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Some Information for Contributors
Thank you for considering to make a contribution to tcpdump! Please use the guidelines below to achieve the best results and experience for everyone.
How to report bugs and other problems
To report a security issue (segfault, buffer overflow, infinite loop, arbitrary code execution etc) please send an e-mail to security@tcpdump.org, do not use the bug tracker!
To report a non-security problem (failure to compile, incorrect output in the protocol printout, missing support for a particular protocol etc) please check first that it reproduces with the latest stable release of tcpdump and the latest stable release of libpcap. If it does, please check that the problem reproduces with the current git master branch of tcpdump and the current git master branch of libpcap. If it does (and it is not a security-related problem, otherwise see above), please navigate to the bug tracker and check if the problem has already been reported. If it has not, please open a new issue and provide the following details:
- tcpdump and libpcap version (
tcpdump --version
) - operating system name and version and any other details that may be relevant
(
uname -a
, compiler name and version, CPU type etc.) - custom
configure
/cmake
flags, if any - statement of the problem
- steps to reproduce
Please note that if you know exactly how to solve the problem and the solution would not be too intrusive, it would be best to contribute some development time and to open a pull request instead as discussed below.
Still not sure how to do? Feel free to subscribe to the mailing list and ask!
How to add new code and to update existing code
-
Check that there isn't a pull request already opened for the changes you intend to make.
-
Fork the tcpdump repository.
-
The easiest way to test your changes on multiple operating systems and architectures is to let the upstream CI test your pull request (more on this below).
-
Setup your git working copy
git clone https://github.com/<username>/tcpdump.git cd tcpdump git remote add upstream https://github.com/the-tcpdump-group/tcpdump git fetch upstream
-
Do a
touch .devel
in your working directory. Currently, the effect is- add (via
configure
, inMakefile
) some warnings options (-Wall
,-Wmissing-prototypes
,-Wstrict-prototypes
, ...) to the compiler if it supports these options, - have the
Makefile
supportmake depend
and theconfigure
script run it.
- add (via
-
Configure and build
./configure && make -s && make check
-
Add/update tests The
tests
directory contains regression tests of the dissection of captured packets. Those captured packets were saved running tcpdump with option-w sample.pcap
. Additional options, such as-n
, are used to create relevant and reproducible output;-#
is used to indicate which particular packets have output that differs. The tests are run with theTZ
environment variable set toGMT0
, so that UTC, rather than the local time where the tests are being run, is used when "local time" values are printed. The actual test compares the current text output with the expected result (sample.out
) saved from a previous version.Any new/updated fields in a dissector must be present in a
sample.pcap
file and the corresponding output file.Configuration is set in
tests/TESTLIST
. Each line in this file has the following format:test-name sample.pcap sample.out tcpdump-options
The
sample.out
file can be produced as follows:(cd tests && TZ=GMT0 ../tcpdump -# -n -r sample.pcap tcpdump-options > sample.out)
Or, for convenience, use
./update-test.sh test-name
It is often useful to have test outputs with different verbosity levels (none,
-v
,-vv
,-vvv
, etc.) depending on the code. -
Test using
make check
(current build options) and./build_matrix.sh
(a multitude of build options, build systems and compilers). If you can, test on more than one operating system. Don't send a pull request until all tests pass. -
Try to rebase your commits to keep the history simple.
git fetch upstream git rebase upstream/master
(If the rebase fails and you cannot resolve, issue
git rebase --abort
and ask for help in the pull request comment.) -
Once 100% happy, put your work into your forked repository using
git push
. -
Initiate and send a pull request. This will trigger the upstream repository CI tests.
Code style and generic remarks
-
A thorough reading of some other printers code is useful.
-
To help learn how tcpdump works or to help debugging: You can configure and build tcpdump with the instrumentation of functions:
$ ./configure --enable-instrument-functions $ make -s clean all
This generates instrumentation calls for entry and exit to functions. Just after function entry and just before function exit, these profiling functions are called and print the function names with indentation and call level.
If entering in a function, it prints also the calling function name with file name and line number. There may be a small shift in the line number.
In some cases, with Clang 11, the file number is unknown (printed '??') or the line number is unknown (printed '?'). In this case, use GCC.
If the environment variable INSTRUMENT is
- unset or set to an empty string, print nothing, like with no instrumentation
- set to "all" or "a", print all the functions names
- set to "global" or "g", print only the global functions names
This allows to run:
$ INSTRUMENT=a ./tcpdump ... $ INSTRUMENT=g ./tcpdump ... $ INSTRUMENT= ./tcpdump ...
or
$ export INSTRUMENT=global $ ./tcpdump ...
