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Ettercap Project http://ettercap.sourceforge.net
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============================================================================== ============================================================================== @@@@@@@ @@@@@@@ @@@@@@@ @@@@@@@ @@@@@@@ @@@@@@@ @@@@@@@ @@@@@@@ @@ @@@ @@@ @@ @@ @@ @@ @@ @@ @@ @@ @@@@@@ @@@ @@@ @@@@@@ @@@@@@ @@ @@@@@@@ @@@@@@ @@ @@@ @@@ @@ @@ @@ @@ @@ @@ @@ @@@@@@@ @@@ @@@ @@@@@@@ @@ @@@ @@@@@@@ @@ @@ @@ A suite for man in the middle attacks Copyright 2001-2014 The Ettercap Dev Team ============================================================================== ============================================================================== Aoccdrnig to rscheearch at an Elingsh uinervtisy, it deosn't mttaer in waht oredr the ltteers in a wrod are, the olny iprmoetnt tihng is taht the frist and lsat ltteer are in the rghit pclae. The rset can be a toatl mses and you can sitll raed it wouthit a porbelm. Tihs is bcuseae we do not raed ervey lteter by it slef but the wrod as a wlohe and the biran fguiers it out aynawy. ... so please excuse us for every typo in the documentation, man pages or code, btw fixes and patches are welcome. ============================================================================== ============================================================================== R E Q U I R E D P R O G R A M S ============================================================================== C compiler flex (or other lex-compatible parser generator) for *.l files bison (or other yacc-compatible parser generator) for *.y files cmake (build tool) ============================================================================== R E Q U I R E D L I B R A R I E S ============================================================================== MANDATORY: - libpcap >= 0.8.1 - libnet >= 1.1.2.1 - openssl >= 0.9.7 - libpthread - zlib - CMake 2.8 - Curl >= 7.26.0 to build SSLStrip plugin If you don't want to enable SSLStrip plugin you have to disable it. (more information about disabling a plugin in the README.GIT file) OPTIONAL: To enable PDF documentation generation (enable via ENABLE_PDF_DOCS=On): - ghostscript (ps2pdf) - groff To enable plugins: - libltdl (part of libtool) To have perl regexp in the filters: - libpcre For the cursed GUI: - ncurses >= 5.3 For the GTK+ GUI: - Glib >= 2.2.2 - Gtk+ >= 2.2.2 - Atk >= 1.2.4 - Pango >= 1.2.3 If you are running on debian, or any debian based distro you can install the required dependencies by running: apt-get install debhelper bison check cmake flex ghostscript libbsd-dev libcurl4-openssl-dev libgtk2.0-dev \ libltdl-dev libluajit-5.1-dev libncurses5-dev libnet1-dev libpcap-dev libpcre3-dev libssl-dev ============================================================================ LICENSE ============================================================================ see LICENSE file for details... ============================================================================ AUTHORS ============================================================================ Alberto Ornaghi (ALoR) <[email protected]> Marco Valleri (NaGA) <[email protected]> Emilio Escobar (exfil) <[email protected]> Eric Milam (J0hnnyBrav0) <[email protected]> Gianfranco Costamagna (LocutusOfBorg) <[email protected]> ============================================================================ INSTALLATION ============================================================================ The easiest way to compile ettercap is in the form: mkdir build cd build cmake .. (Use ccmake . to change options such as disabling IPv6 support, add plugins support, etc). make install read INSTALL for further details... and README.PLATFORMS for any issue regarding your operating system. ============================================================================ HOW TO USE IT ============================================================================ You can choose between 3 User Interfaces: Text mode, Curses, GTK. Please read the man pages ettercap(8) and ettercap_curses(8) to learn how to use ettercap. ============================================================================ TECHNICAL PAPER ============================================================================ THE HOST LIST Sending one ARP REQUEST for each ip in the lan (looking at the current ip and netmask), it is possible to get the ARP REPLIES and then make the list of the hosts that are responding on the lan. With this method even windows hosts, reply to the call-for-reply (they don't reply on broadcast-ping). Be very careful if the netmask is a class B (255.255.0.0) because ettercap will send 255*255 = 65025 arp requests (the default delay between two requests is 1 millisecond, can be configured in etter.conf) UNIFIED SNIFFING Ettercap NG uses the unified sniffing method which is the base for all the attacks. The kernel ip forwarding is always disabled and this task is accomplished by ettercap itself. Packet that needs to be forwarded are packets with destination mac address equal to the attacker's one, but with different ip address. Those packets are re-sent back to the wire to the real destination. This way, you can plug in various mitm attacks at a time. You can even use external attacker/poisoner, they only have to redirect packets to ettercap's host and the game is over ;) BRIDGED SNIFFING Uses two network interfaces and forwards the traffic between them while performing sniffing and content filtrating. This sniffing method is very stealthy as there is no way to to detect that someone is in the middle. You can look at this as a layer one attack. Don't use it on gateways or it will transform your gateway into a bridge. HINT: You can use the content filtering engine to drop packets that should not pass. This way ettercap will work as an inline IPS ;) ARP POISONING ATTACK When you select this method, ettercap will poison the arp cache of the two hosts, identifying itself as the other host respectively (see the next section for