package services import ( "context" "encoding/hex" "fmt" "math/big" "strings" "github.com/coinbase/rosetta-sdk-go/server" "github.com/coinbase/rosetta-sdk-go/types" ethcommon "github.com/ethereum/go-ethereum/common" "github.com/harmony-one/harmony/core" "github.com/harmony-one/harmony/core/rawdb" hmytypes "github.com/harmony-one/harmony/core/types" "github.com/harmony-one/harmony/crypto/bls" "github.com/harmony-one/harmony/hmy" internalCommon "github.com/harmony-one/harmony/internal/common" nodeconfig "github.com/harmony-one/harmony/internal/configs/node" shardingconfig "github.com/harmony-one/harmony/internal/configs/sharding" "github.com/harmony-one/harmony/internal/utils" "github.com/harmony-one/harmony/rosetta/common" "github.com/harmony-one/harmony/rpc" rpcV2 "github.com/harmony-one/harmony/rpc/v2" "github.com/harmony-one/harmony/shard" "github.com/harmony-one/harmony/staking" stakingNetwork "github.com/harmony-one/harmony/staking/network" stakingTypes "github.com/harmony-one/harmony/staking/types" ) // BlockAPI implements the server.BlockAPIServicer interface. type BlockAPI struct { hmy *hmy.Harmony } // NewBlockAPI creates a new instance of a BlockAPI. func NewBlockAPI(hmy *hmy.Harmony) server.BlockAPIServicer { return &BlockAPI{ hmy: hmy, } } // Block implements the /block endpoint func (s *BlockAPI) Block( ctx context.Context, request *types.BlockRequest, ) (response *types.BlockResponse, rosettaError *types.Error) { if err := assertValidNetworkIdentifier(request.NetworkIdentifier, s.hmy.ShardID); err != nil { return nil, err } var blk *hmytypes.Block var currBlockID, prevBlockID *types.BlockIdentifier if blk, rosettaError = s.getBlock(ctx, request.BlockIdentifier); rosettaError != nil { return nil, rosettaError } // Format genesis block if it is requested. if blk.Number().Uint64() == 0 { return s.genesisBlock(ctx, request, blk) } currBlockID = &types.BlockIdentifier{ Index: blk.Number().Int64(), Hash: blk.Hash().String(), } prevBlock, err := s.hmy.BlockByNumber(ctx, rpc.BlockNumber(blk.Number().Int64()-1).EthBlockNumber()) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } prevBlockID = &types.BlockIdentifier{ Index: prevBlock.Number().Int64(), Hash: prevBlock.Hash().String(), } // Report undelegation payouts as transactions to fit API. // Report all transactions here since all undelegation payout amounts are known after fetching payouts. transactions, rosettaError := s.getAllUndelegationPayoutTransactions(ctx, blk) if rosettaError != nil { return nil, rosettaError } responseBlock := &types.Block{ BlockIdentifier: currBlockID, ParentBlockIdentifier: prevBlockID, Timestamp: blk.Time().Int64() * 1e3, // Timestamp must be in ms. Transactions: transactions, } otherTransactions := []*types.TransactionIdentifier{} for _, tx := range blk.Transactions() { otherTransactions = append(otherTransactions, &types.TransactionIdentifier{ Hash: tx.Hash().String(), }) } for _, tx := range blk.StakingTransactions() { otherTransactions = append(otherTransactions, &types.TransactionIdentifier{ Hash: tx.Hash().String(), }) } // Report cross-shard transaction payouts. for _, cxReceipts := range blk.IncomingReceipts() { // Report cross-shard transaction payouts. for _, cxReceipt := range cxReceipts.Receipts { otherTransactions = append(otherTransactions, &types.TransactionIdentifier{ Hash: cxReceipt.TxHash.String(), }) } } // Report pre-staking era block rewards as transactions to fit API. if !s.hmy.IsStakingEpoch(blk.Epoch()) { preStakingRewardTxIDs, rosettaError := s.getAllPreStakingRewardTransactionIdentifiers(ctx, blk) if rosettaError != nil { return nil, rosettaError } otherTransactions = append(otherTransactions, preStakingRewardTxIDs...) } return &types.BlockResponse{ Block: responseBlock, OtherTransactions: otherTransactions, }, nil } // genesisBlock is a special handler for the genesis block. func (s *BlockAPI) genesisBlock( ctx context.Context, request *types.BlockRequest, blk *hmytypes.Block, ) (response *types.BlockResponse, rosettaError *types.Error) { if blk.Number().Uint64() != 0 { return nil, common.NewError(common.SanityCheckError, map[string]interface{}{ "message": "tried to format response as genesis block on non-genesis block", }) } var currBlockID, prevBlockID *types.BlockIdentifier currBlockID = &types.BlockIdentifier{ Index: blk.Number().Int64(), Hash: blk.Hash().String(), } prevBlockID = currBlockID responseBlock := &types.Block{ BlockIdentifier: currBlockID, ParentBlockIdentifier: prevBlockID, Timestamp: blk.Time().Int64() * 1e3, // Timestamp must be in ms. Transactions: []*types.Transaction{}, // Do not return tx details as it is optional. } otherTransactions := []*types.TransactionIdentifier{} // Report