1tcpreplay-edit(1)                User Commands               tcpreplay-edit(1)
2
3
4

NAME

6       tcpreplay-edit - Replay network traffic stored in pcap files
7

SYNOPSIS

9       tcpreplay-edit  [-flags]  [-flag  [value]]  [--option-name[[=| ]value]]
10       <pcap_file(s)> | <pcap_dir(s)>
11
12       tcpreplay is a tool for replaying network traffic from files saved with
13       tcpdump or other tools which write pcap(3) files.
14

DESCRIPTION

16       The  basic operation of tcpreplay is to resend  all  packets  from  the
17       input file(s) at the speed at which they were recorded, or a  specified
18       data rate, up to as fast as the hardware is capable.
19
20       Optionally, the traffic can be split between two interfaces, written to
21       files, filtered and edited in various ways, providing the means to test
22       firewalls, NIDS and other network devices.
23
24       For  more  details,  please  see the Tcpreplay Manual at: http://tcpre
25       play.appneta.com
26

OPTIONS

28
29       -r string, --portmap=string
30              Rewrite TCP/UDP ports.  This option may appear up to 9999 times.
31
32              Specify a list of comma delimited port  mappings  consisting  of
33              colon  delimited  port  number pairs.  Each colon delimited port
34              pair consists of the port to match followed by the  port  number
35              to rewrite.
36
37              Examples:
38                  --portmap=80:8000 --portmap=8080:80    # 80->8000 and 8080->80
39                  --portmap=8000,8080,88888:80           # 3 different ports become 80
40                  --portmap=8000-8999:80                 # ports 8000 to 8999 become 80
41
42       -s number, --seed=number
43              Randomize  src/dst IPv4/v6 addresses w/ given seed.  This option
44              may appear up to 1 times.  This option must not appear in combi‐
45              nation  with  any of the following options: fuzz-seed.  This op‐
46              tion takes an integer number as its argument.
47
48              Causes the source and destination IPv4/v6 addresses to be pseudo
49              randomized   but  still  maintain  client/server  relationships.
50              Since the randomization is deterministic based on the seed,  you
51              can reuse the same seed value to recreate the traffic.
52
53       -N string, --pnat=string
54              Rewrite IPv4/v6 addresses using pseudo-NAT.  This option may ap‐
55              pear up to 2 times.  This option must not appear in  combination
56              with any of the following options: srcipmap.
57
58              Takes  a comma delimited series of colon delimited CIDR netblock
59              pairs.  Each netblock pair is evaluated in order against the  IP
60              addresses.   If  the  IP address in the packet matches the first
61              netblock, it is rewritten using the second netblock  as  a  mask
62              against the high order bits.
63
64              IPv4 Example:
65                  --pnat=192.168.0.0/16:10.77.0.0/16,172.16.0.0/12:10.1.0.0/24
66              IPv6 Example:
67                  --pnat=[2001:db8::/32]:[dead::/16],[2001:db8::/32]:[::ffff:0:0/96]
68
69       -S string, --srcipmap=string
70              Rewrite  source IPv4/v6 addresses using pseudo-NAT.  This option
71              may appear up to 1 times.  This option must not appear in combi‐
72              nation with any of the following options: pnat.
73
74              Works  just  like the --pnat option, but only affects the source
75              IP addresses in the IPv4/v6 header.
76
77       -D string, --dstipmap=string
78              Rewrite destination IPv4/v6 addresses  using  pseudo-NAT.   This
79              option may appear up to 1 times.  This option must not appear in
80              combination with any of the following options: pnat.
81
82              Works just like the --pnat option, but only affects the destina‐
83              tion IP addresses in the IPv4/v6 header.
84
85       -e string, --endpoints=string
86              Rewrite  IP  addresses to be between two endpoints.  This option
87              may appear up to 1 times.  This option must appear  in  combina‐
88              tion with the following options: cachefile.
89
90              Takes  a pair of colon delimited IPv4/v6 addresses which will be
91              used to rewrite all traffic to appear to be between the  two  IP
92              addresses.
93
94              IPv4 Example:
95                  --endpoints=172.16.0.1:172.16.0.2
96              IPv6 Example:
97                  --endpoints=[2001:db8::dead:beef]:[::ffff:0:0:ac:f:0:2]
98
99       --tcp-sequence=number
100              Change  TCP  Sequence (and ACK) numbers /w given seed.  This op‐
101              tion takes an integer number as its argument.  The value of num‐
102              ber is constrained to being:
103                  greater than or equal to 1
104              The default number for this option is:
105                   0
106
107              Change all TCP sequence numbers, and related sequence-acknowl‐
108              edgement numbers.  They will be shifted by a random amount based
109              on the provided seed.
110
111       -b, --skipbroadcast
112              Skip rewriting broadcast/multicast IPv4/v6 addresses.
113
114              By default --seed, --pnat and --endpoints will rewrite broadcast
