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diff --git a/mausezahn.8 b/mausezahn.8 index 1c89b29..25e47ea 100644 --- a/mausezahn.8 +++ b/mausezahn.8 @@ -209,6 +209,877 @@ simultaneously and sweep through the whole TCP sequence number space with an increment of 1500. Finally set the urgent pointer to 666, i.e. pointing to nowhere. +.SH INTERACTIVE MODE HOWTO +Using the interactive mode requires to start mausezahn as server: + + mausezahn -x + +Now you can telnet to that server using the default port number 25542, but also +an arbitrary port number can be specified: + + mausezahn -x 99 + +mausezahn accepts incoming telnet connections on port 99. + + mz: Problems opening config file. Will use defaults + +Either from another terminal or from another host try to telnet to the +mausezahn server: + + caprica$ telnet galactica 99 + Trying 192.168.0.4... + Connected to galactica. + Escape character is '^]'. + mausezahn 0.5.8-rc0 + + Username: mz + Password: mz + + mz> enable + Password: mops + mz# + +It is recommended to configure your own login credentials in +/etc/mausezahn/mz.cfg, such as: + + user = foo + password = bar + enable = bla + +Since you reached the mausezahn prompt, lets try some first commands. You can +use the '?' character at any time for a content-sensitive help. + +First try out the show command: + + mz# show ? + +mausezahn maintains its own ARP table and observes anomalies. There is an entry +for every physical interface (however this host has only one): + + mz# sh arp + Intf Index IP address MAC address last Ch UCast BCast Info + ---------------------------------------------------------------------------------- + eth0 [1] D 192.168.0.1 00:09:5b:9a:15:84 23:44:41 1 1 0 0000 + +The column Ch tells us that the announced MAC address has only changed one time +(= when it was learned). The columns Ucast and BCast tell us how often this +entry was announced via unicast or broadcast respectively. + +Let's check our interfaces: + + mz# show interface + Available network interfaces: + real real used (fake) used (fake) + device IPv4 address MAC address IPv4 address MAC address + --------------------------------------------------------------------------------------- + > eth0 192.168.0.4 00:30:05:76:2e:8d 192.168.0.4 00:30:05:76:2e:8d + lo 127.0.0.1 00:00:00:00:00:00 127.0.0.1 00:00:00:00:00:00 + 2 interfaces found. + Default interface is eth0. + +Defining packets: + +Let's check the current packet list: + + mz# sh packet + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 1 packets defined, 0 active. + +We notice that there is already one system-defined packet process; it has been +created and used only once (during startup) by mausezahn's ARP service. +Currently, its state is config which means that the process is sleeping. + +General packet options: + +Now let's create our own packet process and therefore switch into the global +configuration mode: + + mz# configure term + mz(config)# packet + Allocated new packet PKT0002 at slot 2 + mz(config-pkt-2)# ? + ... + name Assign a unique name + description Assign a packet description text + bind Select the network interface + count Configure the packet count value + delay Configure the inter-packet delay + interval Configure a greater interval + type Specify packet type + mac Configure packet's MAC addresses + tag Configure tags + payload Configure a payload + port Configure packet's port numbers + end End packet configuration mode + ethernet Configure frame's Ethernet, 802.2, 802.3, or SNAP settings + ip Configure packet's IP settings + udp Configure packet's UDP header parameters + tcp Configure packet's TCP header parameters + +Here are a lot of options but normally you only need a few of them. When you +configure lots of different packets you might assign a reasonable name and +description for them: + + mz(config-pkt-2)# name Test + mz(config-pkt-2)# desc This is just a test + +You can e.g. change the default settings for the source and destination MAC/IP +addresses using the mac and ip commands: + + mz(config-pkt-2)# ip address dest 10.1.1.0 /24 + mz(config-pkt-2)# ip addr source random + +In the example above, we configured a range of addresses (all hosts in the +network 10.1.1.0 should be addressed). Additionally we spoof our source IP +address. Of course, we can also add