initial genesis funds as transactions to fit API. for _, tx := range getPseudoTransactionForGenesis(getGenesisSpec(blk.ShardID())) { otherTransactions = append( otherTransactions, getSpecialCaseTransactionIdentifier(blk.Hash(), *tx.To(), SpecialGenesisTxID), ) } return &types.BlockResponse{ Block: responseBlock, OtherTransactions: otherTransactions, }, nil } // getAllPreStakingRewardTransactionIdentifiers is only used for the /block endpoint func (s *BlockAPI) getAllPreStakingRewardTransactionIdentifiers( ctx context.Context, blk *hmytypes.Block, ) ([]*types.TransactionIdentifier, *types.Error) { txIDs := []*types.TransactionIdentifier{} blockSigInfo, rosettaError := s.getBlockSignerInfo(ctx, blk) if rosettaError != nil { return nil, rosettaError } for acc, signedBlsKeys := range blockSigInfo.signers { if len(signedBlsKeys) > 0 { txIDs = append(txIDs, getSpecialCaseTransactionIdentifier(blk.Hash(), acc, SpecialPreStakingRewardTxID)) } } return txIDs, nil } // isCommitteeSelectionBlock .. func (s *BlockAPI) isCommitteeSelectionBlock(blk *hmytypes.Block) bool { isBeaconChain := blk.ShardID() == shard.BeaconChainShardID isNewEpoch := len(blk.Header().ShardState()) > 0 inPreStakingEra := s.hmy.IsPreStakingEpoch(blk.Epoch()) return isBeaconChain && isNewEpoch && inPreStakingEra } // getAllUndelegationPayoutTransactions is only used for the /block endpoint func (s *BlockAPI) getAllUndelegationPayoutTransactions( ctx context.Context, blk *hmytypes.Block, ) ([]*types.Transaction, *types.Error) { if !s.isCommitteeSelectionBlock(blk) { return []*types.Transaction{}, nil } delegatorPayouts, err := s.hmy.GetUndelegationPayouts(ctx, blk.Epoch()) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } transactions := []*types.Transaction{} for delegator, payout := range delegatorPayouts { accID, rosettaError := newAccountIdentifier(delegator) if rosettaError != nil { return nil, rosettaError } transactions = append(transactions, &types.Transaction{ TransactionIdentifier: getSpecialCaseTransactionIdentifier( blk.Hash(), delegator, SpecialUndelegationPayoutTxID, ), Operations: []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, // There is no gas expenditure for undelegation payout }, Type: common.UndelegationPayoutOperation, Status: common.SuccessOperationStatus.Status, Account: accID, Amount: &types.Amount{ Value: fmt.Sprintf("%v", payout), Currency: &common.Currency, }, }, }, }) } return transactions, nil } // getBlockSignerInfo fetches the block signer information for any non-genesis block func (s *BlockAPI) getBlockSignerInfo( ctx context.Context, blk *hmytypes.Block, ) (*blockSignerInfo, *types.Error) { slotList, mask, err := s.hmy.GetBlockSigners( ctx, rpc.BlockNumber(blk.Number().Uint64()).EthBlockNumber(), ) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } totalSigners := uint(0) sigInfos := map[ethcommon.Address][]bls.SerializedPublicKey{} for _, slot := range slotList { if _, ok := sigInfos[slot.EcdsaAddress]; !ok { sigInfos[slot.EcdsaAddress] = []bls.SerializedPublicKey{} } if ok, err := mask.KeyEnabled(slot.BLSPublicKey); ok && err == nil { sigInfos[slot.EcdsaAddress] = append(sigInfos[slot.EcdsaAddress], slot.BLSPublicKey) totalSigners++ } } return &blockSignerInfo{ signers: sigInfos, totalKeysSigned: totalSigners, mask: mask, blockHash: blk.Hash(), }, nil } // BlockTransaction implements the /block/transaction endpoint func (s *BlockAPI) BlockTransaction( ctx context.Context, request *types.BlockTransactionRequest, ) (*types.BlockTransactionResponse, *types.Error) { if err := assertValidNetworkIdentifier(request.NetworkIdentifier, s.hmy.ShardID); err != nil { return nil, err } // Format genesis block transaction request if request.BlockIdentifier.Index == 0 { return s.genesisBlockTransaction(ctx, request) } blockHash := ethcommon.HexToHash(request.BlockIdentifier.Hash) txHash := ethcommon.HexToHash(request.TransactionIdentifier.Hash) txInfo, rosettaError := s.getTransactionInfo(ctx, blockHash, txHash) if rosettaError != nil { // If no transaction info is found, check for special case transactions. response, rosettaError2 := s.specialBlockTransaction(ctx, request) if rosettaError2 != nil && rosettaError2.Code != common.TransactionNotFoundError.Code { return nil, common.NewError(common.TransactionNotFoundError, map[string]interface{}{ "from_error": rosettaError2, }) } return response, rosettaError2 } var transaction *types.Transaction if txInfo.tx != nil && txInfo.receipt != nil { transaction, rosettaError = formatTransaction(txInfo.tx, txInfo.receipt) if rosettaError != nil { return nil, rosettaError } } else if txInfo.cxReceipt != nil { transaction, rosettaError = formatCrossShardReceiverTransaction(txInfo.cxReceipt) if rosettaError != nil { return nil, rosettaError } } else { return nil, &common.TransactionNotFoundError } return &types.BlockTransactionResponse{Transaction: transaction}, nil } // genesisBlockTransaction is a special handler for genesis block transactions func (s *BlockAPI) genesisBlockTransaction( ctx context.Context, request *types.BlockTransactionRequest, ) (response *types.BlockTransactionResponse, rosettaError *types.Error) { genesisBlock, err := s.hmy.BlockByNumber(ctx, rpc.BlockNumber(0).EthBlockNumber()) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } blkHash, address, rosettaError := unpackSpecialCaseTransactionIdentifier( request.TransactionIdentifier, SpecialGenesisTxID, ) if rosettaError != nil { return nil, rosettaError } if blkHash.String() != genesisBlock.Hash().String() { return nil, &common.TransactionNotFoundError } txs, rosettaError := formatGenesisTransaction(request.TransactionIdentifier, address, s.hmy.ShardID) if rosettaError != nil { return nil, rosettaError } return &types.BlockTransactionResponse{Transaction: txs}, nil } // specialBlockTransaction is a formatter for special, non-genesis, transactions func (s *BlockAPI) specialBlockTransaction( ctx context.Context, request *types.BlockTransactionRequest, ) (*types.BlockTransactionResponse, *types.Error) { // If no transaction info is found, check for special case transactions. blk, rosettaError := s.getBlock(ctx, &types.PartialBlockIdentifier{Index: &request.BlockIdentifier.Index}) if rosettaError != nil { return nil, rosettaError } if s.isCommitteeSelectionBlock(blk) { // Note that undelegation payout MUST be checked before reporting error in pre-staking & staking era. response, rosettaError := s.undelegationPayoutBlockTransaction(ctx, request.TransactionIdentifier, blk) if rosettaError != nil && !s.hmy.IsStakingEpoch(blk.Epoch()) && s.hmy.IsPreStakingEpoch(blk.Epoch()) { // Handle edge case special transaction for pre-staking era return s.preStakingRewardBlockTransaction(ctx, request.TransactionIdentifier, blk) } return response, rosettaError } if !s.hmy.IsStakingEpoch(blk.Epoch()) { return s.preStakingRewardBlockTransaction(ctx, request.TransactionIdentifier, blk) } return nil, &common.TransactionNotFoundError } // preStakingRewardBlockTransaction is a special handler for pre-staking era func (s *BlockAPI) preStakingRewardBlockTransaction( ctx context.Context, txID *types.TransactionIdentifier, blk *hmytypes.Block, ) (*types.BlockTransactionResponse, *types.Error) { blkHash, address, rosettaError := unpackSpecialCaseTransactionIdentifier(txID, SpecialPreStakingRewardTxID) if rosettaError != nil { return nil, rosettaError } if blkHash.String() != blk.Hash().String() { return nil, common.NewError(common.SanityCheckError, map[string]interface{}{ "message": fmt.Sprintf( "block hash %v != requested block hash %v in tx ID", blkHash.String(), blk.Hash().String(), ), }) } blockSignerInfo, rosettaError := s.getBlockSignerInfo(ctx, blk) if rosettaError != nil { return nil, rosettaError } transactions, rosettaError := formatPreStakingRewardTransaction(txID, blockSignerInfo, address) if rosettaError != nil { return nil, rosettaError } return &types.BlockTransactionResponse{Transaction: transactions}, nil } // undelegationPayoutBlockTransaction is a special handler for undelegation payout transactions func (s *BlockAPI) undelegationPayoutBlockTransaction( ctx context.Context, txID *types.TransactionIdentifier, blk *hmytypes.Block, ) (*types.BlockTransactionResponse, *types.Error) { blkHash, address, rosettaError := unpackSpecialCaseTransactionIdentifier(txID, SpecialUndelegationPayoutTxID) if rosettaError != nil { return nil, rosettaError } if blkHash.String() != blk.Hash().String() { return nil, common.NewError(common.SanityCheckError, map[string]interface{}{ "message": fmt.Sprintf( "block hash %v != requested block hash %v in tx ID", blkHash.String(), blk.Hash().String(), ), }) } delegatorPayouts, err := s.hmy.GetUndelegationPayouts(ctx, blk.Epoch()) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } transactions, rosettaError := formatUndelegationPayoutTransaction(txID, delegatorPayouts, address) if rosettaError != nil { return nil, rosettaError } return &types.BlockTransactionResponse{Transaction: transactions}, nil } // getBlock .. func (s *BlockAPI) getBlock( ctx context.Context, request *types.PartialBlockIdentifier, ) (blk *hmytypes.Block, rosettaError *types.Error) { var err error if request.Hash != nil { requestBlockHash := ethcommon.HexToHash(*request.Hash) blk, err = s.hmy.GetBlock(ctx, requestBlockHash) } else if request.Index != nil { blk, err = s.hmy.BlockByNumber(ctx, rpc.BlockNumber(*request.Index).EthBlockNumber()) } else { return nil, &common.BlockNotFoundError } if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } if blk == nil { return nil, &common.BlockNotFoundError } return blk, nil } // transactionInfo stores all related information for any transaction on the Harmony chain // Note that some elements can be nil if not applicable type transactionInfo struct { tx hmytypes.PoolTransaction txIndex uint64 receipt *hmytypes.Receipt cxReceipt *hmytypes.CXReceipt } // getTransactionInfo given the block hash and transaction hash func (s *BlockAPI) getTransactionInfo( ctx context.Context, blockHash, txHash ethcommon.Hash, ) (txInfo *transactionInfo, rosettaError *types.Error) { // Look for all of the possible transactions var index uint64 var plainTx *hmytypes.Transaction var stakingTx *stakingTypes.StakingTransaction plainTx, _, _, index = rawdb.ReadTransaction(s.hmy.ChainDb(), txHash) if plainTx == nil { stakingTx, _, _, index = rawdb.ReadStakingTransaction(s.hmy.ChainDb(), txHash) } cxReceipt, _, _, _ := rawdb.ReadCXReceipt(s.hmy.ChainDb(), txHash) if plainTx == nil && stakingTx == nil && cxReceipt == nil { return nil, &common.TransactionNotFoundError } var receipt *hmytypes.Receipt receipts, err := s.hmy.GetReceipts(ctx, blockHash) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } if int(index) < len(receipts) { receipt = receipts[index] } // Use pool transaction for concise formatting var tx hmytypes.PoolTransaction if stakingTx != nil { tx = stakingTx } else if plainTx != nil { tx = plainTx } return &transactionInfo{ tx: tx, txIndex: index, receipt: receipt, cxReceipt: cxReceipt, }, nil } func (s *BlockAPI) getTransactionReceiptFromIndex( ctx context.Context, blockHash ethcommon.Hash, index uint64, ) (*hmytypes.Receipt, *types.Error) { receipts, err := s.hmy.GetReceipts(ctx, blockHash) if err != nil || len(receipts) <= int(index) { message := fmt.Sprintf("Transasction receipt not found") if err != nil { message = fmt.Sprintf("Transasction receipt not found: %v", err.Error()) } return nil, common.NewError(common.ReceiptNotFoundError, map[string]interface{}{ "message": message, }) } return receipts[index], nil } // getPseudoTransactionForGenesis to create unsigned transaction that contain genesis funds. // Note that this is for internal usage only. Genesis funds are not transactions. func getPseudoTransactionForGenesis(spec *core.Genesis) []*hmytypes.Transaction { txs := []*hmytypes.Transaction{} for acc, bal := range spec.Alloc { txs = append(txs, hmytypes.NewTransaction( 0, acc, spec.ShardID, bal.Balance, 0, big.NewInt(0), spec.ExtraData, )) } return txs } // SpecialTransactionSuffix .. type SpecialTransactionSuffix uint // Special transaction suffixes that are specific to the rosetta package const ( SpecialGenesisTxID SpecialTransactionSuffix = iota SpecialPreStakingRewardTxID SpecialUndelegationPayoutTxID ) // String .. func (s SpecialTransactionSuffix) String() string { return [...]string{"genesis", "reward", "undelegation"}[s] } // getSpecialCaseTransactionIdentifier fetches 'transaction identifiers' for a given block-hash and suffix. // Special cases include genesis transactions, pre-staking era block rewards, and undelegation payouts. // Must include block hash to guarantee uniqueness of tx identifiers. func getSpecialCaseTransactionIdentifier( blockHash ethcommon.Hash, address ethcommon.Address, suffix SpecialTransactionSuffix, ) *types.TransactionIdentifier { return &types.TransactionIdentifier{ Hash: fmt.Sprintf("%v_%v_%v", blockHash.String(), internalCommon.MustAddressToBech32(address), suffix.String(), ), } } const ( blockHashStrLen = 64 b32AddrStrLen = 42 ) // unpackSpecialCaseTransactionIdentifier returns the suffix & blockHash if the txID is formatted correctly. func unpackSpecialCaseTransactionIdentifier( txID *types.TransactionIdentifier, expectedSuffix SpecialTransactionSuffix, ) (ethcommon.Hash, ethcommon.Address, *types.Error) { hash := txID.Hash hash = strings.TrimPrefix(hash, "0x") hash = strings.TrimPrefix(hash, "0X") minCharCount := blockHashStrLen + b32AddrStrLen + 2 if len(hash) < minCharCount || string(hash[blockHashStrLen]) != "_" || string(hash[minCharCount-1]) != "_" || expectedSuffix.String() != hash[minCharCount:] { return ethcommon.Hash{}, ethcommon.Address{}, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unknown special case transaction ID format", }) } blkHash := ethcommon.HexToHash(hash[:blockHashStrLen]) addr := internalCommon.MustBech32ToAddress(hash[blockHashStrLen+1 : minCharCount-1]) return blkHash, addr, nil } // blockSignerInfo contains all of the block singing information type blockSignerInfo struct { // signers