115              and multicast IPv4/v6 and MAC addresses. Setting this flag will
116              keep broadcast/multicast IPv4/v6 and MAC addresses from being
117              rewritten.
118
119       -C, --fixcsum
120              Force recalculation of IPv4/TCP/UDP header checksums.
121
122              Causes each IPv4/v6 packet to have their checksums recalculated
123              and fixed.  Automatically enabled for packets modified with
124              --seed, --pnat, --endpoints or --fixlen.
125
126       -m number, --mtu=number
127              Override default MTU length (1500 bytes).  This option may ap‐
128              pear up to 1 times.  This option takes an integer number as its
129              argument.  The value of number is constrained to being:
130                  in the range  1 through MAX_SNAPLEN
131
132              Override the default 1500 byte MTU size for determining the max‐
133              imum padding length (--fixlen=pad) or when truncating (--mtu-
134              trunc).
135
136       --mtu-trunc
137              Truncate packets larger then specified MTU.  This option may ap‐
138              pear up to 1 times.
139
140              Similar to --fixlen, this option will truncate data in packets
141              from Layer 3 and above to be no larger then the MTU.
142
143       -E, --efcs
144              Remove Ethernet checksums (FCS) from end of frames.
145
146              Note, this option is pretty dangerous!  We do not actually check
147              to see if a FCS actually exists in the frame, we just blindly
148              delete the last 4 bytes.  Hence, you should only use this if you
149              know know that your OS provides the FCS when reading raw pack‐
150              ets.
151
152       --ttl=string
153              Modify the IPv4/v6 TTL/Hop Limit.
154
155              Allows you to modify the TTL/Hop Limit of all the IPv4/v6 pack‐
156              ets.  Specify a number to hard-code the value or +/-value to in‐
157              crease or decrease by the value provided (limited to 1-255).
158
159              Examples:
160                  --ttl=10
161                  --ttl=+7
162                  --ttl=-64
163
164       --tos=number
165              Set the IPv4 TOS/DiffServ/ECN byte.  This option may appear up
166              to 1 times.  This option takes an integer number as its argu‐
167              ment.  The value of number is constrained to being:
168                  in the range  0 through 255
169
170              Allows you to override the TOS (also known as DiffServ/ECN)
171              value in IPv4.
172
173       --tclass=number
174              Set the IPv6 Traffic Class byte.  This option may appear up to 1
175              times.  This option takes an integer number as its argument.
176              The value of number is constrained to being:
177                  in the range  0 through 255
178
179              Allows you to override the IPv6 Traffic Class field.
180
181       --flowlabel=number
182              Set the IPv6 Flow Label.  This option may appear up to 1 times.
183              This option takes an integer number as its argument.  The value
184              of number is constrained to being:
185                  in the range  0 through 1048575
186
187              Allows you to override the 20bit IPv6 Flow Label field.  Has no
188              effect on IPv4 packets.
189
190       -F string, --fixlen=string
191              Pad or truncate packet data to match header length.  This option
192              may appear up to 1 times.
193
194              Packets may be truncated during capture if the snaplen is
195              smaller then the packet.  This option allows you to modify the
196              packet to pad the packet back out to the size stored in the
197              IPv4/v6 header or rewrite the IP header total length to reflect
198              the stored packet length.
199
200              pad Truncated packets will be padded out so that the packet
201              length matches the IPv4 total length
202
203              trunc Truncated packets will have their IPv4 total length field
204              rewritten to match the actual packet length
205
206              del Delete the packet
207
208       --fuzz-seed=number
209              Fuzz 1 in X packets. Edit bytes, length, or emulate packet drop.
210              This option takes an integer number as its argument.  The value
211              of number is constrained to being:
212                  greater than or equal to 0
213              The default number for this option is:
214                   0
215
216              This fuzzing was designed as to test layer 7 protocols such as
217              voip protocols.  It modifies randomly 1 out of X packets (where
218              X = --fuzz-factor) in order for stateful protocols to cover more
219              of their code.  The random fuzzing actions focus on data start
220              and end because it often is the part of the data application
221              protocols base their decisions on.
222
223              Possible fuzzing actions list:
224               * drop packet
225               * reduce packet size
226               * edit packet Bytes:
227                 * Not all Bytes have the same probability of appearance in
228              real life.
