use of com.hedera.mirror.common.domain.token.NftTransferId in project hedera-mirror-node by hashgraph.
the class EntityRecordItemListener method insertNonFungibleTokenTransfers.
private void insertNonFungibleTokenTransfers(long consensusTimestamp, TransactionBody body, TokenID tokenId, EntityId entityTokenId, EntityId payerAccountId, List<com.hederahashgraph.api.proto.java.NftTransfer> nftTransfersList) {
for (NftTransfer nftTransfer : nftTransfersList) {
long serialNumber = nftTransfer.getSerialNumber();
if (serialNumber == NftTransferId.WILDCARD_SERIAL_NUMBER) {
// treasury change
return;
}
EntityId receiverId = EntityId.of(nftTransfer.getReceiverAccountID());
EntityId senderId = EntityId.of(nftTransfer.getSenderAccountID());
var nftTransferDomain = new com.hedera.mirror.common.domain.token.NftTransfer();
nftTransferDomain.setId(new NftTransferId(consensusTimestamp, serialNumber, entityTokenId));
nftTransferDomain.setIsApproval(false);
nftTransferDomain.setReceiverAccountId(receiverId);
nftTransferDomain.setSenderAccountId(senderId);
nftTransferDomain.setPayerAccountId(payerAccountId);
var nftTransferInsideBody = findNftTransferInsideBody(nftTransfer, tokenId, body);
if (nftTransferInsideBody != null) {
nftTransferDomain.setIsApproval(nftTransferInsideBody.getIsApproval());
}
entityListener.onNftTransfer(nftTransferDomain);
if (!EntityId.isEmpty(receiverId)) {
transferNftOwnership(consensusTimestamp, serialNumber, entityTokenId, receiverId);
}
}
}
use of com.hedera.mirror.common.domain.token.NftTransferId in project hedera-mirror-node by hashgraph.
the class TransferTransactionPayerMigrationTest method verifyEntityTimestampMigration.
@Test
void verifyEntityTimestampMigration() throws Exception {
Entity node = domainBuilder.entity().customize(e -> e.createdTimestamp(10L).timestampRange(Range.atLeast(10L))).get();
Entity treasury = domainBuilder.entity().customize(e -> e.createdTimestamp(20L).timestampRange(Range.atLeast(20L))).get();
Entity sender = domainBuilder.entity().customize(e -> e.createdTimestamp(30L).timestampRange(Range.atLeast(30L))).get();
Entity receiver = domainBuilder.entity().customize(e -> e.createdTimestamp(40L).timestampRange(Range.atLeast(40L))).get();
Entity contract = domainBuilder.entity().customize(e -> e.createdTimestamp(50L).timestampRange(Range.atLeast(50L)).type(EntityType.CONTRACT)).get();
Entity file = domainBuilder.entity().customize(e -> e.createdTimestamp(60L).timestampRange(Range.atLeast(60L)).type(EntityType.FILE)).get();
Entity topic = domainBuilder.entity().customize(e -> e.createdTimestamp(70L).timestampRange(Range.atLeast(70L)).type(EntityType.TOPIC)).get();
Entity token = domainBuilder.entity().customize(e -> e.createdTimestamp(80L).timestampRange(Range.atLeast(80L)).type(TOKEN)).get();
Entity schedule = domainBuilder.entity().customize(e -> e.createdTimestamp(90L).timestampRange(Range.atLeast(90L)).type(EntityType.SCHEDULE)).get();
// given
persistEntities(List.of(node, treasury, sender, receiver, contract, file, topic, token, schedule));
MigrationTransaction transfer1 = transaction(schedule.getCreatedTimestamp() + 200L, 0, SUCCESS, TransactionType.CRYPTOTRANSFER);
MigrationTransaction transfer2 = transaction(schedule.getCreatedTimestamp() + 300L, 0, SUCCESS, TransactionType.CRYPTOTRANSFER);
MigrationTransaction transfer3 = transaction(schedule.getCreatedTimestamp() + 400L, 0, SUCCESS, TransactionType.CRYPTOTRANSFER);
