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code format, llvm 18

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This commit is contained in:
vanhauser-thc 2024-08-19 16:25:32 +02:00
parent 6edc3b51ba
commit 1689a8e053
21 changed files with 110 additions and 97 deletions
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2
.custom-format.py
View File

@ -24,7 +24,7 @@ import importlib.metadata
# string_re = re.compile('(\\"(\\\\.|[^"\\\\])*\\")') # TODO: for future use
CURRENT_LLVM = os.getenv('LLVM_VERSION', 17)
CURRENT_LLVM = os.getenv('LLVM_VERSION', 18)
CLANG_FORMAT_BIN = os.getenv("CLANG_FORMAT_BIN", "")

1
docs/Changelog.md
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@ -31,6 +31,7 @@
- new runtime (!) variable: `AFL_OLD_FORKSERVER` to use the old vanilla
AFL type forkserver. Useful for symcc/symqemu/nautilus/etc. with
AFL_LLVM_INSTRUMENT=CLASSIC
- code formatting updated to llvm 18
### Version ++4.21c (release)

12
include/debug.h
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@ -314,8 +314,8 @@ static inline const char *colorfilter(const char *x) {
#define FATAL(x...) \
do { \
\
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] PROGRAM ABORT : " cRST x); \
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] PROGRAM ABORT : " cRST x); \
SAYF(cLRD "\n Location : " cRST "%s(), %s:%u\n\n", __func__, \
__FILE__, (u32)__LINE__); \
exit(1); \
@ -327,8 +327,8 @@ static inline const char *colorfilter(const char *x) {
#define ABORT(x...) \
do { \
\
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] PROGRAM ABORT : " cRST x); \
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] PROGRAM ABORT : " cRST x); \
SAYF(cLRD "\n Stop location : " cRST "%s(), %s:%u\n\n", __func__, \
__FILE__, (u32)__LINE__); \
abort(); \
@ -341,8 +341,8 @@ static inline const char *colorfilter(const char *x) {
do { \
\
fflush(stdout); \
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] SYSTEM ERROR : " cRST x); \
SAYF(bSTOP RESET_G1 CURSOR_SHOW cRST cLRD \
"\n[-] SYSTEM ERROR : " cRST x); \
SAYF(cLRD "\n Stop location : " cRST "%s(), %s:%u\n", __func__, \
__FILE__, (u32)__LINE__); \
SAYF(cLRD " OS message : " cRST "%s\n", strerror(errno)); \

23
include/t1ha_bits.h
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@ -455,9 +455,10 @@ typedef struct {
} __attribute__((__packed__)) t1ha_unaligned_proxy;
#define read_unaligned(ptr, bits) \
(((const t1ha_unaligned_proxy *)((const uint8_t *)(ptr)-offsetof( \
t1ha_unaligned_proxy, unaligned_##bits))) \
#define read_unaligned(ptr, bits) \
(((const t1ha_unaligned_proxy *)((const uint8_t *)(ptr) - \
offsetof(t1ha_unaligned_proxy, \
unaligned_##bits))) \
->unaligned_##bits)
#elif defined(_MSC_VER)
#pragma warning( \
@ -477,9 +478,10 @@ typedef struct {
} t1ha_unaligned_proxy;
#pragma pack(pop)
#define read_unaligned(ptr, bits) \
(((const t1ha_unaligned_proxy *)((const uint8_t *)(ptr)-offsetof( \
t1ha_unaligned_proxy, unaligned_##bits))) \
#define read_unaligned(ptr, bits) \
(((const t1ha_unaligned_proxy *)((const uint8_t *)(ptr) - \
offsetof(t1ha_unaligned_proxy, \
unaligned_##bits))) \
->unaligned_##bits)
#endif
#endif /* read_unaligned */
@ -496,21 +498,24 @@ typedef struct {
#elif __has_attribute(__assume_aligned__)
static __always_inline const uint16_t *__attribute__((
__assume_aligned__(ALIGNMENT_16))) cast_aligned_16(const void *ptr) {
__assume_aligned__(ALIGNMENT_16)))
cast_aligned_16(const void *ptr) {
return (const uint16_t *)ptr;
}
static __always_inline const uint32_t *__attribute__((
__assume_aligned__(ALIGNMENT_32))) cast_aligned_32(const void *ptr) {
__assume_aligned__(ALIGNMENT_32)))
cast_aligned_32(const void *ptr) {
return (const uint32_t *)ptr;
}
static __always_inline const uint64_t *__attribute__((
__assume_aligned__(ALIGNMENT_64))) cast_aligned_64(const void *ptr) {
__assume_aligned__(ALIGNMENT_64)))
cast_aligned_64(const void *ptr) {
return (const uint64_t *)ptr;

