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LPDS
gpucloudsim
Commits
059beb41
Commit
059beb41
authored
Dec 15, 2011
by
rodrigo.calheiros
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NetworkCloudSim merged with CloudSim
parent
09118073
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20 changed files
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+4651
-0
AggregateSwitch.java
...cloudbus/cloudsim/network/datacenter/AggregateSwitch.java
+107
-0
AppCloudlet.java
...org/cloudbus/cloudsim/network/datacenter/AppCloudlet.java
+65
-0
CloudletHPCSpaceShared.java
...s/cloudsim/network/datacenter/CloudletHPCSpaceShared.java
+808
-0
CloudletHPCSpaceSharedO.java
.../cloudsim/network/datacenter/CloudletHPCSpaceSharedO.java
+900
-0
Constants.java
...a/org/cloudbus/cloudsim/network/datacenter/Constants.java
+71
-0
EdgeSwitch.java
.../org/cloudbus/cloudsim/network/datacenter/EdgeSwitch.java
+137
-0
HostPacket.java
.../org/cloudbus/cloudsim/network/datacenter/HostPacket.java
+22
-0
MonteCarloApp.java
...g/cloudbus/cloudsim/network/datacenter/MonteCarloApp.java
+70
-0
NetDatacenterBroker.java
...dbus/cloudsim/network/datacenter/NetDatacenterBroker.java
+732
-0
NetPacket.java
...a/org/cloudbus/cloudsim/network/datacenter/NetPacket.java
+22
-0
NetworkCloudlet.java
...cloudbus/cloudsim/network/datacenter/NetworkCloudlet.java
+61
-0
NetworkDatacenter.java
...oudbus/cloudsim/network/datacenter/NetworkDatacenter.java
+196
-0
NetworkHost.java
...org/cloudbus/cloudsim/network/datacenter/NetworkHost.java
+195
-0
NetworkVm.java
...a/org/cloudbus/cloudsim/network/datacenter/NetworkVm.java
+34
-0
RootSwitch.java
.../org/cloudbus/cloudsim/network/datacenter/RootSwitch.java
+68
-0
Switch.java
...java/org/cloudbus/cloudsim/network/datacenter/Switch.java
+504
-0
TaskStage.java
...a/org/cloudbus/cloudsim/network/datacenter/TaskStage.java
+23
-0
VmHPCAllocationPolicySimple.java
...udsim/network/datacenter/VmHPCAllocationPolicySimple.java
+257
-0
WorkflowApp.java
...org/cloudbus/cloudsim/network/datacenter/WorkflowApp.java
+72
-0
testMainclass.java
...g/cloudbus/cloudsim/network/datacenter/testMainclass.java
+307
-0
No files found.
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/AggregateSwitch.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.List
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEvent
;
import
org.cloudbus.cloudsim.core.predicates.PredicateType
;
public
class
AggregateSwitch
extends
Switch
{
public
AggregateSwitch
(
String
name
,
int
level
,
NetworkDatacenter
dc
)
{
super
(
name
,
level
,
dc
);
// TODO Auto-generated constructor stub
downlinkswitchpktlist
=
new
HashMap
<
Integer
,
List
<
HostPacket
>>();
uplinkswitchpktlist
=
new
HashMap
<
Integer
,
List
<
HostPacket
>>();
uplinkbandwidth
=
Constants
.
BandWidthAggRoot
;
downlinkbandwidth
=
Constants
.
BandWidthEdgeAgg
;
latency
=
Constants
.
SwitchingDelayAgg
;
numport
=
Constants
.
AggSwitchPort
;
uplinkswitches
=
new
ArrayList
<
Switch
>();
downlinkswitches
=
new
ArrayList
<
Switch
>();
}
private
void
processpacket_down
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from up level router.
//has to send downward
//check which switch to forward to
//add packet in the switch list
//add packet in the host list
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
latency
,
CloudSimTags
.
Network_Event_send
);
if
(
this
.
level
==
Constants
.
Agg_LEVEL
)
{
//packet is coming from root so need to be sent to edgelevel swich
//find the id for edgelevel switch
int
switchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
switchid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
switchid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
}
private
void
processpacket_up
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from down level router.
//has to send up
//check which switch to forward to
//add packet in the switch list
//
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
switching_delay
,
CloudSimTags
.
Network_Event_send
);
if
(
this
.
level
==
Constants
.
Agg_LEVEL
)
{
//packet is coming from edge level router so need to be sent to either root or another edge level swich
//find the id for edgelevel switch
int
switchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
boolean
flagtoswtich
=
false
;
for
(
Switch
sw:
this
.
downlinkswitches
)
{
if
(
switchid
==
sw
.
getId
())
flagtoswtich
=
true
;
}
if
(
flagtoswtich
)
{
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
switchid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
switchid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
else
//send to up
{
Switch
sw
=
this
.
uplinkswitches
.
get
(
0
);
List
<
HostPacket
>
pktlist
=
this
.
uplinkswitchpktlist
.
get
(
sw
.
getId
());
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
uplinkswitchpktlist
.
put
(
sw
.
getId
(),
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
}
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/AppCloudlet.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.List
;
import
org.cloudbus.cloudsim.UtilizationModel
;
import
org.cloudbus.cloudsim.UtilizationModelFull
;
import
org.cloudbus.cloudsim.core.CloudSim
;
public
class
AppCloudlet
{
public
static
final
int
APP_MC
=
1
;
public
static
final
int
APP_Workflow
=
3
;
public
AppCloudlet
(
int
type
,
int
appID
,
double
deadline
,
int
numbervm
,
int
userId
)
{
super
();
this
.
type
=
type
;
this
.
appID
=
appID
;
this
.
deadline
=
deadline
;
this
.
numbervm
=
numbervm
;
this
.
userId
=
userId
;
clist
=
new
ArrayList
<
NetworkCloudlet
>();
}
public
int
type
;
//fft,fem
public
int
appID
;
public
ArrayList
<
NetworkCloudlet
>
clist
;
public
double
deadline
;
public
double
accuracy
;
public
int
numbervm
;
public
int
userId
;
public
double
exeTime
;
public
int
requestclass
;
public
void
createCloudletList
(
List
<
Integer
>
vmIdList
)
{
for
(
int
i
=
0
;
i
<
numbervm
;
i
++){
long
length
=
4
;
long
fileSize
=
300
;
long
outputSize
=
300
;
long
memory
=
256
;
int
pesNumber
=
4
;
UtilizationModel
utilizationModel
=
new
UtilizationModelFull
();
//HPCCloudlet cl=new HPCCloudlet();
NetworkCloudlet
cl
=
new
NetworkCloudlet
(
Constants
.
currentCloudletId
,
length
,
pesNumber
,
fileSize
,
outputSize
,
memory
,
utilizationModel
,
utilizationModel
,
utilizationModel
);
// setting the owner of these Cloudlets
Constants
.
currentCloudletId
++;
cl
.
setUserId
(
userId
);
cl
.
submittime
=
CloudSim
.
clock
();
// TaskStage ts=new TaskStage(Constants.EXECUTION, 0, length, 0,memory, (i+1)%numbervm);
// TaskStage ts1=new TaskStage(Constants.WAIT_SEND, 100, 0, 0, memory, (i+1)%numbervm);
// TaskStage ts2=new TaskStage(Constants.WAIT_RECV, 100, 0, 0, memory, (i+1)%numbervm);
// TaskStage ts3=new TaskStage(Constants.EXECUTION, 0, length, 0, memory, (i+1)%numbervm);
// cl.stages.add(ts);
// cl.stages.add(ts1);
// cl.stages.add(ts2);
// cl.stages.add(ts3);
// cl.submittime=CloudSim.clock();
cl
.
currStagenum
=-
1
;
clist
.
add
(
cl
);
}
//based on type
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/CloudletHPCSpaceShared.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.Collection
;
import
java.util.Collections
;
import
java.util.Comparator
;
import
java.util.HashMap
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.CloudletScheduler
;
import
org.cloudbus.cloudsim.ResCloudlet
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
public
class
CloudletHPCSpaceShared
extends
CloudletScheduler
{
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
/**
* CloudletSchedulerSpaceShared implements a policy of
* scheduling performed by a virtual machine. It consider
* that there will be only one cloudlet per VM. Other cloudlets will be in a
* waiting list. We consider that file transfer from cloudlets waiting happens
* before cloudlet execution. I.e., even though cloudlets must wait for CPU,
* data transfer happens as soon as cloudlets are submitted.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
/** The cloudlet waiting list. */
private
List
<?
extends
ResCloudlet
>
cloudletWaitingList
;
/** The cloudlet exec list. */
private
List
<?
extends
ResCloudlet
>
cloudletExecList
;
/** The cloudlet paused list. */
private
List
<?
extends
ResCloudlet
>
cloudletPausedList
;
/** The cloudlet finished list. */
private
List
<?
extends
ResCloudlet
>
cloudletFinishedList
;
/** The current CPUs. */
protected
int
currentCpus
;
/** The used PEs. */
protected
int
usedPes
;
//for network
public
Map
<
Integer
,
List
<
NetPacket
>>
pkttosend
;
public
Map
<
Integer
,
List
<
NetPacket
>>
pktrecv
;
/**
* Creates a new CloudletSchedulerSpaceShared object. This method must be invoked
* before starting the actual simulation.
*
* @pre $none
* @post $none
*/
public
CloudletHPCSpaceShared
()
{
super
();
this
.
cloudletWaitingList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletExecList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletPausedList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletFinishedList
=
new
ArrayList
<
ResCloudlet
>();
this
.
usedPes
=
0
;
this
.
currentCpus
=
0
;
this
.
pkttosend
=
new
HashMap
<
Integer
,
List
<
NetPacket
>>();
this
.
pktrecv
=
new
HashMap
<
Integer
,
List
<
NetPacket
>>();
}
/**
* Updates the processing of cloudlets running under management of this scheduler.
*
* @param currentTime current simulation time
* @param mipsShare array with MIPS share of each processor available to the scheduler
*
* @return time predicted completion time of the earliest finishing cloudlet, or 0
* if there is no next events
*
* @pre currentTime >= 0
* @post $none
*/
@Override
public
double
updateVmProcessing
(
double
currentTime
,
List
<
Double
>
mipsShare
)
{
setCurrentMipsShare
(
mipsShare
);
double
timeSpam
=
currentTime
-
getPreviousTime
();
// time since last update
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
mipsShare
)
{
// count the CPUs available to the VMM
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// average capacity of each cpu
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
// each machine in the exec list has the same amount of cpu
NetworkCloudlet
cl
=(
NetworkCloudlet
)
rcl
.
getCloudlet
();
if
((
cl
.
currStagenum
!=-
1
))
{
if
(
cl
.
currStagenum
==
Constants
.
FINISH
){
//long len=rcl.getRemainingCloudletLength();
//rcl.updateCloudletFinishedSoFar(len);
break
;
}
TaskStage
st
=
cl
.
stages
.
get
(
cl
.
currStagenum
);
if
(
st
.
type
==
Constants
.
EXECUTION
)
{
//rcl.updateCloudletFinishedSoFar((long) (capacity * Math.round(timeSpam) * rcl.getPesNumber()));
//update the time
cl
.
timespentInStage
=
Math
.
round
(
CloudSim
.
clock
()-
cl
.
timetostartStage
);
if
(
cl
.
timespentInStage
>=
st
.
time
)
{
changetonextstage
(
cl
,
st
);
//change the stage
}
}
if
(
st
.
type
==
Constants
.
WAIT_RECV
)
{
List
<
NetPacket
>
pktlist
=
this
.
pktrecv
.
get
(
st
.
peer
);
List
<
NetPacket
>
pkttoremove
=
new
ArrayList
<
NetPacket
>();
if
(
pktlist
!=
null
)
{
Iterator
it
=
pktlist
.
iterator
();
NetPacket
pkt
=
null
;
if
(
it
.
hasNext
())
{
pkt
=(
NetPacket
)
it
.
next
();
if
(
pkt
.
reciever
==
cl
.
getVmId
())
//Asumption packet will not arrive in the same cycle
{
pkt
.
recievetime
=
CloudSim
.
clock
();
st
.
time
=
CloudSim
.
clock
()-
pkt
.
sendtime
;
changetonextstage
(
cl
,
st
);
pkttoremove
.
add
(
pkt
);
}
}
pktlist
.
removeAll
(
pkttoremove
);
//if(pkt!=null)
//else wait for recieving the packet
}
}
}
else
{
cl
.
currStagenum
=
0
;
cl
.
timetostartStage
=
CloudSim
.
clock
();
if
(
cl
.
stages
.
get
(
0
).
type
==
Constants
.
EXECUTION
)
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
cl
.
stages
.
get
(
0
).
time
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
else
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
0.0001
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
///sendstage///
}
//check status
//if execution stage
//update the cloudlet finishtime
//CHECK WHETHER IT IS WAITING FOR THE PACKET
// if packet received change the status of job and update the time.
//
//rcl.updateCloudletFinishedSoFar((long) (capacity * timeSpam * rcl.getPesNumber()));
}
if
(
getCloudletExecList
().
size
()
==
0
&&
getCloudletWaitingList
().
size
()
==
0
)
{
// no more cloudlets in this scheduler
setPreviousTime
(
currentTime
);
return
0.0
;
}
//update each cloudlet
int
finished
=
0
;
int
cont
=
0
;
List
<
ResCloudlet
>
toRemove
=
new
ArrayList
<
ResCloudlet
>();
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
//if (rcl.getRemainingCloudletLength() == 0.0) {// finished anyway, rounding issue...
if
(((
NetworkCloudlet
)(
rcl
.
getCloudlet
())).
currStagenum
==
Constants
.
FINISH
){
//stage is changed and packet to send
((
NetworkCloudlet
)(
rcl
.
getCloudlet
())).
finishtime
=
CloudSim
.
clock
();
toRemove
.
add
(
rcl
);
cloudletFinish
(
rcl
);
finished
++;
}
cont
++;
}
getCloudletExecList
().
removeAll
(
toRemove
);
//add all the CloudletExecList in waitingList.
//sort the waitinglist
//
//for each finished cloudlet, add a new one from the waiting list
if
(!
getCloudletWaitingList
().
isEmpty
())
{
for
(
int
i
=
0
;
i
<
finished
;
i
++)
{
toRemove
.
clear
();
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
((
currentCpus
-
usedPes
)
>=
rcl
.
getPesNumber
())
{
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
k
=
0
;
k
<
rcl
.
getPesNumber
();
k
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
rcl
.
getPesNumber
();
toRemove
.
add
(
rcl
);
break
;
}
}
getCloudletWaitingList
().
removeAll
(
toRemove
);
}
// for(cont)
}
//estimate finish time of cloudlets in the execution queue
double
nextEvent
=
Double
.
MAX_VALUE
;
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
double
remainingLength
=
rcl
.
getRemainingCloudletLength
();
double
estimatedFinishTime
=
currentTime
+
(
remainingLength
/
(
capacity
*
rcl
.
getPesNumber
()));
if
(
estimatedFinishTime
-
currentTime
<
0.1
)
{
estimatedFinishTime
=
currentTime
+
0.1
;
}
if
(
estimatedFinishTime
<
nextEvent
)
{
nextEvent
=
estimatedFinishTime
;
}
}
setPreviousTime
(
currentTime
);
return
nextEvent
;
}
private
void
changetonextstage
(
NetworkCloudlet
cl
,
TaskStage
st
)
{
// TODO Auto-generated method stub
cl
.
timespentInStage
=
0
;
cl
.
timetostartStage
=
CloudSim
.
clock
();
int
currstage
=
cl
.
currStagenum
;
if
(
currstage
>=(
cl
.
stages
.
size
()-
1
))
cl
.
currStagenum
=
Constants
.
FINISH
;
else
{
cl
.
currStagenum
=
currstage
+
1
;
TaskStage
st1
=
cl
.
stages
.
get
(
cl
.
currStagenum
);
int
i
=
0
;
for
(
i
=
cl
.
currStagenum
;
i
<
cl
.
stages
.
size
();
i
++)
{
if
(
cl
.
stages
.
get
(
i
).
type
==
Constants
.
WAIT_SEND
)
{
NetPacket
pkt
=
new
NetPacket
(
cl
.
getVmId
(),
cl
.
stages
.
get
(
i
).
peer
,
cl
.
stages
.
get
(
i
).
data
,
CloudSim
.
clock
(),-
1
,
cl
.
getCloudletId
(),
cl
.
stages
.
get
(
i
).
vpeer
);
List
<
NetPacket
>
pktlist
=
this
.
pkttosend
.
get
(
cl
.
getVmId
());
if
(
pktlist
==
null
)
pktlist
=
new
ArrayList
<
NetPacket
>();
pktlist
.
add
(
pkt
);
this
.
pkttosend
.
put
(
cl
.
getVmId
(),
pktlist
);
}
else
break
;
}
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
0.0001
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
if
(
i
==
cl
.
stages
.
size
())
cl
.
currStagenum
=
Constants
.
FINISH
;
else
{
cl
.
currStagenum
=
i
;
if
(
cl
.
stages
.
get
(
i
).
type
==
Constants
.
EXECUTION
)
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
cl
.
stages
.
get
(
i
).
time
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
}
}
}
/**
* Cancels execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being cancealed
*
* @return the canceled cloudlet, $null if not found
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
cloudletCancel
(
int
cloudletId
)
{
//First, looks in the finished queue
for
(
ResCloudlet
rcl
:
getCloudletFinishedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletFinishedList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
//Then searches in the exec list
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletExecList
().
remove
(
rcl
);
if
(
rcl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rcl
);
}
else
{
rcl
.
setCloudletStatus
(
Cloudlet
.
CANCELED
);
}
return
rcl
.
getCloudlet
();
}
}
//Now, looks in the paused queue
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletPausedList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
//Finally, looks in the waiting list
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
rcl
.
setCloudletStatus
(
Cloudlet
.
CANCELED
);
getCloudletWaitingList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
return
null
;
}
/**
* Pauses execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being paused
*
* @return $true if cloudlet paused, $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
boolean
cloudletPause
(
int
cloudletId
)
{
boolean
found
=
false
;
int
position
=
0
;
//first, looks for the cloudlet in the exec list
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
){
//moves to the paused list
ResCloudlet
rgl
=
getCloudletExecList
().
remove
(
position
);
if
(
rgl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rgl
);
}
else
{
rgl
.
setCloudletStatus
(
Cloudlet
.
PAUSED
);
getCloudletPausedList
().
add
(
rgl
);
}
return
true
;
}
//now, look for the cloudlet in the waiting list
position
=
0
;
found
=
false
;
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
)
{
// moves to the paused list
ResCloudlet
rgl
=
getCloudletWaitingList
().
remove
(
position
);
if
(
rgl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rgl
);
}
else
{
rgl
.
setCloudletStatus
(
Cloudlet
.
PAUSED
);
getCloudletPausedList
().
add
(
rgl
);
}
return
true
;
}
return
false
;
}
/**
* Processes a finished cloudlet.
