//public override void Receive(Message msg)
//{
// Gate anchor, myGate;
// var ssmpcMsg = msg as ScalableMpcMessage;
// Debug.Assert(ssmpcMsg != null);
// switch (ssmpcMsg.StateKey.Stage)
// {
// case Stage.Input:
// var inputMsg = ssmpcMsg as InputMessage;
// // start a heavy-weight smpc with parent and sibling gates
// myGate = Circuit.FindGate(ssmpcMsg.StateKey.GateId);
// RunChildMpc(myGate.OutNodes[0], myGate, inputMsg.Data);
// break;
// case Stage.Mpc:
// MpcProtocol smpc;
// var mpcMsg = ssmpcMsg as MpcMessage;
// if (MpcSessions.ContainsKey(smpcMsg.StateKey))
// mpc = MpcSessions[mpcMsg.StateKey].Mpc;
// else
// {
// // I must be in the anchor gate
// Debug.Assert(mpcMsg.ToGateId == mpcMsg.AnchorId, "Synchronization exception: Why don't I have an session for this MPC?");
// // my child gate is asking me to participate in an MPC, so create an MPC protocol instance and join
// anchor = Circuit.FindGate(mpcMsg.AnchorId);
// mpc = RunAnchorMpc(anchor);
// }
// mpc.Receive(mpcMsg.InnerMessage);
// break;
// }
//}
/// <summary>
/// Starts a heavy-weight SMPC instance for an SMPC child gate player.
/// </summary>
protected virtual BgwProtocol RunChildMpc(Gate anchor, Gate myGate, Zp myInput)
{
Debug.Assert(quorumsMap.ContainsKey(anchor.QuorumIndex));
Debug.Assert(quorumsMap.ContainsKey(myGate.QuorumIndex));
// find associated quorums
var childGates = anchor.InNodes;
var myGateId = myGate.Id;
var virtualIds = new List <int>(quorumsMap[anchor.QuorumIndex].Select(p => (anchor.Id << 16) + p)); // TODO: IMPORTANT: THE ASSUMPTION HERE LIMITS ENTITY/GATE IDs TO 32768. TO INCREASE THIS LIMIT EITHER USE UINT/ULONG IDs OR CHANGE THIS CODE.
foreach (var gate in childGates)
{
foreach (var playerId in quorumsMap[gate.QuorumIndex])
{
virtualIds.Add((gate.Id << 16) + playerId);
}
}
var myVirtualId = (myGateId << 16) + Party.Id;
// run the protocol and keep it in a the session state
var key = new MpcKey(myGateId, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//var mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, myInput, OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
//return mpc;
}
/// <summary>
/// Starts a heavy-weight SMPC instance for an anchor gate player.
/// </summary>
protected virtual BgwProtocol RunAnchorMpc(Gate anchor)
{
// NOTE: since in the HBC case all players have the same output, just one of them (the guy with min id) SMPCs his output to improve performance.
Debug.Assert(quorumsMap.ContainsKey(anchor.QuorumIndex));
// find associated quorums
var anchorChildren = anchor.InNodes;
var myQuorum = quorumsMap[anchor.QuorumIndex];
var virtualIds = new List <int>(myQuorum.Select(p => (anchor.Id << 16) + p)); // TODO: IMPORTANT: THE ASSUMPTION HERE LIMITS ENTITY/GATE IDs TO 32768. TO INCREASE THIS LIMIT EITHER USE UINT/ULONG IDs OR CHANGE THIS CODE.
foreach (var childGate in anchorChildren)
{
foreach (var playerId in quorumsMap[childGate.QuorumIndex])
{
virtualIds.Add((childGate.Id << 16) + playerId);
}
}
var myVirtualId = (anchor.Id << 16) + Party.Id;
// if my id is the minimum in my quorum, then I should just SMPC with a zero, otherwise just SMPC with a random number (r_g).
// save this random number in the session because it will be my input in next level's SMPC.
BgwProtocol mpc;
if (Party.Id == myQuorum.Min())
{
// run the protocol and keep it in a the session state
var key = new MpcKey(anchor.Id, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, new Zp(Prime), OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
}
else
{
// pick a number uniformly at random (r_g)
// this random along with other players' randoms forms a global random in the quorum.
