// Copyright 2019 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . // Package graphql provides a GraphQL interface to Ethereum node data. package graphql import ( "context" "errors" "fmt" "math/big" "strconv" "time" "github.com/ethereum/go-ethereum" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/common/math" "github.com/ethereum/go-ethereum/core/state" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/eth/filters" "github.com/ethereum/go-ethereum/internal/ethapi" "github.com/ethereum/go-ethereum/rpc" ) var ( errBlockInvariant = errors.New("block objects must be instantiated with at least one of num or hash") ) type Long int64 // ImplementsGraphQLType returns true if Long implements the provided GraphQL type. func (b Long) ImplementsGraphQLType(name string) bool { return name == "Long" } // UnmarshalGraphQL unmarshals the provided GraphQL query data. func (b *Long) UnmarshalGraphQL(input interface{}) error { var err error switch input := input.(type) { case string: // uncomment to support hex values //if strings.HasPrefix(input, "0x") { // // apply leniency and support hex representations of longs. // value, err := hexutil.DecodeUint64(input) // *b = Long(value) // return err //} else { value, err := strconv.ParseInt(input, 10, 64) *b = Long(value) return err //} case int32: *b = Long(input) case int64: *b = Long(input) default: err = fmt.Errorf("unexpected type %T for Long", input) } return err } // Account represents an Ethereum account at a particular block. type Account struct { backend ethapi.Backend address common.Address blockNrOrHash rpc.BlockNumberOrHash } // getState fetches the StateDB object for an account. func (a *Account) getState(ctx context.Context) (*state.StateDB, error) { state, _, err := a.backend.StateAndHeaderByNumberOrHash(ctx, a.blockNrOrHash) return state, err } func (a *Account) Address(ctx context.Context) (common.Address, error) { return a.address, nil } func (a *Account) Balance(ctx context.Context) (hexutil.Big, error) { state, err := a.getState(ctx) if err != nil { return hexutil.Big{}, err } balance := state.GetBalance(a.address) if balance == nil { return hexutil.Big{}, fmt.Errorf("failed to load balance %x", a.address) } return hexutil.Big(*balance), nil } func (a *Account) TransactionCount(ctx context.Context) (hexutil.Uint64, error) { state, err := a.getState(ctx) if err != nil { return 0, err } return hexutil.Uint64(state.GetNonce(a.address)), nil } func (a *Account) Code(ctx context.Context) (hexutil.Bytes, error) { state, err := a.getState(ctx) if err != nil { return hexutil.Bytes{}, err } return state.GetCode(a.address), nil } func (a *Account) Storage(ctx context.Context, args struct{ Slot common.Hash }) (common.Hash, error) { state, err := a.getState(ctx) if err != nil { return common.Hash{}, err } return state.GetState(a.address, args.Slot), nil } // Log represents an individual log message. All arguments are mandatory. type Log struct { backend ethapi.Backend transaction *Transaction log *types.Log } func (l *Log) Transaction(ctx context.Context) *Transaction { return l.transaction } func (l *Log) Account(ctx context.Context, args BlockNumberArgs) *Account { return &Account{ backend: l.backend, address: l.log.Address, blockNrOrHash: args.NumberOrLatest(), } } func (l *Log) Index(ctx context.Context) int32 { return int32(l.log.Index) } func (l *Log) Topics(ctx context.Context) []common.Hash { return l.log.Topics } func (l *Log) Data(ctx context.Context) hexutil.Bytes { return l.log.Data } // AccessTuple represents EIP-2930 type AccessTuple struct { address common.Address storageKeys *[]common.Hash } func (at *AccessTuple) Address(ctx context.Context) common.Address { return at.address } func (at *AccessTuple) StorageKeys(ctx context.Context) *[]common.Hash { return at.storageKeys } // Transaction represents an Ethereum transaction. // backend and hash are mandatory; all others will be fetched when