2
include/types.h
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@ -155,7 +155,7 @@ typedef int128_t s128;
({ \
\
char *d = (char *)(_x), *s = (char *)(_y); \
u32 i, l = (_l)-1; \
u32 i, l = (_l) - 1; \
for (i = 0; i <= l; i++) \
d[l - i] = s[i]; \
\

14
include/xxhash.h
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@ -6616,12 +6616,14 @@ static XXH64_hash_t XXH3_mergeAccs(const xxh_u64 *XXH_RESTRICT acc,
}
#define XXH3_INIT_ACC \
{ \
\
XXH_PRIME32_3, XXH_PRIME64_1, XXH_PRIME64_2, XXH_PRIME64_3, \
XXH_PRIME64_4, XXH_PRIME32_2, XXH_PRIME64_5, XXH_PRIME32_1 \
\
#define XXH3_INIT_ACC \
{ \
\
\
XXH_PRIME32_3, XXH_PRIME64_1, XXH_PRIME64_2, \
XXH_PRIME64_3, XXH_PRIME64_4, XXH_PRIME32_2, \
XXH_PRIME64_5, XXH_PRIME32_1 \
\
}
XXH_FORCE_INLINE XXH64_hash_t XXH3_hashLong_64b_internal(

2
qemu_mode/libqasan/dlmalloc.c
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@ -2355,7 +2355,7 @@ typedef unsigned int flag_t; /* The type of various bit flag sets */
/* conversion from malloc headers to user pointers, and back */
#define chunk2mem(p) ((void *)((char *)(p) + TWO_SIZE_T_SIZES))
#define mem2chunk(mem) ((mchunkptr)((char *)(mem)-TWO_SIZE_T_SIZES))
#define mem2chunk(mem) ((mchunkptr)((char *)(mem) - TWO_SIZE_T_SIZES))
/* chunk associated with aligned address A */
#define align_as_chunk(A) (mchunkptr)((A) + align_offset(chunk2mem(A)))

3
src/afl-common.c
View File

@ -108,7 +108,8 @@ void set_sanitizer_defaults() {
if (!have_san_options) { strcpy(buf, default_options); }
if (have_asan_options) {
if (NULL != strstr(have_asan_options, "detect_leaks=0") || NULL != strstr(have_asan_options, "detect_leaks=false")) {
if (NULL != strstr(have_asan_options, "detect_leaks=0") ||
NULL != strstr(have_asan_options, "detect_leaks=false")) {
strcat(buf, "exitcode=" STRINGIFY(LSAN_ERROR) ":fast_unwind_on_malloc=0:print_suppressions=0:detect_leaks=0:malloc_context_size=0:");

