
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"github.com/nspcc-dev/neo-go/pkg/core/native/nativenames"
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"github.com/nspcc-dev/neo-go/pkg/core/state"
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"github.com/nspcc-dev/neo-go/pkg/core/transaction"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract/callflag"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract/trigger"
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"github.com/nspcc-dev/neo-go/pkg/util"
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"github.com/nspcc-dev/neo-go/pkg/vm"
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"github.com/nspcc-dev/neo-go/pkg/vm/emit"
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"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
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"github.com/nspcc-dev/neo-go/pkg/wallet"
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"github.com/stretchr/testify/require"
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)
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// Executor is a wrapper over chain state.
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type Executor struct {
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Chain blockchainer.Blockchainer
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Validator Signer
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Committee Signer
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CommitteeHash util.Uint160
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Contracts map[string]*Contract
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}
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// NewExecutor creates new executor instance from provided blockchain and committee.
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func NewExecutor(t *testing.T, bc blockchainer.Blockchainer, validator, committee Signer) *Executor {
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checkMultiSigner(t, validator)
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checkMultiSigner(t, committee)
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return &Executor{
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Chain: bc,
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Validator: validator,
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Committee: committee,
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CommitteeHash: committee.ScriptHash(),
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Contracts: make(map[string]*Contract),
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}
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}
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// TopBlock returns block with the highest index.
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func (e *Executor) TopBlock(t *testing.T) *block.Block {
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b, err := e.Chain.GetBlock(e.Chain.GetHeaderHash(int(e.Chain.BlockHeight())))
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require.NoError(t, err)
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return b
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}
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// NativeHash returns native contract hash by name.
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func (e *Executor) NativeHash(t *testing.T, name string) util.Uint160 {
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h, err := e.Chain.GetNativeContractScriptHash(name)
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require.NoError(t, err)
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return h
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}
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// NewUnsignedTx creates new unsigned transaction which invokes method of contract with hash.
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func (e *Executor) NewUnsignedTx(t *testing.T, hash util.Uint160, method string, args ...interface{}) *transaction.Transaction {
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w := io.NewBufBinWriter()
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emit.AppCall(w.BinWriter, hash, method, callflag.All, args...)
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require.NoError(t, w.Err)
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script := w.Bytes()
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tx := transaction.New(script, 0)
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tx.Nonce = Nonce()
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tx.ValidUntilBlock = e.Chain.BlockHeight() + 1
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return tx
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}
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// NewTx creates new transaction which invokes contract method.
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// Transaction is signed with signer.
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func (e *Executor) NewTx(t *testing.T, signers []Signer,
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hash util.Uint160, method string, args ...interface{}) *transaction.Transaction {
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tx := e.NewUnsignedTx(t, hash, method, args...)
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return e.SignTx(t, tx, -1, signers...)
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}
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// SignTx signs a transaction using provided signers.
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func (e *Executor) SignTx(t *testing.T, tx *transaction.Transaction, sysFee int64, signers ...Signer) *transaction.Transaction {
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for _, acc := range signers {
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tx.Signers = append(tx.Signers, transaction.Signer{
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Account: acc.ScriptHash(),
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Scopes: transaction.Global,
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})
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}
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addNetworkFee(e.Chain, tx, signers...)
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addSystemFee(e.Chain, tx, sysFee)
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for _, acc := range signers {
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require.NoError(t, acc.SignTx(e.Chain.GetConfig().Magic, tx))
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}
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return tx
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}
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// NewAccount returns new signer holding 100.0 GAS. This method advances the chain
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// by one block with a transfer transaction.
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func (e *Executor) NewAccount(t *testing.T) Signer {
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acc, err := wallet.NewAccount()
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require.NoError(t, err)
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tx := e.NewTx(t, []Signer{e.Committee},
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e.NativeHash(t, nativenames.Gas), "transfer",
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e.Committee.ScriptHash(), acc.Contract.ScriptHash(), int64(100_0000_0000), nil)
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e.AddNewBlock(t, tx)
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e.CheckHalt(t, tx.Hash())
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return NewSingleSigner(acc)
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}
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// DeployContract compiles and deploys contract to bc. It also checks that
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// precalculated contract hash matches the actual one.
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// data is an optional argument to `_deploy`.
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// Returns hash of the deploy transaction.
