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afl-fuzz.c
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afl-fuzz.c
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/*
american fuzzy lop - fuzzer code
--------------------------------
Original AFL code written by Michal Zalewski <[email protected]>
Windows fork written and maintained by Ivan Fratric <[email protected]>
Copyright 2016 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
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#define _CRT_SECURE_NO_WARNINGS
#define AFL_MAIN
#define MESSAGES_TO_STDOUT
#define _GNU_SOURCE
#define _FILE_OFFSET_BITS 64
#define WIN32_LEAN_AND_MEAN /* prevent winsock.h to be included in windows.h */
#define _CRT_RAND_S
#define MAX_SAMPLE_SIZE 1000000
#include <windows.h>
#include <TlHelp32.h>
#include <stdarg.h>
#include <io.h>
#include <direct.h>
#include <pdh.h>
#include <pdhmsg.h>
#pragma comment(lib, "pdh.lib")
#define VERSION "2.43b"
#define WINAFL_VERSION "1.17"
#include "config.h"
#include "types.h"
#include "debug.h"
#include "alloc-inl.h"
#include "hash.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <errno.h>
#include <signal.h>
#include <ctype.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#ifdef TINYINST
int tinyinst_init(int argc, char** argv);
void tinyinst_set_fuzzer_id(char* fuzzer_id);
int tinyinst_run(char** argv, uint32_t timeout);
void tinyinst_killtarget();
#endif
#if defined(__APPLE__) || defined(__FreeBSD__) || defined (__OpenBSD__)
# include <sys/sysctl.h>
#endif /* __APPLE__ || __FreeBSD__ || __OpenBSD__ */
/* Lots of globals, but mostly for the status UI and other things where it
really makes no sense to haul them around as function parameters. */
BOOL use_sample_shared_memory = FALSE;
static u8 *in_dir, /* Input directory with test cases */
*out_file, /* File to fuzz, if any */
*out_dir, /* Working & output directory */
*sync_dir, /* Synchronization directory */
*sync_id, /* Fuzzer ID */
*use_banner, /* Display banner */
*in_bitmap, /* Input bitmap */
*doc_path, /* Path to documentation dir */
*target_path, /* Path to target binary */
*target_cmd, /* command line of target */
*orig_cmdline; /* Original command line */
static u32 exec_tmout = EXEC_TIMEOUT; /* Configurable exec timeout (ms) */
static u32 init_tmout = 0; /* Configurable init timeout (ms) */
static u32 hang_tmout = EXEC_TIMEOUT; /* Timeout used for hang det (ms) */
u64 mem_limit = MEM_LIMIT; /* Memory cap for child (MB) */
static u32 stats_update_freq = 1, /* Stats update frequency (execs) */
drattachpid = 0; /* running process id for attach */
static u8 skip_deterministic, /* Skip deterministic stages? */
force_deterministic, /* Force deterministic stages? */
use_splicing, /* Recombine input files? */
dumb_mode, /* Run in non-instrumented mode? */
score_changed, /* Scoring for favorites changed? */
kill_signal, /* Signal that killed the child */
resuming_fuzz, /* Resuming an older fuzzing job? */
timeout_given, /* Specific timeout given? */
not_on_tty, /* stdout is not a tty */
term_too_small, /* terminal dimensions too small */
uses_asan, /* Target uses ASAN? */
no_forkserver, /* Disable forkserver? */
crash_mode, /* Crash mode! Yeah! */
in_place_resume, /* Attempt in-place resume? */
autoresume, /* Resume if out_dir exists? */
auto_changed, /* Auto-generated tokens changed? */
no_cpu_meter_red, /* Feng shui on the status screen */
