def __init__(self):
BaseTest.__init__(self)
RoamingCommon.__init__(self)
#-------------------User Configuration--------------------------------
#-------------- Hardware definition ----------------
"""
The CardMap defines the WaveBlade ports that will be available for the
test.
Field Definitions:
PortName - Name given to the specified WaveBlade port. This is a
user defined name.
ChassisID - The WT90/20 Chassis DNS name or IP address. Format:
'string' or '0.0.0.0'
CardNumber - The WaveBlade card number as given on the Chassis front
panel.
PortNumber - The WaveBlade port number, should be equal to 0 for
current cards.
For Ethernet Card:
Autonegotiation mode - Ethernet Autonegotiation mode. Valid values:
'on', 'off', 'forced'.
Speed - Ethernet speed setting if not obtained by
Autonegotiation. Valid values: 10, 100, 1000
Duplex - Ethernet Duplex mode if not obtained by
autonegotiation. Valid values: 'full', 'half'
For WiFi Card:
Channel - WiFi channel number to use on the port.
Field Format: dictionary
For Wifi Cards -
<PortName>: ( <ChassisID>, <CardNumber>, <PortNumber>,
<Channel> ),
For Ethernet Cards -
<PortName>: ( <ChassisID>, <CardNumber>, <PortNumber>,
<autoNegotiation>, <speed>, <duplex> ),
"""
self.CardMap = { 'WT90_E1': ( 'wt-tga-14-61', 1, 0, 'on', 100, 'full' ),
'WT90_W1': ( 'wt-tga-14-61', 3, 0, 2 ),
'WT90_W2': ( 'wt-tga-14-61', 4, 0, 2 )
}
"""
testOptions contains the options applicable across all the roaming groups.
'flowPacketSize': The size of the packets sent to the roaming clients (from an
eth group), this packet flow is used in measuring the
roam metrics (roaming delay, packet loss etc)
'flowRate': The rate of the above flow
'repeatType': Specifies whether test should be run for certain amount of time
or for certain number of cycles
Values- 'Duration', 'Repeat'
'durationUnits': Applicable only when 'repeatType' is 2 (Duration)
Values- 0: Seconds, 1: Minutes, 2:Hours
'repeatValue': This specifies the amount of time or number of cycles depending
on the 'repeatType'
Type- Positive Integer
'learningFlowFlag': Specifies whether learning flows are to be used
0: OFF, 1: ON
'learningPacketRate': Rate of the learning flow
The below options specify client attributes while roaming
Their values are 0:OFF, 1:ON
'disassociate': Disassociate to the AP the client is leaving (to a roam AP)
'deauth': Deauthenticate to the AP the client is leaving (to a roam AP)
'reassoc': Use reassociate message rather than associate when associating
to a roam AP (an AP roamed to)
'renewDHCPonConn': Renew DHCP on reconnection
'renewDHCP': Renew DHCP on roam
'preauth': Pre-authenticate the clients to the APs they might roam to
'pmkid': PMKID caching enbled
"""
testOptions = {
'flowRate': 100,
'flowPacketSize': 256,
'repeatType': 'Repeat',
'durationUnits':0,
'repeatValue': 2,
'learningFlowFlag': 1,
'learningPacketRate': 100,
'renewDHCPonConn': 0,
'renewDHCP': 0,
'preauth': 0,
'reassoc': 0,
'deauth': 0,
'disassociate': 0,
'pmkid': 0,
}
"""
Security Options is dictionary of passed security parameters.
It has a mandatory key of 'Method' and optional keys depending
upon the particular security chose. Some common one shown in the
code below:
"""
self.Security_Eth_None = {'Method': 'None'}
self.Security_WPA_PSK = {
'Method': 'WPA-PSK',
'AnonymousIdentity': 'anonymous',
'NetworkAuthMethod': 'PSK',
'KeyType': 'ascii',
'EnabeValidateCertificate': 'on',
'KeyWidth': '',
'EncryptionMethod': 'TKIP',
'RootCertificate': '',
'AputhMethod': 'Open',
'LoginFile': '',
'KeyId': '1',
'ClientCertificate': '',
'StartIndex': '1',
'PrivateKeyFile': '',
'LoginMethod': 'Single',
'NetworkKey': 'whatever',
'Password': '******',
'Identity': 'anonymous'
}
self.Security_None = { 'Method': 'None'}
self.Security_WEP = {'Method': 'WEP-OPEN-128', 'KeyId': 0,
'NetworkKey': '00:00:00:00:00:00' }
self.Security_WPA2 = {'Method': 'WPA2-EAP-TLS',
'Identity': 'anonymous', 'Password' : 'whatever'}
"""
The NetworkList defines the network profiles that can be configured
for a clientgroup.
