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afl-fuzz.c
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afl-fuzz.c
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/*
american fuzzy lop - fuzzer code
--------------------------------
Written and maintained by Michal Zalewski <lcamtuf@google.com>
Forkserver design by Jann Horn <jannhorn@googlemail.com>
Copyright 2013, 2014, 2015, 2016, 2017 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 is the real deal: the program takes an instrumented binary and
attempts a variety of basic fuzzing tricks, paying close attention to
how they affect the execution path.
*/
#define AFL_MAIN
#define MESSAGES_TO_STDOUT
#define _GNU_SOURCE
#define _FILE_OFFSET_BITS 64
#include "config.h"
#include "types.h"
#include "debug.h"
#include "alloc-inl.h"
#include "hash.h"
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <errno.h>
#include <signal.h>
#include <dirent.h>
#include <ctype.h>
#include <fcntl.h>
#include <termios.h>
#include <dlfcn.h>
#include <sched.h>
#include <sys/wait.h>
#include <sys/time.h>
#include <sys/shm.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/resource.h>
#include <sys/mman.h>
#include <sys/ioctl.h>
#include <sys/file.h>
#if defined(__APPLE__) || defined(__FreeBSD__) || defined (__OpenBSD__)
# include <sys/sysctl.h>
#endif /* __APPLE__ || __FreeBSD__ || __OpenBSD__ */
/* For systems that have sched_setaffinity; right now just Linux, but one
can hope... */
#ifdef __linux__
# define HAVE_AFFINITY 1
#endif /* __linux__ */
/* A toggle to export some variables when building as a library. Not very
useful for the general public. */
#ifdef AFL_LIB
# define EXP_ST
#else
# define EXP_ST static
#endif /* ^AFL_LIB */
/* 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. */
EXP_ST 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 */
*orig_cmdline; /* Original command line */
EXP_ST u32 exec_tmout = EXEC_TIMEOUT; /* Configurable exec timeout (ms) */
static u32 hang_tmout = EXEC_TIMEOUT; /* Timeout used for hang det (ms) */
EXP_ST u64 mem_limit = MEM_LIMIT; /* Memory cap for child (MB) */
static u32 stats_update_freq = 1; /* Stats update frequency (execs) */
EXP_ST 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? */
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? */
deferred_mode, /* Deferred forkserver mode? */
fast_cal; /* Try to calibrate faster? */
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) */
static s32 forksrv_pid, /* PID of the fork server */
child_pid = -1, /* PID of the fuzzed program */
out_dir_fd = -1; /* FD of the lock file */
EXP_ST u8* trace_bits; /* SHM with instrumentation bitmap */
EXP_ST 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 s32 shm_id; /* ID of the SHM region */
static volatile u8 stop_soon, /* Ctrl-C pressed? */
clear_screen = 1, /* Window resized? */
child_timed_out; /* Traced process timed out? */
EXP_ST 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 */
EXP_ST 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) */
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 s32 cpu_core_count; /* CPU core count */
#ifdef HAVE_AFFINITY
static s32 cpu_aff = -1; /* Selected CPU core */
#endif /* HAVE_AFFINITY */
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 */
static u64 get_cur_time(void) {
struct timeval tv;
struct timezone tz;
gettimeofday(&tv, &tz);
return (tv.tv_sec * 1000ULL) + (tv.tv_usec / 1000);
}
/* Get unix time in microseconds */
static u64 get_cur_time_us(void) {
struct timeval tv;
struct timezone tz;
gettimeofday(&tv, &tz);
return (tv.tv_sec * 1000000ULL) + tv.tv_usec;
}
/* Generate a random number (from 0 to limit - 1). This may
have slight bias. */
static inline u32 UR(u32 limit) {
if (unlikely(!rand_cnt--)) {
u32 seed[2];
ck_read(dev_urandom_fd, &seed, sizeof(seed), "/dev/urandom");
srandom(seed[0]);
rand_cnt = (RESEED_RNG / 2) + (seed[1] % RESEED_RNG);
}
return random() % 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;
}
}
#ifdef HAVE_AFFINITY
/* Build a list of processes bound to specific cores. Returns -1 if nothing
can be found. Assumes an upper bound of 4k CPUs. */
static void bind_to_free_cpu(void) {
DIR* d;
struct dirent* de;
cpu_set_t c;
u8 cpu_used[4096] = { 0 };
u32 i;
if (cpu_core_count < 2) return;
if (getenv("AFL_NO_AFFINITY")) {
WARNF("Not binding to a CPU core (AFL_NO_AFFINITY set).");
return;
}
d = opendir("/proc");
if (!d) {
WARNF("Unable to access /proc - can't scan for free CPU cores.");
return;
}
ACTF("Checking CPU core loadout...");
/* Introduce some jitter, in case multiple AFL tasks are doing the same
thing at the same time... */
usleep(R(1000) * 250);
/* Scan all /proc/<pid>/status entries, checking for Cpus_allowed_list.
