perf: push->pull broadcasting part 1: feature parity

This commit is contained in:
vis2k 2021-03-04 19:47:12 +08:00
parent 57d4db2e8d
commit 6cedb5b404
8 changed files with 153 additions and 364 deletions

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@ -260,7 +260,6 @@ public NetworkBehaviour[] NetworkBehaviours
}
}
#pragma warning disable 618
NetworkVisibility visibilityCache;
[Obsolete(NetworkVisibilityObsoleteMessage.Message)]
@ -1277,70 +1276,6 @@ internal void Reset()
}
}
/// <summary>
/// Invoked by NetworkServer.Update during LateUpdate
/// </summary>
internal void ServerUpdate()
{
if (observers != null && observers.Count > 0)
{
SendUpdateVarsMessage();
}
else
{
// clear all component's dirty bits.
// it would be spawned on new observers anyway.
ClearAllComponentsDirtyBits();
}
}
void SendUpdateVarsMessage()
{
// one writer for owner, one for observers
using (PooledNetworkWriter ownerWriter = NetworkWriterPool.GetWriter(), observersWriter = NetworkWriterPool.GetWriter())
{
// serialize all the dirty components and send
OnSerializeAllSafely(false, ownerWriter, out int ownerWritten, observersWriter, out int observersWritten);
if (ownerWritten > 0 || observersWritten > 0)
{
UpdateVarsMessage varsMessage = new UpdateVarsMessage
{
netId = netId
};
// send ownerWriter to owner
// (only if we serialized anything for owner)
// (only if there is a connection (e.g. if not a monster),
// and if connection is ready because we use SendToReady
// below too)
if (ownerWritten > 0)
{
varsMessage.payload = ownerWriter.ToArraySegment();
if (connectionToClient != null && connectionToClient.isReady)
NetworkServer.SendToClientOfPlayer(this, varsMessage);
}
// send observersWriter to everyone but owner
// (only if we serialized anything for observers)
if (observersWritten > 0)
{
varsMessage.payload = observersWriter.ToArraySegment();
NetworkServer.SendToReady(this, varsMessage, false);
}
// clear dirty bits only for the components that we serialized
// DO NOT clean ALL component's dirty bits, because
// components can have different syncIntervals and we don't
// want to reset dirty bits for the ones that were not
// synced yet.
// (we serialized only the IsDirty() components, or all of
// them if initialState. clearing the dirty ones is enough.)
ClearDirtyComponentsDirtyBits();
}
}
}
/// <summary>
/// clear all component's dirty bits no matter what
/// </summary>

