path: root/utils/aflpp_driver/aflpp_driver.c

//===- afl_driver.cpp - a glue between AFL++ and libFuzzer ------*- C++ -* ===//
//===----------------------------------------------------------------------===//

/* This file allows to fuzz libFuzzer-style target functions
 (LLVMFuzzerTestOneInput) with AFL++ using persistent in-memory fuzzing.

Usage:
################################################################################
cat << EOF > test_fuzzer.cc
#include <stddef.h>
#include <stdint.h>
extern "C" int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) {

  if (size > 0 && data[0] == 'H')
    if (size > 1 && data[1] == 'I')
       if (size > 2 && data[2] == '!')
       __builtin_trap();
  return 0;

}

EOF
# Build your target with -fsanitize-coverage=trace-pc-guard using fresh clang.
clang -c aflpp_driver.c
# Build afl-compiler-rt.o.c from the AFL distribution.
clang -c $AFL_HOME/instrumentation/afl-compiler-rt.o.c
# Build this file, link it with afl-compiler-rt.o.o and the target code.
afl-clang-fast -o test_fuzzer test_fuzzer.cc afl-compiler-rt.o aflpp_driver.o
# Run AFL:
rm -rf IN OUT; mkdir IN OUT; echo z > IN/z;
$AFL_HOME/afl-fuzz -i IN -o OUT ./a.out
################################################################################
*/

#include <assert.h>
#include <errno.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <limits.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/mman.h>
#ifndef __HAIKU__
  #include <sys/syscall.h>
#endif

#include "config.h"
#include "types.h"
#include "cmplog.h"

#ifdef _DEBUG
  #include "hash.h"
#endif

int                   __afl_sharedmem_fuzzing = 1;
extern unsigned int * __afl_fuzz_len;
extern unsigned char *__afl_fuzz_ptr;

// libFuzzer interface is thin, so we don't include any libFuzzer headers.
int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size);
__attribute__((weak)) int LLVMFuzzerInitialize(int *argc, char ***argv);

// Default nop ASan hooks for manual posisoning when not linking the ASan
// runtime
// https://github.com/google/sanitizers/wiki/AddressSanitizerManualPoisoning
__attribute__((weak)) void __asan_poison_memory_region(
    void const volatile *addr, size_t size) {

  (void)addr;
  (void)size;

}

__attribute__((weak)) void __asan_unpoison_memory_region(
    void const volatile *addr, size_t size) {

  (void)addr;
  (void)size;

}

__attribute__((weak)) void *__asan_region_is_poisoned(void *beg, size_t size);

// Notify AFL about persistent mode.
static volatile char AFL_PERSISTENT[] = "##SIG_AFL_PERSISTENT##";
int                  __afl_persistent_loop(unsigned int);

// Notify AFL about deferred forkserver.
static volatile char AFL_DEFER_FORKSVR[] = "##SIG_AFL_DEFER_FORKSRV##";
void                 __afl_manual_init();

// Use this optionally defined function to output sanitizer messages even if
// user asks to close stderr.
__attribute__((weak)) void __sanitizer_set_report_fd(void *);

// Keep track of where stderr content is being written to, so that
// dup_and_close_stderr can use the correct one.
static FILE *output_file;

// Experimental feature to use afl_driver without AFL's deferred mode.
// Needs to run before __afl_auto_init.
__attribute__((constructor(0))) static void __decide_deferred_forkserver(void) {

  if (getenv("AFL_DRIVER_DONT_DEFER")) {

    if (unsetenv("__AFL_DEFER_FORKSRV")) {

      perror("Failed to unset __AFL_DEFER_FORKSRV");
      abort();

    }

  }

}

// If the user asks us to duplicate stderr, then do it.
static void maybe_duplicate_stderr() {

  char *stderr_duplicate_filename =
      getenv("AFL_DRIVER_STDERR_DUPLICATE_FILENAME");

  if (!stderr_duplicate_filename) return;

  FILE *stderr_duplicate_stream =
      freopen(stderr_duplicate_filename, "a+", stderr);

  if (!stderr_duplicate_stream) {

    fprintf(
        stderr,
        "Failed to duplicate stderr to AFL_DRIVER_STDERR_DUPLICATE_FILENAME");
    abort();

  }

  output_file = stderr_duplicate_stream;

}

// Most of these I/O functions were inspired by/copied from libFuzzer's code.
static void discard_output(int fd) {

  FILE *temp = fopen("/dev/null", "w");
  if (!temp) abort();
  dup2(fileno(temp), fd);
  fclose(temp);

}

static void close_stdout() {

  discard_output(STDOUT_FILENO);

}

// Prevent the targeted code from writing to "stderr" but allow sanitizers and
// this driver to do so.
static void dup_and_close_stderr() {

  int output_fileno = fileno(output_file);
  int output_fd = dup(output_fileno);
  if (output_fd <= 0) abort();
  FILE *new_output_file = fdopen(output_fd, "w");
  if (!new_output_file) abort();
  if (!__sanitizer_set_report_fd) return;
  __sanitizer_set_report_fd((void *)(long int)output_fd);
  discard_output(output_fileno);

}

// Close stdout and/or stderr if user asks for it.
static void maybe_close_fd_mask() {

  char *fd_mask_str = getenv("AFL_DRIVER_CLOSE_FD_MASK");
  if (!fd_mask_str) return;
  int fd_mask = atoi(fd_mask_str);
  if (fd_mask & 2) dup_and_close_stderr();
  if (fd_mask & 1) close_stdout();

