@ -670,3 +670,216 @@ func makeTestReceipts(n int, nPerBlock int) []types.Receipts {
}
}
return allReceipts
return allReceipts
}
}
type fullLogRLP struct {
Address common . Address
Topics [ ] common . Hash
Data [ ] byte
BlockNumber uint64
TxHash common . Hash
TxIndex uint
BlockHash common . Hash
Index uint
}
func newFullLogRLP ( l * types . Log ) * fullLogRLP {
return & fullLogRLP {
Address : l . Address ,
Topics : l . Topics ,
Data : l . Data ,
BlockNumber : l . BlockNumber ,
TxHash : l . TxHash ,
TxIndex : l . TxIndex ,
BlockHash : l . BlockHash ,
Index : l . Index ,
}
}
// Tests that logs associated with a single block can be retrieved.
func TestReadLogs ( t * testing . T ) {
db := NewMemoryDatabase ( )
// Create a live block since we need metadata to reconstruct the receipt
tx1 := types . NewTransaction ( 1 , common . HexToAddress ( "0x1" ) , big . NewInt ( 1 ) , 1 , big . NewInt ( 1 ) , nil )
tx2 := types . NewTransaction ( 2 , common . HexToAddress ( "0x2" ) , big . NewInt ( 2 ) , 2 , big . NewInt ( 2 ) , nil )
body := & types . Body { Transactions : types . Transactions { tx1 , tx2 } }
// Create the two receipts to manage afterwards
receipt1 := & types . Receipt {
Status : types . ReceiptStatusFailed ,
CumulativeGasUsed : 1 ,
Logs : [ ] * types . Log {
{ Address : common . BytesToAddress ( [ ] byte { 0x11 } ) } ,
{ Address : common . BytesToAddress ( [ ] byte { 0x01 , 0x11 } ) } ,
} ,
TxHash : tx1 . Hash ( ) ,
ContractAddress : common . BytesToAddress ( [ ] byte { 0x01 , 0x11 , 0x11 } ) ,
GasUsed : 111111 ,
}
receipt1 . Bloom = types . CreateBloom ( types . Receipts { receipt1 } )
receipt2 := & types . Receipt {
PostState : common . Hash { 2 } . Bytes ( ) ,
CumulativeGasUsed : 2 ,
Logs : [ ] * types . Log {
{ Address : common . BytesToAddress ( [ ] byte { 0x22 } ) } ,
{ Address : common . BytesToAddress ( [ ] byte { 0x02 , 0x22 } ) } ,
} ,
TxHash : tx2 . Hash ( ) ,
ContractAddress : common . BytesToAddress ( [ ] byte { 0x02 , 0x22 , 0x22 } ) ,
GasUsed : 222222 ,
}
receipt2 . Bloom = types . CreateBloom ( types . Receipts { receipt2 } )
receipts := [ ] * types . Receipt { receipt1 , receipt2 }
hash := common . BytesToHash ( [ ] byte { 0x03 , 0x14 } )
// Check that no receipt entries are in a pristine database
if rs := ReadReceipts ( db , hash , 0 , params . TestChainConfig ) ; len ( rs ) != 0 {
t . Fatalf ( "non existent receipts returned: %v" , rs )
}
// Insert the body that corresponds to the receipts
WriteBody ( db , hash , 0 , body )
// Insert the receipt slice into the database and check presence
WriteReceipts ( db , hash , 0 , receipts )
logs := ReadLogs ( db , hash , 0 )
if len ( logs ) == 0 {
t . Fatalf ( "no logs returned" )
}
if have , want := len ( logs ) , 2 ; have != want {
t . Fatalf ( "unexpected number of logs returned, have %d want %d" , have , want )
}
if have , want := len ( logs [ 0 ] ) , 2 ; have != want {
t . Fatalf ( "unexpected number of logs[0] returned, have %d want %d" , have , want )
}
if have , want := len ( logs [ 1 ] ) , 2 ; have != want {
t . Fatalf ( "unexpected number of logs[1] returned, have %d want %d" , have , want )
}
// Fill in log fields so we can compare their rlp encoding
if err := types . Receipts ( receipts ) . DeriveFields ( params . TestChainConfig , hash , 0 , body . Transactions ) ; err != nil {
t . Fatal ( err )
}
for i , pr := range receipts {
for j , pl := range pr . Logs {
rlpHave , err := rlp . EncodeToBytes ( newFullLogRLP ( logs [ i ] [ j ] ) )
if err != nil {
t . Fatal ( err )
}