*
* @param rcl finished cloudlet
*
* @pre rgl != $null
* @post $none
*/
@Override
public
void
cloudletFinish
(
ResCloudlet
rcl
)
{
rcl
.
setCloudletStatus
(
Cloudlet
.
SUCCESS
);
rcl
.
finalizeCloudlet
();
getCloudletFinishedList
().
add
(
rcl
);
usedPes
-=
rcl
.
getPesNumber
();
}
/**
* Resumes execution of a paused cloudlet.
*
* @param cloudletId ID of the cloudlet being resumed
*
* @return $true if the cloudlet was resumed, $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
double
cloudletResume
(
int
cloudletId
)
{
boolean
found
=
false
;
int
position
=
0
;
//look for the cloudlet in the paused list
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
){
ResCloudlet
rcl
=
getCloudletPausedList
().
remove
(
position
);
if
((
currentCpus
-
usedPes
)
>=
rcl
.
getPesNumber
())
{
// it can go to the exec list
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
i
=
0
;
i
<
rcl
.
getPesNumber
();
i
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
long
size
=
rcl
.
getRemainingCloudletLength
();
size
*=
rcl
.
getPesNumber
();
rcl
.
getCloudlet
().
setCloudletLength
(
size
);
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
rcl
.
getPesNumber
();
// calculate the expected time for cloudlet completion
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
getCurrentMipsShare
())
{
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
long
remainingLength
=
rcl
.
getRemainingCloudletLength
();
double
estimatedFinishTime
=
CloudSim
.
clock
()
+
(
remainingLength
/
(
capacity
*
rcl
.
getPesNumber
()));
return
estimatedFinishTime
;
}
else
{
// no enough free PEs: go to the waiting queue
rcl
.
setCloudletStatus
(
Cloudlet
.
QUEUED
);
long
size
=
rcl
.
getRemainingCloudletLength
();
size
*=
rcl
.
getPesNumber
();
rcl
.
getCloudlet
().
setCloudletLength
(
size
);
getCloudletWaitingList
().
add
(
rcl
);
return
0.0
;
}
}
//not found in the paused list: either it is in in the queue, executing or not exist
return
0.0
;
}
/**
* Receives an cloudlet to be executed in the VM managed by this scheduler.
*
* @param cloudlet the submited cloudlet
* @param fileTransferTime time required to move the required files from the SAN to the VM
*
* @return expected finish time of this cloudlet, or 0 if it is in the waiting queue
*
* @pre gl != null
* @post $none
*/
@Override
public
double
cloudletSubmit
(
Cloudlet
cloudlet
,
double
fileTransferTime
)
{
if
((
currentCpus
-
usedPes
)
>=
cloudlet
.
getPesNumber
())
{
// it can go to the exec list
ResCloudlet
rcl
=
new
ResCloudlet
(
cloudlet
);
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
i
=
0
;
i
<
cloudlet
.
getPesNumber
();
i
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
cloudlet
.
getPesNumber
();
}
else
{
// no enough free PEs: go to the waiting queue
ResCloudlet
rcl
=
new
ResCloudlet
(
cloudlet
);
rcl
.
setCloudletStatus
(
Cloudlet
.
QUEUED
);
getCloudletWaitingList
().
add
(
rcl
);
return
0.0
;
}
// calculate the expected time for cloudlet completion
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
getCurrentMipsShare
())
{
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// use the current capacity to estimate the extra amount of
// time to file transferring. It must be added to the cloudlet length
double
extraSize
=
capacity
*
fileTransferTime
;
long
length
=
cloudlet
.
getCloudletLength
();
length
+=
extraSize
;
cloudlet
.
setCloudletLength
(
length
);
return
cloudlet
.
getCloudletLength
()
/
capacity
;
}
/* (non-Javadoc)
* @see cloudsim.CloudletScheduler#cloudletSubmit(cloudsim.Cloudlet)
*/
@Override
public
double
cloudletSubmit
(
Cloudlet
cloudlet
)
{
cloudletSubmit
(
cloudlet
,
0
);
return
0
;
}
/**
* Gets the status of a cloudlet.
*
* @param cloudletId ID of the cloudlet
*
* @return status of the cloudlet, -1 if cloudlet not found
*
* @pre $none
* @post $none
*/
@Override
public
int
getCloudletStatus
(
int
cloudletId
)
{
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
return
-
1
;
}
/**
* Get utilization created by all cloudlets.
*
* @param time the time
*
* @return total utilization
*/
@Override
public
double
getTotalUtilizationOfCpu
(
double
time
)
{
double
totalUtilization
=
0
;
for
(
ResCloudlet
gl
:
getCloudletExecList
())
{
totalUtilization
+=
gl
.
getCloudlet
().
getUtilizationOfCpu
(
time
);
}
return
totalUtilization
;
}
/**
* Informs about completion of some cloudlet in the VM managed
* by this scheduler.
*
* @return $true if there is at least one finished cloudlet; $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
boolean
isFinishedCloudlets
()
{
return
getCloudletFinishedList
().
size
()
>
0
;
}
/**
* Returns the next cloudlet in the finished list, $null if this list is empty.
*
* @return a finished cloudlet
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
getNextFinishedCloudlet
()
{
if
(
getCloudletFinishedList
().
size
()
>
0
)
{
return
getCloudletFinishedList
().
remove
(
0
).
getCloudlet
();
}
return
null
;
}
/**
* Returns the number of cloudlets runnning in the virtual machine.
*
* @return number of cloudlets runnning
*
* @pre $none
* @post $none
*/
@Override
public
int
runningCloudlets
()
{
return
getCloudletExecList
().
size
();
}
/**
* Returns one cloudlet to migrate to another vm.
*
* @return one running cloudlet
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
migrateCloudlet
()
{
ResCloudlet
rcl
=
getCloudletExecList
().
remove
(
0
);
rcl
.
finalizeCloudlet
();
Cloudlet
cl
=
rcl
.
getCloudlet
();
usedPes
-=
cl
.
getPesNumber
();
return
cl
;
}
/**
* Gets the cloudlet waiting list.
*
* @param <T> the generic type
* @return the cloudlet waiting list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletWaitingList
()
{
return
(
List
<
T
>)
cloudletWaitingList
;
}
/**
* Cloudlet waiting list.
*
* @param <T> the generic type
* @param cloudletWaitingList the cloudlet waiting list
*/
protected
<
T
extends
ResCloudlet
>
void
cloudletWaitingList
(
List
<
T
>
cloudletWaitingList
)
{
this
.
cloudletWaitingList
=
cloudletWaitingList
;
}
/**
* Gets the cloudlet exec list.
*
* @param <T> the generic type
* @return the cloudlet exec list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletExecList
()
{
return
(
List
<
T
>)
cloudletExecList
;
}
/**
* Sets the cloudlet exec list.
*
* @param <T> the generic type
* @param cloudletExecList the new cloudlet exec list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletExecList
(
List
<
T
>
cloudletExecList
)
{
this
.
cloudletExecList
=
cloudletExecList
;
}
/**
* Gets the cloudlet paused list.
*
* @param <T> the generic type
* @return the cloudlet paused list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletPausedList
()
{
return
(
List
<
T
>)
cloudletPausedList
;
}
/**
* Sets the cloudlet paused list.
*
* @param <T> the generic type
* @param cloudletPausedList the new cloudlet paused list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletPausedList
(
List
<
T
>
cloudletPausedList
)
{
this
.
cloudletPausedList
=
cloudletPausedList
;
}
/**
* Gets the cloudlet finished list.
*
* @param <T> the generic type
* @return the cloudlet finished list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletFinishedList
()
{
return
(
List
<
T
>)
cloudletFinishedList
;
}
/**
* Sets the cloudlet finished list.
*
* @param <T> the generic type
* @param cloudletFinishedList the new cloudlet finished list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletFinishedList
(
List
<
T
>
cloudletFinishedList
)
{
this
.
cloudletFinishedList
=
cloudletFinishedList
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getCurrentRequestedMips()
*/
@Override
public
List
<
Double
>
getCurrentRequestedMips
()
{
List
<
Double
>
mipsShare
=
new
ArrayList
<
Double
>();
if
(
getCurrentMipsShare
()
!=
null
)
{
for
(
Double
mips
:
getCurrentMipsShare
())
{
mipsShare
.
add
(
mips
);
}
}
return
mipsShare
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentAvailableMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, java.util.List)
*/
@Override
public
double
getTotalCurrentAvailableMipsForCloudlet
(
ResCloudlet
rcl
,
List
<
Double
>
mipsShare
)
{
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
mipsShare
)
{
// count the cpus available to the vmm
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// average capacity of each cpu
return
capacity
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentAllocatedMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public
double
getTotalCurrentAllocatedMipsForCloudlet
(
ResCloudlet
rcl
,
double
time
)
{
// TODO Auto-generated method stub
return
0.0
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentRequestedMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public
double
getTotalCurrentRequestedMipsForCloudlet
(
ResCloudlet
rcl
,
double
time
)
{
// TODO Auto-generated method stub
return
0.0
;
}
@Override
public
double
getCurrentRequestedUtilizationOfBw
()
{
// TODO Auto-generated method stub
return
0
;
}
@Override
public
double
getCurrentRequestedUtilizationOfRam
()
{
// TODO Auto-generated method stub
return
0
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/CloudletHPCSpaceSharedO.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.Collection
;
import
java.util.Collections
;
import
java.util.Comparator
;
import
java.util.HashMap
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.CloudletScheduler
;
import
org.cloudbus.cloudsim.ResCloudlet
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
public
class
CloudletHPCSpaceSharedO
extends
CloudletScheduler
{
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
/**
* CloudletSchedulerSpaceShared implements a policy of
* scheduling performed by a virtual machine. It consider
* that there will be only one cloudlet per VM. Other cloudlets will be in a
* waiting list. We consider that file transfer from cloudlets waiting happens
* before cloudlet execution. I.e., even though cloudlets must wait for CPU,
* data transfer happens as soon as cloudlets are submitted.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
/** The cloudlet waiting list. */
private
List
<?
extends
ResCloudlet
>
cloudletWaitingList
;
/** The cloudlet exec list. */
private
List
<?
extends
ResCloudlet
>
cloudletExecList
;
/** The cloudlet paused list. */
private
List
<?
extends
ResCloudlet
>
cloudletPausedList
;
/** The cloudlet finished list. */
private
List
<?
extends
ResCloudlet
>
cloudletFinishedList
;
/** The current CPUs. */
protected
int
currentCpus
;
/** The used PEs. */
protected
int
usedPes
;
//for network
private
ResCloudlet
buffered
;
//to overlap with communication
private
double
lastbufferUpdateTime
;
public
Map
<
Integer
,
List
<
NetPacket
>>
pkttosend
;
public
Map
<
Integer
,
List
<
NetPacket
>>
pktrecv
;
/**
* Creates a new CloudletSchedulerSpaceShared object. This method must be invoked
* before starting the actual simulation.
*
* @pre $none
* @post $none
*/
public
CloudletHPCSpaceSharedO
()
{
super
();
this
.
cloudletWaitingList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletExecList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletPausedList
=
new
ArrayList
<
ResCloudlet
>();
this
.
cloudletFinishedList
=
new
ArrayList
<
ResCloudlet
>();
this
.
usedPes
=
0
;
this
.
currentCpus
=
0
;
this
.
pkttosend
=
new
HashMap
<
Integer
,
List
<
NetPacket
>>();
this
.
pktrecv
=
new
HashMap
<
Integer
,
List
<
NetPacket
>>();
//this.buffered=new ArrayList<ResCloudlet>();
}
/**
* Updates the processing of cloudlets running under management of this scheduler.
*
* @param currentTime current simulation time
* @param mipsShare array with MIPS share of each processor available to the scheduler
*
* @return time predicted completion time of the earliest finishing cloudlet, or 0
* if there is no next events
*
* @pre currentTime >= 0
* @post $none
*/
public
double
updateVmProcessing
(
double
currentTime
,
List
<
Double
>
mipsShare
)
{
setCurrentMipsShare
(
mipsShare
);
double
timeSpam
=
currentTime
-
getPreviousTime
();
// time since last update
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
mipsShare
)
{
// count the CPUs available to the VMM
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// average capacity of each cpu
if
(
getCloudletExecList
().
size
()>
1
)
System
.
out
.
println
(
"Something is wrong "
+
getCloudletExecList
().
size
());
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
// each machine in the exec list has the same amount of cpu
NetworkCloudlet
cl
=(
NetworkCloudlet
)
rcl
.
getCloudlet
();
if
((
cl
.
currStagenum
!=-
1
))
{
if
(
cl
.
currStagenum
==
Constants
.
FINISH
){
//long len=rcl.getRemainingCloudletLength();
//rcl.updateCloudletFinishedSoFar(len);
break
;
}
TaskStage
st
=
cl
.
stages
.
get
(
cl
.
currStagenum
);
if
(
st
.
type
==
Constants
.
EXECUTION
)
{
//if(Constants.logflag)
//System.out.println(cl.getCloudletId()+ "Cloudlet is in Execution: "+ CloudSim.clock());
//rcl.updateCloudletFinishedSoFar((long) (capacity * Math.round(timeSpam) * rcl.getPesNumber()));
//update the time
cl
.
timespentInStage
+=
Math
.
round
(
CloudSim
.
clock
()-
cl
.
timetostartStage
);
if
(
cl
.
getCloudletId
()==
198
)
System
.
out
.
println
(
"I am in 198 "
+
CloudSim
.
clock
());
if
(
cl
.
timespentInStage
>=
st
.
time
)
{
if
(
cl
.
getCloudletId
()==
198
)
System
.
out
.
println
(
"I am in 198 "
+
CloudSim
.
clock
());
changetonextstage
(
cl
,
st
);
//change the stage
}
}
if
(
st
.
type
==
Constants
.
WAIT_RECV
)
{
List
<
NetPacket
>
pktlist
=
this
.
pktrecv
.
get
(
st
.
vpeer
);
if
(
Constants
.
logflag
)
System
.
out
.
println
(
cl
.
getCloudletId
()+
"Cloudlet is in Recieve: "
+
CloudSim
.
clock
());
List
<
NetPacket
>
pkttoremove
=
new
ArrayList
<
NetPacket
>();
if
(
pktlist
!=
null
){
if
(
pktlist
.
size
()!=
0
)
{
Iterator
it
=
pktlist
.
iterator
();
NetPacket
pkt
=
null
;
while
(
it
.
hasNext
())
{
pkt
=(
NetPacket
)
it
.
next
();
if
(
pkt
.
virtualrecvid
==
cl
.
getCloudletId
())
//Asumption packet will not arrive in the same cycle
{
pkt
.
recievetime
=
CloudSim
.
clock
();
st
.
time
=
CloudSim
.
clock
()-
pkt
.
sendtime
;
changetonextstage
(
cl
,
st
);
pkttoremove
.
add
(
pkt
);
}
}
pktlist
.
removeAll
(
pkttoremove
);
//if(pkt!=null)
//else wait for recieving the packet
}
}
if
(
buffered
!=
null
)
updatebuffered
(
CloudSim
.
clock
());
else
{
//System.out.println("Update Buffer");
}
}
}
else
{
cl
.
currStagenum
=
0
;
cl
.
timetostartStage
=
CloudSim
.
clock
();
if
(
cl
.
stages
.
get
(
0
).
type
==
Constants
.
EXECUTION
)
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
cl
.
stages
.
get
(
0
).
time
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
else
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
0.0001
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
///sendstage///
}
//check status
//if execution stage
//update the cloudlet finishtime
//CHECK WHETHER IT IS WAITING FOR THE PACKET
// if packet received change the status of job and update the time.
//
//rcl.updateCloudletFinishedSoFar((long) (capacity * timeSpam * rcl.getPesNumber()));
}
if
(
getCloudletExecList
().
size
()
==
0
&&
getCloudletWaitingList
().
size
()
==
0
)
{
// no more cloudlets in this scheduler
setPreviousTime
(
currentTime
);
return
0.0
;
}
//update each cloudlet
int
finished
=
0
;
int
cont
=
0
;
List
<
ResCloudlet
>
toRemove
=
new
ArrayList
<
ResCloudlet
>();
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
//if (rcl.getRemainingCloudletLength() == 0.0) {// finished anyway, rounding issue...
if
(((
NetworkCloudlet
)(
rcl
.
getCloudlet
())).
currStagenum
==
Constants
.
FINISH
){
//stage is changed and packet to send
System
.
out
.
println
(
rcl
.
getCloudletId
()+
"Cloudlet is in finished: "
+
CloudSim
.
clock
());
((
NetworkCloudlet
)(
rcl
.
getCloudlet
())).
finishtime
=
CloudSim
.
clock
();
toRemove
.
add
(
rcl
);
cloudletFinish
(
rcl
);
finished
++;
}
cont
++;
}
getCloudletExecList
().
removeAll
(
toRemove
);
//add all the CloudletExecList in waitingList.
//sort the waitinglist
//
//for each finished cloudlet, add a new one from the waiting list
if
(!
getCloudletWaitingList
().
isEmpty
())
{
if
(
this
.
buffered
==
null
){
buffered
=
getCloudletWaitingList
().
get
(
0
);
NetworkCloudlet
cl
=(
NetworkCloudlet
)(
buffered
.
getCloudlet
());
cl
.
currStagenum
=
0
;
cl
.
timetostartStage
=
CloudSim
.
clock
();
}
for
(
int
i
=
0
;
i
<
finished
;
i
++)
{
toRemove
.
clear
();
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
((
currentCpus
-
usedPes
)
>=
rcl
.
getPesNumber
())
{
NetworkCloudlet
cl1
=(
NetworkCloudlet
)(
rcl
.
getCloudlet
());
if
(
cl1
.
currStagenum
==
Constants
.
FINISH
)
{
System
.
out
.
println
(
rcl
.
getCloudletId
()+
"Cloudlet is in finished: "
+
CloudSim
.
clock
());
((
NetworkCloudlet
)(
rcl
.
getCloudlet
())).
finishtime
=
CloudSim
.
clock
();
rcl
.
setCloudletStatus
(
Cloudlet
.
SUCCESS
);
rcl
.
finalizeCloudlet
();
getCloudletFinishedList
().
add
(
rcl
);
toRemove
.
add
(
rcl
);
continue
;
}
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
k
=
0
;
k
<
rcl
.
getPesNumber
();
k
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
rcl
.
getPesNumber
();
toRemove
.
add
(
rcl
);
// if(buffered!=null){
// HPCCloudlet cl=(HPCCloudlet)(buffered.getCloudlet());
// cl.timetostartStage=CloudSim.clock();
// }
buffered
=
null
;
break
;
}
}
getCloudletWaitingList
().
removeAll
(
toRemove
);
}
// for(cont)
}
//estimate finish time of cloudlets in the execution queue
double
nextEvent
=
Double
.