is a map of addresses in the signers for the block to // all of the serialized BLS keys that signed said block. signers map[ethcommon.Address][]bls.SerializedPublicKey // totalKeysSigned is the total number of bls keys that signed the block. totalKeysSigned uint // mask is the bitmap mask for the block. mask *bls.Mask blockHash ethcommon.Hash } // TransactionMetadata .. type TransactionMetadata struct { CrossShardIdentifier *types.TransactionIdentifier `json:"cross_shard_transaction_identifier,omitempty"` ToShardID uint32 `json:"to_shard,omitempty"` FromShardID uint32 `json:"from_shard,omitempty"` Data string `json:"data,omitempty"` } // formatCrossShardReceiverTransaction for cross-shard payouts on destination shard func formatCrossShardReceiverTransaction( cxReceipt *hmytypes.CXReceipt, ) (txs *types.Transaction, rosettaError *types.Error) { ctxID := &types.TransactionIdentifier{Hash: cxReceipt.TxHash.String()} metadata, err := rpc.NewStructuredResponse(TransactionMetadata{ CrossShardIdentifier: ctxID, ToShardID: cxReceipt.ToShardID, FromShardID: cxReceipt.ShardID, }) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } senderAccountID, rosettaError := newAccountIdentifier(cxReceipt.From) if rosettaError != nil { return nil, rosettaError } receiverAccountID, rosettaError := newAccountIdentifier(*cxReceipt.To) if rosettaError != nil { return nil, rosettaError } return &types.Transaction{ TransactionIdentifier: ctxID, Metadata: metadata, Operations: []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, // There is no gas expenditure for cross-shard transaction payout }, Type: common.CrossShardTransferOperation, Status: common.SuccessOperationStatus.Status, Account: receiverAccountID, Amount: &types.Amount{ Value: fmt.Sprintf("%v", cxReceipt.Amount), Currency: &common.Currency, }, Metadata: map[string]interface{}{"from_account": senderAccountID}, }, }, }, nil } // formatGenesisTransaction for genesis block's initial balances func formatGenesisTransaction( txID *types.TransactionIdentifier, targetAddr ethcommon.Address, shardID uint32, ) (fmtTx *types.Transaction, rosettaError *types.Error) { var b32Addr string targetB32Addr := internalCommon.MustAddressToBech32(targetAddr) genesisSpec := getGenesisSpec(shardID) for _, tx := range getPseudoTransactionForGenesis(genesisSpec) { b32Addr, _ = internalCommon.AddressToBech32(*tx.To()) if targetB32Addr == b32Addr { accID, rosettaError := newAccountIdentifier(*tx.To()) if rosettaError != nil { return nil, rosettaError } return &types.Transaction{ TransactionIdentifier: txID, Operations: []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, }, Type: common.GenesisFundsOperation, Status: common.SuccessOperationStatus.Status, Account: accID, Amount: &types.Amount{ Value: fmt.Sprintf("%v", tx.Value()), Currency: &common.Currency, }, Metadata: map[string]interface{}{ "type": "genesis funds", }, }, }, }, nil } } return nil, &common.TransactionNotFoundError } // formatPreStakingRewardTransaction for block rewards in pre-staking era for a given Bech-32 address. func formatPreStakingRewardTransaction( txID *types.TransactionIdentifier, blockSigInfo *blockSignerInfo, address ethcommon.Address, ) (*types.Transaction, *types.Error) { signatures, ok := blockSigInfo.signers[address] if !ok || len(signatures) == 0 { return nil, &common.TransactionNotFoundError } accID, rosettaError := newAccountIdentifier(address) if rosettaError != nil { return nil, rosettaError } // Calculate rewards exactly like `AccumulateRewardsAndCountSigs` but short circuit when possible. var rewardsForThisBlock *big.Int i := 0 last := big.NewInt(0) count := big.NewInt(int64(blockSigInfo.totalKeysSigned)) for sigAddr, keys := range blockSigInfo.signers { rewardsForThisAddr := big.NewInt(0) for range keys { cur := big.NewInt(0) cur.Mul(stakingNetwork.BlockReward, big.NewInt(int64(i+1))).Div(cur, count) reward := big.NewInt(0).Sub(cur, last) rewardsForThisAddr = new(big.Int).Add(reward, rewardsForThisAddr) last = cur i++ } if sigAddr == address { rewardsForThisBlock = rewardsForThisAddr if !