Esempio n. 1
0
// load the content of the "balance/" folder
func load_balance() {
	var unknownInputs int
	f, e := os.Open("balance/unspent.txt")
	if e != nil {
		println(e.Error())
		os.Exit(1)
	}
	rd := bufio.NewReader(f)
	for {
		l, _, e := rd.ReadLine()
		if len(l) == 0 && e != nil {
			break
		}
		if l[64] == '-' {
			txid := btc.NewUint256FromString(string(l[:64]))
			rst := strings.SplitN(string(l[65:]), " ", 2)
			vout, _ := strconv.ParseUint(rst[0], 10, 32)
			uns := new(btc.TxPrevOut)
			copy(uns.Hash[:], txid.Hash[:])
			uns.Vout = uint32(vout)
			lab := ""
			if len(rst) > 1 {
				lab = rst[1]
			}

			if _, ok := loadedTxs[txid.Hash]; !ok {
				tf, _ := os.Open("balance/" + txid.String() + ".tx")
				if tf != nil {
					siz, _ := tf.Seek(0, os.SEEK_END)
					tf.Seek(0, os.SEEK_SET)
					buf := make([]byte, siz)
					tf.Read(buf)
					tf.Close()
					th := btc.Sha2Sum(buf)
					if bytes.Equal(th[:], txid.Hash[:]) {
						tx, _ := btc.NewTx(buf)
						if tx != nil {
							loadedTxs[txid.Hash] = tx
						} else {
							println("transaction is corrupt:", txid.String())
						}
					} else {
						println("transaction file is corrupt:", txid.String())
						os.Exit(1)
					}
				} else {
					println("transaction file not found:", txid.String())
					os.Exit(1)
				}
			}

			uo := UO(uns)
			fnd := false
			for j := range publ_addrs {
				if publ_addrs[j].Owns(uo.Pk_script) {
					unspentOuts = append(unspentOuts, uns)
					unspentOutsLabel = append(unspentOutsLabel, lab)
					totBtc += UO(uns).Value
					fnd = true
					break
				}
			}

			if !fnd {
				unknownInputs++
				if *verbose {
					fmt.Println(uns.String(), "does not belogn to your wallet - ignore it")
				}
			}

		}
	}
	f.Close()
	fmt.Printf("You have %.8f BTC in %d unspent outputs\n", float64(totBtc)/1e8, len(unspentOuts))
	if unknownInputs > 0 {
		fmt.Printf("WARNING: Some inputs (%d) cannot be spent (-v to print them)\n", unknownInputs)
	}
}
Esempio n. 2
0
// load the content of the "balance/" folder
func load_balance(showbalance bool) {
	var unknownInputs, multisigInputs int
	f, e := os.Open("balance/unspent.txt")
	if e != nil {
		println(e.Error())
		return
	}
	rd := bufio.NewReader(f)
	for {
		l, _, e := rd.ReadLine()
		if len(l) == 0 && e != nil {
			break
		}
		if l[64] == '-' {
			txid := btc.NewUint256FromString(string(l[:64]))
			rst := strings.SplitN(string(l[65:]), " ", 2)
			vout, _ := strconv.ParseUint(rst[0], 10, 32)
			uns := new(btc.TxPrevOut)
			copy(uns.Hash[:], txid.Hash[:])
			uns.Vout = uint32(vout)
			lab := ""
			if len(rst) > 1 {
				lab = rst[1]
			}

			if _, ok := loadedTxs[txid.Hash]; !ok {
				tf, _ := os.Open("balance/" + txid.String() + ".tx")
				if tf != nil {
					siz, _ := tf.Seek(0, os.SEEK_END)
					tf.Seek(0, os.SEEK_SET)
					buf := make([]byte, siz)
					tf.Read(buf)
					tf.Close()
					th := btc.Sha2Sum(buf)
					if bytes.Equal(th[:], txid.Hash[:]) {
						tx, _ := btc.NewTx(buf)
						if tx != nil {
							loadedTxs[txid.Hash] = tx
						} else {
							println("transaction is corrupt:", txid.String())
						}
					} else {
						println("transaction file is corrupt:", txid.String())
						os.Exit(1)
					}
				} else {
					println("transaction file not found:", txid.String())
					os.Exit(1)
				}
			}

			unspentOuts = append(unspentOuts, uns)
			unspentOutsLabel = append(unspentOutsLabel, lab)