required. type Transaction struct { backend ethapi.Backend hash common.Hash tx *types.Transaction block *Block index uint64 } // resolve returns the internal transaction object, fetching it if needed. func (t *Transaction) resolve(ctx context.Context) (*types.Transaction, error) { if t.tx == nil { // Try to return an already finalized transaction tx, blockHash, _, index, err := t.backend.GetTransaction(ctx, t.hash) if err == nil && tx != nil { t.tx = tx blockNrOrHash := rpc.BlockNumberOrHashWithHash(blockHash, false) t.block = &Block{ backend: t.backend, numberOrHash: &blockNrOrHash, } t.index = index return t.tx, nil } // No finalized transaction, try to retrieve it from the pool t.tx = t.backend.GetPoolTransaction(t.hash) } return t.tx, nil } func (t *Transaction) Hash(ctx context.Context) common.Hash { return t.hash } func (t *Transaction) InputData(ctx context.Context) (hexutil.Bytes, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Bytes{}, err } return tx.Data(), nil } func (t *Transaction) Gas(ctx context.Context) (hexutil.Uint64, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return 0, err } return hexutil.Uint64(tx.Gas()), nil } func (t *Transaction) GasPrice(ctx context.Context) (hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Big{}, err } switch tx.Type() { case types.AccessListTxType: return hexutil.Big(*tx.GasPrice()), nil case types.DynamicFeeTxType: if t.block != nil { if baseFee, _ := t.block.BaseFeePerGas(ctx); baseFee != nil { // price = min(tip, gasFeeCap - baseFee) + baseFee return (hexutil.Big)(*math.BigMin(new(big.Int).Add(tx.GasTipCap(), baseFee.ToInt()), tx.GasFeeCap())), nil } } return hexutil.Big(*tx.GasPrice()), nil default: return hexutil.Big(*tx.GasPrice()), nil } } func (t *Transaction) EffectiveGasPrice(ctx context.Context) (*hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } header, err := t.block.resolveHeader(ctx) if err != nil || header == nil { return nil, err } if header.BaseFee == nil { return (*hexutil.Big)(tx.GasPrice()), nil } return (*hexutil.Big)(math.BigMin(new(big.Int).Add(tx.GasTipCap(), header.BaseFee), tx.GasFeeCap())), nil } func (t *Transaction) MaxFeePerGas(ctx context.Context) (*hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } switch tx.Type() { case types.AccessListTxType: return nil, nil case types.DynamicFeeTxType: return (*hexutil.Big)(tx.GasFeeCap()), nil default: return nil, nil } } func (t *Transaction) MaxPriorityFeePerGas(ctx context.Context) (*hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } switch tx.Type() { case types.AccessListTxType: return nil, nil case types.DynamicFeeTxType: return (*hexutil.Big)(tx.GasTipCap()), nil default: return nil, nil } } func (t *Transaction) Value(ctx context.Context) (hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Big{}, err } if tx.Value() == nil { return hexutil.Big{}, fmt.Errorf("invalid transaction value %x", t.hash) } return hexutil.Big(*tx.Value()), nil } func (t *Transaction) Nonce(ctx context.Context) (hexutil.Uint64, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return 0, err } return hexutil.Uint64(tx.Nonce()), nil } func (t *Transaction) To(ctx context.Context, args BlockNumberArgs) (*Account, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } to := tx.To() if to == nil { return nil, nil } return &Account{ backend: t.backend, address: *to, blockNrOrHash: args.NumberOrLatest(), }, nil } func (t *Transaction) From(ctx context.Context, args BlockNumberArgs) (*Account, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } signer := types.LatestSigner(t.backend.ChainConfig()) from, _ := types.Sender(signer, tx) return &Account{ backend: t.backend, address: from, blockNrOrHash: args.NumberOrLatest(), }, nil } func (t *Transaction) Block(ctx context.Context) (*Block, error) { if _, err := t.resolve(ctx); err != nil { return nil, err } return t.block, nil } func (t *Transaction) Index(ctx