Each profile is a Dictionary of <Profilename> : {Parameters}
Field Definitions of Parameters:
'ssid' : <ssidname> - Type : string
'security' : <security options> - Type : dictionary.
'otherflags' : {Different network related flags}
The different network related flags can optionally be
'Disassoc_before_reassoc' : <0/1> (0:OFF, 1:ON)
'Reassoc_when_roam' : <0/1> (0:OFF, 1:ON)
'pmkid_cache' : <0/1> (0:OFF, 1:ON)
'Deauth_before_roam' : <0/1> (0:OFF, 1:ON)
'PreAuth' : <0/1> (0:OFF, 1:ON)
'renewDHCPonConn': <0/1> (0:OFF, 1:ON)
'renewDHCP': <0/1> (0:OFF, 1:ON)
"""
self.NetworkList = {
'Group_1security':
{'ssid': 'None',
'security': self.Security_Eth_None,
'bssid': 'None'
},
'Security1':
{'ssid': 'Open-2',
'security':self.Security_None,
'otherflags':
{'Disassoc_before_reassoc': testOptions['disassociate'],
'Deauth_before_roam': testOptions['deauth'],
'pmkid_cache': testOptions['pmkid'],
'renewDHCPonConn': testOptions['renewDHCPonConn'],
'PreAuth': testOptions['preauth'],
'Reassoc_when_roam': testOptions['reassoc'],
'renewDHCP': testOptions['renewDHCP']
}
},
'Aruba': {'ssid': 'aruba',
'security': self.Security_WPA2,
'otherflags' : {}},
'EthNetwork': {
'security':self.Security_None
}
}
"""
These parameters will effect the performance of the test. They
should only be altered if a specific problem is occuring that
keeps the test from executing with the DUT.
ARPRate - The rate at which the test will attempt issue ARP requests
during the learning phase. Units: ARPs/second; Type: float
ARPRetries - Number of attempts to retry any give ARP request before
considering the ARP a failure.
ARPTimeout - Amount of time the test will wait for an ARP response
before retrying or failing.
"""
self.ARPRate = 10.0
self.ARPRetries = 3
self.ARPTimeout = 10.0
#-------------------- Timing parameters -----------------
"""
These parameters will effect the performance of the test. They should
only be altered if a specific problem is occuring that keeps the
test from executing with the DUT.
BSSIDscanTime - Amount of time to allow for scanning during the
BSSID discovery process. Units: seconds
AssociateRate - The rate at which the test will attempt to
associate clients with the SUT. This includes the time
required to complete .1X authentications.
Units: associations/second.
AssociateTimeout - Amount of time the test will wait for a client
association to complete before considering iteration
a failed connection. Units: seconds;
AssociateRetries - Number of attempts to retry the complete
association process for each client in the test.
"""
self.BSSIDscanTimeout = 5
self.AssociateRate = 10
self.AssociateTimeout = 10
self.AssociateRetries = 0
#--------------------- Logging Parameters ---------------
"""
These parameters determine how the output of the test is to be formed.
CSVfilename - Name of the output file that will contain the
primary test results. This file will be in CSV format.
This name can include a path as well.
Otherwise the file will be placed at the location of
the calling program.
SavePCAPfile - Boolean True/False value. If True a PCAP file will
be created containing the detailed frame data that
was captured on each WT-20/90 port.
"""
self.CSVfilename = 'Results_roaming_benchmark.csv'
self.ReportFilename = 'Report_roaming_benchmark.pdf'
self.DetailedFilename = 'Detailed_roaming_benchmark.csv'
self.RSSIfilename = 'RSSI_roaming_benchmark.csv'
self.LoggingDirectory = "logs"
self.SavePCAPfile = False
"""
self.roamRate : The number of roams in the SUT per second.