26
src/afl-forkserver.c
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@ -307,8 +307,8 @@ void afl_fsrv_init_dup(afl_forkserver_t *fsrv_to, afl_forkserver_t *from) {
Returns the time passed to read.
If the wait times out, returns timeout_ms + 1;
Returns 0 if an error occurred (fd closed, signal, ...); */
static u32 __attribute__((hot))
read_s32_timed(s32 fd, s32 *buf, u32 timeout_ms, volatile u8 *stop_soon_p) {
static u32 __attribute__((hot)) read_s32_timed(s32 fd, s32 *buf, u32 timeout_ms,
volatile u8 *stop_soon_p) {
fd_set readfds;
FD_ZERO(&readfds);
@ -1339,9 +1339,9 @@ void afl_fsrv_start(afl_forkserver_t *fsrv, char **argv,
fsrv->map_size = tmp_map_size;
} else {
fsrv->real_map_size = fsrv->map_size = MAP_SIZE;
fsrv->real_map_size = fsrv->map_size = MAP_SIZE;
}
if ((status & FS_OPT_AUTODICT) == FS_OPT_AUTODICT) {
@ -1450,9 +1450,10 @@ void afl_fsrv_start(afl_forkserver_t *fsrv, char **argv,
} else {
// The binary is most likely instrumented using AFL's tool, and we will set map_size to MAP_SIZE.
fsrv->real_map_size = fsrv->map_size = MAP_SIZE;
// The binary is most likely instrumented using AFL's tool, and we will
// set map_size to MAP_SIZE.
fsrv->real_map_size = fsrv->map_size = MAP_SIZE;
}
}
@ -1704,8 +1705,8 @@ u32 afl_fsrv_get_mapsize(afl_forkserver_t *fsrv, char **argv,
/* Delete the current testcase and write the buf to the testcase file */
void __attribute__((hot))
afl_fsrv_write_to_testcase(afl_forkserver_t *fsrv, u8 *buf, size_t len) {
void __attribute__((hot)) afl_fsrv_write_to_testcase(afl_forkserver_t *fsrv,
u8 *buf, size_t len) {
#ifdef __linux__
if (unlikely(fsrv->nyx_mode)) {
@ -1823,9 +1824,8 @@ afl_fsrv_write_to_testcase(afl_forkserver_t *fsrv, u8 *buf, size_t len) {
/* Execute target application, monitoring for timeouts. Return status
information. The called program will update afl->fsrv->trace_bits. */
fsrv_run_result_t __attribute__((hot))
afl_fsrv_run_target(afl_forkserver_t *fsrv, u32 timeout,
volatile u8 *stop_soon_p) {
fsrv_run_result_t __attribute__((hot)) afl_fsrv_run_target(
afl_forkserver_t *fsrv, u32 timeout, volatile u8 *stop_soon_p) {
s32 res;
u32 exec_ms;

4
src/afl-fuzz-bitmap.c
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@ -456,8 +456,8 @@ void write_crash_readme(afl_state_t *afl) {
save or queue the input test case for further analysis if so. Returns 1 if
entry is saved, 0 otherwise. */
u8 __attribute__((hot))
save_if_interesting(afl_state_t *afl, void *mem, u32 len, u8 fault) {
u8 __attribute__((hot)) save_if_interesting(afl_state_t *afl, void *mem,
u32 len, u8 fault) {
if (unlikely(len == 0)) { return 0; }

2
src/afl-fuzz-one.c
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@ -3914,7 +3914,7 @@ static u8 mopt_common_fuzzing(afl_state_t *afl, MOpt_globals_t MOpt_globals) {
#define EFF_APOS(_p) ((_p) >> EFF_MAP_SCALE2)
#define EFF_REM(_x) ((_x) & ((1 << EFF_MAP_SCALE2) - 1))
#define EFF_ALEN(_l) (EFF_APOS(_l) + !!EFF_REM(_l))
#define EFF_SPAN_ALEN(_p, _l) (EFF_APOS((_p) + (_l)-1) - EFF_APOS(_p) + 1)
#define EFF_SPAN_ALEN(_p, _l) (EFF_APOS((_p) + (_l) - 1) - EFF_APOS(_p) + 1)
/* Initialize effector map for the next step (see comments below). Always
flag first and last byte as doing something. */