229                   Replace with 0x00, 0xFF, or a random byte with equal like‐
230              lihood.
231                 * Not all Bytes have the same significance in a packet.
232                   Replace the start, the end, or the middle of the packet
233              with equal likelihood.
234               * do nothing (7 out of 8 packets)
235
236       --fuzz-factor=number
237              Set the Fuzz 1 in X packet ratio (default 1 in 8 packets).  This
238              option must appear in combination with the following options:
239              fuzz-seed.  This option takes an integer number as its argument.
240              The value of number is constrained to being:
241                  greater than or equal to 1
242              The default number for this option is:
243                   8
244
245              Sets the ratio of for --fuzz-seed option. By default this value
246              is 8, which means 1 in 8 packets are modified by fuzzing. Note
247              that this ratio is based on the random number generated by the
248              supplied fuzz seed. Therefore by default you cannot expect that
249              exactly every eighth packet will be modified.
250
251       --skipl2broadcast
252              Skip rewriting broadcast/multicast Layer 2 addresses.
253
254              By default, editing Layer 2 addresses will rewrite broadcast and
255              multicast MAC addresses.   Setting this flag will keep broad‐
256              cast/multicast MAC addresses from being rewritten.
257
258       --dlt=string
259              Override output DLT encapsulation.  This option may appear up to
260              1 times.
261
262              By default, no DLT (data link type) conversion will be made.  To
263              change the DLT type of the output pcap, select one of the fol‐
264              lowing values:
265
266              enet Ethernet aka DLT_EN10MB
267
268              hdlc Cisco HDLC aka DLT_C_HDLC
269
270              jnpr_eth Juniper Ethernet DLT_C_JNPR_ETHER
271
272              pppserial PPP Serial aka DLT_PPP_SERIAL
273
274              user User specified Layer 2 header and DLT type
275
276       --enet-dmac=string
277              Override destination ethernet MAC addresses.  This option may
278              appear up to 1 times.
279
280              Takes a pair of comma deliminated ethernet MAC addresses which
281              will replace the destination MAC address of outbound packets.
282              The first MAC address will be used for the server to client
283              traffic and the optional second MAC address will be used for the
284              client to server traffic.
285
286              Example:
287                  --enet-dmac=00:12:13:14:15:16,00:22:33:44:55:66
288
289       --enet-smac=string
290              Override source ethernet MAC addresses.  This option may appear
291              up to 1 times.
292
293              Takes a pair of comma deliminated ethernet MAC addresses which
294              will replace the source MAC address of outbound packets.  The
295              first MAC address will be used for the server to client traffic
296              and the optional second MAC address will be used for the client
297              to server traffic.
298
299              Example:
300                  --enet-smac=00:12:13:14:15:16,00:22:33:44:55:66
301
302       --enet-subsmac=string
303              Substitute MAC addresses.  This option may appear up to 9999
304              times.
305
306              Allows you to rewrite ethernet MAC addresses of packets. It
307              takes comma delimited pair or MACs address and rewrites all oc‐
308              currences of the first MAC with the value of the second MAC.
309              Example:
310                  --enet-subsmac=00:12:13:14:15:16,00:22:33:44:55:66
311
312       --enet-mac-seed=number
313              Randomize MAC addresses.  This option may appear up to 1 times.
314              This option must not appear in combination with any of the fol‐
315              lowing options: enet-smac, enet-dmac, enet-subsmac.  This option
316              takes an integer number as its argument.
317
318              Allows you to randomize ethernet MAC addresses of packets,
319              mostly like what --seed option does for IPv4/IPv6 addresses.
320
321       --enet-mac-seed-keep-bytes=number
322              Randomize MAC addresses.  This option may appear up to 1 times.
323              This option must appear in combination with the following op‐
324              tions: enet-mac-seed.  This option takes an integer number as
325              its argument.  The value of number is constrained to being:
326                  in the range  1 through 6
327
328              Keep some bytes untouched when usinging --enet-mac-seed option.
329
330       --enet-vlan=string
331              Specify ethernet 802.1q VLAN tag mode.  This option may appear
332              up to 1 times.
333
334              Allows you to rewrite ethernet frames to add a 802.1q header to
335              standard 802.3 ethernet headers or remove the 802.1q VLAN tag
336              information.
337
338              add Adds an 802.1q VLAN header to the existing 802.3 ethernet
339              header. If a VLAN header already exists, a new VLAN header is
340              added outside of the existing header.
341
