# strcmp() / memcmp() token capture library NOTE: libtokencap is only recommended for binary-only targets or targets that do not compile with afl-clang-fast/afl-clang-lto. The afl-clang-fast AFL_LLVM_DICT2FILE feature is much better, afl-clang-lto has that feature automatically integrated. For the general instruction manual, see [docs/README.md](../../docs/README.md). This companion library allows you to instrument `strcmp()`, `memcmp()`, and related functions to automatically extract syntax tokens passed to any of these libcalls. The resulting list of tokens may be then given as a starting dictionary to afl-fuzz (the -x option) to improve coverage on subsequent fuzzing runs. This may help improving coverage in some targets, and do precisely nothing in others. In some cases, it may even make things worse: if libtokencap picks up syntax tokens that are not used to process the input data, but that are a part of - say - parsing a config file... well, you're going to end up wasting a lot of CPU time on trying them out in the input stream. In other words, use this feature with care. Manually screening the resulting dictionary is almost always a necessity. As for the actual operation: the library stores tokens, without any deduping, by appending them to a file specified via AFL_TOKEN_FILE. If the variable is not set, the tool uses stderr (which is probably not what you want). Similarly to afl-tmin, the library is not "proprietary" and can be used with other fuzzers or testing tools without the need for any code tweaks. It does not require AFL-instrumented binaries to work. To use the library, you *need* to make sure that your fuzzing target is compiled with -fno-builtin and is linked dynamically. If you wish to automate the first part without mucking with CFLAGS in Makefiles, you can set `AFL_NO_BUILTIN=1` when using afl-gcc. This setting specifically adds the following flags: ``` -fno-builtin-strcmp -fno-builtin-strncmp -fno-builtin-strcasecmp -fno-builtin-strcasencmp -fno-builtin-memcmp -fno-builtin-strstr -fno-builtin-strcasestr ``` The next step is to load this library via LD_PRELOAD. The optimal usage pattern is to allow afl-fuzz to fuzz normally for a while and build up a corpus, and then fire off the target binary, with libtokencap.so loaded, on every file found by AFL++ in that earlier run. This demonstrates the basic principle: ``` export AFL_TOKEN_FILE=$PWD/temp_output.txt for i in /queue/id*; do LD_PRELOAD=/path/to/libtokencap.so \ /path/to/target/program [...params, including $i...] done sort -u temp_output.txt >afl_dictionary.txt ``` If you don't get any results, the target library is probably not using strcmp() and memcmp() to parse input; or you haven't compiled it with -fno-builtin; or the whole thing isn't dynamically linked, and LD_PRELOAD is having no effect. Portability hints: There is probably no particularly portable and non-invasive way to distinguish between read-only and read-write memory mappings. The `__tokencap_load_mappings()` function is the only thing that would need to be changed for other OSes. Current supported OSes are: Linux, Darwin, FreeBSD (thanks to @devnexen)