13
src/afl-fuzz-run.c
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@ -41,8 +41,9 @@ u64 time_spent_working = 0;
/* Execute target application, monitoring for timeouts. Return status
information. The called program will update afl->fsrv->trace_bits. */
fsrv_run_result_t __attribute__((hot))
fuzz_run_target(afl_state_t *afl, afl_forkserver_t *fsrv, u32 timeout) {
fsrv_run_result_t __attribute__((hot)) fuzz_run_target(afl_state_t *afl,
afl_forkserver_t *fsrv,
u32 timeout) {
#ifdef PROFILING
static u64 time_spent_start = 0;
@ -111,8 +112,8 @@ fuzz_run_target(afl_state_t *afl, afl_forkserver_t *fsrv, u32 timeout) {
old file is unlinked and a new one is created. Otherwise, afl->fsrv.out_fd is
rewound and truncated. */
u32 __attribute__((hot))
write_to_testcase(afl_state_t *afl, void **mem, u32 len, u32 fix) {
u32 __attribute__((hot)) write_to_testcase(afl_state_t *afl, void **mem,
u32 len, u32 fix) {
u8 sent = 0;
@ -1173,8 +1174,8 @@ abort_trimming:
error conditions, returning 1 if it's time to bail out. This is
a helper function for fuzz_one(). */
u8 __attribute__((hot))
common_fuzz_stuff(afl_state_t *afl, u8 *out_buf, u32 len) {
u8 __attribute__((hot)) common_fuzz_stuff(afl_state_t *afl, u8 *out_buf,
u32 len) {
u8 fault;

