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package core_test
import (
"encoding/binary"
"errors"
"fmt"
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"math/big"
"path/filepath"
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"strings"
"testing"
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"time"
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"github.com/nspcc-dev/neo-go/internal/basicchain"
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"github.com/nspcc-dev/neo-go/internal/contracts"
"github.com/nspcc-dev/neo-go/internal/random"
"github.com/nspcc-dev/neo-go/pkg/compiler"
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"github.com/nspcc-dev/neo-go/pkg/config"
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"github.com/nspcc-dev/neo-go/pkg/config/netmode"
"github.com/nspcc-dev/neo-go/pkg/core"
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"github.com/nspcc-dev/neo-go/pkg/core/block"
"github.com/nspcc-dev/neo-go/pkg/core/dao"
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"github.com/nspcc-dev/neo-go/pkg/core/fee"
"github.com/nspcc-dev/neo-go/pkg/core/interop/interopnames"
"github.com/nspcc-dev/neo-go/pkg/core/mempool"
"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/native/nativeprices"
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"github.com/nspcc-dev/neo-go/pkg/core/native/noderoles"
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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/storage"
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"github.com/nspcc-dev/neo-go/pkg/core/storage/dbconfig"
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"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/encoding/address"
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"github.com/nspcc-dev/neo-go/pkg/io"
"github.com/nspcc-dev/neo-go/pkg/neotest"
"github.com/nspcc-dev/neo-go/pkg/neotest/chain"
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"github.com/nspcc-dev/neo-go/pkg/smartcontract"
"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/emit"
"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
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"github.com/nspcc-dev/neo-go/pkg/vm/stackitem"
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"github.com/nspcc-dev/neo-go/pkg/vm/vmstate"
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"github.com/nspcc-dev/neo-go/pkg/wallet"
"github.com/stretchr/testify/assert"
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"github.com/stretchr/testify/require"
)
func newLevelDBForTestingWithPath ( t testing . TB , dbPath string ) ( storage . Store , string ) {
if dbPath == "" {
dbPath = t . TempDir ( )
}
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dbOptions := dbconfig . LevelDBOptions {
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DataDirectoryPath : dbPath ,
}
newLevelStore , err := storage . NewLevelDBStore ( dbOptions )
require . Nil ( t , err , "NewLevelDBStore error" )
return newLevelStore , dbPath
}
func TestBlockchain_StartFromExistingDB ( t * testing . T ) {
ps , path := newLevelDBForTestingWithPath ( t , "" )
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customConfig := func ( c * config . Blockchain ) {
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c . StateRootInHeader = true // Need for P2PStateExchangeExtensions check.
c . P2PSigExtensions = true // Need for basic chain initializer.
}
bc , validators , committee , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , ps )
require . NoError ( t , err )
go bc . Run ( )
e := neotest . NewExecutor ( t , bc , validators , committee )
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basicchain . Init ( t , "../../" , e )
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require . True ( t , bc . BlockHeight ( ) > 5 , "ensure that basic chain is correctly initialised" )
// Information for further tests.
h := bc . BlockHeight ( )
cryptoLibHash , err := bc . GetNativeContractScriptHash ( nativenames . CryptoLib )
require . NoError ( t , err )
cryptoLibState := bc . GetContractState ( cryptoLibHash )
require . NotNil ( t , cryptoLibState )
var (
managementID = - 1
managementContractPrefix = 8
)
bc . Close ( ) // Ensure persist is done and persistent store is properly closed.
newPS := func ( t * testing . T ) storage . Store {
ps , _ = newLevelDBForTestingWithPath ( t , path )
t . Cleanup ( func ( ) { require . NoError ( t , ps . Close ( ) ) } )
return ps
}
t . Run ( "mismatch storage version" , func ( t * testing . T ) {
ps = newPS ( t )
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
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d := dao . NewSimple ( cache , bc . GetConfig ( ) . StateRootInHeader )
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d . PutVersion ( dao . Version {
Value : "0.0.0" ,
} )
_ , err := d . Persist ( ) // Persist to `cache` wrapper.
require . NoError ( t , err )
_ , _ , _ , err = chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "storage version mismatch" ) , err )
} )
t . Run ( "mismatch StateRootInHeader" , func ( t * testing . T ) {
ps = newPS ( t )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
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customConfig ( c )
c . StateRootInHeader = false
} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "StateRootInHeader setting mismatch" ) , err )
} )
t . Run ( "mismatch P2PSigExtensions" , func ( t * testing . T ) {
ps = newPS ( t )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
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customConfig ( c )
c . P2PSigExtensions = false
} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "P2PSigExtensions setting mismatch" ) , err )
} )
t . Run ( "mismatch P2PStateExchangeExtensions" , func ( t * testing . T ) {
ps = newPS ( t )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
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customConfig ( c )
c . StateRootInHeader = true
c . P2PStateExchangeExtensions = true
} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "P2PStateExchangeExtensions setting mismatch" ) , err )
} )
t . Run ( "mismatch KeepOnlyLatestState" , func ( t * testing . T ) {
ps = newPS ( t )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
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customConfig ( c )
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c . Ledger . KeepOnlyLatestState = true
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} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "KeepOnlyLatestState setting mismatch" ) , err )
} )
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t . Run ( "Magic mismatch" , func ( t * testing . T ) {
ps = newPS ( t )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
customConfig ( c )
c . Magic = 100500
} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "protocol configuration Magic mismatch" ) , err )
} )
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t . Run ( "corrupted headers" , func ( t * testing . T ) {
ps = newPS ( t )
// Corrupt headers hashes batch.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
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// Make the chain think we're at 2000+ which will trigger page 0 read.
buf := io . NewBufBinWriter ( )
buf . WriteBytes ( util . Uint256 { } . BytesLE ( ) )
buf . WriteU32LE ( 2000 )
cache . Put ( [ ] byte { byte ( storage . SYSCurrentHeader ) } , buf . Bytes ( ) )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
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require . True ( t , strings . Contains ( err . Error ( ) , "failed to retrieve header hash page" ) , err )
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} )
t . Run ( "corrupted current header height" , func ( t * testing . T ) {
ps = newPS ( t )
// Remove current header.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
cache . Delete ( [ ] byte { byte ( storage . SYSCurrentHeader ) } )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "failed to retrieve current header" ) , err )
} )
t . Run ( "missing last batch of 2000 headers and missing last header" , func ( t * testing . T ) {
ps = newPS ( t )
// Remove latest headers hashes batch and current header.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
cache . Delete ( [ ] byte { byte ( storage . IXHeaderHashList ) } )
currHeaderInfo , err := cache . Get ( [ ] byte { byte ( storage . SYSCurrentHeader ) } )
require . NoError ( t , err )
currHeaderHash , err := util . Uint256DecodeBytesLE ( currHeaderInfo [ : 32 ] )
require . NoError ( t , err )
cache . Delete ( append ( [ ] byte { byte ( storage . DataExecutable ) } , currHeaderHash . BytesBE ( ) ... ) )
_ , _ , _ , err = chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "could not get header" ) , err )
} )
t . Run ( "missing last block" , func ( t * testing . T ) {
ps = newPS ( t )
// Remove current block from storage.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
cache . Delete ( [ ] byte { byte ( storage . SYSCurrentBlock ) } )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "failed to retrieve current block height" ) , err )
} )
t . Run ( "missing last stateroot" , func ( t * testing . T ) {
ps = newPS ( t )
// Remove latest stateroot from storage.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
key := make ( [ ] byte , 5 )
key [ 0 ] = byte ( storage . DataMPTAux )
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binary . BigEndian . PutUint32 ( key [ 1 : ] , h )
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cache . Delete ( key )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "can't init MPT at height" ) , err )
} )
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/ * See # 2801
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t . Run ( "failed native Management initialisation" , func ( t * testing . T ) {
ps = newPS ( t )
// Corrupt serialised CryptoLib state.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
key := make ( [ ] byte , 1 + 4 + 1 + 20 )
key [ 0 ] = byte ( storage . STStorage )
binary . LittleEndian . PutUint32 ( key [ 1 : ] , uint32 ( managementID ) )
key [ 5 ] = byte ( managementContractPrefix )
copy ( key [ 6 : ] , cryptoLibHash . BytesBE ( ) )
cache . Put ( key , [ ] byte { 1 , 2 , 3 } )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "can't init cache for Management native contract" ) , err )
} )
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* /
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t . Run ( "invalid native contract deactivation" , func ( t * testing . T ) {
ps = newPS ( t )
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_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , func ( c * config . Blockchain ) {
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customConfig ( c )
c . NativeUpdateHistories = map [ string ] [ ] uint32 {
nativenames . Policy : { 0 } ,
nativenames . Neo : { 0 } ,
nativenames . Gas : { 0 } ,
nativenames . Designation : { 0 } ,
nativenames . StdLib : { 0 } ,
nativenames . Management : { 0 } ,
nativenames . Oracle : { 0 } ,
nativenames . Ledger : { 0 } ,
nativenames . Notary : { 0 } ,
nativenames . CryptoLib : { h + 10 } ,
}
} , ps )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , fmt . Sprintf ( "native contract %s is already stored, but marked as inactive for height %d in config" , nativenames . CryptoLib , h ) ) , err )
} )
t . Run ( "invalid native contract activation" , func ( t * testing . T ) {
ps = newPS ( t )
// Remove CryptoLib from storage.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
key := make ( [ ] byte , 1 + 4 + 1 + 20 )
key [ 0 ] = byte ( storage . STStorage )
binary . LittleEndian . PutUint32 ( key [ 1 : ] , uint32 ( managementID ) )
key [ 5 ] = byte ( managementContractPrefix )
copy ( key [ 6 : ] , cryptoLibHash . BytesBE ( ) )
cache . Delete ( key )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , fmt . Sprintf ( "native contract %s is not stored, but should be active at height %d according to config" , nativenames . CryptoLib , h ) ) , err )
} )
t . Run ( "stored and autogenerated native contract's states mismatch" , func ( t * testing . T ) {
ps = newPS ( t )
// Change stored CryptoLib state.
cache := storage . NewMemCachedStore ( ps ) // Extra wrapper to avoid good DB corruption.
key := make ( [ ] byte , 1 + 4 + 1 + 20 )
key [ 0 ] = byte ( storage . STStorage )
binary . LittleEndian . PutUint32 ( key [ 1 : ] , uint32 ( managementID ) )
key [ 5 ] = byte ( managementContractPrefix )
copy ( key [ 6 : ] , cryptoLibHash . BytesBE ( ) )
cs := * cryptoLibState
cs . ID = - 123
csBytes , err := stackitem . SerializeConvertible ( & cs )
require . NoError ( t , err )
cache . Put ( key , csBytes )
_ , _ , _ , err = chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , cache )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , fmt . Sprintf ( "native %s: version mismatch (stored contract state differs from autogenerated one)" , nativenames . CryptoLib ) ) , err )
} )
t . Run ( "good" , func ( t * testing . T ) {
ps = newPS ( t )
_ , _ , _ , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , ps )
require . NoError ( t , err )
} )
}
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// This test enables Notary native contract at non-zero height and checks that no
// Notary cache initialization is performed before that height on node restart.
func TestBlockchain_InitializeNativeCacheWrtNativeActivations ( t * testing . T ) {
const notaryEnabledHeight = 3
ps , path := newLevelDBForTestingWithPath ( t , "" )
customConfig := func ( c * config . Blockchain ) {
c . P2PSigExtensions = true
c . NativeUpdateHistories = make ( map [ string ] [ ] uint32 )
for _ , n := range [ ] string {
nativenames . Neo ,
nativenames . Gas ,
nativenames . Designation ,
nativenames . Management ,
nativenames . CryptoLib ,
nativenames . Ledger ,
nativenames . Management ,
nativenames . Oracle ,
nativenames . Policy ,
nativenames . StdLib ,
nativenames . Notary ,
} {
if n == nativenames . Notary {
c . NativeUpdateHistories [ n ] = [ ] uint32 { notaryEnabledHeight }
} else {
c . NativeUpdateHistories [ n ] = [ ] uint32 { 0 }
}
}
}
bc , validators , committee , err := chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , ps )
require . NoError ( t , err )
go bc . Run ( )
e := neotest . NewExecutor ( t , bc , validators , committee )
e . AddNewBlock ( t )
bc . Close ( ) // Ensure persist is done and persistent store is properly closed.
ps , _ = newLevelDBForTestingWithPath ( t , path )
// If NativeActivations are not taken into account during native cache initialization,
// bs.init() will panic on Notary cache initialization as it's not deployed yet.
require . NotPanics ( t , func ( ) {
bc , _ , _ , err = chain . NewMultiWithCustomConfigAndStoreNoCheck ( t , customConfig , ps )
require . NoError ( t , err )
} )
go bc . Run ( )
defer bc . Close ( )
e = neotest . NewExecutor ( t , bc , validators , committee )
h := e . Chain . BlockHeight ( )
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// Notary isn't initialized yet, so accessing Notary cache should return error.