MAX_VALUE
;
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
double
remainingLength
=
rcl
.
getRemainingCloudletLength
();
NetworkCloudlet
cl
=(
NetworkCloudlet
)
rcl
.
getCloudlet
();
if
(
cl
.
currStagenum
==-
1
)
{
cl
.
currStagenum
=
0
;
}
double
estimatedFinishTime
=
currentTime
+
cl
.
stages
.
get
(
cl
.
currStagenum
).
time
;
//currentTime + (remainingLength / (capacity * rcl.getPesNumber()));
if
(
estimatedFinishTime
-
currentTime
<
0.1
)
{
estimatedFinishTime
=
currentTime
+
0.1
;
}
if
(
estimatedFinishTime
<
nextEvent
)
{
nextEvent
=
estimatedFinishTime
;
}
}
setPreviousTime
(
currentTime
);
return
nextEvent
;
}
private
void
updatebuffered
(
double
time
)
{
// TODO Auto-generated method stub
NetworkCloudlet
cl
=(
NetworkCloudlet
)(
buffered
.
getCloudlet
());
if
(
cl
.
currStagenum
==
Constants
.
FINISH
){
System
.
out
.
println
(
cl
.
getCloudletId
()+
"Cloudlet is in finished: "
+
CloudSim
.
clock
());
cl
.
finishtime
=
CloudSim
.
clock
();
buffered
.
setCloudletStatus
(
Cloudlet
.
SUCCESS
);
buffered
.
finalizeCloudlet
();
getCloudletFinishedList
().
add
(
buffered
);
this
.
getCloudletWaitingList
().
remove
(
buffered
);
buffered
=
null
;
return
;
}
time
=
CloudSim
.
clock
()-
this
.
lastbufferUpdateTime
;
TaskStage
st
=
cl
.
stages
.
get
(
cl
.
currStagenum
);
if
(
st
.
type
==
Constants
.
EXECUTION
)
{
//rcl.updateCloudletFinishedSoFar((long) (capacity * Math.round(timeSpam) * rcl.getPesNumber()));
//update the time
cl
.
timespentInStage
+=
time
;
//cl.timetostartStage=CloudSim.clock();
if
(
cl
.
timespentInStage
>=
st
.
time
)
{
changetonextstage
(
cl
,
st
);
//change the stage
}
}
}
private
void
changetonextstage
(
NetworkCloudlet
cl
,
TaskStage
st
)
{
// TODO Auto-generated method stub
cl
.
timespentInStage
=
0
;
cl
.
timetostartStage
=
CloudSim
.
clock
();
int
currstage
=
cl
.
currStagenum
;
if
(
currstage
>=(
cl
.
stages
.
size
()-
1
))
cl
.
currStagenum
=
Constants
.
FINISH
;
else
{
if
(
cl
.
currStagenum
==
Constants
.
FINISH
)
return
;
cl
.
currStagenum
=
currstage
+
1
;
TaskStage
st1
=
cl
.
stages
.
get
(
cl
.
currStagenum
);
int
i
=
0
;
for
(
i
=
cl
.
currStagenum
;
i
<
cl
.
stages
.
size
();
i
++)
{
if
(
cl
.
stages
.
get
(
i
).
type
==
Constants
.
WAIT_SEND
)
{
if
(
Constants
.
logflag
)
System
.
out
.
println
(
cl
.
getCloudletId
()+
"Cloudlet is in Sending: "
+
CloudSim
.
clock
());
NetPacket
pkt
=
new
NetPacket
(
cl
.
getVmId
(),
cl
.
stages
.
get
(
i
).
peer
,
cl
.
stages
.
get
(
i
).
data
,
CloudSim
.
clock
(),-
1
,
cl
.
getCloudletId
(),
cl
.
stages
.
get
(
i
).
vpeer
);
List
<
NetPacket
>
pktlist
=
this
.
pkttosend
.
get
(
cl
.
getVmId
());
if
(
pktlist
==
null
)
pktlist
=
new
ArrayList
<
NetPacket
>();
pktlist
.
add
(
pkt
);
this
.
pkttosend
.
put
(
cl
.
getVmId
(),
pktlist
);
}
else
break
;
}
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
0.0001
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
if
(
i
==
cl
.
stages
.
size
())
cl
.
currStagenum
=
Constants
.
FINISH
;
else
{
cl
.
currStagenum
=
i
;
if
(
cl
.
stages
.
get
(
i
).
type
==
Constants
.
EXECUTION
)
NetDatacenterBroker
.
linkDC
.
schedule
(
NetDatacenterBroker
.
linkDC
.
getId
(),
cl
.
stages
.
get
(
i
).
time
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
if
(
cl
.
stages
.
get
(
i
).
type
==
Constants
.
WAIT_RECV
)
{
if
(
buffered
!=
null
)
this
.
lastbufferUpdateTime
=
CloudSim
.
clock
();
}
}
}
}
/**
* Cancels execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being cancealed
*
* @return the canceled cloudlet, $null if not found
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
cloudletCancel
(
int
cloudletId
)
{
//First, looks in the finished queue
for
(
ResCloudlet
rcl
:
getCloudletFinishedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletFinishedList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
//Then searches in the exec list
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletExecList
().
remove
(
rcl
);
if
(
rcl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rcl
);
}
else
{
rcl
.
setCloudletStatus
(
Cloudlet
.
CANCELED
);
}
return
rcl
.
getCloudlet
();
}
}
//Now, looks in the paused queue
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
getCloudletPausedList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
//Finally, looks in the waiting list
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
rcl
.
setCloudletStatus
(
Cloudlet
.
CANCELED
);
getCloudletWaitingList
().
remove
(
rcl
);
return
rcl
.
getCloudlet
();
}
}
return
null
;
}
/**
* Pauses execution of a cloudlet.
*
* @param cloudletId ID of the cloudlet being paused
*
* @return $true if cloudlet paused, $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
boolean
cloudletPause
(
int
cloudletId
)
{
boolean
found
=
false
;
int
position
=
0
;
//first, looks for the cloudlet in the exec list
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
){
//moves to the paused list
ResCloudlet
rgl
=
getCloudletExecList
().
remove
(
position
);
if
(
rgl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rgl
);
}
else
{
rgl
.
setCloudletStatus
(
Cloudlet
.
PAUSED
);
getCloudletPausedList
().
add
(
rgl
);
}
return
true
;
}
//now, look for the cloudlet in the waiting list
position
=
0
;
found
=
false
;
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
)
{
// moves to the paused list
ResCloudlet
rgl
=
getCloudletWaitingList
().
remove
(
position
);
if
(
rgl
.
getRemainingCloudletLength
()
==
0.0
)
{
cloudletFinish
(
rgl
);
}
else
{
rgl
.
setCloudletStatus
(
Cloudlet
.
PAUSED
);
getCloudletPausedList
().
add
(
rgl
);
}
return
true
;
}
return
false
;
}
/**
* Processes a finished cloudlet.
*
* @param rcl finished cloudlet
*
* @pre rgl != $null
* @post $none
*/
@Override
public
void
cloudletFinish
(
ResCloudlet
rcl
)
{
rcl
.
setCloudletStatus
(
Cloudlet
.
SUCCESS
);
rcl
.
finalizeCloudlet
();
getCloudletFinishedList
().
add
(
rcl
);
usedPes
-=
rcl
.
getPesNumber
();
}
/**
* Resumes execution of a paused cloudlet.
*
* @param cloudletId ID of the cloudlet being resumed
*
* @return $true if the cloudlet was resumed, $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
double
cloudletResume
(
int
cloudletId
)
{
boolean
found
=
false
;
int
position
=
0
;
//look for the cloudlet in the paused list
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
found
=
true
;
break
;
}
position
++;
}
if
(
found
){
ResCloudlet
rcl
=
getCloudletPausedList
().
remove
(
position
);
if
((
currentCpus
-
usedPes
)
>=
rcl
.
getPesNumber
())
{
// it can go to the exec list
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
i
=
0
;
i
<
rcl
.
getPesNumber
();
i
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
long
size
=
rcl
.
getRemainingCloudletLength
();
size
*=
rcl
.
getPesNumber
();
rcl
.
getCloudlet
().
setCloudletLength
(
size
);
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
rcl
.
getPesNumber
();
// calculate the expected time for cloudlet completion
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
getCurrentMipsShare
())
{
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
long
remainingLength
=
rcl
.
getRemainingCloudletLength
();
double
estimatedFinishTime
=
CloudSim
.
clock
()
+
(
remainingLength
/
(
capacity
*
rcl
.
getPesNumber
()));
return
estimatedFinishTime
;
}
else
{
// no enough free PEs: go to the waiting queue
rcl
.
setCloudletStatus
(
Cloudlet
.
QUEUED
);
long
size
=
rcl
.
getRemainingCloudletLength
();
size
*=
rcl
.
getPesNumber
();
rcl
.
getCloudlet
().
setCloudletLength
(
size
);
getCloudletWaitingList
().
add
(
rcl
);
return
0.0
;
}
}
//not found in the paused list: either it is in in the queue, executing or not exist
return
0.0
;
}
/**
* Receives an cloudlet to be executed in the VM managed by this scheduler.
*
* @param cloudlet the submited cloudlet
* @param fileTransferTime time required to move the required files from the SAN to the VM
*
* @return expected finish time of this cloudlet, or 0 if it is in the waiting queue
*
* @pre gl != null
* @post $none
*/
@Override
public
double
cloudletSubmit
(
Cloudlet
cloudlet
,
double
fileTransferTime
)
{
if
((
currentCpus
-
usedPes
)
>=
cloudlet
.
getPesNumber
())
{
// it can go to the exec list
ResCloudlet
rcl
=
new
ResCloudlet
(
cloudlet
);
rcl
.
setCloudletStatus
(
Cloudlet
.
INEXEC
);
for
(
int
i
=
0
;
i
<
cloudlet
.
getPesNumber
();
i
++)
{
rcl
.
setMachineAndPeId
(
0
,
i
);
}
getCloudletExecList
().
add
(
rcl
);
usedPes
+=
cloudlet
.
getPesNumber
();
}
else
{
// no enough free PEs: go to the waiting queue
ResCloudlet
rcl
=
new
ResCloudlet
(
cloudlet
);
rcl
.
setCloudletStatus
(
Cloudlet
.
QUEUED
);
getCloudletWaitingList
().
add
(
rcl
);
return
0.0
;
}
// calculate the expected time for cloudlet completion
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
getCurrentMipsShare
())
{
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// use the current capacity to estimate the extra amount of
// time to file transferring. It must be added to the cloudlet length
double
extraSize
=
capacity
*
fileTransferTime
;
long
length
=
cloudlet
.
getCloudletLength
();
length
+=
extraSize
;
cloudlet
.
setCloudletLength
(
length
);
return
cloudlet
.
getCloudletLength
()
/
capacity
;
}
/* (non-Javadoc)
* @see cloudsim.CloudletScheduler#cloudletSubmit(cloudsim.Cloudlet)
*/
@Override
public
double
cloudletSubmit
(
Cloudlet
cloudlet
)
{
cloudletSubmit
(
cloudlet
,
0
);
return
0
;
}
/**
* Gets the status of a cloudlet.
*
* @param cloudletId ID of the cloudlet
*
* @return status of the cloudlet, -1 if cloudlet not found
*
* @pre $none
* @post $none
*/
@Override
public
int
getCloudletStatus
(
int
cloudletId
)
{
for
(
ResCloudlet
rcl
:
getCloudletExecList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
for
(
ResCloudlet
rcl
:
getCloudletPausedList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
for
(
ResCloudlet
rcl
:
getCloudletWaitingList
())
{
if
(
rcl
.
getCloudletId
()
==
cloudletId
)
{
return
rcl
.
getCloudletStatus
();
}
}
return
-
1
;
}
/**
* Get utilization created by all cloudlets.
*
* @param time the time
*
* @return total utilization
*/
@Override
public
double
getTotalUtilizationOfCpu
(
double
time
)
{
double
totalUtilization
=
0
;
for
(
ResCloudlet
gl
:
getCloudletExecList
())
{
totalUtilization
+=
gl
.
getCloudlet
().
getUtilizationOfCpu
(
time
);
}
return
totalUtilization
;
}
/**
* Informs about completion of some cloudlet in the VM managed
* by this scheduler.
*
* @return $true if there is at least one finished cloudlet; $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
boolean
isFinishedCloudlets
()
{
return
getCloudletFinishedList
().
size
()
>
0
;
}
/**
* Returns the next cloudlet in the finished list, $null if this list is empty.
*
* @return a finished cloudlet
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
getNextFinishedCloudlet
()
{
if
(
getCloudletFinishedList
().
size
()
>
0
)
{
return
getCloudletFinishedList
().
remove
(
0
).
getCloudlet
();
}
return
null
;
}
/**
* Returns the number of cloudlets runnning in the virtual machine.
*
* @return number of cloudlets runnning
*
* @pre $none
* @post $none
*/
@Override
public
int
runningCloudlets
()
{
return
getCloudletExecList
().
size
();
}
/**
* Returns one cloudlet to migrate to another vm.
*
* @return one running cloudlet
*
* @pre $none
* @post $none
*/
@Override
public
Cloudlet
migrateCloudlet
()
{
ResCloudlet
rcl
=
getCloudletExecList
().
remove
(
0
);
rcl
.
finalizeCloudlet
();
Cloudlet
cl
=
rcl
.
getCloudlet
();
usedPes
-=
cl
.
getPesNumber
();
return
cl
;
}
/**
* Gets the cloudlet waiting list.
*
* @param <T> the generic type
* @return the cloudlet waiting list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletWaitingList
()
{
return
(
List
<
T
>)
cloudletWaitingList
;
}
/**
* Cloudlet waiting list.
*
* @param <T> the generic type
* @param cloudletWaitingList the cloudlet waiting list
*/
protected
<
T
extends
ResCloudlet
>
void
cloudletWaitingList
(
List
<
T
>
cloudletWaitingList
)
{
this
.
cloudletWaitingList
=
cloudletWaitingList
;
}
/**
* Gets the cloudlet exec list.
*
* @param <T> the generic type
* @return the cloudlet exec list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletExecList
()
{
return
(
List
<
T
>)
cloudletExecList
;
}
/**
* Sets the cloudlet exec list.
*
* @param <T> the generic type
* @param cloudletExecList the new cloudlet exec list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletExecList
(
List
<
T
>
cloudletExecList
)
{
this
.
cloudletExecList
=
cloudletExecList
;
}
/**
* Gets the cloudlet paused list.
*
* @param <T> the generic type
* @return the cloudlet paused list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletPausedList
()
{
return
(
List
<
T
>)
cloudletPausedList
;
}
/**
* Sets the cloudlet paused list.
*
* @param <T> the generic type
* @param cloudletPausedList the new cloudlet paused list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletPausedList
(
List
<
T
>
cloudletPausedList
)
{
this
.
cloudletPausedList
=
cloudletPausedList
;
}
/**
* Gets the cloudlet finished list.
*
* @param <T> the generic type
* @return the cloudlet finished list
*/
@SuppressWarnings
(
"unchecked"
)
protected
<
T
extends
ResCloudlet
>
List
<
T
>
getCloudletFinishedList
()
{
return
(
List
<
T
>)
cloudletFinishedList
;
}
/**
* Sets the cloudlet finished list.
*
* @param <T> the generic type
* @param cloudletFinishedList the new cloudlet finished list
*/
protected
<
T
extends
ResCloudlet
>
void
setCloudletFinishedList
(
List
<
T
>
cloudletFinishedList
)
{
this
.
cloudletFinishedList
=
cloudletFinishedList
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getCurrentRequestedMips()
*/
@Override
public
List
<
Double
>
getCurrentRequestedMips
()
{
List
<
Double
>
mipsShare
=
new
ArrayList
<
Double
>();
if
(
getCurrentMipsShare
()
!=
null
)
{
for
(
Double
mips
:
getCurrentMipsShare
())
{
mipsShare
.
add
(
mips
);
}
}
return
mipsShare
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentAvailableMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, java.util.List)
*/
@Override
public
double
getTotalCurrentAvailableMipsForCloudlet
(
ResCloudlet
rcl
,
List
<
Double
>
mipsShare
)
{
double
capacity
=
0.0
;
int
cpus
=
0
;
for
(
Double
mips
:
mipsShare
)
{
// count the cpus available to the vmm
capacity
+=
mips
;
if
(
mips
>
0
)
{
cpus
++;
}
}
currentCpus
=
cpus
;
capacity
/=
cpus
;
// average capacity of each cpu
return
capacity
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentAllocatedMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public
double
getTotalCurrentAllocatedMipsForCloudlet
(
ResCloudlet
rcl
,
double
time
)
{
// TODO Auto-generated method stub
return
0.0
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.CloudletScheduler#getTotalCurrentRequestedMipsForCloudlet(org.cloudbus.cloudsim.ResCloudlet, double)
*/
@Override
public
double
getTotalCurrentRequestedMipsForCloudlet
(
ResCloudlet
rcl
,
double
time
)
{
// TODO Auto-generated method stub
return
0.0
;
}
@Override
public
double
getCurrentRequestedUtilizationOfBw
()
{
// TODO Auto-generated method stub
return
0
;
}
@Override
public
double
getCurrentRequestedUtilizationOfRam
()
{
// TODO Auto-generated method stub
return
0
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/Constants.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.HashMap
;
import
java.util.List
;
import
java.util.Map
;
public
class
Constants
{
public
static
final
int
FFT
=
0
;
public
static
int
roundrobinRack
=
0
;
public
static
int
maxhostVM
=
2
;
public
static
int
HOST_PEs
=
8
;
public
static
double
maxMemperVM
=
1024
*
1024
;
//kb
public
static
final
int
BIN_NODE_TIME
=
10
;
public
static
int
currentCloudletId
=
0
;
public
static
int
currentAppId
=
0
;
public
static
final
int
EXECUTION
=
0
;
public
static
final
int
WAIT_SEND
=
1
;
public
static
final
int
WAIT_RECV
=
2
;
public
static
final
int
FINISH
=-
2
;
public
static
final
int
ROOT_LEVEL
=
0
;
public
static
final
int
Agg_LEVEL
=
1
;
public
static
final
int
EDGE_LEVEL
=
2
;
public
static
final
int
PES_NUMBER
=
4
;
public
static
final
int
FILE_SIZE
=
300
;
public
static
final
int
OUTPUT_SIZE
=
300
;
public
static
int
REQUESTS_PER_SECOND
=
200
;
public
static
final
int
COMMUNICATION_LENGTH
=
1
;
public
static
int
Requestspersecond
=
2
;
public
static
int
REQUEST_CLASSES
=
10
;
public
static
double
LOW_ACCURACY_RATE
=
0.2
;
public
static
double
MEDIUM_ACCURACY_RATE
=.