82
src/afl-fuzz-stats.c
View File

@ -963,9 +963,9 @@ void show_stats_normal(afl_state_t *afl) {
/* Lord, forgive me this. */
SAYF(SET_G1 bSTG bLT bH bSTOP cCYA
SAYF(SET_G1 bSTG bLT bH bSTOP cCYA
" process timing " bSTG bH30 bH5 bH bHB bH bSTOP cCYA
" overall results " bSTG bH2 bH2 bRT "\n");
" overall results " bSTG bH2 bH2 bRT "\n");
if (afl->non_instrumented_mode) {
@ -1007,7 +1007,7 @@ void show_stats_normal(afl_state_t *afl) {
u_stringify_time_diff(time_tmp, afl->prev_run_time + cur_ms, afl->start_time);
SAYF(bV bSTOP " run time : " cRST "%-33s " bSTG bV bSTOP
" cycles done : %s%-5s " bSTG bV "\n",
" cycles done : %s%-5s " bSTG bV "\n",
time_tmp, tmp, u_stringify_int(IB(0), afl->queue_cycle - 1));
/* We want to warn people about not seeing new paths after a full cycle,
@ -1047,7 +1047,7 @@ void show_stats_normal(afl_state_t *afl) {
u_stringify_time_diff(time_tmp, cur_ms, afl->last_crash_time);
SAYF(bV bSTOP "last saved crash : " cRST "%-33s " bSTG bV bSTOP
"saved crashes : %s%-6s" bSTG bV "\n",
"saved crashes : %s%-6s" bSTG bV "\n",
time_tmp, crash_color, tmp);
sprintf(tmp, "%s%s", u_stringify_int(IB(0), afl->saved_hangs),
@ -1055,12 +1055,12 @@ void show_stats_normal(afl_state_t *afl) {
u_stringify_time_diff(time_tmp, cur_ms, afl->last_hang_time);
SAYF(bV bSTOP " last saved hang : " cRST "%-33s " bSTG bV bSTOP
" saved hangs : " cRST "%-6s" bSTG bV "\n",
" saved hangs : " cRST "%-6s" bSTG bV "\n",
time_tmp, tmp);
SAYF(bVR bH bSTOP cCYA
SAYF(bVR bH bSTOP cCYA
" cycle progress " bSTG bH10 bH5 bH2 bH2 bH2 bHB bH bSTOP cCYA
" map coverage" bSTG bHT bH20 bH2 bVL "\n");
" map coverage" bSTG bHT bH20 bH2 bVL "\n");
/* This gets funny because we want to print several variable-length variables
together, but then cram them into a fixed-width field - so we need to
@ -1091,9 +1091,9 @@ void show_stats_normal(afl_state_t *afl) {
SAYF(bSTOP " count coverage : " cRST "%-19s" bSTG bV "\n", tmp);
SAYF(bVR bH bSTOP cCYA
SAYF(bVR bH bSTOP cCYA
" stage progress " bSTG bH10 bH5 bH2 bH2 bH2 bX bH bSTOP cCYA
" findings in depth " bSTG bH10 bH5 bH2 bVL "\n");
" findings in depth " bSTG bH10 bH5 bH2 bVL "\n");
sprintf(tmp, "%s (%0.02f%%)", u_stringify_int(IB(0), afl->queued_favored),
((double)afl->queued_favored) * 100 / afl->queued_items);
@ -1101,7 +1101,7 @@ void show_stats_normal(afl_state_t *afl) {
/* Yeah... it's still going on... halp? */
SAYF(bV bSTOP " now trying : " cRST "%-22s " bSTG bV bSTOP
" favored items : " cRST "%-20s" bSTG bV "\n",
" favored items : " cRST "%-20s" bSTG bV "\n",
afl->stage_name, tmp);
if (!afl->stage_max) {
@ -1130,13 +1130,13 @@ void show_stats_normal(afl_state_t *afl) {
if (afl->crash_mode) {
SAYF(bV bSTOP " total execs : " cRST "%-22s " bSTG bV bSTOP
" new crashes : %s%-20s" bSTG bV "\n",
" new crashes : %s%-20s" bSTG bV "\n",
u_stringify_int(IB(0), afl->fsrv.total_execs), crash_color, tmp);
} else {
SAYF(bV bSTOP " total execs : " cRST "%-22s " bSTG bV bSTOP
" total crashes : %s%-20s" bSTG bV "\n",
" total crashes : %s%-20s" bSTG bV "\n",
u_stringify_int(IB(0), afl->fsrv.total_execs), crash_color, tmp);
}