_ , err = e . Chain . GetMaxNotValidBeforeDelta ( )
require . Error ( t , err )
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// Ensure Notary will be properly initialized and accessing Notary cache works
// as expected.
for i := 0 ; i < notaryEnabledHeight ; i ++ {
require . NotPanics ( t , func ( ) {
e . AddNewBlock ( t )
} , h + uint32 ( i ) + 1 )
}
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_ , err = e . Chain . GetMaxNotValidBeforeDelta ( )
require . NoError ( t , err )
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}
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func TestBlockchain_AddHeaders ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . StateRootInHeader = true
} )
e := neotest . NewExecutor ( t , bc , acc , acc )
newHeader := func ( t * testing . T , index uint32 , prevHash util . Uint256 , timestamp uint64 ) * block . Header {
b := e . NewUnsignedBlock ( t )
b . Index = index
b . PrevHash = prevHash
b . PrevStateRoot = util . Uint256 { }
b . Timestamp = timestamp
e . SignBlock ( b )
return & b . Header
}
b1 := e . NewUnsignedBlock ( t )
h1 := & e . SignBlock ( b1 ) . Header
h2 := newHeader ( t , h1 . Index + 1 , h1 . Hash ( ) , h1 . Timestamp + 1 )
h3 := newHeader ( t , h2 . Index + 1 , h2 . Hash ( ) , h2 . Timestamp + 1 )
require . NoError ( t , bc . AddHeaders ( ) )
require . NoError ( t , bc . AddHeaders ( h1 , h2 ) )
require . NoError ( t , bc . AddHeaders ( h2 , h3 ) )
assert . Equal ( t , h3 . Index , bc . HeaderHeight ( ) )
assert . Equal ( t , uint32 ( 0 ) , bc . BlockHeight ( ) )
assert . Equal ( t , h3 . Hash ( ) , bc . CurrentHeaderHash ( ) )
// Add them again, they should not be added.
require . NoError ( t , bc . AddHeaders ( h3 , h2 , h1 ) )
assert . Equal ( t , h3 . Index , bc . HeaderHeight ( ) )
assert . Equal ( t , uint32 ( 0 ) , bc . BlockHeight ( ) )
assert . Equal ( t , h3 . Hash ( ) , bc . CurrentHeaderHash ( ) )
h4Bad := newHeader ( t , h3 . Index + 1 , h3 . Hash ( ) . Reverse ( ) , h3 . Timestamp + 1 )
h5Bad := newHeader ( t , h4Bad . Index + 1 , h4Bad . Hash ( ) , h4Bad . Timestamp + 1 )
assert . Error ( t , bc . AddHeaders ( h4Bad , h5Bad ) )
assert . Equal ( t , h3 . Index , bc . HeaderHeight ( ) )
assert . Equal ( t , uint32 ( 0 ) , bc . BlockHeight ( ) )
assert . Equal ( t , h3 . Hash ( ) , bc . CurrentHeaderHash ( ) )
h4Bad2 := newHeader ( t , h3 . Index + 1 , h3 . Hash ( ) . Reverse ( ) , h3 . Timestamp + 1 )
h4Bad2 . Script . InvocationScript = [ ] byte { }
assert . Error ( t , bc . AddHeaders ( h4Bad2 ) )
assert . Equal ( t , h3 . Index , bc . HeaderHeight ( ) )
assert . Equal ( t , uint32 ( 0 ) , bc . BlockHeight ( ) )
assert . Equal ( t , h3 . Hash ( ) , bc . CurrentHeaderHash ( ) )
}
func TestBlockchain_AddBlockStateRoot ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . StateRootInHeader = true
} )
e := neotest . NewExecutor ( t , bc , acc , acc )
sr , err := bc . GetStateModule ( ) . GetStateRoot ( bc . BlockHeight ( ) )
require . NoError ( t , err )
b := e . NewUnsignedBlock ( t )
b . StateRootEnabled = false
b . PrevStateRoot = util . Uint256 { }
e . SignBlock ( b )
err = bc . AddBlock ( b )
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require . ErrorIs ( t , err , core . ErrHdrStateRootSetting )
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u := sr . Root
u [ 0 ] ^ = 0xFF
b = e . NewUnsignedBlock ( t )
b . PrevStateRoot = u
e . SignBlock ( b )
err = bc . AddBlock ( b )
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require . ErrorIs ( t , err , core . ErrHdrInvalidStateRoot )
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b = e . NewUnsignedBlock ( t )
e . SignBlock ( b )
require . NoError ( t , bc . AddBlock ( b ) )
}
func TestBlockchain_AddHeadersStateRoot ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . StateRootInHeader = true
} )
e := neotest . NewExecutor ( t , bc , acc , acc )
b := e . NewUnsignedBlock ( t )
e . SignBlock ( b )
h1 := b . Header
r := bc . GetStateModule ( ) . CurrentLocalStateRoot ( )
// invalid stateroot
h1 . PrevStateRoot [ 0 ] ^ = 0xFF
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require . ErrorIs ( t , bc . AddHeaders ( & h1 ) , core . ErrHdrInvalidStateRoot )
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// valid stateroot
h1 . PrevStateRoot = r
require . NoError ( t , bc . AddHeaders ( & h1 ) )
// unable to verify stateroot (stateroot is computed for block #0 only => can
// verify stateroot of header #1 only) => just store the header
b = e . NewUnsignedBlock ( t )
b . PrevHash = h1 . Hash ( )
b . Timestamp = h1 . Timestamp + 1
b . PrevStateRoot = util . Uint256 { }
b . Index = h1 . Index + 1
e . SignBlock ( b )
require . NoError ( t , bc . AddHeaders ( & b . Header ) )
}
func TestBlockchain_AddBadBlock ( t * testing . T ) {
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check := func ( t * testing . T , b * block . Block , cfg func ( c * config . Blockchain ) ) {
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bc , _ := chain . NewSingleWithCustomConfig ( t , cfg )
err := bc . AddBlock ( b )
if cfg == nil {
require . Error ( t , err )
} else {
require . NoError ( t , err )
}
}
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
neoHash := e . NativeHash ( t , nativenames . Neo )
tx := e . NewUnsignedTx ( t , neoHash , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
tx . ValidUntilBlock = 0 // Intentionally make the transaction invalid.
e . SignTx ( t , tx , - 1 , acc )
b := e . NewUnsignedBlock ( t , tx )
e . SignBlock ( b )
check ( t , b , nil )
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check ( t , b , func ( c * config . Blockchain ) {
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c . SkipBlockVerification = true
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} )
b = e . NewUnsignedBlock ( t )
b . PrevHash = util . Uint256 { } // Intentionally make block invalid.
e . SignBlock ( b )
check ( t , b , nil )
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check ( t , b , func ( c * config . Blockchain ) {
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c . SkipBlockVerification = true
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} )
tx = e . NewUnsignedTx ( t , neoHash , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil ) // Check the good tx.
e . SignTx ( t , tx , - 1 , acc )
b = e . NewUnsignedBlock ( t , tx )
e . SignBlock ( b )
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check ( t , b , func ( c * config . Blockchain ) {
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c . VerifyTransactions = true
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c . SkipBlockVerification = false
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} )
}
func TestBlockchain_GetHeader ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
block := e . AddNewBlock ( t )
hash := block . Hash ( )
header , err := bc . GetHeader ( hash )
require . NoError ( t , err )
assert . Equal ( t , & block . Header , header )
b2 := e . NewUnsignedBlock ( t )
_ , err = bc . GetHeader ( b2 . Hash ( ) )
assert . Error ( t , err )
}
func TestBlockchain_GetBlock ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
blocks := e . GenerateNewBlocks ( t , 10 )
neoValidatorInvoker := e . ValidatorInvoker ( e . NativeHash ( t , nativenames . Neo ) )
for i := 0 ; i < len ( blocks ) ; i ++ {
block , err := bc . GetBlock ( blocks [ i ] . Hash ( ) )
require . NoErrorf ( t , err , "can't get block %d: %s" , i , err )
assert . Equal ( t , blocks [ i ] . Index , block . Index )
assert . Equal ( t , blocks [ i ] . Hash ( ) , block . Hash ( ) )
}
t . Run ( "store only header" , func ( t * testing . T ) {
t . Run ( "non-empty block" , func ( t * testing . T ) {
tx := neoValidatorInvoker . PrepareInvoke ( t , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
b := e . NewUnsignedBlock ( t , tx )
e . SignBlock ( b )
require . NoError ( t , bc . AddHeaders ( & b . Header ) )
_ , err := bc . GetBlock ( b . Hash ( ) )
require . Error ( t , err )
_ , err = bc . GetHeader ( b . Hash ( ) )
require . NoError ( t , err )
require . NoError ( t , bc . AddBlock ( b ) )
_ , err = bc . GetBlock ( b . Hash ( ) )
require . NoError ( t , err )
} )
t . Run ( "empty block" , func ( t * testing . T ) {
b := e . NewUnsignedBlock ( t )
e . SignBlock ( b )
require . NoError ( t , bc . AddHeaders ( & b . Header ) )
_ , err := bc . GetBlock ( b . Hash ( ) )
require . NoError ( t , err )
} )
} )
}
func TestBlockchain_VerifyHashAgainstScript ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
cs , csInvalid := contracts . GetTestContractState ( t , pathToInternalContracts , 0 , 1 , acc . ScriptHash ( ) )
c1 := & neotest . Contract {
Hash : cs . Hash ,
NEF : & cs . NEF ,
Manifest : & cs . Manifest ,
}
c2 := & neotest . Contract {
Hash : csInvalid . Hash ,
NEF : & csInvalid . NEF ,
Manifest : & csInvalid . Manifest ,
}
e . DeployContract ( t , c1 , nil )
e . DeployContract ( t , c2 , nil )
gas := bc . GetMaxVerificationGAS ( )
t . Run ( "Contract" , func ( t * testing . T ) {
t . Run ( "Missing" , func ( t * testing . T ) {
newH := cs . Hash
newH [ 0 ] = ^ newH [ 0 ]
w := & transaction . Witness { InvocationScript : [ ] byte { byte ( opcode . PUSH4 ) } }
_ , err := bc . VerifyWitness ( newH , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrUnknownVerificationContract )
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} )
t . Run ( "Invalid" , func ( t * testing . T ) {
w := & transaction . Witness { InvocationScript : [ ] byte { byte ( opcode . PUSH4 ) } }
_ , err := bc . VerifyWitness ( csInvalid . Hash , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrInvalidVerificationContract )
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} )
t . Run ( "ValidSignature" , func ( t * testing . T ) {
w := & transaction . Witness { InvocationScript : [ ] byte { byte ( opcode . PUSH4 ) } }
_ , err := bc . VerifyWitness ( cs . Hash , nil , w , gas )
require . NoError ( t , err )
} )
t . Run ( "InvalidSignature" , func ( t * testing . T ) {
w := & transaction . Witness { InvocationScript : [ ] byte { byte ( opcode . PUSH3 ) } }
_ , err := bc . VerifyWitness ( cs . Hash , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrVerificationFailed )
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} )
} )
t . Run ( "NotEnoughGas" , func ( t * testing . T ) {
verif := [ ] byte { byte ( opcode . PUSH1 ) }
w := & transaction . Witness {
InvocationScript : [ ] byte { byte ( opcode . NOP ) } ,
VerificationScript : verif ,
}
_ , err := bc . VerifyWitness ( hash . Hash160 ( verif ) , nil , w , 1 )
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require . ErrorIs ( t , err , core . ErrVerificationFailed )
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} )
t . Run ( "NoResult" , func ( t * testing . T ) {
verif := [ ] byte { byte ( opcode . DROP ) }
w := & transaction . Witness {
InvocationScript : [ ] byte { byte ( opcode . PUSH1 ) } ,
VerificationScript : verif ,
}
_ , err := bc . VerifyWitness ( hash . Hash160 ( verif ) , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrVerificationFailed )
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} )
t . Run ( "BadResult" , func ( t * testing . T ) {
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verif := make ( [ ] byte , keys . SignatureLen + 2 )
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verif [ 0 ] = byte ( opcode . PUSHDATA1 )
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verif [ 1 ] = keys . SignatureLen
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w := & transaction . Witness {