3
;
public
static
double
HIGH_ACCURACY_RATE
=
0.9
;
public
static
boolean
schedulerOverlap
=
true
;
public
static
boolean
BASE
=
true
;
public
static
long
BandWidthEdgeAgg
=
100
*
1024
*
1024
;
//100 Megabits
public
static
long
BandWidthEdgeHost
=
100
*
1024
*
1024
;
//
public
static
long
BandWidthAggRoot
=
20
*
1024
*
1024
*
2
;
//40gb
public
static
double
SwitchingDelayRoot
=.
002
85
;
public
static
double
SwitchingDelayAgg
=.
00245
;
//.00245
public
static
double
SwitchingDelayEdge
=.
00157
;
//ms
public
static
double
EdgeSwitchPort
=
4
;
//number of host
public
static
double
AggSwitchPort
=
1
;
//number of Edge
public
static
double
RootSwitchPort
=
1
;
//number of Agg
public
static
double
seed
=
199
;
public
static
boolean
logflag
=
false
;
public
static
Map
<
Integer
,
Map
<
Integer
,
Boolean
>>
Cache
=
new
HashMap
<
Integer
,
Map
<
Integer
,
Boolean
>>();
public
static
int
iteration
=
10
;
public
static
int
nexttime
=
1000
;
public
static
int
totaldatatransfer
=
0
;
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/EdgeSwitch.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map.Entry
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEvent
;
import
org.cloudbus.cloudsim.core.predicates.PredicateType
;
public
class
EdgeSwitch
extends
Switch
{
public
EdgeSwitch
(
String
name
,
int
dcid
,
NetworkDatacenter
dc
)
{
super
(
name
,
dcid
,
dc
);
hostlist
=
new
HashMap
<
Integer
,
NetworkHost
>();
uplinkswitchpktlist
=
new
HashMap
<
Integer
,
List
<
HostPacket
>>();
packetTohost
=
new
HashMap
<
Integer
,
List
<
HostPacket
>>();
uplinkbandwidth
=
Constants
.
BandWidthEdgeAgg
;
downlinkbandwidth
=
Constants
.
BandWidthEdgeHost
;
this
.
switching_delay
=
Constants
.
SwitchingDelayEdge
;
numport
=
Constants
.
EdgeSwitchPort
;
uplinkswitches
=
new
ArrayList
<
Switch
>();
// TODO Auto-generated constructor stub
}
private
void
registerHost
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
NetworkHost
hs
=(
NetworkHost
)
ev
.
getData
();
hostlist
.
put
(
hs
.
getId
(),(
NetworkHost
)
ev
.
getData
());
}
private
void
processpacket_up
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from down level router/host.
//has to send up
//check which switch to forward to
//add packet in the switch list
//
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
switching_delay
,
CloudSimTags
.
Network_Event_send
);
// packet is recieved from host
//packet is to be sent to aggregate level or to another host in the same level
int
hostid
=
dc
.
VmtoHostlist
.
get
(
recvVMid
);
NetworkHost
hs
=
this
.
hostlist
.
get
(
hostid
);
hspkt
.
recieverhostid
=
hostid
;
//packet needs to go to a host which is connected directly to switch
if
(
hs
!=
null
)
{
//packet to be sent to host connected to the switch
List
<
HostPacket
>
pktlist
=
this
.
packetTohost
.
get
(
hostid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
packetTohost
.
put
(
hostid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
//otherwise
//packet is to be sent to upper switch
//ASSUMPTION EACH EDGE is Connected to one aggregate level switch
//if there are more than one Aggregate level switch one need to modify following code
Switch
sw
=
this
.
uplinkswitches
.
get
(
0
);
List
<
HostPacket
>
pktlist
=
this
.
uplinkswitchpktlist
.
get
(
sw
.
getId
());
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
uplinkswitchpktlist
.
put
(
sw
.
getId
(),
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
private
void
processpacketforward
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//search for the host and packets..send to them
if
(
this
.
uplinkswitchpktlist
!=
null
)
{
for
(
Entry
<
Integer
,
List
<
HostPacket
>>
es:
uplinkswitchpktlist
.
entrySet
())
{
int
tosend
=
es
.
getKey
();
List
<
HostPacket
>
hspktlist
=
es
.
getValue
();
if
(!
hspktlist
.
isEmpty
()){
//sharing bandwidth between packets
double
avband
=
this
.
uplinkbandwidth
/
hspktlist
.
size
();
Iterator
<
HostPacket
>
it
=
hspktlist
.
iterator
();
while
(
it
.
hasNext
())
{
HostPacket
hspkt
=
it
.
next
();
double
delay
=
1000
*
hspkt
.
pkt
.
data
/
avband
;
this
.
send
(
tosend
,
delay
,
CloudSimTags
.
Network_Event_UP
,
hspkt
);
}
hspktlist
.
clear
();
}
}
}
if
(
this
.
packetTohost
!=
null
)
{
for
(
Entry
<
Integer
,
List
<
HostPacket
>>
es:
packetTohost
.
entrySet
())
{
int
tosend
=
es
.
getKey
();
NetworkHost
hs
=
this
.
hostlist
.
get
(
tosend
);
List
<
HostPacket
>
hspktlist
=
es
.
getValue
();
if
(!
hspktlist
.
isEmpty
()){
double
avband
=
this
.
downlinkbandwidth
/
hspktlist
.
size
();
Iterator
<
HostPacket
>
it
=
hspktlist
.
iterator
();
while
(
it
.
hasNext
()){
HostPacket
hspkt
=
it
.
next
();
//hspkt.recieverhostid=tosend;
//hs.packetrecieved.add(hspkt);
this
.
send
(
this
.
getId
(),
hspkt
.
pkt
.
data
/
avband
,
CloudSimTags
.
Network_Event_Host
,
hspkt
);
}
hspktlist
.
clear
();
}
}
}
//or to switch at next level.
//clear the list
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/HostPacket.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
public
class
HostPacket
{
public
HostPacket
(
int
id
,
NetPacket
pkt2
,
int
vmid
,
int
cloudletid
)
{
// TODO Auto-generated constructor stub
this
.
pkt
=
pkt2
;
this
.
sendervmid
=
vmid
;
this
.
cloudletid
=
cloudletid
;
this
.
senderhostid
=
id
;
this
.
stime
=
pkt
.
sendtime
;
this
.
recievervmid
=
pkt2
.
reciever
;
}
NetPacket
pkt
;
int
senderhostid
;
int
recieverhostid
;
int
sendervmid
;
int
recievervmid
;
int
cloudletid
;
double
stime
;
//time when sent
double
rtime
;
//time when received
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/MonteCarloApp.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.List
;
import
org.cloudbus.cloudsim.UtilizationModel
;
import
org.cloudbus.cloudsim.UtilizationModelFull
;
import
org.cloudbus.cloudsim.core.CloudSim
;
public
class
MonteCarloApp
extends
AppCloudlet
{
public
MonteCarloApp
(
int
type
,
int
appID
,
double
deadline
,
int
numbervm
,
int
userId
)
{
super
(
type
,
appID
,
deadline
,
numbervm
,
userId
);
this
.
numbervm
=
this
.
getnumvm
();
this
.
exeTime
=
getExecTime
()/
this
.
numbervm
;
}
@Override
public
void
createCloudletList
(
List
<
Integer
>
vmIdList
){
//basically, each task runs the simulation and then data is consolidated in one task
int
executionTime
=
getExecTime
();
long
memory
=
accuracyToMemory
();
long
fileSize
=
Constants
.
FILE_SIZE
;
long
outputSize
=
Constants
.
OUTPUT_SIZE
;
int
pesNumber
=
Constants
.
PES_NUMBER
;
int
stgId
=
0
;
int
t
=
Constants
.
currentCloudletId
;
for
(
int
i
=
0
;
i
<
numbervm
;
i
++){
UtilizationModel
utilizationModel
=
new
UtilizationModelFull
();
NetworkCloudlet
cl
=
new
NetworkCloudlet
(
Constants
.
currentCloudletId
,
executionTime
/
numbervm
,
pesNumber
,
fileSize
,
outputSize
,
memory
,
utilizationModel
,
utilizationModel
,
utilizationModel
);
Constants
.
currentCloudletId
++;
cl
.
setUserId
(
userId
);
cl
.
submittime
=
CloudSim
.
clock
();
cl
.
currStagenum
=-
1
;
cl
.
setVmId
(
vmIdList
.
get
(
i
));
//compute and send data to node 0
cl
.
stages
.
add
(
new
TaskStage
(
Constants
.
EXECUTION
,
Constants
.
COMMUNICATION_LENGTH
,
executionTime
/
numbervm
,
stgId
++,
memory
,
vmIdList
.
get
(
0
),
cl
.
getCloudletId
()));
//0 has an extra stage of waiting for results; others send
if
(
i
==
0
){
for
(
int
j
=
1
;
j
<
numbervm
;
j
++)
cl
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_RECV
,
Constants
.
COMMUNICATION_LENGTH
,
0
,
stgId
++,
memory
,
vmIdList
.
get
(
j
),
cl
.
getCloudletId
()+
j
));
}
else
{
cl
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_SEND
,
Constants
.
COMMUNICATION_LENGTH
,
0
,
stgId
++,
memory
,
vmIdList
.
get
(
0
),
t
));
}
clist
.
add
(
cl
);
}
}
public
int
getnumvm
(){
double
exetime
=
getExecTime
()/
2
;
//for two vms
if
(
this
.
deadline
>
exetime
)
return
2
;
else
if
(
this
.
deadline
>(
exetime
/
4
))
return
4
;
return
4
;
}
private
int
getExecTime
()
{
//use exec constraints as Binomial
return
100
;
}
private
long
accuracyToMemory
()
{
//use same memory constraints as Binomial
return
240076
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetDatacenterBroker.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.LinkedList
;
import
java.util.List
;
import
java.util.Map
;
import
java.util.Map.Entry
;
import
java.util.Random
;
import
java.util.SortedMap
;
import
java.util.TreeMap
;
import
java.util.UUID
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.CloudletSchedulerSpaceShared
;
import
org.cloudbus.cloudsim.DatacenterCharacteristics
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEntity
;
import
org.cloudbus.cloudsim.core.SimEvent
;
import
org.cloudbus.cloudsim.distributions.UniformDistr
;
import
org.cloudbus.cloudsim.lists.CloudletList
;
import
org.cloudbus.cloudsim.lists.VmList
;
/**
* DatacentreBroker represents a broker
* acting on behalf of a user. It hides VM management,
* as vm creation, sumbission of cloudlets to this VMs
* and destruction of VMs.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
public
class
NetDatacenterBroker
extends
SimEntity
{
// TODO: remove unnecessary variables
/** The vm list. */
private
List
<?
extends
Vm
>
vmList
;
/** The vms created list. */
private
List
<?
extends
Vm
>
vmsCreatedList
;
/** The cloudlet list. */
private
List
<?
extends
NetworkCloudlet
>
cloudletList
;
private
List
<?
extends
AppCloudlet
>
appCloudletList
;
/** The cloudlet submitted list. */
private
Map
<
Integer
,
Integer
>
appCloudletRecieved
;
private
List
<?
extends
Cloudlet
>
cloudletSubmittedList
;
/** The cloudlet received list. */
private
List
<?
extends
Cloudlet
>
cloudletReceivedList
;
/** The cloudlets submitted. */
private
int
cloudletsSubmitted
;
/** The vms requested. */
private
int
vmsRequested
;
/** The vms acks. */
private
int
vmsAcks
;
/** The vms destroyed. */
private
int
vmsDestroyed
;
/** The datacenter ids list. */
private
List
<
Integer
>
datacenterIdsList
;
/** The datacenter requested ids list. */
private
List
<
Integer
>
datacenterRequestedIdsList
;
/** The vms to datacenters map. */
private
Map
<
Integer
,
Integer
>
vmsToDatacentersMap
;
/** The datacenter characteristics list. */
private
Map
<
Integer
,
DatacenterCharacteristics
>
datacenterCharacteristicsList
;
public
static
NetworkDatacenter
linkDC
;
public
boolean
createvmflag
=
true
;
public
static
int
cachedcloudlet
=
0
;
/**
* Created a new DatacenterBroker object.
*
* @param name name to be associated with this entity (as
* required by Sim_entity class from simjava package)
*
* @throws Exception the exception
*
* @pre name != null
* @post $none
*/
public
NetDatacenterBroker
(
String
name
)
throws
Exception
{
super
(
name
);
setVmList
(
new
ArrayList
<
NetworkVm
>());
setVmsCreatedList
(
new
ArrayList
<
NetworkVm
>());
setCloudletList
(
new
ArrayList
<
NetworkCloudlet
>());
setAppCloudletList
(
new
ArrayList
<
AppCloudlet
>());
setCloudletSubmittedList
(
new
ArrayList
<
Cloudlet
>());
setCloudletReceivedList
(
new
ArrayList
<
Cloudlet
>());
this
.
appCloudletRecieved
=
new
HashMap
<
Integer
,
Integer
>();
cloudletsSubmitted
=
0
;
setVmsRequested
(
0
);
setVmsAcks
(
0
);
setVmsDestroyed
(
0
);
setDatacenterIdsList
(
new
LinkedList
<
Integer
>());
setDatacenterRequestedIdsList
(
new
ArrayList
<
Integer
>());
setVmsToDatacentersMap
(
new
HashMap
<
Integer
,
Integer
>());
setDatacenterCharacteristicsList
(
new
HashMap
<
Integer
,
DatacenterCharacteristics
>());
}
/**
* This method is used to send to the broker the list with
* virtual machines that must be created.
*
* @param list the list
*
* @pre list !=null
* @post $none
*/
public
void
submitVmList
(
List
<?
extends
Vm
>
list
)
{
getVmList
().
addAll
(
list
);
}
/**
* This method is used to send to the broker the list of
* cloudlets.
*
* @param list the list
*
* @pre list !=null
* @post $none
*/
public
void
submitCloudletList
(
List
<?
extends
NetworkCloudlet
>
list
){
getCloudletList
().
addAll
(
list
);
}
/**
* Specifies that a given cloudlet must run in a specific virtual machine.
*
* @param cloudletId ID of the cloudlet being bount to a vm
* @param vmId the vm id
*
* @pre cloudletId > 0
* @pre id > 0
* @post $none
*/
// public void bindCloudletToVm(int cloudletId, int vmId){
// CloudletList.getById(getCloudletList(), cloudletId).setVmId(vmId);
// }
public
void
setLinkDC
(
NetworkDatacenter
linkDC
)
{
this
.
linkDC
=
linkDC
;
}
/**
* Processes events available for this Broker.
*
* @param ev a SimEvent object
*
* @pre ev != null
* @post $none
*/
@Override
public
void
processEvent
(
SimEvent
ev
)
{
//Log.printLine(CloudSim.clock()+"[Broker]: event received:"+ev.getTag());
switch
(
ev
.
getTag
()){
// Resource characteristics request
case
CloudSimTags
.
RESOURCE_CHARACTERISTICS_REQUEST
:
processResourceCharacteristicsRequest
(
ev
);
break
;
// Resource characteristics answer
case
CloudSimTags
.
RESOURCE_CHARACTERISTICS
:
processResourceCharacteristics
(
ev
);
break
;
// VM Creation answer
//A finished cloudlet returned
case
CloudSimTags
.
CLOUDLET_RETURN
:
processCloudletReturn
(
ev
);
break
;
// if the simulation finishes
case
CloudSimTags
.
END_OF_SIMULATION
:
shutdownEntity
();
break
;
case
CloudSimTags
.
NextCycle
:
if
(
Constants
.
BASE
)
this
.
createVmsInDatacenterBase
(
this
.
linkDC
.
getId
());
break
;
// other unknown tags are processed by this method
default
:
processOtherEvent
(
ev
);
break
;
}
}
/**
* Process the return of a request for the characteristics of a PowerDatacenter.
*
* @param ev a SimEvent object
*
* @pre ev != $null
* @post $none
*/
protected
void
processResourceCharacteristics
(
SimEvent
ev
)
{
DatacenterCharacteristics
characteristics
=
(
DatacenterCharacteristics
)
ev
.
getData
();
getDatacenterCharacteristicsList
().
put
(
characteristics
.
getId
(),
characteristics
);
if
(
getDatacenterCharacteristicsList
().
size
()
==
getDatacenterIdsList
().
size
())
{
setDatacenterRequestedIdsList
(
new
ArrayList
<
Integer
>());
createVmsInDatacenterBase
(
getDatacenterIdsList
().
get
(
0
));
}
}
/**
* Process a request for the characteristics of a PowerDatacenter.
*
* @param ev a SimEvent object
*
* @pre ev != $null
* @post $none
*/
protected
void
processResourceCharacteristicsRequest
(
SimEvent
ev
)
{
setDatacenterIdsList
(
CloudSim
.
getCloudResourceList
());
setDatacenterCharacteristicsList
(
new
HashMap
<
Integer
,
DatacenterCharacteristics
>());
Log
.
printLine
(
CloudSim
.
clock
()+
": "
+
getName
()+
": Cloud Resource List received with "
+
getDatacenterIdsList
().
size
()+
" resource(s)"
);
for
(
Integer
datacenterId
:
getDatacenterIdsList
())
{
sendNow
(
datacenterId
,
CloudSimTags
.
RESOURCE_CHARACTERISTICS
,
getId
());
}
}
/**
* Process the ack received due to a request for VM creation.
*
* @param ev a SimEvent object
*
* @pre ev != null
* @post $none
*/
/**
* Process a cloudlet return event.
*
* @param ev a SimEvent object
*
* @pre ev != $null
* @post $none
*/
protected
void
processCloudletReturn
(
SimEvent
ev
)
{
Cloudlet
cloudlet
=
(
Cloudlet
)
ev
.
getData
();
getCloudletReceivedList
().
add
(
cloudlet
);
//Log.printLine(CloudSim.clock()+": "+getName()+ ": Cloudlet "+cloudlet.getCloudletId()+" received");
cloudletsSubmitted
--;
if
(
getCloudletList
().
size
()==
0
&&
cloudletsSubmitted
==
0
&&
Constants
.
iteration
>
10
)
{
//all cloudlets executed
Log
.
printLine
(
CloudSim
.
clock
()+
": "
+
getName
()+
": All Cloudlets executed. Finishing..."
);
clearDatacenters
();
finishExecution
();
}
else
{
//some cloudlets haven't finished yet
if
(
getAppCloudletList
().
size
()>
0
&&
cloudletsSubmitted
==
0
)
{
//all the cloudlets sent finished. It means that some bount
//cloudlet is waiting its VM be created
clearDatacenters
();
createVmsInDatacenterBase
(
0
);
}
}
}
/**
* Overrides this method when making a new and different type of Broker.
* This method is called by {@link #body()} for incoming unknown tags.
*
* @param ev a SimEvent object
*
* @pre ev != null
* @post $none
*/
protected
void
processOtherEvent
(
SimEvent
ev
){
if
(
ev
==
null
){
Log
.
printLine
(
getName
()
+
".processOtherEvent(): "
+
"Error - an event is null."
);
return
;
}
Log
.
printLine
(
getName
()
+
".processOtherEvent(): "
+
"Error - event unknown by this DatacenterBroker."
