func list_unspent(addr string) { fmt.Println("Checking unspent coins for addr", addr) defer func() { // in case if ad.OutScript() would panic if r := recover(); r != nil { err := r.(error) fmt.Println("main panic recovered:", err.Error()) } }() var ad *btc.BtcAddr var e error ad, e = btc.NewAddrFromString(addr) if e != nil { println(e.Error()) return } sa := ad.StealthAddr var walk chain.FunctionWalkUnspent var unsp chain.AllUnspentTx if sa == nil { exp_scr := ad.OutScript() walk = func(tx *chain.QdbRec) { for idx, rec := range tx.Outs { if rec != nil && bytes.Equal(rec.PKScr, exp_scr) { unsp = append(unsp, tx.ToUnspent(uint32(idx), ad)) } } } } else { var c, spen_exp []byte var rec, out *chain.QdbTxOut var h160 [20]byte wallet.FetchStealthKeys() d := wallet.FindStealthSecret(sa) if d == nil { fmt.Println("No matching secret found in your wallet/stealth folder") return } walk = func(tx *chain.QdbRec) { for i := 0; i < len(tx.Outs)-1; i++ { if rec = tx.Outs[i]; rec == nil { continue } if out = tx.Outs[i+1]; out == nil { continue } if !rec.IsStealthIdx() || !out.IsP2KH() || !ad.StealthAddr.CheckNonce(rec.PKScr[3:40]) { continue } c = btc.StealthDH(rec.PKScr[7:40], d) spen_exp = btc.DeriveNextPublic(sa.SpendKeys[0][:], c) btc.RimpHash(spen_exp, h160[:]) if bytes.Equal(out.PKScr[3:23], h160[:]) { uo := new(chain.OneUnspentTx) uo.TxPrevOut.Hash = tx.TxID uo.TxPrevOut.Vout = uint32(i + 1) uo.Value = out.Value uo.MinedAt = tx.InBlock uo.BtcAddr = btc.NewAddrFromHash160(h160[:], btc.AddrVerPubkey(common.CFG.Testnet)) uo.FixDestString() uo.BtcAddr.StealthAddr = sa uo.BtcAddr.Extra = ad.Extra uo.StealthC = c unsp = append(unsp, uo) } } } } common.BlockChain.Unspent.BrowseUTXO(false, walk) sort.Sort(unsp) var sum uint64 for i := range unsp { if len(unsp) < 200 { fmt.Println(unsp[i].String()) } sum += unsp[i].Value } fmt.Printf("Total %.8f unspent BTC in %d outputs at address %s\n", float64(sum)/1e8, len(unsp), ad.String()) }
// This function is only used when loading UTXO database func newUTXO(tx *chain.QdbRec) (update_wallet bool) { var c, spen_exp []byte var rec *chain.QdbTxOut var h160 [20]byte check_next_address: for idx, out := range tx.Outs { if out == nil { continue } // check for stealth if len(StealthAdCache) > 0 && idx > 0 { if rec = tx.Outs[idx-1]; rec == nil { goto not_stealth } if !rec.IsStealthIdx() || !out.IsP2KH() { goto not_stealth } for _, ad := range StealthAdCache { if sa := ad.addr.StealthAddr; sa.CheckNonce(rec.PKScr[3:40]) { c = btc.StealthDH(rec.PKScr[7:40], ad.d[:]) spen_exp = btc.DeriveNextPublic(sa.SpendKeys[0][:], c) btc.RimpHash(spen_exp, h160[:]) if bytes.Equal(out.PKScr[3:23], h160[:]) { uo := new(chain.OneUnspentTx) uo.TxPrevOut.Hash = tx.TxID uo.TxPrevOut.Vout = uint32(idx) uo.Value = out.Value uo.MinedAt = tx.InBlock uo.BtcAddr = btc.NewAddrFromHash160(h160[:], btc.AddrVerPubkey(common.CFG.Testnet)) uo.FixDestString() uo.BtcAddr.StealthAddr = sa uo.BtcAddr.Extra = ad.addr.Extra uo.StealthC = c carec := CachedAddrs[ad.h160] carec.Value += uo.Value