@ -1189,7 +1189,7 @@ void show_stats_normal(afl_state_t *afl) {
}
SAYF(bV bSTOP " bit flips : " cRST "%-36s " bSTG bV bSTOP
" levels : " cRST "%-10s" bSTG bV "\n",
" levels : " cRST "%-10s" bSTG bV "\n",
tmp, u_stringify_int(IB(0), afl->max_depth));
if (unlikely(!afl->skip_deterministic)) {
@ -1205,7 +1205,7 @@ void show_stats_normal(afl_state_t *afl) {
}
SAYF(bV bSTOP " byte flips : " cRST "%-36s " bSTG bV bSTOP
" pending : " cRST "%-10s" bSTG bV "\n",
" pending : " cRST "%-10s" bSTG bV "\n",
tmp, u_stringify_int(IB(0), afl->pending_not_fuzzed));
if (unlikely(!afl->skip_deterministic)) {
@ -1221,7 +1221,7 @@ void show_stats_normal(afl_state_t *afl) {
}
SAYF(bV bSTOP " arithmetics : " cRST "%-36s " bSTG bV bSTOP
" pend fav : " cRST "%-10s" bSTG bV "\n",
" pend fav : " cRST "%-10s" bSTG bV "\n",
tmp, u_stringify_int(IB(0), afl->pending_favored));
if (unlikely(!afl->skip_deterministic)) {
@ -1237,7 +1237,7 @@ void show_stats_normal(afl_state_t *afl) {
}
SAYF(bV bSTOP " known ints : " cRST "%-36s " bSTG bV bSTOP
" own finds : " cRST "%-10s" bSTG bV "\n",
" own finds : " cRST "%-10s" bSTG bV "\n",
tmp, u_stringify_int(IB(0), afl->queued_discovered));
if (unlikely(!afl->skip_deterministic)) {
@ -1263,7 +1263,7 @@ void show_stats_normal(afl_state_t *afl) {
}
SAYF(bV bSTOP " dictionary : " cRST "%-36s " bSTG bV bSTOP
" imported : " cRST "%-10s" bSTG bV "\n",
" imported : " cRST "%-10s" bSTG bV "\n",
tmp,
afl->sync_id ? u_stringify_int(IB(0), afl->queued_imported)
: (u8 *)"n/a");
@ -1451,8 +1451,8 @@ void show_stats_normal(afl_state_t *afl) {
/* Last line */
SAYF(SET_G1 "\n" bSTG bLB bH cCYA bSTOP " strategy:" cPIN
" %s " bSTG bH10 cCYA bSTOP " state:" cPIN
SAYF(SET_G1 "\n" bSTG bLB bH cCYA bSTOP " strategy:" cPIN
" %s " bSTG bH10 cCYA bSTOP " state:" cPIN
" %s " bSTG bH2 bRB bSTOP cRST RESET_G1,
afl->fuzz_mode == 0 ? "explore" : "exploit", get_fuzzing_state(afl));
@ -1821,8 +1821,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
u_stringify_time_diff(time_tmp, afl->prev_run_time + cur_ms, afl->start_time);
SAYF(bV bSTOP
" open time : " cRST "%-37s " bSTG bV bSTOP
SAYF(bV bSTOP
" open time : " cRST "%-37s " bSTG bV bSTOP
" seasons done : %s%-5s " bSTG bV "\n",
time_tmp, tmp, u_stringify_int(IB(0), afl->queue_cycle - 1));
@ -1865,7 +1865,7 @@ void show_stats_pizza(afl_state_t *afl) {
(afl->saved_crashes >= KEEP_UNIQUE_CRASH) ? "+" : "");
u_stringify_time_diff(time_tmp, cur_ms, afl->last_crash_time);
SAYF(bV bSTOP
SAYF(bV bSTOP
" last ordered pizza : " cRST "%-33s " bSTG bV bSTOP
" at table : %s%-6s " bSTG bV "\n",
time_tmp, crash_color, tmp);
@ -1874,15 +1874,15 @@ void show_stats_pizza(afl_state_t *afl) {
(afl->saved_hangs >= KEEP_UNIQUE_HANG) ? "+" : "");
u_stringify_time_diff(time_tmp, cur_ms, afl->last_hang_time);
SAYF(bV bSTOP
SAYF(bV bSTOP
" last conversation with customers : " cRST "%-33s " bSTG bV bSTOP
" number of Peroni : " cRST "%-6s " bSTG bV
"\n",
time_tmp, tmp);
SAYF(bVR bH bSTOP cCYA
SAYF(bVR bH bSTOP cCYA
" Baking progress " bSTG bH30 bH20 bH5 bH bX bH bSTOP cCYA
" Pizzeria busyness" bSTG bH30 bH5 bH bH bVL "\n");
" Pizzeria busyness" bSTG bH30 bH5 bH bH bVL "\n");
