Exemplo n.º 1
0
// This is called while accepting the block (from the chain's thread)
func TxNotify(idx *btc.TxPrevOut, valpk *btc.TxOut) {
	var update_wallet bool

	BalanceMutex.Lock()

	if valpk != nil {
		// Extract hash160 from pkscript
		adr := btc.NewAddrFromPkScript(valpk.Pk_script, common.Testnet)
		if adr != nil {
			if rec, ok := CachedAddrs[adr.Hash160]; ok {
				rec.Value += valpk.Value
				utxo := new(chain.OneUnspentTx)
				utxo.TxPrevOut = *idx
				utxo.Value = valpk.Value
				utxo.MinedAt = valpk.BlockHeight
				utxo.BtcAddr = CacheUnspent[rec.CacheIndex].BtcAddr
				CacheUnspent[rec.CacheIndex].AllUnspentTx = append(CacheUnspent[rec.CacheIndex].AllUnspentTx, utxo)
				CacheUnspentIdx[idx.UIdx()] = &OneCachedUnspentIdx{Index: rec.CacheIndex, Record: utxo}
				if rec.InWallet {
					update_wallet = true
				}
			}
		}
	} else {
		ii := idx.UIdx()
		if ab, present := CacheUnspentIdx[ii]; present {
			adrec := CacheUnspent[ab.Index]
			//println("removing", idx.String())
			rec := CachedAddrs[adrec.BtcAddr.Hash160]
			if rec == nil {
				panic("rec not found for " + adrec.BtcAddr.String())
			}
			rec.Value -= ab.Record.Value
			if rec.InWallet {
				update_wallet = true
			}
			for j := range adrec.AllUnspentTx {
				if adrec.AllUnspentTx[j] == ab.Record {
					//println("found it at index", j)
					adrec.AllUnspentTx = append(adrec.AllUnspentTx[:j], adrec.AllUnspentTx[j+1:]...)
					break
				}
			}
			delete(CacheUnspentIdx, ii)
		}
	}

	if update_wallet {
		sync_wallet()
	}
	BalanceMutex.Unlock()
}
Exemplo n.º 2
0
// This function is only used when loading UTXO database
func NewUTXO(db *qdb.DB, k qdb.KeyType, rec *chain.OneWalkRecord) uint32 {
	if rec.IsP2KH() || rec.IsP2SH() {
		if adr := btc.NewAddrFromPkScript(rec.Script(), common.Testnet); adr != nil {
			if crec, ok := CachedAddrs[adr.Hash160]; ok {
				value := rec.Value()
				idx := rec.TxPrevOut()
				crec.Value += value
				utxo := new(chain.OneUnspentTx)
				utxo.TxPrevOut = *idx
				utxo.Value = value
				utxo.MinedAt = rec.BlockHeight()
				utxo.BtcAddr = CacheUnspent[crec.CacheIndex].BtcAddr
				CacheUnspent[crec.CacheIndex].AllUnspentTx = append(CacheUnspent[crec.CacheIndex].AllUnspentTx, utxo)
				CacheUnspentIdx[idx.UIdx()] = &OneCachedUnspentIdx{Index: crec.CacheIndex, Record: utxo}
			}
		}
	} else if len(StealthAdCache) > 0 && rec.IsStealthIdx() {
		StealthNotify(db, k, rec)
	}

	return 0
}
Exemplo n.º 3
0
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())
}
Exemplo n.º 4
0
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))
}
Exemplo n.º 5
0
// 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
}
Exemplo n.º 6
0
func update_balance() {
	var tofetch_stealh []*btc.BtcAddr
	var tofetch_secrets [][]byte
	tofetch_regular := make(map[uint64]*btc.BtcAddr)

	MyBalance = nil

	for _, v := range CachedAddrs {
		v.InWallet = false
	}

	FetchStealthKeys()

