/// <summary>
/// Constructor used from Network.Dispatcher
/// </summary>
public Job(List <ExperimentalUnit> experimentalUnits, HerdAgentInfo herdAgent)
{
Name = "Job #" + jobId;
jobId++;
ExperimentalUnits = experimentalUnits;
HerdAgent = herdAgent;
}
/// <summary>
/// Returns the first experimental unit that fits the agent
/// </summary>
/// <param name="pendingExperiments">The pending experimental units</param>
/// <param name="numFreeCores">The number agent's free cores</param>
/// <param name="bAgentUsed">Is the agent already being used for another experimental unit?</param>
/// <param name="agent">The herd agent</param>
/// <returns></returns>
static ExperimentalUnit FirstFittingExperiment(List <ExperimentalUnit> pendingExperiments, int numFreeCores, bool bAgentUsed, HerdAgentInfo agent)
{
foreach (ExperimentalUnit experiment in pendingExperiments)
{
experiment.SelectedVersion = agent.BestMatch(experiment);
if (experiment.SelectedVersion != null)
{
//If NumCPUCores = "all", then the experiment only fits the agent in case it hasn't been given any other experimental unit
if ((experiment.RunTimeReqs.NumCPUCores == 0 && !bAgentUsed)
//If NumCPUCores != "all", then experiment only fits the agent if the number of cpu cores used is less than those available
|| (experiment.RunTimeReqs.NumCPUCores > 0 && experiment.RunTimeReqs.NumCPUCores <= numFreeCores))
{
return(experiment);
}
}
}
return(null);
}
void DiscoveryCallback(IAsyncResult ar)
{
UdpClient udpClient = (UdpClient)((ShepherdUdpState)(ar.AsyncState)).Client;
IPEndPoint ip = (IPEndPoint)((ShepherdUdpState)(ar.AsyncState)).Ip;
XMLStream inputXMLStream = new XMLStream();
XElement xmlDescription;
string herdAgentXMLDescription;
try
{
Byte[] receiveBytes = udpClient.EndReceive(ar, ref ip);
{
herdAgentXMLDescription = Encoding.ASCII.GetString(receiveBytes);
if (herdAgentXMLDescription.IndexOf('<') == 0)
{
xmlDescription = XElement.Parse(herdAgentXMLDescription);
HerdAgentInfo herdAgentInfo = new HerdAgentInfo();
herdAgentInfo.Parse(xmlDescription);
//we copy the ip address into the properties
herdAgentInfo.ipAddress = ip;
//we update the ack time
DateTime now = DateTime.Now;
herdAgentInfo.lastACK = now;
bool agentAddedToList = false;
lock (m_listLock)
{
if (!m_herdAgentList.ContainsKey(herdAgentInfo.ProcessorId))
{
m_herdAgentList[herdAgentInfo.IpAddressString] = herdAgentInfo; //We have to use the ip address until ProcessorId is a GUID on all deployed agents
agentAddedToList = true;
}
}
if (agentAddedToList)
{
//check how much time ago the agent list was updated
double lastUpdateElapsedTime = (now - m_lastHerdAgentListUpdate).TotalSeconds;
//notify, if we have to, that the agent list has probably changed
if (lastUpdateElapsedTime > m_herdAgentListUpdateTime)
{
m_lastHerdAgentListUpdate = now;
}
m_notifyAgentListChanged?.Invoke(herdAgentInfo);
}
}
}
udpClient.BeginReceive(new AsyncCallback(DiscoveryCallback), ar.AsyncState);
}
catch (TaskCanceledException ex)
{
LogMessage("Task canceled exception in Shepherd");
LogMessage(ex.ToString());
}
catch (Exception ex)
{
LogMessage("Exception in discovery callback function");
LogMessage(ex.StackTrace);
}
}
static ExperimentalUnit FirstFittingExperiment(List <ExperimentalUnit> pendingExperiments, int numFreeCores, bool bAgentUsed, HerdAgentInfo agent)
{
foreach (ExperimentalUnit experiment in pendingExperiments)
{
AppVersion bestMatchingVersion = agent.BestMatch(experiment.AppVersions);
if (bestMatchingVersion != null)
{
//run-time requirements are calculated when a version is selected
experiment.SelectedVersion = agent.BestMatch(experiment.AppVersions);
if (experiment.SelectedVersion == null)
{
return(null);
}
experiment.GetRuntimeRequirements(experiment.SelectedVersion, experiment.AppVersions);
if (experiment.RunTimeReqs == null)
{
return(null);
}
//Check that the version chosen for the agent supports the architecture requested by the run-time
if ((experiment.RunTimeReqs.Architecture == Herd.Network.PropValues.None ||
experiment.RunTimeReqs.Architecture == experiment.SelectedVersion.Requirements.Architecture)
&&
//If NumCPUCores = "all", then the experiment only fits the agent in case it hasn't been given any other experimental unit
((experiment.RunTimeReqs.NumCPUCores == 0 && !bAgentUsed)
//If NumCPUCores != "all", then experiment only fits the agent if the number of cpu cores used is less than those available
|| (experiment.RunTimeReqs.NumCPUCores > 0 && experiment.RunTimeReqs.NumCPUCores <= numFreeCores)))
{
return(experiment);
}
}
}
return(null);
}
