Tomas Mraz 20c6924d5e fuzz/decoder.c: Limit the EVP_PKEY_param_check on DHX keys as well 6 mesiacov pred
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corpora @ 3e7b9b6d1d 7649b5548e Add fuzzing for DTLS 7 mesiacov pred
README.md 3714a735ac Update the fuzz README to provide info about the stdc++ requirements 1 rok pred
asn1.c 0ce7d1f355 Copyright year updates 7 mesiacov pred
asn1parse.c 38fc02a708 Update copyright year 3 rokov pred
bignum.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
bndiv.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
build.info 7649b5548e Add fuzzing for DTLS 7 mesiacov pred
client.c fecb3aae22 Update copyright year 2 rokov pred
cmp.c bedffe1731 crypto/cmp/,apps/lib/cmp_mock_srv.c: various improvements on delayed delivery 10 mesiacov pred
cms.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
conf.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
crl.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
ct.c e5d4233fbd Deprecate ERR_get_state() 5 rokov pred
decoder.c 20c6924d5e fuzz/decoder.c: Limit the EVP_PKEY_param_check on DHX keys as well 6 mesiacov pred
driver.c 0642931f30 Following the license change, modify the boilerplates in fuzz/ 6 rokov pred
dtlsclient.c 0ce7d1f355 Copyright year updates 7 mesiacov pred
dtlsserver.c 0ce7d1f355 Copyright year updates 7 mesiacov pred
fuzz_introspector_exclusion.config fe487609c1 Exclude more in the fuzz introspector report 11 mesiacov pred
fuzz_rand.c da1c088f59 Copyright year updates 1 rok pred
fuzzer.h 7bc5ce4a79 Use <openssl/e_os2.h> rather than <stdint.h> 1 rok pred
helper.py d742badc3b Fuzzing: Fix helper shebang on NixOS 11 mesiacov pred
mkfuzzoids.pl c37b947957 Add a local perl module to get year last changed 3 rokov pred
oids.txt c5e097dec5 Add Content Type OID for id-ct-rpkiSignedPrefixList 7 mesiacov pred
pem.c da1c088f59 Copyright year updates 1 rok pred
punycode.c 8aa82b3370 fuzz: add punycode decoder fuzz test 2 rokov pred
quic-client.c 3fa274ca81 Add support for streams to the quic-client fuzzer 1 rok pred
quic-lcidm.c 3d7f83ebdc QUIC LCIDM: Add fuzzer 11 mesiacov pred
quic-rcidm.c 0ce7d1f355 Copyright year updates 7 mesiacov pred
quic-srtm.c f328adff43 QUIC SRTM: Add fuzzer for SRTM 11 mesiacov pred
server.c fb6ad22e36 fuzz: remove TODOs 3 rokov pred
smime.c 359d6a26d6 Added a fuzzer for SMIME 1 rok pred
test-corpus.c eec0ad10b9 Update copyright year 4 rokov pred
v3name.c 55aab29c1e Add fuzz test for v3name 1 rok pred
x509.c da1c088f59 Copyright year updates 1 rok pred

README.md

Fuzzing OpenSSL

OpenSSL can use either LibFuzzer or AFL to do fuzzing.

LibFuzzer

How to fuzz OpenSSL with libfuzzer, starting from a vanilla+OpenSSH server Ubuntu install.

With clang from a package manager

Install clang, which ships with libfuzzer since version 6.0:

sudo apt-get install clang

Configure openssl for fuzzing. For now, you'll still need to pass in the path to the libFuzzer library file while configuring; this is represented as $PATH_TO_LIBFUZZER below. A typical value would be /usr/lib/llvm-7/lib/clang/7.0.1/lib/linux/libclang_rt.fuzzer-x86_64.a.

CC=clang ./config enable-fuzz-libfuzzer \
        --with-fuzzer-lib=$PATH_TO_LIBFUZZER \
        -DPEDANTIC enable-asan enable-ubsan no-shared \
        -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION \
        -fsanitize=fuzzer-no-link \
        enable-ec_nistp_64_gcc_128 -fno-sanitize=alignment \
        enable-weak-ssl-ciphers enable-rc5 enable-md2 \
        enable-ssl3 enable-ssl3-method enable-nextprotoneg \
        --debug

Clang uses the gcc libstdc++ library so this must also be installed. You can check which version of gcc clang is using like this:

$ clang --verbose
Ubuntu clang version 14.0.0-1ubuntu1.1
Target: x86_64-pc-linux-gnu
Thread model: posix
InstalledDir: /usr/bin
Found candidate GCC installation: /usr/bin/../lib/gcc/i686-linux-gnu/12
Found candidate GCC installation: /usr/bin/../lib/gcc/x86_64-linux-gnu/10
Found candidate GCC installation: /usr/bin/../lib/gcc/x86_64-linux-gnu/11
Found candidate GCC installation: /usr/bin/../lib/gcc/x86_64-linux-gnu/12
Selected GCC installation: /usr/bin/../lib/gcc/x86_64-linux-gnu/12
Candidate multilib: .;@m64
Selected multilib: .;@m64

So, in the above example clang is using gcc version 12. Ensure that the selected gcc version has the relevant libstdc++ files installed:

$ ls /usr/lib/gcc/x86_64-linux-gnu/12 | grep stdc++
libstdc++.a
libstdc++fs.a
libstdc++.so

On Ubuntu for gcc-12 this requires the libstdc++-12-dev package installed.