InvocationScript : [ ] byte { byte ( opcode . NOP ) } ,
VerificationScript : verif ,
}
_ , err := bc . VerifyWitness ( hash . Hash160 ( verif ) , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrVerificationFailed )
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} )
t . Run ( "TooManyResults" , func ( t * testing . T ) {
verif := [ ] byte { byte ( opcode . NOP ) }
w := & transaction . Witness {
InvocationScript : [ ] byte { byte ( opcode . PUSH1 ) , byte ( opcode . PUSH1 ) } ,
VerificationScript : verif ,
}
_ , err := bc . VerifyWitness ( hash . Hash160 ( verif ) , nil , w , gas )
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require . ErrorIs ( t , err , core . ErrVerificationFailed )
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} )
}
func TestBlockchain_IsTxStillRelevant ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = true
} )
e := neotest . NewExecutor ( t , bc , acc , acc )
mp := bc . GetMemPool ( )
t . Run ( "small ValidUntilBlock" , func ( t * testing . T ) {
tx := e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } , bc . BlockHeight ( ) + 1 )
require . True ( t , bc . IsTxStillRelevant ( tx , nil , false ) )
e . AddNewBlock ( t )
require . False ( t , bc . IsTxStillRelevant ( tx , nil , false ) )
} )
t . Run ( "tx is already persisted" , func ( t * testing . T ) {
tx := e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } , bc . BlockHeight ( ) + 2 )
require . True ( t , bc . IsTxStillRelevant ( tx , nil , false ) )
e . AddNewBlock ( t , tx )
require . False ( t , bc . IsTxStillRelevant ( tx , nil , false ) )
} )
t . Run ( "tx with Conflicts attribute" , func ( t * testing . T ) {
tx1 := e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } , bc . BlockHeight ( ) + 5 )
tx2 := transaction . New ( [ ] byte { byte ( opcode . PUSH1 ) } , 0 )
tx2 . Nonce = neotest . Nonce ( )
tx2 . ValidUntilBlock = e . Chain . BlockHeight ( ) + 5
tx2 . Attributes = [ ] transaction . Attribute { {
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts { Hash : tx1 . Hash ( ) } ,
} }
e . SignTx ( t , tx2 , - 1 , acc )
require . True ( t , bc . IsTxStillRelevant ( tx1 , mp , false ) )
require . NoError ( t , bc . PoolTx ( tx2 ) )
require . False ( t , bc . IsTxStillRelevant ( tx1 , mp , false ) )
} )
t . Run ( "NotValidBefore" , func ( t * testing . T ) {
tx3 := transaction . New ( [ ] byte { byte ( opcode . PUSH1 ) } , 0 )
tx3 . Nonce = neotest . Nonce ( )
tx3 . Attributes = [ ] transaction . Attribute { {
Type : transaction . NotValidBeforeT ,
Value : & transaction . NotValidBefore { Height : bc . BlockHeight ( ) + 1 } ,
} }
tx3 . ValidUntilBlock = bc . BlockHeight ( ) + 2
e . SignTx ( t , tx3 , - 1 , acc )
require . False ( t , bc . IsTxStillRelevant ( tx3 , nil , false ) )
e . AddNewBlock ( t )
require . True ( t , bc . IsTxStillRelevant ( tx3 , nil , false ) )
} )
t . Run ( "contract witness check fails" , func ( t * testing . T ) {
src := fmt . Sprintf ( ` package verify
import (
"github.com/nspcc-dev/neo-go/pkg/interop/contract"
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"github.com/nspcc-dev/neo-go/pkg/interop/lib/address"
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)
func Verify ( ) bool {
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addr := address . ToHash160 ( "`+address.Uint160ToString(e.NativeHash(t, nativenames.Ledger))+`" )
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currentHeight := contract . Call ( addr , "currentIndex" , contract . ReadStates )
return currentHeight . ( int ) < % d
} ` , bc . BlockHeight ( ) + 2 ) // deploy + next block
c := neotest . CompileSource ( t , acc . ScriptHash ( ) , strings . NewReader ( src ) , & compiler . Options {
Name : "verification_contract" ,
} )
e . DeployContract ( t , c , nil )
tx := transaction . New ( [ ] byte { byte ( opcode . PUSH1 ) } , 0 )
tx . Nonce = neotest . Nonce ( )
tx . ValidUntilBlock = bc . BlockHeight ( ) + 2
tx . Signers = [ ] transaction . Signer {
{
Account : c . Hash ,
Scopes : transaction . None ,
} ,
}
tx . NetworkFee += 10_000_000
tx . Scripts = [ ] transaction . Witness { { } }
require . True ( t , bc . IsTxStillRelevant ( tx , mp , false ) )
e . AddNewBlock ( t )
require . False ( t , bc . IsTxStillRelevant ( tx , mp , false ) )
} )
}
func TestBlockchain_MemPoolRemoval ( t * testing . T ) {
const added = 16
const notAdded = 32
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
addedTxes := make ( [ ] * transaction . Transaction , added )
notAddedTxes := make ( [ ] * transaction . Transaction , notAdded )
for i := range addedTxes {
addedTxes [ i ] = e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } , 100 )
require . NoError ( t , bc . PoolTx ( addedTxes [ i ] ) )
}
for i := range notAddedTxes {
notAddedTxes [ i ] = e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } , 100 )
require . NoError ( t , bc . PoolTx ( notAddedTxes [ i ] ) )
}
mempool := bc . GetMemPool ( )
e . AddNewBlock ( t , addedTxes ... )
for _ , tx := range addedTxes {
require . False ( t , mempool . ContainsKey ( tx . Hash ( ) ) )
}
for _ , tx := range notAddedTxes {
require . True ( t , mempool . ContainsKey ( tx . Hash ( ) ) )
}
}
func TestBlockchain_HasBlock ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
blocks := e . GenerateNewBlocks ( t , 10 )
for i := 0 ; i < len ( blocks ) ; i ++ {
assert . True ( t , bc . HasBlock ( blocks [ i ] . Hash ( ) ) )
}
newBlock := e . NewUnsignedBlock ( t )
assert . False ( t , bc . HasBlock ( newBlock . Hash ( ) ) )
}
func TestBlockchain_GetTransaction ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
tx1 := e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH1 ) } , [ ] neotest . Signer { acc } )
e . AddNewBlock ( t , tx1 )
tx2 := e . PrepareInvocation ( t , [ ] byte { byte ( opcode . PUSH2 ) } , [ ] neotest . Signer { acc } )
tx2Size := io . GetVarSize ( tx2 )
b := e . AddNewBlock ( t , tx2 )
tx , height , err := bc . GetTransaction ( tx2 . Hash ( ) )
require . Nil ( t , err )
assert . Equal ( t , b . Index , height )
assert . Equal ( t , tx2Size , tx . Size ( ) )
assert . Equal ( t , b . Transactions [ 0 ] , tx )
}
func TestBlockchain_GetClaimable ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
t . Run ( "first generation period" , func ( t * testing . T ) {
amount , err := bc . CalculateClaimable ( acc . ScriptHash ( ) , 1 )
require . NoError ( t , err )
require . EqualValues ( t , big . NewInt ( 5 * native . GASFactor / 10 ) , amount )
} )
}
func TestBlockchain_Close ( t * testing . T ) {
st := storage . NewMemoryStore ( )
bc , acc := chain . NewSingleWithCustomConfigAndStore ( t , nil , st , false )
e := neotest . NewExecutor ( t , bc , acc , acc )
go bc . Run ( )
e . GenerateNewBlocks ( t , 10 )
bc . Close ( )
// It's a hack, but we use internal knowledge of MemoryStore
// implementation which makes it completely unusable (up to panicing)
// after Close().
require . Panics ( t , func ( ) {
_ = st . PutChangeSet ( map [ string ] [ ] byte { "0" : { 1 } } , nil )
} )
}
func TestBlockchain_Subscriptions ( t * testing . T ) {
// We use buffering here as a substitute for reader goroutines, events
// get queued up and we read them one by one here.
const chBufSize = 16
blockCh := make ( chan * block . Block , chBufSize )
txCh := make ( chan * transaction . Transaction , chBufSize )
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notificationCh := make ( chan * state . ContainedNotificationEvent , chBufSize )
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executionCh := make ( chan * state . AppExecResult , chBufSize )
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
nativeGASHash := e . NativeHash ( t , nativenames . Gas )
bc . SubscribeForBlocks ( blockCh )
bc . SubscribeForTransactions ( txCh )
bc . SubscribeForNotifications ( notificationCh )
bc . SubscribeForExecutions ( executionCh )
assert . Empty ( t , notificationCh )
assert . Empty ( t , executionCh )
assert . Empty ( t , blockCh )
assert . Empty ( t , txCh )
generatedB := e . AddNewBlock ( t )
require . Eventually ( t , func ( ) bool { return len ( blockCh ) != 0 } , time . Second , 10 * time . Millisecond )
assert . Len ( t , notificationCh , 1 ) // validator bounty
assert . Len ( t , executionCh , 2 )
assert . Empty ( t , txCh )
b := <- blockCh
assert . Equal ( t , generatedB , b )
assert . Empty ( t , blockCh )
aer := <- executionCh
assert . Equal ( t , b . Hash ( ) , aer . Container )
aer = <- executionCh
assert . Equal ( t , b . Hash ( ) , aer . Container )
notif := <- notificationCh
require . Equal ( t , bc . UtilityTokenHash ( ) , notif . ScriptHash )
script := io . NewBufBinWriter ( )
emit . Bytes ( script . BinWriter , [ ] byte ( "yay!" ) )
emit . Syscall ( script . BinWriter , interopnames . SystemRuntimeNotify )
require . NoError ( t , script . Err )
txGood1 := e . PrepareInvocation ( t , script . Bytes ( ) , [ ] neotest . Signer { acc } )
// Reset() reuses the script buffer and we need to keep scripts.
script = io . NewBufBinWriter ( )
emit . Bytes ( script . BinWriter , [ ] byte ( "nay!" ) )
emit . Syscall ( script . BinWriter , interopnames . SystemRuntimeNotify )
emit . Opcodes ( script . BinWriter , opcode . THROW )
require . NoError ( t , script . Err )
txBad := e . PrepareInvocation ( t , script . Bytes ( ) , [ ] neotest . Signer { acc } )
script = io . NewBufBinWriter ( )
emit . Bytes ( script . BinWriter , [ ] byte ( "yay! yay! yay!" ) )
emit . Syscall ( script . BinWriter , interopnames . SystemRuntimeNotify )
require . NoError ( t , script . Err )
txGood2 := e . PrepareInvocation ( t , script . Bytes ( ) , [ ] neotest . Signer { acc } )
invBlock := e . AddNewBlock ( t , txGood1 , txBad , txGood2 )
require . Eventually ( t , func ( ) bool {
return len ( blockCh ) != 0 && len ( txCh ) != 0 &&
len ( notificationCh ) != 0 && len ( executionCh ) != 0
} , time . Second , 10 * time . Millisecond )
b = <- blockCh
require . Equal ( t , invBlock , b )
assert . Empty ( t , blockCh )
exec := <- executionCh
require . Equal ( t , b . Hash ( ) , exec . Container )
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require . Equal ( t , exec . VMState , vmstate . Halt )
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// 3 burn events for every tx and 1 mint for primary node
require . True ( t , len ( notificationCh ) >= 4 )
for i := 0 ; i < 4 ; i ++ {
notif := <- notificationCh
require . Equal ( t , nativeGASHash , notif . ScriptHash )
}
// Follow in-block transaction order.
for _ , txExpected := range invBlock . Transactions {
tx := <- txCh
require . Equal ( t , txExpected , tx )
exec := <- executionCh
require . Equal ( t , tx . Hash ( ) , exec . Container )
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if exec . VMState == vmstate . Halt {
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notif := <- notificationCh
require . Equal ( t , hash . Hash160 ( tx . Script ) , notif . ScriptHash )
}
}
assert . Empty ( t , txCh )
assert . Len ( t , notificationCh , 1 )
assert . Len ( t , executionCh , 1 )
notif = <- notificationCh
require . Equal ( t , bc . UtilityTokenHash ( ) , notif . ScriptHash )
exec = <- executionCh
require . Equal ( t , b . Hash ( ) , exec . Container )
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require . Equal ( t , exec . VMState , vmstate . Halt )
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bc . UnsubscribeFromBlocks ( blockCh )
bc . UnsubscribeFromTransactions ( txCh )
bc . UnsubscribeFromNotifications ( notificationCh )
bc . UnsubscribeFromExecutions ( executionCh )
// Ensure that new blocks are processed correctly after unsubscription.
