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PERFDHCP - DHCP	BENCHMARKING TOOL()	   PERFDHCP - DHCP BENCHMARKING	TOOL()

NAME
       perfdhcp	- DHCP benchmarking tool -

       System Message: ERROR/3 (perfdhcp.8.rst:, line 11)
	      Unknown directive	type "iscman".

	  .. iscman:: perfdhcp

SYNOPSIS
       :program:`perfdhcp`
	[-1]  [-4 | -6]	[-A encapsulation-level] [-b base] [-B]	[-c] [-C sepa-
       rator] [-d drop-time] [-D max-drop] [-e	lease-type]  [-E  time-offset]
       [-f  renew-rate]	 [-F  release-rate]  [-g  thread-mode]	[-h]  [-i] [-I
       ip-offset] [-J remote-address-list-file]	 [-l  local-address|interface]
       [-L  local-port]	 [-M  mac-list-file] [-n num-request] [-N remote-port]
       [-O    random-offset]	[-o    code,hexstring]	  [--or	    encapsula-
       tion-level:code,hexstring]  [-p test-period] [-P	preload] [-r rate] [-R
       num-clients] [-s	seed] [-S srvid-offset]	[--scenario name] [-t  report]
       [-T  template-file]  [-u] [-v] [-W exit-wait-time] [-w script_name] [-x
       diagnostic-selector] [-X	xid-offset] [server]

       System Message: ERROR/3 (perfdhcp.8.rst:, line 19)
	      Unknown interpreted text role "program".

DESCRIPTION
       perfdhcp	is a DHCP benchmarking tool. It	provides a way to measure  the
       performance of DHCP servers by generating large amounts of traffic from
       multiple	 simulated  clients.  It  is  able  to test both IPv4 and IPv6
       servers,	and provides statistics	concerning response times and the num-
       ber of requests that are	dropped.

       The tool	supports two different scenarios, which	offer  certain	behav-
       iors  to	be tested.  By default (the basic scenario), tests are run us-
       ing the full four-packet	exchange sequence (DORA	for DHCPv4,  SARR  for
       DHCPv6).	 An  option  is	 provided  to  run  tests  using  the  initial
       two-packet exchange (DO and SA) instead.	It is also possible to config-
       ure perfdhcp to send DHCPv6 RENEW and RELEASE messages at  a  specified
       rate,  in  parallel  with the DHCPv6 four-way exchanges.	By default, if
       there is	no response received with one second, a	response is considered
       lost and	perfdhcp continues with	other transactions.

       A  second  scenario,  called  avalanche,	 is  selected  via  --scenario
       avalanche.   It first sends the number of Discovery or Solicit messages
       specified by the	-R option; then	a retransmission (with an  exponential
       back-off	 mechanism)  is	 used for each simulated client, until all re-
       quests are answered. It generates a report  when	 all  clients  receive
       their addresses,	or when	it is manually stopped.	This scenario attempts
       to  replicate a case where the server is	not able to handle the traffic
       swiftly enough. Real clients will assume	the  packet  or	 response  was
       lost  and  will	retransmit,  further  increasing DHCP traffic. This is
       sometimes called	an avalanche effect, thus the scenario	name.	Option
       -p is ignored in	the avalanche scenario.

       When  running  a	 performance test, perfdhcp exchanges packets with the
       server under test as quickly as possible, unless	the  -r	 parameter  is
       used  to	 limit the request rate. The length of the test	can be limited
       by setting a threshold on any or	all of the number of requests made  by
       perfdhcp,  the  elapsed	time, or the number of requests	dropped	by the
       server.

TEMPLATES
       To allow	the contents of	packets	sent to	the server to  be  customized,
       perfdhcp	 allows	the specification of template files that determine the
       contents	of the packets.	For example, the customized packet may contain
       a DHCPv6	ORO to request a set of	options	to be returned by the  server,
       or  it  may  contain  the Client	FQDN option to request that the	server
       perform DNS updates. This may be	used to	discover  performance  bottle-
       necks  for  different  server configurations (e.g. DDNS enabled or dis-
       abled).

       Up to two template files	can be specified on  the  command  line,  with
       each file representing the contents of a	particular type	of packet, and
       the  type  being	determined by the test being carried out. For example,
       if testing DHCPv6:

        With no template files	specified on the command line, perfdhcp	gener-
	 ates both Solicit and Request packets.