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@ -459,6 +459,19 @@ internal static void NetworkEarlyUpdate()
Transport.activeTransport.ServerEarlyUpdate();
}
// cache NetworkIdentity serializations
// Update() shouldn't serialize multiple times for multiple connections
struct Serialization
{
public PooledNetworkWriter ownerWriter;
public PooledNetworkWriter observersWriter;
// TODO there is probably a more simple way later
public int ownerWritten;
public int observersWritten;
}
static Dictionary<NetworkIdentity, Serialization> serializations =
new Dictionary<NetworkIdentity, Serialization>();
// NetworkLateUpdate called after any Update/FixedUpdate/LateUpdate
// (we add this to the UnityEngine in NetworkLoop)
internal static void NetworkLateUpdate()
@ -468,22 +481,137 @@ internal static void NetworkLateUpdate()
{
// Check for dead clients but exclude the host client because it
// doesn't ping itself and therefore may appear inactive.
// TODO move this into the below foreach
CheckForInactiveConnections();
// update all server objects
foreach (KeyValuePair<uint, NetworkIdentity> kvp in NetworkIdentity.spawned)
// for each READY connection:
// pull in UpdateVarsMessage for each entity it observes
foreach (NetworkConnectionToClient conn in connections.Values)
{
NetworkIdentity identity = kvp.Value;
if (identity != null)
// only if this connection has joined the world yet
if (conn.isReady)
{
identity.ServerUpdate();
// for each entity that this connection is seeing
foreach (NetworkIdentity identity in conn.observing)
{
// make sure it's not null or destroyed.
// (which can happen if someone uses
// GameObject.Destroy instead of
// NetworkServer.Destroy)
if (identity != null)
{
// multiple connections might be observed by the
// same NetworkIdentity, but we don't want to
// serialize them multiple times. look it up first.
//
// IMPORTANT: don't forget to return them to pool!
// TODO make this easier later. for now aim for
// feature parity to not break projects.
if (!serializations.ContainsKey(identity))
{
// serialize all the dirty components.
// one version for owner, one for observers.
PooledNetworkWriter ownerWriter = NetworkWriterPool.GetWriter();
PooledNetworkWriter observersWriter = NetworkWriterPool.GetWriter();
identity.OnSerializeAllSafely(false, ownerWriter, out int ownerWritten, observersWriter, out int observersWritten);
serializations[identity] = new Serialization
{
ownerWriter = ownerWriter,
observersWriter = observersWriter,
ownerWritten = ownerWritten,
observersWritten = observersWritten
};
// clear dirty bits only for the components that we serialized
// DO NOT clean ALL component's dirty bits, because
// components can have different syncIntervals and we don't
// want to reset dirty bits for the ones that were not
// synced yet.
// (we serialized only the IsDirty() components, or all of
// them if initialState. clearing the dirty ones is enough.)
//
// NOTE: this is what we did before push->pull
// broadcasting. let's keep doing this for
// feature parity to not break anyone's project.
// TODO make this more simple / unnecessary later.
identity.ClearDirtyComponentsDirtyBits();
}
// get serialization
Serialization serialization = serializations[identity];
// is this entity owned by this connection?
bool owned = identity.connectionToClient == conn;
// send serialized data
// owner writer if owned
if (owned)
{
// was it dirty / did we actually serialize anything?
if (serialization.ownerWritten > 0)
{
UpdateVarsMessage message = new UpdateVarsMessage
{
netId = identity.netId,
payload = serialization.ownerWriter.ToArraySegment()
};
conn.Send(message);
}
}
// observers writer if not owned
else
{
// was it dirty / did we actually serialize anything?
if (serialization.observersWritten > 0)
{
UpdateVarsMessage message = new UpdateVarsMessage
{
netId = identity.netId,
payload = serialization.observersWriter.ToArraySegment()
};
conn.Send(message);
}
}
}
// spawned list should have no null entries because we
// always call Remove in OnObjectDestroy everywhere.
// if it does have null then someone used
// GameObject.Destroy instead of NetworkServer.Destroy.
else Debug.LogWarning("Found 'null' entry in observing list for connectionId=" + conn.connectionId + ". Please call NetworkServer.Destroy to destroy networked objects. Don't use GameObject.Destroy.");
}
}
}
// return serialized writers to pool, clear set
// TODO this is for feature parity before push->pull change.
// make this more simple / unnecessary later.
foreach (Serialization entry in serializations.Values)
{
NetworkWriterPool.Recycle(entry.ownerWriter);
NetworkWriterPool.Recycle(entry.observersWriter);
}
serializations.Clear();
// TODO this unfortunately means we still need to iterate ALL
// spawned and not just the ones with observers. figure
// out a way to get rid of this.
//
// for each spawned:
// clear dirty bits if it has no observers.
// we did this before push->pull broadcasting so let's keep
// doing this for now.
foreach (NetworkIdentity identity in NetworkIdentity.spawned.Values)
{
if (identity.observers == null || identity.observers.Count == 0)
{
// clear all component's dirty bits.
// it would be spawned on new observers anyway.
identity.ClearAllComponentsDirtyBits();
}
// spawned list should have no null entries because we
// always call Remove in OnObjectDestroy everywhere.
else Debug.LogWarning("Found 'null' entry in spawned list for netId=" + kvp.Key + ". Please call NetworkServer.Destroy to destroy networked objects. Don't use GameObject.Destroy.");
}
// update all connections to send out batched messages in interval
// TODO move this into the above foreach
foreach (NetworkConnectionToClient conn in connections.Values)
{
conn.Update();

