/* * Copyright (c) 2015-2016 The btcsuite developers * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ package votingpool import ( "bytes" "fmt" "sort" "github.com/btcsuite/btcd/chaincfg" "github.com/btcsuite/btcd/txscript" "github.com/btcsuite/btcutil" "github.com/btcsuite/btcwallet/walletdb" "github.com/btcsuite/btcwallet/wtxmgr" ) const eligibleInputMinConfirmations = 100 // credit is an abstraction over wtxmgr.Credit used in the construction of // voting pool withdrawal transactions. type credit struct { wtxmgr.Credit addr WithdrawalAddress } func newCredit(c wtxmgr.Credit, addr WithdrawalAddress) credit { return credit{Credit: c, addr: addr} } func (c *credit) String() string { return fmt.Sprintf("credit of %v locked to %v", c.Amount, c.addr) } // byAddress defines the methods needed to satisify sort.Interface to sort a // slice of credits by their address. type byAddress []credit func (c byAddress) Len() int { return len(c) } func (c byAddress) Swap(i, j int) { c[i], c[j] = c[j], c[i] } // Less returns true if the element at positions i is smaller than the // element at position j. The 'smaller-than' relation is defined to be // the lexicographic ordering defined on the tuple (SeriesID, Index, // Branch, TxSha, OutputIndex). func (c byAddress) Less(i, j int) bool { iAddr := c[i].addr jAddr := c[j].addr if iAddr.seriesID < jAddr.seriesID { return true } if iAddr.seriesID > jAddr.seriesID { return false } // The seriesID are equal, so compare index. if iAddr.index < jAddr.index { return true } if iAddr.index > jAddr.index { return false } // The seriesID and index are equal, so compare branch. if iAddr.branch < jAddr.branch { return true } if iAddr.branch > jAddr.branch { return false } // The seriesID, index, and branch are equal, so compare hash. txidComparison := bytes.Compare(c[i].OutPoint.Hash[:], c[j].OutPoint.Hash[:]) if txidComparison < 0 { return true } if txidComparison > 0 { return false } // The seriesID, index, branch, and hash are equal, so compare output // index. return c[i].OutPoint.Index < c[j].OutPoint.Index } // getEligibleInputs returns eligible inputs with addresses between startAddress // and the last used address of lastSeriesID. They're reverse ordered based on // their address. func (p *Pool) getEligibleInputs(ns, addrmgrNs walletdb.ReadBucket, store *wtxmgr.Store, txmgrNs walletdb.ReadBucket, startAddress WithdrawalAddress, lastSeriesID uint32, dustThreshold btcutil.Amount, chainHeight int32, minConf int) ([]credit, error) { if p.Series(lastSeriesID) == nil { str := fmt.Sprintf("lastSeriesID (%d) does not exist", lastSeriesID) return nil, newError(ErrSeriesNotExists, str, nil) } unspents, err := store.UnspentOutputs(txmgrNs) if err != nil { return nil, newError(ErrInputSelection, "failed to get unspent outputs", err) } addrMap, err := groupCreditsByAddr(unspents, p.manager.ChainParams()) if err != nil { return nil, err } var inputs []credit address := startAddress for { log.Debugf("Looking for eligible inputs at address %v", address.addrIdentifier()) if candidates, ok := addrMap[address.addr.EncodeAddress()]; ok { var eligibles []credit for _, c := range candidates { candidate := newCredit(c, address) if p.isCreditEligible(candidate, minConf, chainHeight, dustThreshold) { eligibles = append(eligibles, candidate) } } inputs = append(inputs, eligibles...) } nAddr, err := nextAddr(p, ns, addrmgrNs, address.seriesID, address.branch, address.index, lastSeriesID+1) if err != nil { return nil, newError(ErrInputSelection, "failed to get next withdrawal address", err) } else if nAddr == nil { log.Debugf("getEligibleInputs: reached last addr, stopping") break } address = *nAddr } sort.Sort(sort.Reverse(byAddress(inputs))) return inputs, nil } // nextAddr returns the next WithdrawalAddress according to the input selection // rules: http://opentransactions.org/wiki/index.php/Input_Selection_Algorithm_(voting_pools) // It