no_arith, /* Skip most arithmetic ops */
shuffle_queue, /* Shuffle input queue? */
bitmap_changed = 1, /* Time to update bitmap? */
qemu_mode, /* Running in QEMU mode? */
skip_requested, /* Skip request, via SIGUSR1 */
run_over10m, /* Run time over 10 minutes? */
persistent_mode, /* Running in persistent mode? */
drioless = 0, /* Running without DRIO? */
drattach = 0; /* attaching to a running process */
use_intelpt = 0; /* Using Intel PT instrumentation */
use_tinyinst = 0; /* Using TinyInst instrumentation */
custom_dll_defined = 0; /* Custom DLL path defined? */
persist_dr_cache = 0; /* Enable persisting code caches? */
expert_mode = 0; /* Running in expert mode with DRIO?*/
static s32 out_fd, /* Persistent fd for out_file */
dev_urandom_fd = -1, /* Persistent fd for /dev/urandom */
dev_null_fd = -1, /* Persistent fd for /dev/null */
fsrv_ctl_fd, /* Fork server control pipe (write) */
fsrv_st_fd; /* Fork server status pipe (read) */
child_pid = -1, /* PID of the fuzzed program */
out_dir_fd = -1; /* FD of the lock file */
HANDLE child_handle, child_thread_handle;
char *dynamorio_dir;
char *drattach_identifier;
char *client_params;
char *winafl_dll_path;
int fuzz_iterations_max = 5000, fuzz_iterations_current;
DWORD ret_exception_code = 0;
CRITICAL_SECTION critical_section;
u64 watchdog_timeout_time;
int watchdog_enabled;
PDH_HQUERY cpuQuery;
PDH_HCOUNTER cpuTotal;
u8* trace_bits; /* SHM with instrumentation bitmap */
static u8 virgin_bits[MAP_SIZE], /* Regions yet untouched by fuzzing */
virgin_tmout[MAP_SIZE], /* Bits we haven't seen in tmouts */
virgin_crash[MAP_SIZE]; /* Bits we haven't seen in crashes */
static u8 var_bytes[MAP_SIZE]; /* Bytes that appear to be variable */
static HANDLE shm_handle; /* Handle of the SHM region */
static HANDLE sample_shm_handle; /* Handle of the use SHM region */
char* sample_shm_str;
static HANDLE pipe_handle; /* Handle of the name pipe */
static OVERLAPPED pipe_overlapped; /* Overlapped structure of pipe */
static char *fuzzer_id = NULL; /* The fuzzer ID or a randomized
seed allowing multiple instances */
static HANDLE devnul_handle; /* Handle of the nul device */
u8 sinkhole_stds = 1; /* Sink-hole stdout/stderr messages?*/
u8* shm_sample;
static volatile u8 stop_soon, /* Ctrl-C pressed? */
clear_screen = 1, /* Window resized? */
child_timed_out; /* Traced process timed out? */
static u32 queued_paths, /* Total number of queued testcases */
queued_variable, /* Testcases with variable behavior */
queued_at_start, /* Total number of initial inputs */
queued_discovered, /* Items discovered during this run */
queued_imported, /* Items imported via -S */
queued_favored, /* Paths deemed favorable */
queued_with_cov, /* Paths with new coverage bytes */
pending_not_fuzzed, /* Queued but not done yet */
pending_favored, /* Pending favored paths */
cur_skipped_paths, /* Abandoned inputs in cur cycle */
cur_depth, /* Current path depth */
max_depth, /* Max path depth */
useless_at_start, /* Number of useless starting paths */
var_byte_count, /* Bitmap bytes with var behavior */
current_entry, /* Current queue entry ID */
havoc_div = 1; /* Cycle count divisor for havoc */
static u64 total_crashes, /* Total number of crashes */
unique_crashes, /* Crashes with unique signatures */
total_tmouts, /* Total number of timeouts */
unique_tmouts, /* Timeouts with unique signatures */
unique_hangs, /* Hangs with unique signatures */
