1 /*******************************************************************************
2 * Copyright (c) 2012, 2013 Ericsson, École Polytechnique de Montréal
4 * All rights reserved. This program and the accompanying materials are
5 * made available under the terms of the Eclipse Public License v1.0 which
6 * accompanies this distribution, and is available at
7 * http://www.eclipse.org/legal/epl-v10.html
10 * Patrick Tasse - Initial API and implementation
11 * Geneviève Bastien - Move code to provide base classes for time graph views
12 *******************************************************************************/
14 package org
.eclipse
.linuxtools
.internal
.lttng2
.kernel
.ui
.views
.resources
;
16 import java
.util
.ArrayList
;
17 import java
.util
.List
;
19 import org
.eclipse
.core
.runtime
.IProgressMonitor
;
20 import org
.eclipse
.linuxtools
.internal
.lttng2
.kernel
.core
.Attributes
;
21 import org
.eclipse
.linuxtools
.internal
.lttng2
.kernel
.ui
.Messages
;
22 import org
.eclipse
.linuxtools
.internal
.lttng2
.kernel
.ui
.views
.resources
.ResourcesEntry
.Type
;
23 import org
.eclipse
.linuxtools
.lttng2
.kernel
.core
.trace
.LttngKernelTrace
;
24 import org
.eclipse
.linuxtools
.tmf
.core
.exceptions
.AttributeNotFoundException
;
25 import org
.eclipse
.linuxtools
.tmf
.core
.exceptions
.StateSystemDisposedException
;
26 import org
.eclipse
.linuxtools
.tmf
.core
.exceptions
.StateValueTypeException
;
27 import org
.eclipse
.linuxtools
.tmf
.core
.exceptions
.TimeRangeException
;
28 import org
.eclipse
.linuxtools
.tmf
.core
.interval
.ITmfStateInterval
;
29 import org
.eclipse
.linuxtools
.tmf
.core
.statesystem
.ITmfStateSystem
;
30 import org
.eclipse
.linuxtools
.tmf
.core
.trace
.ITmfTrace
;
31 import org
.eclipse
.linuxtools
.tmf
.core
.trace
.TmfTraceManager
;
32 import org
.eclipse
.linuxtools
.tmf
.ui
.views
.timegraph
.AbstractTimeGraphView
;
33 import org
.eclipse
.linuxtools
.tmf
.ui
.widgets
.timegraph
.model
.ITimeEvent
;
34 import org
.eclipse
.linuxtools
.tmf
.ui
.widgets
.timegraph
.model
.NullTimeEvent
;
35 import org
.eclipse
.linuxtools
.tmf
.ui
.widgets
.timegraph
.model
.TimeEvent
;
36 import org
.eclipse
.linuxtools
.tmf
.ui
.widgets
.timegraph
.model
.TimeGraphEntry
;
39 * Main implementation for the LTTng 2.0 kernel Resource view
41 * @author Patrick Tasse
43 public class ResourcesView
extends AbstractTimeGraphView
{
46 public static final String ID
= "org.eclipse.linuxtools.lttng2.kernel.ui.views.resources"; //$NON-NLS-1$
48 private static final String
[] FILTER_COLUMN_NAMES
= new String
[] {
49 Messages
.ResourcesView_stateTypeName
52 // ------------------------------------------------------------------------
54 // ------------------------------------------------------------------------
59 public ResourcesView() {
60 super(ID
, new ResourcesPresentationProvider());
61 setFilterColumns(FILTER_COLUMN_NAMES
);
65 protected String
getNextText() {
66 return Messages
.ResourcesView_nextResourceActionNameText
;
70 protected String
getNextTooltip() {
71 return Messages
.ResourcesView_nextResourceActionToolTipText
;
75 protected String
getPrevText() {
76 return Messages
.ResourcesView_previousResourceActionNameText
;
80 protected String
getPrevTooltip() {
81 return Messages
.ResourcesView_previousResourceActionToolTipText
;
84 // ------------------------------------------------------------------------
86 // ------------------------------------------------------------------------
89 protected void buildEventList(ITmfTrace trace
, IProgressMonitor monitor
) {
90 setStartTime(Long
.MAX_VALUE
);
91 setEndTime(Long
.MIN_VALUE
);
93 ArrayList
<ResourcesEntry
> entryList
= new ArrayList
<>();
94 for (ITmfTrace aTrace