/* This gets funny because we want to print several variable-length variables
together, but then cram them into a fixed-width field - so we need to
@ -1918,8 +1918,8 @@ void show_stats_pizza(afl_state_t *afl) {
SAYF(bSTOP " count coverage : " cRST "%-19s " bSTG bV "\n",
tmp);
SAYF(bVR bH bSTOP cCYA
" Pizzas almost ready " bSTG bH30 bH20 bH2 bH bX bH bSTOP cCYA
SAYF(bVR bH bSTOP cCYA
" Pizzas almost ready " bSTG bH30 bH20 bH2 bH bX bH bSTOP cCYA
" Types of pizzas cooking " bSTG bH10 bH5 bH2 bH10 bH2 bH bVL "\n");
sprintf(tmp, "%s (%0.02f%%)", u_stringify_int(IB(0), afl->queued_favored),
@ -1928,7 +1928,7 @@ void show_stats_pizza(afl_state_t *afl) {
/* Yeah... it's still going on... halp? */
SAYF(bV bSTOP " now preparing : " cRST
"%-22s " bSTG bV bSTOP
"%-22s " bSTG bV bSTOP
" favourite topping : " cRST "%-20s" bSTG bV
"\n",
afl->stage_name, tmp);
@ -1961,14 +1961,14 @@ void show_stats_pizza(afl_state_t *afl) {
if (afl->crash_mode) {
SAYF(bV bSTOP " total pizzas : " cRST
"%-22s " bSTG bV bSTOP
"%-22s " bSTG bV bSTOP
" pizzas with pineapple : %s%-20s" bSTG bV "\n",
u_stringify_int(IB(0), afl->fsrv.total_execs), crash_color, tmp);
} else {
SAYF(bV bSTOP " total pizzas : " cRST
"%-22s " bSTG bV bSTOP
"%-22s " bSTG bV bSTOP
" total pizzas with pineapple : %s%-20s" bSTG bV "\n",
u_stringify_int(IB(0), afl->fsrv.total_execs), crash_color, tmp);
@ -2005,7 +2005,7 @@ void show_stats_pizza(afl_state_t *afl) {
/* Aaaalmost there... hold on! */
SAYF(bVR bH cCYA bSTOP " Promotional campaign on TikTok yields " bSTG bH30 bH2
bH bH2 bX bH bSTOP cCYA
bH bH2 bX bH bSTOP cCYA
" Customer type " bSTG bH5 bH2 bH30 bH2 bH bVL "\n");
if (unlikely(afl->custom_only)) {
@ -2028,8 +2028,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
SAYF(bV bSTOP
" pizzas for celiac : " cRST "%-36s " bSTG bV bSTOP
SAYF(bV bSTOP
" pizzas for celiac : " cRST "%-36s " bSTG bV bSTOP
" levels : " cRST "%-10s " bSTG bV
"\n",
tmp, u_stringify_int(IB(0), afl->max_depth));
@ -2046,8 +2046,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
SAYF(bV bSTOP
" pizzas for kids : " cRST "%-36s " bSTG bV bSTOP
SAYF(bV bSTOP
" pizzas for kids : " cRST "%-36s " bSTG bV bSTOP
" pizzas to make : " cRST "%-10s " bSTG bV
"\n",
tmp, u_stringify_int(IB(0), afl->pending_not_fuzzed));
@ -2064,8 +2064,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
SAYF(bV bSTOP
" pizza bianca : " cRST "%-36s " bSTG bV bSTOP
SAYF(bV bSTOP
" pizza bianca : " cRST "%-36s " bSTG bV bSTOP
" nice table : " cRST "%-10s " bSTG bV
"\n",
tmp, u_stringify_int(IB(0), afl->pending_favored));
@ -2082,8 +2082,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
SAYF(bV bSTOP
" recurring customers : " cRST "%-36s " bSTG bV bSTOP
SAYF(bV bSTOP
" recurring customers : " cRST "%-36s " bSTG bV bSTOP
" new customers : " cRST "%-10s " bSTG bV
"\n",
tmp, u_stringify_int(IB(0), afl->queued_discovered));
@ -2110,8 +2110,8 @@ void show_stats_pizza(afl_state_t *afl) {
}
SAYF(bV bSTOP
" dictionary : " cRST "%-36s " bSTG bV bSTOP
SAYF(bV bSTOP
" dictionary : " cRST "%-36s " bSTG bV bSTOP
" patrons from old resturant : " cRST "%-10s " bSTG bV
"\n",
tmp,

