/// Builds a new block ready to mine from the header of the previous block,
/// a vector of transactions and the reward information. Checks
/// that all transactions are valid and calculates the Merkle tree.
public static Block with_reward(BlockHeader prev, Transaction.Transaction[] txs, Output rewardOut,
TxKernel rewardKern)
{
// note: the following reads easily but may not be the most efficient due to
// repeated iterations, revisit if a problem
var secp = Secp256K1.WithCaps(ContextFlag.Commit);
// validate each transaction and gather their kernels
var kernels = txs.Select(tx => tx.verify_sig(secp)).ToList();
kernels.Add(rewardKern);
// build vectors with all inputs and all outputs, ordering them by hash
// needs to be a fold so we don't end up with a vector of vectors and we
// want to fully own the refs (not just a pointer like flat_map).
var inputs = new List <Input>();
var outputs = new List <Output>();
foreach (var tx in txs)
{
inputs.AddRange(tx.Inputs.Select(i => i.Clone()));
outputs.AddRange(tx.Outputs.Select(o => o.Clone()));
}
outputs.Add(rewardOut);
// calculate the overall Merkle tree and fees
var bh = BlockHeader.Default();
bh.Height = prev.Height + 1;
bh.Previous = prev.Hash();
bh.Timestamp = DateTime.UtcNow;
bh.TotalDifficulty =
Difficulty.From_num(prev.Pow.Clone().To_difficulty().Num + prev.TotalDifficulty.Clone().Num);
var b = new Block
{
Header = bh,
Inputs = inputs.ToArray(),
Outputs = outputs.ToArray(),
Kernels = kernels.ToArray()
};
return(b.Compact());
}
public static (Output, TxKernel) Reward_output(Keychain keychain, Identifier keyId, ulong fees)
{
var secp = keychain.Secp;
var commit = keychain.Commit(Consensus.Reward(fees), keyId);
var switchCommit = keychain.Switch_commit(keyId);
var switchCommitHash = SwitchCommitHash.From_switch_commit(switchCommit);
Log.Verbose(
"Block reward - Pedersen Commit is: {commit}, Switch Commit is: {switch_commit}",
commit,
switchCommit
);
Log.Verbose(
"Block reward - Switch Commit Hash is: { switch_commit_hash}",
switchCommitHash
);
var msg = ProofMessage.Empty();
var rproof = keychain.Range_proof(Consensus.Reward(fees), keyId, commit, msg);
var output = new Output
{
Features = OutputFeatures.CoinbaseOutput,
Commit = commit,
SwitchCommitHash = switchCommitHash,
Proof = rproof
};
var overCommit = secp.commit_value(Consensus.Reward(fees));
var outCommit = output.Commit;
var excess = secp.commit_sum(new[] { outCommit }, new[] { overCommit });
var msg2 = Message.from_slice(new byte[Constants.MessageSize]);
var sig = keychain.Sign(msg2, keyId);
var proof = new TxKernel
{
Features = KernelFeatures.CoinbaseKernel,
Excess = excess,
ExcessSig = sig.serialize_der(secp),
Fee = 0,
LockHeight = 0
};
return(output, proof);
}
public void Test_kernel_ser_deser()
{
var keychain = Keychain.From_random_seed();
var keyId = keychain.Derive_key_id(1);
var commit = keychain.Commit(5, keyId);
// just some bytes for testing ser/deser
var sig = new byte[] { 1, 0, 0, 0, 0, 0, 0, 1 };
var kernel = new TxKernel
{
Features = KernelFeatures.DefaultKernel,
LockHeight = 0,
Excess = commit,
ExcessSig = sig,
Fee = 10
};
var stream = new MemoryStream();
Ser.Serialize(stream, kernel);
Console.WriteLine("-------");
Console.WriteLine(stream.ToArray().AsString());
Console.WriteLine("-------");
stream.Position = 0;
var kernel2 = Ser.Deserialize(stream, new TxKernel());
Assert.Equal(KernelFeatures.DefaultKernel, kernel2.Features);
Assert.Equal <ulong>(0, kernel2.LockHeight);
Assert.Equal(commit.Value, kernel2.Excess.Value);
Assert.Equal(sig, kernel2.ExcessSig);
Assert.Equal <ulong>(10, kernel2.Fee);
//// now check a kernel with lock_height serializes/deserializes correctly
kernel = new TxKernel
{
Features = KernelFeatures.DefaultKernel,
LockHeight = 100,
Excess = commit,
ExcessSig = sig,
Fee = 10
};
stream = new MemoryStream();
Ser.Serialize(stream, kernel);
Console.WriteLine("-------");
Console.WriteLine(stream.ToArray().AsString());
Console.WriteLine("-------");
stream.Position = 0;
kernel2 = Ser.Deserialize(stream, new TxKernel());
Assert.Equal(KernelFeatures.DefaultKernel, kernel2.Features);
Assert.Equal <ulong>(100, kernel2.LockHeight);
Assert.Equal(commit.Value, kernel2.Excess.Value);
Assert.Equal(sig, kernel2.ExcessSig);
Assert.Equal <ulong>(10, kernel2.Fee);
}