CacheUnspent[carec.CacheIndex].AllUnspentTx = append(CacheUnspent[carec.CacheIndex].AllUnspentTx, uo) CacheUnspentIdx[uo.TxPrevOut.UIdx()] = &OneCachedUnspentIdx{Index: carec.CacheIndex, Record: uo} if carec.InWallet { update_wallet = true } continue check_next_address // it it was setalth, cannot be enythign else } } } } not_stealth: // Extract hash160 from pkscript adr := btc.NewAddrFromPkScript(out.PKScr, common.Testnet) if adr != nil { if carec, ok := CachedAddrs[adr.Hash160]; ok { carec.Value += out.Value utxo := new(chain.OneUnspentTx) utxo.TxPrevOut.Hash = tx.TxID utxo.TxPrevOut.Vout = uint32(idx) utxo.Value = out.Value utxo.MinedAt = tx.InBlock utxo.BtcAddr = CacheUnspent[carec.CacheIndex].BtcAddr CacheUnspent[carec.CacheIndex].AllUnspentTx = append(CacheUnspent[carec.CacheIndex].AllUnspentTx, utxo) CacheUnspentIdx[utxo.TxPrevOut.UIdx()] = &OneCachedUnspentIdx{Index: carec.CacheIndex, Record: utxo} if carec.InWallet { update_wallet = true } } } } return }
func do_scan_stealth(p string, ignore_prefix bool) { ad, _ := btc.NewAddrFromString(p) if ad == nil { fmt.Println("Specify base58 encoded bitcoin address") return } sa := ad.StealthAddr if sa == nil { fmt.Println("Specify base58 encoded stealth address") return } if sa.Version != btc.StealthAddressVersion(common.Testnet) { fmt.Println("Incorrect version of the stealth address") return } if len(sa.SpendKeys) != 1 { fmt.Println("Currently only single spend keys are supported. This address has", len(sa.SpendKeys)) return } //fmt.Println("scankey", hex.EncodeToString(sa.ScanKey[:])) if ignore_prefix { sa.Prefix = []byte{0} fmt.Println("Ignoring Prefix inside the address") } else if len(sa.Prefix) == 0 { fmt.Println("Prefix not present in the address") } else { fmt.Println("Prefix", sa.Prefix[0], hex.EncodeToString(sa.Prefix[1:])) } wallet.FetchStealthKeys() d := wallet.FindStealthSecret(sa) if d == nil { fmt.Println("No matching secret found in your wallet/stealth folder") return } var unsp chain.AllUnspentTx var c, spen_exp []byte var rec, out *chain.QdbTxOut var h160 [20]byte common.BlockChain.Unspent.BrowseUTXO(true, func(tx *chain.QdbRec) { for i := 0; i < len(tx.Outs)-1; i++ { if rec = tx.Outs[i]; rec == nil { continue } if out = tx.Outs[i+1]; out == nil { continue } if !rec.IsStealthIdx() || !out.IsP2KH() || !ad.StealthAddr.CheckNonce(rec.PKScr[3:40]) { continue } c = btc.StealthDH(rec.PKScr[7:40], d) spen_exp = btc.DeriveNextPublic(sa.SpendKeys[0][:], c) btc.RimpHash(spen_exp, h160[:]) if bytes.Equal(out.PKScr[3:23], h160[:]) { uo := new(chain.OneUnspentTx) uo.TxPrevOut.Hash = tx.TxID uo.TxPrevOut.Vout = uint32(i + 1) uo.Value = out.Value uo.MinedAt = tx.InBlock uo.BtcAddr = btc.NewAddrFromHash160(h160[:], btc.AddrVerPubkey(common.CFG.Testnet)) uo.FixDestString() uo.BtcAddr.StealthAddr = sa uo.BtcAddr.Extra = ad.Extra uo.StealthC = c unsp = append(unsp, uo) } } }) sort.Sort(unsp) os.RemoveAll("balance") os.MkdirAll("balance/", 0770) utxt, _ := os.Create("balance/unspent.txt") fmt.Print(wallet.DumpBalance(unsp, utxt, true, false)) }