/*
american fuzzy lop - wrapper for GCC and clang
----------------------------------------------
Written and maintained by Michal Zalewski <[email protected]>
Copyright 2013, 2014, 2015 Google Inc. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at:
http://www.apache.org/licenses/LICENSE-2.0
This program is a drop-in replacement for GCC or clang. The most common way
of using it is to pass the path to afl-gcc or afl-clang via CC when invoking
./configure.
(Of course, use CXX and point it to afl-g++ / afl-clang++ for C++ code.)
The wrapper needs to know the path to afl-as (renamed to 'as'). The default
is /usr/local/lib/afl/. A convenient way to specify alternative directories
would be to set AFL_PATH.
If AFL_HARDEN is set, the wrapper will compile the target app with various
hardening options that may help detect memory management issues more
reliably. You can also specify AFL_USE_ASAN to enable ASAN.
If you want to call a non-default compiler as a next step of the chain,
specify its location via AFL_CC or AFL_CXX.
*/
#define AFL_MAIN
#include "config.h"
#include "types.h"
#include "debug.h"
#include "alloc-inl.h"
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
static u8* as_path; /* Path to the AFL 'as' wrapper */
static u8** cc_params; /* Parameters passed to the real CC */
static u32 cc_par_cnt = 1; /* Param count, including argv0 */
static u8 be_quiet, /* Quiet mode */
clang_mode; /* Invoked as afl-clang*? */
/* Try to find our "fake" GNU assembler in AFL_PATH or at the location derived
from argv[0]. If that fails, abort. */
static void find_as(u8* argv0) {
u8 *afl_path = getenv("AFL_PATH");
u8 *slash, *tmp;
if (afl_path) {
tmp = alloc_printf("%s/as", afl_path);
if (!access(tmp, X_OK)) {
as_path = afl_path;
ck_free(tmp);
return;
}
ck_free(tmp);
}
slash = strrchr(argv0, '/');
if (slash) {
u8 *dir;
*slash = 0;
dir = ck_strdup(argv0);
*slash = '/';
tmp = alloc_printf("%s/afl-as", dir);
if (!access(tmp, X_OK)) {
as_path = dir;
ck_free(tmp);
return;
}
ck_free(tmp);
ck_free(dir);
}
if (!access(AFL_PATH "/as", X_OK)) {
as_path = AFL_PATH;
return;
}
FATAL("Unable to find AFL wrapper binary for 'as'. Please set AFL_PATH");
}
/* Copy argv to cc_params, making the necessary edits. */
static void edit_params(u32 argc, char** argv) {
u8 fortify_set = 0, asan_set = 0;
u8 *name;
#if defined(__FreeBSD__) && defined(__x86_64__)
u8 m32_set = 0;
#endif
cc_params = ck_alloc((argc + 128) * sizeof(u8*));
name = strrchr(argv[0], '/');
if (!name) name = argv[0]; else name++;
if (!strncmp(name, "afl-clang", 9)) {
clang_mode = 1;
setenv(CLANG_ENV_VAR, "1", 1);
if (!strcmp(name, "afl-clang++")) {
u8* alt_cxx = getenv("AFL_CXX");
cc_params[0] = alt_cxx ? alt_cxx : (u8*)"clang++";
} else {
u8* alt_cc = getenv("AFL_CC");
cc_params[0] = alt_cc ? alt_cc : (u8*)"clang";
}
} else {
/* With GCJ and Eclipse installed, you can actually compile Java! The
instrumentation will work (amazingly). Alas, unhandled exceptions do
not call abort(), so afl-fuzz would need to be modified to equate
non-zero exit codes with crash conditions when working with Java
binaries. Meh. */
#ifdef __APPLE__
if (!strcmp(name, "afl-g++")) cc_params[0] = getenv("AFL_CXX");
else if (!strcmp(name, "afl-gcj")) cc_params[0] = getenv("AFL_GCJ");
else cc_params[0] = getenv("AFL_CC");
if (!cc_params[0]) {
SAYF("\n" cLRD "[-] " cRST
"On Apple systems, 'gcc' is usually just a wrapper for clang. Please use the\n"
" 'afl-clang' utility instead of 'afl-gcc'. If you really have GCC installed,\n"
" set AFL_CC or AFL_CXX to specify the correct path to that compiler.\n");
FATAL("AFL_CC or AFL_CXX required on MacOS X");
}
#else
if (!strcmp(name, "afl-g++")) {
u8* alt_cxx = getenv("AFL_CXX");
cc_params[0] = alt_cxx ? alt_cxx : (u8*)"g++";