	for i := range MyWallet.Addrs {
		if rec, pres := CachedAddrs[MyWallet.Addrs[i].Hash160]; pres {
			rec.InWallet = true
			cu := CacheUnspent[rec.CacheIndex]
			cu.BtcAddr = MyWallet.Addrs[i]
			for j := range cu.AllUnspentTx {
				// update BtcAddr in each of AllUnspentTx to reflect the latest label
				cu.AllUnspentTx[j].BtcAddr = MyWallet.Addrs[i]
			}
			MyBalance = append(MyBalance, CacheUnspent[rec.CacheIndex].AllUnspentTx...)
		} else {
			add_it := true
			// Add a new address to the balance cache
			if MyWallet.Addrs[i].StealthAddr == nil {
				tofetch_regular[MyWallet.Addrs[i].AIdx()] = MyWallet.Addrs[i]
			} else {
				sa := MyWallet.Addrs[i].StealthAddr
				if ssecret := FindStealthSecret(sa); ssecret != nil {
					tofetch_stealh = append(tofetch_stealh, MyWallet.Addrs[i])
					tofetch_secrets = append(tofetch_secrets, ssecret)
					var rec stealthCacheRec
					rec.addr = MyWallet.Addrs[i]
					copy(rec.d[:], ssecret)
					copy(rec.h160[:], MyWallet.Addrs[i].Hash160[:])
					StealthAdCache = append(StealthAdCache, rec)
				} else {
					if MyWallet.Addrs[i].Extra.Wallet != AddrBookFileName {
						fmt.Println("No matching secret for", sa.String())
					}
					add_it = false
				}
			}
			if add_it {
				CachedAddrs[MyWallet.Addrs[i].Hash160] = &OneCachedAddrBalance{InWallet: true, CacheIndex: uint(len(CacheUnspent))}
				CacheUnspent = append(CacheUnspent, &OneCachedUnspent{BtcAddr: MyWallet.Addrs[i]})
			}
		}
	}

	if len(tofetch_regular) > 0 || len(tofetch_stealh) > 0 {
		fmt.Println("Fetching a new blance for", len(tofetch_regular), "regular and", len(tofetch_stealh), "stealth addresses")
		// There are new addresses which we have not monitored yet
		var new_addrs chain.AllUnspentTx
		var c, spen_exp []byte
		var out *chain.QdbTxOut
		var h160 [20]byte

		common.BlockChain.Unspent.BrowseUTXO(true, func(tx *chain.QdbRec) {
			for idx, rec := range tx.Outs {
				if rec == nil {
					continue
				}
				if rec.IsP2KH() {
					if ad, ok := tofetch_regular[binary.LittleEndian.Uint64(rec.PKScr[3:3+8])]; ok {
						new_addrs = append(new_addrs, tx.ToUnspent(uint32(idx), ad))
					}
				} else if rec.IsP2SH() {
					if ad, ok := tofetch_regular[binary.LittleEndian.Uint64(rec.PKScr[2:2+8])]; ok {
						new_addrs = append(new_addrs, tx.ToUnspent(uint32(idx), ad))
					}
				} else if idx < len(tx.Outs)-1 {
					// check for stealth
					if out = tx.Outs[idx+1]; out == nil {
						continue
					}
					if !rec.IsStealthIdx() || !out.IsP2KH() {
						continue
					}

				stealth_check:
					for _, ad := range tofetch_stealh {
						if sa := ad.StealthAddr; sa.CheckNonce(rec.PKScr[3:40]) {
							for _, d := range tofetch_secrets {
								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(idx + 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
									new_addrs = append(new_addrs, uo)
									break stealth_check
								}
							}
						}
					}
				}
			}
		})

		for i := range new_addrs {
			poi := new_addrs[i].TxPrevOut.UIdx()
			if _, ok := CacheUnspentIdx[poi]; ok {
				fmt.Println(new_addrs[i].TxPrevOut.String(), "- already on the list")
				continue
			}

			var rec *OneCachedAddrBalance
			if new_addrs[i].BtcAddr.StealthAddr != nil {
				var h160 [20]byte
				copy(h160[:], new_addrs[i].BtcAddr.StealthAddr.Hash160())
				rec = CachedAddrs[h160]
			} else {
				rec = CachedAddrs[new_addrs[i].BtcAddr.Hash160]
			}
			if rec == nil {
				println("Hash160 not in CachedAddrs for", new_addrs[i].BtcAddr.String())
				continue
			}
			rec.Value += new_addrs[i].Value
			CacheUnspent[rec.CacheIndex].AllUnspentTx = append(CacheUnspent[rec.CacheIndex].AllUnspentTx, new_addrs[i])
			CacheUnspentIdx[new_addrs[i].TxPrevOut.UIdx()] = &OneCachedUnspentIdx{Index: rec.CacheIndex, Record: new_addrs[i]}
		}
		MyBalance = append(MyBalance, new_addrs...)
	}

	sort_and_sum()
}