342              Note that you will be allowed to run this option multiple times
343              to create more than 2 VLAN headers, however those packets will
344              be valid. At most you should have 2 X 802.1q VLAN tags, or outer
345              an 802.1ad and an inner 802.1q VLAN tag.
346
347              del Rewrites the existing 802.1q VLAN header as an 802.3 ether‐
348              net header
349
350       --enet-vlan-tag=number
351              Specify the new ethernet 802.1q VLAN tag value.  This option may
352              appear up to 1 times.  This option must appear in combination
353              with the following options: enet-vlan.  This option takes an in‐
354              teger number as its argument.  The value of number is con‐
355              strained to being:
356                  in the range  0 through 4095
357
358
359       --enet-vlan-cfi=number
360              Specify the ethernet 802.1q VLAN CFI value.  This option may ap‐
361              pear up to 1 times.  This option must appear in combination with
362              the following options: enet-vlan.  This option takes an integer
363              number as its argument.  The value of number is constrained to
364              being:
365                  in the range  0 through 1
366
367
368       --enet-vlan-pri=number
369              Specify the ethernet 802.1q VLAN priority.  This option may ap‐
370              pear up to 1 times.  This option must appear in combination with
371              the following options: enet-vlan.  This option takes an integer
372              number as its argument.  The value of number is constrained to
373              being:
374                  in the range  0 through 7
375
376
377       --enet-vlan-proto=string
378              Specify VLAN tag protocol 802.1q or 802.1ad.  This option may
379              appear up to 1 times.
380
381              Allows you to specify the protocol of the added VLAN tags.
382
383              802.1q Specifies that 802.1q VLAN headers are to be added. This
384              is the default.
385
386              802.1ad Specifies that 802.1ad Q-in-Q VLAN headers are to be
387              added. To make valid packets, input packets must already have
388              802.1q VLAN headers.
389
390       --hdlc-control=number
391              Specify HDLC control value.  This option may appear up to 1
392              times.  This option takes an integer number as its argument.
393
394              The Cisco HDLC header has a 1 byte "control" field.  Apparently
395              this should always be 0, but if you can use any 1 byte value.
396
397       --hdlc-address=number
398              Specify HDLC address.  This option may appear up to 1 times.
399              This option takes an integer number as its argument.
400
401              The Cisco HDLC header has a 1 byte "address" field which has two
402              valid values:
403
404              0x0F Unicast
405
406              0xBF Broadcast
407              You can however specify any single byte value.
408
409       --user-dlt=number
410              Set output file DLT type.  This option may appear up to 1 times.
411              This option takes an integer number as its argument.
412
413              Set the DLT value of the output pcap file.
414
415       --user-dlink=string
416              Rewrite Data-Link layer with user specified data.  This option
417              may appear up to 2 times.
418
419              Provide a series of comma deliminated hex values which will be
420              used to rewrite or create the Layer 2 header of the packets.
421              The first instance of this argument will rewrite both server and
422              client traffic, but if this argument is specified a second time,
423              it will be used for the client traffic.
424
425              Example:
426                  --user-dlink=01,02,03,04,05,06,00,1A,2B,3C,4D,5E,6F,08,00
427
428       -d number, --dbug=number
429              Enable debugging output.  This option may appear up to 1 times.
430              This option takes an integer number as its argument.  The value
431              of number is constrained to being:
432                  in the range  0 through 5
433              The default number for this option is:
434                   0
435
436              If configured with --enable-debug, then you can specify a ver‐
437              bosity level for debugging output.  Higher numbers increase ver‐
438              bosity.
439
440       -q, --quiet
441              Quiet mode.
442
443              Print nothing except the statistics at the end of the run
444
445       -T string, --timer=string
446              Select packet timing mode: select, ioport, gtod, nano.  This op‐
447              tion may appear up to 1 times.  The default string for this op‐
448              tion is:
449                   gtod
450
451              Allows you to select the packet timing method to use:
452
453              nano - Use nanosleep() API
454
455              select - Use select() API
456
457              ioport - Write to the i386 IO Port 0x80
458
459              gtod [default] - Use a gettimeofday() loop
460
461       --maxsleep=number
462              Sleep for no more then X milliseconds between packets.  This op‐
463              tion takes an integer number as its argument.  The default num‐
464              ber for this option is:
