package uspv import ( "bytes" "fmt" "log" "github.com/btcsuite/btcd/wire" "github.com/btcsuite/btcutil" "github.com/btcsuite/btcutil/bloom" ) type TxStore struct { KnownTxids []*wire.ShaHash Utxos []Utxo // stacks on stacks Sum int64 // racks on racks Adrs []MyAdr // endeavouring to acquire capital } type Utxo struct { // cash money. // combo of outpoint and txout which has all the info needed to spend Op wire.OutPoint Txo wire.TxOut AtHeight uint32 // block height where this tx was confirmed, 0 for unconf KeyIdx uint32 // index for private key needed to sign / spend } type MyAdr struct { // an address I have the private key for btcutil.Address KeyIdx uint32 // index for private key needed to sign / spend } // add addresses into the TxStore func (t *TxStore) AddAdr(a btcutil.Address, kidx uint32) { var ma MyAdr ma.Address = a ma.KeyIdx = kidx t.Adrs = append(t.Adrs, ma) return } // add txid of interest func (t *TxStore) AddTxid(txid *wire.ShaHash) error { if txid == nil { return fmt.Errorf("tried to add nil txid") } t.KnownTxids = append(t.KnownTxids, txid) return nil } // ... or I'm gonna fade away func (t *TxStore) GimmeFilter() (*bloom.Filter, error) { if len(t.Adrs) == 0 { return nil, fmt.Errorf("no addresses to filter for") } f := bloom.NewFilter(uint32(len(t.Adrs)), 0, 0.001, wire.BloomUpdateNone) for _, a := range t.Adrs { f.Add(a.ScriptAddress()) } return f, nil } // Ingest a tx into wallet, dealing with both gains and losses func (t *TxStore) IngestTx(tx *wire.MsgTx) error { var match bool inTxid := tx.TxSha() for _, ktxid := range t.KnownTxids { if inTxid.IsEqual(ktxid) { match = true break // found tx match, } } if !match { return fmt.Errorf("we don't care about tx %s", inTxid.String()) } err := t.AbsorbTx(tx) if err != nil { return err } err = t.ExpellTx(tx) if err != nil { return err } // fmt.Printf("ingested tx %s total amt %d\n", inTxid.String(), t.Sum) return nil } // Absorb money into wallet from a tx func (t *TxStore) AbsorbTx(tx *wire.MsgTx) error { if tx == nil { return fmt.Errorf("Tried to add nil tx") } var hits uint32 var acq int64 // check if any of the tx's outputs match my adrs for i, out := range tx.TxOut { // in each output of tx for _, a := range t.Adrs { // compare to each adr we have // more correct would be to check for full script // contains could have false positive? (p2sh/p2pkh same hash ..?) if bytes.Contains(out.PkScript, a.ScriptAddress()) { // hit hits++ acq += out.Value var newu Utxo newu.KeyIdx = a.KeyIdx newu.Txo = *out var newop wire.OutPoint newop.Hash = tx.TxSha() newop.Index = uint32(i) newu.Op = newop t.Utxos = append(t.Utxos, newu) break } } } log.Printf("%d hits, acquired %d", hits, acq) t.Sum += acq return nil } // Expell money from wallet due to a tx func (t *TxStore) ExpellTx(tx *wire.MsgTx) error { if tx == nil { return fmt.Errorf("Tried to add nil tx") } var hits uint32 var loss int64 for _, in := range tx.TxIn { for i, myutxo := range t.Utxos { if myutxo.Op == in.PreviousOutPoint { hits++ loss += myutxo.Txo.Value // delete from my utxo set t.Utxos = append(t.Utxos[:i], t.Utxos[i+1:]...) } } } log.Printf("%d hits, lost %d", hits, loss) t.Sum -= loss return nil }