"""
self.roamRate = 1.0
self.roamInterval = 1/self.roamRate
"""
self.roamFlowMappings: This contains the list of lists, with each inner
list being of length 2, with first item as source
group sending traffic to the second item the name
of the destination group receiving traffic
"""
self.roamFlowMappings = [['Group_1', 'Group_2']]
#------------------- Flow Parameters ----------------
"""
These parameters determine the type of data frames and flows to be
used in the test.
Any of the defined flows can then be attached to a clientgroup.
A Flowlist is a dictionary of 'Flowname' :
{Key : Value pairs}
Key : Value pairs can be
'Type' : Packet or frame type. Valid values: 'UDP', 'TCP', 'IP', 'ICMP'
'Framesize' : frame size . Type <integer>
'Phyrate' : rate. Type <integer>
'Ratemode' : 'pps'
'Intendedrate' : Traffic rate. Type <integer>
'Numframes' : Max frames to be sent. Type <integer>
'srcPort': Source Port of the flow. Type<String>
'destPort': Destination Port of the flow. Type<String>
MainFlowlist - The list of flows that would be attached to a
clientgroup as the main traffic pattern for the clientgroup. The
traffic will flow from Ethernet client to the Wireless clients in
the clientgroup.
"""
self.MainFlowlist = {
'Flow1':
{'Type': 'UDP',
'Intendedrate': testOptions['flowRate'],
'Framesize': testOptions['flowPacketSize'],
'Phyrate': 54.0,
'Numframes': WE.MAXtxFrames,
'srcPort': '8000',
'destPort': '69',
'Ratemode': 'pps'
}
}
#Some Misc computations
testTypeVal = testOptions['repeatValue']
if testOptions['repeatType'] == 'Duration':
durationUnits = testOptions['durationUnits']
if durationUnits == 1: #minutes
testTypeVal *= 60
elif durationUnits == 2: #hours
testTypeVal *= 3600
self.totalduration = testTypeVal
#-------------------- Roam profiles-----------------------
"""
Any of the Roam profiles can be attached to a clientgroup. Thus, each
of the clients in the clientgroup will inherit the attached Roam
profile.
A Roamlist of a dictionary of form, 'Roamprofilename' :
{Key : Value pairs}
Key : Value pairs can be
'PortList': listofports - This is the list of ports
across which the Roam is to be executed.
'TestType' : <'Repeat'/'Duration'> - If 'Repeat', then the roams
will be repeated across all ports for 'val' number of times.
If 'Duration', then the roams will be executed for 'val'
period of time iterating through the port list.
'TestTypeValue' : <repeatcount/duration value> - Type: float/integer.
This value is interpreted on the basis of roam_testtype config.
'ClientDistr' : <True>. The clients always will be evenly distributed
across all the available ports.
'TimeDistr' : <'even'> - Type: string. Always 'even',
the roam events of all the clients will be distributed
evenly across the given dwell time.
"""
self.Roamlist = {
'Roam1':
{
'PortList': ['WT90_W1', 'WT90_W2'],
'BSSIDList': ['00:15:c6:28:c2:31', '00:13:c4:0d:70:11'],
'DwellTime': [self.roamInterval, self.roamInterval],
'TesttypeValue': testTypeVal,
'TestType': testOptions['repeatType'],
'TimeDistr': 'even',
'ClientDistr': True
}
}
#---------------- ClientGroup Parameters ----------------
"""
The Clientgroups is a dictionary that defines the characteristics of
each clientgroup. A number of wireless clients are created each of
which inherits the properties of the clientgroup.
Each of the clientgroup is defined as
'Groupname': {Key : Value pairs}
Key : Value pairs can be
'StartMAC' : The MAC address of the first client in the group. For
random MAC, use 'DEFAULT'
'MACIncrMode': <'INCREMENT'/'DECREMENT'>
'MACStep' : Change step in the direction specified through 'MACIncrMode'
'StartIP' : The IP address of the first client in the group.
'IPStep': Specify which of the bytes have to be incremented and by how much
Type <String>
'Gateway' : Gateway IP address for all the clients.
'SubMask' : Subnet mask for the IP addresses of the clients.
'NumClients' : The number of wireless clients to be created in
this client group.
'Security' : security profile name - This attaches a network
profile that gets configured for each of the clients.
