public static void Run(string[] args) { // TODO: Assumes production network not testnet. Make it selectable. var @params = NetworkParameters.ProdNet(); try { // Decode the private key from Satoshi's Base58 variant. If 51 characters long then it's from BitCoins // "dumpprivkey" command and includes a version byte and checksum. Otherwise assume it's a raw key. EcKey key; if (args[0].Length == 51) { var dumpedPrivateKey = new DumpedPrivateKey(@params, args[0]); key = dumpedPrivateKey.Key; } else { var privKey = Base58.DecodeToBigInteger(args[0]); key = new EcKey(privKey); } Console.WriteLine("Address from private key is: " + key.ToAddress(@params)); // And the address ... var destination = new Address(@params, args[1]); // Import the private key to a fresh wallet. var wallet = new Wallet(@params); wallet.AddKey(key); // Find the transactions that involve those coins. using (var blockStore = new MemoryBlockStore(@params)) { var chain = new BlockChain(@params, wallet, blockStore); var peerGroup = new PeerGroup(blockStore, @params, chain); peerGroup.AddAddress(new PeerAddress(IPAddress.Loopback)); peerGroup.Start(); peerGroup.DownloadBlockChain(); peerGroup.Stop(); // And take them! Console.WriteLine("Claiming " + Utils.BitcoinValueToFriendlyString(wallet.GetBalance()) + " coins"); wallet.SendCoins(peerGroup, destination, wallet.GetBalance()); // Wait a few seconds to let the packets flush out to the network (ugly). Thread.Sleep(5000); } } catch (IndexOutOfRangeException) { Console.WriteLine("First arg should be private key in Base58 format. Second argument should be address to send to."); } }
public void DecodeToIntTest2() { Org.BouncyCastle.Math.BigInteger actual = Base58.DecodeToBigInteger("6e31iZ"); Assert.IsTrue(actual.ToString() == "3700886826"); }
public void DecodeToIntTest() { Org.BouncyCastle.Math.BigInteger actual = Base58.DecodeToBigInteger("h"); Assert.IsTrue(actual.ToString() == "40"); }