etterfilter (8)
Leading comments
etterfilter -- filter compiler for ettercap filter files This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Gener...
NAME
etterfilter - Filter compiler for ettercap content filtering engineSYNOPSIS
etterfilter [OPTIONS] FILEDESCRIPTION
The etterfilter utility is used to compile source filter files into binary filter files that can be interpreted by the JIT interpreter in the ettercap(8) filter engine. You have to compile your filter scripts in order to use them in ettercap. All syntax/parse errors will be checked at compile time, so you will be sure to produce a correct binary filter for ettercap.- GENERAL OPTIONS
- -o, --output <FILE>
-
you can specify the output file for a source filter file. By default the output
is filter.ef.
- -t, --test <FILE>
-
you can analyze a compiled filter file with this option. etterfilter will print
in a human readable form all the instructions contained in it. It is a sort of
"disassembler" for binary filter files.
- -d, --debug
-
prints some debug messages during the compilation. Use it more than once to
increase the debug level ( etterfilter -ddd ... ).
- -w, --suppress-warnings
-
Don't exit on warnings. With this option the compiler will compile the script
even if it contains warnings.
- STANDARD OPTIONS
- -v, --version
-
Print the version and exit.
- -h, --help
-
prints the help screen with a short summary of the available options.
- SCRIPTS SYNTAX
-
A script is a compound of instructions. It is executed sequentially and you can
make branches with the 'if' statements. 'if' and 'if/else' statements are the only
supported. No loops are implemented. The syntax is almost like C code
except that you have to put 'if' blocks into graph parentheses '{' '}', even if they
contain only one instruction.
NOTE: you have to put a space between the 'if' and the '('. You must not put the space between the function name and the '('.
Example:
if (conditions) { }
func(args...);
The conditions for an 'if' statement can be either functions or comparisons. Two or more conditions can be linked together with logical operators like OR '||' and AND '&&'.
Example:
if (tcp.src == 21 && search(DATA.data, "ettercap")) {
}Pay attention to the operator precedence. You cannot use parentheses to group conditions, so be careful with the order. An AND at the beginning of a conditions block will exclude all the other tests if it is evaluated as false. The parsing is left-to-right, when an operator is found: if it is an AND and the previous condition is false, all the statement is evaluated as false; if it is an OR the parsing goes on even if the condition is false.
Example:
if (ip.proto == UDP || ip.proto == TCP && tcp.src == 80) {
}if (ip.proto == TCP && tcp.src == 80 || ip.proto == UDP) {
}the former condition will match all udp or http traffic. The latter is wrong, because if the packet is not tcp, the whole condition block will be evaluated as false. If you want to make complex conditions, the best way is to split them into nested 'if' blocks.
Since etterfilter support both IP address families, you should care whether you use 'ip.proto' which is specific for the IPv4 address family or it's IPv6 couterpart 'ipv6.nh'. Especially for the L4 protocol matching using 'ip.proto' and/or 'ipv6.nh', you should be careful if you're really acting on the right protocol. This should be enforced using the L3 protocol identifier 'eth.proto'.
Example:
if (eth.proto == IP && ip.proto == TCP && tcp.dst == 80 || tcp.src == 80) {
}if (eth.proto == IP6 && ipv6.nh == TCP && tcp.dst == 80 || tcp.src == 80) {
}if (tcp.dst == 80 || tcp.src == 80) {
}The first example correctly matches http traffic only on IPv4 while the second would match http traffic only on IPv6. The thrid example matches http regardless it's IP address familiy.
Every instruction in a block must end with a semicolon ';'.
Comparisons are implemented with the '==' operator and can be used to compare numbers, strings or ip addresses. An ip address MUST be enclosed within two single quotes (eg. '192.168.0.7' or '2001:db8::2'). You can also use the 'less than' ('<'), 'greater than' ('>'), 'less or equal' ('<=') and 'greater or equal' ('>=') operators. The lvalue of a comparison must be an offset (see later)
Example:
if (DATA.data + 20 == "ettercap" && ip.ttl > 16) {
}Assignments are implemented with the '=' operator and the lvalue can be an offset (see later). The rvalue can be a string, an integer or a hexadecimal value.
Example:
ip.ttl = 0xff;
DATA.data + 7 = "ettercap NG";You can also use the 'inc' and 'dec' operations on the packet fields. The operators used are '+=' and '-='. The rvalue can be an integer or a hexadecimal value.
Example:
ip.ttl += 5;
More examples can be found in the etter.filter.examples file.
- OFFSET DEFINITION
-
An offset is identified by a virtual pointer. In short words, an offset is a
pointer to the packet buffer. The virtual pointer is a tuple <L, O, S>, where
L is the iso/osi level, O is the offset in that level and S is the size of the virtual pointer.
You can make algebraic operations on a virtual pointer and the result is still an
offset. Specifying 'vp + n' will result in a new virtual pointer <L, O+n, S>.
And this is perfectly legal, we have changed the internal offset of that
level.
Virtual pointers are in the form 'name.field.subfield'. For example 'ip.ttl' is the virtual pointer for the Time To Live field in the IP header of a packet. It will be translated as <L=3, O=9, S=1>. Indeed it is the 9th byte of level 3 and its size is 1 byte. 'ip.ttl + 1' is the same as 'ip.proto' since the 10th byte of the IP header is the protocol encapsulated in the IP packet. Note that since etterfilter also supports processing of IPv6, the above mentioned only applies for IPv4 packets while counterpart in IPv6 would be 'ipv6.nh'.
The list of all supported virtual pointers is in the file etterfilter.tbl. You can add your own virtual pointers by adding a new table or modifying the existing ones. Refer to the comments at the beginning of the file for the syntax of etterfilter.tbl file.