'Roamprof' : roamprofile name - This attaches a roam profile that
gets configured for each of the clients.
'MainFlow' : mainflow name - The main traffic flow that will be
attached to each client.
'ClientLearning': <'on' / 'off'> Whether Client Learning is to be ON or OFF
LearningRate - The client learning rate
'AssocProbe': Probe before associate- either do not send probe request
('None') or send probe request (either 'Unicast' or 'Broadcast')
'VlanEnable': <'True'/ 'False'>,
'VlanUserPriority': 0-7,
'VlanCfi': Should the CFI bit be set. Type <Boolean>
'VlanId': Type <Integer>
'QoSFlag': Should QoS flag be set. Type <Boolean>
"""
self.Clientgroups = {
'Group_2':
{'Enable': True,
'StartMAC' : 'ae:ae:ae:00:00:01',
'MACIncrMode' : 'INCREMENT',
'MACStep' : 1,
'StartIP': '192.168.1.11',
'IPStep': '0.0.0.1',
'Gateway': '192.168.1.1',
'SubMask': '255.255.255.0',
'NumClients': 1,
'Security': 'Security1',
'Roamprof': 'Roam1',
'MainFlow': 'Flow1',
'ClientLearning': 'on',
'LearningRate': 100,
'AssocProbe': 'Unicast',
'MgmtPhyRate': 6.0,
'GratuitousArp': 'True',
'ProactiveKeyCaching': 'False',
}
}
self.nonRoamGroups = {
'Group_1': {'Enable' : True,
'StartMAC' : '50:40:30:20:10:aa',
'MACIncrMode' : 'INCREMENT',
'MACStep' : 1,
'StartIP' : '192.168.1.100',
'IPStep' : '0.0.0.1',
'Gateway' : '192.168.1.1',
'SubMask' : '255.255.255.0',
'Port' : 'WT90_E1',
'Interface' : '802.3',
'Security' : 'Group_1security',
'NumClients': 1,
'VlanEnable': 'True',
'VlanUserPriority': 0,
'VlanCfi': True,
'VlanId': 2,
'QoSFlag' : True,
'Dhcp' : 'Disable',
'MgmtPhyRate': '6',
'GratuitousArp': 'True',
'Interface': '802.3 Ethernet',
'PhyRate': '54'
}
}
# ---------------- End of User configuration -------------
#Data Structure manipulation based on the user configuration above
self.testKey = 'roaming_benchmark'
self.testName = 'Roaming Benchmark'
#self.dummyClientGroupNumsDict, self.dummyRoamBenchDict need
#to be populated for the script to run on its own (rather than as module)
self.dummyClientGroupNumsDict = {}
for group in self.Clientgroups:
self.dummyClientGroupNumsDict[group] = self.Clientgroups[group]['NumClients']
groupRoamInfo = {}
for group in self.Clientgroups:
groupRoamInfo[group] = {'portNameList':
self.Roamlist[self.Clientgroups[group]['Roamprof']]['PortList'],
'ssid':
self.NetworkList[self.Clientgroups[group]['Security']]['ssid'],
'bssidList':
self.Roamlist[self.Clientgroups[group]['Roamprof']]['BSSIDList']
}
#This data structure is the same as
self.dummyRoamBenchDict = { 'roamRate': 1/self.roamInterval,
'roamTraffic': self.roamFlowMappings,
'dwellTime': self.roamInterval,
'backgroundTraffic': [],
'powerProfileFlag': 0,
}
self.dummyRoamBenchDict.update(testOptions)
#Repeat type should be int
if testOptions[ 'repeatType'] == 'Duration':
self.dummyRoamBenchDict['repeatType'] = 1
elif testOptions[ 'repeatType'] == 'Repeat':
self.dummyRoamBenchDict['repeatType'] = 2
self.dummyRoamBenchDict.update(groupRoamInfo)
#----------------------------------------------------------------------------------------
self.graphPlotInterval = 1.0
self.roamSourcePorts = {}
self.nonRoamClientGroups = {}
self.roamTrafficSource = {}
def __init__(self):
BaseTest.__init__(self)
RoamingCommon.__init__(self)
"""
Specify the test name, needed roaming_common.RoamingCommon
"""
self.testName = 'Roaming Delay'
#-------------------User Configuration--------------------------------
"""
Specify the duration for which the test is to be run.