MigrationTransaction transfer4 = transaction(schedule.getCreatedTimestamp() + 500L, 0, SUCCESS, TransactionType.CRYPTOTRANSFER);
MigrationTransaction transfer5 = transaction(schedule.getCreatedTimestamp() + 600L, 0, SUCCESS, TransactionType.CRYPTOTRANSFER);
persistTransactions(List.of(transaction(contract.getCreatedTimestamp(), contract.getId(), SUCCESS, TransactionType.CONTRACTCREATEINSTANCE), transaction(contract.getCreatedTimestamp() + 1, contract.getId(), INSUFFICIENT_TX_FEE, TransactionType.CONTRACTUPDATEINSTANCE), transaction(file.getCreatedTimestamp(), file.getId(), SUCCESS, TransactionType.FILECREATE), transaction(file.getCreatedTimestamp() + 1, file.getId(), SUCCESS, TransactionType.FILEDELETE), transaction(topic.getCreatedTimestamp(), topic.getId(), SUCCESS, TransactionType.CONSENSUSCREATETOPIC), transaction(topic.getCreatedTimestamp() + 1, topic.getId(), SUCCESS, TransactionType.CONSENSUSUPDATETOPIC), transaction(topic.getCreatedTimestamp() + 2, topic.getId(), SUCCESS, TransactionType.CONSENSUSUPDATETOPIC), transaction(topic.getCreatedTimestamp() + 3, topic.getId(), SUCCESS, TransactionType.CONSENSUSUPDATETOPIC), transaction(token.getCreatedTimestamp(), token.getId(), SUCCESS, TransactionType.TOKENCREATION), transaction(schedule.getCreatedTimestamp(), schedule.getId(), SUCCESS, TransactionType.SCHEDULECREATE), transfer1, transfer2, transfer3, transfer4, transfer5));
EntityId nodeId = node.toEntityId();
EntityId treasuryId = treasury.toEntityId();
EntityId senderId = sender.toEntityId();
EntityId receiverId = receiver.toEntityId();
EntityId tokenId = token.toEntityId();
long senderPaymentAmount = -45L;
long receivedAmount = 30L;
long nodePaymentAmount = 10L;
long treasuryPaymentAmount = 5L;
AssessedCustomFee assessedCustomFee1 = new AssessedCustomFee();
assessedCustomFee1.setAmount(receivedAmount);
assessedCustomFee1.setEffectivePayerAccountIds(List.of(senderId.getId()));
assessedCustomFee1.setId(new AssessedCustomFee.Id(receiverId, transfer1.getConsensusTimestamp()));
assessedCustomFee1.setPayerAccountId(tokenId);
assessedCustomFee1.setTokenId(tokenId);
AssessedCustomFee assessedCustomFee2 = new AssessedCustomFee();
assessedCustomFee2.setAmount(receivedAmount);
assessedCustomFee2.setEffectivePayerAccountIds(List.of(senderId.getId()));
assessedCustomFee2.setId(new AssessedCustomFee.Id(receiverId, transfer5.getConsensusTimestamp()));
assessedCustomFee2.setPayerAccountId(tokenId);
assessedCustomFee2.setTokenId(tokenId);
persistAssessedCustomFees(List.of(// assessed custom fee transfer
assessedCustomFee1, // all transfers
assessedCustomFee2));
persistCryptoTransfers(List.of(// assessed custom fee transfer
new CryptoTransfer(transfer1.getConsensusTimestamp(), senderPaymentAmount, senderId), new CryptoTransfer(transfer1.getConsensusTimestamp(), receivedAmount, receiverId), new CryptoTransfer(transfer1.getConsensusTimestamp(), nodePaymentAmount, nodeId), new CryptoTransfer(transfer1.getConsensusTimestamp(), treasuryPaymentAmount, treasuryId), // crypto only transfer
new CryptoTransfer(transfer2.getConsensusTimestamp(), senderPaymentAmount, senderId), new CryptoTransfer(transfer2.getConsensusTimestamp(), receivedAmount, receiverId), new CryptoTransfer(transfer2.getConsensusTimestamp(), nodePaymentAmount, nodeId), new CryptoTransfer(transfer2.getConsensusTimestamp(), treasuryPaymentAmount, treasuryId), // nft transfer