: TmfTraceManager
.getTraceSet(trace
)) {
95 if (monitor
.isCanceled()) {
98 if (aTrace
instanceof LttngKernelTrace
) {
99 LttngKernelTrace lttngKernelTrace
= (LttngKernelTrace
) aTrace
;
100 ITmfStateSystem ssq
= lttngKernelTrace
.getStateSystems().get(LttngKernelTrace
.STATE_ID
);
101 if (!ssq
.waitUntilBuilt()) {
104 long startTime
= ssq
.getStartTime();
105 long endTime
= ssq
.getCurrentEndTime() + 1;
106 ResourcesEntry groupEntry
= new ResourcesEntry(lttngKernelTrace
, aTrace
.getName(), startTime
, endTime
, 0);
107 entryList
.add(groupEntry
);
108 setStartTime(Math
.min(getStartTime(), startTime
));
109 setEndTime(Math
.max(getEndTime(), endTime
));
110 List
<Integer
> cpuQuarks
= ssq
.getQuarks(Attributes
.CPUS
, "*"); //$NON-NLS-1$
111 ResourcesEntry
[] cpuEntries
= new ResourcesEntry
[cpuQuarks
.size()];
112 for (int i
= 0; i
< cpuQuarks
.size(); i
++) {
113 int cpuQuark
= cpuQuarks
.get(i
);
114 int cpu
= Integer
.parseInt(ssq
.getAttributeName(cpuQuark
));
115 ResourcesEntry entry
= new ResourcesEntry(cpuQuark
, lttngKernelTrace
, getStartTime(), getEndTime(), Type
.CPU
, cpu
);
116 groupEntry
.addChild(entry
);
117 cpuEntries
[i
] = entry
;
119 List
<Integer
> irqQuarks
= ssq
.getQuarks(Attributes
.RESOURCES
, Attributes
.IRQS
, "*"); //$NON-NLS-1$
120 ResourcesEntry
[] irqEntries
= new ResourcesEntry
[irqQuarks
.size()];
121 for (int i
= 0; i
< irqQuarks
.size(); i
++) {
122 int irqQuark
= irqQuarks
.get(i
);
123 int irq
= Integer
.parseInt(ssq
.getAttributeName(irqQuark
));
124 ResourcesEntry entry
= new ResourcesEntry(irqQuark
, lttngKernelTrace
, getStartTime(), getEndTime(), Type
.IRQ
, irq
);
125 groupEntry
.addChild(entry
);
126 irqEntries
[i
] = entry
;
128 List
<Integer
> softIrqQuarks
= ssq
.getQuarks(Attributes
.RESOURCES
, Attributes
.SOFT_IRQS
, "*"); //$NON-NLS-1$
129 ResourcesEntry
[] softIrqEntries
= new ResourcesEntry
[softIrqQuarks
.size()];
130 for (int i
= 0; i
< softIrqQuarks
.size(); i
++) {
131 int softIrqQuark
= softIrqQuarks
.get(i
);
132 int softIrq
= Integer
.parseInt(ssq
.getAttributeName(softIrqQuark
));
133 ResourcesEntry entry
= new ResourcesEntry(softIrqQuark
, lttngKernelTrace
, getStartTime(), getEndTime(), Type
.SOFT_IRQ
, softIrq
);
134 groupEntry
.addChild(entry
);
135 softIrqEntries
[i
] = entry
;
139 putEntryList(trace
, new ArrayList
<TimeGraphEntry
>(entryList
));
141 if (trace
.equals(getTrace())) {
144 for (ResourcesEntry traceEntry
: entryList
) {
145 if (monitor
.isCanceled()) {
148 LttngKernelTrace lttngKernelTrace
= traceEntry
.getTrace();
149 ITmfStateSystem ssq
= lttngKernelTrace
.getStateSystems().get(LttngKernelTrace
.STATE_ID
);
150 long startTime
= ssq
.getStartTime();
151 long endTime
= ssq
.getCurrentEndTime() + 1;
152 long resolution
= (endTime
- startTime
) / getDisplayWidth();
153 for (TimeGraphEntry entry
: traceEntry
.getChildren()) {
154 List
<ITimeEvent
> eventList
= getEventList(entry
, startTime
, endTime
, resolution
, monitor
);
155 entry
.setEventList(eventList
);
162 protected List
<ITimeEvent
> getEventList(TimeGraphEntry entry
,
163 long startTime
, long endTime
, long resolution
,
164 IProgressMonitor monitor
) {
165 ResourcesEntry resourcesEntry
= (ResourcesEntry
) entry
;
166 ITmfStateSystem ssq
= resourcesEntry
.getTrace().getStateSystems().get(LttngKernelTrace
.STATE_ID
);
167 final long realStart
= Math
.max(startTime
, ssq
.getStartTime());
168 final long realEnd
= Math
.min(endTime
, ssq
.getCurrentEndTime() + 1);
169 if (realEnd
<= realStart
) {
172 List
<ITimeEvent
> eventList
= null;
173 int quark
= resourcesEntry
.getQuark();
176 if (resourcesEntry
.getType().equals(Type
.CPU
)) {
177 int statusQuark
= ssq
.getQuarkRelative(quark
, Attributes
.STATUS
);