one or more VLAN and/or MPLS tag(s): + + mz(config-pkt-2)# tag ? + dot1q Configure 802.1Q (and 802.1P) parameters + mpls Configure MPLS label stack + mz(config-pkt-2)# tag dot ? + Configure 802.1Q tags: + VLAN[:CoS] [VLAN[:CoS]] ... The leftmost tag is the outer tag in the frame + remove <tag-nr> | all Remove one or more tags (<tag-nr> starts with 1), + by default the first (=leftmost,outer) tag is removed, + keyword 'all' can be used instead of tag numbers. + cfi | nocfi [<tag-nr>] Set or unset the CFI-bit in any tag (by default + assuming the first tag). + mz(config-pkt-2)# tag dot 1:7 200:5 + +Configure count and delay: + + mz(config-pkt-2)# count 1000 + mz(config-pkt-2)# delay ? + delay <value> [hour | min | sec | msec | usec | nsec] + +Specify the inter-packet delay in hours, minutes, seconds, milliseconds, +microseconds or nanoseconds. The default unit is milliseconds (i.e. when no +unit is given). + + mz(config-pkt-2)# delay 1 msec + Inter-packet delay set to 0 sec and 1000000 nsec + mz(config-pkt-2)# + +Configuring protocol types: + +mausezahn's interactive mode supports a growing list of protocols and only +relies on the MOPS architecture (and not on libnet as it is the case with +the legacy direct mode): + + mz(config-pkt-2)# type + Specify a packet type from the following list: + arp + bpdu + igmp + ip + lldp + tcp + udp + mz(config-pkt-2)# type tcp + mz(config-pkt-2-tcp)# + .... + seqnr Configure the TCP sequence number + acknr Configure the TCP acknowledgement number + hlen Configure the TCP header length + reserved Configure the TCP reserved field + flags Configure a combination of TCP flags at once + cwr Set or unset the TCP CWR flag + ece Set or unset the TCP ECE flag + urg Set or unset the TCP URG flag + ack set or unset the TCP ACK flag + psh set or unset the TCP PSH flag + rst set or unset the TCP RST flag + syn set or unset the TCP SYN flag + fin set or unset the TCP FIN flag + window Configure the TCP window size + checksum Configure the TCP checksum + urgent-pointer Configure the TCP urgend pointer + options Configure TCP options + end End TCP configuration mode + mz(config-pkt-2-tcp)# flags syn fin rst + Current setting is: --------------------RST-SYN-FIN + mz(config-pkt-2-tcp)# end + mz(config-pkt-2)# paylo ascii This is a dummy payload for my first packet + mz(config-pkt-2)# end + +Now configure another packet, for example let's assume we want an LLDP process: + + mz(config)# packet + Allocated new packet PKT0003 at slot 3 + mz(config-pkt-3)# ty lldp + mz(config-pkt-3-lldp)# exit + mz(config)# exit + +In the above example we only use the default LLDP settings and don't configure +further LLDP options or TLVs. Back in the top level of the CLI let's verify +what we had done: + + mz# sh pa + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 Test E-Q-IT 125 config eth0 1000 usec 1000/1000 (0%) + 3 PKT0003 E----- LLDP 36 config eth0 30 sec 0/0 (0%) + 3 packets defined, 0 active. + +The column Layers indicates which major protocols have been combined. For +example the packet with packet-id 2 ("Test") utilizes Ethernet (E), +IP (I), and TCP (T). Additionally an 802.1Q tag (Q) has been inserted. Now +start one of these packet processes: + + mz# start slot 3 + Activate [3] + mz# sh pac + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 Test E-Q-IT 125 config eth0 1000 usec 1000/1000 (0%) + 3 PKT0003 E----- LLDP 36 config eth0 30 sec 0/1 (0%) + 3 packets defined, 1 active. + +Let's have a more detailed look at a specific packet process: + + mz# sh pac 2 + Packet [2] Test + Description: This is just a test + State: config, Count=1000, delay=1000 usec (0 s 1000000 nsec), interval= (undefined) + Headers: + Ethernet: 00-30-05-76-2e-8d => ff-ff-ff-ff-ff-ff [0800 after 802.1Q tag] + Auto-delivery is ON (that is, the actual MAC is adapted upon transmission) + 802.1Q: 0 tag(s); (VLAN:CoS) + IP: SA=192.168.0.4 (not random) (no range) + DA=255.255.255.255 (no range) + ToS=0x00 proto=17 TTL=255 ID=0 offset=0 flags: -|-|- + len=49664(correct) checksum=0x2e8d(correct) + TCP: 83 bytes segment size (including TCP header) + SP=0 (norange) (not random), DP=0 (norange) (not random) + SQNR=3405691582 (start 0, stop 4294967295, delta 0) -- ACKNR=0 (invalid) + Flags: ------------------------SYN----, reserved field is 00, urgent pointer= 