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display.c
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display.c
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/*
*
* honggfuzz - display statistics
* -----------------------------------------
*
* Author: Robert Swiecki <[email protected]>
*
* Copyright 2010-2018 by 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.
*
*/
#include "display.h"
#include <errno.h>
#include <inttypes.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#if defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) || defined(__DragonFly__)
#include <sys/resource.h>
#include <sys/sysctl.h>
#if defined(__OpenBSD__)
#include <sys/sched.h>
#endif
#endif
#if defined(__sun)
#include <kstat.h>
#endif
#if defined(__APPLE__)
#include <mach/mach.h>
#include <mach/task_info.h>
#endif
#include "libhfcommon/common.h"
#include "libhfcommon/log.h"
#include "libhfcommon/util.h"
#define ESC_CLEAR_ALL "\033[2J"
#define ESC_CLEAR_LINE "\033[2K"
#define ESC_CLEAR_ABOVE "\033[1J"
#define ESC_TERM_RESET "\033c"
#define ESC_NAV(x, y) "\033[" #x ";" #y "H"
#define ESC_BOLD "\033[1m"
#define ESC_RED "\033[31m"
#define ESC_RESET "\033[0m"
#define ESC_SCROLL_REGION(x, y) "\033[" #x ";" #y "r"
#define ESC_SCROLL_DISABLE "\033[?7h"
#define ESC_SCROLL_RESET "\033[r"
#define ESC_NAV_DOWN(x) "\033[" #x "B"
#define ESC_NAV_HORIZ(x) "\033[" #x "G"
#define ESC_RESET_SETTINGS "\033[!p"
static char displayBuf[1024 * 1024];
static void display_start(void) {
memset(displayBuf, '\0', sizeof(displayBuf));
}
static void display_stop(void) {
TEMP_FAILURE_RETRY(write(logFd(), displayBuf, strlen(displayBuf)));
}
__attribute__((format(printf, 1, 2))) static void display_put(const char* fmt, ...) {
va_list args;
va_start(args, fmt);
util_vssnprintf(displayBuf, sizeof(displayBuf), fmt, args);
va_end(args);
}
static void display_imm(const char* str) {
TEMP_FAILURE_RETRY(write(logFd(), str, strlen(str)));
}
static void display_printKMG(uint64_t val) {
if (val >= 1000000000000ULL) {
display_put(" [%.02LfT]", (long double)val / 1000000000.0L);
} else if (val >= 1000000000UL) {
display_put(" [%.02LfG]", (long double)val / 1000000000.0L);
} else if (val >= 1000000UL) {
display_put(" [%.02LfM]", (long double)val / 1000000.0L);
} else if (val >= 1000UL) {
display_put(" [%.02Lfk]", (long double)val / 1000.0L);
}
}
static unsigned getCpuUse(int numCpus) {
static uint64_t prevUserT = 0UL;
static uint64_t prevNiceT = 0UL;
static uint64_t prevSystemT = 0UL;
static uint64_t prevIdleT = 0UL;
uint64_t userT = 0UL;
uint64_t niceT = 0UL;
uint64_t systemT = 0UL;
uint64_t idleT = 0UL;
#if defined(__linux__) || defined(__CYGWIN__)
FILE* f = fopen("/proc/stat", "re");
if (UNLIKELY(f == NULL)) {
return 0;
}
defer {
fclose(f);
};
if (fscanf(f, "cpu %" PRIu64 "%" PRIu64 "%" PRIu64 "%" PRIu64, &userT, &niceT, &systemT,
&idleT) != 4) {
LOG_W("fscanf('/proc/stat') != 4");
return 0;
}
#elif defined(__FreeBSD__) || defined(__DragonFly__)
long ticks = (1000 / sysconf(_SC_CLK_TCK));
long off = 0;
size_t cpuDataLen = sizeof(long) * CPUSTATES * numCpus;
long* cpuData = malloc(cpuDataLen);
if (UNLIKELY(cpuData == NULL)) {
return 0;
}
if (sysctlbyname("kern.cp_times", cpuData, &cpuDataLen, NULL, 0) != 0) {
LOG_W("sysctlbyname('kern.cp_times') != 0");
free(cpuData);
return 0;
}
userT = niceT = systemT = idleT = 0;
for (int i = 0; i < numCpus; i++) {
userT += cpuData[CP_USER + off] * ticks;
niceT += cpuData[CP_NICE + off] * ticks;
systemT += cpuData[CP_SYS + off] * ticks;
idleT += cpuData[CP_IDLE + off] * ticks;
off += CPUSTATES;
}
free(cpuData);
#elif defined(__NetBSD__)
long ticks = (1000 / sysconf(_SC_CLK_TCK));
userT = niceT = systemT = idleT = 0;
for (int i = 0; i < numCpus; i++) {
uint64_t cpuData[CPUSTATES];
size_t cpuDataLen = sizeof(cpuData);
char mib[24] = {0};
snprintf(mib, sizeof(mib), "kern.cp_time.%d", i);
if (sysctlbyname(mib, &cpuData, &cpuDataLen, NULL, 0) != 0) {
LOG_W("sysctlbyname('kern.cp_time') != 0");
return 0;
}
userT += cpuData[CP_USER] * ticks;
niceT += cpuData[CP_NICE] * ticks;