);
}
/**
* Create the virtual machines in a datacenter.
*
* @param datacenterId Id of the chosen PowerDatacenter
*
* @pre $none
* @post $none
*/
protected
void
createVmsInDatacenterBase
(
int
datacenterId
)
{
// send as much vms as possible for this datacenter before trying the next one
int
requestedVms
=
0
;
String
datacenterName
=
CloudSim
.
getEntityName
(
datacenterId
);
int
j
=
0
;
//All host will have two VMs (assumption) VM is the minimum unit
if
(
createvmflag
)
{
CreateVMs
(
datacenterId
);
createvmflag
=
false
;
}
//generate Request
//RequestGenerator reqgen=new RequestGenerator();
//OptionPricingRequest[] reqs=reqgen.getNextRequests(1);
for
(
int
i
=
0
;
i
<
100
;
i
++)
{
this
.
getAppCloudletList
().
add
(
new
WorkflowApp
(
AppCloudlet
.
APP_Workflow
,
Constants
.
currentAppId
,
0
,
0
,
this
.
getId
()));
//this.getAppCloudletList().add(reqs[i].getAppCloudlet(0,));
Constants
.
currentAppId
++;
}
int
seed
=
5
;
int
k
=
0
;
int
totalvm
=
this
.
vmsCreatedList
.
size
();
int
currentvmid
=
0
;
for
(
AppCloudlet
app:
this
.
getAppCloudletList
())
{
List
<
Integer
>
vmids
=
new
ArrayList
<
Integer
>();
int
numVms
=
this
.
linkDC
.
getVmList
().
size
();
UniformDistr
ufrnd
=
new
UniformDistr
(
0
,
numVms
,
5
);
for
(
int
i
=
0
;
i
<
app
.
numbervm
;
i
++)
{
// int vmid=currentvmid%numVms;//
int
vmid
=(
int
)
ufrnd
.
sample
();
currentvmid
++;
vmids
.
add
(
vmid
);
}
if
(
vmids
!=
null
){
if
(!
vmids
.
isEmpty
()){
app
.
createCloudletList
(
vmids
);
for
(
int
i
=
0
;
i
<
app
.
numbervm
;
i
++)
{
app
.
clist
.
get
(
i
).
setUserId
(
this
.
getId
());
//this.getCloudletList().add(app.clist.get(i));
this
.
appCloudletRecieved
.
put
(
app
.
appID
,
app
.
numbervm
);
this
.
getCloudletSubmittedList
().
add
(
app
.
clist
.
get
(
i
));
this
.
cloudletsSubmitted
++;
//Log.printLine(CloudSim.clock()+": "+getName()+ ": Sending cloudlet "+app.clist.get(i).getCloudletId()+" to VM #"+app.clist.get(i).getVmId());
sendNow
(
getVmsToDatacentersMap
().
get
(
this
.
getVmList
().
get
(
0
).
getId
()),
CloudSimTags
.
CLOUDLET_SUBMIT
,
app
.
clist
.
get
(
i
));
}
System
.
out
.
println
(
"app"
+(
k
++));
}
}
}
setAppCloudletList
(
new
ArrayList
<
AppCloudlet
>());
if
(
Constants
.
iteration
<
10
){
Constants
.
iteration
++;
this
.
schedule
(
this
.
getId
(),
Constants
.
nexttime
,
CloudSimTags
.
NextCycle
);
}
getDatacenterRequestedIdsList
().
add
(
datacenterId
);
setVmsRequested
(
requestedVms
);
setVmsAcks
(
0
);
}
private
void
CreateVMs
(
int
datacenterId
)
{
// TODO Auto-generated method stub
int
numVM
=
this
.
linkDC
.
getHostList
().
size
()*
Constants
.
maxhostVM
;
// two VMs per host
for
(
int
i
=
0
;
i
<
numVM
;
i
++)
{
int
requestedVms
=
0
;
int
vmid
=
i
;
int
mips
=
1
;
long
size
=
10000
;
// image size (MB)
int
ram
=
512
;
// vm memory (MB)
long
bw
=
1000
;
int
pesNumber
=
Constants
.
HOST_PEs
/
Constants
.
maxhostVM
;
// number of cpus
String
vmm
=
"Xen"
;
// VMM name
// create VM
NetworkVm
vm
=
new
NetworkVm
(
vmid
,
this
.
getId
(),
mips
,
pesNumber
,
ram
,
bw
,
size
,
vmm
,
new
CloudletHPCSpaceShared
());
this
.
linkDC
.
processVmCreateHPC
(
vm
);
// add the VM to the vmList
getVmList
().
add
(
vm
);
requestedVms
++;
getVmsToDatacentersMap
().
put
(
vmid
,
datacenterId
);
getVmsCreatedList
().
add
(
VmList
.
getById
(
getVmList
(),
vmid
));
}
}
/**
* Submit cloudlets to the created VMs.
*
* @pre $none
* @post $none
/**
* Destroy the virtual machines running in datacenters.
*
* @pre $none
* @post $none
*/
protected
void
clearDatacenters
()
{
for
(
Vm
vm
:
getVmsCreatedList
())
{
Log
.
printLine
(
CloudSim
.
clock
()
+
": "
+
getName
()
+
": Destroying VM #"
+
vm
.
getId
());
sendNow
(
getVmsToDatacentersMap
().
get
(
vm
.
getId
()),
CloudSimTags
.
VM_DESTROY
,
vm
);
}
getVmsCreatedList
().
clear
();
}
/**
* Send an internal event communicating the end of the simulation.
*
* @pre $none
* @post $none
*/
private
void
finishExecution
()
{
sendNow
(
getId
(),
CloudSimTags
.
END_OF_SIMULATION
);
}
/* (non-Javadoc)
* @see cloudsim.core.SimEntity#shutdownEntity()
*/
@Override
public
void
shutdownEntity
()
{
Log
.
printLine
(
getName
()
+
" is shutting down..."
);
}
/* (non-Javadoc)
* @see cloudsim.core.SimEntity#startEntity()
*/
@Override
public
void
startEntity
()
{
Log
.
printLine
(
getName
()
+
" is starting..."
);
schedule
(
getId
(),
0
,
CloudSimTags
.
RESOURCE_CHARACTERISTICS_REQUEST
);
}
/**
* Gets the vm list.
*
* @param <T> the generic type
* @return the vm list
*/
@SuppressWarnings
(
"unchecked"
)
public
<
T
extends
Vm
>
List
<
T
>
getVmList
()
{
return
(
List
<
T
>)
vmList
;
}
/**
* Sets the vm list.
*
* @param <T> the generic type
* @param vmList the new vm list
*/
protected
<
T
extends
Vm
>
void
setVmList
(
List
<
T
>
vmList
)
{
this
.
vmList
=
vmList
;
}
/**
* Gets the cloudlet list.
*
* @param <T> the generic type
* @return the cloudlet list
*/
@SuppressWarnings
(
"unchecked"
)
public
<
T
extends
NetworkCloudlet
>
List
<
T
>
getCloudletList
()
{
return
(
List
<
T
>)
cloudletList
;
}
/**
* Sets the cloudlet list.
*
* @param <T> the generic type
* @param cloudletList the new cloudlet list
*/
protected
<
T
extends
NetworkCloudlet
>
void
setCloudletList
(
List
<
T
>
cloudletList
)
{
this
.
cloudletList
=
cloudletList
;
}
public
<
T
extends
AppCloudlet
>
List
<
T
>
getAppCloudletList
()
{
return
(
List
<
T
>)
appCloudletList
;
}
public
<
T
extends
AppCloudlet
>
void
setAppCloudletList
(
List
<
T
>
appCloudletList
)
{
this
.
appCloudletList
=
appCloudletList
;
}
/**
* Gets the cloudlet submitted list.
*
* @param <T> the generic type
* @return the cloudlet submitted list
*/
@SuppressWarnings
(
"unchecked"
)
public
<
T
extends
Cloudlet
>
List
<
T
>
getCloudletSubmittedList
()
{
return
(
List
<
T
>)
cloudletSubmittedList
;
}
/**
* Sets the cloudlet submitted list.
*
* @param <T> the generic type
* @param cloudletSubmittedList the new cloudlet submitted list
*/
protected
<
T
extends
Cloudlet
>
void
setCloudletSubmittedList
(
List
<
T
>
cloudletSubmittedList
)
{
this
.
cloudletSubmittedList
=
cloudletSubmittedList
;
}
/**
* Gets the cloudlet received list.
*
* @param <T> the generic type
* @return the cloudlet received list
*/
@SuppressWarnings
(
"unchecked"
)
public
<
T
extends
Cloudlet
>
List
<
T
>
getCloudletReceivedList
()
{
return
(
List
<
T
>)
cloudletReceivedList
;
}
/**
* Sets the cloudlet received list.
*
* @param <T> the generic type
* @param cloudletReceivedList the new cloudlet received list
*/
protected
<
T
extends
Cloudlet
>
void
setCloudletReceivedList
(
List
<
T
>
cloudletReceivedList
)
{
this
.
cloudletReceivedList
=
cloudletReceivedList
;
}
/**
* Gets the vm list.
*
* @param <T> the generic type
* @return the vm list
*/
@SuppressWarnings
(
"unchecked"
)
public
<
T
extends
Vm
>
List
<
T
>
getVmsCreatedList
()
{
return
(
List
<
T
>)
vmsCreatedList
;
}
/**
* Sets the vm list.
*
* @param <T> the generic type
* @param vmsCreatedList the vms created list
*/
protected
<
T
extends
Vm
>
void
setVmsCreatedList
(
List
<
T
>
vmsCreatedList
)
{
this
.
vmsCreatedList
=
vmsCreatedList
;
}
/**
* Gets the vms requested.
*
* @return the vms requested
*/
protected
int
getVmsRequested
()
{
return
vmsRequested
;
}
/**
* Sets the vms requested.
*
* @param vmsRequested the new vms requested
*/
protected
void
setVmsRequested
(
int
vmsRequested
)
{
this
.
vmsRequested
=
vmsRequested
;
}
/**
* Gets the vms acks.
*
* @return the vms acks
*/
protected
int
getVmsAcks
()
{
return
vmsAcks
;
}
/**
* Sets the vms acks.
*
* @param vmsAcks the new vms acks
*/
protected
void
setVmsAcks
(
int
vmsAcks
)
{
this
.
vmsAcks
=
vmsAcks
;
}
/**
* Increment vms acks.
*/
protected
void
incrementVmsAcks
()
{
this
.
vmsAcks
++;
}
/**
* Gets the vms destroyed.
*
* @return the vms destroyed
*/
protected
int
getVmsDestroyed
()
{
return
vmsDestroyed
;
}
/**
* Sets the vms destroyed.
*
* @param vmsDestroyed the new vms destroyed
*/
protected
void
setVmsDestroyed
(
int
vmsDestroyed
)
{
this
.
vmsDestroyed
=
vmsDestroyed
;
}
/**
* Gets the datacenter ids list.
*
* @return the datacenter ids list
*/
protected
List
<
Integer
>
getDatacenterIdsList
()
{
return
datacenterIdsList
;
}
/**
* Sets the datacenter ids list.
*
* @param datacenterIdsList the new datacenter ids list
*/
protected
void
setDatacenterIdsList
(
List
<
Integer
>
datacenterIdsList
)
{
this
.
datacenterIdsList
=
datacenterIdsList
;
}
/**
* Gets the vms to datacenters map.
*
* @return the vms to datacenters map
*/
protected
Map
<
Integer
,
Integer
>
getVmsToDatacentersMap
()
{
return
vmsToDatacentersMap
;
}
/**
* Sets the vms to datacenters map.
*
* @param vmsToDatacentersMap the vms to datacenters map
*/
protected
void
setVmsToDatacentersMap
(
Map
<
Integer
,
Integer
>
vmsToDatacentersMap
)
{
this
.
vmsToDatacentersMap
=
vmsToDatacentersMap
;
}
/**
* Gets the datacenter characteristics list.
*
* @return the datacenter characteristics list
*/
protected
Map
<
Integer
,
DatacenterCharacteristics
>
getDatacenterCharacteristicsList
()
{
return
datacenterCharacteristicsList
;
}
/**
* Sets the datacenter characteristics list.
*
* @param datacenterCharacteristicsList the datacenter characteristics list
*/
protected
void
setDatacenterCharacteristicsList
(
Map
<
Integer
,
DatacenterCharacteristics
>
datacenterCharacteristicsList
)
{
this
.
datacenterCharacteristicsList
=
datacenterCharacteristicsList
;
}
/**
* Gets the datacenter requested ids list.
*
* @return the datacenter requested ids list
*/
protected
List
<
Integer
>
getDatacenterRequestedIdsList
()
{
return
datacenterRequestedIdsList
;
}
/**
* Sets the datacenter requested ids list.
*
* @param datacenterRequestedIdsList the new datacenter requested ids list
*/
protected
void
setDatacenterRequestedIdsList
(
List
<
Integer
>
datacenterRequestedIdsList
)
{
this
.
datacenterRequestedIdsList
=
datacenterRequestedIdsList
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetPacket.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
public
class
NetPacket
{
public
NetPacket
(
int
sender
,
int
reciever
,
double
data
,
double
sendtime
,
double
recievetime
,
int
vsnd
,
int
vrvd
)
{
super
();
this
.
sender
=
sender
;
this
.
reciever
=
reciever
;
this
.
data
=
data
;
this
.
sendtime
=
sendtime
;
this
.
recievetime
=
recievetime
;
this
.
virtualrecvid
=
vrvd
;
this
.
virtualsendid
=
vsnd
;
}
int
sender
;
int
virtualrecvid
;
int
virtualsendid
;
int
reciever
;
double
data
;
double
sendtime
;
double
recievetime
;
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetworkCloudlet.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.Map
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.UtilizationModel
;
public
class
NetworkCloudlet
extends
Cloudlet
implements
Comparable
{
long
memory
;
public
NetworkCloudlet
(
int
cloudletId
,
long
cloudletLength
,
int
pesNumber
,
long
cloudletFileSize
,
long
cloudletOutputSize
,
long
memory
,
UtilizationModel
utilizationModelCpu
,
UtilizationModel
utilizationModelRam
,
UtilizationModel
utilizationModelBw
)
{
super
(
cloudletId
,
cloudletLength
,
pesNumber
,
cloudletFileSize
,
cloudletOutputSize
,
utilizationModelCpu
,
utilizationModelRam
,
utilizationModelBw
);
// TODO Auto-generated constructor stub
currStagenum
=-
1
;
this
.
memory
=
memory
;
stages
=
new
ArrayList
<
TaskStage
>();
}
public
double
submittime
;
public
double
finishtime
;
public
double
exetime
;
public
double
numStage
;
public
int
currStagenum
;
public
double
timetostartStage
;
public
double
timespentInStage
;
public
Map
<
Double
,
NetPacket
>
timeCommunicate
;
public
ArrayList
<
TaskStage
>
stages
;
public
double
starttime
;
@Override
public
int
compareTo
(
Object
arg0
)
{
// TODO Auto-generated method stub
NetworkCloudlet
s1
=(
NetworkCloudlet
)
arg0
;
int
alpha
=
0
;
return
0
;
}
public
double
getSubmittime
()
{
// TODO Auto-generated method stub
return
submittime
;
};
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetworkDatacenter.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
import
java.text.DecimalFormat
;
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map
;
import
java.util.Map.Entry
;
import
java.util.Set
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.CloudletScheduler
;
import
org.cloudbus.cloudsim.DataCloudTags
;
import
org.cloudbus.cloudsim.Datacenter
;
import
org.cloudbus.cloudsim.DatacenterCharacteristics
;
import
org.cloudbus.cloudsim.File
;
import
org.cloudbus.cloudsim.Host
;
import
org.cloudbus.cloudsim.InfoPacket
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Storage
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.VmAllocationPolicy
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEntity
;
import
org.cloudbus.cloudsim.core.SimEvent
;
/**
* Datacenter class is a CloudResource whose hostList
* are virtualized. It deals with processing of VM queries (i.e., handling
* of VMs) instead of processing Cloudlet-related queries. So, even though an
* AllocPolicy will be instantiated (in the init() method of the superclass,
* it will not be used, as processing of cloudlets are handled by the CloudletScheduler
* and processing of VirtualMachines are handled by the VmAllocationPolicy.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
public
class
NetworkDatacenter
extends
Datacenter
{
public
NetworkDatacenter
(
String
name
,
DatacenterCharacteristics
characteristics
,
VmAllocationPolicy
vmAllocationPolicy
,
List
<
Storage
>
storageList
,
double
schedulingInterval
)
throws
Exception
{
super
(
name
,
characteristics
,
vmAllocationPolicy
,
storageList
,
schedulingInterval
);
// TODO Auto-generated constructor stub
VmToSwitchid
=
new
HashMap
<
Integer
,
Integer
>();
HostToSwitchid
=
new
HashMap
<
Integer
,
Integer
>();
VmtoHostlist
=
new
HashMap
<
Integer
,
Integer
>();
Switchlist
=
new
HashMap
<
Integer
,
Switch
>();
}
public
Map
<
Integer
,
Integer
>
VmToSwitchid
;
public
Map
<
Integer
,
Integer
>
HostToSwitchid
;
public
Map
<
Integer
,
Switch
>
Switchlist
;
public
Map
<
Integer
,
Integer
>
VmtoHostlist
;
public
Map
<
Integer
,
Switch
>
getEdgeSwitch
(){
Map
<
Integer
,
Switch
>
edgeswitch
=
new
HashMap
<
Integer
,
Switch
>();
for
(
Entry
<
Integer
,
Switch
>
es:
Switchlist
.
entrySet
()){
if
(
es
.
getValue
().
level
==
Constants
.
EDGE_LEVEL
)
{
edgeswitch
.
put
(
es
.
getKey
(),
es
.
getValue
());
}
}
return
edgeswitch
;
}
public
boolean
processVmCreateHPC
(
Vm
vm
)
{
boolean
result
=
getVmAllocationPolicy
().
allocateHostForVm
(
vm
);
if
(
result
)
{
this
.
VmToSwitchid
.
put
(
vm
.
getId
(),
((
NetworkHost
)
vm
.
getHost
()).
sw
.
getId
());
this
.