total_execs, /* Total execve() calls */
start_time, /* Unix start time (ms) */
prev_run_time, /* Runtime read from prev stats file*/
last_path_time, /* Time for most recent path (ms) */
last_crash_time, /* Time for most recent crash (ms) */
last_hang_time, /* Time for most recent hang (ms) */
last_crash_execs, /* Exec counter at last crash */
queue_cycle, /* Queue round counter */
cycles_wo_finds, /* Cycles without any new paths */
trim_execs, /* Execs done to trim input files */
bytes_trim_in, /* Bytes coming into the trimmer */
bytes_trim_out, /* Bytes coming outa the trimmer */
blocks_eff_total, /* Blocks subject to effector maps */
blocks_eff_select; /* Blocks selected as fuzzable */
static u32 subseq_tmouts; /* Number of timeouts in a row */
static u8 *stage_name = "init", /* Name of the current fuzz stage */
*stage_short, /* Short stage name */
*syncing_party; /* Currently syncing with... */
static s32 stage_cur, stage_max; /* Stage progression */
static s32 splicing_with = -1; /* Splicing with which test case? */
static u32 master_id, master_max; /* Master instance job splitting */
static u32 syncing_case; /* Syncing with case #... */
static s32 stage_cur_byte, /* Byte offset of current stage op */
stage_cur_val; /* Value used for stage op */
static u8 stage_val_type; /* Value type (STAGE_VAL_*) */
static u64 stage_finds[32], /* Patterns found per fuzz stage */
stage_cycles[32]; /* Execs per fuzz stage */
static u32 rand_cnt; /* Random number counter */
static u64 total_cal_us, /* Total calibration time (us) */
total_cal_cycles; /* Total calibration cycles */
static u64 total_bitmap_size, /* Total bit count for all bitmaps */
total_bitmap_entries; /* Number of bitmaps counted */
static u32 cpu_core_count; /* CPU core count */
u64 cpu_aff = 0; /* Selected CPU core */
static FILE* plot_file; /* Gnuplot output file */
struct queue_entry {
u8* fname; /* File name for the test case */
u32 len; /* Input length */
u8 cal_failed, /* Calibration failed? */
trim_done, /* Trimmed? */
was_fuzzed, /* Had any fuzzing done yet? */
passed_det, /* Deterministic stages passed? */
has_new_cov, /* Triggers new coverage? */
var_behavior, /* Variable behavior? */
favored, /* Currently favored? */
fs_redundant; /* Marked as redundant in the fs? */
u32 bitmap_size, /* Number of bits set in bitmap */
exec_cksum; /* Checksum of the execution trace */
u64 exec_us, /* Execution time (us) */
handicap, /* Number of queue cycles behind */
depth; /* Path depth */
u8* trace_mini; /* Trace bytes, if kept */
u32 tc_ref; /* Trace bytes ref count */
struct queue_entry *next, /* Next element, if any */
*next_100; /* 100 elements ahead */
};
static struct queue_entry *queue, /* Fuzzing queue (linked list) */
*queue_cur, /* Current offset within the queue */
*queue_top, /* Top of the list */
*q_prev100; /* Previous 100 marker */
static struct queue_entry*
top_rated[MAP_SIZE]; /* Top entries for bitmap bytes */
struct extra_data {
u8* data; /* Dictionary token data */
u32 len; /* Dictionary token length */
u32 hit_cnt; /* Use count in the corpus */
};
static struct extra_data* extras; /* Extra tokens to fuzz with */
static u32 extras_cnt; /* Total number of tokens read */
static struct extra_data* a_extras; /* Automatically selected extras */
static u32 a_extras_cnt; /* Total number of tokens available */
static u8* (*post_handler)(u8* buf, u32* len);
/* Interesting values, as per config.h */
