1 package at.ac.tuwien.lsdc.types;
3 import java.util.HashMap;
5 import at.ac.tuwien.lsdc.exception.ActiveApplicationsException;
6 import at.ac.tuwien.lsdc.exception.VMsRunningException;
7 import at.ac.tuwien.lsdc.types.VirtualMachine.VMType;
9 public class PhysicalMachine {
11 private static int count = 0;
13 private HashMap<Integer, VirtualMachine> VMs = new HashMap<Integer, VirtualMachine>();
17 private final int maxSize = 50000;
18 private final int maxRAM = 4700;
19 private final int maxCPU = 2400;
21 private int reservedSize;
22 private int reservedRAM;
23 private int reservedCPU;
25 private final int initialSize = 850;
26 private final int initialRAM = 300;
27 private final int initialCPU = 500;
29 private boolean running = false;
31 public PhysicalMachine() {
37 reservedSize = initialSize;
38 reservedRAM = initialRAM;
39 reservedCPU = initialCPU;
43 public void stop() throws VMsRunningException {
45 throw new VMsRunningException(
46 "PM cannot be stopped. Some VMs still running");
48 VMs = new HashMap<Integer, VirtualMachine>();
55 public double getConsumption() {
57 return 200.0 + 0.3 * (getCurrentCPU() - initialCPU);
62 public VirtualMachine startVirtualMachine(int sz, int ram, int cpu,
64 if (checkVM(sz, ram, cpu)) {
65 VirtualMachine vm = new VirtualMachine(sz, ram, cpu, this, type);
66 VMs.put(vm.getId(), vm);
67 reservedSize = reservedSize + vm.getReservedSize();
68 reservedRAM = reservedRAM + vm.getReservedRAM();
69 reservedCPU = reservedCPU + vm.getReservedCPU();
75 public void stopVirtualMachine(VirtualMachine vm)
76 throws ActiveApplicationsException {
77 if (VMs.containsKey(vm.getId())) {
78 if (vm.getApplications().size() != 0) {
79 throw new ActiveApplicationsException(
80 "Applications must be migrated before stopping a VM, VM id "
83 VMs.remove(vm.getId());
84 reservedSize = reservedSize - vm.getReservedSize();
85 reservedRAM = reservedRAM - vm.getReservedRAM();
86 reservedCPU = reservedCPU - vm.getReservedCPU();
91 public boolean checkVM(int size, int RAM, int CPU) {
92 return ((VirtualMachine.initialSize + size) <= availableSize()) && ((VirtualMachine.initialRAM + RAM) <= availableRAM())
93 && ((VirtualMachine.initialCPU + CPU) <= availableCPU());
96 private int availableSize() {
97 return maxSize - reservedSize;
100 private int availableRAM() {
101 return maxRAM - reservedRAM;
104 private int availableCPU() {
105 return maxCPU - reservedCPU;
108 public int getCurrentSize() {
109 int currSize = initialSize;
110 for (VirtualMachine vm : VMs.values())
111 currSize += vm.getSize();
115 public int getCurrentRam() {
116 int currRAM = initialRAM;
117 for (VirtualMachine vm : VMs.values())
118 currRAM += vm.getRAM();
122 public int getCurrentCPU() {
123 int currCPU = initialCPU;
124 for (VirtualMachine vm : VMs.values())
125 currCPU += vm.getCPU();
129 public double getSizeUtilization() {
130 return ((double) (reservedSize - initialSize) / (maxSize - initialSize)) * 100;
133 public double getRamUtilization() {
134 return ((double) (reservedRAM - initialRAM) / (maxRAM - initialRAM)) * 100;
137 public double getCpuUtilization() {
138 return ((double) (reservedCPU - initialCPU) / (maxCPU - initialCPU)) * 100;
141 public double getAverageUtilization() {
142 return (getSizeUtilization() + getRamUtilization() + getCpuUtilization()) / 3.0;
149 public boolean isRunning() {
153 public VirtualMachine getVirtualMachine(int id) {
157 public int countCurrentlyRunningVMs() {
158 return VMs.values().size();
161 public int getReservedSize() {
165 public int getReservedRAM() {
169 public int getReservedCPU() {