new CryptoTransfer(transfer3.getConsensusTimestamp(), senderPaymentAmount, senderId), new CryptoTransfer(transfer3.getConsensusTimestamp(), receivedAmount, receiverId), new CryptoTransfer(transfer3.getConsensusTimestamp(), nodePaymentAmount, nodeId), new CryptoTransfer(transfer3.getConsensusTimestamp(), treasuryPaymentAmount, treasuryId), // token transfer
new CryptoTransfer(transfer4.getConsensusTimestamp(), senderPaymentAmount, senderId), new CryptoTransfer(transfer4.getConsensusTimestamp(), receivedAmount, receiverId), new CryptoTransfer(transfer4.getConsensusTimestamp(), nodePaymentAmount, nodeId), new CryptoTransfer(transfer4.getConsensusTimestamp(), treasuryPaymentAmount, treasuryId), // all transfers
new CryptoTransfer(transfer5.getConsensusTimestamp(), senderPaymentAmount, senderId), new CryptoTransfer(transfer5.getConsensusTimestamp(), receivedAmount, receiverId), new CryptoTransfer(transfer5.getConsensusTimestamp(), nodePaymentAmount, nodeId), new CryptoTransfer(transfer5.getConsensusTimestamp(), treasuryPaymentAmount, treasuryId)));
persistNonFeeTransfers(List.of(// assessed custom fee only transfer
domainBuilder.nonFeeTransfer().customize(n -> n.consensusTimestamp(transfer1.getConsensusTimestamp()).amount(senderPaymentAmount).entityId(senderId)).get(), domainBuilder.nonFeeTransfer().customize(n -> n.amount(receivedAmount).consensusTimestamp(transfer1.getConsensusTimestamp()).entityId(receiverId)).get(), // crypto only transfer
domainBuilder.nonFeeTransfer().customize(n -> n.amount(senderPaymentAmount).consensusTimestamp(transfer2.getConsensusTimestamp()).entityId(senderId)).get(), domainBuilder.nonFeeTransfer().customize(n -> n.amount(receivedAmount).consensusTimestamp(transfer2.getConsensusTimestamp()).entityId(receiverId)).get(), // nft transfer
domainBuilder.nonFeeTransfer().customize(n -> n.amount(senderPaymentAmount).consensusTimestamp(transfer3.getConsensusTimestamp()).entityId(senderId)).get(), domainBuilder.nonFeeTransfer().customize(n -> n.amount(receivedAmount).consensusTimestamp(transfer3.getConsensusTimestamp()).entityId(receiverId)).get(), // token transfer
domainBuilder.nonFeeTransfer().customize(n -> n.amount(senderPaymentAmount).consensusTimestamp(transfer4.getConsensusTimestamp()).entityId(senderId)).get(), domainBuilder.nonFeeTransfer().customize(n -> n.amount(receivedAmount).consensusTimestamp(transfer4.getConsensusTimestamp()).entityId(receiverId)).get(), // all transfers
domainBuilder.nonFeeTransfer().customize(n -> n.amount(senderPaymentAmount).consensusTimestamp(transfer5.getConsensusTimestamp()).entityId(senderId)).get(), domainBuilder.nonFeeTransfer().customize(n -> n.amount(receivedAmount).consensusTimestamp(transfer5.getConsensusTimestamp()).entityId(receiverId)).get()));
persistNftTransfers(List.of(// nft transfer
domainBuilder.nftTransfer().customize(n -> n.id(new NftTransferId(transfer3.getConsensusTimestamp(), 1L, tokenId)).payerAccountId(null).receiverAccountId(receiverId).senderAccountId(senderId)).get(), // all transfers
domainBuilder.nftTransfer().customize(n -> n.id(new NftTransferId(transfer5.getConsensusTimestamp(), 2L, tokenId)).payerAccountId(null).receiverAccountId(receiverId).senderAccountId(senderId)).get()));
persistTokenTransfers(List.of(// token transfer
new TokenTransfer(transfer4.getConsensusTimestamp(), -receivedAmount, tokenId, senderId), new TokenTransfer(transfer4.getConsensusTimestamp(), receivedAmount, tokenId, receiverId), // all transfers
new TokenTransfer(transfer5.getConsensusTimestamp(), -receivedAmount, tokenId, senderId), new TokenTransfer(transfer5.getConsensusTimestamp(), receivedAmount, tokenId, receiverId)));