static s8 interesting_8[] = { INTERESTING_8 };
static s16 interesting_16[] = { INTERESTING_8, INTERESTING_16 };
static s32 interesting_32[] = { INTERESTING_8, INTERESTING_16, INTERESTING_32 };
/* Fuzzing stages */
enum {
/* 00 */ STAGE_FLIP1,
/* 01 */ STAGE_FLIP2,
/* 02 */ STAGE_FLIP4,
/* 03 */ STAGE_FLIP8,
/* 04 */ STAGE_FLIP16,
/* 05 */ STAGE_FLIP32,
/* 06 */ STAGE_ARITH8,
/* 07 */ STAGE_ARITH16,
/* 08 */ STAGE_ARITH32,
/* 09 */ STAGE_INTEREST8,
/* 10 */ STAGE_INTEREST16,
/* 11 */ STAGE_INTEREST32,
/* 12 */ STAGE_EXTRAS_UO,
/* 13 */ STAGE_EXTRAS_UI,
/* 14 */ STAGE_EXTRAS_AO,
/* 15 */ STAGE_HAVOC,
/* 16 */ STAGE_SPLICE
};
/* Stage value types */
enum {
/* 00 */ STAGE_VAL_NONE,
/* 01 */ STAGE_VAL_LE,
/* 02 */ STAGE_VAL_BE
};
/* Execution status fault codes */
enum {
/* 00 */ FAULT_NONE,
/* 01 */ FAULT_TMOUT,
/* 02 */ FAULT_CRASH,
/* 03 */ FAULT_ERROR,
/* 04 */ FAULT_NOINST,
/* 05 */ FAULT_NOBITS
};
/* Get unix time in milliseconds */
u64 get_cur_time(void) {
u64 ret;
FILETIME filetime;
GetSystemTimeAsFileTime(&filetime);
ret = (((u64)filetime.dwHighDateTime)<<32) + (u64)filetime.dwLowDateTime;
return ret / 10000;
}
/* Get unix time in microseconds */
static u64 get_cur_time_us(void) {
u64 ret;
FILETIME filetime;
GetSystemTimeAsFileTime(&filetime);
ret = (((u64)filetime.dwHighDateTime)<<32) + (u64)filetime.dwLowDateTime;
return ret / 10;
}
/* Generate a random number (from 0 to limit - 1). This may
have slight bias. */
static inline u32 UR(u32 limit) {
if (!rand_cnt--) {
u32 seed[2];
rand_s(&seed[0]);
rand_s(&seed[1]);
srand(seed[0]);
rand_cnt = (RESEED_RNG / 2) + (seed[1] % RESEED_RNG);
}
return rand() % limit;
}
/* Shuffle an array of pointers. Might be slightly biased. */
static void shuffle_ptrs(void** ptrs, u32 cnt) {
u32 i;
for (i = 0; i < cnt - 2; i++) {
u32 j = i + UR(cnt - i);
void *s = ptrs[i];
ptrs[i] = ptrs[j];
ptrs[j] = s;
}
}
static u64 get_process_affinity(u32 process_id) {
/* if we can't get process affinity we treat it as if he doesn't have affinity */
u64 affinity = -1ULL;
DWORD_PTR process_affinity_mask = 0;
DWORD_PTR system_affinity_mask = 0;
HANDLE process = OpenProcess(PROCESS_QUERY_LIMITED_INFORMATION, FALSE, process_id);
if (process == NULL) {
return affinity;
}
if (GetProcessAffinityMask(process, &process_affinity_mask, &system_affinity_mask)) {
affinity = (u64)process_affinity_mask;
}
CloseHandle(process);
return affinity;
}
static u32 count_mask_bits(u64 mask) {
u32 count = 0;
while (mask) {
if (mask & 1) {
count++;
}
mask >>= 1;
}
return count;
}
static u32 get_bit_idx(u64 mask) {
u32 i;
for (i = 0; i < 64; i++) {
if (mask & (1ULL << i)) {
return i;
}
}
return 0;
}
static void bind_to_free_cpu(void) {
u8 cpu_used[64];
u32 i = 0;
PROCESSENTRY32 process_entry;
HANDLE process_snap = INVALID_HANDLE_VALUE;
memset(cpu_used, 0, sizeof(cpu_used));
if (cpu_core_count < 2) return;
if (getenv("AFL_NO_AFFINITY")) {
WARNF("Not binding to a CPU core (AFL_NO_AFFINITY set).");
return;
}
/* Currently winafl doesn't support more than 64 cores */
if (cpu_core_count > 64) {
SAYF("\n" cLRD "[-] " cRST
"Uh-oh, looks like you have %u CPU cores on your system\n"
" winafl doesn't support more than 64 cores at the moment\n"
" you can set AFL_NO_AFFINITY and try again.\n",
cpu_core_count);
FATAL("Too many cpus for automatic binding");
}
if (!cpu_aff) {
ACTF("Checking CPU core loadout...");
/* Introduce some jitter, in case multiple AFL tasks are doing the same
