// VulcanizeDB // Copyright © 2018 Vulcanize // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // This program 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 Affero General Public License for more details. // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package poller import ( "errors" "fmt" "math/big" "strconv" "github.com/ethereum/go-ethereum/accounts/abi" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/vulcanize/vulcanizedb/pkg/core" "github.com/vulcanize/vulcanizedb/pkg/datastore/postgres" "github.com/vulcanize/vulcanizedb/pkg/omni/shared/contract" "github.com/vulcanize/vulcanizedb/pkg/omni/shared/repository" "github.com/vulcanize/vulcanizedb/pkg/omni/shared/types" ) type Poller interface { PollContract(con contract.Contract) error PollContractAt(con contract.Contract, blockNumber int64) error FetchContractData(contractAbi, contractAddress, method string, methodArgs []interface{}, result interface{}, blockNumber int64) error } type poller struct { repository.MethodRepository bc core.BlockChain contract contract.Contract } func NewPoller(blockChain core.BlockChain, db *postgres.DB, mode types.Mode) *poller { return &poller{ MethodRepository: repository.NewMethodRepository(db, mode), bc: blockChain, } } func (p *poller) PollContract(con contract.Contract) error { for i := con.StartingBlock; i <= con.LastBlock; i++ { p.PollContractAt(con, i) } return nil } func (p *poller) PollContractAt(con contract.Contract, blockNumber int64) error { p.contract = con for _, m := range con.Methods { switch len(m.Args) { case 0: if err := p.pollNoArgAt(m, blockNumber); err != nil { return err } case 1: if err := p.pollSingleArgAt(m, blockNumber); err != nil { return err } case 2: if err := p.pollDoubleArgAt(m, blockNumber); err != nil { return err } default: return errors.New("poller error: too many arguments to handle") } } return nil } func (p *poller) pollNoArgAt(m types.Method, bn int64) error { result := types.Result{ Block: bn, Method: m, Inputs: nil, PgType: m.Return[0].PgType, } var out interface{} err := p.bc.FetchContractData(p.contract.Abi, p.contract.Address, m.Name, nil, &out, bn) if err != nil { return errors.New(fmt.Sprintf("poller error calling 0 argument method\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } strOut, err := stringify(out) if err != nil { return err } // Cache returned value if piping is turned on p.cache(out) result.Output = strOut // Persist result immediately err = p.PersistResults([]types.Result{result}, m, p.contract.Address, p.contract.Name) if err != nil { return errors.New(fmt.Sprintf("poller error persisting 0 argument method result\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } return nil } // Use token holder address to poll methods that take 1 address argument (e.g. balanceOf) func (p *poller) pollSingleArgAt(m types.Method, bn int64) error { result := types.Result{ Block: bn, Method: m, Inputs: make([]interface{}, 1), PgType: m.Return[0].PgType, } // Depending on the type of the arg choose // the correct argument set to iterate over var args map[interface{}]bool switch m.Args[0].Type.T { case abi.HashTy, abi.FixedBytesTy: args = p.contract.EmittedHashes case abi.AddressTy: args = p.contract.EmittedAddrs } if len(args) == 0 { // If we haven't collected any args by now we can't call the method return nil } results := make([]types.Result, 0, len(args)) for arg := range args { in := []interface{}{arg} strIn := []interface{}{contract.StringifyArg(arg)} var out interface{} err := p.bc.FetchContractData(p.contract.Abi, p.contract.Address, m.Name, in, &out, bn) if err != nil { return errors.New(fmt.Sprintf("poller error calling 1 argument method\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } strOut, err := stringify(out) if err != nil { return err } p.cache(out) // Write inputs and outputs to result and append result to growing set result.Inputs = strIn result.Output = strOut results = append(results, result) } // Persist result set as batch err := p.PersistResults(results, m, p.contract.Address, p.contract.Name) if err != nil { return errors.New(fmt.Sprintf("poller error persisting 1 argument method result\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } return nil } // Use token holder address to poll methods that take 2 address arguments (e.g. allowance) func (p *poller) pollDoubleArgAt(m types.Method, bn int64) error { result := types.Result{ Block: bn, Method: m, Inputs: make([]interface{}, 2), PgType: m.Return[0].PgType, } // Depending on the type of the args choose // the correct argument sets to iterate over var firstArgs map[interface{}]bool switch m.Args[0].Type.T { case abi.HashTy, abi.FixedBytesTy: firstArgs = p.contract.EmittedHashes case abi.AddressTy: firstArgs = p.contract.EmittedAddrs } if len(firstArgs) == 0 { return nil } var secondArgs map[interface{}]bool switch m.Args[1].Type.T { case abi.HashTy, abi.FixedBytesTy: secondArgs = p.contract.EmittedHashes case abi.AddressTy: secondArgs = p.contract.EmittedAddrs } if len(secondArgs) == 0 { return nil } results := make([]types.Result, 0, len(firstArgs)*len(secondArgs)) for arg1 := range firstArgs { for arg2 := range secondArgs { in := []interface{}{arg1, arg2} strIn := []interface{}{contract.StringifyArg(arg1), contract.StringifyArg(arg2)} var out interface{} err := p.bc.FetchContractData(p.contract.Abi, p.contract.Address, m.Name, in, &out, bn) if err != nil { return errors.New(fmt.Sprintf("poller error calling 2 argument method\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } strOut, err := stringify(out) if err != nil { return err } p.cache(out) result.Output = strOut result.Inputs = strIn results = append(results, result) } } err := p.PersistResults(results, m, p.contract.Address, p.contract.Name) if err != nil { return errors.New(fmt.Sprintf("poller error persisting 2 argument method result\r\nblock: %d, method: %s, contract: %s\r\nerr: %v", bn, m.Name, p.contract.Address, err)) } return nil } // This is just a wrapper around the poller blockchain's FetchContractData method func (p *poller) FetchContractData(contractAbi, contractAddress, method string, methodArgs []interface{}, result interface{}, blockNumber int64) error { return p.bc.FetchContractData(contractAbi, contractAddress, method, methodArgs, result, blockNumber) } // This is used to cache an method return value if method piping is turned on func (p *poller) cache(out interface{}) { // Cache returned value if piping is turned on if p.contract.Piping { switch out.(type) { case common.Hash: if p.contract.EmittedHashes != nil { p.contract.AddEmittedHash(out.(common.Hash)) } case []byte: if p.contract.EmittedHashes != nil && len(out.([]byte)) == 32 { p.contract.AddEmittedHash(common.BytesToHash(out.([]byte))) } case common.Address: if p.contract.EmittedAddrs != nil { p.contract.AddEmittedAddr(out.(common.Address)) } default: } } } func stringify(input interface{}) (string, error) { switch input.(type) { case *big.Int: b := input.(*big.Int) return b.String(), nil case common.Address: a := input.(common.Address) return a.String(), nil case common.Hash: h := input.(common.Hash) return h.String(), nil case string: return input.(string), nil case []byte: b := hexutil.Encode(input.([]byte)) return b, nil case byte: b := input.(byte) return string(b), nil case bool: return strconv.FormatBool(input.(bool)), nil default: return "", errors.New("error: unhandled return type") } }