returns nil if the new address' seriesID is >= stopSeriesID. func nextAddr(p *Pool, ns, addrmgrNs walletdb.ReadBucket, seriesID uint32, branch Branch, index Index, stopSeriesID uint32) ( *WithdrawalAddress, error) { series := p.Series(seriesID) if series == nil { return nil, newError(ErrSeriesNotExists, fmt.Sprintf("unknown seriesID: %d", seriesID), nil) } branch++ if int(branch) > len(series.publicKeys) { highestIdx, err := p.highestUsedSeriesIndex(ns, seriesID) if err != nil { return nil, err } if index > highestIdx { seriesID++ log.Debugf("nextAddr(): reached last branch (%d) and highest used index (%d), "+ "moving on to next series (%d)", branch, index, seriesID) index = 0 } else { index++ } branch = 0 } if seriesID >= stopSeriesID { return nil, nil } addr, err := p.WithdrawalAddress(ns, addrmgrNs, seriesID, branch, index) if err != nil && err.(Error).ErrorCode == ErrWithdrawFromUnusedAddr { // The used indices will vary between branches so sometimes we'll try to // get a WithdrawalAddress that hasn't been used before, and in such // cases we just need to move on to the next one. log.Debugf("nextAddr(): skipping addr (series #%d, branch #%d, index #%d) as it hasn't "+ "been used before", seriesID, branch, index) return nextAddr(p, ns, addrmgrNs, seriesID, branch, index, stopSeriesID) } return addr, err } // highestUsedSeriesIndex returns the highest index among all of this Pool's // used addresses for the given seriesID. It returns 0 if there are no used // addresses with the given seriesID. func (p *Pool) highestUsedSeriesIndex(ns walletdb.ReadBucket, seriesID uint32) (Index, error) { maxIdx := Index(0) series := p.Series(seriesID) if series == nil { return maxIdx, newError(ErrSeriesNotExists, fmt.Sprintf("unknown seriesID: %d", seriesID), nil) } for i := range series.publicKeys { idx, err := p.highestUsedIndexFor(ns, seriesID, Branch(i)) if err != nil { return Index(0), err } if idx > maxIdx { maxIdx = idx } } return maxIdx, nil } // groupCreditsByAddr converts a slice of credits to a map from the string // representation of an encoded address to the unspent outputs associated with // that address. func groupCreditsByAddr(credits []wtxmgr.Credit, chainParams *chaincfg.Params) ( map[string][]wtxmgr.Credit, error) { addrMap := make(map[string][]wtxmgr.Credit) for _, c := range credits { _, addrs, _, err := txscript.ExtractPkScriptAddrs(c.PkScript, chainParams) if err != nil { return nil, newError(ErrInputSelection, "failed to obtain input address", err) } // As our credits are all P2SH we should never have more than one // address per credit, so let's error out if that assumption is // violated. if len(addrs) != 1 { return nil, newError(ErrInputSelection, "input doesn't have exactly one address", nil) } encAddr := addrs[0].EncodeAddress() if v, ok := addrMap[encAddr]; ok { addrMap[encAddr] = append(v, c) } else { addrMap[encAddr] = []wtxmgr.Credit{c} } } return addrMap, nil } // isCreditEligible tests a given credit for eligibilty with respect // to number of confirmations, the dust threshold and that it is not // the charter output. func (p *Pool) isCreditEligible(c credit, minConf int, chainHeight int32, dustThreshold btcutil.Amount) bool { if c.Amount < dustThreshold { return false } if confirms(c.BlockMeta.Block.Height, chainHeight) < int32(minConf) { return false } if p.isCharterOutput(c) { return false } return true } // isCharterOutput - TODO: In order to determine this, we need the txid // and the output index of the current charter output, which we don't have yet. func (p *Pool) isCharterOutput(c credit) bool { return false } // confirms returns the number of confirmations for a transaction in a block at // height txHeight (or -1 for an unconfirmed tx) given the chain height // curHeight. func confirms(txHeight, curHeight int32) int32 { switch { case txHeight == -1, txHeight > curHeight: return 0 default: return curHeight - txHeight + 1 } }