this). Once the arp caches are poisoned, the two hosts start the connection, but their packets will be sent to us, and we will record them and, next, forward them to the right side of the connection. So the connection is transparent to the victims, not arguing that they are sniffed. The only method to discover that there is a man-in-the-middle in your connection, is to watch at the arp cache and check if there are two hosts with the same mac address! That is how we discover if there are others poisoning the arp cache in our LAN, thus being warned, that our traffic is under control! =) HOST 1 - - - - - - - - - - - - - - - - - - - -> HOST 2 (poisoned) (poisoned) | ^ | | ------------> ATTACKER HOST ------------------ ( ettercap ) Legenda: - - - -> the logic connection -------> the real one The arp protocol has an intrinsic insecurity. In order to reduce the traffic on the cable, it will insert an entry in the arp cache even if it wasn't requested. In other words, EVERY arp reply that goes on the wire will be inserted in the arp table. So, we take advantage of this "feature", sending fake arp replies to the two hosts we will sniff. In this reply we will tell that the mac address of the second host is the one hard-coded on OUR ethernet card. This host will now send packets that should go to the first host, to us, because he carries our mac address. The same process is done for the first host, in inverse manner, so we have a perfect man-in-the-middle connection between the two hosts, legally receiving their packets!! Example: HOST 1: mac: 01:01:01:01:01:01 ATTACKER HOST: ip: 192.168.0.1 mac: 03:03:03:03:03:03 ip: 192.168.0.3 HOST 2: mac: 02:02:02:02:02:02 ip: 192.168.0.2 we send arp replys to: HOST 1 telling that 192.168.0.2 is on 03:03:03:03:03:03 HOST 2 telling that 192.168.0.1 is on 03:03:03:03:03:03 now they are poisoned !! they will send their packets to us ! then if receive packets from: HOST 1 we will forward to 02:02:02:02:02:02 HOST 2 we will forward to 01:01:01:01:01:01 simple, isn't it ? *** LINUX KERNEL 2.4.x ISSUE *** In the latest release of the linux kernel we can find in : /usr/src/linux/net/ipv4/arp.c /* Unsolicited ARP is not accepted by default. It is possible, that this option should be enabled for some devices (strip is candidate) */ these kernels use a special neighbor system to prevent unsolicited arp replies (what ettercap sends to the victim). Good gracious, is ettercap unusable with that kernel ? the answer is NO ! let's view why... in the same source code we find: /* * Process entry. The idea here is we want to send a reply if it is a * request for us or if it is a request for someone else that we hold * a proxy for. We want to add an entry to our cache if it is a reply * to us or if it is a request for our address. * (The assumption for this last is that if someone is requesting our * address, they are probably intending to talk to us, so it saves time * if we cache their address. Their address is also probably not in * our cache, since ours is not in their cache.) * * Putting this another way, we only care about replies if they are to * us, in which case we add them to the cache. For requests, we care * about those for us and those for our proxies. We reply to both, * and in the case of requests for us we add the requester to the arp * cache. */ so, if the kernel receives a REQUEST it will cache the host... what does that mean ? if ettercap sends spoofed REQUESTS instead of REPLIES the kernel will cache them ? the answer is YES !! ettercap 0.6.0 and later has this new ARP REQUEST POISONING method. it will alternate request and replies on poisoning because other OS doesn't have this "feature"... *** SOLARIS ISSUE *** Solaris will not cache a reply if it isn't already in the cache. The trick is simple, before poisoning, ettercap sends a spoofed ICMP ECHO_REQUEST to the host, it has to reply on it and it will make an arp entry for the spoofed host. Then we can begin to poison as always, the entry is now in the cache... ICMP REDIRECTION This attack implements ICMP redirection. It sends a spoofed icmp redirect message to the hosts in the lan pretending to be a best route for internet. All connections to internet will be redirected to the attacker which, in turn, will forward them to the real gateway. The resulting attack is an HALF-DUPLEX mitm. Only the client is redirected, since the gateway will not accept redirect messages for a directly connected network. DHCP SPOOFING This attack implements DHCP spoofing. It pretends to be a DHCP server and try to win the race condition with the real one to force the client to accept replies from it. This way the attacker is able to manipulate the GW parameter and hijack all the outgoing traffic generated by the clients. The resulting attack is an HALF-DUPLEX mitm. PORT STEALING This technique is useful to sniff in a switched environment when ARP poisoning is not effective (for example where static mapped ARPs are used). It floods the LAN with ARP packets. The destination MAC address of each "stealing" packet is the same as the attacker's one (other NICs won't see these packets), the source MAC address will be one of the MACs of the victims. This process "steals" the switch's port of each victim. Using low delays, packets destined to "stolen" MAC addresses will be received by the attacker, winning the race condition with the real port owner. When the attacker receives packets for "stolen" hosts, it stops the flooding process and performs an ARP request for the real destination of the packet. When it receives the ARP reply it's sure that the victim has "taken back" his port, so ettercap can re-send the packet to the destination as is. Now we can re-start the flooding process waiting for new packets. CHARACTERS INJECTION We have stated that the packets are for us... And the packets will not be received by destination until we forward them. But what happens if we change them? Yes, they reach destination with our modifications. We can modify, add, delete the content of these packets, by simply recalculating the checksum and substituting