VmtoHostlist
.
put
(
vm
.
getId
(),
vm
.
getHost
().
getId
());
System
.
out
.
println
(
vm
.
getId
()+
" VM is created on "
+
vm
.
getHost
().
getId
());
double
amount
=
0.0
;
if
(
getDebts
().
containsKey
(
vm
.
getUserId
()))
{
amount
=
getDebts
().
get
(
vm
.
getUserId
());
}
amount
+=
getCharacteristics
().
getCostPerMem
()
*
vm
.
getRam
();
amount
+=
getCharacteristics
().
getCostPerStorage
()
*
vm
.
getSize
();
getDebts
().
put
(
vm
.
getUserId
(),
amount
);
getVmList
().
add
(
vm
);
vm
.
updateVmProcessing
(
CloudSim
.
clock
(),
getVmAllocationPolicy
().
getHost
(
vm
).
getVmScheduler
().
getAllocatedMipsForVm
(
vm
));
}
return
result
;
}
protected
void
processCloudletSubmit
(
SimEvent
ev
,
boolean
ack
)
{
updateCloudletProcessing
();
try
{
// gets the Cloudlet object
Cloudlet
cl
=
(
Cloudlet
)
ev
.
getData
();
// checks whether this Cloudlet has finished or not
if
(
cl
.
isFinished
()){
String
name
=
CloudSim
.
getEntityName
(
cl
.
getUserId
());
Log
.
printLine
(
getName
()+
": Warning - Cloudlet #"
+
cl
.
getCloudletId
()+
" owned by "
+
name
+
" is already completed/finished."
);
Log
.
printLine
(
"Therefore, it is not being executed again"
);
Log
.
printLine
();
// NOTE: If a Cloudlet has finished, then it won't be processed.
// So, if ack is required, this method sends back a result.
// If ack is not required, this method don't send back a result.
// Hence, this might cause CloudSim to be hanged since waiting
// for this Cloudlet back.
if
(
ack
)
{
int
[]
data
=
new
int
[
3
];
data
[
0
]
=
getId
();
data
[
1
]
=
cl
.
getCloudletId
();
data
[
2
]
=
CloudSimTags
.
FALSE
;
// unique tag = operation tag
int
tag
=
CloudSimTags
.
CLOUDLET_SUBMIT_ACK
;
sendNow
(
cl
.
getUserId
(),
tag
,
data
);
}
sendNow
(
cl
.
getUserId
(),
CloudSimTags
.
CLOUDLET_RETURN
,
cl
);
return
;
}
// process this Cloudlet to this CloudResource
cl
.
setResourceParameter
(
getId
(),
getCharacteristics
().
getCostPerSecond
(),
getCharacteristics
().
getCostPerBw
());
int
userId
=
cl
.
getUserId
();
int
vmId
=
cl
.
getVmId
();
double
fileTransferTime
=
predictFileTransferTime
(
cl
.
getRequiredFiles
());
//time to transfer the files
Host
host
=
getVmAllocationPolicy
().
getHost
(
vmId
,
userId
);
Vm
vm
=
host
.
getVm
(
vmId
,
userId
);
CloudletScheduler
scheduler
=
vm
.
getCloudletScheduler
();
//System.out.println("cloudlet recieved by VM"+vmId);
double
estimatedFinishTime
=
scheduler
.
cloudletSubmit
(
cl
,
fileTransferTime
);
//if (estimatedFinishTime > 0.0 && estimatedFinishTime < getSchedulingInterval()) { //if this cloudlet is in the exec queue
if
(
estimatedFinishTime
>
0.0
)
{
//if this cloudlet is in the exec queue
//double estimatedFinishTime = (cl.getCloudletTotalLength()/(capacity*cl.getPesNumber())); //time to process the cloudlet
//Log.printLine(estimatedFinishTime+"="+gl.getCloudletLength()+"/("+capacity+"*"+gl.getNumPE()+")");
estimatedFinishTime
+=
fileTransferTime
;
//estimatedFinishTime += CloudSim.clock();
//Log.printLine(CloudSim.clock()+": Next event scheduled to +"+estimatedFinishTime);
send
(
getId
(),
estimatedFinishTime
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
//event to update the stages
send
(
getId
(),
0.0001
,
CloudSimTags
.
VM_DATACENTER_EVENT
);
}
if
(
ack
)
{
int
[]
data
=
new
int
[
3
];
data
[
0
]
=
getId
();
data
[
1
]
=
cl
.
getCloudletId
();
data
[
2
]
=
CloudSimTags
.
TRUE
;
// unique tag = operation tag
int
tag
=
CloudSimTags
.
CLOUDLET_SUBMIT_ACK
;
sendNow
(
cl
.
getUserId
(),
tag
,
data
);
}
}
catch
(
ClassCastException
c
)
{
Log
.
printLine
(
getName
()
+
".processCloudletSubmit(): "
+
"ClassCastException error."
);
c
.
printStackTrace
();
}
catch
(
Exception
e
)
{
Log
.
printLine
(
getName
()
+
".processCloudletSubmit(): "
+
"Exception error."
);
e
.
printStackTrace
();
}
checkCloudletCompletion
();
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetworkHost.java
0 → 100755
View file @
059beb41
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map.Entry
;
import
org.cloudbus.cloudsim.Datacenter
;
import
org.cloudbus.cloudsim.Host
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Pe
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.VmScheduler
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.lists.PeList
;
import
org.cloudbus.cloudsim.lists.VmList
;
import
org.cloudbus.cloudsim.provisioners.BwProvisioner
;
import
org.cloudbus.cloudsim.provisioners.RamProvisioner
;
/**
* Host class extends a Machine to include other hostList beside PEs
* to support simulation of virtualized grids. It executes actions related
* to management of virtual machines (e.g., creation and destruction). A host has
* a defined policy for provisioning memory and bw, as well as an allocation policy
* for Pe's to virtual machines.
*
* A host is associated to a datacenter. It can host virtual machines.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
public
class
NetworkHost
extends
Host
{
public
List
<
HostPacket
>
packetTosendLocal
;
public
List
<
HostPacket
>
packetTosendGlobal
;
public
List
<
HostPacket
>
packetrecieved
;
public
double
memory
;
public
Switch
sw
;
public
double
bandwidth
;
//latency
public
List
<
Double
>
CPUfinTimeCPU
=
new
ArrayList
<
Double
>();
//time when last job will finish on CPU1
public
double
fintime
=
0
;
public
NetworkHost
(
int
id
,
RamProvisioner
ramProvisioner
,
BwProvisioner
bwProvisioner
,
long
storage
,
List
<?
extends
Pe
>
peList
,
VmScheduler
vmScheduler
)
{
super
(
id
,
ramProvisioner
,
bwProvisioner
,
storage
,
peList
,
vmScheduler
);
// TODO Auto-generated constructor stub
this
.
packetrecieved
=
new
ArrayList
<
HostPacket
>();
this
.
packetTosendGlobal
=
new
ArrayList
<
HostPacket
>();
this
.
packetTosendLocal
=
new
ArrayList
<
HostPacket
>();
}
/**
* Requests updating of processing of cloudlets in the VMs running in this host.
*
* @param currentTime the current time
*
* @return expected time of completion of the next cloudlet in all VMs in this host. Double.MAX_VALUE
* if there is no future events expected in this host
*
* @pre currentTime >= 0.0
* @post $none
*/
public
double
updateVmsProcessing
(
double
currentTime
)
{
double
smallerTime
=
Double
.
MAX_VALUE
;
//insert in each vm packet recieved
recvpackets
();
for
(
Vm
vm
:
super
.
getVmList
())
{
// if (vm.isInMigration()) {
// continue;
// }
double
time
=
((
NetworkVm
)
vm
).
updateVmProcessing
(
currentTime
,
getVmScheduler
().
getAllocatedMipsForVm
(
vm
));
if
(
time
>
0.0
&&
time
<
smallerTime
)
{
smallerTime
=
time
;
}
}
sendpackets
();
return
smallerTime
;
}
private
void
recvpackets
()
{
// TODO Auto-generated method stub
for
(
HostPacket
hs:
packetrecieved
)
{
//hs.stime=hs.rtime;
hs
.
pkt
.
recievetime
=
CloudSim
.
clock
();
//insertthe packet in recievedlist
Vm
vm
=
VmList
.
getById
(
getVmList
(),
hs
.
pkt
.
reciever
);
List
<
NetPacket
>
pktlist
=((
CloudletHPCSpaceShared
)
vm
.
getCloudletScheduler
()).
pktrecv
.
get
(
hs
.
pkt
.
sender
);
//List<NetPacket> pktlist=((CloudletHPCSpaceSharedO)vm.getCloudletScheduler()).pktrecv.get(hs.pkt.virtualsendid);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
NetPacket
>();
((
CloudletHPCSpaceShared
)
vm
.
getCloudletScheduler
()).
pktrecv
.
put
(
hs
.
pkt
.
sender
,
pktlist
);
// ((CloudletHPCSpaceSharedO)vm.getCloudletScheduler()).pktrecv.put(hs.pkt.virtualsendid, pktlist);
}
pktlist
.
add
(
hs
.
pkt
);
}
packetrecieved
.
clear
();
}
private
void
sendpackets
()
{
// TODO Auto-generated method stub
for
(
Vm
vm:
super
.
getVmList
())
{
for
(
Entry
<
Integer
,
List
<
NetPacket
>>
es:
((
CloudletHPCSpaceShared
)
vm
.
getCloudletScheduler
()).
pkttosend
.
entrySet
())
//for(Entry<Integer, List<NetPacket>> es:((CloudletHPCSpaceSharedO)vm.getCloudletScheduler()).pkttosend.entrySet())
{
List
<
NetPacket
>
pktlist
=
es
.
getValue
();
for
(
NetPacket
pkt:
pktlist
)
{
HostPacket
hpkt
=
new
HostPacket
(
this
.
getId
(),
pkt
,
vm
.
getId
(),
pkt
.
sender
);
Vm
vm2
=
VmList
.
getById
(
this
.
getVmList
(),
hpkt
.
recievervmid
);
if
(
vm2
!=
null
)
this
.
packetTosendLocal
.
add
(
hpkt
);
else
this
.
packetTosendGlobal
.
add
(
hpkt
);
}
pktlist
.
clear
();
}
}
boolean
flag
=
false
;
for
(
HostPacket
hs:
packetTosendLocal
)
{
flag
=
true
;
hs
.
stime
=
hs
.
rtime
;
hs
.
pkt
.
recievetime
=
CloudSim
.
clock
();
//insertthe packet in recievedlist
Vm
vm
=
VmList
.
getById
(
getVmList
(),
hs
.
pkt
.
reciever
);
//Vm vm=getVmList().get(hs.pkt.reciever);
List
<
NetPacket
>
pktlist
=((
CloudletHPCSpaceShared
)
vm
.
getCloudletScheduler
()).
pktrecv
.
get
(
hs
.
pkt
.
sender
);
//List<NetPacket> pktlist=((CloudletHPCSpaceSharedO)vm.getCloudletScheduler()).pktrecv.get(hs.pkt.virtualsendid);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
NetPacket
>();
((
CloudletHPCSpaceShared
)
vm
.
getCloudletScheduler
()).
pktrecv
.
put
(
hs
.
pkt
.
sender
,
pktlist
);
// ((CloudletHPCSpaceSharedO)vm.getCloudletScheduler()).pktrecv.put(hs.pkt.virtualsendid, pktlist);
}
pktlist
.
add
(
hs
.
pkt
);
}
if
(
flag
){
for
(
Vm
vm
:
super
.
getVmList
())
{
// if (vm.isInMigration()) {
// continue;
// }
double
time
=
((
NetworkVm
)
vm
).
updateVmProcessing
(
CloudSim
.
clock
(),
getVmScheduler
().
getAllocatedMipsForVm
(
vm
));
}
}
this
.
packetTosendLocal
.
clear
();
double
avband
=
this
.
bandwidth
/
packetTosendGlobal
.
size
();
for
(
HostPacket
hs:
packetTosendGlobal
)
{
double
delay
=(
1000
*
hs
.
pkt
.
data
)/
avband
;
Constants
.
totaldatatransfer
+=
hs
.
pkt
.
data
;
//System.out.println(hs.pkt.virtualsendid+" "+hs.pkt.virtualrecvid+" "+hs.pkt.data);
CloudSim
.
send
(
this
.
getDatacenter
().
getId
(),
this
.
sw
.
getId
(),
delay
,
CloudSimTags
.
Network_Event_UP
,
hs
);
//send to switch with delay
}
this
.
packetTosendGlobal
.
clear
();
}
@SuppressWarnings
(
"unchecked"
)
public
double
getMaxUtilizationAmongVmsPes
(
Vm
vm
)
{
return
PeList
.
getMaxUtilizationAmongVmsPes
((
List
<
Pe
>)
getPeList
(),
vm
);
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/NetworkVm.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.List
;
import
org.cloudbus.cloudsim.CloudletScheduler
;
import
org.cloudbus.cloudsim.Vm
;
public
class
NetworkVm
extends
Vm
implements
Comparable
{
public
NetworkVm
(
int
id
,
int
userId
,
double
mips
,
int
pesNumber
,
int
ram
,
long
bw
,
long
size
,
String
vmm
,
CloudletScheduler
cloudletScheduler
)
{
super
(
id
,
userId
,
mips
,
pesNumber
,
ram
,
bw
,
size
,
vmm
,
cloudletScheduler
);
// TODO Auto-generated constructor stub
cloudletlist
=
new
ArrayList
<
NetworkCloudlet
>();
}
public
ArrayList
<
NetworkCloudlet
>
cloudletlist
;
int
type
;
public
ArrayList
<
NetPacket
>
recvPktlist
;
public
double
memory
;
public
boolean
flagfree
;
//if true it is free
public
double
finishtime
;
public
boolean
isFree
()
{
return
flagfree
;
}
public
int
compareTo
(
Object
arg0
)
{
NetworkVm
hs
=(
NetworkVm
)
arg0
;
if
(
hs
.
finishtime
>
this
.
finishtime
)
return
-
1
;
if
(
hs
.
finishtime
<
this
.
finishtime
)
return
1
;
return
0
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/RootSwitch.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.List
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEvent
;
import
org.cloudbus.cloudsim.core.predicates.PredicateType
;
public
class
RootSwitch
extends
Switch
{
public
RootSwitch
(
String
name
,
int
level
,
NetworkDatacenter
dc
)
{
super
(
name
,
level
,
dc
);
downlinkswitchpktlist
=
new
HashMap
<
Integer
,
List
<
HostPacket
>>();
downlinkswitches
=
new
ArrayList
<
Switch
>();
downlinkbandwidth
=
Constants
.
BandWidthAggRoot
;
latency
=
Constants
.
SwitchingDelayRoot
;
numport
=
Constants
.
RootSwitchPort
;
// TODO Auto-generated constructor stub
}
private
void
processpacket_up
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from down level router.
//has to send up
//check which switch to forward to
//add packet in the switch list
//
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
switching_delay
,
CloudSimTags
.
Network_Event_send
);
if
(
this
.
level
==
Constants
.
ROOT_LEVEL
)
{
//get id of edge router
int
edgeswitchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
//search which aggregate switch has it
int
aggSwtichid
=-
1
;;
for
(
Switch
sw:
this
.
downlinkswitches
)
{
for
(
Switch
edge:
sw
.
downlinkswitches
)
{
if
(
edge
.
getId
()==
edgeswitchid
){
aggSwtichid
=
sw
.
getId
();
break
;
}
}
}
if
(
aggSwtichid
<
0
)
System
.
out
.
println
(
" No destination for this packet"
);
else
{
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
aggSwtichid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
aggSwtichid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
}
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/Switch.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.Collections
;
import
java.util.HashMap
;
import
java.util.Iterator
;
import
java.util.List
;
import
java.util.Map
;
import
java.util.SortedMap
;
import
java.util.SortedSet
;
import
java.util.TreeMap
;
import
java.util.Map.Entry
;
import
java.util.TreeSet
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.core.CloudSimTags
;
import
org.cloudbus.cloudsim.core.SimEntity
;
import
org.cloudbus.cloudsim.core.SimEvent
;
import
org.cloudbus.cloudsim.core.predicates.PredicateType
;
import
org.cloudbus.cloudsim.lists.VmList
;
public
class
Switch
extends
SimEntity
{
//switch level
public
int
id
;
public
int
level
;
//three levels
public
int
datacenterid
;
public
Map
<
Integer
,
List
<
HostPacket
>>
uplinkswitchpktlist
;
public
Map
<
Integer
,
List
<
HostPacket
>>
downlinkswitchpktlist
;
public
Map
<
Integer
,
NetworkHost
>
hostlist
;
public
List
<
Switch
>
uplinkswitches
;
public
List
<
Switch
>
downlinkswitches
;
public
Map
<
Integer
,
List
<
HostPacket
>>
packetTohost
;
int
type
;
//edge switch or aggregation switch
public
double
uplinkbandwidth
;
public
double
downlinkbandwidth
;
public
double
latency
;
public
double
numport
;
public
NetworkDatacenter
dc
;
public
SortedMap
<
Double
,
List
<
NetworkHost
>>
fintimelistHost
=
new
TreeMap
<
Double
,
List
<
NetworkHost
>>();
//something is running on these hosts
public
SortedMap
<
Double
,
List
<
NetworkVm
>>
fintimelistVM
=
new
TreeMap
<
Double
,
List
<
NetworkVm
>>();
//something is running on these hosts
public
ArrayList
<
HostPacket
>
pktlist
;
public
List
<
Vm
>
BagofTaskVm
=
new
ArrayList
<
Vm
>();
public
double
switching_delay
;
public
Map
<
Integer
,
NetworkVm
>
Vmlist
;
public
Switch
(
String
name
,
int
level
,
NetworkDatacenter
dc
)
{
super
(
name
);
this
.
level
=
level
;
/* if(level==Constants.EDGE_LEVEL)
{
hostlist=new HashMap<Integer,HPCHost>();
uplinkswitchpktlist=new HashMap<Integer,List<HostPacket>>();
packetTohost=new HashMap<Integer,List<HostPacket>>();
uplinkbandwidth=Constants.BandWidthEdgeAgg;
downlinkbandwidth=Constants.BandWidthEdgeHost;
latency=Constants.SwitchingDelayEdge;
numport=Constants.EdgeSwitchPort;
uplinkswitches=new ArrayList<Switch>();
}
if(level==Constants.Agg_LEVEL)
{
downlinkswitchpktlist=new HashMap<Integer,List<HostPacket>>();
uplinkswitchpktlist=new HashMap<Integer,List<HostPacket>>();
uplinkbandwidth=Constants.BandWidthAggRoot;
downlinkbandwidth=Constants.BandWidthEdgeAgg;
latency=Constants.SwitchingDelayAgg;
numport=Constants.AggSwitchPort;
uplinkswitches=new ArrayList<Switch>();
downlinkswitches=new ArrayList<Switch>();
}
if(level==Constants.ROOT_LEVEL)
{
downlinkswitchpktlist=new HashMap<Integer,List<HostPacket>>();
downlinkswitches=new ArrayList<Switch>();
downlinkbandwidth=Constants.BandWidthAggRoot;
latency=Constants.SwitchingDelayRoot;
numport=Constants.RootSwitchPort;
}*/
this
.
dc
=
dc
;
// TODO Auto-generated constructor stub
}
@Override
public
void
startEntity
()
{
Log
.
printLine
(
getName
()
+
" is starting..."
);
schedule
(
getId
(),
0
,
CloudSimTags
.
