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// (c) 2019-2020, Ava Labs, Inc. All rights reserved.
// See the file LICENSE for licensing terms.
package evm
import (
"testing"
"github.com/ava-labs/avalanchego/chains/atomic"
"github.com/ava-labs/avalanchego/ids"
"github.com/ava-labs/avalanchego/utils/crypto"
"github.com/ava-labs/avalanchego/vms/components/avax"
"github.com/ava-labs/avalanchego/vms/secp256k1fx"
)
func TestImportTxVerifyNil(t *testing.T) {
var importTx *UnsignedImportTx
if err := importTx.Verify(testXChainID, NewContext(), testTxFee, testAvaxAssetID); err == nil {
t.Fatal("Verify should have failed due to nil transaction")
}
}
func TestImportTxVerify(t *testing.T) {
var importAmount uint64 = 10000000
txID := ids.ID{0xff}
importTx := &UnsignedImportTx{
NetworkID: testNetworkID,
BlockchainID: testCChainID,
SourceChain: testXChainID,
ImportedInputs: []*avax.TransferableInput{
{
UTXOID: avax.UTXOID{
TxID: txID,
OutputIndex: uint32(0),
},
Asset: avax.Asset{ID: testAvaxAssetID},
In: &secp256k1fx.TransferInput{
Amt: importAmount,
Input: secp256k1fx.Input{
SigIndices: []uint32{0},
},
},
},
{
UTXOID: avax.UTXOID{
TxID: txID,
OutputIndex: uint32(1),
},
Asset: avax.Asset{ID: testAvaxAssetID},
In: &secp256k1fx.TransferInput{
Amt: importAmount,
Input: secp256k1fx.Input{
SigIndices: []uint32{0},
},
},
},
},
Outs: []EVMOutput{
{
Address: testEthAddrs[0],
Amount: importAmount,
AssetID: testAvaxAssetID,
},
{
Address: testEthAddrs[1],
Amount: importAmount,
AssetID: testAvaxAssetID,
},
},
}
ctx := NewContext()
// // Sort the inputs and outputs to ensure the transaction is canonical
avax.SortTransferableInputs(importTx.ImportedInputs)
SortEVMOutputs(importTx.Outs)
// Test Valid ImportTx
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err != nil {
t.Fatalf("Failed to verify ImportTx: %s", err)
}
importTx.syntacticallyVerified = false
importTx.NetworkID = testNetworkID + 1
// // Test Incorrect Network ID Errors
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to incorrect network ID")
}
importTx.syntacticallyVerified = false
importTx.NetworkID = testNetworkID
importTx.BlockchainID = nonExistentID
// // Test Incorrect Blockchain ID Errors
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to incorrect blockchain ID")
}
importTx.syntacticallyVerified = false
importTx.BlockchainID = testCChainID
importTx.SourceChain = nonExistentID
// // Test Incorrect Destination Chain ID Errors
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to incorrect source chain")
}
importTx.syntacticallyVerified = false
importTx.SourceChain = testXChainID
importedIns := importTx.ImportedInputs
importTx.ImportedInputs = nil
// // Test No Exported Outputs Errors
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to no imported inputs")
}
importTx.syntacticallyVerified = false
importTx.ImportedInputs = []*avax.TransferableInput{importedIns[1], importedIns[0]}
// // Test Unsorted Imported Inputs Errors
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to unsorted import inputs")
}
importTx.syntacticallyVerified = false
importTx.ImportedInputs = []*avax.TransferableInput{importedIns[0], nil}