// when
migrate();
List<SharedTransfer> expectedAssessedCustomFeeTransfers = List.of(// assessed custom fee transfer
new SharedTransfer(receivedAmount, transfer1.getConsensusTimestamp(), PAYER_ID, receiverId, senderId), new SharedTransfer(receivedAmount, transfer5.getConsensusTimestamp(), PAYER_ID, receiverId, senderId));
List<SharedTransfer> expectedCryptoTransfers = List.of(// assessed custom fee transfer
new SharedTransfer(senderPaymentAmount, transfer1.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer1.getConsensusTimestamp(), PAYER_ID, receiverId, null), new SharedTransfer(nodePaymentAmount, transfer1.getConsensusTimestamp(), PAYER_ID, nodeId, null), new SharedTransfer(treasuryPaymentAmount, transfer1.getConsensusTimestamp(), PAYER_ID, treasuryId, null), // crypto only transfer
new SharedTransfer(senderPaymentAmount, transfer2.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer2.getConsensusTimestamp(), PAYER_ID, receiverId, null), new SharedTransfer(nodePaymentAmount, transfer2.getConsensusTimestamp(), PAYER_ID, nodeId, null), new SharedTransfer(treasuryPaymentAmount, transfer2.getConsensusTimestamp(), PAYER_ID, treasuryId, null), // nft transfer
new SharedTransfer(senderPaymentAmount, transfer3.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer3.getConsensusTimestamp(), PAYER_ID, receiverId, null), new SharedTransfer(nodePaymentAmount, transfer3.getConsensusTimestamp(), PAYER_ID, nodeId, null), new SharedTransfer(treasuryPaymentAmount, transfer3.getConsensusTimestamp(), PAYER_ID, treasuryId, null), // token transfer
new SharedTransfer(senderPaymentAmount, transfer4.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer4.getConsensusTimestamp(), PAYER_ID, receiverId, null), new SharedTransfer(nodePaymentAmount, transfer4.getConsensusTimestamp(), PAYER_ID, nodeId, null), new SharedTransfer(treasuryPaymentAmount, transfer4.getConsensusTimestamp(), PAYER_ID, treasuryId, null), // all transfers
new SharedTransfer(senderPaymentAmount, transfer5.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer5.getConsensusTimestamp(), PAYER_ID, receiverId, null), new SharedTransfer(nodePaymentAmount, transfer5.getConsensusTimestamp(), PAYER_ID, nodeId, null), new SharedTransfer(treasuryPaymentAmount, transfer5.getConsensusTimestamp(), PAYER_ID, treasuryId, null));
List<SharedTransfer> expectedNftTransfers = List.of(// nft transfer
new SharedTransfer(1L, transfer3.getConsensusTimestamp(), PAYER_ID, receiverId, senderId), new SharedTransfer(2L, transfer5.getConsensusTimestamp(), PAYER_ID, receiverId, senderId));
List<SharedTransfer> expectedNonFeeTransfers = List.of(// assessed custom fee only transfer
new SharedTransfer(senderPaymentAmount, transfer1.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer1.getConsensusTimestamp(), PAYER_ID, receiverId, null), // crypto only transfer
new SharedTransfer(senderPaymentAmount, transfer2.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer2.getConsensusTimestamp(), PAYER_ID, receiverId, null), // nft transfer
new SharedTransfer(senderPaymentAmount, transfer3.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer3.getConsensusTimestamp(), PAYER_ID, receiverId, null), // token transfer
new SharedTransfer(senderPaymentAmount, transfer4.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer4.getConsensusTimestamp(), PAYER_ID, receiverId, null), // token transfer