"""
self.totalduration = 25
#-------------- Hardware definition ----------------
"""
The CardMap defines the WaveBlade ports that will be available for the
test.
Field Definitions:
PortName - Name given to the specified WaveBlade port. This is a
user defined name.
ChassisID - The WT90/20 Chassis DNS name or IP address. Format:
'string' or '0.0.0.0'
CardNumber - The WaveBlade card number as given on the Chassis front
panel.
PortNumber - The WaveBlade port number, should be equal to 0 for
current cards.
Channel - WiFi channel number to use on the port.
Autonegotiation - Ethernet Autonegotiation mode. Valid values:
'on', 'off', 'forced'.
Speed - Ethernet speed setting if not obtained by
autonegotiation. Valid values: 10, 100, 1000
Duplex - Ethernet Duplex mode if not obtained by
autonegotiation. Valid values: 'full', 'half'
Field Format: dictionary
For Wifi Cards -
<PortName>: ( <ChassisID>, <CardNumber>, <PortNumber>,
<Channel> ),
For Ethernet Cards -
<PortName>: ( <ChassisID>, <CardNumber>, <PortNumber>,
<autoNegotiation>, <speed>, <duplex> ),
"""
self.CardMap = { 'WT90_E1': ( 'wt-tga-14-61', 1, 0, 'on', 100, 'full' ),
'WT90_W1': ( 'wt-tga-14-61', 3, 0, 2 ),
'WT90_W2': ( 'wt-tga-14-61', 4, 0, 2 )
}
"""
Security Options is dictionary of passed security parameters.
It has a mandatory key of 'Method' and optional keys depending
upon the particular security chose. Some common one defined:
"""
self.Security_None = {'Method': 'NONE'}
self.Security_WEP = {'Method': 'WEP-OPEN-128', 'KeyId': 0,
'NetworkKey': '00:00:00:00:00:00' }
self.Security_WPA2 = {'Method': 'WPA2-EAP-TLS',
'Identity': 'anonymous', 'Password' : 'whatever'}
"""
The NetworkList defines the network profiles that can be configured
for a clientgroup.
Each profile is a Dictionary of <Profilename> : {Parameters}
Field Definitions of Parameters:
'ssid' : <ssidname> - Type : string
'security' : <security options> - Type : dictionary.
'otherflags' : {Different network related flags}
The different network related flags can optionally be
'Disassoc_before_reassoc' : <True/False>
'Reassoc_when_roam' : <True/False>
'pmkid_cache' : <True/False>
'Deauth_before_roam' : <True/False>
'PreAuth' : <True/False>
"""
self.NetworkList = {
'Cisco': {'ssid': 'cisco',
'security': self.Security_None,
'otherflags': {'Disassoc_before_reassoc': False,
'Reassoc_when_roam': False, 'pmkid_cache': False,
'Deauth_before_roam': False, 'PreAuth' : False} },
'Aruba': {'ssid': 'aruba',
'security': self.Security_WPA2, 'otherflags' : {}},
'Colubris_NONE': {'ssid': 'roam_ap',
'security': self.Security_None, 'otherflags' : {}},
'Colubris_WPA2': {'ssid': 'WPA2_EAP',
'security': self.Security_WPA2, 'otherflags' : {}}
}
"""
Ethernet Client properties. For now, there is just one Ethernet
client that can be configured. The main traffic will flow from
Ethernet to the Wireless clients.
"""
self.Port8023_Name = 'WT90_E1'
self.Port8023_ClientName = 'Client_8023'
self.Port8023_IPaddress = '192.168.1.160'
self.Port8023_Subnet = '255.255.0.0'
self.Port8023_Gateway = '192.168.1.110'
self.Port8023_MAC = 'DEFAULT'
self.Port8023_AssocRate = 100
self.Port8023_AssocTimeout = 1
self.Port8023_AssocRetry = 1
self.Port8023_VlanTag = {}
"""
These parameters will effect the performance of the test. They
should only be altered if a specific problem is occuring that
keeps the test from executing with the DUT.
ARPRate - The rate at which the test will attempt issue ARP requests
during the learning phase. Units: ARPs/second; Type: float
ARPRetries - Number of attempts to retry any give ARP request before
considering the ARP a failure.