e . GenerateNewBlocks ( t , 2 * chBufSize )
}
func TestBlockchain_RemoveUntraceable ( t * testing . T ) {
neoCommitteeKey := [ ] byte { 0xfb , 0xff , 0xff , 0xff , 0x0e }
check := func ( t * testing . T , bc * core . Blockchain , tHash , bHash , sHash util . Uint256 , errorExpected bool ) {
_ , _ , err := bc . GetTransaction ( tHash )
if errorExpected {
require . Error ( t , err )
} else {
require . NoError ( t , err )
}
_ , err = bc . GetAppExecResults ( tHash , trigger . Application )
if errorExpected {
require . Error ( t , err )
} else {
require . NoError ( t , err )
}
_ , err = bc . GetBlock ( bHash )
if errorExpected {
require . Error ( t , err )
} else {
require . NoError ( t , err )
}
_ , err = bc . GetHeader ( bHash )
require . NoError ( t , err )
if ! sHash . Equals ( util . Uint256 { } ) {
sm := bc . GetStateModule ( )
_ , err = sm . GetState ( sHash , neoCommitteeKey )
if errorExpected {
require . Error ( t , err )
} else {
require . NoError ( t , err )
}
}
}
t . Run ( "P2PStateExchangeExtensions off" , func ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . MaxTraceableBlocks = 2
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c . Ledger . GarbageCollectionPeriod = 2
c . Ledger . RemoveUntraceableBlocks = true
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} )
e := neotest . NewExecutor ( t , bc , acc , acc )
neoValidatorInvoker := e . ValidatorInvoker ( e . NativeHash ( t , nativenames . Neo ) )
tx1Hash := neoValidatorInvoker . Invoke ( t , true , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
tx1Height := bc . BlockHeight ( )
b1 := e . TopBlock ( t )
sRoot , err := bc . GetStateModule ( ) . GetStateRoot ( tx1Height )
require . NoError ( t , err )
neoValidatorInvoker . Invoke ( t , true , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
_ , h1 , err := bc . GetTransaction ( tx1Hash )
require . NoError ( t , err )
require . Equal ( t , tx1Height , h1 )
check ( t , bc , tx1Hash , b1 . Hash ( ) , sRoot . Root , false )
e . GenerateNewBlocks ( t , 4 )
sm := bc . GetStateModule ( )
require . Eventually ( t , func ( ) bool {
_ , err = sm . GetState ( sRoot . Root , neoCommitteeKey )
return err != nil
} , 2 * bcPersistInterval , 10 * time . Millisecond )
check ( t , bc , tx1Hash , b1 . Hash ( ) , sRoot . Root , true )
} )
t . Run ( "P2PStateExchangeExtensions on" , func ( t * testing . T ) {
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bc , acc := chain . NewSingleWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . MaxTraceableBlocks = 2
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c . Ledger . GarbageCollectionPeriod = 2
c . Ledger . RemoveUntraceableBlocks = true
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c . P2PStateExchangeExtensions = true
c . StateSyncInterval = 2
c . StateRootInHeader = true
} )
e := neotest . NewExecutor ( t , bc , acc , acc )
neoValidatorInvoker := e . ValidatorInvoker ( e . NativeHash ( t , nativenames . Neo ) )
tx1Hash := neoValidatorInvoker . Invoke ( t , true , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
tx1Height := bc . BlockHeight ( )
b1 := e . TopBlock ( t )
sRoot , err := bc . GetStateModule ( ) . GetStateRoot ( tx1Height )
require . NoError ( t , err )
tx2Hash := neoValidatorInvoker . Invoke ( t , true , "transfer" , acc . ScriptHash ( ) , util . Uint160 { 1 , 2 , 3 } , 1 , nil )
tx2Height := bc . BlockHeight ( )
b2 := e . TopBlock ( t )
_ , h1 , err := bc . GetTransaction ( tx1Hash )
require . NoError ( t , err )
require . Equal ( t , tx1Height , h1 )
e . GenerateNewBlocks ( t , 3 )
check ( t , bc , tx1Hash , b1 . Hash ( ) , sRoot . Root , false )
check ( t , bc , tx2Hash , b2 . Hash ( ) , sRoot . Root , false )
e . AddNewBlock ( t )
check ( t , bc , tx1Hash , b1 . Hash ( ) , util . Uint256 { } , true )
check ( t , bc , tx2Hash , b2 . Hash ( ) , util . Uint256 { } , false )
_ , h2 , err := bc . GetTransaction ( tx2Hash )
require . NoError ( t , err )
require . Equal ( t , tx2Height , h2 )
} )
}
func TestBlockchain_InvalidNotification ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
cs , _ := contracts . GetTestContractState ( t , pathToInternalContracts , 0 , 1 , acc . ScriptHash ( ) )
e . DeployContract ( t , & neotest . Contract {
Hash : cs . Hash ,
NEF : & cs . NEF ,
Manifest : & cs . Manifest ,
} , nil )
cValidatorInvoker := e . ValidatorInvoker ( cs . Hash )
cValidatorInvoker . InvokeAndCheck ( t , func ( t testing . TB , stack [ ] stackitem . Item ) {
require . Equal ( t , 1 , len ( stack ) )
require . Nil ( t , stack [ 0 ] )
} , "invalidStack1" )
cValidatorInvoker . Invoke ( t , stackitem . NewInterop ( nil ) , "invalidStack2" )
}
// Test that deletion of non-existent doesn't result in error in tx or block addition.
func TestBlockchain_MPTDeleteNoKey ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
cs , _ := contracts . GetTestContractState ( t , pathToInternalContracts , 0 , 1 , acc . ScriptHash ( ) )
e . DeployContract ( t , & neotest . Contract {
Hash : cs . Hash ,
NEF : & cs . NEF ,
Manifest : & cs . Manifest ,
} , nil )
cValidatorInvoker := e . ValidatorInvoker ( cs . Hash )
cValidatorInvoker . Invoke ( t , stackitem . Null { } , "delValue" , "non-existent-key" )
}
// Test that UpdateHistory is added to ProtocolConfiguration for all native contracts
// for all default configurations. If UpdateHistory is not added to config, then
// native contract is disabled. It's easy to forget about config while adding new
// native contract.
func TestConfigNativeUpdateHistory ( t * testing . T ) {
var prefixPath = filepath . Join ( ".." , ".." , "config" )
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check := func ( t * testing . T , cfgFileSuffix any ) {
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cfgPath := filepath . Join ( prefixPath , fmt . Sprintf ( "protocol.%s.yml" , cfgFileSuffix ) )
cfg , err := config . LoadFile ( cfgPath )
require . NoError ( t , err , fmt . Errorf ( "failed to load %s" , cfgPath ) )
natives := native . NewContracts ( cfg . ProtocolConfiguration )
assert . Equal ( t , len ( natives . Contracts ) ,
len ( cfg . ProtocolConfiguration . NativeUpdateHistories ) ,
fmt . Errorf ( "protocol configuration file %s: extra or missing NativeUpdateHistory in NativeActivations section" , cfgPath ) )
for _ , c := range natives . Contracts {
assert . NotNil ( t , cfg . ProtocolConfiguration . NativeUpdateHistories [ c . Metadata ( ) . Name ] ,
fmt . Errorf ( "protocol configuration file %s: configuration for %s native contract is missing in NativeActivations section; " +
"edit the test if the contract should be disabled" , cfgPath , c . Metadata ( ) . Name ) )
}
}
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testCases := [ ] any {
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netmode . MainNet ,
netmode . PrivNet ,
netmode . TestNet ,
netmode . UnitTestNet ,
"privnet.docker.one" ,
"privnet.docker.two" ,
"privnet.docker.three" ,
"privnet.docker.four" ,
"privnet.docker.single" ,
"unit_testnet.single" ,
}
for _ , tc := range testCases {
check ( t , tc )
}
}
func TestBlockchain_VerifyTx ( t * testing . T ) {
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bc , validator , committee := chain . NewMultiWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = true
c . ReservedAttributes = true
} )
e := neotest . NewExecutor ( t , bc , validator , committee )
accs := make ( [ ] * wallet . Account , 5 )
for i := range accs {
var err error
accs [ i ] , err = wallet . NewAccount ( )
require . NoError ( t , err )
}
notaryServiceFeePerKey := bc . GetNotaryServiceFeePerKey ( )
oracleAcc := accs [ 2 ]
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oraclePubs := keys . PublicKeys { oracleAcc . PublicKey ( ) }
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require . NoError ( t , oracleAcc . ConvertMultisig ( 1 , oraclePubs ) )
neoHash := e . NativeHash ( t , nativenames . Neo )
gasHash := e . NativeHash ( t , nativenames . Gas )
policyHash := e . NativeHash ( t , nativenames . Policy )
designateHash := e . NativeHash ( t , nativenames . Designation )
notaryHash := e . NativeHash ( t , nativenames . Notary )
oracleHash := e . NativeHash ( t , nativenames . Oracle )
neoValidatorsInvoker := e . ValidatorInvoker ( neoHash )
gasValidatorsInvoker := e . ValidatorInvoker ( gasHash )
policySuperInvoker := e . NewInvoker ( policyHash , validator , committee )
designateSuperInvoker := e . NewInvoker ( designateHash , validator , committee )
neoOwner := validator . ScriptHash ( )
neoAmount := int64 ( 1_000_000 )
gasAmount := int64 ( 1_000_000_000 )
txs := make ( [ ] * transaction . Transaction , 0 , 2 * len ( accs ) + 2 )
for _ , a := range accs {
txs = append ( txs , neoValidatorsInvoker . PrepareInvoke ( t , "transfer" , neoOwner , a . Contract . ScriptHash ( ) , neoAmount , nil ) )
txs = append ( txs , gasValidatorsInvoker . PrepareInvoke ( t , "transfer" , neoOwner , a . Contract . ScriptHash ( ) , gasAmount , nil ) )
}
txs = append ( txs , neoValidatorsInvoker . PrepareInvoke ( t , "transfer" , neoOwner , committee . ScriptHash ( ) , neoAmount , nil ) )
txs = append ( txs , gasValidatorsInvoker . PrepareInvoke ( t , "transfer" , neoOwner , committee . ScriptHash ( ) , gasAmount , nil ) )
e . AddNewBlock ( t , txs ... )
for _ , tx := range txs {
e . CheckHalt ( t , tx . Hash ( ) , stackitem . NewBool ( true ) )
}
policySuperInvoker . Invoke ( t , true , "blockAccount" , accs [ 1 ] . PrivateKey ( ) . GetScriptHash ( ) . BytesBE ( ) )
checkErr := func ( t * testing . T , expectedErr error , tx * transaction . Transaction ) {
err := bc . VerifyTx ( tx )
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require . ErrorIs ( t , err , expectedErr )
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}
testScript := [ ] byte { byte ( opcode . PUSH1 ) }
newTestTx := func ( t * testing . T , signer util . Uint160 , script [ ] byte ) * transaction . Transaction {
tx := transaction . New ( script , 1_000_000 )
tx . Nonce = neotest . Nonce ( )
tx . ValidUntilBlock = e . Chain . BlockHeight ( ) + 5
tx . Signers = [ ] transaction . Signer { {
Account : signer ,
Scopes : transaction . CalledByEntry ,
} }
tx . NetworkFee = int64 ( io . GetVarSize ( tx ) + 200 /* witness */ ) * bc . FeePerByte ( )
tx . NetworkFee += 1_000_000 // verification cost
return tx
}
h := accs [ 0 ] . PrivateKey ( ) . GetScriptHash ( )
t . Run ( "Expired" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . ValidUntilBlock = 1
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrTxExpired , tx )
} )
t . Run ( "BlockedAccount" , func ( t * testing . T ) {
tx := newTestTx ( t , accs [ 1 ] . PrivateKey ( ) . GetScriptHash ( ) , testScript )
require . NoError ( t , accs [ 1 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrPolicy , tx )
} )
t . Run ( "InsufficientGas" , func ( t * testing . T ) {
balance := bc . GetUtilityTokenBalance ( h )
tx := newTestTx ( t , h , testScript )
tx . SystemFee = balance . Int64 ( ) + 1
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInsufficientFunds , tx )
} )
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t . Run ( "TooBigSystemFee" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . SystemFee = bc . GetConfig ( ) . MaxBlockSystemFee + 100500
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrPolicy , tx )
} )
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t . Run ( "TooBigTx" , func ( t * testing . T ) {
script := make ( [ ] byte , transaction . MaxTransactionSize )
tx := newTestTx ( t , h , script )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrTxTooBig , tx )
} )
t . Run ( "NetworkFee" , func ( t * testing . T ) {
t . Run ( "SmallNetworkFee" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . NetworkFee = 1
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrTxSmallNetworkFee , tx )
} )
t . Run ( "AlmostEnoughNetworkFee" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
verificationNetFee , calcultedScriptSize := fee . Calculate ( bc . GetBaseExecFee ( ) , accs [ 0 ] . Contract . Script )
expectedSize := io . GetVarSize ( tx ) + calcultedScriptSize
calculatedNetFee := verificationNetFee + int64 ( expectedSize ) * bc . FeePerByte ( )
tx . NetworkFee = calculatedNetFee - 1
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
require . Equal ( t , expectedSize , io . GetVarSize ( tx ) )
checkErr ( t , core . ErrVerificationFailed , tx )
} )
t . Run ( "EnoughNetworkFee" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
verificationNetFee , calcultedScriptSize := fee . Calculate ( bc . GetBaseExecFee ( ) , accs [ 0 ] . Contract . Script )
expectedSize := io . GetVarSize ( tx ) + calcultedScriptSize
calculatedNetFee := verificationNetFee + int64 ( expectedSize ) * bc . FeePerByte ( )
tx . NetworkFee = calculatedNetFee