Flag all processes bound to a specific CPU using cpu_used[]. This will
fail for some exotic binding setups, but is likely good enough in almost
all real-world use cases. */
while ((de = readdir(d))) {
u8* fn;
FILE* f;
u8 tmp[MAX_LINE];
u8 has_vmsize = 0;
if (!isdigit(de->d_name[0])) continue;
fn = alloc_printf("/proc/%s/status", de->d_name);
if (!(f = fopen(fn, "r"))) {
ck_free(fn);
continue;
}
while (fgets(tmp, MAX_LINE, f)) {
u32 hval;
/* Processes without VmSize are probably kernel tasks. */
if (!strncmp(tmp, "VmSize:\t", 8)) has_vmsize = 1;
if (!strncmp(tmp, "Cpus_allowed_list:\t", 19) &&
!strchr(tmp, '-') && !strchr(tmp, ',') &&
sscanf(tmp + 19, "%u", &hval) == 1 && hval < sizeof(cpu_used) &&
has_vmsize) {
cpu_used[hval] = 1;
break;
}
}
ck_free(fn);
fclose(f);
}
closedir(d);
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 = i;
CPU_ZERO(&c);
CPU_SET(i, &c);
if (sched_setaffinity(0, sizeof(c), &c))
PFATAL("sched_setaffinity failed");
}
#endif /* HAVE_AFFINITY */
#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 = delta / 1000 / 60 / 60 / 24;
t_h = (delta / 1000 / 60 / 60) % 24;
t_m = (delta / 1000 / 60) % 60;
t_s = (delta / 1000) % 60;
sprintf(tmp, "%s days, %u hrs, %u min, %u sec", DI(t_d), t_h, t_m, t_s);
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_CREAT | O_EXCL, 0600);
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);
if (symlink(ldest, fn)) {
s32 fd = open(fn, O_WRONLY | O_CREAT | O_EXCL, 0600);
if (fd < 0) PFATAL("Unable to create '%s'", fn);
close(fd);
}
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_CREAT | O_EXCL, 0600);
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) {
struct queue_entry* q = ck_alloc(sizeof(struct queue_entry));
q->fname = fname;
q->len = len;
q->depth = cur_depth + 1;
q->passed_det = passed_det;
if (q->depth > max_depth) max_depth = q->depth;
if (queue_top) {
queue_top->next = q;
queue_top = q;
} else q_prev100 = queue = queue_top = q;
queued_paths++;
pending_not_fuzzed++;
cycles_wo_finds = 0;
if (!(queued_paths % 100)) {
q_prev100->next_100 = q;
q_prev100 = q;
}
last_path_time = get_cur_time();
}
/* Destroy the entire queue. */
EXP_ST 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(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. */
EXP_ST 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_CREAT | O_TRUNC, 0600);
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. */
EXP_ST void read_bitmap(u8* fname) {
s32 fd = open(fname, O_RDONLY);
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 __x86_64__
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 /* ^__x86_64__ */
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 (unlikely(*current) && unlikely(*current & *virgin)) {
if (likely(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 __x86_64__
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 /* ^__x86_64__ */
}
*virgin &= ~*current;
}
current++;
virgin++;
}
if (ret && virgin_map == virgin_bits) bitmap_changed = 1;
return ret;
}
/* Count the number of bits set in the provided bitmap. Used for the status
screen several times every second, does not have to be fast. */
static u32 count_bits(u8* mem) {
u32* ptr = (u32*)mem;
u32 i = (MAP_SIZE >> 2);
u32 ret = 0;
while (i--) {
u32 v = *(ptr++);
/* This gets called on the inverse, virgin bitmap; optimize for sparse
data. */
if (v == 0xffffffff) {
ret += 32;
continue;
}
v -= ((v >> 1) & 0x55555555);
v = (v & 0x33333333) + ((v >> 2) & 0x33333333);
ret += (((v + (v >> 4)) & 0xF0F0F0F) * 0x01010101) >> 24;
}
return ret;
}
#define FF(_b) (0xff << ((_b) << 3))
/* Count the number of bytes set in the bitmap. Called fairly sporadically,
mostly to update the status screen or calibrate and examine confirmed
new paths. */
static u32 count_bytes(u8* mem) {
u32* ptr = (u32*)mem;
u32 i = (MAP_SIZE >> 2);
u32 ret = 0;
while (i--) {
u32 v = *(ptr++);
if (!v) continue;
if (v & FF(0)) ret++;
if (v & FF(1)) ret++;
if (v & FF(2)) ret++;
if (v & FF(3)) ret++;