} else if (!strcmp(name, "afl-gcj")) {
u8* alt_cc = getenv("AFL_GCJ");
cc_params[0] = alt_cc ? alt_cc : (u8*)"gcj";
} else {
u8* alt_cc = getenv("AFL_CC");
cc_params[0] = alt_cc ? alt_cc : (u8*)"gcc";
}
#endif /* __APPLE__ */
}
while (--argc) {
u8* cur = *(++argv);
if (!strncmp(cur, "-B", 2)) {
if (!be_quiet) WARNF("-B is already set, overriding");
if (!cur[2] && argc > 1) { argc--; argv++; }
continue;
}
if (!strcmp(cur, "-integrated-as")) continue;
if (!strcmp(cur, "-pipe")) continue;
#if defined(__FreeBSD__) && defined(__x86_64__)
if (!strcmp(cur, "-m32")) m32_set = 1;
#endif
if (!strcmp(cur, "-fsanitize=address") ||
!strcmp(cur, "-fsanitize=memory")) asan_set = 1;
if (strstr(cur, "FORTIFY_SOURCE")) fortify_set = 1;
cc_params[cc_par_cnt++] = cur;
}
cc_params[cc_par_cnt++] = "-B";
cc_params[cc_par_cnt++] = as_path;
if (clang_mode)
cc_params[cc_par_cnt++] = "-no-integrated-as";
if (getenv("AFL_HARDEN")) {
cc_params[cc_par_cnt++] = "-fstack-protector-all";
if (!fortify_set)
cc_params[cc_par_cnt++] = "-D_FORTIFY_SOURCE=2";
}
if (asan_set) {
/* Pass this on to afl-as to adjust map density. */
setenv("AFL_USE_ASAN", "1", 1);
} else if (getenv("AFL_USE_ASAN")) {
if (getenv("AFL_USE_MSAN"))
FATAL("ASAN and MSAN are mutually exclusive");
if (getenv("AFL_HARDEN"))
FATAL("ASAN and AFL_HARDEN are mutually exclusive");
cc_params[cc_par_cnt++] = "-U_FORTIFY_SOURCE";
cc_params[cc_par_cnt++] = "-fsanitize=address";
} else if (getenv("AFL_USE_MSAN")) {
if (getenv("AFL_USE_ASAN"))
FATAL("ASAN and MSAN are mutually exclusive");
if (getenv("AFL_HARDEN"))
FATAL("MSAN and AFL_HARDEN are mutually exclusive");
cc_params[cc_par_cnt++] = "-U_FORTIFY_SOURCE";
cc_params[cc_par_cnt++] = "-fsanitize=memory";
}
if (!getenv("AFL_DONT_OPTIMIZE")) {
#if defined(__FreeBSD__) && defined(__x86_64__)
/* On 64-bit FreeBSD systems, clang -g -m32 is broken, but -m32 itself
works OK. This has nothing to do with us, but let's avoid triggering
that bug. */
if (!clang_mode || !m32_set)
cc_params[cc_par_cnt++] = "-g";
#else
cc_params[cc_par_cnt++] = "-g";
#endif
cc_params[cc_par_cnt++] = "-O3";
cc_params[cc_par_cnt++] = "-funroll-loops";
/* Two indicators that you're building for fuzzing; one of them is
AFL-specific, the other is shared with libfuzzer. */
cc_params[cc_par_cnt++] = "-D__AFL_COMPILER=1";
cc_params[cc_par_cnt++] = "-DFUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION=1";
}
if (getenv("AFL_NO_BUILTIN")) {
cc_params[cc_par_cnt++] = "-fno-builtin-strcmp";
cc_params[cc_par_cnt++] = "-fno-builtin-strncmp";
cc_params[cc_par_cnt++] = "-fno-builtin-strcasecmp";
cc_params[cc_par_cnt++] = "-fno-builtin-strncasecmp";
cc_params[cc_par_cnt++] = "-fno-builtin-memcmp";
cc_params[cc_par_cnt++] = "-fno-builtin-strstr";
cc_params[cc_par_cnt++] = "-fno-builtin-strcasestr";
}
cc_params[cc_par_cnt] = NULL;
}
/* Main entry point */
int main(int argc, char** argv) {
if (isatty(2) && !getenv("AFL_QUIET")) {
SAYF(cCYA "afl-cc " cBRI VERSION cRST " by <[email protected]>\n");
} else be_quiet = 1;
if (argc < 2) {
SAYF("\n"
"This is a helper application for afl-fuzz. It serves as a drop-in replacement\n"
"for gcc or clang, letting you recompile third-party code with the required\n"
"runtime instrumentation. A common use pattern would be one of the following:\n\n"
" CC=%s/afl-gcc ./configure\n"
" CXX=%s/afl-g++ ./configure\n\n"
"You can specify custom next-stage toolchain via AFL_CC, AFL_CXX, and AFL_AS.\n"
"Setting AFL_HARDEN enables hardening optimizations in the compiled code.\n\n",
BIN_PATH, BIN_PATH);
exit(1);
}
find_as(argv[0]);
edit_params(argc, argv);
execvp(cc_params[0], (char**)cc_params);
FATAL("Oops, failed to execute '%s' - check your PATH", cc_params[0]);
return 0;
}