The library libbfd is used, therefore the binutils-dev package is required.
-
Put the normative reference if any as comments (RFC, etc.).
-
Put the format of packets/headers/options as comments if there is no published normative reference.
-
The printer may receive incomplete packet in the buffer, truncated at any random position, for example by capturing with
-s size
option. This means that an attempt to fetch packet data based on the expected format of the packet may run the risk of overrunning the buffer.Furthermore, if the packet is complete, but is not correctly formed, that can also cause a printer to overrun the buffer, as it will be fetching packet data based on the expected format of the packet.
Therefore, integral, IPv4 address, and octet sequence values should be fetched using the
GET_*()
macros, which are defined inextract.h
.If your code reads and decodes every byte of the protocol packet, then to ensure proper and complete bounds checks it would be sufficient to read all packet data using the
GET_*()
macros.If your code uses the macros above only on some packet data, then the gaps would have to be bounds-checked using the
ND_TCHECK_*()
macros:ND_TCHECK_n(p), n in { 1, 2, 3, 4, 5, 6, 7, 8, 16 } ND_TCHECK_SIZE(p) ND_TCHECK_LEN(p, l)
where p points to the data not being decoded. For
ND_CHECK_n()
, n is the length of the gap, in bytes. ForND_CHECK_SIZE()
, the length of the gap, in bytes, is the size of an item of the data type to which p points. ForND_CHECK_LEN()
, l is the length of the gap, in bytes.For the
GET_*()
andND_TCHECK_*
macros (if not already done):- Assign:
ndo->ndo_protocol = "protocol";
- Define:
ND_LONGJMP_FROM_TCHECK
before includingnetdissect.h
- Make sure that the intersection of
GET_*()
andND_TCHECK_*()
is minimal, but at the same time their union covers all packet data in all cases.
You can test the code via:
sudo ./tcpdump -s snaplen [-v][v][...] -i lo # in a terminal sudo tcpreplay -i lo sample.pcap # in another terminal
You should try several values for snaplen to do various truncation.
- Assign:
-
The
GET_*()
macros that fetch integral values are:GET_U_1(p) GET_S_1(p) GET_BE_U_n(p), n in { 2, 3, 4, 5, 6, 7, 8 } GET_BE_S_n(p), n in { 2, 3, 4, 5, 6, 7, 8 } GET_LE_U_n(p), n in { 2, 3, 4, 5, 6, 7, 8 } GET_LE_S_n(p), n in { 2, 3, 4, 5, 6, 7, 8 }
where p points to the integral value in the packet buffer. The macro returns the integral value at that location.
U
indicates that an unsigned value is fetched;S
indicates that a signed value is fetched. For multi-byte values,BE
indicates that a big-endian value ("network byte order") is fetched, andLE
indicates that a little-endian value is fetched. n is the length, in bytes, of the multi-byte integral value to be fetched.In addition to the bounds checking the
GET_*()
macros perform, using those macros has other advantages:-
tcpdump runs on both big-endian and little-endian systems, so fetches of multi-byte integral values must be done in a fashion that works regardless of the byte order of the machine running tcpdump. The
GET_BE_*()
macros will fetch a big-endian value and return a host-byte-order value on both big-endian and little-endian machines, and theGET_LE_*()
macros will fetch a little-endian value and return a host-byte-order value on both big-endian and little-endian machines. -
tcpdump runs on machines that do not support unaligned access to multi-byte values, and packet values are not guaranteed to be aligned on the proper boundary. The
GET_BE_*()
andGET_LE_*()
macros will fetch values even if they are not aligned on the proper boundary.
-
-
The
GET_*()
macros that fetch IPv4 address values are:GET_IPV4_TO_HOST_ORDER(p) GET_IPV4_TO_NETWORK_ORDER(p)
where p points to the address in the packet buffer.
GET_IPV4_TO_HOST_ORDER()
returns the address in the byte order of the host that is running tcpdump;GET_IPV4_TO_NETWORK_ORDER()
returns it in network byte order.Like the integral
GET_*()
macros, these macros work correctly on both big-endian and little-endian machines and will fetch values even if they are not aligned on the proper boundary. -
The
GET_*()
macro that fetches an arbitrary sequences of bytes is:GET_CPY_BYTES(dst, p, len)
where dst is the destination to which the sequence of bytes should be copied, p points to the first byte of the sequence of bytes, and len is the number of bytes to be copied. The bytes are copied in the order in which they appear in the packet.