465                   0
466
467              Set a limit for the maximum number of milliseconds that tcpre‐
468              play will sleep between packets.  Effectively prevents long de‐
469              lays between packets without effecting the majority of packets.
470              Default is disabled.
471
472       -v, --verbose
473              Print decoded packets via tcpdump to STDOUT.  This option may
474              appear up to 1 times.
475
476
477       -A string, --decode=string
478              Arguments passed to tcpdump decoder.  This option may appear up
479              to 1 times.  This option must appear in combination with the
480              following options: verbose.
481
482              When enabling verbose mode (-v) you may also specify one or more
483              additional  arguments to pass to tcpdump to modify the way pack‐
484              ets are decoded.  By default, -n and -l are used.   Be  sure  to
485              quote the arguments like: -A "-axxx" so that they are not inter‐
486              preted by tcpreplay.   Please see the tcpdump(1) man page for a
487              complete list of options.
488
489       -K, --preload-pcap
490              Preloads packets into RAM before sending.
491
492              This option loads the specified pcap(s) into RAM before starting
493              to send in order to improve replay performance while introducing
494              a startup performance hit.  Preloading can be used with or with‐
495              out --loop. This option also suppresses flow statistics collec‐
496              tion for every iteration, which can significantly reduce memory
497              usage. Flow statistics are predicted based on options supplied
498              and statistics collected from the first loop iteration.
499
500       -c string, --cachefile=string
501              Split traffic via a tcpprep cache file.  This option may appear
502              up to 1 times.  This option must appear in combination with the
503              following options: intf2.  This option must not appear in combi‐
504              nation with any of the following options: dualfile.
505
506              If you have a pcap file you would like to use to send bi-direc‐
507              tional traffic through a device (firewall, router, IDS, etc)
508              then using tcpprep you can create a cachefile which tcpreplay
509              will use to split the traffic across two network interfaces.
510
511       -2, --dualfile
512              Replay two files at a time from a network tap.  This option may
513              appear up to 1 times.  This option must appear in combination
514              with the following options: intf2.  This option must not appear
515              in combination with any of the following options: cachefile.
516
517              If you captured network traffic using a network tap, then you
518              can end up with two pcap files- one for each direction.  This
519              option will replay these two files at the same time, one on each
520              interface and inter-mix them using the timestamps in each.
521
522       -i string, --intf1=string
523              Client to server/RX/primary traffic output interface.  This op‐
524              tion may appear up to 1 times.
525
526              Required network interface used to send either all traffic or
527              traffic which is marked as 'primary' via tcpprep.  Primary traf‐
528              fic is usually client-to-server or inbound (RX) on khial virtual
529              interfaces.
530
531       -I string, --intf2=string
532              Server to client/TX/secondary traffic output interface.  This
533              option may appear up to 1 times.
534
535              Optional network interface used to send traffic which is marked
536              as 'secondary' via tcpprep.  Secondary traffic is usually
537              server-to-client or outbound (TX) on khial virtual interfaces.
538              Generally, it only makes sense to use this option with
539              --cachefile.
540
541       --listnics
542              List available network interfaces and exit.
543
544
545       -l number, --loop=number
546              Loop through the capture file X times.  This option may appear
547              up to 1 times.  This option takes an integer number as its argu‐
548              ment.  The value of number is constrained to being:
549                  greater than or equal to 0
550              The default number for this option is:
551                   1
552
553
554       --loopdelay-ms=number
555              Delay between loops in milliseconds.  This option must appear in
556              combination with the following options: loop.  This option takes
557              an integer number as its argument.  The value of number is con‐
558              strained to being:
559                  greater than or equal to 0
560              The default number for this option is:
561                   0
562
563
564       --pktlen
565              Override the snaplen and use the actual packet len.  This option
566              may appear up to 1 times.
567
568              By default, tcpreplay will send packets based on the size of the
569              "snaplen" stored in the pcap file which is usually the correct
570              thing to do.  However, occasionally, tools will store more bytes