context.Context) (*int32, error) { if _, err := t.resolve(ctx); err != nil { return nil, err } if t.block == nil { return nil, nil } index := int32(t.index) return &index, nil } // getReceipt returns the receipt associated with this transaction, if any. func (t *Transaction) getReceipt(ctx context.Context) (*types.Receipt, error) { if _, err := t.resolve(ctx); err != nil { return nil, err } if t.block == nil { return nil, nil } receipts, err := t.block.resolveReceipts(ctx) if err != nil { return nil, err } return receipts[t.index], nil } func (t *Transaction) Status(ctx context.Context) (*Long, error) { receipt, err := t.getReceipt(ctx) if err != nil || receipt == nil { return nil, err } ret := Long(receipt.Status) return &ret, nil } func (t *Transaction) GasUsed(ctx context.Context) (*Long, error) { receipt, err := t.getReceipt(ctx) if err != nil || receipt == nil { return nil, err } ret := Long(receipt.GasUsed) return &ret, nil } func (t *Transaction) CumulativeGasUsed(ctx context.Context) (*Long, error) { receipt, err := t.getReceipt(ctx) if err != nil || receipt == nil { return nil, err } ret := Long(receipt.CumulativeGasUsed) return &ret, nil } func (t *Transaction) CreatedContract(ctx context.Context, args BlockNumberArgs) (*Account, error) { receipt, err := t.getReceipt(ctx) if err != nil || receipt == nil || receipt.ContractAddress == (common.Address{}) { return nil, err } return &Account{ backend: t.backend, address: receipt.ContractAddress, blockNrOrHash: args.NumberOrLatest(), }, nil } func (t *Transaction) Logs(ctx context.Context) (*[]*Log, error) { receipt, err := t.getReceipt(ctx) if err != nil || receipt == nil { return nil, err } ret := make([]*Log, 0, len(receipt.Logs)) for _, log := range receipt.Logs { ret = append(ret, &Log{ backend: t.backend, transaction: t, log: log, }) } return &ret, nil } func (t *Transaction) Type(ctx context.Context) (*int32, error) { tx, err := t.resolve(ctx) if err != nil { return nil, err } txType := int32(tx.Type()) return &txType, nil } func (t *Transaction) AccessList(ctx context.Context) (*[]*AccessTuple, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return nil, err } accessList := tx.AccessList() ret := make([]*AccessTuple, 0, len(accessList)) for _, al := range accessList { ret = append(ret, &AccessTuple{ address: al.Address, storageKeys: &al.StorageKeys, }) } return &ret, nil } func (t *Transaction) R(ctx context.Context) (hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Big{}, err } _, r, _ := tx.RawSignatureValues() return hexutil.Big(*r), nil } func (t *Transaction) S(ctx context.Context) (hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Big{}, err } _, _, s := tx.RawSignatureValues() return hexutil.Big(*s), nil } func (t *Transaction) V(ctx context.Context) (hexutil.Big, error) { tx, err := t.resolve(ctx) if err != nil || tx == nil { return hexutil.Big{}, err } v, _, _ := tx.RawSignatureValues() return hexutil.Big(*v), nil } type BlockType int // Block represents an Ethereum block. // backend, and numberOrHash are mandatory. All other fields are lazily fetched // when required. type Block struct { backend ethapi.Backend numberOrHash *rpc.BlockNumberOrHash hash common.Hash header *types.Header block *types.Block receipts []*types.Receipt } // resolve returns the internal Block object representing this block, fetching // it if necessary. func (b *Block) resolve(ctx context.Context) (*types.Block, error) { if b.block != nil { return b.block, nil } if b.numberOrHash == nil { latest := rpc.BlockNumberOrHashWithNumber(rpc.LatestBlockNumber) b.numberOrHash = &latest } var err error b.block, err = b.backend.BlockByNumberOrHash(ctx, *b.numberOrHash) if b.block != nil && b.header == nil { b.header = b.block.Header() if hash, ok := b.numberOrHash.Hash(); ok { b.hash = hash } } return b.block, err } // resolveHeader returns the internal Header object for this block, fetching it // if necessary. Call this