/**
* Called when the client provides the multi-sig contract. Checks that the previously-provided
* refund transaction spends this transaction (because we will use it as a base to create payment
* transactions) as well as output value and form (ie it is a 2-of-2 multisig to the correct
* keys).
*
* @param multisigContract The provided multisig contract. Do not mutate this object after this
* call.
* @return A future which completes when the provided multisig contract successfully broadcasts,
* or throws if the broadcast fails for some reason Note that if the network simply rejects
* the transaction, this future will never complete, a timeout should be used.
* @throws VerificationException If the provided multisig contract is not well-formed or does not
* meet previously-specified parameters
*/
public synchronized ListenableFuture<PaymentChannelServerState> provideMultiSigContract(
final Transaction multisigContract) throws VerificationException {
checkNotNull(multisigContract);
checkState(state == State.WAITING_FOR_MULTISIG_CONTRACT);
try {
multisigContract.verify();
this.multisigContract = multisigContract;
this.multisigScript = multisigContract.getOutput(0).getScriptPubKey();
// Check that multisigContract's first output is a 2-of-2 multisig to the correct pubkeys in
// the correct order
final Script expectedScript =
ScriptBuilder.createMultiSigOutputScript(2, Lists.newArrayList(clientKey, serverKey));
if (!Arrays.equals(multisigScript.getProgram(), expectedScript.getProgram()))
throw new VerificationException(
"Multisig contract's first output was not a standard 2-of-2 multisig to client and server in that order.");
this.totalValue = multisigContract.getOutput(0).getValue();
if (this.totalValue.signum() <= 0)
throw new VerificationException(
"Not accepting an attempt to open a contract with zero value.");
} catch (VerificationException e) {
// We couldn't parse the multisig transaction or its output.
log.error("Provided multisig contract did not verify: {}", multisigContract.toString());
throw e;
}
log.info("Broadcasting multisig contract: {}", multisigContract);
state = State.WAITING_FOR_MULTISIG_ACCEPTANCE;
final SettableFuture<PaymentChannelServerState> future = SettableFuture.create();
Futures.addCallback(
broadcaster.broadcastTransaction(multisigContract).future(),
new FutureCallback<Transaction>() {
@Override
public void onSuccess(Transaction transaction) {
log.info(
"Successfully broadcast multisig contract {}. Channel now open.",
transaction.getHashAsString());
try {
// Manually add the multisigContract to the wallet, overriding the isRelevant checks
// so we can track
// it and check for double-spends later
wallet.receivePending(multisigContract, null, true);
} catch (VerificationException e) {
throw new RuntimeException(
e); // Cannot happen, we already called multisigContract.verify()
}
state = State.READY;
future.set(PaymentChannelServerState.this);
}
@Override
public void onFailure(Throwable throwable) {
// Couldn't broadcast the transaction for some reason.
log.error("Broadcast multisig contract failed", throwable);
state = State.ERROR;
future.setException(throwable);
}
});
return future;
}
/**
* Converts the given wallet to the object representation of the protocol buffers. This can be
* modified, or additional data fields set, before serialization takes place.
*/
public Protos.Wallet walletToProto(Wallet wallet) {
Protos.Wallet.Builder walletBuilder = Protos.Wallet.newBuilder();
walletBuilder.setNetworkIdentifier(wallet.getNetworkParameters().getId());
if (wallet.getDescription() != null) {
walletBuilder.setDescription(wallet.getDescription());
}
for (WalletTransaction wtx : wallet.getWalletTransactions()) {
Protos.Transaction txProto = makeTxProto(wtx);
walletBuilder.addTransaction(txProto);
}
walletBuilder.addAllKey(wallet.serializeKeychainToProtobuf());
for (Script script : wallet.getWatchedScripts()) {
Protos.Script protoScript =
Protos.Script.newBuilder()
.setProgram(ByteString.copyFrom(script.getProgram()))
.setCreationTimestamp(script.getCreationTimeSeconds() * 1000)
.build();
walletBuilder.addWatchedScript(protoScript);
}
// Populate the lastSeenBlockHash field.
Sha256Hash lastSeenBlockHash = wallet.getLastBlockSeenHash();
if (lastSeenBlockHash != null) {
walletBuilder.setLastSeenBlockHash(hashToByteString(lastSeenBlockHash));
walletBuilder.setLastSeenBlockHeight(wallet.getLastBlockSeenHeight());
}
if (wallet.getLastBlockSeenTimeSecs() > 0)
walletBuilder.setLastSeenBlockTimeSecs(wallet.getLastBlockSeenTimeSecs());
// Populate the scrypt parameters.
KeyCrypter keyCrypter = wallet.getKeyCrypter();
if (keyCrypter == null) {
// The wallet is unencrypted.
walletBuilder.setEncryptionType(EncryptionType.UNENCRYPTED);
} else {
// The wallet is encrypted.
walletBuilder.setEncryptionType(keyCrypter.getUnderstoodEncryptionType());
if (keyCrypter instanceof KeyCrypterScrypt) {
KeyCrypterScrypt keyCrypterScrypt = (KeyCrypterScrypt) keyCrypter;
walletBuilder.setEncryptionParameters(keyCrypterScrypt.getScryptParameters());
} else {
// Some other form of encryption has been specified that we do not know how to persist.
throw new RuntimeException(
"The wallet has encryption of type '"
+ keyCrypter.getUnderstoodEncryptionType()
+ "' but this WalletProtobufSerializer does not know how to persist this.");
}
}
if (wallet.getKeyRotationTime() != null) {
long timeSecs = wallet.getKeyRotationTime().getTime() / 1000;
walletBuilder.setKeyRotationTime(timeSecs);
}
populateExtensions(wallet, walletBuilder);
for (Map.Entry<String, ByteString> entry : wallet.getTags().entrySet()) {
Protos.Tag.Builder tag =
Protos.Tag.newBuilder().setTag(entry.getKey()).setData(entry.getValue());
walletBuilder.addTags(tag);
}
for (TransactionSigner signer : wallet.getTransactionSigners()) {
// do not serialize LocalTransactionSigner as it's being added implicitly
if (signer instanceof LocalTransactionSigner) continue;
Protos.TransactionSigner.Builder protoSigner = Protos.TransactionSigner.newBuilder();
protoSigner.setClassName(signer.getClass().getName());
protoSigner.setData(ByteString.copyFrom(signer.serialize()));
walletBuilder.addTransactionSigners(protoSigner);
}
walletBuilder.setSigsRequiredToSpend(wallet.getSigsRequiredToSpend());
// Populate the wallet version.
walletBuilder.setVersion(wallet.getVersion());
return walletBuilder.build();
}
/**
* Set the given program as the scriptSig that is supposed to satisfy the connected output script.
*/
public void setScriptSig(Script scriptSig) {
this.scriptSig = new WeakReference<Script>(checkNotNull(scriptSig));
// TODO: This should all be cleaned up so we have a consistent internal representation.
setScriptBytes(scriptSig.getProgram());
}