			// Sum up all the balance and check if we have private key for this input
			uo := UO(uns)
			totBtc += UO(uns).Value

			if !btc.IsP2SH(uo.Pk_script) {
				fnd := false
				for j := range publ_addrs {
					if publ_addrs[j].Owns(uo.Pk_script) {
						fnd = true
						break
					}
				}

				if showbalance && !fnd {
					unknownInputs++
					if *verbose {
						ss := uns.String()
						ss = ss[:8] + "..." + ss[len(ss)-12:]
						fmt.Println(ss, "does not belong to your wallet (cannot sign it)")
					}
				}
			} else {
				if *verbose {
					ss := uns.String()
					ss = ss[:8] + "..." + ss[len(ss)-12:]
					fmt.Println(ss, "belongs to a multisig address")
				}
				multisigInputs++
			}
		}
	}
	f.Close()
	fmt.Printf("You have %.8f BTC in %d unspent outputs. %d inputs are multisig type\n",
		float64(totBtc)/1e8, len(unspentOuts), multisigInputs)
	if showbalance {
		if unknownInputs > 0 {
			fmt.Printf("WARNING: Some inputs (%d) cannot be spent with this password (-v to print them)\n", unknownInputs)
		}
	}
}
Esempio n. 3
0
func do_scan_stealth(p string, ignore_prefix bool) {
	sa, _ := btc.NewStealthAddrFromString(p)
	if sa == nil {
		fmt.Println("Specify base58 encoded stealth address")
		return
	}
	if sa.Version != btc.StealthAddressVersion(common.CFG.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:]))
	}

	ds := wallet.FetchStealthKeys()
	if len(ds) == 0 {
		return
	}

	defer func() {
		for i := range ds {
			utils.ClearBuffer(ds[i])
		}
	}() // clear the keys in mem after all

	var d []byte

	for i := range ds {
		if bytes.Equal(btc.PublicFromPrivate(ds[i], true), sa.ScanKey[:]) {
			d = ds[i]
		}
	}

	if d == nil {
		fmt.Println("No matching secret found your wallet/stealth folder")
		return
	}

	var pos []*btc.TxPrevOut
	cs := make(map[uint64][]byte)
	as := make(map[uint64]*btc.BtcAddr)
	var ncnt uint

	common.BlockChain.Unspent.ScanStealth(sa, func(eth, txid []byte, vout uint32, scr []byte) bool {
		if len(scr) == 25 && scr[0] == 0x76 && scr[1] == 0xa9 && scr[2] == 0x14 && scr[23] == 0x88 && scr[24] == 0xac {
			var h160 [20]byte
			//yes := btc.NewUint256(txid).String()=="9cc90ff2528b49dfd9c53e5e90c98a1fd45d577af7f3a9e7a9f8a86b52fb0280"
			c := btc.StealthDH(eth, d)
			spen_exp := btc.DeriveNextPublic(sa.SpendKeys[0][:], c)
			btc.RimpHash(spen_exp, h160[:])
			if bytes.Equal(scr[3:23], h160[:]) {
				po := new(btc.TxPrevOut)
				copy(po.Hash[:], txid)
				po.Vout = vout
				pos = append(pos, po)
				cs[po.UIdx()] = c
				as[po.UIdx()] = btc.NewAddrFromHash160(h160[:], btc.AddrVerPubkey(common.CFG.Testnet))
			}
			ncnt++
			/*fmt.Printf("%s with c=%s",
				btc.NewAddrFromHash160(h160[:], btc.AddrVerPubkey(common.CFG.Testnet)).String(),
				hex.EncodeToString(c))
			fmt.Println()*/
			return true
		} else {
			return false
		}
	})

	fmt.Println(len(pos), "outputs, out of", ncnt, "notifications belonged to our wallet")