new SharedTransfer(senderPaymentAmount, transfer5.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer5.getConsensusTimestamp(), PAYER_ID, receiverId, null));
List<SharedTransfer> expectedTokenTransfers = List.of(// token transfer
new SharedTransfer(-receivedAmount, transfer4.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer4.getConsensusTimestamp(), PAYER_ID, receiverId, null), // all transfer
new SharedTransfer(-receivedAmount, transfer5.getConsensusTimestamp(), PAYER_ID, null, senderId), new SharedTransfer(receivedAmount, transfer5.getConsensusTimestamp(), PAYER_ID, receiverId, null));
// then
assertThat(findAssessedCustomFees()).containsExactlyInAnyOrderElementsOf(expectedAssessedCustomFeeTransfers);
assertThat(findCryptoTransfers()).containsExactlyInAnyOrderElementsOf(expectedCryptoTransfers);
assertThat(findNftTransfers()).containsExactlyInAnyOrderElementsOf(expectedNftTransfers);
assertThat(findNonFeeTransfersAsSharedTransfers()).containsExactlyInAnyOrderElementsOf(expectedNonFeeTransfers);
assertThat(findTokenTransfers()).containsExactlyInAnyOrderElementsOf(expectedTokenTransfers);
}
use of com.hedera.mirror.common.domain.token.NftTransferId in project hedera-mirror-node by hashgraph.
the class SupportDeletedTokenDissociateMigrationTest method nftTransfer.
private NftTransfer nftTransfer(long consensusTimestamp, EntityId receiver, EntityId sender, long serialNumber, EntityId tokenId) {
NftTransfer nftTransfer = new NftTransfer();
nftTransfer.setId(new NftTransferId(consensusTimestamp, serialNumber, tokenId));
nftTransfer.setReceiverAccountId(receiver);
nftTransfer.setSenderAccountId(sender);
return nftTransfer;
}
use of com.hedera.mirror.common.domain.token.NftTransferId in project hedera-mirror-node by hashgraph.
the class SupportDeletedTokenDissociateMigrationTest method findAllNftTransfers.
private List<NftTransfer> findAllNftTransfers() {
return jdbcOperations.query("select * from nft_transfer", (rs, rowNum) -> {
var receiver = rs.getLong("receiver_account_id");
var sender = rs.getLong("sender_account_id");
NftTransfer nftTransfer = new NftTransfer();
nftTransfer.setId(new NftTransferId(rs.getLong("consensus_timestamp"), rs.getLong("serial_number"), EntityIdEndec.decode(rs.getLong("token_id"), TOKEN)));
nftTransfer.setReceiverAccountId(receiver == 0 ? null : EntityIdEndec.decode(receiver, ACCOUNT));
nftTransfer.setSenderAccountId(sender == 0 ? null : EntityIdEndec.decode(sender, ACCOUNT));
return nftTransfer;
});
}
use of com.hedera.mirror.common.domain.token.NftTransferId in project hedera-mirror-node by hashgraph.
the class EntityRecordItemListenerTokenTest method assertNftTransferInRepository.
private void assertNftTransferInRepository(long consensusTimestamp, long serialNumber, TokenID tokenID, AccountID receiverId, AccountID senderId, Boolean isApproval) {
EntityId receiver = receiverId != null ? EntityId.of(receiverId) : null;
EntityId sender = senderId != null ? EntityId.of(senderId) : null;
var id = new NftTransferId(consensusTimestamp, serialNumber, EntityId.of(tokenID));
assertThat(nftTransferRepository.findById(id)).get().returns(receiver, from(com.hedera.mirror.common.domain.token.NftTransfer::getReceiverAccountId)).returns(sender, from(com.hedera.mirror.common.domain.token.NftTransfer::getSenderAccountId)).returns(isApproval, from(com.hedera.mirror.common.domain.token.NftTransfer::getIsApproval));
}
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