function instead of `resolve` unless you need the // additional data (transactions and uncles). func (b *Block) resolveHeader(ctx context.Context) (*types.Header, error) { if b.numberOrHash == nil && b.hash == (common.Hash{}) { return nil, errBlockInvariant } var err error if b.header == nil { if b.hash != (common.Hash{}) { b.header, err = b.backend.HeaderByHash(ctx, b.hash) } else { b.header, err = b.backend.HeaderByNumberOrHash(ctx, *b.numberOrHash) } } return b.header, err } // resolveReceipts returns the list of receipts for this block, fetching them // if necessary. func (b *Block) resolveReceipts(ctx context.Context) ([]*types.Receipt, error) { if b.receipts == nil { hash := b.hash if hash == (common.Hash{}) { header, err := b.resolveHeader(ctx) if err != nil { return nil, err } hash = header.Hash() } receipts, err := b.backend.GetReceipts(ctx, hash) if err != nil { return nil, err } b.receipts = receipts } return b.receipts, nil } func (b *Block) Number(ctx context.Context) (Long, error) { header, err := b.resolveHeader(ctx) if err != nil { return 0, err } return Long(header.Number.Uint64()), nil } func (b *Block) Hash(ctx context.Context) (common.Hash, error) { if b.hash == (common.Hash{}) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } b.hash = header.Hash() } return b.hash, nil } func (b *Block) GasLimit(ctx context.Context) (Long, error) { header, err := b.resolveHeader(ctx) if err != nil { return 0, err } return Long(header.GasLimit), nil } func (b *Block) GasUsed(ctx context.Context) (Long, error) { header, err := b.resolveHeader(ctx) if err != nil { return 0, err } return Long(header.GasUsed), nil } func (b *Block) BaseFeePerGas(ctx context.Context) (*hexutil.Big, error) { header, err := b.resolveHeader(ctx) if err != nil { return nil, err } if header.BaseFee == nil { return nil, nil } return (*hexutil.Big)(header.BaseFee), nil } func (b *Block) Parent(ctx context.Context) (*Block, error) { // If the block header hasn't been fetched, and we'll need it, fetch it. if b.numberOrHash == nil && b.header == nil { if _, err := b.resolveHeader(ctx); err != nil { return nil, err } } if b.header != nil && b.header.Number.Uint64() > 0 { num := rpc.BlockNumberOrHashWithNumber(rpc.BlockNumber(b.header.Number.Uint64() - 1)) return &Block{ backend: b.backend, numberOrHash: &num, hash: b.header.ParentHash, }, nil } return nil, nil } func (b *Block) Difficulty(ctx context.Context) (hexutil.Big, error) { header, err := b.resolveHeader(ctx) if err != nil { return hexutil.Big{}, err } return hexutil.Big(*header.Difficulty), nil } func (b *Block) Timestamp(ctx context.Context) (hexutil.Uint64, error) { header, err := b.resolveHeader(ctx) if err != nil { return 0, err } return hexutil.Uint64(header.Time), nil } func (b *Block) Nonce(ctx context.Context) (hexutil.Bytes, error) { header, err := b.resolveHeader(ctx) if err != nil { return hexutil.Bytes{}, err } return header.Nonce[:], nil } func (b *Block) MixHash(ctx context.Context) (common.Hash, error) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } return header.MixDigest, nil } func (b *Block) TransactionsRoot(ctx context.Context) (common.Hash, error) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } return header.TxHash, nil } func (b *Block) StateRoot(ctx context.Context) (common.Hash, error) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } return header.Root, nil } func (b *Block) ReceiptsRoot(ctx context.Context) (common.Hash, error) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } return header.ReceiptHash, nil } func (b *Block) OmmerHash(ctx context.Context) (common.Hash, error) { header, err := b.resolveHeader(ctx) if err != nil { return common.Hash{}, err } return header.UncleHash, nil } func (b *Block) OmmerCount(ctx context.Context) (*int32, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } count := int32(len(block.Uncles())) return &count, err } func (b *Block) Ommers(ctx