0 + Announced window size= 100 + Offset= 0 (times 32 bit; value is valid), checksum= ffff (valid) + (No TCP options attached) - 0 bytes defined + Payload size: 43 bytes + Frame size: 125 bytes + 1 ff:ff:ff:ff:ff:ff:00:30 05:76:2e:8d:81:00:e0:01 81:00:a0:c8:08:00:45:00 00:67:00:00:00:00:ff:06 + 33 fa:e4:c0:a8:00:04:ff:ff ff:ff:00:00:00:00:ca:fe ba:be:00:00:00:00:a0:07 00:64:f7:ab:00:00:02:04 + 65 05:ac:04:02:08:0a:19:35 90:c3:00:00:00:00:01:03 03:05:54:68:69:73:20:69 73:20:61:20:64:75:6d:6d + 97 79:20:70:61:79:6c:6f:61 64:20:66:6f:72:20:6d:79 20:66:69:72:73:74:20:70 61:63:6b:65:74 + mz# + +If you want to stop one or more packet processes, use the stop command. The +"emergency stop" is when you use stop all: + + mz# stop all + Stopping + [3] PKT0003 + Stopped 1 transmission processe(s) + +The launch command provides a shortcut for commonly used packet processes. For +example to behave like a STP-capable bridge we want to start an BPDU process +with typical parameters: + + mz# laun bpdu + Allocated new packet sysBPDU at slot 5 + mz# sh pac + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 Test E-Q-IT 125 config eth0 1000 usec 1000/1000 (0%) + 3 PKT0003 E----- LLDP 36 config eth0 30 sec 0/12 (0%) + 4 PKT0004 E---I- IGMP 46 config eth0 100 msec 0/0 (0%) + 5 sysBPDU ES---- BPDU 29 active eth0 2 sec 0/1 (0%) + 5 packets defined, 1 active. + +Now a Configuration BPDU is sent every 2 seconds, claiming to be the root +bridge (and usually confusing the LAN. Note that only packet 5 (i.e. the +last row) is active and therefore sending packets while all other packets +are in state config (i.e. they have been configured but they are not doing +anything at the moment). + +Configuring a greater interval: + +Sometimes you may want to send a burst of packets at a greater interval: + + mz(config)# pac 2 + Modify packet parameters for packet Test [2] + mz(config-pkt-2)# interv + Configure a greater packet interval in days, hours, minutes, or seconds + Arguments: <value> <days | hours | minutes | seconds> + Use a zero value to disable an interval. + mz(config-pkt-2)# interv 1 h + mz(config-pkt-2)# count 10 + mz(config-pkt-2)# delay 15 usec + Inter-packet delay set to 0 sec and 15000 nsec + +Now this packet is sent ten times with an inter-packet delay of 15 microsecond +and this is repeated every hour. When you look at the packet list, an interval +is indicated with the additional flag 'i' when inactive or 'I' when active: + + mz# sh pa + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 Test E-Q-IT 125 config-i eth0 15 usec 10/10 (0%) + 3 PKT0003 E----- LLDP 36 config eth0 30 sec 0/12 (0%) + 4 PKT0004 E---I- IGMP 46 config eth0 100 msec 0/0 (0%) + 5 sysBPDU ES---- BPDU 29 active eth0 2 sec 0/251 (0%) + 5 packets defined, 1 active. + mz# start sl 2 + Activate [2] + mz# sh pa + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 Test E-Q-IT 125 config+I eth0 15 usec 10/0 (100%) + 3 PKT0003 E----- LLDP 36 config eth0 30 sec 0/12 (0%) + 4 PKT0004 E---I- IGMP 46 config eth0 100 msec 0/0 (0%) + 5 sysBPDU ES---- BPDU 29 active eth0 2 sec 0/256 (0%) + 5 packets defined, 1 active. + +Note that the flag 'I' indicates that an interval has been specified for +packet 2. The process is not active at the moment (only packet 5 is active +here) but it will become active in a regular interval. You can verify the +actual interval when viewing the packet details via the show packet 2 command. + +Load prepared configurations: + +You can prepare packet configurations using the same commands as you would +type them in on the CLI and then load them to the CLI. For example assume we +have prepared a file 'test.mops' containing: + + configure terminal + packet + name IGMP_TEST + desc This is only a demonstration how to load a file to mops + type igmp + +Then we can add this packet configuration to our packet list using the load +command: + + mz# load test.mops + Read commands from test.mops... + Allocated new packet PKT0002 at slot 2 + mz# sh pa + Packet layer flags: E=Ethernet, S=SNAP, Q=802.1Q, M=MPLS, I/i=IP/delivery_off, U=UDP, T=TCP + PktID PktName Layers Proto Size State Device Delay Count/CntX + 1 sysARP_servic... E----- ARP 60 config lo 100 msec 1/0 (100%) + 2 IGMP_TEST E---I- IGMP 46 config eth0 100 msec 0/0 (0%) + 2 packets defined, 0 active. + +The file