(rewardsForThisAddr.Cmp(big.NewInt(0)) > 0) { return nil, common.NewError(common.SanityCheckError, map[string]interface{}{ "message": "expected non-zero block reward in pre-staking era for block signer", }) } break } } return &types.Transaction{ TransactionIdentifier: txID, Operations: []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, }, Type: common.PreStakingBlockRewardOperation, Status: common.SuccessOperationStatus.Status, Account: accID, Amount: &types.Amount{ Value: fmt.Sprintf("%v", rewardsForThisBlock), Currency: &common.Currency, }, }, }, }, nil } // formatUndelegationPayoutTransaction for undelegation payouts at committee selection block func formatUndelegationPayoutTransaction( txID *types.TransactionIdentifier, delegatorPayouts hmy.UndelegationPayouts, address ethcommon.Address, ) (*types.Transaction, *types.Error) { accID, rosettaError := newAccountIdentifier(address) if rosettaError != nil { return nil, rosettaError } payout, ok := delegatorPayouts[address] if !ok { return nil, &common.TransactionNotFoundError } return &types.Transaction{ TransactionIdentifier: txID, Operations: []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, }, Type: common.UndelegationPayoutOperation, Status: common.SuccessOperationStatus.Status, Account: accID, Amount: &types.Amount{ Value: fmt.Sprintf("%v", payout), Currency: &common.Currency, }, }, }, }, nil } // formatTransaction for staking, cross-shard sender, and plain transactions func formatTransaction( tx hmytypes.PoolTransaction, receipt *hmytypes.Receipt, ) (fmtTx *types.Transaction, rosettaError *types.Error) { var operations []*types.Operation var isCrossShard bool var toShard uint32 // Fetch correct operations depending on transaction type stakingTx, isStaking := tx.(*stakingTypes.StakingTransaction) if !isStaking { plainTx, ok := tx.(*hmytypes.Transaction) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unknown transaction type", }) } operations, rosettaError = getOperations(plainTx, receipt) if rosettaError != nil { return nil, rosettaError } isCrossShard = plainTx.ShardID() != plainTx.ToShardID() toShard = plainTx.ToShardID() } else { operations, rosettaError = getStakingOperations(stakingTx, receipt) if rosettaError != nil { return nil, rosettaError } isCrossShard = false toShard = stakingTx.ShardID() } txID := &types.TransactionIdentifier{Hash: tx.Hash().String()} // Set transaction metadata if needed var txMetadata TransactionMetadata var err error if isCrossShard { txMetadata.CrossShardIdentifier = txID txMetadata.ToShardID = toShard txMetadata.FromShardID = tx.ShardID() } if len(tx.Data()) > 0 && !isStaking { txMetadata.Data = hex.EncodeToString(tx.Data()) } metadata, err := rpc.NewStructuredResponse(txMetadata) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } return &types.Transaction{ TransactionIdentifier: txID, Operations: operations, Metadata: metadata, }, nil } // getOperations for correct one of the following transactions: // contract creation, cross-shard sender, same-shard transfer func getOperations( tx *hmytypes.Transaction, receipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { senderAddress, err := tx.SenderAddress() if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } accountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } // All operations excepts for cross-shard tx payout expend gas gasExpended := new(big.Int).Mul(new(big.Int).SetUint64(receipt.GasUsed), tx.GasPrice()) gasOperations := newOperations(gasExpended, accountID) // Handle different cases of plain transactions var txOperations []*types.Operation if tx.To() == nil { txOperations, rosettaError = newContractCreationOperations( gasOperations[0].OperationIdentifier, tx, receipt, ) } else if tx.ShardID() != tx.ToShardID() { txOperations, rosettaError = newCrossShardSenderTransferOperations( gasOperations[0].OperationIdentifier, tx, ) } else { txOperations, rosettaError = newTransferOperations( gasOperations[0].OperationIdentifier, tx, receipt, ) } if rosettaError != nil { return nil, rosettaError } return append(gasOperations, txOperations...), nil } // getStakingOperations for all staking directives func getStakingOperations( tx *stakingTypes.StakingTransaction, receipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { // Sender address should have errored prior to call this function senderAddress, _ := tx.SenderAddress() accountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } // All operations excepts for cross-shard tx payout expend gas gasExpended := new(big.Int).Mul(new(big.Int).SetUint64(receipt.GasUsed), tx.GasPrice()) gasOperations := newOperations(gasExpended, accountID) // Format staking message for metadata rpcStakingTx, err := rpcV2.NewStakingTransaction(tx, ethcommon.Hash{}, 0, 0, 0) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } metadata, err := rpc.NewStructuredResponse(rpcStakingTx.Msg) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } // Set correct amount depending on staking message directive that apply balance changes INSTANTLY var amount *types.Amount switch tx.StakingType() { case stakingTypes.DirectiveCreateValidator: if amount, rosettaError = getAmountFromCreateValidatorMessage(tx.Data()); rosettaError != nil { return nil, rosettaError } case stakingTypes.DirectiveDelegate: if amount, rosettaError = getAmountFromDelegateMessage(receipt, tx.Data()); rosettaError != nil { return nil, rosettaError } case stakingTypes.DirectiveCollectRewards: if amount, rosettaError = getAmountFromCollectRewards(receipt, senderAddress); rosettaError != nil { return nil, rosettaError } default: amount = &types.Amount{ Value: "0", // All other staking transactions do not apply balance changes instantly or at all Currency: &common.Currency, } } return append(gasOperations, &types.Operation{ OperationIdentifier: &types.OperationIdentifier{ Index: gasOperations[0].OperationIdentifier.Index + 1, }, RelatedOperations: []*types.OperationIdentifier{ gasOperations[0].OperationIdentifier, }, Type: tx.StakingType().String(), Status: common.SuccessOperationStatus.Status, Account: accountID, Amount: amount, Metadata: metadata, }), nil } func getAmountFromCreateValidatorMessage(data []byte) (*types.Amount, *types.Error) { msg, err := stakingTypes.RLPDecodeStakeMsg(data, stakingTypes.DirectiveCreateValidator) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } stkMsg, ok := msg.(*stakingTypes.CreateValidator) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unable to parse staking message for create validator tx", }) } return &types.Amount{ Value: fmt.Sprintf("-%v", stkMsg.Amount), Currency: &common.Currency, }, nil } func getAmountFromDelegateMessage(receipt *hmytypes.Receipt, data []byte) (*types.Amount, *types.Error) { msg, err := stakingTypes.RLPDecodeStakeMsg(data, stakingTypes.DirectiveDelegate) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } stkMsg, ok := msg.(*stakingTypes.Delegate) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unable to parse staking message for delegate tx", }) } stkAmount := stkMsg.Amount logs := findLogsWithTopic(receipt, staking.DelegateTopic) for _, log := range logs { if len(log.Data) > ethcommon.AddressLength { validatorAddress := ethcommon.BytesToAddress(log.Data[:ethcommon.AddressLength]) if log.Address == stkMsg.DelegatorAddress && stkMsg.ValidatorAddress == validatorAddress { // Remove re-delegation amount as funds were never credited to account's balance. stkAmount = new(big.Int).Sub(stkAmount, new(big.Int).SetBytes(log.Data[ethcommon.AddressLength:])) break } } } return &types.Amount{ Value: fmt.Sprintf("-%v", stkAmount), Currency: &common.Currency, }, nil } func getAmountFromUndelegateMessage(data []byte) (*types.Amount, *types.Error) { msg, err := stakingTypes.RLPDecodeStakeMsg(data, stakingTypes.DirectiveUndelegate) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } stkMsg, ok := msg.(*stakingTypes.Undelegate) if !ok { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": "unable to parse staking message for undelegate tx", }) } return &types.Amount{ Value: fmt.Sprintf("%v", stkMsg.Amount), Currency: &common.Currency, }, nil } func getAmountFromCollectRewards( receipt *hmytypes.Receipt, senderAddress ethcommon.Address, ) (*types.Amount, *types.Error) { var amount *types.Amount logs := findLogsWithTopic(receipt, staking.CollectRewardsTopic) for _, log := range logs { if log.Address == senderAddress { amount = &types.Amount{ Value: fmt.Sprintf("%v", big.NewInt(0).SetBytes(log.Data)), Currency: &common.Currency, } break } } if amount == nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": fmt.Sprintf("collect rewards amount not found for %v", senderAddress), }) } return amount, nil } // newTransferOperations extracts & formats the operation(s) for plain transaction, // including contract transactions. func newTransferOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, receipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { // Sender address should have errored prior to call this function senderAddress, _ := tx.SenderAddress() receiverAddress := *tx.To() // Common elements opType := common.TransferOperation opStatus := common.SuccessOperationStatus.Status if receipt.Status == hmytypes.ReceiptStatusFailed { if len(tx.Data()) > 0 { opStatus = common.ContractFailureOperationStatus.Status } else { // Should never see a failed non-contract related transaction on chain opStatus = common.FailureOperationStatus.Status utils.Logger().Warn().Msgf("Failed transaction on chain: %v", tx.Hash().String()) } } // Subtraction operation elements subOperationID := &types.OperationIdentifier{ Index: startingOperationID.Index + 1, } subRelatedID := []*types.OperationIdentifier{ startingOperationID, } subAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } subAmount := &types.Amount{ Value: fmt.Sprintf("-%v", tx.Value()), Currency: &common.Currency, } // Addition operation elements addOperationID := &types.OperationIdentifier{ Index: subOperationID.Index + 1, } addRelatedID := []*types.OperationIdentifier{ subOperationID, } addAccountID, rosettaError := newAccountIdentifier(receiverAddress) if rosettaError != nil { return nil, rosettaError } addAmount := &types.Amount{ Value: fmt.Sprintf("%v", tx.Value()), Currency: &common.Currency, } return []*types.Operation{ { OperationIdentifier: subOperationID, RelatedOperations: subRelatedID, Type: opType, Status: opStatus, Account: subAccountID, Amount: subAmount, Metadata: map[string]interface{}{}, }, { OperationIdentifier: addOperationID, RelatedOperations: addRelatedID, Type: opType, Status: opStatus, Account: addAccountID, Amount: addAmount, Metadata: map[string]interface{}{}, }, }, nil } // newCrossShardSenderTransferOperations extracts & formats the operation(s) for cross-shard-tx // on the sender's shard. func newCrossShardSenderTransferOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, ) ([]*types.Operation, *types.Error) { // Sender address should have errored prior to call this function senderAddress, _ := tx.SenderAddress() receiverAddress := *tx.To() senderAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } receiverAccountID, rosettaError := newAccountIdentifier(receiverAddress) if rosettaError != nil { return nil, rosettaError } return []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: startingOperationID.Index + 1, }, RelatedOperations: []*types.OperationIdentifier{ startingOperationID, }, Type: common.CrossShardTransferOperation, Status: common.SuccessOperationStatus.Status, Account: senderAccountID, Amount: &types.Amount{ Value: fmt.Sprintf("-%v", tx.Value()), Currency: &common.Currency, }, Metadata: map[string]interface{}{ "to_account": receiverAccountID, }, }, }, nil } // newContractCreationOperations extracts & formats the operation(s) for a contract creation tx func newContractCreationOperations( startingOperationID *types.OperationIdentifier, tx *hmytypes.Transaction, txReceipt *hmytypes.Receipt, ) ([]*types.Operation, *types.Error) { // Sender address should have errored prior to call this function senderAddress, _ := tx.SenderAddress() senderAccountID, rosettaError := newAccountIdentifier(senderAddress) if rosettaError != nil { return nil, rosettaError } // Set execution status as necessary status := common.SuccessOperationStatus.Status if txReceipt.Status == hmytypes.ReceiptStatusFailed { status = common.ContractFailureOperationStatus.Status } return []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: startingOperationID.Index + 1, }, RelatedOperations: []*types.OperationIdentifier{ startingOperationID, }, Type: common.ContractCreationOperation, Status: status, Account: senderAccountID, Amount: &types.Amount{ Value: fmt.Sprintf("-%v", tx.Value()), Currency: &common.Currency, }, Metadata: map[string]interface{}{ "contract_address": txReceipt.ContractAddress.String(), }, }, }, nil } // AccountMetadata used for account identifiers type AccountMetadata struct { Address string `json:"hex_address"` } // newAccountIdentifier .. func newAccountIdentifier( address ethcommon.Address, ) (*types.AccountIdentifier, *types.Error) { b32Address, _ := internalCommon.AddressToBech32(address) metadata, err := rpc.NewStructuredResponse(AccountMetadata{Address: address.String()}) if err != nil { return nil, common.NewError(common.CatchAllError, map[string]interface{}{ "message": err.Error(), }) } return &types.AccountIdentifier{ Address: b32Address, Metadata: metadata, }, nil } // newOperations creates a new operation with the gas fee as the first operation. // Note: the gas fee is gasPrice * gasUsed. func newOperations( gasFeeInATTO *big.Int, accountID *types.AccountIdentifier, ) []*types.Operation { return []*types.Operation{ { OperationIdentifier: &types.OperationIdentifier{ Index: 0, // gas operation is always first }, Type: common.ExpendGasOperation, Status: common.SuccessOperationStatus.Status, Account: accountID, Amount: &types.Amount{ Value: fmt.Sprintf("-%v", gasFeeInATTO), Currency: &common.Currency, }, }, } } // findLogsWithTopic returns all the logs that contain the given receipt func findLogsWithTopic( receipt *hmytypes.Receipt, targetTopic ethcommon.Hash, ) []*hmytypes.Log { logs := []*hmytypes.Log{} for _, log := range receipt.Logs { for _, topic := range log.Topics { if topic == targetTopic { logs = append(logs, log) break } } } return logs } // getGenesisSpec .. func getGenesisSpec(shardID uint32) *core.Genesis { if shard.Schedule.GetNetworkID() == shardingconfig.MainNet { return core.NewGenesisSpec(nodeconfig.Mainnet, shardID) } if shard.Schedule.GetNetworkID() == shardingconfig.LocalNet { return core.NewGenesisSpec(nodeconfig.Localnet, shardID) } return core.NewGenesisSpec(nodeconfig.Testnet, shardID) }