public void Base58EncodingLeadingZero()
{
const string privkey = "91axuYLa8xK796DnBXXsMbjuc8pDYxYgJyQMvFzrZ6UfXaGYuqL";
var key = new DumpedPrivateKey(NetworkParameters.TestNet(), privkey).Key;
Assert.AreEqual(privkey, key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString());
Assert.AreEqual(0, key.GetPrivKeyBytes()[0]);
}
public void Base58EncodingLeadingZero()
{
const string privkey = "91axuYLa8xK796DnBXXsMbjuc8pDYxYgJyQMvFzrZ6UfXaGYuqL";
var key = new DumpedPrivateKey(NetworkParameters.TestNet(), privkey).Key;
Assert.AreEqual(privkey, key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString());
Assert.AreEqual(0, key.GetPrivKeyBytes()[0]);
}
public void Base58Encoding()
{
const string addr = "mqAJmaxMcG5pPHHc3H3NtyXzY7kGbJLuMF";
const string privkey = "92shANodC6Y4evT5kFzjNFQAdjqTtHAnDTLzqBBq4BbKUPyx6CD";
var key = new DumpedPrivateKey(NetworkParameters.TestNet(), privkey).Key;
Assert.AreEqual(privkey, key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString());
Assert.AreEqual(addr, key.ToAddress(NetworkParameters.TestNet()).ToString());
}
public void Base58Encoding()
{
const string addr = "mqAJmaxMcG5pPHHc3H3NtyXzY7kGbJLuMF";
const string privkey = "92shANodC6Y4evT5kFzjNFQAdjqTtHAnDTLzqBBq4BbKUPyx6CD";
var key = new DumpedPrivateKey(NetworkParameters.TestNet(), privkey).Key;
Assert.AreEqual(privkey, key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString());
Assert.AreEqual(addr, key.ToAddress(NetworkParameters.TestNet()).ToString());
}
public void Base58EncodingStress()
{
// Replace the loop bound with 1000 to get some keys with leading zero byte
for (var i = 0; i < 20; i++)
{
var key = new EcKey();
var key1 = new DumpedPrivateKey(NetworkParameters.TestNet(),
key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString()).Key;
Assert.AreEqual(Utils.BytesToHexString(key.GetPrivKeyBytes()),
Utils.BytesToHexString(key1.GetPrivKeyBytes()));
}
}
public void Base58EncodingStress()
{
// Replace the loop bound with 1000 to get some keys with leading zero byte
for (var i = 0; i < 20; i++)
{
var key = new EcKey();
var key1 = new DumpedPrivateKey(NetworkParameters.TestNet(),
key.GetPrivateKeyEncoded(NetworkParameters.TestNet()).ToString()).Key;
Assert.AreEqual(Utils.BytesToHexString(key.GetPrivKeyBytes()),
Utils.BytesToHexString(key1.GetPrivKeyBytes()));
}
}
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 static void Run(string[] args)
{
// TODO: Assumes production network not testnet. Make it selectable.
var networkParams = 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(networkParams, 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(networkParams));
// And the address ...
var destination = new Address(networkParams, args[1]);
// Import the private key to a fresh wallet.
var wallet = new Wallet(networkParams);
wallet.AddKey(key);
// Find the transactions that involve those coins.
using (var blockStore = new MemoryBlockStore(networkParams))
{
var chain = new BlockChain(networkParams, wallet, blockStore);
var peerGroup = new PeerGroup(blockStore, networkParams, 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.");
}
}