if err := importTx.Verify(testXChainID, ctx, testTxFee, testAvaxAssetID); err == nil {
t.Fatal("ImportTx should have failed verification due to invalid input")
}
}
func TestImportTxSemanticVerify(t *testing.T) {
_, vm, _, sharedMemory := GenesisVM(t, false)
xChainSharedMemory := sharedMemory.NewSharedMemory(vm.ctx.XChainID)
importAmount := uint64(1000000)
utxoID := avax.UTXOID{
TxID: ids.ID{
0x0f, 0x2f, 0x4f, 0x6f, 0x8e, 0xae, 0xce, 0xee,
0x0d, 0x2d, 0x4d, 0x6d, 0x8c, 0xac, 0xcc, 0xec,
0x0b, 0x2b, 0x4b, 0x6b, 0x8a, 0xaa, 0xca, 0xea,
0x09, 0x29, 0x49, 0x69, 0x88, 0xa8, 0xc8, 0xe8,
},
}
utxo := &avax.UTXO{
UTXOID: utxoID,
Asset: avax.Asset{ID: vm.ctx.AVAXAssetID},
Out: &secp256k1fx.TransferOutput{
Amt: importAmount,
OutputOwners: secp256k1fx.OutputOwners{
Threshold: 1,
Addrs: []ids.ShortID{testKeys[0].PublicKey().Address()},
},
},
}
utxoBytes, err := vm.codec.Marshal(codecVersion, utxo)
if err != nil {
t.Fatal(err)
}
evmOutput := EVMOutput{
Address: testEthAddrs[0],
Amount: importAmount,
AssetID: vm.ctx.AVAXAssetID,
}
unsignedImportTx := &UnsignedImportTx{
NetworkID: vm.ctx.NetworkID,
BlockchainID: vm.ctx.ChainID,
SourceChain: vm.ctx.XChainID,
ImportedInputs: []*avax.TransferableInput{{
UTXOID: utxoID,
Asset: avax.Asset{ID: vm.ctx.AVAXAssetID},
In: &secp256k1fx.TransferInput{
Amt: importAmount,
Input: secp256k1fx.Input{SigIndices: []uint32{0}},
},
}},
Outs: []EVMOutput{evmOutput},
}
state, err := vm.chain.BlockState(vm.lastAccepted.ethBlock)
if err != nil {
t.Fatalf("Failed to get last accepted stateDB due to: %s", err)
}
if empty := state.Empty(testEthAddrs[0]); !empty {
t.Fatalf("Expected ethereum address to have empty starting balance.")
}
if err := unsignedImportTx.Verify(vm.ctx.XChainID, vm.ctx, vm.txFee, vm.ctx.AVAXAssetID); err != nil {
t.Fatal(err)
}
unsignedImportTx.syntacticallyVerified = false
tx := &Tx{UnsignedTx: unsignedImportTx}
// Sign with the correct key
if err := tx.Sign(vm.codec, [][]*crypto.PrivateKeySECP256K1R{{testKeys[0]}}); err != nil {
t.Fatal(err)
}
// Check that SemanticVerify passes without the UTXO being present during bootstrapping
if err := unsignedImportTx.SemanticVerify(vm, tx); err != nil {
t.Fatal("Should have failed to import non-existent UTXO")
}
inputID := utxo.InputID()
if err := xChainSharedMemory.Put(vm.ctx.ChainID, []*atomic.Element{{
Key: inputID[:],
Value: utxoBytes,
Traits: [][]byte{
testKeys[0].PublicKey().Address().Bytes(),
},
}}); err != nil {
t.Fatal(err)
}
// Check that SemanticVerify passes when the UTXO is present during bootstrapping
if err := unsignedImportTx.SemanticVerify(vm, tx); err != nil {
t.Fatalf("Semantic verification should have passed during bootstrapping when the UTXO was present")
}
// Check that SemanticVerify does not pass if an additional output is added in
unsignedImportTx.Outs = append(unsignedImportTx.Outs, EVMOutput{
Address: testEthAddrs[1],
Amount: importAmount,
AssetID: vm.ctx.AVAXAssetID,
})
if err := unsignedImportTx.SemanticVerify(vm, tx); err == nil {
t.Fatal("Semantic verification should have failed due to insufficient funds")
}
unsignedImportTx.Outs = []EVMOutput{evmOutput}
if err := vm.Bootstrapping(); err != nil {
t.Fatal(err)
}
