private void DisplayThreadData(WaitData data, bool allData)
{
// Save the process id value for the first item as this is the
// process that owns the thread. we'll use this to check for
// items used by other threads, from other processes later.
int startingPID = data.Nodes[0].ProcessId;
StringBuilder sb = new StringBuilder();
if (data.IsDeadlock)
{
sb.Append("DEADLOCKED: ");
}
for (int i = 0; i < data.NodeCount; i++)
{
WaitChainNativeMethods.WAITCHAIN_NODE_INFO node = data.Nodes[i];
if (node.ObjectType == WaitChainNativeMethods.WCT_OBJECT_TYPE.Thread)
{
String procName = Windows.GetProcesses().ContainsKey(node.ProcessId) ? Windows.GetProcesses()[node.ProcessId].Name : "???";
sb.Append(string.Format(" PID: {0} {1} TID: {2}", node.ProcessId, procName, node.ThreadId));
//Is this a block on a thread from another process?
if ((i > 0) && (startingPID != node.ProcessId))
{
// Yes, so show the PID and name.
sb.Append(string.Format(" PID:{0} {1} TID:{2}", node.ProcessId, procName, node.ThreadId));
}
if (allData)
{
sb.Append(string.Format(" Status: {0} Wait: {1} CS: {2:N0}", node.ObjectStatus, node.WaitTime, node.ContextSwitches));
}
if (node.ObjectStatus != WaitChainNativeMethods.WCT_OBJECT_STATUS.Blocked)
{
sb.Append(string.Format(" Status: {0}", node.ObjectStatus));
}
}
else
{
sb.Append(string.Format(" {0} Status: {1}", node.ObjectType, node.ObjectStatus));
String name = node.ObjectName;
if (!String.IsNullOrEmpty(name))
{
sb.Append(string.Format(" Name: {0}", name));
}
}
threadTree.Nodes.Add(sb.ToString());
}
}
public WaitData GetThreadWaitChain(int threadId)
{
WaitChainNativeMethods.WAITCHAIN_NODE_INFO[] data = new WaitChainNativeMethods.WAITCHAIN_NODE_INFO[WaitChainNativeMethods.WCT_MAX_NODE_COUNT];
int isDeadlock;
int nodeCount = WaitChainNativeMethods.WCT_MAX_NODE_COUNT;
WaitData retData = null;
if (WaitChainNativeMethods.GetThreadWaitChain(waitChainHandle, threadId, ref nodeCount, data, out isDeadlock))
{
retData = new WaitData(data, nodeCount, isDeadlock == 1);
}
return(retData);
}
public WaitData GetThreadWaitChain(int threadId)
{
WaitChainNativeMethods.WAITCHAIN_NODE_INFO[] data = new WaitChainNativeMethods.WAITCHAIN_NODE_INFO[WaitChainNativeMethods.WCT_MAX_NODE_COUNT];
int isDeadlock = 0;
int nodeCount = WaitChainNativeMethods.WCT_MAX_NODE_COUNT;
WaitData retData = null;
if (WaitChainNativeMethods.GetThreadWaitChain(waitChainHandle, threadId, ref nodeCount, data, out isDeadlock))
{
retData = new WaitData(data, (int)nodeCount, isDeadlock == 1);
}
return (retData);
}
private void DisplayThreadData(WaitData data, bool allData)
{
// Save the process id value for the first item as this is the
// process that owns the thread. we'll use this to check for
// items used by other threads, from other processes later.
int startingPID = data.Nodes[0].ProcessId;
StringBuilder sb = new StringBuilder();
if (data.IsDeadlock)
{
sb.Append("DEADLOCKED: ");
}
for (int i = 0; i < data.NodeCount; i++)
{
WaitChainNativeMethods.WAITCHAIN_NODE_INFO node = data.Nodes[i];
if (WaitChainNativeMethods.WCT_OBJECT_TYPE.Thread == node.ObjectType)
{
var processes = Windows.GetProcesses();
String procName = processes.ContainsKey(node.ProcessId) ? processes[node.ProcessId].Name : "???";
switch (node.ObjectStatus)
{
case WaitChainNativeMethods.WCT_OBJECT_STATUS.PidOnly:
case WaitChainNativeMethods.WCT_OBJECT_STATUS.PidOnlyRpcss:
sb.Append(string.Format(" PID: {0} {1}", node.ProcessId, procName));
break;
default:
{
sb.Append(string.Format(" TID: {0}", node.ThreadId));
//Is this a block on a thread from another process?
if ((i > 0) && (startingPID != node.ProcessId))
{
// Yes, so show the PID and name.
sb.Append(string.Format(" PID:{0} {1}", node.ProcessId, procName));
}
if (allData)
{
sb.Append(string.Format(" Status: {0} Wait: {1} CS: {2:N0}", node.ObjectStatus, node.WaitTime, node.ContextSwitches));
}
else if (node.ObjectStatus != WaitChainNativeMethods.WCT_OBJECT_STATUS.Blocked)
{
sb.Append(string.Format(" Status: {0}", node.ObjectStatus));
}
break;
}
}
}
else
{
switch (node.ObjectType)
{
case WaitChainNativeMethods.WCT_OBJECT_TYPE.CriticalSection:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.SendMessage:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.Mutex:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.Alpc:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.COM:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.ThreadWait:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.ProcessWait:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.COMActivation:
case WaitChainNativeMethods.WCT_OBJECT_TYPE.Unknown:
{
sb.Append(string.Format(" {0} Status: {1}", node.ObjectType, node.ObjectStatus));
String name = node.ObjectName();
if (!String.IsNullOrEmpty(name))
{
sb.Append(string.Format(" Name: {0}", name));
}
}
break;
default:
{
sb.Append(string.Format(" UNKNOWN Object Type Enum: {0}", node.ObjectType.ToString()));
break;
}
}
}
threadNode.Nodes.Add(sb.ToString());
threadNode.ExpandAll();
}
}