public void Can_call_by_hash_canonical()
{
Block lastHead = _blockTree.Head;
Block block = Build.A.Block.WithParent(lastHead).TestObject;
Block newBlockOnMain = Build.A.Block.WithParent(lastHead).WithDifficulty(block.Difficulty + 1).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, block);
BlockTreeBuilder.AddBlock(_blockTree, newBlockOnMain);
// would need to setup state root somehow...
TransactionForRpc tx = new TransactionForRpc
{
From = TestItem.AddressA,
To = TestItem.AddressB,
GasPrice = _useNonZeroGasPrice ? 10.GWei() : 0
};
EthereumJsonSerializer serializer = new EthereumJsonSerializer();
string response = RpcTest.TestSerializedRequest(_proofModule, "proof_call", $"{serializer.Serialize(tx)}", $"{{\"blockHash\" : \"{block.Hash}\", \"requireCanonical\" : true}}");
Assert.True(response.Contains("-32000"));
response = RpcTest.TestSerializedRequest(_proofModule, "proof_call", $"{serializer.Serialize(tx)}", $"{{\"blockHash\" : \"{TestItem.KeccakG}\", \"requireCanonical\" : true}}");
Assert.True(response.Contains("-32001"));
}
public void Can_call_by_hash()
{
StateProvider stateProvider = CreateInitialState(null);
Keccak root = stateProvider.StateRoot;
Block block = Build.A.Block.WithParent(_blockTree.Head).WithStateRoot(root).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, block);
// would need to setup state root somehow...
TransactionForRpc tx = new TransactionForRpc
{
From = TestItem.AddressA,
To = TestItem.AddressB,
GasPrice = _useNonZeroGasPrice ? 10.GWei() : 0
};
_proofModule.proof_call(tx, new BlockParameter(block.Hash));
EthereumJsonSerializer serializer = new EthereumJsonSerializer();
string response = RpcTest.TestSerializedRequest(_proofModule, "proof_call", $"{serializer.Serialize(tx)}", $"{block.Hash}");
Assert.True(response.Contains("\"result\""));
}
private CallResultWithProof TestCallWithCode(byte[] code, Address from = null)
{
StateProvider stateProvider = CreateInitialState(code);
Keccak root = stateProvider.StateRoot;
Block block = Build.A.Block.WithParent(_blockTree.Head).WithStateRoot(root).WithBeneficiary(TestItem.AddressD).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, block);
Block blockOnTop = Build.A.Block.WithParent(block).WithStateRoot(root).WithBeneficiary(TestItem.AddressD).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, blockOnTop);
// would need to setup state root somehow...
TransactionForRpc tx = new TransactionForRpc
{
From = from,
To = TestItem.AddressB,
GasPrice = _useNonZeroGasPrice ? 10.GWei() : 0
};
CallResultWithProof callResultWithProof = _proofModule.proof_call(tx, new BlockParameter(blockOnTop.Number)).Data;
Assert.Greater(callResultWithProof.Accounts.Length, 0);
foreach (AccountProof accountProof in callResultWithProof.Accounts)
{
ProofVerifier.Verify(accountProof.Proof, block.StateRoot);
foreach (StorageProof storageProof in accountProof.StorageProofs)
{
ProofVerifier.Verify(storageProof.Proof, accountProof.StorageRoot);
}
}
EthereumJsonSerializer serializer = new EthereumJsonSerializer();
string response = RpcTest.TestSerializedRequest(_proofModule, "proof_call", $"{serializer.Serialize(tx)}", $"{blockOnTop.Number}");
Assert.True(response.Contains("\"result\""));
return(callResultWithProof);
}
private void TestCallWithStorageAndCode(byte[] code, UInt256 gasPrice, Address from = null)
{
StateProvider stateProvider = CreateInitialState(code);
StorageProvider storageProvider = new StorageProvider(new TrieStore(_dbProvider.StateDb, LimboLogs.Instance), stateProvider, LimboLogs.Instance);
for (int i = 0; i < 10000; i++)
{
storageProvider.Set(new StorageCell(TestItem.AddressB, (UInt256)i), i.ToBigEndianByteArray());
}
storageProvider.Commit();
storageProvider.CommitTrees(0);
stateProvider.Commit(MainnetSpecProvider.Instance.GenesisSpec, null);
stateProvider.CommitTree(0);
Keccak root = stateProvider.StateRoot;
Block block = Build.A.Block.WithParent(_blockTree.Head).WithStateRoot(root).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, block);
Block blockOnTop = Build.A.Block.WithParent(block).WithStateRoot(root).TestObject;
BlockTreeBuilder.AddBlock(_blockTree, blockOnTop);
// would need to setup state root somehow...
TransactionForRpc tx = new TransactionForRpc
{
// we are testing system transaction here when From is null
From = from,
To = TestItem.AddressB,
GasPrice = gasPrice,
Nonce = 1000
};
CallResultWithProof callResultWithProof = _proofModule.proof_call(tx, new BlockParameter(blockOnTop.Number)).Data;
Assert.Greater(callResultWithProof.Accounts.Length, 0);
// just the keys for debugging
Span <byte> span = stackalloc byte[32];
new UInt256(0).ToBigEndian(span);
Keccak k0 = Keccak.Compute(span);
// just the keys for debugging
new UInt256(1).ToBigEndian(span);
Keccak k1 = Keccak.Compute(span);
// just the keys for debugging
new UInt256(2).ToBigEndian(span);
Keccak k2 = Keccak.Compute(span);
foreach (AccountProof accountProof in callResultWithProof.Accounts)
{
// this is here for diagnostics - so you can read what happens in the test
// generally the account here should be consistent with the values inside the proof
// the exception will be thrown if the account did not exist before the call
Account account;
try
{
account = new AccountDecoder().Decode(new RlpStream(ProofVerifier.Verify(accountProof.Proof, block.StateRoot)));
}
catch (Exception)
{
// ignored
}
foreach (StorageProof storageProof in accountProof.StorageProofs)
{
// we read the values here just to allow easier debugging so you can confirm that the value is same as the one in the proof and in the trie
byte[] value = ProofVerifier.Verify(storageProof.Proof, accountProof.StorageRoot);
}
}
EthereumJsonSerializer serializer = new EthereumJsonSerializer();
string response = RpcTest.TestSerializedRequest(_proofModule, "proof_call", $"{serializer.Serialize(tx)}", $"{blockOnTop.Number}");
Assert.True(response.Contains("\"result\""));
}