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
require . Equal ( t , expectedSize , io . GetVarSize ( tx ) )
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "CalculateNetworkFee, signature script" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
expectedSize := io . GetVarSize ( tx )
verificationNetFee , calculatedScriptSize := fee . Calculate ( bc . GetBaseExecFee ( ) , accs [ 0 ] . Contract . Script )
expectedSize += calculatedScriptSize
expectedNetFee := verificationNetFee + int64 ( expectedSize ) * bc . FeePerByte ( )
tx . NetworkFee = expectedNetFee
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
actualSize := io . GetVarSize ( tx )
require . Equal ( t , expectedSize , actualSize )
gasConsumed , err := bc . VerifyWitness ( h , tx , & tx . Scripts [ 0 ] , - 1 )
require . NoError ( t , err )
require . Equal ( t , verificationNetFee , gasConsumed )
require . Equal ( t , expectedNetFee , bc . FeePerByte ( ) * int64 ( actualSize ) + gasConsumed )
} )
t . Run ( "CalculateNetworkFee, multisignature script" , func ( t * testing . T ) {
multisigAcc := accs [ 4 ]
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pKeys := keys . PublicKeys { multisigAcc . PublicKey ( ) }
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require . NoError ( t , multisigAcc . ConvertMultisig ( 1 , pKeys ) )
multisigHash := hash . Hash160 ( multisigAcc . Contract . Script )
tx := newTestTx ( t , multisigHash , testScript )
verificationNetFee , calculatedScriptSize := fee . Calculate ( bc . GetBaseExecFee ( ) , multisigAcc . Contract . Script )
expectedSize := io . GetVarSize ( tx ) + calculatedScriptSize
expectedNetFee := verificationNetFee + int64 ( expectedSize ) * bc . FeePerByte ( )
tx . NetworkFee = expectedNetFee
require . NoError ( t , multisigAcc . SignTx ( netmode . UnitTestNet , tx ) )
actualSize := io . GetVarSize ( tx )
require . Equal ( t , expectedSize , actualSize )
gasConsumed , err := bc . VerifyWitness ( multisigHash , tx , & tx . Scripts [ 0 ] , - 1 )
require . NoError ( t , err )
require . Equal ( t , verificationNetFee , gasConsumed )
require . Equal ( t , expectedNetFee , bc . FeePerByte ( ) * int64 ( actualSize ) + gasConsumed )
} )
} )
t . Run ( "InvalidTxScript" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . Script = append ( tx . Script , 0xff )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidScript , tx )
} )
t . Run ( "InvalidVerificationScript" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
verif := [ ] byte { byte ( opcode . JMP ) , 3 , 0xff , byte ( opcode . PUSHT ) }
tx . Signers = append ( tx . Signers , transaction . Signer {
Account : hash . Hash160 ( verif ) ,
Scopes : transaction . Global ,
} )
tx . NetworkFee += 1000000
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
tx . Scripts = append ( tx . Scripts , transaction . Witness {
InvocationScript : [ ] byte { } ,
VerificationScript : verif ,
} )
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checkErr ( t , core . ErrInvalidVerificationScript , tx )
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} )
t . Run ( "InvalidInvocationScript" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
verif := [ ] byte { byte ( opcode . PUSHT ) }
tx . Signers = append ( tx . Signers , transaction . Signer {
Account : hash . Hash160 ( verif ) ,
Scopes : transaction . Global ,
} )
tx . NetworkFee += 1000000
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
tx . Scripts = append ( tx . Scripts , transaction . Witness {
InvocationScript : [ ] byte { byte ( opcode . JMP ) , 3 , 0xff } ,
VerificationScript : verif ,
} )
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checkErr ( t , core . ErrInvalidInvocationScript , tx )
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} )
t . Run ( "Conflict" , func ( t * testing . T ) {
balance := bc . GetUtilityTokenBalance ( h ) . Int64 ( )
tx := newTestTx ( t , h , testScript )
tx . NetworkFee = balance / 2
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
require . NoError ( t , bc . PoolTx ( tx ) )
tx2 := newTestTx ( t , h , testScript )
tx2 . NetworkFee = balance / 2
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx2 ) )
err := bc . PoolTx ( tx2 )
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require . ErrorIs ( t , err , core . ErrMemPoolConflict )
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} )
t . Run ( "InvalidWitnessHash" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
tx . Scripts [ 0 ] . VerificationScript = [ ] byte { byte ( opcode . PUSHT ) }
checkErr ( t , core . ErrWitnessHashMismatch , tx )
} )
t . Run ( "InvalidWitnessSignature" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
tx . Scripts [ 0 ] . InvocationScript [ 10 ] = ^ tx . Scripts [ 0 ] . InvocationScript [ 10 ]
checkErr ( t , core . ErrVerificationFailed , tx )
} )
t . Run ( "InsufficientNetworkFeeForSecondWitness" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . Signers = append ( tx . Signers , transaction . Signer {
Account : accs [ 3 ] . PrivateKey ( ) . GetScriptHash ( ) ,
Scopes : transaction . Global ,
} )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
require . NoError ( t , accs [ 3 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrVerificationFailed , tx )
} )
t . Run ( "OldTX" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
e . AddNewBlock ( t , tx )
checkErr ( t , core . ErrAlreadyExists , tx )
} )
t . Run ( "MemPooledTX" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
require . NoError ( t , bc . PoolTx ( tx ) )
err := bc . PoolTx ( tx )
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require . ErrorIs ( t , err , core . ErrAlreadyInPool )
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} )
t . Run ( "MemPoolOOM" , func ( t * testing . T ) {
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mp := mempool . New ( 1 , 0 , false , nil )
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tx1 := newTestTx ( t , h , testScript )
tx1 . NetworkFee += 10000 // Give it more priority.
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx1 ) )
require . NoError ( t , bc . PoolTx ( tx1 , mp ) )
tx2 := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx2 ) )
err := bc . PoolTx ( tx2 , mp )
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require . ErrorIs ( t , err , core . ErrOOM )
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} )
t . Run ( "Attribute" , func ( t * testing . T ) {
t . Run ( "InvalidHighPriority" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : transaction . HighPriority } )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
t . Run ( "ValidHighPriority" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : transaction . HighPriority } )
tx . NetworkFee += 4_000_000 // multisig check
tx . Signers = [ ] transaction . Signer { {
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} }
rawScript := committee . Script ( )
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( bc . GetBaseExecFee ( ) , rawScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * bc . FeePerByte ( )
tx . Scripts = [ ] transaction . Witness { {
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : rawScript ,
} }
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "Oracle" , func ( t * testing . T ) {
cs := contracts . GetOracleContractState ( t , pathToInternalContracts , validator . ScriptHash ( ) , 0 )
e . DeployContract ( t , & neotest . Contract {
Hash : cs . Hash ,
NEF : & cs . NEF ,
Manifest : & cs . Manifest ,
} , nil )
cInvoker := e . ValidatorInvoker ( cs . Hash )
const gasForResponse int64 = 10_000_000
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cInvoker . Invoke ( t , stackitem . Null { } , "requestURL" , "https://get.1234" , "" , "handle" , [ ] byte { } , gasForResponse )
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oracleScript , err := smartcontract . CreateMajorityMultiSigRedeemScript ( oraclePubs )
require . NoError ( t , err )
oracleMultisigHash := hash . Hash160 ( oracleScript )
respScript := native . CreateOracleResponseScript ( oracleHash )
// We need to create new transaction,
// because hashes are cached after signing.
getOracleTx := func ( t * testing . T ) * transaction . Transaction {
tx := transaction . New ( respScript , 1000_0000 )
tx . Nonce = neotest . Nonce ( )
tx . ValidUntilBlock = bc . BlockHeight ( ) + 1
resp := & transaction . OracleResponse {
ID : 0 ,
Code : transaction . Success ,
Result : [ ] byte { 1 , 2 , 3 } ,
}
tx . Attributes = [ ] transaction . Attribute { {
Type : transaction . OracleResponseT ,
Value : resp ,
} }
tx . NetworkFee += 4_000_000 // multisig check
tx . SystemFee = gasForResponse - tx . NetworkFee
tx . Signers = [ ] transaction . Signer { {
Account : oracleMultisigHash ,
Scopes : transaction . None ,
} }
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( bc . GetBaseExecFee ( ) , oracleScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * bc . FeePerByte ( )
return tx
}
t . Run ( "NoOracleNodes" , func ( t * testing . T ) {
tx := getOracleTx ( t )
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
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keys := make ( [ ] any , 0 , len ( oraclePubs ) )
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for _ , p := range oraclePubs {
keys = append ( keys , p . Bytes ( ) )
}
designateSuperInvoker . Invoke ( t , stackitem . Null { } , "designateAsRole" ,
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int64 ( noderoles . Oracle ) , keys )
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t . Run ( "Valid" , func ( t * testing . T ) {
tx := getOracleTx ( t )
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
require . NoError ( t , bc . VerifyTx ( tx ) )
t . Run ( "NativeVerify" , func ( t * testing . T ) {
tx . Signers = append ( tx . Signers , transaction . Signer {
Account : oracleHash ,
Scopes : transaction . None ,
} )
tx . Scripts = append ( tx . Scripts , transaction . Witness { } )
t . Run ( "NonZeroVerification" , func ( t * testing . T ) {
w := io . NewBufBinWriter ( )
emit . Opcodes ( w . BinWriter , opcode . ABORT )
emit . Bytes ( w . BinWriter , util . Uint160 { } . BytesBE ( ) )
emit . Int ( w . BinWriter , 0 )
emit . String ( w . BinWriter , nativenames . Oracle )
tx . Scripts [ len ( tx . Scripts ) - 1 ] . VerificationScript = w . Bytes ( )
err := bc . VerifyTx ( tx )
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require . ErrorIs ( t , err , core . ErrNativeContractWitness )
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} )
t . Run ( "Good" , func ( t * testing . T ) {
tx . Scripts [ len ( tx . Scripts ) - 1 ] . VerificationScript = nil
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
} )
} )
t . Run ( "InvalidRequestID" , func ( t * testing . T ) {
tx := getOracleTx ( t )
tx . Attributes [ 0 ] . Value . ( * transaction . OracleResponse ) . ID = 2
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
t . Run ( "InvalidScope" , func ( t * testing . T ) {
tx := getOracleTx ( t )
tx . Signers [ 0 ] . Scopes = transaction . Global
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
t . Run ( "InvalidScript" , func ( t * testing . T ) {
tx := getOracleTx ( t )
tx . Script = append ( tx . Script , byte ( opcode . NOP ) )
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
t . Run ( "InvalidSigner" , func ( t * testing . T ) {
tx := getOracleTx ( t )
tx . Signers [ 0 ] . Account = accs [ 0 ] . Contract . ScriptHash ( )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
t . Run ( "SmallFee" , func ( t * testing . T ) {
tx := getOracleTx ( t )
tx . SystemFee = 0
require . NoError ( t , oracleAcc . SignTx ( netmode . UnitTestNet , tx ) )
checkErr ( t , core . ErrInvalidAttribute , tx )
} )
} )
t . Run ( "NotValidBefore" , func ( t * testing . T ) {
getNVBTx := func ( e * neotest . Executor , height uint32 ) * transaction . Transaction {
tx := newTestTx ( t , h , testScript )
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : transaction . NotValidBeforeT , Value : & transaction . NotValidBefore { Height : height } } )
tx . NetworkFee += 4_000_000 // multisig check
tx . Signers = [ ] transaction . Signer { {
Account : e . Validator . ScriptHash ( ) ,
Scopes : transaction . None ,
} }
size := io . GetVarSize ( tx )
rawScript := e . Validator . Script ( )
netFee , sizeDelta := fee . Calculate ( e . Chain . GetBaseExecFee ( ) , rawScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * e . Chain . FeePerByte ( )
tx . Scripts = [ ] transaction . Witness { {
InvocationScript : e . Validator . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : rawScript ,
} }
return tx
}
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t . Run ( "Disabled" , func ( t * testing . T ) { // check that NVB attribute is not an extension anymore.