context.Context) (*[]*Block, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } ret := make([]*Block, 0, len(block.Uncles())) for _, uncle := range block.Uncles() { blockNumberOrHash := rpc.BlockNumberOrHashWithHash(uncle.Hash(), false) ret = append(ret, &Block{ backend: b.backend, numberOrHash: &blockNumberOrHash, header: uncle, }) } return &ret, nil } func (b *Block) ExtraData(ctx context.Context) (hexutil.Bytes, error) { header, err := b.resolveHeader(ctx) if err != nil { return hexutil.Bytes{}, err } return header.Extra, nil } func (b *Block) LogsBloom(ctx context.Context) (hexutil.Bytes, error) { header, err := b.resolveHeader(ctx) if err != nil { return hexutil.Bytes{}, err } return header.Bloom.Bytes(), nil } func (b *Block) TotalDifficulty(ctx context.Context) (hexutil.Big, error) { h := b.hash if h == (common.Hash{}) { header, err := b.resolveHeader(ctx) if err != nil { return hexutil.Big{}, err } h = header.Hash() } td := b.backend.GetTd(ctx, h) if td == nil { return hexutil.Big{}, fmt.Errorf("total difficulty not found %x", b.hash) } return hexutil.Big(*td), nil } // BlockNumberArgs encapsulates arguments to accessors that specify a block number. type BlockNumberArgs struct { // TODO: Ideally we could use input unions to allow the query to specify the // block parameter by hash, block number, or tag but input unions aren't part of the // standard GraphQL schema SDL yet, see: https://github.com/graphql/graphql-spec/issues/488 Block *hexutil.Uint64 } // NumberOr returns the provided block number argument, or the "current" block number or hash if none // was provided. func (a BlockNumberArgs) NumberOr(current rpc.BlockNumberOrHash) rpc.BlockNumberOrHash { if a.Block != nil { blockNr := rpc.BlockNumber(*a.Block) return rpc.BlockNumberOrHashWithNumber(blockNr) } return current } // NumberOrLatest returns the provided block number argument, or the "latest" block number if none // was provided. func (a BlockNumberArgs) NumberOrLatest() rpc.BlockNumberOrHash { return a.NumberOr(rpc.BlockNumberOrHashWithNumber(rpc.LatestBlockNumber)) } func (b *Block) Miner(ctx context.Context, args BlockNumberArgs) (*Account, error) { header, err := b.resolveHeader(ctx) if err != nil { return nil, err } return &Account{ backend: b.backend, address: header.Coinbase, blockNrOrHash: args.NumberOrLatest(), }, nil } func (b *Block) TransactionCount(ctx context.Context) (*int32, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } count := int32(len(block.Transactions())) return &count, err } func (b *Block) Transactions(ctx context.Context) (*[]*Transaction, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } ret := make([]*Transaction, 0, len(block.Transactions())) for i, tx := range block.Transactions() { ret = append(ret, &Transaction{ backend: b.backend, hash: tx.Hash(), tx: tx, block: b, index: uint64(i), }) } return &ret, nil } func (b *Block) TransactionAt(ctx context.Context, args struct{ Index int32 }) (*Transaction, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } txs := block.Transactions() if args.Index < 0 || int(args.Index) >= len(txs) { return nil, nil } tx := txs[args.Index] return &Transaction{ backend: b.backend, hash: tx.Hash(), tx: tx, block: b, index: uint64(args.Index), }, nil } func (b *Block) OmmerAt(ctx context.Context, args struct{ Index int32 }) (*Block, error) { block, err := b.resolve(ctx) if err != nil || block == nil { return nil, err } uncles := block.Uncles() if args.Index < 0 || int(args.Index) >= len(uncles) { return nil, nil } uncle := uncles[args.Index] blockNumberOrHash := rpc.BlockNumberOrHashWithHash(uncle.Hash(), false) return &Block{ backend: b.backend, numberOrHash: &blockNumberOrHash, header: uncle, }, nil } // BlockFilterCriteria encapsulates criteria passed to a `logs` accessor inside // a block. type BlockFilterCriteria struct { Addresses *[]common.Address // restricts matches to events created by specific contracts // The Topic list restricts matches to particular event topics. Each event has a list // of topics. Topics matches a prefix of that list. An empty element slice matches any // topic. Non-empty elements represent an alternative that matches any of the // contained topics. // // Examples: // {} or nil matches any topic list // {{A}} matches topic A in first position // {{}, {B}} matches any topic in first position, B in second position // {{A}, {B}} matches topic A in first position, B in second position // {{A, B}}, {C, D}} matches topic (A OR B) in first position, (C OR D) in second position Topics *[][]common.Hash } // runFilter accepts a filter and executes it, returning all its results as // `Log` objects. func runFilter(ctx context.Context, be ethapi.Backend, filter *filters.Filter) ([]*Log, error) { logs, err := filter.Logs(ctx) if err != nil || logs == nil { return nil, err } ret := make([]*Log, 0, len(logs)) for _, log := range logs { ret = append(ret, &Log{ backend: be, transaction: &Transaction{backend: be, hash: log.TxHash}, log: log, }) } return ret, nil } func (b *Block) Logs(ctx context.Context, args struct{ Filter BlockFilterCriteria }) ([]*Log, error) { var addresses []common.Address if args.Filter.Addresses != nil { addresses = *args.Filter.Addresses } var topics [][]common.Hash if args.Filter.Topics != nil { topics = *args.Filter.Topics } hash := b.hash if hash == (common.Hash{}) { header, err := b.resolveHeader(ctx) if err != nil { return nil, err } hash = header.Hash() } // Construct the range filter filter := filters.NewBlockFilter(b.backend, hash, addresses, topics) // Run the filter and return all the logs return runFilter(ctx, b.backend, filter) } func (b *Block) Account(ctx context.Context, args struct { Address common.Address }) (*Account, error) { if b.numberOrHash == nil { _, err := b.resolveHeader(ctx) if err != nil { return nil, err } } return &Account{ backend: b.backend, address: args.Address, blockNrOrHash: *b.numberOrHash, }, nil } // CallData encapsulates arguments to `call` or `estimateGas`. // All arguments are optional. type CallData struct { From *common.Address // The Ethereum address the call is from. To *common.Address // The Ethereum address the call is to. Gas *hexutil.Uint64 // The amount of gas provided for the call. GasPrice *hexutil.Big // The price of each unit of gas, in wei. MaxFeePerGas *hexutil.Big // The max price of each unit of gas, in wei (1559). MaxPriorityFeePerGas *hexutil.Big // The max tip of each unit of gas, in wei (1559). Value *hexutil.Big // The value sent along with the call. Data *hexutil.Bytes // Any data sent with the call. } // CallResult encapsulates the result of an invocation of the `call` accessor. type CallResult struct { data hexutil.Bytes // The return data from the call gasUsed Long // The amount of gas used status Long // The return status of the call - 0 for failure or 1 for success. } func (c *CallResult) Data() hexutil.Bytes { return c.data } func (c *CallResult) GasUsed() Long { return c.gasUsed } func (c *CallResult) Status() Long { return c.status } func (b *Block) Call(ctx context.Context, args struct { Data ethapi.TransactionArgs }) (*CallResult, error) { if b.numberOrHash == nil { _, err := b.resolve(ctx) if err != nil { return nil, err } } result, err := ethapi.DoCall(ctx, b.backend, args.Data, *b.numberOrHash, nil, 5*time.Second, b.backend.RPCGasCap()) if err != nil { return nil, err } status := Long(1) if result.Failed() { status = 0 } return &CallResult{ data: result.ReturnData, gasUsed: Long(result.UsedGas), status: status, }, nil } func (b *Block) EstimateGas(ctx context.Context, args struct { Data ethapi.TransactionArgs }) (Long, error) { if b.numberOrHash == nil { _, err := b.resolveHeader(ctx) if err != nil { return 0, err } } gas, err := ethapi.DoEstimateGas(ctx, b.backend, args.Data, *b.numberOrHash, b.backend.RPCGasCap()) return Long(gas), err } type