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@ -1224,83 +1224,5 @@ public void HandleRpc()
NetworkIdentity.spawned.Clear();
RemoteCallHelper.RemoveDelegate(registeredHash);
}
[Test]
public void ServerUpdate()
{
// add components
SerializeTest1NetworkBehaviour compA = gameObject.AddComponent<SerializeTest1NetworkBehaviour>();
// test value
compA.value = 1337;
// set syncInterval so IsDirty passes the interval check
compA.syncInterval = 0;
// one needs to sync to owner
compA.syncMode = SyncMode.Owner;
SerializeTest2NetworkBehaviour compB = gameObject.AddComponent<SerializeTest2NetworkBehaviour>();
// test value
compB.value = "test";
// set syncInterval so IsDirty passes the interval check
compB.syncInterval = 0;
// one needs to sync to owner
compB.syncMode = SyncMode.Observers;
// call OnStartServer once so observers are created
identity.OnStartServer();
// set it dirty
compA.SetDirtyBit(ulong.MaxValue);
compB.SetDirtyBit(ulong.MaxValue);
Assert.That(compA.IsDirty(), Is.True);
Assert.That(compB.IsDirty(), Is.True);
// calling update without observers should clear all dirty bits.
// it would be spawned on new observers anyway.
identity.ServerUpdate();
Assert.That(compA.IsDirty(), Is.False);
Assert.That(compB.IsDirty(), Is.False);
// add an owner connection that will receive the updates
LocalConnectionToClient owner = new LocalConnectionToClient();
// for syncing
owner.isReady = true;
// add a client to server connection + handler to receive syncs
owner.connectionToServer = new LocalConnectionToServer();
int ownerCalled = 0;
owner.connectionToServer.SetHandlers(new Dictionary<int, NetworkMessageDelegate>
{
{ MessagePacking.GetId<UpdateVarsMessage>(), ((conn, reader, channelId) => ++ownerCalled) }
});
identity.connectionToClient = owner;
// add an observer connection that will receive the updates
LocalConnectionToClient observer = new LocalConnectionToClient();
// we only sync to ready observers
observer.isReady = true;
// add a client to server connection + handler to receive syncs
observer.connectionToServer = new LocalConnectionToServer();
int observerCalled = 0;
observer.connectionToServer.SetHandlers(new Dictionary<int, NetworkMessageDelegate>
{
{ MessagePacking.GetId<UpdateVarsMessage>(), ((conn, reader, channelId) => ++observerCalled) }
});
identity.observers[observer.connectionId] = observer;
// set components dirty again
compA.SetDirtyBit(ulong.MaxValue);
compB.SetDirtyBit(ulong.MaxValue);
// calling update should serialize all components and send them to
// owner/observers
identity.ServerUpdate();
// update connections once so that messages are processed
owner.connectionToServer.Update();
observer.connectionToServer.Update();
// was it received on the clients?
Assert.That(ownerCalled, Is.EqualTo(1));
Assert.That(observerCalled, Is.EqualTo(1));
}
}
}

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@ -1108,42 +1108,47 @@ public void NoConnectionsTest_WithHostAndConnection()
NetworkServer.RemoveLocalConnection();
}
// updating NetworkServer with a null entry in NetworkIdentity.spawned
// should log a warning.
// updating NetworkServer with a null entry in connection.observing
// should log a warning. someone probably used GameObject.Destroy
// instead of NetworkServer.Destroy.
[Test]
public void UpdateDetectsNullEntryInSpawned()
public void UpdateDetectsNullEntryInObserving()
{
// start
NetworkServer.Listen(1);
// add null
NetworkIdentity.spawned[42] = null;
// add a connection that is observed by a null entity
NetworkServer.connections[42] = new FakeNetworkConnection{isReady=true};
NetworkServer.connections[42].observing.Add(null);
// update
LogAssert.Expect(LogType.Warning, new Regex("Found 'null' entry in spawned list.*"));
LogAssert.Expect(LogType.Warning, new Regex("Found 'null' entry in observing list.*"));
NetworkServer.NetworkLateUpdate();
// clean up
NetworkServer.Shutdown();
}
// updating NetworkServer with a null entry in NetworkIdentity.spawned
// should log a warning.
// updating NetworkServer with a null entry in connection.observing
// should log a warning. someone probably used GameObject.Destroy
// instead of NetworkServer.Destroy.
//
// => need extra test because of Unity's custom null check
[Test]
public void UpdateDetectsDestroyedEntryInSpawned()
public void UpdateDetectsDestroyedEntryInObserving()
{
// start
NetworkServer.Listen(1);
// add destroyed
// add a connection that is observed by a destroyed entity
GameObject go = new GameObject();
NetworkIdentity ni = go.AddComponent<NetworkIdentity>();
NetworkIdentity.spawned[42] = ni;
NetworkServer.connections[42] = new FakeNetworkConnection{isReady=true};
NetworkServer.connections[42].observing.Add(ni);
GameObject.DestroyImmediate(go);
// update
LogAssert.Expect(LogType.Warning, new Regex("Found 'null' entry in spawned list.*"));
LogAssert.Expect(LogType.Warning, new Regex("Found 'null' entry in observing list.*"));
NetworkServer.NetworkLateUpdate();
// clean up