        With one template file	specified, that	file is	used  as  the  pattern
	 for Solicit packets: perfdhcp generates the Request packets.

        With  two template files given	on the command line, the first is used
	 as the	pattern	for Solicit packets, and the second as the pattern for
	 Request packets.

       (A similar determination	applies	to DHCPv4's DHCPDISCOVER  and  DHCPRE-
       QUEST packets.)

       The  template  file  holds  the DHCP packet, represented	as a stream of
       ASCII hexadecimal digits; it excludes any  IP/UDP  stack	 headers.  The
       template	 file  must  not contain any characters	other than hexadecimal
       digits and spaces. Spaces are  discarded	 when  the  template  file  is
       parsed;	in the file, 12B4 is the same as 12 B4,	which is the same as 1
       2 B 4.

       The template files should be used in conjunction	with the  command-line
       parameters  which  specify offsets of the data fields being modified in
       outbound	packets. For example, the -E time-offset switch	specifies  the
       offset  of  the	DHCPv6 Elapsed Time option in the packet template.  If
       the offset is specified,	 perfdhcp  injects  the	 current  elapsed-time
       value into this field before sending the	packet to the server.

       In  many	 scenarios,  perfdhcp needs to simulate	multiple clients, each
       having a	unique client identifier. Since	packets	for  each  client  are
       generated from the same template	file, it is necessary to randomize the
       client  identifier (or HW address in DHCPv4) in the packet created from
       it. The -O random-offset	option allows specification of the  offset  in
       the  template  where randomization should be performed. It is important
       to note that this offset	points to the end (not the beginning)  of  the
       client identifier (or HW	address	field).	The number of bytes being ran-
       domized	depends	 on  the number	of simulated clients. If the number of
       simulated clients is between 1 and 255, only one	 byte  (to  which  the
       randomization  offset points) is	randomized. If the number of simulated
       clients is between 256 and 65535, two bytes are randomized.  Note  that
       the  last  two  bytes  of  the client identifier	are randomized in this
       case: the byte which the	randomization offset parameter points to,  and
       the  one	 which precedes	it (random-offset - 1).	If the number of simu-
       lated clients exceeds 65535, three bytes	are randomized,	and so on.

       perfdhcp	can simulate traffic from multiple subnets by enabling	option
       -J  and passing a path to a file	that contains v4 or v6 addresses to be
       used as relays in generated messages. That enables testing of vast num-
       bers of Kea shared  networks.  While  testing  DHCPv4,  Kea  should  be
       started	with  the  KEA_TEST_SEND_RESPONSES_TO_SOURCE environment vari-
       able, to	force Kea to send generated messages to	the source address  of
       the incoming packet.

       Templates  may  currently be used to generate packets being sent	to the
       server in 4-way exchanges, i.e. Solicit,	Request	(DHCPv6) and  DHCPDIS-
       COVER,  DHCPREQUEST (DHCPv4). They cannot be used when Renew or DHCPRE-
       LEASE packets are being sent.

OPTIONS
       -1     Takes the	server-id option from the first	received message.

       -4     Establishes DHCPv4 operation; this is the	default. It is	incom-
	      patible with the -6 option.

       -6     Establishes DHCPv6 operation. It is incompatible with the	-4 op-
	      tion.

       -b basetype=value
	      Indicates	 the  base  MAC	 or  DUID  used	 to simulate different
	      clients. The basetype may	 be  "mac"  or	"duid".	 (The  keyword
	      "ether"  may  alternatively  used	for MAC.) The -b option	can be
	      specified	multiple times.	The MAC	address	must  consist  of  six
	      octets  separated	by single (:) or double	(::) colons; for exam-
	      ple: mac=00:0c:01:02:03:04. The  DUID  value  is	a  hexadecimal
	      string;  it must be at least six octets long and not longer than
	      64 bytes,	and the	length must be less than 128 hexadecimal  dig-
	      its. For example:	duid=0101010101010101010110111F14.

       -d drop-time
	      Specifies	 the  time  after which	a request is treated as	having
	      been lost. The value is given in seconds and may contain a frac-
	      tional component.	The default is 1.