src/examples/mausezahn/example_lldp.conf contains another example +list of commands to create a bogus LLDP packet. You can load this +configuration from the mausezahn command line, e.g. via: + + mz-0.39# load /home/hh/tmp/example_lldp.conf + +In case you copied the file in that path. Now when you enter 'show packet' you +will see a new packet entry in the packet list. Use the 'start slot <nr>' +command to activate this packet. + +You can store your own packet creations in such file and easily load them when +you need them. Every command within such configuration files is executed on the +command line interface as if you had typed it in -- so be careful about the +order and don't forget to use 'configure terminal' as first command. + +You can even load other files from within a central config file. + +.SH DIRECT MODE HOWTO +How to specify hex digits: + +Many arguments allow direct byte input. Bytes are represented as two +hexadecimal digits. Multiple bytes must be separated either by spaces, colons, +or dashes - whatever you prefer. The following byte strings are equivalent: + + "aa:bb cc-dd-ee ff 01 02 03-04 05" + "aa bb cc dd ee ff:01:02:03:04 05" + +As first example, you may want to send an arbitrary fancy (possibly invalid) +frame right through your network card: + + mausezahn ff:ff:ff:ff:ff:ff:ff:ff:ff:ff:ff:ff:08:00:ca:fe:ba:be + + or equivalently but more readable: + + mausezahn ff:ff:ff:ff:ff:ff-ff:ff:ff:ff:ff:ff-08:00-ca:fe:ba:be + +Basic operations: + +All major command line options are listed when you execute mausezahn without +arguments. For practical usage keep the following special (not so widely +known) options in mind: + + -r Multiplies the specified delay with a random value. + -p <length> Pad the raw frame to specified length (using random + bytes). + -P <ASCII Payload> Use the specified ASCII payload. + -f <filename> Read the ASCII payload from a file. + -F <filename> Read the hexadecimal payload from a file. + -S Simulation mode: DOES NOT put anything on the wire. + This is typically combined with one of the verbose + modes (-v or V). + +Many options require a keyword or a number but the -t option is an exception +since it requires both a packet type (such as ip, udp, dns, etc) and an +argument string which is specific for that packet type. Here are some simple +examples: + + mausezahn -t help + mausezahn -t tcp help + mausezahn eth3 -t udp sp=69,dp=69,p=ca:fe:ba:be + +Note: Don't forget that on the CLI the Linux shell (usually the Bash) +interprets spaces as a delimiter character. That is, if you are specifying +an argument that consists of multiple words with spaces in between, you MUST +group this with quotes. For example, instead of + + mausezahn eth0 -t udp sp=1,dp=80,p=00:11:22:33 + + you could either omit the spaces + + mausezahn eth0 -t udp sp=1,dp=80,p=00:11:22:33 + + or, even more safe, use quotes: + + mausezahn eth0 -t udp "sp=1,dp=80,p=00:11:22:33" + +In order to monitor what's going on, you can enable the verbose mode using +the -v option. The opposite is the quiet mode (-q) which will keep mausezahn +absolutely quiet (except for error messages and warnings.) + +Don't confuse the payload argument p=... with the padding option -p. The latter +is used outside the quotes! + +The automatic packet builder: + +An important argument is "-t" which invokes a packet builder. Currently there +are packet builders for ARP, BPDU, CDP, IP, partly ICMP, UDP, TCP, RTP, DNS, +and SYSLOG. (Additionally you can insert a VLAN tag or a MPLS label stack but +this works independent of the packet builder.) + +You get context specific help of every packet builder using the help keyword, +such as: + + mausezahn -t bpdu help + mausezahn -t tcp help + +For every packet you may specify an optional payload. This can be done either +via HEX notation using the payload (or short p) argument or directly as ASCII +text using the -P option: + + mausezahn eth0 -t ip -P "Hello World" # ASCII payload + mausezahn eth0 -t ip p=68:65:6c:6c:6f:20:77:6f:72:6c:64 # hex payload + mausezahn eth0 -t ip "proto=89, \ + p=68:65:6c:6c:6f:20:77:6f:72:6c:64, \ # same with other + ttl=1" # IP arguments + +Note: The raw link access mode only accepts hex payloads (because you specify +everything in hex here.) + +Packet count and delay: + +Per default only one packet is sent. If