	var unsp btc.AllUnspentTx
	for i := range pos {
		po, e := common.BlockChain.Unspent.UnspentGet(pos[i])
		if e != nil {
			println("UnspentGet:", e.Error())
			println("This should not happen - please, report a bug.")
			println("You can probably fix it by launching the client with -rescan")
			os.Exit(1)
		}
		//fmt.Println(btc.NewUint256(pos[i].Hash[:]), pos[i].Vout+1, hex.EncodeToString(cs[pos[i].UIdx()]))
		one := &btc.OneUnspentTx{
			TxPrevOut: *pos[i],
			Value:     po.Value,
			MinedAt:   po.BlockHeight,
			BtcAddr:   as[pos[i].UIdx()],
			StealthC:  cs[pos[i].UIdx()]}
		unsp = append(unsp, one)
	}
	sort.Sort(unsp)
	os.RemoveAll("balance")
	os.MkdirAll("balance/", 0770)
	utxt, _ := os.Create("balance/unspent.txt")
	fmt.Print(wallet.DumpBalance(unsp, utxt, true, false))
}
Esempio n. 4
0
// load the content of the "balance/" folder
func load_balance(showbalance bool) {
	var unknownInputs, multisigInputs int
	f, e := os.Open("balance/unspent.txt")
	if e != nil {
		println(e.Error())
		return
	}
	rd := bufio.NewReader(f)
	for {
		l, _, e := rd.ReadLine()
		if len(l) == 0 && e != nil {
			break
		}
		if l[64] == '-' {
			txid := btc.NewUint256FromString(string(l[:64]))
			rst := strings.SplitN(string(l[65:]), " ", 2)
			vout, _ := strconv.ParseUint(rst[0], 10, 32)
			uns := new(btc.TxPrevOut)
			copy(uns.Hash[:], txid.Hash[:])
			uns.Vout = uint32(vout)
			lab := ""
			if len(rst) > 1 {
				lab = rst[1]
			}

			str := string(l)
			if sti := strings.Index(str, "_StealthC:"); sti != -1 {
				c, e := hex.DecodeString(str[sti+10 : sti+10+64])
				if e != nil {
					fmt.Println("ERROR at stealth", txid.String(), vout, e.Error())
				} else {
					// add a new key to the wallet
					sec := btc.DeriveNextPrivate(first_seed[:], c)
					is_stealth[len(priv_keys)] = true
					priv_keys = append(priv_keys, sec)
					labels = append(labels, lab)
					pub_key := btc.PublicFromPrivate(sec, true)
					publ_addrs = append(publ_addrs, btc.NewAddrFromPubkey(pub_key, btc.AddrVerPubkey(*testnet)))
					compressed_key = append(compressed_key, true) // stealth keys are always compressed
				}
			}

			if _, ok := loadedTxs[txid.Hash]; !ok {
				tf, _ := os.Open("balance/" + txid.String() + ".tx")
				if tf != nil {
					siz, _ := tf.Seek(0, os.SEEK_END)
					tf.Seek(0, os.SEEK_SET)
					buf := make([]byte, siz)
					tf.Read(buf)
					tf.Close()
					th := btc.Sha2Sum(buf)
					if bytes.Equal(th[:], txid.Hash[:]) {
						tx, _ := btc.NewTx(buf)
						if tx != nil {
							loadedTxs[txid.Hash] = tx
						} else {
							println("transaction is corrupt:", txid.String())
						}
					} else {
						println("transaction file is corrupt:", txid.String())
						os.Exit(1)
					}
				} else {
					println("transaction file not found:", txid.String())
					os.Exit(1)
				}
			}

			// Sum up all the balance and check if we have private key for this input
			uo := UO(uns)

			add_it := true

			if !btc.IsP2SH(uo.Pk_script) {
				fnd := false
				for j := range publ_addrs {
					if publ_addrs[j].Owns(uo.Pk_script) {
						fnd = true
						break
					}
				}

				if !fnd {
					if *onlvalid {
						add_it = false
					}
					if showbalance {
						unknownInputs++
						if *verbose {
							ss := uns.String()
							ss = ss[:8] + "..." + ss[len(ss)-12:]
							fmt.Println(ss, "does not belong to your wallet (cannot sign it)")
						}
					}
				}
			} else {
				if *onlvalid {
					add_it = false
				}
				if *verbose {
					ss := uns.String()
					ss = ss[:8] + "..." + ss[len(ss)-12:]
					fmt.Println(ss, "belongs to a multisig address")
				}
				multisigInputs++
			}

			if add_it {
				unspentOuts = append(unspentOuts, uns)
				unspentOutsLabel = append(unspentOutsLabel, lab)
				totBtc += UO(uns).Value
			}
		}
	}
	f.Close()
	fmt.Printf("You have %.8f BTC in %d unspent outputs. %d inputs are multisig type\n",
		float64(totBtc)/1e8, len(unspentOuts), multisigInputs)
	if showbalance {
		if unknownInputs > 0 {
			fmt.Printf("WARNING: Some inputs (%d) cannot be spent with this password (-v to print them)\n", unknownInputs)
		}
	}
}