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@ -1,90 +0,0 @@
#if !UNITY_2019_2_OR_NEWER || UNITY_PERFORMANCE_TESTS_1_OR_OLDER
using NUnit.Framework;
using Unity.PerformanceTesting;
using UnityEngine;
namespace Mirror.Tests.Performance
{
public class Health : NetworkBehaviour
{
[SyncVar] public int health = 10;
public void Update()
{
health = (health + 1) % 10;
}
}
[Category("Performance")]
[Category("Benchmark")]
public class NetworkIdentityPerformance
{
GameObject gameObject;
NetworkIdentity identity;
Health health;
[SetUp]
public void SetUp()
{
gameObject = new GameObject();
identity = gameObject.AddComponent<NetworkIdentity>();
identity.observers = new System.Collections.Generic.Dictionary<int, NetworkConnection>();
identity.connectionToClient = new FakeNetworkConnection(1);
identity.observers.Add(1, identity.connectionToClient);
health = gameObject.AddComponent<Health>();
health.syncMode = SyncMode.Owner;
health.syncInterval = 0f;
}
[TearDown]
public void TearDown()
{
UnityEngine.Object.DestroyImmediate(gameObject);
}
[Test]
#if UNITY_2019_2_OR_NEWER
[Performance]
#else
[PerformanceTest]
#endif
public void NetworkIdentityServerUpdateIsDirty()
{
Measure.Method(RunServerUpdateIsDirty)
.WarmupCount(10)
.MeasurementCount(100)
.Run();
}
void RunServerUpdateIsDirty()
{
for (int j = 0; j < 10000; j++)
{
health.SetDirtyBit(1UL);
identity.ServerUpdate();
}
}
[Test]
#if UNITY_2019_2_OR_NEWER
[Performance]
#else
[PerformanceTest]
#endif
public void NetworkIdentityServerUpdateNotDirty()
{
Measure.Method(RunServerUpdateNotDirty)
.WarmupCount(10)
.MeasurementCount(100)
.Run();
}
void RunServerUpdateNotDirty()
{
for (int j = 0; j < 10000; j++)
{
identity.ServerUpdate();
}
}
}
}
#endif

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@ -1,11 +0,0 @@
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@ -1,89 +0,0 @@
#if !UNITY_2019_2_OR_NEWER || UNITY_PERFORMANCE_TESTS_1_OR_OLDER
using NUnit.Framework;
using Unity.PerformanceTesting;
using UnityEngine;
namespace Mirror.Tests.Performance
{
[Category("Performance")]
[Category("Benchmark")]
public class NetworkIdentityPerformanceWithMultipleBehaviour
{
const int healthCount = 32;
GameObject gameObject;
NetworkIdentity identity;
Health[] health;
[SetUp]
public void SetUp()
{
gameObject = new GameObject();
identity = gameObject.AddComponent<NetworkIdentity>();
identity.observers = new System.Collections.Generic.Dictionary<int, NetworkConnection>();
identity.connectionToClient = new FakeNetworkConnection(1);
identity.observers.Add(1, identity.connectionToClient);
health = new Health[healthCount];
for (int i = 0; i < healthCount; i++)
{
health[i] = gameObject.AddComponent<Health>();
health[i].syncMode = SyncMode.Owner;
health[i].syncInterval = 0f;
}
}
[TearDown]
public void TearDown()
{
UnityEngine.Object.DestroyImmediate(gameObject);
}
[Test]
#if UNITY_2019_2_OR_NEWER
[Performance]
#else
[PerformanceTest]
#endif
public void ServerUpdateIsDirty()
{
Measure.Method(RunServerUpdateIsDirty)
.WarmupCount(10)
.MeasurementCount(100)
.Run();
}
void RunServerUpdateIsDirty()
{
for (int j = 0; j < 10000; j++)
{
for (int i = 0; i < healthCount; i++)
{
health[i].SetDirtyBit(1UL);
}
identity.ServerUpdate();
}
}
[Test]
#if UNITY_2019_2_OR_NEWER
[Performance]
#else
[PerformanceTest]
#endif
public void ServerUpdateNotDirty()
{
Measure.Method(RunServerUpdateNotDirty)
.WarmupCount(10)
.MeasurementCount(100)
.Run();
}
void RunServerUpdateNotDirty()
{
for (int j = 0; j < 10000; j++)
{
identity.ServerUpdate();
}
}
}
}
#endif

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