ARPTimeout - Amount of time the test will wait for an ARP response
before retrying or failing.
"""
self.ARPRate = 10.0
self.ARPRetries = 3
self.ARPTimeout = 10.0
#-------------------- Timing parameters -----------------
"""
These parameters will effect the performance of the test. They should
only be altered if a specific problem is occuring that keeps the
test from executing with the DUT.
BSSIDscanTime - Amount of time to allow for scanning during the
BSSID discovery process. Units: seconds
AssociateRate - The rate at which the test will attempt to
associate clients with the SUT. This includes the time required to
complete .1X authentications. Units: associations/second.
AssociateTimeout - Amount of time the test will wait for a client
association to complete before considering iteration a failed
connection. Units: seconds;
AssociateRetries - Number of attempts to retry the complete
association process for each client in the test.
"""
self.BSSIDscanTimeout = 5
self.AssociateRate = 10
self.AssociateTimeout = 10
self.AssociateRetries = 0
#--------------------- Logging Parameters ---------------
"""
These parameters determine how the output of the test is to be formed.
CSVfilename - Name of the output file that will contain the
primary test results. This file will be in CSV format. This name can
include a path as well. Otherwise the file will be placed at the
location of the calling program.
SavePCAPfile - Boolean True/False value. If True a PCAP file will
be created containing the detailed frame data that was captured on
each WT-20/90 port.
"""
self.CSVfilename = 'Results_roaming_delay.csv'
self.ReportFilename = 'Report_roaming_delay.pdf'
self.DetailedFilename = 'Detailed_roaming_delay.csv'
self.RSSIfilename = 'RSSI_roaming_delay.csv'
self.LoggingDirectory = "logs"
self.SavePCAPfile = False
#------------ Power ramp up/down profiles ---------------
"""
These profiles determine what power ramp up/down pattern will be
generated for each Roam event for any client. Any of the defined
power profiles can be attached to a Roam profile which in turn gets
attached to a clientgroup.
A Powerlist is a dictionary of the form, 'Powerprofilename' :
([power ramp down profile], [power ramp up profile]).
A power ramp down/up profile = [startpower, endpower, powerstep,
timeinterval]
startpower - This is the power level from which the power up/down
pattern will start. startpower has to be greater than stoppower in
a power ramp down event. viceversa for ramp up event.
stoppower - This is the power level at which the power up/down
patter will stop.
powerstep - The power increment/decrement steps.
timeinterval - How long to transmit frames at each power level.
"""
self.Powerlist = {
'Pprofile1': ([-20, -20, 10, 100], [-20, -10, 10, 100])
}
#-------------------- Roam profiles-----------------------
"""
Any of the Roam profiles can be attached to a clientgroup. Thus, each
of the clients in the clientgroup will inherit the attached Roam
profile.
A Roamlist of a dictionary of form, 'Roamprofilename' :
{Key : Value pairs}
Key : Value pairs can be
'PortList': listofports - This is the list of ports
across which the Roam is to be executed.
'DwellTime' : listofdwelltimes - This is the list of dwell times
for any client on each of the corresponding ports. There has to
be a direct mapping between the portlist and dwelltime list.
'ClientDistr' : <True/False> - If True, then the clients
will be evenly distributed across all the available ports. If False,
then all the clients will start roaming from the first port.
'TimeDistr' : <'even'/'dense'> - Type: string. If 'even', then
the roam events of all the clients will be distributed evenly across
the given dwell time. When timedistribution is 'even', there can be
only one dwelltime in the listofdwelltimes.
'TestType' : <'Repeat'/'Duration'> - If 'Repeat', then the roams
will be repeated across all ports for 'val' number of times.
If 'Duration', then the roams will be executed for 'val' period of
time iterating through the port list.
'TestTypeValue' : <repeatcount/duration value> - Type: float/integer.
This value is interpreted on the basis of roam_testtype config.
'Powerprof' : <name of the power profile> - Type: string.
This is the name of a predefined powerprofile. See power ramp up
down profile section.