571              then told to.  By specifying this option, tcpreplay will ignore
572              the snaplen field and instead try to send packets based on the
573              original packet length.  Bad things may happen if you specify
574              this option.
575
576       -L number, --limit=number
577              Limit the number of packets to send.  This option may appear up
578              to 1 times.  This option takes an integer number as its argu‐
579              ment.  The value of number is constrained to being:
580                  greater than or equal to 1
581              The default number for this option is:
582                   -1
583
584              By default, tcpreplay will send all the packets.  Alternatively,
585              you can specify a maximum number of packets to send.
586
587       --duration=number
588              Limit the number of seconds to send.  This option may appear up
589              to 1 times.  This option takes an integer number as its argu‐
590              ment.  The value of number is constrained to being:
591                  greater than or equal to 1
592              The default number for this option is:
593                   -1
594
595              By default, tcpreplay will send all the packets.  Alternatively,
596              you can specify a maximum number of seconds to transmit.
597
598       -x string, --multiplier=string
599              Modify replay speed to a given multiple.  This option may appear
600              up to 1 times.  This option must not appear in combination with
601              any of the following options: pps, mbps, oneatatime, topspeed.
602
603              Specify a value to modify the packet replay speed.  Examples:
604                      2.0 will replay traffic at twice the speed captured
605                      0.7 will replay traffic at 70% the speed captured
606
607       -p string, --pps=string
608              Replay packets at a given packets/sec.  This option may appear
609              up to 1 times.  This option must not appear in combination with
610              any of the following options: multiplier, mbps, oneatatime, top‐
611              speed.
612
613              Specify a value to regulate the packet replay to a specific
614              packet-per-second rate.  Examples:
615                      200 will replay traffic at 200 packets per second
616                      0.25 will replay traffic at 15 packets per minute
617
618       -M string, --mbps=string
619              Replay packets at a given Mbps.  This option may appear up to 1
620              times.  This option must not appear in combination with any of
621              the following options: multiplier, pps, oneatatime, topspeed.
622
623              Specify a floating point value for the Mbps rate that tcpreplay
624              should send packets at.
625
626       -t, --topspeed
627              Replay packets as fast as possible.  This option must not appear
628              in combination with any of the following options: mbps, multi‐
629              plier, pps, oneatatime.
630
631
632       -o, --oneatatime
633              Replay one packet at a time for each user input.  This option
634              must not appear in combination with any of the following op‐
635              tions: mbps, pps, multiplier, topspeed.
636
637              Allows you to step through one or more packets at a time.
638
639       --pps-multi=number
640              Number of packets to send for each time interval.  This option
641              must appear in combination with the following options: pps.
642              This option takes an integer number as its argument.  The value
643              of number is constrained to being:
644                  greater than or equal to 1
645              The default number for this option is:
646                   1
647
648              When trying to send packets at very high rates, the time between
649              each packet can be so short that it is impossible to accurately
650              sleep for the required period of time.  This option allows you
651              to send multiple packets at a time, thus allowing for longer
652              sleep times which can be more accurately implemented.
653
654       --unique-ip
655              Modify IP addresses each loop iteration to generate unique
656              flows.  This option must appear in combination with the follow‐
657              ing options: loop.  This option must not appear in combination
658              with any of the following options: seed, fuzz-seed.
659
660              Ensure IPv4 and IPv6 packets will be unique for each --loop it‐
661              eration.  This is done in a way that will not alter packet CRC,
662              and therefore will generally not affect performance. This option
663              will significantly increase the flows/sec over generated over
664              multiple loop iterations.
665
666       --unique-ip-loops=string
667              Number of times to loop before assigning new unique ip.  This
668              option may appear up to 1 times.  This option must appear in
669              combination with the following options: unique-ip.
670
671              Number of --loop iterations before a new unique IP is assigned.
672              Default is 1. Assumes both --loop and --unique-ip.