       -e lease-type
	      Specifies	the type of lease being	requested from the server.  It
	      may be one of the	following:

	      address-only
		     Only regular addresses (v4	or v6) are requested.

	      prefix-only
		     Only IPv6 prefixes	are requested.

	      address-and-prefix
		     Both IPv6 addresses and prefixes are requested.

	      The  -e  prefix-only  and	-e address-and-prefix forms may	not be
	      used with	the -4 option.

       -F release-rate
	      Specifies	the rate at which DHCPv4 DHCPRELEASE or	DHCPv6 Release
	      requests are sent	to a server. This value	 is  only  valid  when
	      used  in	conjunction with the exchange rate (given by -r	rate).
	      Furthermore, the sum of this value and the renew-rate (given  by
	      -f rate) must be equal to	or less	than the exchange rate value.

       -f renew-rate
	      Specifies	 the  rate at which DHCPv4 DHCPREQUEST or DHCPv6 Renew
	      requests are sent	to a server.  This value is  only  valid  when
	      used  in	conjunction with the exchange rate (given by -r	rate).
	      Furthermore, the sum of this value and the  release-rate	(given
	      by -F rate) must be equal	to or less than	the exchange rate.

       -g thread-mode
	      Allows  selection	 of thread-mode, which can be either single or
	      multi. In	multi-thread mode, packets are received	in a  separate
	      thread, which allows better utilisation of CPUs. In a single-CPU
	      system  it  is  better  to  run  in one thread, to avoid threads
	      blocking each other. If more than	one CPU	is present in the sys-
	      tem, multi-thread	mode is	the default;  otherwise	 single-thread
	      is the default.

       -h     Prints help and exits.

       -i     Performs	only  the initial part of the exchange:	DISCOVER-OFFER
	      if -4 is selected, Solicit-Advertise if -6 is chosen.

	      -i is incompatible with the following options: -1, -d,  -D,  -E,
	      -S,  -I and -F. In addition, it cannot be	used with multiple in-
	      stances of -O, -T, and -X.

       -J remote-address-list-file
	      Specifies	a text file that includes multiple addresses,  and  is
	      designed to test shared networks.	If provided, perfdhcp randomly
	      chooses  one  of	the  addresses	for each exchange, to generate
	      traffic from multiple subnets. When testing DHCPv4, it should be
	      started with the KEA_TEST_SEND_RESPONSES_TO_SOURCE=ENABLE	 envi-
	      ronment  variable;  otherwise,  perfdhcp will not	be able	to re-
	      ceive responses.

       -l local-addr|interface
	      For DHCPv4 operation, specifies the  local  hostname/address  to
	      use  when	 communicating with the	server.	By default, the	inter-
	      face address through which traffic would normally	be  routed  to
	      the server is used.  For DHCPv6 operation, specifies the name of
	      the network interface through which exchanges are	initiated.

       -L local-port
	      Specifies	the local port to use. This must be zero or a positive
	      integer  up to 65535. A value of 0 (the default) allows perfdhcp
	      to choose	its own	port.

       -M mac-list-file
	      Specifies	a text file containing a list of  MAC  addresses,  one
	      per  line.  If  provided,	 a MAC address is chosen randomly from
	      this list	for every new exchange.	In DHCPv6, MAC	addresses  are
	      used  to	generate  DUID-LLs. This parameter must	not be used in
	      conjunction with the -b parameter.

       -N remote-port
	      Specifies	the remote port	to use.	This must be zero or  a	 posi-
	      tive  integer  up	 to  65535.  A value of	0 (the default)	allows
	      perfdhcp to choose the standard service port.

       -o code,hexstring
	      Forces perfdhcp to insert	the specified extra option (or options
	      if used multiple times) into packets being transmitted. The code
	      specifies	the option code, and the hexstring  is	a  hexadecimal
	      string  that  defines  the content of the	option.	Care should be
	      taken, as	perfdhcp does not offer	any kind of logic  behind  the
	      options;	they  are simply inserted into packets and sent	as is.
	      Be careful not to	duplicate options that are  already  inserted.
	      For  example, to insert the client-class identifier (option code
	      60) with the string "docsis", use	-o 60,646f63736973. The	-o may
	      be used multiple times. The protocol family (-4 or -6)  must  be
	      specified	before using -o.

       -P preload
	      Initiates	 preload  exchanges back-to-back at startup. Must be 0
	      (the default) or a positive integer.