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bcBad , validatorBad , committeeBad := chain . NewMultiWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = false
c . ReservedAttributes = false
} )
eBad := neotest . NewExecutor ( t , bcBad , validatorBad , committeeBad )
tx := getNVBTx ( eBad , bcBad . BlockHeight ( ) )
err := bcBad . VerifyTx ( tx )
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require . NoError ( t , err )
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} )
t . Run ( "Enabled" , func ( t * testing . T ) {
t . Run ( "NotYetValid" , func ( t * testing . T ) {
tx := getNVBTx ( e , bc . BlockHeight ( ) + 1 )
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require . ErrorIs ( t , bc . VerifyTx ( tx ) , core . ErrInvalidAttribute )
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} )
t . Run ( "positive" , func ( t * testing . T ) {
tx := getNVBTx ( e , bc . BlockHeight ( ) )
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
} )
} )
t . Run ( "Reserved" , func ( t * testing . T ) {
getReservedTx := func ( e * neotest . Executor , attrType transaction . AttrType ) * transaction . Transaction {
tx := newTestTx ( t , h , testScript )
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : attrType , Value : & transaction . Reserved { Value : [ ] byte { 1 , 2 , 3 } } } )
tx . NetworkFee += 4_000_000 // multisig check
tx . Signers = [ ] transaction . Signer { {
Account : e . Validator . ScriptHash ( ) ,
Scopes : transaction . None ,
} }
rawScript := e . Validator . Script ( )
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( e . Chain . GetBaseExecFee ( ) , rawScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * e . Chain . FeePerByte ( )
tx . Scripts = [ ] transaction . Witness { {
InvocationScript : e . Validator . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : rawScript ,
} }
return tx
}
t . Run ( "Disabled" , func ( t * testing . T ) {
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bcBad , validatorBad , committeeBad := chain . NewMultiWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = false
c . ReservedAttributes = false
} )
eBad := neotest . NewExecutor ( t , bcBad , validatorBad , committeeBad )
tx := getReservedTx ( eBad , transaction . ReservedLowerBound + 3 )
err := bcBad . VerifyTx ( tx )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "invalid attribute: attribute of reserved type was found, but ReservedAttributes are disabled" ) )
} )
t . Run ( "Enabled" , func ( t * testing . T ) {
tx := getReservedTx ( e , transaction . ReservedLowerBound + 3 )
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
} )
t . Run ( "Conflicts" , func ( t * testing . T ) {
getConflictsTx := func ( e * neotest . Executor , hashes ... util . Uint256 ) * transaction . Transaction {
tx := newTestTx ( t , h , testScript )
tx . Attributes = make ( [ ] transaction . Attribute , len ( hashes ) )
for i , h := range hashes {
tx . Attributes [ i ] = transaction . Attribute {
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : h ,
} ,
}
}
tx . NetworkFee += 4_000_000 // multisig check
tx . Signers = [ ] transaction . Signer { {
Account : e . Validator . ScriptHash ( ) ,
Scopes : transaction . None ,
} }
rawScript := e . Validator . Script ( )
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( e . Chain . GetBaseExecFee ( ) , rawScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * e . Chain . FeePerByte ( )
tx . Scripts = [ ] transaction . Witness { {
InvocationScript : e . Validator . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : rawScript ,
} }
return tx
}
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t . Run ( "disabled" , func ( t * testing . T ) { // check that Conflicts attribute is not an extension anymore.
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bcBad , validatorBad , committeeBad := chain . NewMultiWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = false
c . ReservedAttributes = false
} )
eBad := neotest . NewExecutor ( t , bcBad , validatorBad , committeeBad )
tx := getConflictsTx ( eBad , util . Uint256 { 1 , 2 , 3 } )
err := bcBad . VerifyTx ( tx )
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require . NoError ( t , err )
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} )
t . Run ( "enabled" , func ( t * testing . T ) {
t . Run ( "dummy on-chain conflict" , func ( t * testing . T ) {
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t . Run ( "on-chain conflict signed by malicious party" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
require . NoError ( t , accs [ 0 ] . SignTx ( netmode . UnitTestNet , tx ) )
conflicting := transaction . New ( [ ] byte { byte ( opcode . RET ) } , 1000_0000 )
conflicting . ValidUntilBlock = bc . BlockHeight ( ) + 1
conflicting . Signers = [ ] transaction . Signer {
{
Account : validator . ScriptHash ( ) ,
Scopes : transaction . CalledByEntry ,
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} ,
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}
conflicting . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : tx . Hash ( ) ,
} ,
} ,
}
conflicting . NetworkFee = 1000_0000
require . NoError ( t , validator . SignTx ( netmode . UnitTestNet , conflicting ) )
e . AddNewBlock ( t , conflicting )
// We expect `tx` to pass verification, because on-chained `conflicting` doesn't have
// `tx`'s payer in the signers list, thus, `conflicting` should be considered as
// malicious conflict.
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "multiple on-chain conflicts signed by malicious parties" , func ( t * testing . T ) {
m1 := e . NewAccount ( t )
m2 := e . NewAccount ( t )
m3 := e . NewAccount ( t )
good := e . NewAccount ( t )
// txGood doesn't conflict with anyone and signed by good signer.
txGood := newTestTx ( t , good . ScriptHash ( ) , testScript )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txGood ) )
// txM1 conflicts with txGood and signed by two malicious signers.
txM1 := newTestTx ( t , m1 . ScriptHash ( ) , testScript )
txM1 . Signers = append ( txM1 . Signers , transaction . Signer { Account : m2 . ScriptHash ( ) } )
txM1 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM1 . NetworkFee = 1_000_0000
require . NoError ( t , m1 . SignTx ( netmode . UnitTestNet , txM1 ) )
require . NoError ( t , m2 . SignTx ( netmode . UnitTestNet , txM1 ) )
e . AddNewBlock ( t , txM1 )
// txM2 conflicts with txGood and signed by one malicious signer.
txM2 := newTestTx ( t , m3 . ScriptHash ( ) , testScript )
txM2 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM2 . NetworkFee = 1_000_0000
require . NoError ( t , m3 . SignTx ( netmode . UnitTestNet , txM2 ) )
e . AddNewBlock ( t , txM2 )
// We expect `tx` to pass verification, because on-chained `conflicting` doesn't have
// `tx`'s payer in the signers list, thus, `conflicting` should be considered as
// malicious conflict.
require . NoError ( t , bc . VerifyTx ( txGood ) )
// After that txGood can be added to the chain normally.
e . AddNewBlock ( t , txGood )
// And after that ErrAlreadyExist is expected on verification.
require . ErrorIs ( t , bc . VerifyTx ( txGood ) , core . ErrAlreadyExists )
} )
t . Run ( "multiple on-chain conflicts signed by [valid+malicious] parties" , func ( t * testing . T ) {
m1 := e . NewAccount ( t )
m2 := e . NewAccount ( t )
m3 := e . NewAccount ( t )
good := e . NewAccount ( t )
// txGood doesn't conflict with anyone and signed by good signer.
txGood := newTestTx ( t , good . ScriptHash ( ) , testScript )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txGood ) )
// txM1 conflicts with txGood and signed by one malicious and one good signers.
txM1 := newTestTx ( t , m1 . ScriptHash ( ) , testScript )
txM1 . Signers = append ( txM1 . Signers , transaction . Signer { Account : good . ScriptHash ( ) } )
txM1 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM1 . NetworkFee = 1_000_0000
require . NoError ( t , m1 . SignTx ( netmode . UnitTestNet , txM1 ) )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txM1 ) )
e . AddNewBlock ( t , txM1 )
// txM2 conflicts with txGood and signed by two malicious signers.
txM2 := newTestTx ( t , m2 . ScriptHash ( ) , testScript )
txM2 . Signers = append ( txM2 . Signers , transaction . Signer { Account : m3 . ScriptHash ( ) } )
txM2 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM2 . NetworkFee = 1_000_0000
require . NoError ( t , m2 . SignTx ( netmode . UnitTestNet , txM2 ) )
require . NoError ( t , m3 . SignTx ( netmode . UnitTestNet , txM2 ) )
e . AddNewBlock ( t , txM2 )
// We expect `tx` to fail verification, because one of the on-chained `conflicting`
// transactions has common signers with `tx`, thus, `conflicting` should be
// considered as a valid conflict.
require . ErrorIs ( t , bc . VerifyTx ( txGood ) , core . ErrHasConflicts )
} )
t . Run ( "multiple on-chain conflicts signed by [malicious+valid] parties" , func ( t * testing . T ) {
m1 := e . NewAccount ( t )
m2 := e . NewAccount ( t )
m3 := e . NewAccount ( t )
good := e . NewAccount ( t )
// txGood doesn't conflict with anyone and signed by good signer.
txGood := newTestTx ( t , good . ScriptHash ( ) , testScript )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txGood ) )
// txM2 conflicts with txGood and signed by two malicious signers.
txM2 := newTestTx ( t , m2 . ScriptHash ( ) , testScript )
txM2 . Signers = append ( txM2 . Signers , transaction . Signer { Account : m3 . ScriptHash ( ) } )
txM2 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM2 . NetworkFee = 1_000_0000
require . NoError ( t , m2 . SignTx ( netmode . UnitTestNet , txM2 ) )
require . NoError ( t , m3 . SignTx ( netmode . UnitTestNet , txM2 ) )
e . AddNewBlock ( t , txM2 )
// txM1 conflicts with txGood and signed by one malicious and one good signers.
txM1 := newTestTx ( t , m1 . ScriptHash ( ) , testScript )
txM1 . Signers = append ( txM1 . Signers , transaction . Signer { Account : good . ScriptHash ( ) } )
txM1 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM1 . NetworkFee = 1_000_0000
require . NoError ( t , m1 . SignTx ( netmode . UnitTestNet , txM1 ) )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txM1 ) )
e . AddNewBlock ( t , txM1 )
// We expect `tx` to fail verification, because one of the on-chained `conflicting`
// transactions has common signers with `tx`, thus, `conflicting` should be
// considered as a valid conflict.
require . ErrorIs ( t , bc . VerifyTx ( txGood ) , core . ErrHasConflicts )
} )
t . Run ( "multiple on-chain conflicts signed by [valid + malicious + valid] parties" , func ( t * testing . T ) {
m1 := e . NewAccount ( t )
m2 := e . NewAccount ( t )
m3 := e . NewAccount ( t )
good := e . NewAccount ( t )
// txGood doesn't conflict with anyone and signed by good signer.
txGood := newTestTx ( t , good . ScriptHash ( ) , testScript )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txGood ) )
// txM1 conflicts with txGood and signed by one malicious and one good signers.
txM1 := newTestTx ( t , m1 . ScriptHash ( ) , testScript )
txM1 . Signers = append ( txM1 . Signers , transaction . Signer { Account : good . ScriptHash ( ) } )
txM1 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM1 . NetworkFee = 1_000_0000
require . NoError ( t , m1 . SignTx ( netmode . UnitTestNet , txM1 ) )
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txM1 ) )
e . AddNewBlock ( t , txM1 )
// txM2 conflicts with txGood and signed by two malicious signers.