you want to send more packets then +use the count option -c <count>. When count is zero then mausezahn will send +forever. Per default mausezahn sends at maximum speed (and this is really +fast ;-)). If you don't want to overwhelm your network devices or have other +reasons to send at a slower rate then you might want to specify a delay using +the -d <delay> option. + +If you only specify a numeric value it is interpreted in microsecond units. +Alternatively, for easier use, you might specify units such as seconds sec or +milliseconds msec. (You can also abbreviate this with s or m.) Note: Don't use +spaces between the value and the unit! Here are typical examples: + +Send infinite frames as fast as possible: + + mausezahn -c 0 "aa bb cc dd ...." + +Send 100,000 frames with a 50 msec interval: + + mausezahn -c 100000 -d 50msec "aa bb cc dd ...." + +Send infinite BPDU frames in a 2 second interval: + + mausezahn -c 0 -d 2s -t bpdu conf + +Note: mausezahn does not support fractional numbers. If you want to specify for +example 2.5 seconds then express this e.g. in milliseconds (2500 msec). + +Source and destination addresses: + +As mnemonic trick keep in mind that all packets run from "A" to "B". You can +always specify source and/or destination MAC addresses using the -a and -b +options, respectively. These options also allow keywords such as rand, own, +bpdu, cisco, and others. + +Similarly, you can specify source and destination IP addresses using the -A +and -B options, respectively. These options also support FQDNs (i.e. domain +names) and ranges such as 192.168.0.0/24 or 10.0.0.11-10.0.3.22. Additionally +(only) the source address supports the rand keyword (ideal for "attacks"). + +Note: When you use the packet builder for IP-based packets (e.g. UDP or TCP) +then mausezahn automatically cares about correct MAC and IP addresses (i.e. +it performs ARP, DHCP, and DNS for you). But when you specify at least a single +link-layer address (or any other L2 option such as a VLAN tag or MPLS header) +then ARP is disabled and you must care for the Ethernet destination address for +yourself. + +Layer-2: + +* Direct link access: + +mausezahn allows you to send ANY chain of bytes directly through your Ethernet +interface: + + mausezahn eth0 "ff:ff:ff:ff:ff:ff ff:ff:ff:ff:ff:ff 00:00 ca:fe:ba:be" + +This way you can craft every packet you want but you must do it by hand. Note: +On WiFi interfaces the header is much more complicated and automatically +created by the WiFi-driver. As example to introduce some interesting options, +lets continuously send frames at max speed with random source MAC address and +broadcast destination address, additionally pad the frame to 1000 bytes: + + mausezahn eth0 -c 0 -a rand -b bcast -p 1000 "08 00 aa bb cc dd" + +The direct link access supports automatic padding using the -p <total frame +length> option. This allows you to pad a raw L2 frame to the desired length. +You must specify the total length and the total frame length must have at +least 15 bytes for technical reasons. Zero bytes are used for this padding. + +* ARP: + +mausezahn provides a simple interface to the ARP packet. You can specify the +ARP method (request|reply) and up to four arguments: sendermac, targetmac, +senderip, targetip, or short smac, tmac, sip, tip. By default an ARP reply is +sent with your own interface addresses as source MAC and IP address, and a +broadcast destination MAC/IP address. Send a gratitious ARP (as used for +duplicate IP detection): + + mausezahn eth0 -t arp + +ARP cache poisoning: + + mausezahn eth0 -t arp "reply, senderip=192.168.0.1, targetmac=00:00:0c:01:02:03, \ + targetip=172.16.1.50" + + where by default your interface MAC address will be used as sendermac, +senderip denotes the spoofed IP, targetmac and targetip identifies the +receiver. By default the Ethernet source address is your interface MAC and the +destination address is broadcast. Of course you can change this using again the +flags -a and -b. + +* BPDU: + +mausezahn provides a simple interface to the 802.1d BPDU frame format (used to +create the Spanning Tree in bridged networks). By default standard IEEE 802.1d +(CST) BPDUs are sent and it is assumed that your computer wants to become the +root bridge (rid=bid). Optionally the 802.3 destination address