thing at the same time... */
srand(GetTickCount() + GetCurrentProcessId());
Sleep(R(1000) * 3);
process_snap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
if (process_snap == INVALID_HANDLE_VALUE) {
FATAL("Failed to create snapshot");
}
process_entry.dwSize = sizeof(PROCESSENTRY32);
if (!Process32First(process_snap, &process_entry)) {
CloseHandle(process_snap);
FATAL("Failed to enumerate processes");
}
do {
unsigned long cpu_idx = 0;
u64 affinity = get_process_affinity(process_entry.th32ProcessID);
if ((affinity == 0) || (count_mask_bits(affinity) > 1)) continue;
cpu_idx = get_bit_idx(affinity);
cpu_used[cpu_idx] = 1;
} while (Process32Next(process_snap, &process_entry));
CloseHandle(process_snap);
/* If the user only uses subset of the core, prefer non-sequential cores
to avoid pinning two hyper threads of the same core */
for(i = 0; i < cpu_core_count; i += 2) if (!cpu_used[i]) break;
/* Fallback to the sequential scan */
if (i >= cpu_core_count) {
for(i = 0; i < cpu_core_count; i++) if (!cpu_used[i]) break;
}
if (i == cpu_core_count) {
SAYF("\n" cLRD "[-] " cRST
"Uh-oh, looks like all %u CPU cores on your system are allocated to\n"
" other instances of afl-fuzz (or similar CPU-locked tasks). Starting\n"
" another fuzzer on this machine is probably a bad plan, but if you are\n"
" absolutely sure, you can set AFL_NO_AFFINITY and try again.\n",
cpu_core_count);
FATAL("No more free CPU cores");
}
OKF("Found a free CPU core, binding to #%u.", i);
cpu_aff = 1ULL << i;
}
if (!SetProcessAffinityMask(GetCurrentProcess(), (DWORD_PTR)cpu_aff)) {
FATAL("Failed to set process affinity");
}
OKF("Process affinity is set to %I64x.", cpu_aff);
}
#ifndef IGNORE_FINDS
/* Helper function to compare buffers; returns first and last differing offset. We
use this to find reasonable locations for splicing two files. */
static void locate_diffs(u8* ptr1, u8* ptr2, u32 len, s32* first, s32* last) {
s32 f_loc = -1;
s32 l_loc = -1;
u32 pos;
for (pos = 0; pos < len; pos++) {
if (*(ptr1++) != *(ptr2++)) {
if (f_loc == -1) f_loc = pos;
l_loc = pos;
}
}
*first = f_loc;
*last = l_loc;
return;
}
#endif /* !IGNORE_FINDS */
/* Describe integer. Uses 12 cyclic static buffers for return values. The value
returned should be five characters or less for all the integers we reasonably
expect to see. */
static u8* DI(u64 val) {
static u8 tmp[12][16];
static u8 cur;
cur = (cur + 1) % 12;
#define CHK_FORMAT(_divisor, _limit_mult, _fmt, _cast) do { \
if (val < (_divisor) * (_limit_mult)) { \
sprintf(tmp[cur], _fmt, ((_cast)val) / (_divisor)); \
return tmp[cur]; \
} \
} while (0)
/* 0-9999 */
CHK_FORMAT(1, 10000, "%llu", u64);
/* 10.0k - 99.9k */
CHK_FORMAT(1000, 99.95, "%0.01fk", double);
/* 100k - 999k */
CHK_FORMAT(1000, 1000, "%lluk", u64);
/* 1.00M - 9.99M */
CHK_FORMAT(1000 * 1000, 9.995, "%0.02fM", double);
/* 10.0M - 99.9M */
CHK_FORMAT(1000 * 1000, 99.95, "%0.01fM", double);
/* 100M - 999M */
CHK_FORMAT(1000 * 1000, 1000, "%lluM", u64);
/* 1.00G - 9.99G */
CHK_FORMAT(1000LL * 1000 * 1000, 9.995, "%0.02fG", double);
/* 10.0G - 99.9G */
CHK_FORMAT(1000LL * 1000 * 1000, 99.95, "%0.01fG", double);
/* 100G - 999G */
CHK_FORMAT(1000LL * 1000 * 1000, 1000, "%lluG", u64);
/* 1.00T - 9.99G */
CHK_FORMAT(1000LL * 1000 * 1000 * 1000, 9.995, "%0.02fT", double);
/* 10.0T - 99.9T */
CHK_FORMAT(1000LL * 1000 * 1000 * 1000, 99.95, "%0.01fT", double);
/* 100T+ */
strcpy(tmp[cur], "infty");