if err := vm.Bootstrapped(); err != nil {
t.Fatal(err)
}
vm.ctx.Bootstrapped()
// Remove the signature
tx.Creds = nil
if err := unsignedImportTx.SemanticVerify(vm, tx); err == nil {
t.Fatalf("SemanticVerify should have failed due to no signatures")
}
// Sign with the incorrect key
if err := tx.Sign(vm.codec, [][]*crypto.PrivateKeySECP256K1R{{testKeys[1]}}); err != nil {
t.Fatal(err)
}
if err := unsignedImportTx.SemanticVerify(vm, tx); err == nil {
t.Fatalf("SemanticVerify should have failed due to an invalid signature")
}
// Re-sign with the correct key
tx.Creds = nil
if err := tx.Sign(vm.codec, [][]*crypto.PrivateKeySECP256K1R{{testKeys[0]}}); err != nil {
t.Fatal(err)
}
// Check that SemanticVerify passes when the UTXO is present after bootstrapping
if err := unsignedImportTx.SemanticVerify(vm, tx); err != nil {
t.Fatalf("Semantic verification should have passed after bootstrapping with the UTXO present")
}
if err := unsignedImportTx.Accept(vm.ctx, nil); err != nil {
t.Fatalf("Accept failed due to: %s", err)
}
if err := unsignedImportTx.EVMStateTransfer(vm, state); err != nil {
t.Fatalf("EVM State Transfer failed due to: %s", err)
}
balance := state.GetBalance(testEthAddrs[0])
if balance == nil {
t.Fatal("Found nil balance for address receiving imported funds")
} else if balance.Uint64() != importAmount*x2cRate.Uint64() {
t.Fatalf("Balance was %d, but expected balance of: %d", balance.Uint64(), importAmount*x2cRate.Uint64())
}
// Check that SemanticVerify fails when the UTXO is not present after bootstrapping
if err := unsignedImportTx.SemanticVerify(vm, tx); err == nil {
t.Fatalf("Semantic verification should have failed after the UTXO removed from shared memory")
}
}
func TestNewImportTx(t *testing.T) {
_, vm, _, sharedMemory := GenesisVM(t, true)
importAmount := uint64(1000000)
utxoID := avax.UTXOID{
TxID: ids.ID{
0x0f, 0x2f, 0x4f, 0x6f, 0x8e, 0xae, 0xce, 0xee,
0x0d, 0x2d, 0x4d, 0x6d, 0x8c, 0xac, 0xcc, 0xec,
0x0b, 0x2b, 0x4b, 0x6b, 0x8a, 0xaa, 0xca, 0xea,
0x09, 0x29, 0x49, 0x69, 0x88, 0xa8, 0xc8, 0xe8,
},
}
utxo := &avax.UTXO{
UTXOID: utxoID,
Asset: avax.Asset{ID: vm.ctx.AVAXAssetID},
Out: &secp256k1fx.TransferOutput{
Amt: importAmount,
OutputOwners: secp256k1fx.OutputOwners{
Threshold: 1,
Addrs: []ids.ShortID{testKeys[0].PublicKey().Address()},
},
},
}
utxoBytes, err := vm.codec.Marshal(codecVersion, utxo)
if err != nil {
t.Fatal(err)
}
xChainSharedMemory := sharedMemory.NewSharedMemory(vm.ctx.XChainID)
inputID := utxo.InputID()
if err := xChainSharedMemory.Put(vm.ctx.ChainID, []*atomic.Element{{
Key: inputID[:],
Value: utxoBytes,
Traits: [][]byte{
testKeys[0].PublicKey().Address().Bytes(),
},
}}); err != nil {
t.Fatal(err)
}
tx, err := vm.newImportTx(vm.ctx.XChainID, testEthAddrs[0], []*crypto.PrivateKeySECP256K1R{testKeys[0]})
if err != nil {
t.Fatal(err)
}
importTx, ok := tx.UnsignedTx.(UnsignedAtomicTx)
if !ok {
t.Fatal("newImportTx did not return an atomic transaction")
}
if err := importTx.SemanticVerify(vm, tx); err != nil {
t.Fatalf("newImportTx created an invalid transaction")
}
if err := importTx.Accept(vm.ctx, nil); err != nil {
t.Fatalf("Failed to accept import transaction due to: %s", err)
}
}
|