Pending struct { backend ethapi.Backend } func (p *Pending) TransactionCount(ctx context.Context) (int32, error) { txs, err := p.backend.GetPoolTransactions() return int32(len(txs)), err } func (p *Pending) Transactions(ctx context.Context) (*[]*Transaction, error) { txs, err := p.backend.GetPoolTransactions() if err != nil { return nil, err } ret := make([]*Transaction, 0, len(txs)) for i, tx := range txs { ret = append(ret, &Transaction{ backend: p.backend, hash: tx.Hash(), tx: tx, index: uint64(i), }) } return &ret, nil } func (p *Pending) Account(ctx context.Context, args struct { Address common.Address }) *Account { pendingBlockNr := rpc.BlockNumberOrHashWithNumber(rpc.PendingBlockNumber) return &Account{ backend: p.backend, address: args.Address, blockNrOrHash: pendingBlockNr, } } func (p *Pending) Call(ctx context.Context, args struct { Data ethapi.TransactionArgs }) (*CallResult, error) { pendingBlockNr := rpc.BlockNumberOrHashWithNumber(rpc.PendingBlockNumber) result, err := ethapi.DoCall(ctx, p.backend, args.Data, pendingBlockNr, nil, 5*time.Second, p.backend.RPCGasCap()) if err != nil { return nil, err } status := Long(1) if result.Failed() { status = 0 } return &CallResult{ data: result.ReturnData, gasUsed: Long(result.UsedGas), status: status, }, nil } func (p *Pending) EstimateGas(ctx context.Context, args struct { Data ethapi.TransactionArgs }) (Long, error) { pendingBlockNr := rpc.BlockNumberOrHashWithNumber(rpc.PendingBlockNumber) gas, err := ethapi.DoEstimateGas(ctx, p.backend, args.Data, pendingBlockNr, p.backend.RPCGasCap()) return Long(gas), err } // Resolver is the top-level object in the GraphQL hierarchy. type Resolver struct { backend ethapi.Backend } func (r *Resolver) Block(ctx context.Context, args struct { Number *Long Hash *common.Hash }) (*Block, error) { var block *Block if args.Number != nil { if *args.Number < 0 { return nil, nil } number := rpc.BlockNumber(*args.Number) numberOrHash := rpc.BlockNumberOrHashWithNumber(number) block = &Block{ backend: r.backend, numberOrHash: &numberOrHash, } } else if args.Hash != nil { numberOrHash := rpc.BlockNumberOrHashWithHash(*args.Hash, false) block = &Block{ backend: r.backend, numberOrHash: &numberOrHash, } } else { numberOrHash := rpc.BlockNumberOrHashWithNumber(rpc.LatestBlockNumber) block = &Block{ backend: r.backend, numberOrHash: &numberOrHash, } } // Resolve the header, return nil if it doesn't exist. // Note we don't resolve block directly here since it will require an // additional network request for light client. h, err := block.resolveHeader(ctx) if err != nil { return nil, err } else if h == nil { return nil, nil } return block, nil } func (r *Resolver) Blocks(ctx context.Context, args struct { From *Long To *Long }) ([]*Block, error) { from := rpc.BlockNumber(*args.From) var to rpc.BlockNumber if args.To != nil { to = rpc.BlockNumber(*args.To) } else { to = rpc.BlockNumber(r.backend.CurrentBlock().Number().Int64()) } if to < from { return []*Block{}, nil } ret := make([]*Block, 0, to-from+1) for i := from; i <= to; i++ { numberOrHash := rpc.BlockNumberOrHashWithNumber(i) ret = append(ret, &Block{ backend: r.backend, numberOrHash: &numberOrHash, }) } return ret, nil } func (r *Resolver) Pending(ctx context.Context) *Pending { return &Pending{r.backend} } func (r *Resolver) Transaction(ctx context.Context, args struct{ Hash common.Hash }) (*Transaction, error) { tx := &Transaction{ backend: r.backend, hash: args.Hash, } // Resolve the transaction; if it doesn't exist, return nil. t, err := tx.resolve(ctx) if err != nil { return nil, err } else if t == nil { return nil, nil } return tx, nil } func (r *Resolver) SendRawTransaction(ctx context.Context, args struct{ Data hexutil.Bytes }) (common.Hash, error) { tx := new(types.Transaction) if err := tx.UnmarshalBinary(args.Data); err != nil { return common.Hash{}, err } hash, err := ethapi.SubmitTransaction(ctx, r.backend, tx) return