3
src/afl-fuzz.c
View File

@ -2237,6 +2237,7 @@ int main(int argc, char **argv_orig, char **envp) {
snprintf(fn, PATH_MAX, "%s/fastresume.bin", afl->out_dir);
#ifdef HAVE_ZLIB
if ((fr_fd = ZLIBOPEN(fn, "rb")) != NULL) {
#else
if ((fr_fd = open(fn, O_RDONLY)) >= 0) {
@ -3340,9 +3341,11 @@ stop_fuzzing:
ACTF("Writing %s ...", fr);
#ifdef HAVE_ZLIB
if ((fr_fd = ZLIBOPEN(fr, "wb9")) != NULL) {
#else
if ((fr_fd = open(fr, O_WRONLY | O_TRUNC | O_CREAT, DEFAULT_PERMISSION)) >=
0) {
#endif
u8 ver_string[8];

2
utils/aflpp_driver/aflpp_qemu_driver_hook.c
View File

@ -4,7 +4,7 @@
#include <string.h>
#define g2h(x) ((void *)((unsigned long)(x) + guest_base))
#define h2g(x) ((uint64_t)(x)-guest_base)
#define h2g(x) ((uint64_t)(x) - guest_base)
void afl_persistent_hook(struct x86_64_regs *regs, uint64_t guest_base,
uint8_t *input_buf, uint32_t input_buf_len) {

6
utils/libtokencap/libtokencap.so.c
View File

@ -167,7 +167,7 @@ static void __tokencap_load_mappings(void) {
#elif defined __FreeBSD__ || defined __OpenBSD__ || defined __NetBSD__
#if defined __FreeBSD__
#if defined __FreeBSD__
int mib[] = {CTL_KERN, KERN_PROC, KERN_PROC_VMMAP, __tokencap_pid};
#elif defined __OpenBSD__
int mib[] = {CTL_KERN, KERN_PROC_VMMAP, __tokencap_pid};
@ -183,7 +183,7 @@ static void __tokencap_load_mappings(void) {
#if defined __FreeBSD__ || defined __NetBSD__
len = len * 4 / 3;
#elif defined __OpenBSD__
#elif defined __OpenBSD__
len -= len % sizeof(struct kinfo_vmentry);
#endif
@ -208,7 +208,7 @@ static void __tokencap_load_mappings(void) {
#if defined __FreeBSD__ || defined __NetBSD__
#if defined __FreeBSD__
#if defined __FreeBSD__
size_t size = region->kve_structsize;
if (size == 0) break;

2
utils/persistent_mode/persistent_demo.c
View File

@ -34,7 +34,7 @@
/* To ensure checks are not optimized out it is recommended to disable
code optimization for the fuzzer harness main() */
#pragma clang optimize off
#pragma GCC optimize("O0")
#pragma GCC optimize("O0")
int main(int argc, char **argv) {

2
utils/persistent_mode/persistent_demo_new.c
View File

@ -51,7 +51,7 @@ __AFL_FUZZ_INIT();
/* To ensure checks are not optimized out it is recommended to disable
code optimization for the fuzzer harness main() */
#pragma clang optimize off
#pragma GCC optimize("O0")
#pragma GCC optimize("O0")
int main(int argc, char **argv) {

2
utils/persistent_mode/test-instr.c
View File

@ -24,7 +24,7 @@ __AFL_FUZZ_INIT();
/* To ensure checks are not optimized out it is recommended to disable
code optimization for the fuzzer harness main() */
#pragma clang optimize off
#pragma GCC optimize("O0")
#pragma GCC optimize("O0")
int main(int argc, char **argv) {

2
utils/qemu_persistent_hook/read_into_rdi.c
View File

@ -4,7 +4,7 @@
#include <string.h>
#define g2h(x) ((void *)((unsigned long)(x) + guest_base))
#define h2g(x) ((uint64_t)(x)-guest_base)
#define h2g(x) ((uint64_t)(x) - guest_base)
void afl_persistent_hook(struct x86_64_regs *regs, uint64_t guest_base,
uint8_t *input_buf, uint32_t input_buf_len) {

2
utils/replay_record/persistent_demo_replay.c
View File

@ -46,7 +46,7 @@ __AFL_FUZZ_INIT();
/* To ensure checks are not optimized out it is recommended to disable
code optimization for the fuzzer harness main() */
#pragma clang optimize off
#pragma GCC optimize("O0")
#pragma GCC optimize("O0")
int main(int argc, char **argv) {