$ sudo apt-get install libstdc++-12-dev

Compile:

sudo apt-get install make
make clean
LDCMD=clang++ make -j4

Finally, perform the actual fuzzing:

fuzz/helper.py $FUZZER

where $FUZZER is one of the executables in fuzz/. It will run until you stop it.

If you get a crash, you should find a corresponding input file in fuzz/corpora/$FUZZER-crash/.

With clang from source/pre-built binaries

You may also wish to use a pre-built binary from the LLVM Download site, or to build clang from source. After adding clang to your path and locating the libfuzzer library file, the procedure for configuring fuzzing is the same, except that you also need to specify a --with-fuzzer-include option, which should be the parent directory of the prebuilt fuzzer library. This is represented as $PATH_TO_LIBFUZZER_DIR below.

CC=clang ./config enable-fuzz-libfuzzer \
        --with-fuzzer-include=$PATH_TO_LIBFUZZER_DIR \
        --with-fuzzer-lib=$PATH_TO_LIBFUZZER \
        -DPEDANTIC enable-asan enable-ubsan no-shared \
        -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION \
        -fsanitize=fuzzer-no-link \
        enable-ec_nistp_64_gcc_128 -fno-sanitize=alignment \
        enable-weak-ssl-ciphers enable-rc5 enable-md2 \
        enable-ssl3 enable-ssl3-method enable-nextprotoneg \
        --debug

AFL

This is an alternative to using LibFuzzer.

Configure for fuzzing:

sudo apt-get install afl-clang
CC=afl-clang-fast ./config enable-fuzz-afl no-shared no-module \
    -DPEDANTIC enable-tls1_3 enable-weak-ssl-ciphers enable-rc5 \
    enable-md2 enable-ssl3 enable-ssl3-method enable-nextprotoneg \
    enable-ec_nistp_64_gcc_128 -fno-sanitize=alignment \
    --debug
make clean
make

The following options can also be enabled: enable-asan, enable-ubsan, enable-msan

Run one of the fuzzers:

afl-fuzz -i fuzz/corpora/$FUZZER -o fuzz/corpora/$FUZZER/out fuzz/$FUZZER

Where $FUZZER is one of the executables in fuzz/.

Reproducing issues

If a fuzzer generates a reproducible error, you can reproduce the problem using the fuzz/-test binaries and the file generated by the fuzzer. They binaries don't need to be built for fuzzing, there is no need to set CC or the call config with enable-fuzz- or -fsanitize-coverage, but some of the other options above might be needed. For instance the enable-asan or enable-ubsan option might be useful to show you when the problem happens. For the client and server fuzzer it might be needed to use -DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION to reproduce the generated random numbers.

To reproduce the crash you can run:

fuzz/$FUZZER-test $file

To do all the tests of a specific fuzzer such as asn1 you can run

fuzz/asn1-test fuzz/corpora/asn1

or

make test TESTS=fuzz_test_asn1

To run several fuzz tests you can use for instance:

make test TESTS='test_fuzz_cmp test_fuzz_cms'

To run all fuzz tests you can use:

make test TESTS='test_fuzz_*'

Random numbers

The client and server fuzzer normally generate random numbers as part of the TLS connection setup. This results in the coverage of the fuzzing corpus changing depending on the random numbers. This also has an effect for coverage of the rest of the test suite and you see the coverage change for each commit even when no code has been modified.

Since we want to maximize the coverage of the fuzzing corpus, the client and server fuzzer will use predictable numbers instead of the random numbers. This is controlled by the FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION define.

The coverage depends on the way the numbers are generated. We don't disable any check of hashes, but the corpus has the correct hash in it for the random numbers that were generated. For instance the client fuzzer will always generate the same client hello with the same random number in it, and so the server, as emulated by the file, can be generated for that client hello.

Coverage changes

Since the corpus depends on the default behaviour of the client and the server, changes in what they send by default will have an impact on the coverage. The corpus will need to be updated in that case.

Updating the corpus

The client and server corpus is generated with multiple config options:

  • The options as documented above
  • Without enable-ec_nistp_64_gcc_128 and without --debug
  • With no-asm
  • Using 32 bit
  • A default config, plus options needed to generate the fuzzer.

The libfuzzer merge option is used to add the additional coverage from each config to the minimal set.

Minimizing the corpus

When you have gathered corpus data from more than one fuzzer run or for any other reason want to minimize the data in some corpus subdirectory fuzz/corpora/DIR this can be done as follows:

mkdir fuzz/corpora/NEWDIR
fuzz/$FUZZER -merge=1 fuzz/corpora/NEWDIR fuzz/corpora/DIR