xref: /freebsd/contrib/libfido2/fuzz/README (revision ebacd8013fe5f7fdf9f6a5b286f6680dd2891036)
1libfido2 can be fuzzed using AFL or libFuzzer, with or without
2ASAN/MSAN/UBSAN.
3
4AFL is more convenient when fuzzing the path from the authenticator to
5libfido2 in an existing application. To do so, use preload-snoop.c with a real
6authenticator to obtain an initial corpus, rebuild libfido2 with -DFUZZ=ON, and
7use preload-fuzz.c to read device data from stdin.
8
9libFuzzer is better suited for bespoke fuzzers; see fuzz_cred.c, fuzz_credman.c,
10fuzz_assert.c, fuzz_hid.c, and fuzz_mgmt.c for examples. To build these
11harnesses, use -DFUZZ=ON -DLIBFUZZER=ON.
12
13To run under ASAN/MSAN/UBSAN, libfido2 needs to be linked against flavours of
14libcbor and OpenSSL built with the respective sanitiser. In order to keep
15memory utilisation at a manageable level, you can either enforce limits at
16the OS level (e.g. cgroups on Linux), or patch libcbor with the diff below.
17
18diff --git src/cbor/internal/memory_utils.c src/cbor/internal/memory_utils.c
19index aa049a2..e294b38 100644
20--- src/cbor/internal/memory_utils.c
21+++ src/cbor/internal/memory_utils.c
22@@ -28,7 +28,10 @@ bool _cbor_safe_to_multiply(size_t a, size_t b) {
23
24 void* _cbor_alloc_multiple(size_t item_size, size_t item_count) {
25   if (_cbor_safe_to_multiply(item_size, item_count)) {
26-    return _CBOR_MALLOC(item_size * item_count);
27+    if (item_count > 1000) {
28+      return NULL;
29+    } else
30+      return _CBOR_MALLOC(item_size * item_count);
31   } else {
32     return NULL;
33   }
34