       -r rate
	      Initiates	the rate of DORA/SARR (or if -i	is given,  DO/SA)  ex-
	      changes  per  second. A periodic report is generated showing the
	      number of	exchanges which	were not completed, as well as the av-
	      erage response latency. The program continues until interrupted,
	      at which point a final report is generated.

       -R num-clients
	      Specifies	how many different clients are used. With a value of 1
	      (the default), all requests appear to come from the same client.
	      Must be a	positive number.

       -s seed
	      Specifies	the seed for randomization, making  runs  of  perfdhcp
	      repeatable.  This	 must  be 0 or a positive integer. The value 0
	      means that a seed	is not used; this is the default.

       --scenario name
	      Specifies	the type of scenario, and can be basic	(the  default)
	      or avalanche.

       -T template-file
	      Specifies	 a  file containing the	template to use	as a stream of
	      hexadecimal digits. This may be specified	up to  two  times  and
	      controls	the  contents of the packets sent (see the "Templates"
	      section above).

       -u     Enables checks for address uniqueness. The lease	valid-lifetime
	      should not be shorter than the test duration, and	clients	should
	      not request an address more than once without releasing it.

       -v     Displays the Kea version.

       -V     Displays the extended Kea	version.

       -W exit-wait-time
	      Specifies	the exit-wait-time parameter, which causes perfdhcp to
	      wait  for	 a  certain amount of time after an exit condition has
	      been met,	to receive all packets without sending any  new	 pack-
	      ets.  Expressed  in  microseconds.   If not specified, 0 is used
	      (i.e. exit immediately after exit	conditions are met).

       -w script_name
	      Specifies	the name of the	script to be run  before/after	perfd-
	      hcp.   When called, the script is	passed a single	parameter, ei-
	      ther "start" or "stop", indicating whether it  is	 being	called
	      before or	after perfdhcp.

       -x diagnostic-selector
	      Includes extended	diagnostics in the output. This	is a string of
	      single keywords specifying the operations	for which verbose out-
	      put is desired. The selector key letters are:

	      a	     Prints the	decoded	command-line arguments.

	      e	     Prints the	exit reason.

	      i	     Prints the	rate-processing	details.

	      l	     Prints the	received leases.

	      s	     Prints the	first server ID.

	      t	     When finished, prints timers of all successful exchanges.

	      T	     When finished, prints templates.

       -Y seconds
	      Time  in	seconds	 after	which  perfdhcp	 starts	simulating the
	      client waiting longer for	server responses. This	increases  the
	      secs  field  in DHCPv4 and sends increased values	in the Elapsed
	      Time option in DHCPv6. Must be used with -y.

       -y seconds
	      Time in seconds during which perfdhcp simulates the client wait-
	      ing longer for server responses. This increases the  secs	 field
	      in  DHCPv4 and sends increased values in the Elapsed Time	option
	      in DHCPv6. Must be used with -Y.

DHCPV4-ONLY OPTIONS
       The following options only apply	for DHCPv4 (i.e. when -4 is given).

       -B     Forces broadcast handling.

DHCPV6-ONLY OPTIONS
       The following options only apply	for DHCPv6 (i.e. when -6 is given).

       -c     Adds a rapid-commit option (exchanges are	Solicit-Advertise).

       -A encapsulation-level
	      Specifies	that relayed traffic must be generated.	 The  argument
	      specifies	the level of encapsulation, i.e. how many relay	agents
	      are  simulated. Currently	the only supported encapsulation-level
	      value is 1, which	means that the generated traffic is equivalent
	      to the amount of traffic passing through a single	relay agent.

       --or encapsulation-level:code,hexstring
	      Forces perfdhcp to insert	the specified extra option (or options
	      if used multiple times) into a relayed  DHCPv6  message  at  the
	      given  level of encapsulation; currently,	the only supported en-
	      capsulation-level	value is 1.  This option is  very  similar  to
	      -o:  the	code specifies the option code,	and the	hexstring is a
	      hexadecimal string that defines the content of the option.  Care
	      should  be  taken,  as perfdhcp does not offer any kind of logic
	      behind the options; they are simply inserted  into  packets  and
	      sent  as is. encapsulation-level:	is optional; if	it is omitted,
	      the default encapsulation-level value 1 is used.	 For  example,
	      to  insert  the  Subscriber  identifier  (option code 38)	with a
	      value 1234  at  the  first  level	 of  encapsulation,  use  --or
	      38,31323334 or --or 1:38,31323334. The --or may be used multiple
	      times, and it must be used in conjunction	with -A.