RESOURCE_CHARACTERISTICS_REQUEST
);
}
@Override
public
void
processEvent
(
SimEvent
ev
)
{
//Log.printLine(CloudSim.clock()+"[Broker]: event received:"+ev.getTag());
switch
(
ev
.
getTag
()){
// Resource characteristics request
case
CloudSimTags
.
Network_Event_UP
:
//process the packet from down switch or host
processpacket_up
(
ev
);
break
;
case
CloudSimTags
.
Network_Event_DOWN
:
//process the packet from uplink
processpacket_down
(
ev
);
break
;
case
CloudSimTags
.
Network_Event_send
:
processpacketforward
(
ev
);
break
;
case
CloudSimTags
.
Network_Event_Host
:
processhostpacket
(
ev
);
break
;
// Resource characteristics answer
case
CloudSimTags
.
RESOURCE_Register
:
registerHost
(
ev
);
break
;
// other unknown tags are processed by this method
default
:
processOtherEvent
(
ev
);
break
;
}
}
private
void
processhostpacket
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//Send packet to host
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
NetworkHost
hs
=
this
.
hostlist
.
get
(
hspkt
.
recieverhostid
);
hs
.
packetrecieved
.
add
(
hspkt
);
}
private
void
processpacket_down
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from up level router.
//has to send downward
//check which switch to forward to
//add packet in the switch list
//add packet in the host list
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
latency
,
CloudSimTags
.
Network_Event_send
);
if
(
this
.
level
==
Constants
.
EDGE_LEVEL
)
{
// packet is to be recieved by host
int
hostid
=
dc
.
VmtoHostlist
.
get
(
recvVMid
);
hspkt
.
recieverhostid
=
hostid
;
List
<
HostPacket
>
pktlist
=
this
.
packetTohost
.
get
(
hostid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
packetTohost
.
put
(
hostid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
if
(
this
.
level
==
Constants
.
Agg_LEVEL
)
{
//packet is coming from root so need to be sent to edgelevel swich
//find the id for edgelevel switch
int
switchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
switchid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
switchid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
}
private
void
processpacket_up
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//packet coming from down level router.
//has to send up
//check which switch to forward to
//add packet in the switch list
//
//int src=ev.getSource();
HostPacket
hspkt
=(
HostPacket
)
ev
.
getData
();
int
recvVMid
=
hspkt
.
pkt
.
reciever
;
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_send
));
schedule
(
getId
(),
this
.
switching_delay
,
CloudSimTags
.
Network_Event_send
);
if
(
this
.
level
==
Constants
.
EDGE_LEVEL
)
{
// packet is recieved from host
//packet is to be sent to aggregate level or to another host in the same level
int
hostid
=
dc
.
VmtoHostlist
.
get
(
recvVMid
);
NetworkHost
hs
=
this
.
hostlist
.
get
(
hostid
);
hspkt
.
recieverhostid
=
hostid
;
if
(
hs
!=
null
)
{
//packet to be sent to host connected to the switch
List
<
HostPacket
>
pktlist
=
this
.
packetTohost
.
get
(
hostid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
packetTohost
.
put
(
hostid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
//packet is to be sent to upper switch
//ASSUMPTION EACH EDGE is Connected to one aggregate level switch
Switch
sw
=
this
.
uplinkswitches
.
get
(
0
);
List
<
HostPacket
>
pktlist
=
this
.
uplinkswitchpktlist
.
get
(
sw
.
getId
());
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
uplinkswitchpktlist
.
put
(
sw
.
getId
(),
pktlist
);
}
pktlist
.
add
(
hspkt
);
return
;
}
if
(
this
.
level
==
Constants
.
Agg_LEVEL
)
{
//packet is coming from edge level router so need to be sent to either root or another edge level swich
//find the id for edgelevel switch
int
switchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
boolean
flagtoswtich
=
false
;
for
(
Switch
sw:
this
.
downlinkswitches
)
{
if
(
switchid
==
sw
.
getId
())
flagtoswtich
=
true
;
}
if
(
flagtoswtich
)
{
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
switchid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
switchid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
else
//send to up
{
Switch
sw
=
this
.
uplinkswitches
.
get
(
0
);
List
<
HostPacket
>
pktlist
=
this
.
uplinkswitchpktlist
.
get
(
sw
.
getId
());
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
uplinkswitchpktlist
.
put
(
sw
.
getId
(),
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
}
if
(
this
.
level
==
Constants
.
ROOT_LEVEL
)
{
//get id of edge router
int
edgeswitchid
=
dc
.
VmToSwitchid
.
get
(
recvVMid
);
//search which aggregate switch has it
int
aggSwtichid
=-
1
;;
for
(
Switch
sw:
this
.
downlinkswitches
)
{
for
(
Switch
edge:
sw
.
downlinkswitches
)
{
if
(
edge
.
getId
()==
edgeswitchid
){
aggSwtichid
=
sw
.
getId
();
break
;
}
}
}
if
(
aggSwtichid
<
0
)
System
.
out
.
println
(
" No destination for this packet"
);
else
{
List
<
HostPacket
>
pktlist
=
this
.
downlinkswitchpktlist
.
get
(
aggSwtichid
);
if
(
pktlist
==
null
){
pktlist
=
new
ArrayList
<
HostPacket
>();
this
.
downlinkswitchpktlist
.
put
(
aggSwtichid
,
pktlist
);
}
pktlist
.
add
(
hspkt
);
}
}
}
private
void
registerHost
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
NetworkHost
hs
=(
NetworkHost
)
ev
.
getData
();
hostlist
.
put
(
hs
.
getId
(),(
NetworkHost
)
ev
.
getData
());
}
private
void
processpacket
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//send packet to itself with switching delay (discarding other)
CloudSim
.
cancelAll
(
getId
(),
new
PredicateType
(
CloudSimTags
.
Network_Event_UP
));
schedule
(
getId
(),
this
.
switching_delay
,
CloudSimTags
.
Network_Event_UP
);
pktlist
.
add
((
HostPacket
)
ev
.
getData
());
//add the packet in the list
}
private
void
processOtherEvent
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
}
private
void
processpacketforward
(
SimEvent
ev
)
{
// TODO Auto-generated method stub
//search for the host and packets..send to them
if
(
this
.
downlinkswitchpktlist
!=
null
)
{
for
(
Entry
<
Integer
,
List
<
HostPacket
>>
es:
downlinkswitchpktlist
.
entrySet
())
{
int
tosend
=
es
.
getKey
();
List
<
HostPacket
>
hspktlist
=
es
.
getValue
();
if
(!
hspktlist
.
isEmpty
()){
double
avband
=
this
.
downlinkbandwidth
/
hspktlist
.
size
();
Iterator
<
HostPacket
>
it
=
hspktlist
.
iterator
();
while
(
it
.
hasNext
()){
HostPacket
hspkt
=
it
.
next
();
double
delay
=
1000
*
hspkt
.
pkt
.
data
/
avband
;
this
.
send
(
tosend
,
delay
,
CloudSimTags
.
Network_Event_DOWN
,
hspkt
);
}
hspktlist
.
clear
();
}
}
}
if
(
this
.
uplinkswitchpktlist
!=
null
)
{
for
(
Entry
<
Integer
,
List
<
HostPacket
>>
es:
uplinkswitchpktlist
.
entrySet
())
{
int
tosend
=
es
.
getKey
();
List
<
HostPacket
>
hspktlist
=
es
.
getValue
();
if
(!
hspktlist
.
isEmpty
()){
double
avband
=
this
.
uplinkbandwidth
/
hspktlist
.
size
();
Iterator
<
HostPacket
>
it
=
hspktlist
.
iterator
();
while
(
it
.
hasNext
())
{
HostPacket
hspkt
=
it
.
next
();
double
delay
=
1000
*
hspkt
.
pkt
.
data
/
avband
;
this
.
send
(
tosend
,
delay
,
CloudSimTags
.
Network_Event_UP
,
hspkt
);
}
hspktlist
.
clear
();
}
}
}
if
(
this
.
packetTohost
!=
null
)
{
for
(
Entry
<
Integer
,
List
<
HostPacket
>>
es:
packetTohost
.
entrySet
())
{
int
tosend
=
es
.
getKey
();
NetworkHost
hs
=
this
.
hostlist
.
get
(
tosend
);
List
<
HostPacket
>
hspktlist
=
es
.
getValue
();
if
(!
hspktlist
.
isEmpty
()){
double
avband
=
this
.
downlinkbandwidth
/
hspktlist
.
size
();
Iterator
<
HostPacket
>
it
=
hspktlist
.
iterator
();
while
(
it
.
hasNext
()){
HostPacket
hspkt
=
it
.
next
();
//hspkt.recieverhostid=tosend;
//hs.packetrecieved.add(hspkt);
this
.
send
(
this
.
getId
(),
hspkt
.
pkt
.
data
/
avband
,
CloudSimTags
.
Network_Event_Host
,
hspkt
);
}
hspktlist
.
clear
();
}
}
}
//or to switch at next level.
//clear the list
}
private
NetworkHost
getHostwithVM
(
int
vmid
)
{
// TODO Auto-generated method stub
for
(
Entry
<
Integer
,
NetworkHost
>
es:
this
.
hostlist
.
entrySet
())
{
Vm
vm
=
VmList
.
getById
(
es
.
getValue
().
getVmList
(),
vmid
);
if
(
vm
!=
null
)
return
es
.
getValue
();
}
return
null
;
}
public
List
<
NetworkHost
>
gethostsWithAvailability
(
int
numHostReq
,
double
deadline
,
double
exeTime
)
{
// TODO Auto-generated method stub
List
<
NetworkHost
>
ls
=
null
;
for
(
Entry
<
Double
,
List
<
NetworkHost
>>
es:
this
.
fintimelistHost
.
entrySet
()){
if
((
es
.
getKey
()+
exeTime
)>=
deadline
){
ls
=
null
;
break
;}
else
{
if
(
es
.
getValue
().
size
()>=
numHostReq
)
{
ls
=
es
.
getValue
();
break
;
}
}
}
// if(ls==null)
// {
// List<HPCHost> freehostlist=getfreehostlist(numHostReq);
// if(freehostlist.size()>=numHostReq) ls=freehostlist;
// }
return
ls
;
}
public
List
<
NetworkVm
>
getVmsWithAvailability
(
int
numVMReq
,
double
deadline
,
double
exeTime
)
{
// TODO Auto-generated method stub
List
<
NetworkVm
>
ls
=
new
ArrayList
<
NetworkVm
>();
// SortedMap<Double,HPCVm> vmlst=getfintimelistVM();
int
i
=
0
;
for
(
Entry
<
Integer
,
NetworkHost
>
es:
this
.
hostlist
.
entrySet
()){
for
(
Vm
vm:
es
.
getValue
().
getVmList
())
{
NetworkVm
v
=(
NetworkVm
)
vm
;
if
((
v
.
finishtime
+
exeTime
)<
deadline
)
{
ls
.
add
(
v
);
i
++;
}
if
(
i
>=
numVMReq
)
break
;
}
if
(
i
>=
numVMReq
)
break
;
}
// if((es.getKey()+exeTime)>=deadline){
// ls= null;
// break;}
// else{
// if(es.getValue().size()>=numVMReq)
// {
// ls= es.getValue();
// break;
// }
// }
// }
// if(ls==null)
// {
// List<HPCVm> freeVMlist=getfreeVmlist(numVMReq);
// if(freeVMlist.size()>=numVMReq) ls=freeVMlist;
// }
return
ls
;
}
// private SortedMap<Double, HPCVm> getfintimelistVM() {
// // TODO Auto-generated method stub
// SortedMap<Double,HPCVm> getfintimelis
// return null;
// }
private
List
<
NetworkVm
>
getfreeVmlist
(
int
numVMReq
)
{
// TODO Auto-generated method stub
List
<
NetworkVm
>
freehostls
=
new
ArrayList
<
NetworkVm
>();
for
(
Entry
<
Integer
,
NetworkVm
>
et:
this
.
Vmlist
.
entrySet
())
{
if
(
et
.
getValue
().
isFree
())
{
freehostls
.
add
(
et
.
getValue
());
}
if
(
freehostls
.
size
()==
numVMReq
)
break
;
}
return
freehostls
;
}
private
List
<
NetworkHost
>
getfreehostlist
(
int
numhost
)
{
// TODO Auto-generated method stub
List
<
NetworkHost
>
freehostls
=
new
ArrayList
<
NetworkHost
>();
for
(
Entry
<
Integer
,
NetworkHost
>
et:
this
.
hostlist
.
entrySet
())
{
if
(
et
.
getValue
().
getFreePesNumber
()==
et
.
getValue
().
getPesNumber
())
{
freehostls
.
add
(
et
.
getValue
());
}
if
(
freehostls
.
size
()==
numhost
)
break
;
}
return
freehostls
;
}
@Override
public
void
shutdownEntity
()
{
Log
.
printLine
(
getName
()
+
" is shutting down..."
);
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/TaskStage.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
public
class
TaskStage
{
public
TaskStage
(
int
type
,
double
data
,
double
time
,
double
stageid
,
long
memory
,
int
peer
,
int
vpeer
)
{
super
();
this
.
type
=
type
;
this
.
data
=
data
;
this
.
time
=
time
;
this
.
stageid
=
stageid
;
this
.
memory
=
memory
;
this
.
peer
=
peer
;
this
.
vpeer
=
vpeer
;
}
int
vpeer
;
int
type
;
//execution, recv, send,
double
data
;
//data generated or send or recv
double
time
;
//execution time for this stage
double
stageid
;
long
memory
;
int
peer
;
//from whom data needed to be recieved or send
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/VmHPCAllocationPolicySimple.java
0 → 100755
View file @
059beb41
/*
* Title: CloudSim Toolkit
* Description: CloudSim (Cloud Simulation) Toolkit for Modeling and Simulation of Clouds
* Licence: GPL - http://www.gnu.org/copyleft/gpl.html
*
* Copyright (c) 2009-2010, The University of Melbourne, Australia
*/
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.ArrayList
;
import
java.util.HashMap
;
import
java.util.List
;
import
java.util.Map
;
import
org.cloudbus.cloudsim.Host
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.VmAllocationPolicy
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.power.PowerHost
;
/**
* VmAllocationPolicySimple is an VmAllocationPolicy that
* chooses, as the host for a VM, the host with
* less PEs in use.
*
* @author Rodrigo N. Calheiros
* @author Anton Beloglazov
* @since CloudSim Toolkit 1.0
*/
public
class
VmHPCAllocationPolicySimple
extends
VmAllocationPolicy
{
/** The vm table. */
private
Map
<
String
,
Host
>
vmTable
;
/** The used pes. */
private
Map
<
String
,
Integer
>
usedPes
;
/** The free pes. */
private
List
<
Integer
>
freePes
;
/**
* Creates the new VmAllocationPolicySimple object.
*
* @param list the list
*
* @pre $none
* @post $none
*/
public
VmHPCAllocationPolicySimple
(
List
<?
extends
Host
>
list
)
{
super
(
list
);
setFreePes
(
new
ArrayList
<
Integer
>());
for
(
Host
host
:
getHostList
())
{
getFreePes
().
add
(
host
.
getPesNumber
());
}
setVmTable
(
new
HashMap
<
String
,
Host
>());
setUsedPes
(
new
HashMap
<
String
,
Integer
>());
}
/**
* Allocates a host for a given VM.
*
* @param vm VM specification
*
* @return $true if the host could be allocated; $false otherwise
*
* @pre $none
* @post $none
*/
@Override
public
boolean
allocateHostForVm
(
Vm
vm
)
{
NetworkHost
allocatedHost
=
findHostForVm
(
vm
);
if
(
allocatedHost
!=
null
&&
allocatedHost
.
vmCreate
(
vm
))
{
//if vm has been succesfully created in the host
getVmTable
().
put
(
vm
.
getUid
(),
allocatedHost
);
if
(!
Log
.
isDisabled
())
{
Log
.
print
(
String
.
format
(
"%.2f: VM #"
+
vm
.
getId
()
+
" has been allocated to the host #"
+
allocatedHost
.
getId
()
+
"\n"
,
CloudSim
.
clock
()));
}
return
true
;
}
return
false
;
}
public
NetworkHost
findHostForVm
(
Vm
vm
)
{
double
minPower
=
Double
.
MAX_VALUE
;
NetworkHost
allocatedHost
=
null
;
for
(
NetworkHost
host
:
this
.<
NetworkHost
>
getHostList
())
{
if
(
host
.
isSuitableForVm
(
vm
))
{
double
maxUtilization
=
getMaxUtilizationAfterAllocation
(
host
,
vm
);
if
((!
vm
.
isRecentlyCreated
()
&&
maxUtilization
>
1
)
||
(
vm
.
isRecentlyCreated
()
&&
maxUtilization
>
1.0
))
{
continue
;
}
allocatedHost
=
host
;
}
}
return
allocatedHost
;
}
protected
double
getMaxUtilizationAfterAllocation
(
NetworkHost
host
,
Vm
vm
)
{
List
<
Double
>
allocatedMipsForVm
=
null
;
NetworkHost
allocatedHost
=
(
NetworkHost
)
vm
.
getHost
();
if
(
allocatedHost
!=
null
)
{
allocatedMipsForVm
=
vm
.
getHost
().
getAllocatedMipsForVm
(
vm
);
}
if
(!
host
.
allocatePesForVm
(
vm
,
vm
.
getCurrentRequestedMips
()))
{
return
-
1
;
}
double
maxUtilization
=
host
.
getMaxUtilizationAmongVmsPes
(
vm
);
host
.
deallocatePesForVm
(
vm
);
if
(
allocatedHost
!=
null
&&
allocatedMipsForVm
!=
null
)
{
vm
.
getHost
().
allocatePesForVm
(
vm
,
allocatedMipsForVm
);
}
return
maxUtilization
;
}
/**
* Releases the host used by a VM.
*
* @param vm the vm
*
* @pre $none
* @post none
*/
@Override
public
void
deallocateHostForVm
(
Vm
vm
)
{
Host
host
=
getVmTable
().
remove
(
vm
.
getUid
());
int
idx
=
getHostList
().
indexOf
(
host
);
int
pes
=
getUsedPes
().
remove
(
vm
.
getUid
());
if
(
host
!=
null
)
{
host
.
vmDestroy
(
vm
);
getFreePes
().
set
(
idx
,
getFreePes
().
get
(
idx
)
+
pes
);
}
}
/**
* Gets the host that is executing the given VM belonging to the
* given user.
*
* @param vm the vm
*
* @return the Host with the given vmID and userID; $null if not found
*
* @pre $none
* @post $none
*/
@Override
public
Host
getHost
(
Vm
vm
)
{
return
getVmTable
().
get
(
vm
.
getUid
());
}
/**
* Gets the host that is executing the given VM belonging to the
* given user.
*
* @param vmId the vm id
* @param userId the user id
*
* @return the Host with the given vmID and userID; $null if not found
*
* @pre $none
* @post $none
*/
@Override
public
Host
getHost
(
int
vmId
,
int
userId
)
{
return
getVmTable
().
get
(
Vm
.
getUid
(
userId
,
vmId
));
}
/**
* Gets the vm table.