can be a +specified MAC address, broadcast, own MAC, or Cisco's PVST+ MAC address. The +destination MAC can be specified using the -b command which (besides MAC +addresses) accepts keywords such as bcast, own, pvst, or stp (default). Since +version 0.16 PVST+ is supported. Simply specify the VLAN for which you want +to send a BPDU: + + mausezahn eth0 -t bpdu "vlan=123, rid=2000" + +See mausezahn -t bpdu help for more details. + +* CDP: + +mausezahn can send Cisco Discovery Protocol (CDP) messages since this protocol +has security relevance. Of course lots of dirty tricks are possible; for +example arbitrary TLVs can be created (using the hex-payload argument for +example p=00:0e:00:07:01:01:90) and if you want to stress the CDP database of +some device, mausezahn can send each CDP message with another system-id using +the change keyword: + + mausezahn -t cdp change -c 0 + +Some routers and switches may run into deep problems ;-) See +mausezahn -t cdp help for more details. + +* 802.1Q VLAN Tags: + +mausezahn allows simple VLAN tagging for IP (and other higher layer) packets. +Simply use the option -Q <[CoS:]VLAN>, such as -Q 10 or -Q 3:921. By +default CoS=0. For example send a TCP packet in VLAN 500 using CoS=7: + + mausezahn eth0 -t tcp -Q 7:500 "dp=80, flags=rst, p=aa:aa:aa" + +You can create as many VLAN tags as you want! This is interesting to create +QinQ encapsulations or VLAN hopping: Send a UDP packet with VLAN tags 100 +(outer) and 651 (inner): + + mausezahn eth0 -t udp "dp=8888, sp=13442" -P "Mausezahn is great" -Q 100,651 + +Don't know if this is useful anywhere but at least it is possible: + + mausezahn eth0 -t udp "dp=8888, sp=13442" -P "Mausezahn is great" \ + -Q 6:5,7:732,5:331,5,6 + +Mix it with MPLS: + + mausezahn eth0 -t udp "dp=8888, sp=13442" -P "Mausezahn is great" -Q 100,651 -M 314 + +Only in raw Layer 2 mode you must create the VLAN tag completely by yourself. +For example if you want to send a frame in VLAN 5 using CoS 0 simply specify +81:00 as type field and for the next two bytes the CoS (, CFI) and VLAN values: + + mausezahn eth0 -b bc -a rand "81:00 00:05 08:00 aa-aa-aa-aa-aa-aa-aa-aa-aa" + +* MPLS labels: + +mausezahn allows you to insert one or more MPLS headers. Simply use the option +-M <label:CoS:TTL:BoS> where only the label is mandatory. If you specify a +second number it is interpreted as the experimental bits (the CoS usually). If +you specify a third number it is interpreted as TTL. Per default the TTL is +set to 255. The Bottom of Stack flag is set automatically (otherwise the frame +would be invalid) but if you want you can also set or unset it using the +S (set) and s (unset) argument. Note that the BoS must be the last argument in +each MPLS header definition. Here are some examples: + +Use MPLS label 214: + + mausezahn eth0 -M 214 -t tcp "dp=80" -P "HTTP..." -B myhost.com + +Use three labels (the 214 is now the outer): + + mausezahn eth0 -M 9999,51,214 -t tcp "dp=80" -P "HTTP..." -B myhost.com + +Use two labels, one with CoS=5 and TTL=1, the other with CoS=7: + + mausezahn eth0 -M 100:5:1,500:7 -t tcp "dp=80" -P "HTTP..." -B myhost.com + +Unset the BoS flag (which will result in an invalid frame): + + mausezahn eth0 -M 214:s -t tcp "dp=80" -P "HTTP..." -B myhost.com + +Layer 3-7: + +IP, UDP, and TCP packets can be padded using the -p option. Currently 0x42 is +used as padding byte ('the answer'). You cannot pad DNS packets (would be +useless anyway). + +* IP: + +mausezahn allows you to send any (malformed or correct) IP packet. Every field +in the IP header can be manipulated. The IP addresses can be specified via +the -A and -B options, denoting the source and destination address, +respectively. You can also specify an address range or a host name (FQDN). +Additionally, the source address can also be random. By default the source +address is your interface IP address and the destination address is a +broadcast. Here are some examples: + +Ascii payload: + + mausezahn eth0 -t ip -A rand -B 192.168.1.0/24 -P "hello world" + +Hex payload: + + mausezahn eth0 -t ip -A 10.1.0.1-10.1.255.254 -B 255.255.255.255 p=ca:fe:ba:be + +Will use correct source IP address: + + mausezahn eth0 -t ip -B www.xyz.com + +The Type of Service (ToS) byte can either be specified directly by two +hexadecimal digits (which