TEMPLATE-RELATED OPTIONS
       The  following options may only be used in conjunction with -T and con-
       trol how	perfdhcp modifies the template.	The options may	 be  specified
       multiple	 times on the command line; each occurrence affects the	corre-
       sponding	template file (see "Templates" above).

       -E time-offset
	      Specifies	the offset of the secs field (DHCPv4) or Elapsed  Time
	      option (DHCPv6) in the second (i.e. Request) template; must be 0
	      or a positive integer. A value of	0 disables this.

       -I ip-offset
	      Specifies	 the  offset  of  the  IP  address (DHCPv4) in the re-
	      quested-ip option	or IA_NA option	(DHCPv6) in  the  second  (Re-
	      quest) template.

       -O random-offset
	      Specifies	 the offset of the last	octet to randomize in the tem-
	      plate. This must be an integer greater than  3.  The  -T	switch
	      must be given to use this	option.

       -S srvid-offset
	      Specifies	 the offset of the server-id option in the second (Re-
	      quest) template.	This must  be  a  positive  integer,  and  the
	      switch  can  only	 be used when the template option (-T) is also
	      given.

       -X xid-offset
	      Specifies	the offset of the transaction ID  (xid)	 in  the  tem-
	      plate.  This must	be a positive integer, and the switch can only
	      be used when the template	option (-T) is also given.

OPTIONS	CONTROLLING A TEST
       -D max-drop
	      Aborts the test immediately if  "max-drop"  requests  have  been
	      dropped.	 Use  -D  1 to abort if	even a single request has been
	      dropped. "max-drop" must be a positive  integer.	If  "max-drop"
	      includes	the  suffix  %,	it specifies the maximum percentage of
	      requests that may	be dropped  before  aborting.  In  this	 case,
	      testing  of  the threshold begins	after 10 requests are expected
	      to have been received.

       -n num-requests
	      Initiates	"num-request" transactions. No report is generated un-
	      til all transactions have	been initiated/waited-for, after which
	      a	report is generated and	the program terminates.

       -p test-period
	      Sends requests for "test-period",	which is specified in the same
	      manner as	-d. This can be	used as	an alternative to -n, or  both
	      options  can  be	given,	in which case the testing is completed
	      when either limit	is reached.

       -t interval
	      Sets the delay (in seconds) between two successive reports.

       -C separator
	      Suppresses the preliminary output	and causes the interim data to
	      only contain the values delimited	by separator. Used in conjunc-
	      tion with	-t to produce easily parsable reports at -t intervals.

ARGUMENTS
       server Indicates	the server to test, specified as an IP address.	In the
	      DHCPv6 case, the special name  all  can  be  used	 to  refer  to
	      All_DHCP_Relay_Agents_and_Servers	   (the	   multicast   address
	      FF02::1:2),  or  the  special   name   servers   to   refer   to
	      All_DHCP_Servers	(the  multicast	address	FF05::1:3). The	server
	      is mandatory except where	the -l option is given to  specify  an
	      interface, in which case it defaults to all.

ERRORS
       perfdhcp	can report the following errors	in the packet exchange:

       tooshort
	      A	message	was received that was too short.

       orphans
	      A	 message  was  received	 which	does not match one sent	to the
	      server (i.e.  it is a duplicate message, a message that has  ar-
	      rived  after  an excessive delay,	or one that is just not	recog-
	      nized).

       locallimit
	      Local system limits have been reached when sending a message.

EXIT STATUS
       perfdhcp	exits with one of the following	status codes:

       0      Success.

       1      General error.

       2      Error in command-line arguments.

       3      No general failures in operation,	but one	or more	exchanges were
	      unsuccessful.

USAGE EXAMPLES
       Here is an example that simulates regular DHCPv4	traffic	of 100	DHCPv4
       devices	(-R  100),  10 packets per second (-r 10), shows the query/re-
       sponse rate details (-xi), shows	a report every 2 seconds (-t  2),  and
       sends the packets to the	IP 192.0.2.1:

       System Message: WARNING/2 (perfdhcp.8.rst:, line	495)
	      Cannot analyze code. Pygments package not	found.