hash, err } // FilterCriteria encapsulates the arguments to `logs` on the root resolver object. type FilterCriteria struct { FromBlock *hexutil.Uint64 // beginning of the queried range, nil means genesis block ToBlock *hexutil.Uint64 // end of the range, nil means latest block Addresses *[]common.Address // restricts matches to events created by specific contracts // The Topic list restricts matches to particular event topics. Each event has a list // of topics. Topics matches a prefix of that list. An empty element slice matches any // topic. Non-empty elements represent an alternative that matches any of the // contained topics. // // Examples: // {} or nil matches any topic list // {{A}} matches topic A in first position // {{}, {B}} matches any topic in first position, B in second position // {{A}, {B}} matches topic A in first position, B in second position // {{A, B}}, {C, D}} matches topic (A OR B) in first position, (C OR D) in second position Topics *[][]common.Hash } func (r *Resolver) Logs(ctx context.Context, args struct{ Filter FilterCriteria }) ([]*Log, error) { // Convert the RPC block numbers into internal representations begin := rpc.LatestBlockNumber.Int64() if args.Filter.FromBlock != nil { begin = int64(*args.Filter.FromBlock) } end := rpc.LatestBlockNumber.Int64() if args.Filter.ToBlock != nil { end = int64(*args.Filter.ToBlock) } var addresses []common.Address if args.Filter.Addresses != nil { addresses = *args.Filter.Addresses } var topics [][]common.Hash if args.Filter.Topics != nil { topics = *args.Filter.Topics } // Construct the range filter filter := filters.NewRangeFilter(filters.Backend(r.backend), begin, end, addresses, topics) return runFilter(ctx, r.backend, filter) } func (r *Resolver) GasPrice(ctx context.Context) (hexutil.Big, error) { tipcap, err := r.backend.SuggestGasTipCap(ctx) if err != nil { return hexutil.Big{}, err } if head := r.backend.CurrentHeader(); head.BaseFee != nil { tipcap.Add(tipcap, head.BaseFee) } return (hexutil.Big)(*tipcap), nil } func (r *Resolver) MaxPriorityFeePerGas(ctx context.Context) (hexutil.Big, error) { tipcap, err := r.backend.SuggestGasTipCap(ctx) if err != nil { return hexutil.Big{}, err } return (hexutil.Big)(*tipcap), nil } func (r *Resolver) ChainID(ctx context.Context) (hexutil.Big, error) { return hexutil.Big(*r.backend.ChainConfig().ChainID), nil } // SyncState represents the synchronisation status returned from the `syncing` accessor. type SyncState struct { progress ethereum.SyncProgress } func (s *SyncState) StartingBlock() hexutil.Uint64 { return hexutil.Uint64(s.progress.StartingBlock) } func (s *SyncState) CurrentBlock() hexutil.Uint64 { return hexutil.Uint64(s.progress.CurrentBlock) } func (s *SyncState) HighestBlock() hexutil.Uint64 { return hexutil.Uint64(s.progress.HighestBlock) } func (s *SyncState) PulledStates() *hexutil.Uint64 { ret := hexutil.Uint64(s.progress.PulledStates) return &ret } func (s *SyncState) KnownStates() *hexutil.Uint64 { ret := hexutil.Uint64(s.progress.KnownStates) return &ret } // Syncing returns false in case the node is currently not syncing with the network. It can be up to date or has not // yet received the latest block headers from its pears. In case it is synchronizing: // - startingBlock: block number this node started to synchronise from // - currentBlock: block number this node is currently importing // - highestBlock: block number of the highest block header this node has received from peers // - pulledStates: number of state entries processed until now // - knownStates: number of known state entries that still need to be pulled func (r *Resolver) Syncing() (*SyncState, error) { progress := r.backend.SyncProgress() // Return not syncing if the synchronisation already completed if progress.CurrentBlock >= progress.HighestBlock { return nil, nil } // Otherwise gather the block sync stats return &SyncState{progress}, nil }