txM2 := newTestTx ( t , m2 . ScriptHash ( ) , testScript )
txM2 . Signers = append ( txM2 . Signers , transaction . Signer { Account : m3 . ScriptHash ( ) } )
txM2 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM2 . NetworkFee = 1_000_0000
require . NoError ( t , m2 . SignTx ( netmode . UnitTestNet , txM2 ) )
require . NoError ( t , m3 . SignTx ( netmode . UnitTestNet , txM2 ) )
e . AddNewBlock ( t , txM2 )
// txM3 conflicts with txGood and signed by one good and one malicious signers.
txM3 := newTestTx ( t , good . ScriptHash ( ) , testScript )
txM3 . Signers = append ( txM3 . Signers , transaction . Signer { Account : m1 . ScriptHash ( ) } )
txM3 . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : txGood . Hash ( ) ,
} ,
} ,
}
txM3 . NetworkFee = 1_000_0000
require . NoError ( t , good . SignTx ( netmode . UnitTestNet , txM3 ) )
require . NoError ( t , m1 . SignTx ( netmode . UnitTestNet , txM3 ) )
e . AddNewBlock ( t , txM3 )
// We expect `tx` to fail verification, because one of the on-chained `conflicting`
// transactions has common signers with `tx`, thus, `conflicting` should be
// considered as a valid conflict.
require . ErrorIs ( t , bc . VerifyTx ( txGood ) , core . ErrHasConflicts )
} )
t . Run ( "on-chain conflict signed by single valid sender" , func ( t * testing . T ) {
tx := newTestTx ( t , h , testScript )
tx . Signers = [ ] transaction . Signer { { Account : validator . ScriptHash ( ) } }
require . NoError ( t , validator . SignTx ( netmode . UnitTestNet , tx ) )
conflicting := transaction . New ( [ ] byte { byte ( opcode . RET ) } , 1000_0000 )
conflicting . ValidUntilBlock = bc . BlockHeight ( ) + 1
conflicting . Signers = [ ] transaction . Signer {
{
Account : validator . ScriptHash ( ) ,
Scopes : transaction . CalledByEntry ,
} ,
}
conflicting . Attributes = [ ] transaction . Attribute {
{
Type : transaction . ConflictsT ,
Value : & transaction . Conflicts {
Hash : tx . Hash ( ) ,
} ,
} ,
}
conflicting . NetworkFee = 1000_0000
require . NoError ( t , validator . SignTx ( netmode . UnitTestNet , conflicting ) )
e . AddNewBlock ( t , conflicting )
// We expect `tx` to fail verification, because on-chained `conflicting` has
// `tx`'s payer as a signer.
require . ErrorIs ( t , bc . VerifyTx ( tx ) , core . ErrHasConflicts )
} )
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} )
t . Run ( "attribute on-chain conflict" , func ( t * testing . T ) {
tx := neoValidatorsInvoker . Invoke ( t , stackitem . NewBool ( true ) , "transfer" , neoOwner , neoOwner , 1 , nil )
txConflict := getConflictsTx ( e , tx )
require . Error ( t , bc . VerifyTx ( txConflict ) )
} )
t . Run ( "positive" , func ( t * testing . T ) {
tx := getConflictsTx ( e , random . Uint256 ( ) )
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
} )
} )
t . Run ( "NotaryAssisted" , func ( t * testing . T ) {
notary , err := wallet . NewAccount ( )
require . NoError ( t , err )
designateSuperInvoker . Invoke ( t , stackitem . Null { } , "designateAsRole" ,
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int64 ( noderoles . P2PNotary ) , [ ] any { notary . PublicKey ( ) . Bytes ( ) } )
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txSetNotary := transaction . New ( [ ] byte { byte ( opcode . RET ) } , 0 )
txSetNotary . Signers = [ ] transaction . Signer {
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . Global ,
} ,
}
txSetNotary . Scripts = [ ] transaction . Witness { {
InvocationScript : e . Committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , txSetNotary ) ,
VerificationScript : e . Committee . Script ( ) ,
} }
getNotaryAssistedTx := func ( e * neotest . Executor , signaturesCount uint8 , serviceFee int64 ) * transaction . Transaction {
tx := newTestTx ( t , h , testScript )
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : transaction . NotaryAssistedT , Value : & transaction . NotaryAssisted {
NKeys : signaturesCount ,
} } )
tx . NetworkFee += serviceFee // additional fee for NotaryAssisted attribute
tx . NetworkFee += 4_000_000 // multisig check
tx . Signers = [ ] transaction . Signer { {
Account : e . CommitteeHash ,
Scopes : transaction . None ,
} ,
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
}
rawScript := committee . Script ( )
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( e . Chain . GetBaseExecFee ( ) , rawScript )
tx . NetworkFee += netFee
tx . NetworkFee += int64 ( size + sizeDelta ) * e . Chain . FeePerByte ( )
tx . Scripts = [ ] transaction . Witness {
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : rawScript ,
} ,
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , notary . PrivateKey ( ) . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
}
return tx
}
t . Run ( "Disabled" , func ( t * testing . T ) {
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bcBad , validatorBad , committeeBad := chain . NewMultiWithCustomConfig ( t , func ( c * config . Blockchain ) {
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c . P2PSigExtensions = false
c . ReservedAttributes = false
} )
eBad := neotest . NewExecutor ( t , bcBad , validatorBad , committeeBad )
tx := transaction . New ( testScript , 1_000_000 )
tx . Nonce = neotest . Nonce ( )
tx . ValidUntilBlock = e . Chain . BlockHeight ( ) + 5
tx . Attributes = append ( tx . Attributes , transaction . Attribute { Type : transaction . NotaryAssistedT , Value : & transaction . NotaryAssisted { NKeys : 0 } } )
tx . NetworkFee = 1_0000_0000
eBad . SignTx ( t , tx , 1_0000_0000 , eBad . Committee )
err := bcBad . VerifyTx ( tx )
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , "invalid attribute: NotaryAssisted attribute was found, but P2PSigExtensions are disabled" ) )
} )
t . Run ( "Enabled, insufficient network fee" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , 0 )
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "Test verify" , func ( t * testing . T ) {
t . Run ( "no NotaryAssisted attribute" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Attributes = [ ] transaction . Attribute { }
tx . Signers = [ ] transaction . Signer {
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
}
tx . Scripts = [ ] transaction . Witness {
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : committee . Script ( ) ,
} ,
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , notary . PrivateKey ( ) . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "no deposit" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Signers = [ ] transaction . Signer {
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
}
tx . Scripts = [ ] transaction . Witness {
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , notary . PrivateKey ( ) . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : committee . Script ( ) ,
} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "bad Notary signer scope" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Signers = [ ] transaction . Signer {
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
{
Account : notaryHash ,
Scopes : transaction . CalledByEntry ,
} ,
}
tx . Scripts = [ ] transaction . Witness {
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : committee . Script ( ) ,
} ,
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , notary . PrivateKey ( ) . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "not signed by Notary" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Signers = [ ] transaction . Signer {
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
}
tx . Scripts = [ ] transaction . Witness {
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : committee . Script ( ) ,
} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "bad Notary node witness" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Signers = [ ] transaction . Signer {
{
Account : committee . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
}
acc , err := keys . NewPrivateKey ( )
require . NoError ( t , err )
tx . Scripts = [ ] transaction . Witness {
{
InvocationScript : committee . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : committee . Script ( ) ,
} ,
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , acc . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "missing payer" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
tx . Signers = [ ] transaction . Signer {
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
}
tx . Scripts = [ ] transaction . Witness {
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , notary . PrivateKey ( ) . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ... ) ,
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} ,
}
require . Error ( t , bc . VerifyTx ( tx ) )
} )
t . Run ( "positive" , func ( t * testing . T ) {
tx := getNotaryAssistedTx ( e , 1 , ( 1 + 1 ) * notaryServiceFeePerKey )
require . NoError ( t , bc . VerifyTx ( tx ) )
} )
} )
} )
} )
t . Run ( "Partially-filled transaction" , func ( t * testing . T ) {
getPartiallyFilledTx := func ( nvb uint32 , validUntil uint32 ) * transaction . Transaction {
tx := newTestTx ( t , h , testScript )
tx . ValidUntilBlock = validUntil
tx . Attributes = [ ] transaction . Attribute {
{
Type : transaction . NotValidBeforeT ,
Value : & transaction . NotValidBefore { Height : nvb } ,
} ,
{
Type : transaction . NotaryAssistedT ,
Value : & transaction . NotaryAssisted { NKeys : 0 } ,
} ,
}
tx . Signers = [ ] transaction . Signer {
{
Account : notaryHash ,
Scopes : transaction . None ,
} ,
{
Account : validator . ScriptHash ( ) ,
Scopes : transaction . None ,
} ,
}
size := io . GetVarSize ( tx )
netFee , sizeDelta := fee . Calculate ( bc . GetBaseExecFee ( ) , validator . Script ( ) )
tx . NetworkFee = netFee + // multisig witness verification price
int64 ( size ) * bc . FeePerByte ( ) + // fee for unsigned size
int64 ( sizeDelta ) * bc . FeePerByte ( ) + // fee for multisig size
66 * bc . FeePerByte ( ) + // fee for Notary signature size (66 bytes for Invocation script and 0 bytes for Verification script)
2 * bc . FeePerByte ( ) + // fee for the length of each script in Notary witness (they are nil, so we did not take them into account during `size` calculation)
notaryServiceFeePerKey + // fee for Notary attribute
fee . Opcode ( bc . GetBaseExecFee ( ) , // Notary verification script
opcode . PUSHDATA1 , opcode . RET , // invocation script
opcode . PUSH0 , opcode . SYSCALL , opcode . RET ) + // Neo.Native.Call
nativeprices . NotaryVerificationPrice * bc . GetBaseExecFee ( ) // Notary witness verification price
tx . Scripts = [ ] transaction . Witness {
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , make ( [ ] byte , keys . SignatureLen ) ... ) ,
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VerificationScript : [ ] byte { } ,
} ,
{
InvocationScript : validator . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : validator . Script ( ) ,
} ,
}
return tx
}
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mp := mempool . New ( 10 , 1 , false , nil )
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verificationF := func ( tx * transaction . Transaction , data any ) error {
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if data . ( int ) > 5 {
return errors . New ( "bad data" )
}
return nil
}
t . Run ( "failed pre-verification" , func ( t * testing . T ) {
tx := getPartiallyFilledTx ( bc . BlockHeight ( ) , bc . BlockHeight ( ) + 1 )
require . Error ( t , bc . PoolTxWithData ( tx , 6 , mp , bc , verificationF ) ) // here and below let's use `bc` instead of proper NotaryFeer for the test simplicity.