	  .. code-block:: console

	     sudo perfdhcp -xi -t 2 -r 10 -R 100 192.0.2.1

       Here's  a  similar  case, but for DHCPv6. Note that the DHCPv6 protocol
       uses link-local addresses, so the interface (eth0 in this example) must
       be specified on which to	send the traffic. all is a  convenience	 alias
       for    All_DHCP_Relay_Agents_and_Servers	   (the	   multicast   address
       FF02::1:2). It is also possible to use the servers alias	 to  refer  to
       All_DHCP_Servers	(the multicast address FF05::1:3). The default is all.

       System Message: WARNING/2 (perfdhcp.8.rst:, line	505)
	      Cannot analyze code. Pygments package not	found.

	  .. code-block:: console

	     sudo perfdhcp -6 -xi -t 1 -r 1 -R 10 -l eth0 all

       The  following examples simulate	normal DHCPv4 and DHCPv6 traffic that,
       after 3 seconds,	starts pretending not to receive  any  responses  from
       the  server  for	10 seconds. The	DHCPv4 protocol	signals	this by	an in-
       creased secs field, while DHCPv6	uses the Elapsed Time option. In  real
       networks,  this	indicates  that	clients	are not	getting	responses in a
       timely matter. This can be used to simulate some	HA scenarios,  as  Kea
       uses the	secs field and Elapsed Time option value as one	of the indica-
       tors  that  the	HA partner is not responding. When enabled with	-y and
       -Y, the secs and	Elapsed	Time values increase steadily.

       System Message: WARNING/2 (perfdhcp.8.rst:, line	518)
	      Cannot analyze code. Pygments package not	found.

	  .. code-block:: console

	     sudo perfdhcp -xi -t 1 -r 1 -y 10 -Y 3 192.0.2.1

	     sudo perfdhcp -6 -xi -t 1 -r 1 -y 10 -Y 3 2001:db8::1

DOCUMENTATION
       Kea comes with an extensive Kea	Administrator  Reference  Manual  that
       covers all aspects of running the Kea software -	compilation, installa-
       tion,  configuration,  configuration  examples, and much	more. Kea also
       features	a Kea Messages Manual, which lists all possible	 messages  Kea
       can print with a	brief description for each of them. Both documents are
       available in various formats (.txt, .html, .pdf)	with the Kea distribu-
       tion. The Kea documentation is available	at
	<https://kea.readthedocs.io> .

       Kea  source  code is documented in the Kea Developer's Guide, available
       at  <https://reports.kea.isc.org/dev_guide/> .

       The Kea project website is available at	<https://kea.isc.org> .

MAILING	LISTS AND SUPPORT
       There are two public mailing  lists  available  for  the	 Kea  project.
       kea-users (kea-users at lists.isc.org) is intended for Kea users, while
       kea-dev	(kea-dev  at  lists.isc.org)  is  intended for Kea developers,
       prospective contributors, and other  advanced  users.  Both  lists  are
       available at
	<https://lists.isc.org>	 .  The	community provides best-effort support
       on both of those	lists.

       ISC provides professional support for Kea services. See
	<https://www.isc.org/kea/>  for	details.

HISTORY
       The perfdhcp tool was initially coded in	October	2011 by	 John  DuBois,
       Francis	Dupont,	and Marcin Siodelski of	ISC. Kea 1.0.0,	which included
       perfdhcp, was released in December 2015.

SEE ALSO
       :manpage:`kea-dhcp4(8)`
       ,
       :manpage:`kea-dhcp6(8)`
       ,
       :manpage:`kea-dhcp-ddns(8)`
       ,

       :manpage:`kea-ctrl-agent(8)`
       ,
       :manpage:`kea-admin(8)`
       ,
       :manpage:`kea-netconf(8)`
       ,

       :manpage:`keactrl(8)`
       ,
       :manpage:`kea-lfc(8)`
       , Kea Administrator Reference Manual.

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
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       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

       System Message: ERROR/3 (perfdhcp.8.rst:, line 564)
	      Unknown interpreted text role "manpage".

					   PERFDHCP - DHCP BENCHMARKING	TOOL()

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