*
* @return the vm table
*/
public
Map
<
String
,
Host
>
getVmTable
()
{
return
vmTable
;
}
/**
* Sets the vm table.
*
* @param vmTable the vm table
*/
protected
void
setVmTable
(
Map
<
String
,
Host
>
vmTable
)
{
this
.
vmTable
=
vmTable
;
}
/**
* Gets the used pes.
*
* @return the used pes
*/
protected
Map
<
String
,
Integer
>
getUsedPes
()
{
return
usedPes
;
}
/**
* Sets the used pes.
*
* @param usedPes the used pes
*/
protected
void
setUsedPes
(
Map
<
String
,
Integer
>
usedPes
)
{
this
.
usedPes
=
usedPes
;
}
/**
* Gets the free pes.
*
* @return the free pes
*/
protected
List
<
Integer
>
getFreePes
()
{
return
freePes
;
}
/**
* Sets the free pes.
*
* @param freePes the new free pes
*/
protected
void
setFreePes
(
List
<
Integer
>
freePes
)
{
this
.
freePes
=
freePes
;
}
/* (non-Javadoc)
* @see cloudsim.VmAllocationPolicy#optimizeAllocation(double, cloudsim.VmList, double)
*/
@Override
public
List
<
Map
<
String
,
Object
>>
optimizeAllocation
(
List
<?
extends
Vm
>
vmList
)
{
// TODO Auto-generated method stub
return
null
;
}
/* (non-Javadoc)
* @see org.cloudbus.cloudsim.VmAllocationPolicy#allocateHostForVm(org.cloudbus.cloudsim.Vm, org.cloudbus.cloudsim.Host)
*/
@Override
public
boolean
allocateHostForVm
(
Vm
vm
,
Host
host
)
{
if
(
host
.
vmCreate
(
vm
))
{
//if vm has been succesfully created in the host
getVmTable
().
put
(
vm
.
getUid
(),
host
);
Log
.
formatLine
(
"%.2f: VM #"
+
vm
.
getId
()
+
" has been allocated to the host #"
+
host
.
getId
(),
CloudSim
.
clock
());
return
true
;
}
return
false
;
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/WorkflowApp.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.util.List
;
import
org.cloudbus.cloudsim.UtilizationModel
;
import
org.cloudbus.cloudsim.UtilizationModelFull
;
import
org.cloudbus.cloudsim.core.CloudSim
;
public
class
WorkflowApp
extends
AppCloudlet
{
public
WorkflowApp
(
int
type
,
int
appID
,
double
deadline
,
int
numbervm
,
int
userId
)
{
super
(
type
,
appID
,
deadline
,
numbervm
,
userId
);
// TODO Auto-generated constructor stub
this
.
exeTime
=
100
;
this
.
numbervm
=
3
;
}
public
void
createCloudletList
(
List
<
Integer
>
vmIdList
){
long
fileSize
=
Constants
.
FILE_SIZE
;
long
outputSize
=
Constants
.
OUTPUT_SIZE
;
int
pesNumber
=
Constants
.
PES_NUMBER
;
int
memory
=
100
;
UtilizationModel
utilizationModel
=
new
UtilizationModelFull
();
int
i
=
0
;
//Task A
NetworkCloudlet
cl
=
new
NetworkCloudlet
(
Constants
.
currentCloudletId
,
0
,
1
,
fileSize
,
outputSize
,
memory
,
utilizationModel
,
utilizationModel
,
utilizationModel
);
cl
.
numStage
=
2
;
Constants
.
currentCloudletId
++;
cl
.
setUserId
(
userId
);
cl
.
submittime
=
CloudSim
.
clock
();
cl
.
currStagenum
=-
1
;
cl
.
setVmId
(
vmIdList
.
get
(
i
));
//first stage: big computation
cl
.
stages
.
add
(
new
TaskStage
(
Constants
.
EXECUTION
,
0
,
1000
*
0.8
,
0
,
memory
,
vmIdList
.
get
(
0
),
cl
.
getCloudletId
()));
cl
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_SEND
,
1000
,
0
,
1
,
memory
,
vmIdList
.
get
(
2
),
cl
.
getCloudletId
()+
2
));
clist
.
add
(
cl
);
i
++;
//Task B
NetworkCloudlet
clb
=
new
NetworkCloudlet
(
Constants
.
currentCloudletId
,
0
,
1
,
fileSize
,
outputSize
,
memory
,
utilizationModel
,
utilizationModel
,
utilizationModel
);
clb
.
numStage
=
2
;
Constants
.
currentCloudletId
++;
clb
.
setUserId
(
userId
);
clb
.
submittime
=
CloudSim
.
clock
();
clb
.
currStagenum
=-
1
;
clb
.
setVmId
(
vmIdList
.
get
(
i
));
//first stage: big computation
clb
.
stages
.
add
(
new
TaskStage
(
Constants
.
EXECUTION
,
0
,
1000
*
0.8
,
0
,
memory
,
vmIdList
.
get
(
1
),
clb
.
getCloudletId
()));
clb
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_SEND
,
1000
,
0
,
1
,
memory
,
vmIdList
.
get
(
2
),
clb
.
getCloudletId
()+
1
));
clist
.
add
(
clb
);
i
++;
//Task C
NetworkCloudlet
clc
=
new
NetworkCloudlet
(
Constants
.
currentCloudletId
,
0
,
1
,
fileSize
,
outputSize
,
memory
,
utilizationModel
,
utilizationModel
,
utilizationModel
);
clc
.
numStage
=
2
;
Constants
.
currentCloudletId
++;
clc
.
setUserId
(
userId
);
clc
.
submittime
=
CloudSim
.
clock
();
clc
.
currStagenum
=-
1
;
clc
.
setVmId
(
vmIdList
.
get
(
i
));
//first stage: big computation
clc
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_RECV
,
1000
,
0
,
0
,
memory
,
vmIdList
.
get
(
0
),
cl
.
getCloudletId
()));
clc
.
stages
.
add
(
new
TaskStage
(
Constants
.
WAIT_RECV
,
1000
,
0
,
1
,
memory
,
vmIdList
.
get
(
1
),
cl
.
getCloudletId
()+
1
));
clc
.
stages
.
add
(
new
TaskStage
(
Constants
.
EXECUTION
,
0
,
1000
*
0.8
,
1
,
memory
,
vmIdList
.
get
(
0
),
clc
.
getCloudletId
()));
clist
.
add
(
clc
);
}
}
modules/cloudsim/src/main/java/org/cloudbus/cloudsim/network/datacenter/testMainclass.java
0 → 100755
View file @
059beb41
package
org
.
cloudbus
.
cloudsim
.
network
.
datacenter
;
import
java.io.File
;
import
java.io.FileOutputStream
;
import
java.io.IOException
;
import
java.text.DecimalFormat
;
import
java.util.ArrayList
;
import
java.util.Calendar
;
import
java.util.LinkedList
;
import
java.util.List
;
import
org.cloudbus.cloudsim.Cloudlet
;
import
org.cloudbus.cloudsim.CloudletSchedulerSpaceShared
;
import
org.cloudbus.cloudsim.DatacenterCharacteristics
;
import
org.cloudbus.cloudsim.Host
;
import
org.cloudbus.cloudsim.Log
;
import
org.cloudbus.cloudsim.Pe
;
import
org.cloudbus.cloudsim.Storage
;
import
org.cloudbus.cloudsim.UtilizationModel
;
import
org.cloudbus.cloudsim.UtilizationModelFull
;
import
org.cloudbus.cloudsim.Vm
;
import
org.cloudbus.cloudsim.VmAllocationPolicySimple
;
import
org.cloudbus.cloudsim.VmSchedulerTimeShared
;
import
org.cloudbus.cloudsim.core.CloudSim
;
import
org.cloudbus.cloudsim.distributions.UniformDistr
;
import
org.cloudbus.cloudsim.provisioners.BwProvisionerSimple
;
import
org.cloudbus.cloudsim.provisioners.PeProvisionerSimple
;
import
org.cloudbus.cloudsim.provisioners.RamProvisionerSimple
;
public
class
testMainclass
{
/**
* @param args
*/
/** The cloudlet list. */
private
static
List
<
AppCloudlet
>
cloudletList
;
/** The vmlist. */
private
static
List
<
NetworkVm
>
vmlist
;
/**
* Creates main() to run this example.
*
* @param args the args
*/
public
static
void
main
(
String
[]
args
)
{
Log
.
printLine
(
"Starting CloudSimExample1..."
);
try
{
int
num_user
=
1
;
// number of cloud users
Calendar
calendar
=
Calendar
.
getInstance
();
boolean
trace_flag
=
false
;
// mean trace events
// Initialize the CloudSim library
CloudSim
.
init
(
num_user
,
calendar
,
trace_flag
);
// Second step: Create Datacenters
// Datacenters are the resource providers in CloudSim. We need at
// list one of them to run a CloudSim simulation
NetworkDatacenter
datacenter0
=
createDatacenter
(
"Datacenter_0"
);
// Third step: Create Broker
NetDatacenterBroker
broker
=
createBroker
();
int
brokerId
=
broker
.
getId
();
broker
.
setLinkDC
(
datacenter0
);
//broker.setLinkDC(datacenter0);
// Fifth step: Create one Cloudlet
cloudletList
=
new
ArrayList
<
AppCloudlet
>();
vmlist
=
new
ArrayList
<
NetworkVm
>();
// submit vm list to the broker
broker
.
submitVmList
(
vmlist
);
// Sixth step: Starts the simulation
CloudSim
.
startSimulation
();
CloudSim
.
stopSimulation
();
//Final step: Print results when simulation is over
List
<
Cloudlet
>
newList
=
broker
.
getCloudletReceivedList
();
printCloudletList
(
newList
);
System
.
out
.
println
(
"numberofcloudlet "
+
newList
.
size
()+
" Cached "
+
NetDatacenterBroker
.
cachedcloudlet
+
" Data transfered "
+
Constants
.
totaldatatransfer
);
// Print the debt of each user to each datacenter
datacenter0
.
printDebts
();
Log
.
printLine
(
"CloudSimExample1 finished!"
);
}
catch
(
Exception
e
)
{
e
.
printStackTrace
();
Log
.
printLine
(
"Unwanted errors happen"
);
}
}
/**
* Creates the datacenter.
*
* @param name the name
*
* @return the datacenter
*/
private
static
NetworkDatacenter
createDatacenter
(
String
name
)
{
// Here are the steps needed to create a PowerDatacenter:
// 1. We need to create a list to store
// our machine
List
<
NetworkHost
>
hostList
=
new
ArrayList
<
NetworkHost
>();
// 2. A Machine contains one or more PEs or CPUs/Cores.
// In this example, it will have only one core.
//List<Pe> peList = new ArrayList<Pe>();
int
mips
=
1
;
// 3. Create PEs and add these into a list.
//peList.add(new Pe(0, new PeProvisionerSimple(mips))); // need to store Pe id and MIPS Rating
// 4. Create Host with its id and list of PEs and add them to the list
// of machines
int
hostId
=
0
;
int
ram
=
2048
;
// host memory (MB)
long
storage
=
1000000
;
// host storage
int
bw
=
10000
;
for
(
int
i
=
0
;
i
<
Constants
.
EdgeSwitchPort
*
Constants
.
AggSwitchPort
*
Constants
.
RootSwitchPort
;
i
++)
{
// 2. A Machine contains one or more PEs or CPUs/Cores.
// In this example, it will have only one core.
// 3. Create PEs and add these into an object of PowerPeList.
List
<
Pe
>
peList
=
new
ArrayList
<
Pe
>();
peList
.
add
(
new
Pe
(
0
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
1
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
2
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
3
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
4
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
5
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
6
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
peList
.
add
(
new
Pe
(
7
,
new
PeProvisionerSimple
(
mips
)));
// need to store PowerPe id and MIPS Rating
// 4. Create PowerHost with its id and list of PEs and add them to the list of machines
hostList
.
add
(
new
NetworkHost
(
i
,
new
RamProvisionerSimple
(
ram
),
new
BwProvisionerSimple
(
bw
),
storage
,
peList
,
new
VmSchedulerTimeShared
(
peList
)
)
);
// This is our machine
}
// 5. Create a DatacenterCharacteristics object that stores the
// properties of a data center: architecture, OS, list of
// Machines, allocation policy: time- or space-shared, time zone
// and its price (G$/Pe time unit).
String
arch
=
"x86"
;
// system architecture
String
os
=
"Linux"
;
// operating system
String
vmm
=
"Xen"
;
double
time_zone
=
10.0
;
// time zone this resource located
double
cost
=
3.0
;
// the cost of using processing in this resource
double
costPerMem
=
0.05
;
// the cost of using memory in this resource
double
costPerStorage
=
0.001
;
// the cost of using storage in this
// resource
double
costPerBw
=
0.0
;
// the cost of using bw in this resource
LinkedList
<
Storage
>
storageList
=
new
LinkedList
<
Storage
>();
// we are not adding SAN
// devices by now
DatacenterCharacteristics
characteristics
=
new
DatacenterCharacteristics
(
arch
,
os
,
vmm
,
hostList
,
time_zone
,
cost
,
costPerMem
,
costPerStorage
,
costPerBw
);
// 6. Finally, we need to create a PowerDatacenter object.
NetworkDatacenter
datacenter
=
null
;
try
{
datacenter
=
new
NetworkDatacenter
(
name
,
characteristics
,
new
VmHPCAllocationPolicySimple
(
hostList
),
storageList
,
0
);
//datacenter = new HPCDatacenter(name, characteristics, new VmAllocationPolicySimple(hostList), storageList, 0.0001);
}
catch
(
Exception
e
)
{
e
.
printStackTrace
();
}
CreateNetwork
(
2
,
datacenter
);
return
datacenter
;
}
// We strongly encourage users to develop their own broker policies, to
// submit vms and cloudlets according
// to the specific rules of the simulated scenario
/**
* Creates the broker.
*
* @return the datacenter broker
*/
private
static
NetDatacenterBroker
createBroker
()
{
NetDatacenterBroker
broker
=
null
;
try
{
broker
=
new
NetDatacenterBroker
(
"Broker"
);
}
catch
(
Exception
e
)
{
e
.
printStackTrace
();
return
null
;
}
return
broker
;
}
/**
* Prints the Cloudlet objects.
*
* @param list list of Cloudlets
* @throws IOException
*/
private
static
void
printCloudletList
(
List
<
Cloudlet
>
list
)
throws
IOException
{
int
size
=
list
.
size
();
Cloudlet
cloudlet
;
double
fintime
=
0
;
String
indent
=
" "
;
Log
.
printLine
();
Log
.
printLine
(
"========== OUTPUT =========="
);
Log
.
printLine
(
"Cloudlet ID"
+
indent
+
"STATUS"
+
indent
+
"Data center ID"
+
indent
+
"VM ID"
+
indent
+
"Time"
+
indent
+
"Start Time"
+
indent
+
"Finish Time"
);
DecimalFormat
dft
=
new
DecimalFormat
(
"###.##"
);
for
(
int
i
=
0
;
i
<
size
;
i
++)
{
cloudlet
=
list
.
get
(
i
);
Log
.
print
(
indent
+
cloudlet
.
getCloudletId
()
+
indent
+
indent
);
if
(
cloudlet
.
getCloudletStatus
()
==
Cloudlet
.
SUCCESS
)
{
Log
.
print
(
"SUCCESS"
);
fintime
=
cloudlet
.
getFinishTime
();
Log
.
printLine
(
indent
+
indent
+
cloudlet
.
getResourceId
()
+
indent
+
indent
+
indent
+
cloudlet
.
getVmId
()
+
indent
+
indent
+
dft
.
format
(
cloudlet
.
getActualCPUTime
())
+
indent
+
indent
+
dft
.
format
(
cloudlet
.
getExecStartTime
())
+
indent
+
indent
+
dft
.
format
(
cloudlet
.
getFinishTime
()));
}
}
File
f
=
new
File
(
"outputmine.csv"
);
if
(!
f
.
exists
())
{
f
.
createNewFile
();
}
FileOutputStream
fop1
=
new
FileOutputStream
(
f
,
true
);
fop1
.
write
((
"RequestClass ,"
+
Constants
.
REQUEST_CLASSES
+
",numberofcloudlet, "
+
list
.
size
()+
" ,Cached, "
+
NetDatacenterBroker
.
cachedcloudlet
+
" ,Data transfered, "
+
Constants
.
totaldatatransfer
+
" ,Process Time, "
+
fintime
+
"\n"
).
getBytes
());
fop1
.
close
();
}
static
void
CreateNetwork
(
int
numhost
,
NetworkDatacenter
dc
)
{
// //Root Switch
// Switch swroot=new Switch("Root", Constants.ROOT_LEVEL, dc);
// dc.Switchlist.put(swroot.getId(), swroot);
// //Agg Switch
// Switch aggswitch[]=new Switch[(int) Constants.RootSwitchPort];
// for(int j=0;j<Constants.RootSwitchPort;j++)
// {
// aggswitch[j]=new Switch("Agg"+j, Constants.Agg_LEVEL, dc);
// swroot.downlinkswitches.add(aggswitch[j]);
// aggswitch[j].uplinkswitches.add(swroot);
// dc.Switchlist.put(aggswitch[j].getId(), aggswitch[j]);
// }
//Edge Switch
EdgeSwitch
edgeswitch
[]=
new
EdgeSwitch
[
1
];
for
(
int
i
=
0
;
i
<
1
;
i
++)
{
edgeswitch
[
i
]=
new
EdgeSwitch
(
"Edge"
+
i
,
Constants
.
EDGE_LEVEL
,
dc
);
//edgeswitch[i].uplinkswitches.add(null);
dc
.
Switchlist
.
put
(
edgeswitch
[
i
].
getId
(),
edgeswitch
[
i
]);
//aggswitch[(int) (i/Constants.AggSwitchPort)].downlinkswitches.add(edgeswitch[i]);
}
for
(
Host
hs:
dc
.
getHostList
())
{
NetworkHost
hs1
=(
NetworkHost
)
hs
;
hs1
.
bandwidth
=
Constants
.
BandWidthEdgeHost
;
int
switchnum
=(
int
)
(
hs
.
getId
()/
Constants
.
EdgeSwitchPort
);
edgeswitch
[
switchnum
].
hostlist
.
put
(
hs
.
getId
(),
hs1
);
dc
.
HostToSwitchid
.
put
(
hs
.
getId
(),
edgeswitch
[
switchnum
].
getId
());
hs1
.
sw
=
edgeswitch
[
switchnum
];
List
<
NetworkHost
>
hslist
=
hs1
.
sw
.
fintimelistHost
.
get
(
0
D
);
if
(
hslist
==
null
)
{
hslist
=
new
ArrayList
<
NetworkHost
>();
hs1
.
sw
.
fintimelistHost
.
put
(
0
D
,
hslist
);
}
hslist
.
add
(
hs1
);
}
}
}
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