"""
self.Roamlist = {
'Roam1': {'PortList' : ['WT90_W1', 'WT90_W2'],
'DwellTime' : [5, 1],
'BSSIDList' : ['00:13:5f:0e:cb:10', '00:12:44:b1:7e:b0'],
'ClientDistr' : True ,
'TimeDistr' : 'even',
'TestType' : 'Duration',
'TesttypeValue': 31,
'Powerprof' : 'Pprofile1'
},
'Roam2': {'PortList' : ['WT90_W1', 'WT90_W2'],
'DwellTime' : [5, 3],
'BSSIDList' : ['00:13:5f:0e:cb:10', '00:12:44:b1:7e:b0'],
'ClientDistr' : False,
'TimeDistr' : 'dense',
'TestType' : 'Repeat',
'TesttypeValue': 3,
}
}
#------------------- Flow Parameters ----------------
"""
These parameters determine the type of data frames and flows to be
used in the test.
Any of the defined flows can then be attached to a clientgroup.
A Flowlist is a dictionary of 'Flowname' :
{Key : Value pairs}
Key : Value pairs can be
'Type' : Packet or frame type. Valid values: 'UDP', 'TCP', 'IP', 'ICMP'
'Framesize' : frame size . Type <integer>
'Phyrate' : rate. Type <integer>
'Ratemode' : 'pps'
'Intendedrate' : Traffic rate. Type <integer>
'Numframes' : Max frames to be sent. Type <integer>
MainFlowlist - The list of flows that would be attached to a
clientgroup as the main traffic pattern for the clientgroup. The
traffic will flow from Ethernet client to the Wireless clients in
the clientgroup.
LearnFlowlist - The list of learning flows that can be attached
to a clientgroup. The learning flows would be generated from the
clients in the clientgroup to the Ethernet client.
"""
self.MainFlowlist = {
'Flow1': {'Type' : 'IP',
'Framesize' : 512,
'Phyrate' : 54,
'Ratemode' : 'pps',
'Intendedrate' : 100,
'Numframes' : WE.MAXtxFrames
}
}
self.LearnFlowlist = {
'Lflow1':{'Type' : 'IP',
'Framesize' : 256,
'Phyrate' : 54,
'Ratemode' : 'pps',
'Intendedrate' : 100,
'Numframes' : 10
}
}
#---------------- ClientGroup Parameters ----------------
"""
The Clientgroups is a dictionary that defines the characteristics of
each clientgroup. A number of wireless clients are created each of
which inherits the properties of the clientgroup.
Each of the clientgroup is defined as
'Groupname': {Key : Value pairs}
Key : Value pairs can be
'StartMAC' : The MAC address of the first client in the group. For
random MAC, use 'DEFAULT'
'StartIP' : The IP address of the first client in the group.
'Gateway' : Gateway IP address for all the clients.
'SubMask' : Subnet mask for the IP addresses of the clients.
'NumClients' : The number of wireless clients to be created in
this client group.
'Security' : security profile name - This attaches a network
profile that gets configured for each of the clients.
'Roamprof' : roamprofile name - This attaches a roam profile that
gets configured for each of the clients.
'MainFlow' : mainflow name - The main traffic flow that will be
attached to each client.
'LearnFlow' : learnflow name - The learning traffic flow that will
get attached to each client.
'AssocProbe': Probe before associate- either do not send probe request ('None') or
send probe request (either 'Unicast' or 'Broadcast')
"""
self.Clientgroups = {
'Group1': {'Enable' : True,
'StartMAC' : 'ae:ae:ae:00:00:01',
'MACIncr' : -4,
'StartIP' : '192.168.1.100',
'IncrIp' : '0.0.0.1',
'Gateway' : '192.168.1.110',
'SubMask' : '255.255.255.0',
'NumClients': 2,
'Security' : 'Cisco',
'Roamprof' : 'Roam1',
'MainFlow' : 'Flow1',
'LearnFlow' : 'Lflow1',
'AssocProbe': 'Unicast'
},
'Group2': {'Enable' : False,
'StartMAC' : '00:00:11:22:33:44',
'MACIncr' : 'Auto',
'StartIP' : '192.168.1.200',
'IncrIp' : '0.0.0.1',
'Gateway' : '192.168.1.110',
'SubMask' : '255.255.255.0',
'NumClients': 2,
'Security' : 'Cisco',
'Roamprof' : 'Roam2',
'MainFlow' : 'Flow1'
}
}
# ---------------- End of User configuration -------------
self.graphPlotInterval = 3.0