} )
t . Run ( "GasLimitExceeded during witness verification" , func ( t * testing . T ) {
tx := getPartiallyFilledTx ( bc . BlockHeight ( ) , bc . BlockHeight ( ) + 1 )
tx . NetworkFee -- // to check that NetworkFee was set correctly in getPartiallyFilledTx
tx . Scripts = [ ] transaction . Witness {
{
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InvocationScript : append ( [ ] byte { byte ( opcode . PUSHDATA1 ) , keys . SignatureLen } , make ( [ ] byte , keys . SignatureLen ) ... ) ,
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VerificationScript : [ ] byte { } ,
} ,
{
InvocationScript : validator . SignHashable ( uint32 ( netmode . UnitTestNet ) , tx ) ,
VerificationScript : validator . Script ( ) ,
} ,
}
require . Error ( t , bc . PoolTxWithData ( tx , 5 , mp , bc , verificationF ) )
} )
t . Run ( "bad NVB: too big" , func ( t * testing . T ) {
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maxNVB , err := bc . GetMaxNotValidBeforeDelta ( )
require . NoError ( t , err )
tx := getPartiallyFilledTx ( bc . BlockHeight ( ) + maxNVB + 1 , bc . BlockHeight ( ) + 1 )
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require . ErrorIs ( t , bc . PoolTxWithData ( tx , 5 , mp , bc , verificationF ) , core . ErrInvalidAttribute )
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} )
t . Run ( "bad ValidUntilBlock: too small" , func ( t * testing . T ) {
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maxNVB , err := bc . GetMaxNotValidBeforeDelta ( )
require . NoError ( t , err )
tx := getPartiallyFilledTx ( bc . BlockHeight ( ) , bc . BlockHeight ( ) + maxNVB + 1 )
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require . ErrorIs ( t , bc . PoolTxWithData ( tx , 5 , mp , bc , verificationF ) , core . ErrInvalidAttribute )
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} )
t . Run ( "good" , func ( t * testing . T ) {
tx := getPartiallyFilledTx ( bc . BlockHeight ( ) , bc . BlockHeight ( ) + 1 )
require . NoError ( t , bc . PoolTxWithData ( tx , 5 , mp , bc , verificationF ) )
} )
} )
}
func TestBlockchain_Bug1728 ( t * testing . T ) {
bc , acc := chain . NewSingle ( t )
e := neotest . NewExecutor ( t , bc , acc , acc )
managementInvoker := e . ValidatorInvoker ( e . NativeHash ( t , nativenames . Management ) )
src := ` package example
import "github.com/nspcc-dev/neo-go/pkg/interop/runtime"
func init ( ) { if true { } else { } }
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func _deploy ( _ any , isUpdate bool ) {
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runtime . Log ( "Deploy" )
} `
c := neotest . CompileSource ( t , acc . ScriptHash ( ) , strings . NewReader ( src ) , & compiler . Options { Name : "TestContract" } )
managementInvoker . DeployContract ( t , c , nil )
}
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func TestBlockchain_ResetStateErrors ( t * testing . T ) {
chainHeight := 3
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checkResetErr := func ( t * testing . T , cfg func ( c * config . Blockchain ) , h uint32 , errText string ) {
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db , path := newLevelDBForTestingWithPath ( t , t . TempDir ( ) )
bc , validators , committee := chain . NewMultiWithCustomConfigAndStore ( t , cfg , db , false )
e := neotest . NewExecutor ( t , bc , validators , committee )
go bc . Run ( )
for i := 0 ; i < chainHeight ; i ++ {
e . AddNewBlock ( t ) // get some height
}
bc . Close ( )
db , _ = newLevelDBForTestingWithPath ( t , path )
defer db . Close ( )
bc , _ , _ = chain . NewMultiWithCustomConfigAndStore ( t , cfg , db , false )
err := bc . Reset ( h )
if errText != "" {
require . Error ( t , err )
require . True ( t , strings . Contains ( err . Error ( ) , errText ) , err )
} else {
require . NoError ( t , err )
}
}
t . Run ( "large height" , func ( t * testing . T ) {
checkResetErr ( t , nil , uint32 ( chainHeight + 1 ) , "can't reset state to height 4" )
} )
t . Run ( "already at height" , func ( t * testing . T ) {
checkResetErr ( t , nil , uint32 ( chainHeight ) , "" )
} )
t . Run ( "KeepOnlyLatestState is enabled" , func ( t * testing . T ) {
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checkResetErr ( t , func ( c * config . Blockchain ) {
c . Ledger . KeepOnlyLatestState = true
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} , uint32 ( chainHeight - 1 ) , "KeepOnlyLatestState is enabled" )
} )
t . Run ( "some blocks where removed" , func ( t * testing . T ) {
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checkResetErr ( t , func ( c * config . Blockchain ) {
c . Ledger . RemoveUntraceableBlocks = true
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c . MaxTraceableBlocks = 2
} , uint32 ( chainHeight - 3 ) , "RemoveUntraceableBlocks is enabled, a necessary batch of traceable blocks has already been removed" )
} )
}
// TestBlockchain_ResetState is based on knowledge about basic chain transactions,
// it performs basic chain reset and checks that reset chain has proper state.
func TestBlockchain_ResetState ( t * testing . T ) {
// Create the DB.
db , path := newLevelDBForTestingWithPath ( t , t . TempDir ( ) )
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bc , validators , committee := chain . NewMultiWithCustomConfigAndStore ( t , func ( cfg * config . Blockchain ) {
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cfg . P2PSigExtensions = true
} , db , false )
go bc . Run ( )
e := neotest . NewExecutor ( t , bc , validators , committee )
basicchain . Init ( t , "../../" , e )
// Gather some reference information.
resetBlockIndex := uint32 ( 15 )
staleID := basicchain . NFSOContractID // NEP11
rublesH := e . ContractHash ( t , basicchain . RublesContractID )
nnsH := e . ContractHash ( t , basicchain . NNSContractID )
staleH := e . ContractHash ( t , staleID )
gasH := e . NativeHash ( t , nativenames . Gas )
neoH := e . NativeHash ( t , nativenames . Neo )
gasID := e . NativeID ( t , nativenames . Gas )
neoID := e . NativeID ( t , nativenames . Neo )
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resetBlockHash := bc . GetHeaderHash ( resetBlockIndex )
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resetBlockHeader , err := bc . GetHeader ( resetBlockHash )
require . NoError ( t , err )
topBlockHeight := bc . BlockHeight ( )
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topBH := bc . GetHeaderHash ( bc . BlockHeight ( ) )
staleBH := bc . GetHeaderHash ( resetBlockIndex + 1 )
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staleB , err := bc . GetBlock ( staleBH )
require . NoError ( t , err )
staleTx := staleB . Transactions [ 0 ]
_ , err = bc . GetAppExecResults ( staleTx . Hash ( ) , trigger . Application )
require . NoError ( t , err )
sr , err := bc . GetStateModule ( ) . GetStateRoot ( resetBlockIndex )
require . NoError ( t , err )
staleSR , err := bc . GetStateModule ( ) . GetStateRoot ( resetBlockIndex + 1 )
require . NoError ( t , err )
rublesKey := [ ] byte ( "testkey" )
rublesStaleKey := [ ] byte ( "aa" )
rublesStaleValue := bc . GetStorageItem ( basicchain . RublesContractID , rublesKey ) // check value is there
require . Equal ( t , [ ] byte ( basicchain . RublesNewTestvalue ) , [ ] byte ( rublesStaleValue ) )
acc0 := e . Validator . ( neotest . MultiSigner ) . Single ( 2 ) // priv0 index->order and order->index conversion
priv0ScriptHash := acc0 . ScriptHash ( )
var (
expectedNEP11t [ ] * state . NEP11Transfer
expectedNEP17t [ ] * state . NEP17Transfer
)
require . NoError ( t , bc . ForEachNEP11Transfer ( priv0ScriptHash , resetBlockHeader . Timestamp , func ( t * state . NEP11Transfer ) ( bool , error ) {
if t . Block <= resetBlockIndex {
expectedNEP11t = append ( expectedNEP11t , t )
}
return true , nil
} ) )
require . NoError ( t , bc . ForEachNEP17Transfer ( priv0ScriptHash , resetBlockHeader . Timestamp , func ( t * state . NEP17Transfer ) ( bool , error ) {
if t . Block <= resetBlockIndex {
expectedNEP17t = append ( expectedNEP17t , t )
}
return true , nil
} ) )
// checkProof checks that some stale proof is reachable
checkProof := func ( ) {
rublesStaleFullKey := make ( [ ] byte , 4 )
binary . LittleEndian . PutUint32 ( rublesStaleFullKey , uint32 ( basicchain . RublesContractID ) )
rublesStaleFullKey = append ( rublesStaleFullKey , rublesStaleKey ... )
proof , err := bc . GetStateModule ( ) . GetStateProof ( staleSR . Root , rublesStaleFullKey )
require . NoError ( t , err )
require . NotEmpty ( t , proof )
}
checkProof ( )
// Ensure all changes were persisted.
bc . Close ( )
// Start new chain with existing DB, but do not run it.
db , _ = newLevelDBForTestingWithPath ( t , path )
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bc , _ , _ = chain . NewMultiWithCustomConfigAndStore ( t , func ( cfg * config . Blockchain ) {
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cfg . P2PSigExtensions = true
} , db , false )
defer db . Close ( )
require . Equal ( t , topBlockHeight , bc . BlockHeight ( ) ) // ensure DB was properly initialized.
// Reset state.
require . NoError ( t , bc . Reset ( resetBlockIndex ) )
// Check that state was properly reset.
require . Equal ( t , resetBlockIndex , bc . BlockHeight ( ) )
require . Equal ( t , resetBlockIndex , bc . HeaderHeight ( ) )
require . Equal ( t , resetBlockHash , bc . CurrentHeaderHash ( ) )
require . Equal ( t , resetBlockHash , bc . CurrentBlockHash ( ) )
require . Equal ( t , resetBlockIndex , bc . GetStateModule ( ) . CurrentLocalHeight ( ) )
require . Equal ( t , sr . Root , bc . GetStateModule ( ) . CurrentLocalStateRoot ( ) )
require . Equal ( t , uint32 ( 0 ) , bc . GetStateModule ( ) . CurrentValidatedHeight ( ) )
// Try to get the latest block\header.
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bh := bc . GetHeaderHash ( resetBlockIndex )
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require . Equal ( t , resetBlockHash , bh )
h , err := bc . GetHeader ( bh )
require . NoError ( t , err )
require . Equal ( t , resetBlockHeader , h )
actualRublesHash , err := bc . GetContractScriptHash ( basicchain . RublesContractID )
require . NoError ( t , err )
require . Equal ( t , rublesH , actualRublesHash )
// Check that stale blocks/headers/txs/aers/sr are not reachable.
for i := resetBlockIndex + 1 ; i <= topBlockHeight ; i ++ {
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hHash := bc . GetHeaderHash ( i )
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require . Equal ( t , util . Uint256 { } , hHash )
_ , err = bc . GetStateRoot ( i )
require . Error ( t , err )
}
for _ , h := range [ ] util . Uint256 { staleBH , topBH } {
_ , err = bc . GetHeader ( h )
require . Error ( t , err )
_ , err = bc . GetHeader ( h )
require . Error ( t , err )
}
_ , _ , err = bc . GetTransaction ( staleTx . Hash ( ) )
require . Error ( t , err )
_ , err = bc . GetAppExecResults ( staleTx . Hash ( ) , trigger . Application )
require . Error ( t , err )
// However, proofs and everything related to stale MPT nodes still should work properly,
// because we don't remove stale MPT nodes.
checkProof ( )
// Check NEP-compatible contracts.
nep11 := bc . GetNEP11Contracts ( )
require . Equal ( t , 1 , len ( nep11 ) ) // NNS
require . Equal ( t , nnsH , nep11 [ 0 ] )
nep17 := bc . GetNEP17Contracts ( )
require . Equal ( t , 3 , len ( nep17 ) ) // Neo, Gas, Rubles
require . ElementsMatch ( t , [ ] util . Uint160 { gasH , neoH , rublesH } , nep17 )
// Retrieve stale contract.
cs := bc . GetContractState ( staleH )
require . Nil ( t , cs )
// Retrieve stale storage item.
rublesValue := bc . GetStorageItem ( basicchain . RublesContractID , rublesKey )
require . Equal ( t , [ ] byte ( basicchain . RublesOldTestvalue ) , [ ] byte ( rublesValue ) ) // the one with historic state
require . Nil ( t , bc . GetStorageItem ( basicchain . RublesContractID , rublesStaleKey ) ) // the one that was added after target reset block
db . Seek ( storage . SeekRange {
Prefix : [ ] byte { byte ( storage . STStorage ) } , // no items with old prefix
} , func ( k , v [ ] byte ) bool {
t . Fatal ( "no stale items must be left in storage" )
return false
} )
// Check transfers.
var (
actualNEP11t [ ] * state . NEP11Transfer
actualNEP17t [ ] * state . NEP17Transfer
)
require . NoError ( t , bc . ForEachNEP11Transfer ( priv0ScriptHash , e . TopBlock ( t ) . Timestamp , func ( t * state . NEP11Transfer ) ( bool , error ) {
actualNEP11t = append ( actualNEP11t , t )
return true , nil
} ) )
require . NoError ( t , bc . ForEachNEP17Transfer ( priv0ScriptHash , e . TopBlock ( t ) . Timestamp , func ( t * state . NEP17Transfer ) ( bool , error ) {
actualNEP17t = append ( actualNEP17t , t )
return true , nil
} ) )
assert . Equal ( t , expectedNEP11t , actualNEP11t )
assert . Equal ( t , expectedNEP17t , actualNEP17t )
lub , err := bc . GetTokenLastUpdated ( priv0ScriptHash )
require . NoError ( t , err )
expectedLUB := map [ int32 ] uint32 { // this information is extracted from basic chain initialization code
basicchain . NNSContractID : resetBlockIndex - 1 , // `neo.com` registration
basicchain . RublesContractID : 6 , // transfer of 123 RUR to priv1
gasID : resetBlockIndex , // fee for `1.2.3.4` A record registration
neoID : 4 , // transfer of 1000 NEO to priv1
}
require . Equal ( t , expectedLUB , lub )
}