return tmp[cur];
}
/* Describe float. Similar to the above, except with a single
static buffer. */
static u8* DF(double val) {
static u8 tmp[16];
if (val < 99.995) {
sprintf(tmp, "%0.02f", val);
return tmp;
}
if (val < 999.95) {
sprintf(tmp, "%0.01f", val);
return tmp;
}
return DI((u64)val);
}
/* Describe integer as memory size. */
static u8* DMS(u64 val) {
static u8 tmp[12][16];
static u8 cur;
cur = (cur + 1) % 12;
/* 0-9999 */
CHK_FORMAT(1, 10000, "%llu B", u64);
/* 10.0k - 99.9k */
CHK_FORMAT(1024, 99.95, "%0.01f kB", double);
/* 100k - 999k */
CHK_FORMAT(1024, 1000, "%llu kB", u64);
/* 1.00M - 9.99M */
CHK_FORMAT(1024 * 1024, 9.995, "%0.02f MB", double);
/* 10.0M - 99.9M */
CHK_FORMAT(1024 * 1024, 99.95, "%0.01f MB", double);
/* 100M - 999M */
CHK_FORMAT(1024 * 1024, 1000, "%llu MB", u64);
/* 1.00G - 9.99G */
CHK_FORMAT(1024LL * 1024 * 1024, 9.995, "%0.02f GB", double);
/* 10.0G - 99.9G */
CHK_FORMAT(1024LL * 1024 * 1024, 99.95, "%0.01f GB", double);
/* 100G - 999G */
CHK_FORMAT(1024LL * 1024 * 1024, 1000, "%llu GB", u64);
/* 1.00T - 9.99G */
CHK_FORMAT(1024LL * 1024 * 1024 * 1024, 9.995, "%0.02f TB", double);
/* 10.0T - 99.9T */
CHK_FORMAT(1024LL * 1024 * 1024 * 1024, 99.95, "%0.01f TB", double);
#undef CHK_FORMAT
/* 100T+ */
strcpy(tmp[cur], "infty");
return tmp[cur];
}
/* Describe time delta. Returns one static buffer, 34 chars of less. */
static u8* DTD(u64 cur_ms, u64 event_ms) {
static u8 tmp[64];
u64 delta;
s32 t_d, t_h, t_m, t_s;
if (!event_ms) return "none seen yet";
delta = cur_ms - event_ms;
t_d = (s32)(delta / 1000 / 60 / 60 / 24);
t_h = (s32)((delta / 1000 / 60 / 60) % 24);
t_m = (s32)((delta / 1000 / 60) % 60);
t_s = (s32)((delta / 1000) % 60);
sprintf(tmp, "%s days, %u hrs, %u min, %u sec", DI(t_d), t_h, t_m, t_s);
return tmp;
}
char *alloc_printf(const char *_str, ...) {
va_list argptr;
char* _tmp;
s32 _len;
va_start(argptr, _str);
_len = vsnprintf(NULL, 0, _str, argptr);
if (_len < 0) FATAL("Whoa, snprintf() fails?!");
_tmp = ck_alloc(_len + 1);
vsnprintf(_tmp, (size_t)_len + 1, _str, argptr);
va_end(argptr);
return _tmp;
}
/* Mark deterministic checks as done for a particular queue entry. We use the
.state file to avoid repeating deterministic fuzzing when resuming aborted
scans. */
static void mark_as_det_done(struct queue_entry* q) {
u8* fn = strrchr(q->fname, '\\');
s32 fd;
fn = alloc_printf("%s\\queue\\.state\\deterministic_done\\%s", out_dir, fn + 1);
fd = _open(fn, O_WRONLY | O_BINARY | O_CREAT | O_EXCL, DEFAULT_PERMISSION);
if (fd < 0) PFATAL("Unable to create '%s'", fn);
_close(fd);
ck_free(fn);
q->passed_det = 1;
}
/* Mark as variable. Create symlinks if possible to make it easier to examine
the files. */
static void mark_as_variable(struct queue_entry* q) {
u8 *fn = strrchr(q->fname, '\\') + 1, *ldest;
ldest = alloc_printf("..\\..\\%s", fn);
fn = alloc_printf("%s\\queue\\.state\\variable_behavior\\%s", out_dir, fn);
ck_free(ldest);
ck_free(fn);
q->var_behavior = 1;
}
/* Mark / unmark as redundant (edge-only). This is not used for restoring state,
but may be useful for post-processing datasets. */
static void mark_as_redundant(struct queue_entry* q, u8 state) {
u8* fn;
s32 fd;
if (state == q->fs_redundant) return;
q->fs_redundant = state;
fn = strrchr(q->fname, '\\');
fn = alloc_printf("%s\\queue\\.state\\redundant_edges\\%s", out_dir, fn + 1);
if (state) {
fd = _open(fn, O_WRONLY | O_BINARY | O_CREAT | O_EXCL, DEFAULT_PERMISSION);