them on the traffic. But we can do also more: we can insert packets in the connection. We forge our packets with the right sequence and acknowledgement number and send them to the desired host. When the next packets will pass through us we simply subtract or add the sequence number with the amount of data we have injected till the connection is alive, preventing the connection to be rejected (this until we close ettercap, who maintains sequence numbers correct, after program exit, the connection must be RESET or all future traffic would be rejected, blocking the source workstation network). NOTE: Injector supports escape sequences. you can make multi-line injection eg: "this on line one \n this on line two \n and so on..." eg: "this in hex mode: \x65\x6c\x6c\x65" eg: "this in oct mode: \101\108\108\101" NOTE: remember to terminate your injection with \r\n if you want to inject command to the server. SSH1 MAN-IN-THE-MIDDLE When the connection starts (remember that we are the master-of-packets, all packets go through ettercap) we substitute the server public key with one generated on the fly and save it in a list so we can remember that this server has been poisoned before. Then the client send the packet containing the session key ciphered with our key, so we are able to decipher it and sniff the real 3DES session key. Now we encrypt the packet with the correct server public key and forward it to the SSH daemon. The connection is established normally, but we have the session key !! Now we can decrypt all the traffic and sit down watching the stream ! The connection will remain active even if we exit from ettercap, because ettercap doesn't proxy it (like dsniff). After the exchange of the keys, ettercap is only a spectator... ;) PACKET FILTERING Like character injection, we can modify the packets payload and replace the right sequence and acknowledgement number if needed. With the integrated filtering engine you can program your own filters to make the best filter for your aims. A scripting languages is used to make filters source that must be compiled with etterfilter(8) in order to be used by ettercap. PASSIVE SCANNING OF THE LAN This feature is very useful if you want to know the topology of the lan but you don't want to send any packet on it. In this way the scan is done entirely by sniffing packets and extracting useful information from them. This scan will let you know the hosts in the lan (it watches ARP request), the Operating System of the hosts (it uses passive os fingerprint... see next section), the open ports of an host (looking the syn+ack packet), the gateway, the routers or hosts acting as a router (it watches ICMP messages). As a passive method it is useless on a switched lan (because it can make a topology only of the host that are connecting to you), but if you put it on a gateway and let it run for hours or days, it will make a complete report of the hosts in the lan. PASSIVE OS FINGERPRINT The main idea is to analyze the passive information coming form an host when it makes or receives connections with other hosts. This information is enough to detect the OS and the running services of the host. In this scenario, we look at SYN and SYN+ACK packet and collect some interesting info from them: Window Size: the TCP header field MSS: the TCP option Maximum Segment Size (can be present or not) TTL: the IP header field Time To Live (rounded to the next power of 2) Window Scale: the TCP option indicating the Scale SACK: the TCP option for the Selective ACK NOP: if the TCP options contain a NOP DF: the IP header field Don't Fragment TIMESTAMP: if the TCP timestamp option is enabled and obviously the type of the packet (syn or syn+ack) The database contains different fingerprints for each type of packet because some OSes have different fingerprints from SYN to SYN+ACK. Obviously the SYN fingerprint is more reliable, because the SYN+ACK is influenced by the SYN (if a SYN doesn't contain a SACK the SYN+ACK will not have the SACK option even if the host support it). So while collecting information off the lan, if we receive a SYN+ACK we mark the OS of that host as temporary and when we receive a SYN we confirm that. Fingerprint ending with an ":A" are less reliable... this is the reason because some OS identification may change during the gathering process. The SYN+ACK packets are used also to discover the open ports of an host. (see next section) The interesting thing is that firewalls, gateways and NAT are transparent to passive OS detection. So collecting info for the LAN will let you know info even for remote host. Only proxies aren't transparent because they make a new connection to the target. Our fingerprint database has to be enlarged, so if you find a host with an unknown fingerprint and you know for sure the OS of that host, please mail us <[email protected]> the fingerprint and the OS, we will insert in the database. OPEN PORTS Open ports are identified by looking for stn+ack packets. If a syn+ack comes form a port, it is for sure open, except for the channel command of FTP protocol, for that reason syn+ack going to port 20 are not used to indicate a open port. For the udp ports the question is a little bit difficult because no syn or ack packet are present in the udp protocol, so ettercap assumes that a udp port < 1024 that sends packets is opened. We know that in this way we cannot discover open ports > 1024 but they can go undetected as open when a client sends packet to a server. GATEWAY AND ROUTERS The gateway is simply recognized looking at IP packet with a non local ip ( checking the netmask ). If a non local IP is found, ettercap look at the ethernet address (MAC) and store it as the gateway mac address, then it search for it in the list and mark the corresponding ip as the gateway. Looking in the ICMP messages we can rely that if a host sends a TTL-exceeded or a redirect messages it is a router or an host acting as it. ============================================================================== vim:ts=3:expandtab
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