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FCFSBF_RandomPlugin.java @ 1600

Revision 1600, 5.1 KB checked in by wojtekp, 8 years ago (diff)

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1	package test.fips.models.i5;
2
3	import java.util.ArrayList;
4	import java.util.HashMap;
5	import java.util.List;
6	import java.util.Map;
7	import java.util.Random;
8
9	import org.joda.time.DateTime;
10
11	import dcworms.schedframe.scheduling.ExecTask;
12	import schedframe.events.scheduling.SchedulingEvent;
13	import schedframe.resources.ResourceStatus;
14	import schedframe.resources.StandardResourceType;
15	import schedframe.resources.computing.ComputingResource;
16	import schedframe.resources.computing.Core;
17	import schedframe.resources.computing.Node;
18	import schedframe.resources.computing.Processor;
19	import schedframe.resources.computing.profiles.energy.ResourceEvent;
20	import schedframe.resources.computing.profiles.energy.ResourceEventType;
21	import schedframe.resources.units.ProcessingElements;
22	import schedframe.resources.units.ResourceUnit;
23	import schedframe.resources.units.ResourceUnitName;
24	import schedframe.resources.units.StandardResourceUnitName;
25	import schedframe.scheduling.manager.resources.ClusterResourceManager;
26	import schedframe.scheduling.manager.resources.ResourceManager;
27	import schedframe.scheduling.manager.tasks.JobRegistry;
28	import schedframe.scheduling.plan.SchedulingPlanInterface;
29	import schedframe.scheduling.plan.impl.SchedulingPlan;
30	import schedframe.scheduling.plugin.ModuleList;
31	import schedframe.scheduling.queue.TaskQueue;
32	import schedframe.scheduling.queue.TaskQueueList;
33	import schedframe.scheduling.tasks.TaskInterface;
34	import simulator.DataCenterWorkloadSimulator;
35	import eduni.simjava.Sim_system;
36	import example.localplugin.BaseLocalSchedulingPlugin;
37	import gridsim.dcworms.DCWormsTags;
38
39	public class FCFSBF_RandomPlugin extends BaseLocalSchedulingPlugin {
40
41	private Random rand;
42
43	public FCFSBF_RandomPlugin() {
44	rand = new Random(175);
45	}
46
47	public SchedulingPlanInterface<?> schedule(SchedulingEvent event, TaskQueueList queues, JobRegistry jobRegistry,
48	ResourceManager resManager, ModuleList modules) {
49
50	ClusterResourceManager resourceManager = (ClusterResourceManager) resManager;
51	List<Node> nodes = resourceManager.getNodes();
52	SchedulingPlan plan = new SchedulingPlan();
53
54	// choose the events types to serve.
55	// Different actions for different events are possible.
56	switch (event.getType()) {
57
58
59	case START_TASK_EXECUTION:
60	case TASK_FINISHED:
61	System.out.println("aaa" + event.getType().toString());
62	// our tasks are placed only in first queue (see BaseLocalSchedulingPlugin.placeJobsInQueues() method)
63	TaskQueue q = queues.get(0);
64	// check all tasks in queue
65	for (int i = 0; i < q.size(); i++) {
66	TaskInterface<?> task = q.get(i);
67	// if status of the tasks in READY
68	if (task.getStatus() == DCWormsTags.READY) {
69	Map<ResourceUnitName, ResourceUnit> choosenResources = chooseResourcesForExecution(nodes, task);
70	if (choosenResources != null) {
71	addToSchedulingPlan(plan, task, choosenResources);
72	}
73	}
74	}
75
76	break;
77
78	}
79	return plan;
80	}
81
82
83	private Map<ResourceUnitName, ResourceUnit> chooseResourcesForExecution(
84	List<Node> nodes, TaskInterface<?> task) {
85
86	Map<ResourceUnitName, ResourceUnit> map = new HashMap<ResourceUnitName, ResourceUnit>(1);
87
88	int cpuRequest;
89	try {
90	cpuRequest = Double.valueOf(task.getCpuCntRequest()).intValue();
91	} catch (NoSuchFieldException e) {
92	cpuRequest = 0;
93	}
94
95	List<Node> filteredNodes = filterNodes(nodes, cpuRequest);
96	System.out.println("f" + filteredNodes.size());
97	if(filteredNodes.size()==0)
98	return null;
99	Node node = chooseRandomNode(filteredNodes);
100	while(node.getFreeProcessors().size() < cpuRequest){
101	node = chooseRandomNode(nodes);
102	}
103
104	if (cpuRequest != 0) {
105
106	if (node.getFreeProcessors().size() < cpuRequest) {
107	return null;
108	}
109
110	List<Processor> cpus = node.getProcessors();
111	List<ComputingResource> choosenResources = new ArrayList<ComputingResource>(cpuRequest);
112	for (int i = 0; i < cpus.size() && cpuRequest > 0; i++) {
113	if (cpus.get(i).getStatus() == ResourceStatus.FREE) {
114	choosenResources.add(cpus.get(i));
115	cpuRequest--;
116	}
117	}
118	if (cpuRequest > 0) {
119	return null;
120	}
121
122	ProcessingElements pe = new ProcessingElements();
123	pe.addAll(choosenResources);
124	map.put(StandardResourceUnitName.PE, pe);
125	return map;
126	}
127
128	return null;
129	}
130
131
132	private List<Node> filterNodes(List<Node> nodes, int cpuRequest){
133	List<Node> filteredNodes = new ArrayList<Node>();
134
135	for (Node node : nodes) {
136
137	if (cpuRequest != 0) {
138
139	List<Processor> cpus = node.getProcessors();
140	if (cpus.size() < cpuRequest) {
141	if(cpus.size() == 0){
142	if(node.getProcessors().size() < cpuRequest)
143	continue;
144	}
145	}
146
147	int freeCpus = 0;
148	for(Processor cpu: cpus){
149	if(cpu.getStatus() == ResourceStatus.FREE)
150	freeCpus++;
151	}
152
153	if(freeCpus < cpuRequest)
154	continue;
155
156	filteredNodes.add(node);
157	}
158	}
159
160	return filteredNodes;
161	}
162
163
164	private Node chooseRandomNode(List<Node> nodes) {
165	int nodeIdx = rand.nextInt(nodes.size());
166	return nodes.get(nodeIdx);
167	}
168
169
170	}
171

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