-
To fetch a network address and convert it to a printable string, use the following
GET_*()
macros, defined inaddrtoname.h
, to perform bounds checks to make sure the entire address is within the buffer and to translate the address to a string to print:GET_IPADDR_STRING(p) GET_IP6ADDR_STRING(p) GET_MAC48_STRING(p) GET_EUI64_STRING(p) GET_EUI64LE_STRING(p) GET_LINKADDR_STRING(p, type, len) GET_ISONSAP_STRING(nsap, nsap_length)
GET_IPADDR_STRING()
fetches an IPv4 address pointed to by p and returns a string that is either a host name, if the-n
flag wasn't specified and a host name could be found for the address, or the standard XXX.XXX.XXX.XXX-style representation of the address.GET_IP6ADDR_STRING()
fetches an IPv6 address pointed to by p and returns a string that is either a host name, if the-n
flag wasn't specified and a host name could be found for the address, or the standard XXXX::XXXX-style representation of the address.GET_MAC48_STRING()
fetches a 48-bit MAC address (Ethernet, 802.11, etc.) pointed to by p and returns a string that is either a host name, if the-n
flag wasn't specified and a host name could be found in the ethers file for the address, or the standard XX:XX:XX:XX:XX:XX-style representation of the address.GET_EUI64_STRING()
fetches a 64-bit EUI pointed to by p and returns a string that is the standard XX:XX:XX:XX:XX:XX:XX:XX-style representation of the address.GET_EUI64LE_STRING()
fetches a 64-bit EUI, in reverse byte order, pointed to by p and returns a string that is the standard XX:XX:XX:XX:XX:XX:XX:XX-style representation of the address.GET_LINKADDR_STRING()
fetches an octet string, of length length and type type, pointed to by p and returns a string whose format depends on the value of type:-
LINKADDR_MAC48
- if the length is 6, the string has the same value asGET_MAC48_STRING()
would return for that address, otherwise, the string is a sequence of XX:XX:... values for the bytes of the address; -
LINKADDR_FRELAY
- the string is "DLCI XXX", where XXX is the DLCI, if the address is a valid Q.922 header, and an error indication otherwise; -
LINKADDR_EUI64
,LINKADDR_ATM
,LINKADDR_OTHER
- the string is a sequence of XX:XX:... values for the bytes of the address.
-
-
When defining a structure corresponding to a packet or part of a packet, so that a pointer to packet data can be cast to a pointer to that structure and that structure pointer used to refer to fields in the packet, use the
nd_*
types for the structure members.Those types all are aligned only on a 1-byte boundary, so a compiler will not assume that the structure is aligned on a boundary stricter than one byte; there is no guarantee that fields in packets are aligned on any particular boundary.
This means that all padding in the structure must be explicitly declared as fields in the structure.
The
nd_*
types for integral values are:nd_uintN_t
, for unsigned integral values, where N is the number of bytes in the value.nd_intN_t
, for signed integral values, where N is the number of bytes in the value.
The
nd_*
types for IP addresses are:nd_ipv4
, for IPv4 addresses;nd_ipv6
, for IPv6 addresses.
The
nd_*
types for link-layer addresses are:nd_mac48
, for MAC-48 (Ethernet, 802.11, etc.) addresses;nd_eui64
, for EUI-64 values.
The
nd_*
type for a byte in a sequence of bytes isnd_byte
; an N-byte sequence should be declared asnd_byte[N]
. -
Do invalid packet checks in code: Think that your code can receive in input not only a valid packet but any arbitrary random sequence of octets (packet
- built malformed originally by the sender or by a fuzz tester,
- became corrupted in transit or for some other reason).
Print with:
nd_print_invalid(ndo); /* to print " (invalid)" */
-
Use
struct tok
for indexed strings and print them withtok2str()
orbittok2str()
(for flags). Allstruct tok
must end with{ 0, NULL }
. -
Avoid empty lines in output of printers.
-
A commit message must have:
First line: Capitalized short summary in the imperative (50 chars or less)
If the commit concerns a protocol, the summary line must start with
"protocol: ".
Body: Detailed explanatory text, if necessary. Fold it to approximately
72 characters. There must be an empty line separating the summary from
the body.
-
Avoid non-ASCII characters in code and commit messages.
-
Use the style of the modified sources.
-
Don't mix declarations and code.
-
tcpdump requires a compiler that supports C99 or later, so C99 features may be used in code, but C11 or later features should not be used.
-
Avoid trailing tabs/spaces