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func (e *Executor) DeployContract(t *testing.T, c *Contract, data interface{}) util.Uint256 {
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tx := e.NewDeployTx(t, e.Chain, c, data)
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e.AddNewBlock(t, tx)
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e.CheckHalt(t, tx.Hash())
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// Check that precalculated hash matches the real one.
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e.CheckTxNotificationEvent(t, tx.Hash(), -1, state.NotificationEvent{
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ScriptHash: e.NativeHash(t, nativenames.Management),
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Name: "Deploy",
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Item: stackitem.NewArray([]stackitem.Item{
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stackitem.NewByteArray(c.Hash.BytesBE()),
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}),
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})
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return tx.Hash()
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}
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// DeployContractCheckFAULT compiles and deploys contract to bc. It checks that deploy
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// transaction FAULTed with the specified error.
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func (e *Executor) DeployContractCheckFAULT(t *testing.T, c *Contract, data interface{}, errMessage string) {
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tx := e.NewDeployTx(t, e.Chain, c, data)
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e.AddNewBlock(t, tx)
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e.CheckFault(t, tx.Hash(), errMessage)
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}
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// InvokeScript adds transaction with the specified script to the chain and
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// returns its hash. It does no faults check.
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func (e *Executor) InvokeScript(t *testing.T, script []byte, signers []Signer) util.Uint256 {
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tx := transaction.New(script, 0)
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tx.Nonce = Nonce()
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tx.ValidUntilBlock = e.Chain.BlockHeight() + 1
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e.SignTx(t, tx, -1, signers...)
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e.AddNewBlock(t, tx)
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return tx.Hash()
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}
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// InvokeScriptCheckHALT adds transaction with the specified script to the chain
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// and checks it's HALTed with the specified items on stack.
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func (e *Executor) InvokeScriptCheckHALT(t *testing.T, script []byte, signers []Signer, stack ...stackitem.Item) {
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hash := e.InvokeScript(t, script, signers)
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e.CheckHalt(t, hash, stack...)
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}
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// InvokeScriptCheckFAULT adds transaction with the specified script to the
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// chain and checks it's FAULTed with the specified error.
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func (e *Executor) InvokeScriptCheckFAULT(t *testing.T, script []byte, signers []Signer, errMessage string) {
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hash := e.InvokeScript(t, script, signers)
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e.CheckFault(t, hash, errMessage)
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}
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// CheckHalt checks that transaction persisted with HALT state.
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func (e *Executor) CheckHalt(t *testing.T, h util.Uint256, stack ...stackitem.Item) *state.AppExecResult {
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aer, err := e.Chain.GetAppExecResults(h, trigger.Application)
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require.NoError(t, err)
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require.Equal(t, vm.HaltState, aer[0].VMState, aer[0].FaultException)
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if len(stack) != 0 {
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require.Equal(t, stack, aer[0].Stack)
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}
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return &aer[0]
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}
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// CheckFault checks that transaction persisted with FAULT state.
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// Raised exception is also checked to contain s as a substring.
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func (e *Executor) CheckFault(t *testing.T, h util.Uint256, s string) {
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aer, err := e.Chain.GetAppExecResults(h, trigger.Application)
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require.NoError(t, err)
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require.Equal(t, vm.FaultState, aer[0].VMState)
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require.True(t, strings.Contains(aer[0].FaultException, s),
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"expected: %s, got: %s", s, aer[0].FaultException)
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}
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// CheckTxNotificationEvent checks that specified event was emitted at the specified position
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// during transaction script execution. Negative index corresponds to backwards enumeration.
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func (e *Executor) CheckTxNotificationEvent(t *testing.T, h util.Uint256, index int, expected state.NotificationEvent) {
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aer, err := e.Chain.GetAppExecResults(h, trigger.Application)
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require.NoError(t, err)
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l := len(aer[0].Events)
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if index < 0 {
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index = l + index
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}
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require.True(t, 0 <= index && index < l, fmt.Errorf("notification index is out of range: want %d, len is %d", index, l))
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require.Equal(t, expected, aer[0].Events[index])
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}
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// NewDeployTx returns new deployment tx for contract signed by committee.