178 List
<ITmfStateInterval
> statusIntervals
= ssq
.queryHistoryRange(statusQuark
, realStart
, realEnd
- 1, resolution
, monitor
);
179 eventList
= new ArrayList
<>(statusIntervals
.size());
180 long lastEndTime
= -1;
181 for (ITmfStateInterval statusInterval
: statusIntervals
) {
182 if (monitor
.isCanceled()) {
185 int status
= statusInterval
.getStateValue().unboxInt();
186 long time
= statusInterval
.getStartTime();
187 long duration
= statusInterval
.getEndTime() - time
+ 1;
188 if (!statusInterval
.getStateValue().isNull()) {
189 if (lastEndTime
!= time
&& lastEndTime
!= -1) {
190 eventList
.add(new TimeEvent(entry
, lastEndTime
, time
- lastEndTime
));
192 eventList
.add(new TimeEvent(entry
, time
, duration
, status
));
193 } else if (lastEndTime
== -1 || time
+ duration
>= endTime
) {
194 // add null event if it intersects the start or end time
195 eventList
.add(new NullTimeEvent(entry
, time
, duration
));
197 lastEndTime
= time
+ duration
;
199 } else if (resourcesEntry
.getType().equals(Type
.IRQ
)) {
200 List
<ITmfStateInterval
> irqIntervals
= ssq
.queryHistoryRange(quark
, realStart
, realEnd
- 1, resolution
, monitor
);
201 eventList
= new ArrayList
<>(irqIntervals
.size());
202 long lastEndTime
= -1;
203 boolean lastIsNull
= true;
204 for (ITmfStateInterval irqInterval
: irqIntervals
) {
205 if (monitor
.isCanceled()) {
208 long time
= irqInterval
.getStartTime();
209 long duration
= irqInterval
.getEndTime() - time
+ 1;
210 if (!irqInterval
.getStateValue().isNull()) {
211 int cpu
= irqInterval
.getStateValue().unboxInt();
212 eventList
.add(new TimeEvent(entry
, time
, duration
, cpu
));
215 if (lastEndTime
== -1) {
216 // add null event if it intersects the start time
217 eventList
.add(new NullTimeEvent(entry
, time
, duration
));
219 if (lastEndTime
!= time
&& lastIsNull
) {
220 /* This is a special case where we want to show IRQ_ACTIVE state but we don't know the CPU (it is between two null samples) */
221 eventList
.add(new TimeEvent(entry
, lastEndTime
, time
- lastEndTime
, -1));
223 if (time
+ duration
>= endTime
) {
224 // add null event if it intersects the end time
225 eventList
.add(new NullTimeEvent(entry
, time
, duration
));
230 lastEndTime
= time
+ duration
;
232 } else if (resourcesEntry
.getType().equals(Type
.SOFT_IRQ
)) {
233 List
<ITmfStateInterval
> softIrqIntervals
= ssq
.queryHistoryRange(quark
, realStart
, realEnd
- 1, resolution
, monitor
);
234 eventList
= new ArrayList
<>(softIrqIntervals
.size());
235 long lastEndTime
= -1;
236 boolean lastIsNull
= true;
237 for (ITmfStateInterval softIrqInterval
: softIrqIntervals
) {
238 if (monitor
.isCanceled()) {
241 long time
= softIrqInterval
.getStartTime();
242 long duration
= softIrqInterval
.getEndTime() - time
+ 1;
243 if (!softIrqInterval
.getStateValue().isNull()) {
244 int cpu
= softIrqInterval
.getStateValue().unboxInt();
245 eventList
.add(new TimeEvent(entry
, time
, duration
, cpu
));
247 if (lastEndTime
== -1) {
248 // add null event if it intersects the start time
249 eventList
.add(new NullTimeEvent(entry
, time
, duration
));
251 if (lastEndTime
!= time
&& lastIsNull
) {
252 /* This is a special case where we want to show IRQ_ACTIVE state but we don't know the CPU (it is between two null samples) */
253 eventList
.add(new TimeEvent(entry
, lastEndTime
, time
- lastEndTime
, -1));
255 if (time
+ duration
>= endTime
) {
256 // add null event if it intersects the end time
257 eventList
.add(new NullTimeEvent(entry
, time
, duration
));
262 lastEndTime
= time
+ duration
;
266 } catch (AttributeNotFoundException e
) {
268 } catch (TimeRangeException e
) {
270 } catch (StateValueTypeException e
) {
272 } catch (StateSystemDisposedException e
) {