/// <summary>First half builds the ring, second half tests the connection handler...</summary>
public void RingTest() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c --secure_senders -s=50".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
SimpleTimer.RunSteps(fifteen_mins, false);
var nm0 = sim.TakenIDs.Values[0];
int idx = 1;
NodeMapping nm1 = null;
do {
nm1 = sim.TakenIDs.Values[idx++];
} while(Simulator.AreConnected(nm0.Node, nm1.Node) && idx < sim.TakenIDs.Count);
Assert.IsFalse(Simulator.AreConnected(nm0.Node, nm1.Node), "Sanity check");
var ptype = new PType("chtest");
var ch0 = new ConnectionHandler(ptype, (StructuredNode) nm0.Node);
var ch1 = new ConnectionHandler(ptype, (StructuredNode) nm1.Node);
ConnectionHandlerTest(nm0.Node, nm1.Node, ch0, ch1);
SimpleTimer.RunSteps(fifteen_mins * 2, false);
Assert.IsFalse(Simulator.AreConnected(nm0.Node, nm1.Node), "Sanity check0");
ptype = new PType("chtest1");
ch0 = new SecureConnectionHandler(ptype, (StructuredNode) nm0.Node, nm0.Sso);
ch1 = new SecureConnectionHandler(ptype, (StructuredNode) nm1.Node, nm1.Sso);
ConnectionHandlerTest(nm0.Node, nm1.Node, ch0, ch1);
}
public static int Main(string [] args)
{
Parameters p = new Parameters("RelayOverlapSimulator", "Brunet Time Based Simulator for Relays");
if (p.Parse(args) != 0)
{
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return(-1);
}
else if (p.Help)
{
p.ShowHelp();
return(-1);
}
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
sim.Complete(false);
if (p.Evaluation)
{
Evaluator(sim);
}
else
{
Simulator(sim);
}
return(0);
}
public static int Main(string []args)
{
Parameters p = new Parameters("Simulator", "Simulator - Brunet Time Based Simulator");
if(p.Parse(args) != 0) {
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return -1;
} else if(p.Help) {
p.ShowHelp();
return -1;
}
Simulator sim = new Simulator(p);
if(p.Complete) {
sim.Complete();
} else if(p.Evaluation) {
DateTime now = DateTime.UtcNow;
sim.Complete();
SimpleTimer.RunSteps(p.EvaluationTime, false);
sim.Complete();
Console.WriteLine("Time spent setting up: " + (DateTime.UtcNow - now).ToString());
sim.AllToAll();
sim.Crawl();
} else if(p.HeavyChurn) {
HeavyChurn(sim, p.EvaluationTime);
} else {
Commands(sim);
}
return 0;
}
public void CompleteTheRing() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c -s=25".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);;
Simulator sim = new Simulator(p);
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
}
public static int Main(string []args)
{
#if SUBRING
SubringParameters p = new SubringParameters();
#else
Parameters p = new Parameters("Simulator", "Simulator - Brunet Time Based Simulator");
#endif
if(p.Parse(args) != 0) {
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return -1;
} else if(p.Help) {
p.ShowHelp();
return -1;
}
#if SUBRING
SubringSimulator sim = new SubringSimulator(p);
#else
Simulator sim = new Simulator(p);
#endif
if(p.Complete) {
sim.Complete();
} else if(p.Broadcast > -2) {
Broadcast(sim, p.Broadcast);
} else if(p.HeavyChurn > 0) {
HeavyChurn(sim, p.HeavyChurn);
} else if(p.Evaluation) {
Evaluate(sim, p);
} else {
Commands(sim);
}
return 0;
}
public void SecureRingTest()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c --secure_edges -s=25".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
var nm0 = sim.TakenIDs.Values[0];
int idx = 1;
NodeMapping nm1 = null;
do
{
nm1 = sim.TakenIDs.Values[idx++];
} while(Simulator.AreConnected(nm0.Node, nm1.Node) && idx < sim.TakenIDs.Count);
Assert.IsFalse(Simulator.AreConnected(nm0.Node, nm1.Node), "Sanity check");
var ptype = new PType("chtest");
var ch0 = new ConnectionHandler(ptype, (StructuredNode)nm0.Node);
var ch1 = new ConnectionHandler(ptype, (StructuredNode)nm1.Node);
ConnectionHandlerTest(nm0.Node, nm1.Node, ch0, ch1);
}
public void CompleteTheRing() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c -s=250".Split(' ');
p.Parse(args);
Simulator sim = new Simulator(p);
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
}
public void CompleteTheRing()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c -s=250".Split(' ');
p.Parse(args);
Simulator sim = new Simulator(p);
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
}
// [Test]