if (fd < 0) PFATAL("Unable to create '%s'", fn);
_close(fd);
} else {
if (_unlink(fn)) PFATAL("Unable to remove '%s'", fn);
}
ck_free(fn);
}
/* Append new test case to the queue. */
static void add_to_queue(u8* fname, u32 len, u8 passed_det) {
cycles_wo_finds = 0;
struct queue_entry* q = ck_alloc(sizeof(struct queue_entry));
q->fname = fname;
q->len = len;
q->depth = (u64)cur_depth + 1;
q->passed_det = passed_det;
if (q->depth > max_depth) max_depth = (u32)(q->depth);
if (queue_top) {
queue_top->next = q;
queue_top = q;
} else q_prev100 = queue = queue_top = q;
queued_paths++;
pending_not_fuzzed++;
/* Set next_100 pointer for every 100th element (index 0, 100, etc) to allow faster iteration. */
if ((queued_paths - 1) % 100 == 0 && queued_paths > 1) {
q_prev100->next_100 = q;
q_prev100 = q;
}
last_path_time = get_cur_time();
}
/* Destroy the entire queue. */
static void destroy_queue(void) {
struct queue_entry *q = queue, *n;
while (q) {
n = q->next;
ck_free(q->fname);
ck_free(q->trace_mini);
ck_free((char *)q);
q = n;
}
}
/* Write bitmap to file. The bitmap is useful mostly for the secret
-B option, to focus a separate fuzzing session on a particular
interesting input without rediscovering all the others. */
static void write_bitmap(void) {
u8* fname;
s32 fd;
if (!bitmap_changed) return;
bitmap_changed = 0;
fname = alloc_printf("%s\\fuzz_bitmap", out_dir);
fd = _open(fname, O_WRONLY | O_BINARY | O_CREAT | O_TRUNC, DEFAULT_PERMISSION);
if (fd < 0) PFATAL("Unable to open '%s'", fname);
ck_write(fd, virgin_bits, MAP_SIZE, fname);
_close(fd);
ck_free(fname);
}
/* Read bitmap from file. This is for the -B option again. */
static void read_bitmap(u8* fname) {
s32 fd = _open(fname, O_RDONLY | O_BINARY);
if (fd < 0) PFATAL("Unable to open '%s'", fname);
ck_read(fd, virgin_bits, MAP_SIZE, fname);
_close(fd);
}
/* Check if the current execution path brings anything new to the table.
Update virgin bits to reflect the finds. Returns 1 if the only change is
the hit-count for a particular tuple; 2 if there are new tuples seen.
Updates the map, so subsequent calls will always return 0.
This function is called after every exec() on a fairly large buffer, so
it needs to be fast. We do this in 32-bit and 64-bit flavors. */
static inline u8 has_new_bits(u8* virgin_map) {
#ifdef _WIN64
u64* current = (u64*)trace_bits;
u64* virgin = (u64*)virgin_map;
u32 i = (MAP_SIZE >> 3);
#else
u32* current = (u32*)trace_bits;
u32* virgin = (u32*)virgin_map;
u32 i = (MAP_SIZE >> 2);
#endif /* ^_WIN64 */
u8 ret = 0;
while (i--) {
/* Optimize for (*current & *virgin) == 0 - i.e., no bits in current bitmap
that have not been already cleared from the virgin map - since this will
almost always be the case. */
if (*current && (*current & *virgin)) {
if (ret < 2) {
u8* cur = (u8*)current;
u8* vir = (u8*)virgin;
/* Looks like we have not found any new bytes yet; see if any non-zero
bytes in current[] are pristine in virgin[]. */
#ifdef _WIN64
if ((cur[0] && vir[0] == 0xff) || (cur[1] && vir[1] == 0xff) ||
(cur[2] && vir[2] == 0xff) || (cur[3] && vir[3] == 0xff) ||
(cur[4] && vir[4] == 0xff) || (cur[5] && vir[5] == 0xff) ||
(cur[6] && vir[6] == 0xff) || (cur[7] && vir[7] == 0xff)) ret = 2;
else ret = 1;
#else
if ((cur[0] && vir[0] == 0xff) || (cur[1] && vir[1] == 0xff) ||
(cur[2] && vir[2] == 0xff) || (cur[3] && vir[3] == 0xff)) ret = 2;
else ret = 1;
#endif /* ^_WIN64 */
}