673
674       --netmap
675              Write packets directly to netmap enabled network adapter.
676
677              This feature will detect netmap capable network drivers on Linux
678              and BSD systems. If detected, the network driver is bypassed for
679              the execution duration, and network buffers will be written to
680              directly. This will allow you to achieve full line rates on com‐
681              modity network adapters, similar to rates achieved by commercial
682              network traffic generators. Note that bypassing the network
683              driver will disrupt other applications connected through the
684              test interface. See INSTALL for more information.
685
686              This feature can also be enabled by specifying an interface as
687              'netmap:<intf>' or 'vale:<intf>. For example 'netmap:eth0' spec‐
688              ifies netmap over interface eth0.
689
690       --nm-delay=number
691              Netmap startup delay.  This option takes an integer number as
692              its argument.  The default number for this option is:
693                   10
694
695              Number of seconds to delay after netmap is loaded. Required to
696              ensure interfaces are fully up before netmap transmit. Requires
697              netmap option. Default is 10 seconds.
698
699       --no-flow-stats
700              Suppress printing and tracking flow count, rates and expira‐
701              tions.
702
703              Suppress the collection and printing of flow statistics. This
704              option may improve performance when not using --preload-pcap op‐
705              tion, otherwise its only function is to suppress printing.
706
707              The flow feature will track and print statistics of the flows
708              being sent.  A flow is loosely defined as a unique combination
709              of a 5-tuple, i.e.  source IP, destination IP, source port, des‐
710              tination port and protocol.
711
712              If --loop is specified, the flows from one iteration to the next
713              will not be unique, unless the packets are altered. Use
714              --unique-ip or tcpreplay-edit to alter packets between itera‐
715              tions.
716
717       --flow-expiry=number
718              Number of inactive seconds before a flow is considered expired.
719              This option must not appear in combination with any of the fol‐
720              lowing options: no-flow-stats.  This option takes an integer
721              number as its argument.  The value of number is constrained to
722              being:
723                  greater than or equal to 0
724              The default number for this option is:
725                   0
726
727              This option will track and report flow expirations based on the
728              flow idle times. The timestamps within the pcap file are used to
729              determine the expiry, not the actual timestamp of the packets
730              are replayed. For example, a value of 30 suggests that if no
731              traffic is seen on a flow for 30 seconds, any subsequent traffic
732              would be considered a new flow, and thereby will increment the
733              flows and flows per second (fps) statistics.
734
735              This option can be used to optimize flow timeout settings for
736              flow products.  Setting the timeout low may lead to flows being
737              dropped when in fact the flow is simply slow to respond. Config‐
738              uring your flow timeouts too high may increase resources re‐
739              quired by your flow product.
740
741              Note that using this option while replaying at higher than orig‐
742              inal speeds can lead to inflated flows and fps counts.
743
744              Default is 0 (no expiry) and a typical value is 30-120 seconds.
745
746       -P, --pid
747              Print the PID of tcpreplay at startup.
748
749
750       --stats=number
751              Print statistics every X seconds, or every loop if '0'.  This
752              option takes an integer number as its argument.  The value of
753              number is constrained to being:
754                  greater than or equal to 0
755
756              Note that timed delays are a "best effort" and long delays be‐
757              tween sending packets may cause equally long delays between
758              printing statistics.
759
760       -V, --version
761              Print version information.
762
763
764       -h, --less-help
765              Display less usage information and exit.
766
767
768       -H, --help
769              Display usage information and exit.
770
771       -!, --more-help
772              Pass the extended usage information through a pager.
773
774       --save-opts [=cfgfile]
775              Save the option state to cfgfile.  The default is the last con‐
776              figuration file listed in the OPTION PRESETS section, below.
777              The command will exit after updating the config file.
778
779       --load-opts=cfgfile, --no-load-opts
780              Load options from cfgfile.  The no-load-opts form will disable
781              the loading of earlier config/rc/ini files.  --no-load-opts is
782              handled early, out of order.
783