public void CompleteTheDtlsRing()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 --dtls -c --secure_edges -s=25".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
}
public static int Main(string [] args)
{
#if SUBRING
SubringParameters p = new SubringParameters();
#else
Parameters p = new Parameters("Simulator", "Simulator - Brunet Time Based Simulator");
#endif
if (p.Parse(args) != 0)
{
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return(-1);
}
else if (p.Help)
{
p.ShowHelp();
return(-1);
}
#if SUBRING
SubringSimulator sim = new SubringSimulator(p);
#else
Simulator sim = new Simulator(p);
#endif
if (p.Complete)
{
sim.Complete(false);
}
else if (p.Broadcast > -2)
{
Broadcast(sim, p.Broadcast, p.Output);
}
else if (p.HeavyChurn > 0)
{
HeavyChurn(sim, p.HeavyChurn);
}
else if (p.Evaluation)
{
Evaluate(sim, p);
}
else
{
Commands(sim);
}
return(0);
}
public void Relays()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);;
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
Address addr1 = null, addr2 = null;
sim.AddDisconnectedPair(out addr1, out addr2, sim.NCEnable);
sim.Complete(true);
SimpleTimer.RunSteps(1000000, false);
Node node1 = (sim.Nodes[addr1] as NodeMapping).Node as Node;
Node node2 = (sim.Nodes[addr2] as NodeMapping).Node as Node;
if (node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null)
{
Relays();
return;
}
ManagedConnectionOverlord mco = new ManagedConnectionOverlord(node1);
mco.Start();
node1.AddConnectionOverlord(mco);
mco.Set(addr2);
sim.Complete(true);
SimpleTimer.RunSteps(100000, false);
Assert.IsTrue(node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null);
foreach (Connection con in node1.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP))
{
con.Edge.Close();
}
foreach (Connection con in node2.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP))
{
con.Edge.Close();
}
SimpleTimer.RunSteps(100000, false);
Assert.IsTrue(node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null);
sim.Disconnect();
}
public void Relays()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
_sim = sim;
Address addr1 = null, addr2 = null;
Node node1 = null, node2 = null;
while (true)
{
sim.AddDisconnectedPair(out addr1, out addr2, sim.NCEnable);
sim.Complete(true);
node1 = (sim.Nodes[addr1] as NodeMapping).Node as Node;
node2 = (sim.Nodes[addr2] as NodeMapping).Node as Node;
if (!Simulator.AreConnected(node1, node2))
{
break;
}
}
ManagedConnectionOverlord mco = new ManagedConnectionOverlord(node1);
mco.Start();
node1.AddConnectionOverlord(mco);
mco.Set(addr2);
Assert.IsTrue(AreConnected(node1, node2));
foreach (Connection con in node1.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP))
{
con.State.Edge.Close();
}
foreach (Connection con in node2.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP))
{
con.State.Edge.Close();
}
Assert.IsTrue(Simulator.AreConnected(node1, node2));
}
public void TestNatTraversal()
{
Parameters p = new Parameters("Test", "Test");
string[] args = "-c -s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
SimpleTimer.RunSteps(1000000, false);
TestNat(sim, NatTypes.Cone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.RestrictedCone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.Symmetric, NatTypes.Disabled, true);
TestNat(sim, NatTypes.Symmetric, NatTypes.Disabled, NatTypes.RestrictedCone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.Symmetric, NatTypes.OutgoingOnly, true);
}
public void SecureRingTest() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c --secure_edges -s=25".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
var nm0 = sim.TakenIDs.Values[0];
int idx = 1;
var nm1 = sim.TakenIDs.Values[idx];
while(Simulator.AreConnected(nm0.Node, nm1.Node) && idx < sim.TakenIDs.Count) {
nm1 = sim.TakenIDs.Values[++idx];
}
var ptype = new PType("chtest");
var ch0 = new SecureConnectionHandler(ptype, (StructuredNode) nm0.Node, nm0.Sso);
var ch1 = new SecureConnectionHandler(ptype, (StructuredNode) nm1.Node, nm1.Sso);
ConnectionHandlerTest(nm0.Node, nm1.Node, ch0, ch1);
}
/// <summary>First half builds the ring, second half tests the connection handler...</summary>
public void RingTest() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-b=.2 -c -s=50".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
SimpleTimer.RunSteps(fifteen_mins);
Node node0 = sim.TakenIDs.Values[0].Node;