- SCRIPTS FUNCTIONS
- search(where, what)
-
this function searches the string 'what' in the buffer 'where'. The buffer
can be either DATA.data or DECODED.data. The former is the payload at layer
DATA (ontop TCP or UDP) as it is transmitted on the wire, the latter is the
payload decoded/decrypted by dissectors.
So, if you want to search in an SSH connection, it is better to use 'DECODED.data' since 'data' will be encrypted.
The string 'what' can be binary. You have to escape it.example:
search(DATA.data, "\x41\x42\x43")
- regex(where, regex)
-
this function will return true if the 'regex' has matched the buffer 'where'.
The considerations about 'DECODED.data' and 'DATA.data' mentioned for the function 'search'
are the same for the regex function.
NOTE: regex can be used only against a string buffer.
example:
regex(DECODED.data, ".*login.*")
- pcre_regex(where, pcre_regex ... )
-
this function will evaluate a perl compatible regular expression. You can match
against both DATA and DECODED, but if your expression modifies the buffer, it
makes sense to operate only on DATA. The function accepts 2 or 3 parameters
depending on the operation you want. The two parameter form is used only to
match a pattern. The three parameter form means that you want to make a
substitution. In both cases, the second parameter is the search string.
You can use $n in the replacement string. These placeholders are referred to the groups created in the search string. (e.g. pcre_regex(DATA.data, "^var1=([:digit:]*)&var2=([:digit:]*)", "var1=$2&var2=$1") will swap the value of var1 and var2).
NOTE: The pcre support is optional in ettercap and will be enabled only if you have the libpcre installed. The compiler will warn you if you try to compile a filter that contains pcre expressions but you don't have libpcre. Use the -w option to suppress the warning.example:
pcre_regex(DATA.data, ".*foo$")
pcre_regex(DATA.data, "([^ ]*) bar ([^ ]*)", "foo $1 $2")
- replace(what, with)
-
this function replaces the string 'what' with the string 'with'. They can be
binary string and must be escaped. The replacement is always performed in
DATA.data since is the only payload which gets forwarded. The 'DECODED.data' buffer
is used only internally and never reaches the wire.
example:
replace("ethercap", "ettercap")
- inject(what)
-
this function injects the content of the file 'what' after the packet being
processed. It always injects in DATA.data. You can use it to replace the entire
packet with a fake one using the drop() function right before the inject() command.
In that case the filtering engine will drop the current packet and inject the
fake one.
example:
inject("./fake_packet")
- log(what, where)
-
this function dumps in the file 'where' the buffer 'what'. No information is
stored about the packet, only the payload is dumped. So you will see the stream
in the file. If you want to log packets in a more enhanced mode, you need to
use the ettercap -L option and analyze it with etterlog(8).
The file 'where' must be writable to the user EC_UID (see etter.conf(5)).example:
log(DECODED.data, "/tmp/interesting.log")
- msg(message)
-
this function displays a message to the user in the User Messages window. It is
useful to let the user know whether a particular filter has been successful or not.
example:
msg("Packet filtered successfully")
- drop()
-
this function marks the packet "to be dropped". The packet will not be
forwarded to the real destination.
example:
drop()
- kill()
-
this function kills the connection that owns the matched packet. If it is a TCP
connection, a RST is sent to both sides of the connection. If it is an UDP
connection, an ICMP PORT UNREACHABLE is sent to the source of the packet.
example:
kill()
- exec(command)
-
this function executes a shell command. You have to provide the full path to
the command since it is executed without any environment. There is no way to
determine if the command was successful or not. Furthermore, it is executed
asynchronously since it is forked by the main process.
example:
exec("/bin/cat /tmp/foo >> /tmp/bar")
- execinject(command)
-
this function operates similar to the inject function except that it uses the output of a shell command to inject data rather than the contents of a file.
It always injects in DATA.data. You can use it to replace the entire packet with a
fake one using the drop() function right before the execinject() command.
In that case the filtering engine will drop the current packet and inject the
fake one.
example:
execinject("/bin/cat /tmp/foo")
- exit()
-
this function causes the filter engine to stop executing the code. It is useful
to stop the execution of the script on some circumstance checked by an 'if' statement.
example:
exit()
EXAMPLES
Here are some examples of using etterfilter.- etterfilter filter.ecf -o filter.ef
-
Compiles the source filter.ecf into a binary filter.ef
ORIGINAL AUTHORS
Alberto Ornaghi (ALoR) <alor@users.sf.net>Marco Valleri (NaGA) <naga@antifork.org>
PROJECT STEWARDS
Emilio Escobar (exfil) <eescobar@gmail.com>Eric Milam (Brav0Hax) <jbrav.hax@gmail.com>
OFFICIAL DEVELOPERS
Mike Ryan (justfalter) <falter@gmail.com>Gianfranco Costamagna (LocutusOfBorg) <costamagnagianfranco@yahoo.it>
Antonio Collarino (sniper) <anto.collarino@gmail.com>
Ryan Linn <sussuro@happypacket.net>
Jacob Baines <baines.jacob@gmail.com>
CONTRIBUTORS
Dhiru Kholia (kholia) <dhiru@openwall.com>Alexander Koeppe (koeppea) <format_c@online.de>
Martin Bos (PureHate) <purehate@backtrack.com>
Enrique Sanchez
Gisle Vanem <giva@bgnett.no>
Johannes Bauer <JohannesBauer@gmx.de>
Daten (Bryan Schneiders) <daten@dnetc.org>
SEE ALSO
etter.filter.examplesettercap(8) etterlog(8) etter.conf(5) ettercap_curses(8) ettercap_plugins(8) ettercap-pkexec(8)