rlpWant , err := rlp . EncodeToBytes ( newFullLogRLP ( pl ) )
if err != nil {
t . Fatal ( err )
}
if ! bytes . Equal ( rlpHave , rlpWant ) {
t . Fatalf ( "receipt #%d: receipt mismatch: have %s, want %s" , i , hex . EncodeToString ( rlpHave ) , hex . EncodeToString ( rlpWant ) )
}
}
}
}
func TestDeriveLogFields ( t * testing . T ) {
// Create a few transactions to have receipts for
to2 := common . HexToAddress ( "0x2" )
to3 := common . HexToAddress ( "0x3" )
txs := types . Transactions {
types . NewTx ( & types . LegacyTx {
Nonce : 1 ,
Value : big . NewInt ( 1 ) ,
Gas : 1 ,
GasPrice : big . NewInt ( 1 ) ,
} ) ,
types . NewTx ( & types . LegacyTx {
To : & to2 ,
Nonce : 2 ,
Value : big . NewInt ( 2 ) ,
Gas : 2 ,
GasPrice : big . NewInt ( 2 ) ,
} ) ,
types . NewTx ( & types . AccessListTx {
To : & to3 ,
Nonce : 3 ,
Value : big . NewInt ( 3 ) ,
Gas : 3 ,
GasPrice : big . NewInt ( 3 ) ,
} ) ,
}
// Create the corresponding receipts
receipts := [ ] * receiptLogs {
{
Logs : [ ] * types . Log {
{ Address : common . BytesToAddress ( [ ] byte { 0x11 } ) } ,
{ Address : common . BytesToAddress ( [ ] byte { 0x01 , 0x11 } ) } ,
} ,
} ,
{
Logs : [ ] * types . Log {
{ Address : common . BytesToAddress ( [ ] byte { 0x22 } ) } ,
{ Address : common . BytesToAddress ( [ ] byte { 0x02 , 0x22 } ) } ,
} ,
} ,
{
Logs : [ ] * types . Log {
{ Address : common . BytesToAddress ( [ ] byte { 0x33 } ) } ,
{ Address : common . BytesToAddress ( [ ] byte { 0x03 , 0x33 } ) } ,
} ,
} ,
}
// Derive log metadata fields
number := big . NewInt ( 1 )
hash := common . BytesToHash ( [ ] byte { 0x03 , 0x14 } )
if err := deriveLogFields ( receipts , hash , number . Uint64 ( ) , txs ) ; err != nil {
t . Fatal ( err )
}
// Iterate over all the computed fields and check that they're correct
logIndex := uint ( 0 )
for i := range receipts {
for j := range receipts [ i ] . Logs {
if receipts [ i ] . Logs [ j ] . BlockNumber != number . Uint64 ( ) {
t . Errorf ( "receipts[%d].Logs[%d].BlockNumber = %d, want %d" , i , j , receipts [ i ] . Logs [ j ] . BlockNumber , number . Uint64 ( ) )
}
if receipts [ i ] . Logs [ j ] . BlockHash != hash {
t . Errorf ( "receipts[%d].Logs[%d].BlockHash = %s, want %s" , i , j , receipts [ i ] . Logs [ j ] . BlockHash . String ( ) , hash . String ( ) )
}
if receipts [ i ] . Logs [ j ] . TxHash != txs [ i ] . Hash ( ) {
t . Errorf ( "receipts[%d].Logs[%d].TxHash = %s, want %s" , i , j , receipts [ i ] . Logs [ j ] . TxHash . String ( ) , txs [ i ] . Hash ( ) . String ( ) )
}
if receipts [ i ] . Logs [ j ] . TxIndex != uint ( i ) {
t . Errorf ( "receipts[%d].Logs[%d].TransactionIndex = %d, want %d" , i , j , receipts [ i ] . Logs [ j ] . TxIndex , i )
}
if receipts [ i ] . Logs [ j ] . Index != logIndex {
t . Errorf ( "receipts[%d].Logs[%d].Index = %d, want %d" , i , j , receipts [ i ] . Logs [ j ] . Index , logIndex )
}
logIndex ++
}
}
}
func BenchmarkDecodeRLPLogs ( b * testing . B ) {
// Encoded receipts from block 0x14ee094309fbe8f70b65f45ebcc08fb33f126942d97464aad5eb91cfd1e2d269
buf , err := ioutil . ReadFile ( "testdata/stored_receipts.bin" )
if err != nil {
b . Fatal ( err )
}
b . Run ( "ReceiptForStorage" , func ( b * testing . B ) {
b . ReportAllocs ( )
var r [ ] * types . ReceiptForStorage
for i := 0 ; i < b . N ; i ++ {
if err := rlp . DecodeBytes ( buf , & r ) ; err != nil {
b . Fatal ( err )
}
}
} )
b . Run ( "rlpLogs" , func ( b * testing . B ) {
b . ReportAllocs ( )
var r [ ] * receiptLogs
for i := 0 ; i < b . N ; i ++ {
if err := rlp . DecodeBytes ( buf , & r ) ; err != nil {
b . Fatal ( err )
}
}
} )
}