}

// Define LLVMFuzzerMutate to avoid link failures for targets that use it
// with libFuzzer's LLVMFuzzerCustomMutator.
size_t LLVMFuzzerMutate(uint8_t *Data, size_t Size, size_t MaxSize) {

  // assert(false && "LLVMFuzzerMutate should not be called from afl_driver");
  return 0;

}

// Execute any files provided as parameters.
static int ExecuteFilesOnyByOne(int argc, char **argv) {

  unsigned char *buf = (unsigned char *)malloc(MAX_FILE);

  __asan_poison_memory_region(buf, MAX_FILE);
  ssize_t prev_length = 0;

  for (int i = 1; i < argc; i++) {

    int fd = 0;

    if (strcmp(argv[i], "-") != 0) { fd = open(argv[i], O_RDONLY); }

    if (fd == -1) { continue; }

#ifndef __HAIKU__
    ssize_t length = syscall(SYS_read, fd, buf, MAX_FILE);
#else
    ssize_t length = _kern_read(fd, buf, MAX_FILE);
#endif  // HAIKU

    if (length > 0) {

      if (length < prev_length) {

        __asan_poison_memory_region(buf + length, prev_length - length);

      } else {

        __asan_unpoison_memory_region(buf + prev_length, length - prev_length);

      }

      prev_length = length;

      printf("Reading %zu bytes from %s\n", length, argv[i]);
      LLVMFuzzerTestOneInput(buf, length);
      printf("Execution successful.\n");

    }

    if (fd > 0) { close(fd); }

  }

  free(buf);
  return 0;

}

int main(int argc, char **argv) {

  if (argc < 2 || strncmp(argv[1], "-h", 2) == 0)
    printf(
        "============================== INFO ================================\n"
        "This binary is built for afl++.\n"
        "To run the target function on individual input(s) execute:\n"
        "  %s INPUT_FILE1 [INPUT_FILE2 ... ]\n"
        "To fuzz with afl-fuzz execute:\n"
        "  afl-fuzz [afl-flags] -- %s [-N]\n"
        "afl-fuzz will run N iterations before re-spawning the process "
        "(default: "
        "INT_MAX)\n"
        "For stdin input processing, pass '-' as single command line option.\n"
        "For file input processing, pass '@@' as single command line option.\n"
        "To use with afl-cmin or afl-cmin.bash pass '-' as single command line "
        "option\n"
        "===================================================================\n",
        argv[0], argv[0]);

  if (getenv("AFL_GDB")) {

    char cmd[64];
    snprintf(cmd, sizeof(cmd), "cat /proc/%d/maps", getpid());
    system(cmd);
    fprintf(stderr, "DEBUG: aflpp_driver pid is %d\n", getpid());
    sleep(1);

  }

  output_file = stderr;
  maybe_duplicate_stderr();
  maybe_close_fd_mask();
  if (LLVMFuzzerInitialize) {

    fprintf(stderr, "Running LLVMFuzzerInitialize ...\n");
    LLVMFuzzerInitialize(&argc, &argv);
    fprintf(stderr, "continue...\n");

  }

  // Do any other expensive one-time initialization here.

  uint8_t dummy_input[64] = {0};
  memcpy(dummy_input, (void *)AFL_PERSISTENT, sizeof(AFL_PERSISTENT));
  memcpy(dummy_input + 32, (void *)AFL_DEFER_FORKSVR,
         sizeof(AFL_DEFER_FORKSVR));

  int N = INT_MAX;

  if (argc == 2 && !strcmp(argv[1], "-")) {

    __afl_sharedmem_fuzzing = 0;
    __afl_manual_init();
    return ExecuteFilesOnyByOne(argc, argv);

  } else if (argc == 2 && argv[1][0] == '-') {

    N = atoi(argv[1] + 1);

  } else if (argc == 2 && (N = atoi(argv[1])) > 0) {

    printf("WARNING: using the deprecated call style `%s %d`\n", argv[0], N);

  } else if (argc > 1) {

    __afl_sharedmem_fuzzing = 0;

    if (argc == 2) { __afl_manual_init(); }

    return ExecuteFilesOnyByOne(argc, argv);

  }

  assert(N > 0);

  __afl_manual_init();

  // Call LLVMFuzzerTestOneInput here so that coverage caused by initialization
  // on the first execution of LLVMFuzzerTestOneInput is ignored.
  LLVMFuzzerTestOneInput(dummy_input, 4);

  __asan_poison_memory_region(__afl_fuzz_ptr, MAX_FILE);
  size_t prev_length = 0;

  // for speed only insert asan functions if the target is linked with asan
  if (__asan_region_is_poisoned) {

    while (__afl_persistent_loop(N)) {

      size_t length = *__afl_fuzz_len;

      if (likely(length)) {

        if (length < prev_length) {

          __asan_poison_memory_region(__afl_fuzz_ptr + length,
                                      prev_length - length);

        } else if (length > prev_length) {

          __asan_unpoison_memory_region(__afl_fuzz_ptr + prev_length,
                                        length - prev_length);

        }

        prev_length = length;
        LLVMFuzzerTestOneInput(__afl_fuzz_ptr, length);

      }

    }

  } else {

    while (__afl_persistent_loop(N)) {

      LLVMFuzzerTestOneInput(__afl_fuzz_ptr, *__afl_fuzz_len);

    }

  }

  return 0;

}