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func (e *Executor) NewDeployTx(t *testing.T, bc blockchainer.Blockchainer, c *Contract, data interface{}) *transaction.Transaction {
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rawManifest, err := json.Marshal(c.Manifest)
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require.NoError(t, err)
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neb, err := c.NEF.Bytes()
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require.NoError(t, err)
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buf := io.NewBufBinWriter()
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emit.AppCall(buf.BinWriter, bc.ManagementContractHash(), "deploy", callflag.All, neb, rawManifest, data)
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require.NoError(t, buf.Err)
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tx := transaction.New(buf.Bytes(), 100*native.GASFactor)
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tx.Nonce = Nonce()
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tx.ValidUntilBlock = bc.BlockHeight() + 1
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tx.Signers = []transaction.Signer{{
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Account: e.Committee.ScriptHash(),
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Scopes: transaction.Global,
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}}
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addNetworkFee(bc, tx, e.Committee)
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require.NoError(t, e.Committee.SignTx(netmode.UnitTestNet, tx))
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return tx
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}
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func addSystemFee(bc blockchainer.Blockchainer, tx *transaction.Transaction, sysFee int64) {
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if sysFee >= 0 {
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tx.SystemFee = sysFee
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return
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}
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v, _ := TestInvoke(bc, tx) // ignore error to support failing transactions
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tx.SystemFee = v.GasConsumed()
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}
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func addNetworkFee(bc blockchainer.Blockchainer, tx *transaction.Transaction, signers ...Signer) {
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baseFee := bc.GetBaseExecFee()
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size := io.GetVarSize(tx)
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for _, sgr := range signers {
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netFee, sizeDelta := fee.Calculate(baseFee, sgr.Script())
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tx.NetworkFee += netFee
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size += sizeDelta
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}
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tx.NetworkFee += int64(size) * bc.FeePerByte()
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}
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// NewUnsignedBlock creates new unsigned block from txs.
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func (e *Executor) NewUnsignedBlock(t *testing.T, txs ...*transaction.Transaction) *block.Block {
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lastBlock := e.TopBlock(t)
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b := &block.Block{
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Header: block.Header{
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NextConsensus: e.Validator.ScriptHash(),
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Script: transaction.Witness{
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VerificationScript: e.Validator.Script(),
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},
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Timestamp: lastBlock.Timestamp + 1,
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},
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Transactions: txs,
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}
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if e.Chain.GetConfig().StateRootInHeader {
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b.StateRootEnabled = true
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b.PrevStateRoot = e.Chain.GetStateModule().CurrentLocalStateRoot()
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}
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b.PrevHash = lastBlock.Hash()
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b.Index = e.Chain.BlockHeight() + 1
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b.RebuildMerkleRoot()
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return b
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}
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// AddNewBlock creates a new block from provided transactions and adds it on bc.
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func (e *Executor) AddNewBlock(t *testing.T, txs ...*transaction.Transaction) *block.Block {
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b := e.NewUnsignedBlock(t, txs...)
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e.SignBlock(b)
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require.NoError(t, e.Chain.AddBlock(b))
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return b
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}
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// SignBlock add validators signature to b.
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func (e *Executor) SignBlock(b *block.Block) *block.Block {
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invoc := e.Validator.SignHashable(uint32(e.Chain.GetConfig().Magic), b)
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b.Script.InvocationScript = invoc
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return b
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}
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// AddBlockCheckHalt is a convenient wrapper over AddBlock and CheckHalt.
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func (e *Executor) AddBlockCheckHalt(t *testing.T, txs ...*transaction.Transaction) *block.Block {
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b := e.AddNewBlock(t, txs...)
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for _, tx := range txs {
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e.CheckHalt(t, tx.Hash())
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}
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return b
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}
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// TestInvoke creates a test VM with dummy block and executes transaction in it.
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func TestInvoke(bc blockchainer.Blockchainer, tx *transaction.Transaction) (*vm.VM, error) {
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lastBlock, err := bc.GetBlock(bc.GetHeaderHash(int(bc.BlockHeight())))
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if err != nil {
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return nil, err
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}
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b := &block.Block{
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Header: block.Header{
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Index: bc.BlockHeight() + 1,
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Timestamp: lastBlock.Timestamp + 1,
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},
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}
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// `GetTestVM` as well as `Run` can use transaction hash which will set cached value.
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// This is unwanted behaviour so we explicitly copy transaction to perform execution.
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ttx := *tx
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v, f := bc.GetTestVM(trigger.Application, &ttx, b)
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defer f()
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v.LoadWithFlags(tx.Script, callflag.All)
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err = v.Run()
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return v, err
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}
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