means you can also easily set the Explicit +Congestion Notification (ECN) bits (LSB 1 and 2) or you may only want to +specify a common DSCP value (bits 3-8) using a decimal number (0..63): + +Packet sent with DSCP = Expedited Forwarding (EF): + + mausezahn eth0 -t ip dscp=46,ttl=1,proto=1,p=08:00:5a:a2:de:ad:be:af + +If you leave the checksum zero (or unspecified) the correct checksum will +be automatically computed. Note that you can only use a wrong checksum when +you also specify at least one L2 field manually. + +* UDP: + +mausezahn support easy UDP datagram generation. Simply specify the +destination address (-B option) and optionally an arbitrary source address +(-A option) and as arguments you may specify the port numbers using the +dp (destination port) and sp (source port) arguments and a payload. You can +also easily specify a whole port range which will result in sending multiple +packets. Here are some examples: + +Send test packets to the RTP port range: + + mausezahn eth0 -B 192.168.1.1 -t udp "dp=16384-32767, \ + p=A1:00:CC:00:00:AB:CD:EE:EE:DD:DD:00" + +Send a DNS request as local broadcast (often a local router replies): + + mausezahn eth0 -t udp dp=53,p=c5-2f-01-00-00-01-00-00-00-00-00-00-03-77-77-\ + 77-03-78-79-7a-03-63-6f-6d-00-00-01-00-01" + +Additionally you may specify the lenght and checksum using the len and sum +arguments (will be set correctly by default). Note: several protocols have same +arguments such as len (length) and sum (checksum). If you specified a udp type +packet (via -t udp) and want to modify the IP length, then use the alternate +keyword iplen and ipsum. Also note that you must specify at least one L2 field +which tells mausezahn to build everything without help of your kernel (the +kernel would not allow to modify the IP checksum and the IP length). + +* ICMP: + +mausezahn currently only supports the following ICMP methods: PING (echo +request), Redirect (various types), Unreachable (various types). Additional +ICMP types will be supported in future. Currently you would need to tailor them +by your own, e.g. using the IP packet builder (setting proto=1). Use the +mausezahn -t icmp help for help on actually implemented options. + +* TCP: + +mausezahn allows you to easily tailor any TCP packet. Similar as with UDP you +can specify source and destination port (ranges) using the sp and dp arguments. +Then you can directly specify the desired flags using an "|" as delimiter if +you want to specify multiple flags. For example, a SYN-Flood attack against +host 1.1.1.1 using a random source IP address and periodically using all 1023 +well-known ports could be created via: + + mausezahn eth0 -A rand -B 1.1.1.1 -c 0 -t tcp "dp=1-1023, flags=syn" \ + -P "Good morning! This is a SYN Flood Attack. \ + We apologize for any inconvenience." + +Be careful with such SYN floods and only use them for firewall testing. Check +your legal position! Remember that a host with an open TCP session only accepts +packets with correct socket information (addresses and ports) and a valid TCP +sequence number (SQNR). If you want to try a DoS attack by sending a RST-flood +and you do NOT know the target's initial SQNR (which is normally the case) then +you may want to sweep through a range of sequence numbers: + + mausezahn eth0 -A legal.host.com -B target.host.com \ + -t tcp "sp=80,dp=80,s=1-4294967295" + +Fortunately, the SQNR must match the target host's acknowledgement number plus +the announced window size. Since the typical window size is something between +40000 and 65535 you are MUCH quicker when using an increment using the ds +argument: + + mausezahn eth0 -A legal.host.com -B target.host.com \ + -t tcp "sp=80, dp=80, s=1-4294967295, ds=40000" + +In the latter case mausezahn will only send 107375 packets instead of +4294967295 (which results in a duration of approximately 1 second compared to +11 hours!). Of course you can tailor any TCP packet you like. As with other L4 +protocols mausezahn builds a correct IP header but you can additionally access +every field in the IP packet (also in the Ethernet frame). + +* DNS: + +mausezahn supports UDP-based DNS requests or responses. Typically you may want +to send a query or an answer. As usual you can modify every flag in the header. +Here is an example of a simple query: + + mausezahn eth0 -B mydns-server.com -t dns "q=www.ibm.com" + +You can also create server-type messages: + + mausezahn eth0 -A spoofed.dns-server.com -B target.host.com \ + "q=www.topsecret.com, a=172.16.1.1" + +The syntax according to the online help (-t dns help) is: + + query|q = <name>[:<type>] ............. where type is per default "A" + (and class is always "IN") + answer|a = [<type>:<ttl>:]<rdata> ...... ttl is per default 0. + = [<type>:<ttl>:]<rdata>/[<type>:<ttl>:]<rdata>/... + +Note: If you only use the 'query' option then a query is sent. If you +additionally add an 'answer' then an answer is sent. Examples: + + q = www.xyz.com + q = www.xyz.com, a=192.168.1.10 + q = www.xyz.com, a=A:3600:192.168.1.10 + q = www.xyz.com, a=CNAME:3600:abc.com/A:3600:192.168.1.10 + +Please try out mausezahn -t dns help to see the many other optional command +line options. + +* RTP and VoIP path measurements: + +mausezahn can send arbitrary Real Time Protocol (RTP) packets. Per default a +classical G.711 codec (20 ms segment size, 160 bytes) is assumed. You can +measure jitter, packet loss and reordering along a path between two hosts +running mausezahn. The jitter measurement is either done following the variance +low-pass filtered estimation specified in RFC 3550 or using an alternative +"real-time" method which is even more precise (the RFC-method is used by +default). For example on Host1 you start a transmission process: + + mausezahn -t rtp -B 192.168.1.19 + +And on Host2 (192.168.1.19) a receiving process which performs the measurement: + + mausezahn -T rtp + +Note that the option flag with the capital "T" means that it is a server RTP +process, waiting for incoming RTP packets from any mausezahn source. In case +you want to restrict the measurement to a specific source or you want to +perform a bidirectional measurement, you must specify a stream identifier. +Here is an example for bidirectional measurements which logs the running +jitter average in a file: + + Host1# mausezahn -t rtp id=11:11:11:11 -B 192.168.2.2 & + Host1# mausezahn -T rtp id=22:22:22:22 "log, path=/tmp/mz/" + + Host2# mausezahn -t rtp id=22:22:22:22 -B 192.168.1.1 & + Host2# mausezahn -T rtp id=11:11:11:11 "log, path=/tmp/mz/" + +In any case the measurements are printed continuously onto the screen; by +default it looks like this: + + 0.00 0.19 0.38 0.57 + |-------------------------|-------------------------|-------------------------| + ######### 0.07 msec + #################### 0.14 msec + ## 0.02 msec + ### 0.02 msec + ######### 0.07 msec + #### 0.03 msec + ######### 0.07 msec + ############# 0.10 msec + ## 0.02 msec + ########################################### 0.31 msec + ######### 0.07 msec + ############################################## 0.33 msec + ############### 0.11 msec + ########## 0.07 msec + ############### 0.11 msec + ########################################################## 0.42 msec + ##### 0.04 msec + +More information is shown using the txt keyword: + + mausezahn -T rtp txt + Got 100 packets from host 192.168.0.3: 0 lost (0 absolute lost), 1 out of order + Jitter_RFC (low pass filtered) = 30 usec + Samples jitter (min/avg/max) = 1/186/2527 usec + Delta-RX (min/avg/max) = 2010/20167/24805 usec + Got 100 packets from host 192.168.0.3: 0 lost (0 absolute lost), 1 out of order + Jitter_RFC (low pass filtered) = 17 usec + Samples jitter (min/avg/max) = 1/53/192 usec + Delta-RX (min/avg/max) = 20001/20376/20574 usec + Got 100 packets from host 192.168.0.3: 0 lost (0 absolute lost), 1 out of order + Jitter_RFC (low pass filtered) = 120 usec + Samples jitter (min/avg/max) = 0/91/1683 usec + Delta-RX (min/avg/max) = 18673/20378/24822 usec + +See mausezahn -t rtp help and mz -T rtp help for more details. + +* Syslog: + +The traditional Syslog protocol is widely used even in professional networks +and is sometimes vulnerable. For example you might insert forged Syslog +messages by spoofing your source address (e.g. impersonate the address of a +legit network device): + + mausezahn -t syslog sev=3 -P "You have been mausezahned." -A 10.1.1.109 -B 192.168.7.7 + +See mausezahn -t syslog help for more details. + .SH NOTE When multiple ranges are specified, e.g. destination port ranges and destination address ranges, then all possible combinations of ports and |