OPTION PRESETS

785       Any option that is not marked as not presettable may be preset by load‐
786       ing values from configuration ("RC" or ".INI") file(s).  The homerc
787       file is "$$/", unless that is a directory.  In that case, the file
788       ".tcpreplay-editrc" is searched for within that directory.
789

FILES

791       See OPTION PRESETS for configuration files.
792

EXIT STATUS

794       One of the following exit values will be returned:
795
796       0  (EXIT_SUCCESS)
797              Successful program execution.
798
799       1  (EXIT_FAILURE)
800              The operation failed or the command syntax was not valid.
801
802       66  (EX_NOINPUT)
803              A specified configuration file could not be loaded.
804
805       70  (EX_SOFTWARE)
806              libopts had an internal operational error.  Please report it to
807              autogen-users@lists.sourceforge.net.  Thank you.
808

AUTHORS

810       Copyright 2013-2022 Fred Klassen - AppNeta Copyright 2000-2012 Aaron
811       Turner For support please use the tcpreplay-users@lists.sourceforge.net
812       mailing list.  The latest version of this software is always available
813       from: http://tcpreplay.appneta.com/
814
816       Copyright (C) 2000-2022 Aaron Turner and Fred Klassen all rights re‐
817       served.  This program is released under the terms of the GNU General
818       Public License, version 3 or later.
819

BUGS

821       Please send bug reports to: tcpreplay-users@lists.sourceforge.net
822

NOTES

824       This manual page was AutoGen-erated from the tcpreplay-edit option def‐
825       initions.
826
827
828
829tcpreplay                         11 Jun 2023                tcpreplay-edit(1)
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