var randomShare = new Zp(Prime, StaticRandom.Next(0, Prime));
// run an SMPC protocol and keep it in a session state
var key = new MpcKey(anchor.Id, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, randomShare, OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
}
return(mpc);
}
//public override void Receive(Message msg)
//{
// Gate anchor, myGate;
// var ssmpcMsg = msg as ScalableMpcMessage;
// Debug.Assert(ssmpcMsg != null);
// switch (ssmpcMsg.StateKey.Stage)
// {
// case Stage.Input:
// var inputMsg = ssmpcMsg as InputMessage;
// // start a heavy-weight smpc with parent and sibling gates
// myGate = Circuit.FindGate(ssmpcMsg.StateKey.GateId);
// RunChildMpc(myGate.OutNodes[0], myGate, inputMsg.Data);
// break;
// case Stage.Mpc:
// MpcProtocol smpc;
// var mpcMsg = ssmpcMsg as MpcMessage;
// if (MpcSessions.ContainsKey(smpcMsg.StateKey))
// mpc = MpcSessions[mpcMsg.StateKey].Mpc;
// else
// {
// // I must be in the anchor gate
// Debug.Assert(mpcMsg.ToGateId == mpcMsg.AnchorId, "Synchronization exception: Why don't I have an session for this MPC?");
// // my child gate is asking me to participate in an MPC, so create an MPC protocol instance and join
// anchor = Circuit.FindGate(mpcMsg.AnchorId);
// mpc = RunAnchorMpc(anchor);
// }
// mpc.Receive(mpcMsg.InnerMessage);
// break;
// }
//}
/// <summary>
/// Starts a heavy-weight SMPC instance for an SMPC child gate player.
/// </summary>
protected virtual BgwProtocol RunChildMpc(Gate anchor, Gate myGate, Zp myInput)
{
Debug.Assert(quorumsMap.ContainsKey(anchor.QuorumIndex));
Debug.Assert(quorumsMap.ContainsKey(myGate.QuorumIndex));
// find associated quorums
var childGates = anchor.InNodes;
var myGateId = myGate.Id;
var virtualIds = new List<int>(quorumsMap[anchor.QuorumIndex].Select(p => (anchor.Id << 16) + p)); // TODO: IMPORTANT: THE ASSUMPTION HERE LIMITS ENTITY/GATE IDs TO 32768. TO INCREASE THIS LIMIT EITHER USE UINT/ULONG IDs OR CHANGE THIS CODE.
foreach (var gate in childGates)
{
foreach (var playerId in quorumsMap[gate.QuorumIndex])
virtualIds.Add((gate.Id << 16) + playerId);
}
var myVirtualId = (myGateId << 16) + Party.Id;
// run the protocol and keep it in a the session state
var key = new MpcKey(myGateId, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//var mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, myInput, OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
//return mpc;
}
/// <summary>
/// Starts a heavy-weight SMPC instance for an anchor gate player.
/// </summary>
protected virtual BgwProtocol RunAnchorMpc(Gate anchor)
{
// NOTE: since in the HBC case all players have the same output, just one of them (the guy with min id) SMPCs his output to improve performance.
Debug.Assert(quorumsMap.ContainsKey(anchor.QuorumIndex));
// find associated quorums
var anchorChildren = anchor.InNodes;
var myQuorum = quorumsMap[anchor.QuorumIndex];
var virtualIds = new List<int>(myQuorum.Select(p => (anchor.Id << 16) + p)); // TODO: IMPORTANT: THE ASSUMPTION HERE LIMITS ENTITY/GATE IDs TO 32768. TO INCREASE THIS LIMIT EITHER USE UINT/ULONG IDs OR CHANGE THIS CODE.
foreach (var childGate in anchorChildren)
{
foreach (var playerId in quorumsMap[childGate.QuorumIndex])
virtualIds.Add((childGate.Id << 16) + playerId);
}
var myVirtualId = (anchor.Id << 16) + Party.Id;
// if my id is the minimum in my quorum, then I should just SMPC with a zero, otherwise just SMPC with a random number (r_g).
// save this random number in the session because it will be my input in next level's SMPC.
BgwProtocol mpc;
if (Party.Id == myQuorum.Min())
{
// run the protocol and keep it in a the session state
var key = new MpcKey(anchor.Id, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, new Zp(Prime), OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
}
else
{
// pick a number uniformly at random (r_g)
// this random along with other players' randoms forms a global random in the quorum.
var randomShare = new Zp(Prime, StaticRandom.Next(0, Prime));
// run an SMPC protocol and keep it in a session state
var key = new MpcKey(anchor.Id, anchor.Id);
// Mahdi (3/25/14: Do we really need virtual ids?)
throw new NotImplementedException();
//mpc = new BgwProtocol(anchor.MpcCircuit, virtualIds.AsReadOnly(), myVirtualId, randomShare, OnMpcSend, key);
//mpc.MpcFinish += new FinishHandler(OnMpcFinish);
//MpcSessions.Collect(key, new MpcSession(mpc));
//mpc.Run();
}
return mpc;
}