int idx = 1;
Node node1 = sim.TakenIDs.Values[idx].Node;
while(Simulator.AreConnected(node0, node1) && idx < sim.TakenIDs.Count) {
node1 = sim.TakenIDs.Values[++idx].Node;
}
var ptype = new PType("chtest");
var ch0 = new ConnectionHandler(ptype, (StructuredNode) node0);
var ch1 = new ConnectionHandler(ptype, (StructuredNode) node1);
ConnectionHandlerTest(node0, node1, ch0, ch1);
}
public static int Main(string [] args)
{
Parameters p = new Parameters("Simulator", "Simulator - Brunet Time Based Simulator");
if (p.Parse(args) != 0)
{
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return(-1);
}
else if (p.Help)
{
p.ShowHelp();
return(-1);
}
Simulator sim = new Simulator(p);
if (p.Complete)
{
sim.Complete();
}
else if (p.Evaluation)
{
DateTime now = DateTime.UtcNow;
sim.Complete();
SimpleTimer.RunSteps(p.EvaluationTime, false);
sim.Complete();
Console.WriteLine("Time spent setting up: " + (DateTime.UtcNow - now).ToString());
sim.AllToAll();
sim.Crawl();
}
else if (p.HeavyChurn)
{
HeavyChurn(sim, p.EvaluationTime);
}
else
{
Commands(sim);
}
return(0);
}
public void Relays() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);;
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
Address addr1 = null, addr2 = null;
sim.AddDisconnectedPair(out addr1, out addr2, sim.NCEnable);
sim.Complete(true);
SimpleTimer.RunSteps(1000000, false);
Node node1 = (sim.Nodes[addr1] as NodeMapping).Node as Node;
Node node2 = (sim.Nodes[addr2] as NodeMapping).Node as Node;
if(node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null) {
Relays();
return;
}
ManagedConnectionOverlord mco = new ManagedConnectionOverlord(node1);
mco.Start();
node1.AddConnectionOverlord(mco);
mco.Set(addr2);
sim.Complete(true);
SimpleTimer.RunSteps(100000, false);
Assert.IsTrue(node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null);
foreach(Connection con in node1.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP)) {
con.Edge.Close();
}
foreach(Connection con in node2.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP)) {
con.Edge.Close();
}
SimpleTimer.RunSteps(100000, false);
Assert.IsTrue(node1.ConnectionTable.GetConnection(ConnectionType.Structured, addr2) != null);
sim.Disconnect();
}
public static int Main(string []args)
{
Parameters p = new Parameters("RelayOverlapSimulator", "Brunet Time Based Simulator for Relays");
if(p.Parse(args) != 0) {
Console.WriteLine(p.ErrorMessage);
p.ShowHelp();
return -1;
} else if(p.Help) {
p.ShowHelp();
return -1;
}
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
sim.Complete(false);
if(p.Evaluation) {
Evaluator(sim);
} else {
Simulator(sim);
}
return 0;
}
public void Relays() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
RelayOverlapSimulator sim = new RelayOverlapSimulator(p);
_sim = sim;
Address addr1 = null, addr2 = null;
Node node1 = null, node2 = null;
while(true) {
sim.AddDisconnectedPair(out addr1, out addr2, sim.NCEnable);
sim.Complete(true);
node1 = (sim.Nodes[addr1] as NodeMapping).Node as Node;
node2 = (sim.Nodes[addr2] as NodeMapping).Node as Node;
if(!Simulator.AreConnected(node1, node2)) {
break;
}
}
ManagedConnectionOverlord mco = new ManagedConnectionOverlord(node1);
mco.Start();
node1.AddConnectionOverlord(mco);
mco.Set(addr2);
Assert.IsTrue(AreConnected(node1, node2));
foreach(Connection con in node1.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP)) {
con.Edge.Close();
}
foreach(Connection con in node2.ConnectionTable.GetConnections(Relay.OverlapConnectionOverlord.STRUC_OVERLAP)) {
con.Edge.Close();
}
Assert.IsTrue(Simulator.AreConnected(node1, node2));
}
public void TestNatTraversal() {
Parameters p = new Parameters("Test", "Test");
string[] args = "-c -s=100".Split(' ');
Assert.AreNotEqual(-1, p.Parse(args), "Unable to parse" + p.ErrorMessage);
Simulator sim = new Simulator(p);
_sim = sim;
Assert.IsTrue(sim.Complete(true), "Simulation failed to complete the ring");
SimpleTimer.RunSteps(1000000, false);
TestNat(sim, NatTypes.Cone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.RestrictedCone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.Symmetric, NatTypes.Disabled, true);
TestNat(sim, NatTypes.Symmetric, NatTypes.Disabled, NatTypes.RestrictedCone, NatTypes.Disabled, false);
TestNat(sim, NatTypes.Symmetric, NatTypes.OutgoingOnly, true);
}