systemT += cpuData[CP_SYS] * ticks;
idleT += cpuData[CP_IDLE] * ticks;
}
#elif defined(__OpenBSD__)
long ticks = (1000 / sysconf(_SC_CLK_TCK));
userT = niceT = systemT = idleT = 0;
for (int i = 0; i < numCpus; i++) {
uint64_t cpuData[CPUSTATES];
size_t cpuDataLen = sizeof(cpuData);
int mib[3] = {CTL_KERN, KERN_CPTIME2, i};
if (sysctl(mib, 3, &cpuData, &cpuDataLen, NULL, 0) != 0) {
LOG_W("sysctl('KERN_CPTIME2') != 0");
return 0;
}
userT += cpuData[CP_USER] * ticks;
niceT += cpuData[CP_NICE] * ticks;
systemT += cpuData[CP_SYS] * ticks;
idleT += cpuData[CP_IDLE] * ticks;
}
#elif defined(__sun)
kstat_ctl_t* kctl = kstat_open();
for (int i = 0; i < numCpus; i++) {
kstat_named_t* data;
kstat_t* cpu = kstat_lookup(kctl, "cpu", i, NULL);
if (!cpu) {
LOG_W("kstat_lookup('cpu_info') != 0");
continue;
}
kstat_read(kctl, cpu, NULL);
data = kstat_data_lookup(cpu, "cpu_ticks_user");
userT += data->value.ui64;
data = kstat_data_lookup(cpu, "cpu_ticks_kernel");
systemT += data->value.ui64;
data = kstat_data_lookup(cpu, "cpu_ticks_idle");
idleT += data->value.ui64;
}
kstat_close(kctl);
#else
host_cpu_load_info_data_t avg;
mach_msg_type_number_t num = HOST_CPU_LOAD_INFO_COUNT;
userT = niceT = systemT = idleT = 0;
if (host_statistics(mach_host_self(), HOST_CPU_LOAD_INFO, (host_info_t)&avg, &num) ==
KERN_SUCCESS) {
userT = avg.cpu_ticks[CPU_STATE_USER];
niceT = avg.cpu_ticks[CPU_STATE_NICE];
systemT = avg.cpu_ticks[CPU_STATE_SYSTEM];
idleT = avg.cpu_ticks[CPU_STATE_IDLE];
}
#endif
uint64_t userCycles = (userT - prevUserT);
uint64_t niceCycles = (niceT - prevNiceT);
uint64_t systemCycles = (systemT - prevSystemT);
uint64_t idleCycles = (idleT - prevIdleT);
prevUserT = userT;
prevNiceT = niceT;
prevSystemT = systemT;
prevIdleT = idleT;
uint64_t allCycles = userCycles + niceCycles + systemCycles + idleCycles;
if (UNLIKELY(allCycles == 0)) {
return 0;
}
return ((userCycles + niceCycles + systemCycles) * numCpus * 100) / (allCycles);
}
static void getDuration(time_t elapsed_second, char* buf, size_t bufSz) {
if (elapsed_second < 0) {
snprintf(buf, bufSz, "----");
return;
}
unsigned int day, hour, min, second;
day = elapsed_second / 24 / 3600;
elapsed_second = elapsed_second - day * 24 * 3600;
hour = elapsed_second / 3600;
min = (elapsed_second - 3600 * hour) / 60;
second = elapsed_second - hour * 3600 - min * 60;
snprintf(buf, bufSz, "%u days %02u hrs %02u mins %02u secs", day, hour, min, second);
}
void display_createTargetStr(honggfuzz_t* hfuzz) {
if (!hfuzz->exe.cmdline[0]) {
LOG_W("Your fuzzed binary is not specified");
snprintf(hfuzz->display.cmdline_txt, sizeof(hfuzz->display.cmdline_txt), "[EMPTY]");
return;
}
static char tmpstr[1024 * 128] = {0};
snprintf(tmpstr, sizeof(tmpstr), "%s", hfuzz->exe.cmdline[0]);
for (int i = 1; i < hfuzz->exe.argc; i++) {
util_ssnprintf(tmpstr, sizeof(tmpstr), " %s", hfuzz->exe.cmdline[i]);
}
size_t len = strlen(tmpstr);
if (len <= (sizeof(hfuzz->display.cmdline_txt) - 1)) {
snprintf(hfuzz->display.cmdline_txt, sizeof(hfuzz->display.cmdline_txt), "%s", tmpstr);
return;
}
snprintf(hfuzz->display.cmdline_txt, sizeof(hfuzz->display.cmdline_txt), "%.32s.....%s", tmpstr,
&tmpstr[len - 27]);
}
void display_display(honggfuzz_t* hfuzz) {
if (!logIsTTY()) {
return;
}
const time_t curr_sec = time(NULL);
const time_t elapsed_sec = curr_sec - hfuzz->timing.timeStart;
const int64_t curr_time_usecs = util_timeNowUSecs();
const int64_t elapsed_usecs = curr_time_usecs - hfuzz->display.lastDisplayUSecs;
hfuzz->display.lastDisplayUSecs = curr_time_usecs;
char lastCovStr[64];
getDuration(curr_sec - ATOMIC_GET(hfuzz->timing.lastCovUpdate), lastCovStr, sizeof(lastCovStr));
char timeStr[64];
if (ATOMIC_GET(hfuzz->timing.runEndTime)) {
getDuration(ATOMIC_GET(hfuzz->timing.runEndTime) - curr_sec, timeStr, sizeof(timeStr));
} else {
getDuration(elapsed_sec, timeStr, sizeof(timeStr));
}
size_t curr_exec_cnt = ATOMIC_GET(hfuzz->cnts.mutationsCnt);
/*
* We increase the mutation counter unconditionally in threads, but if it's
* above hfuzz->mutationsMax we don't really execute the fuzzing loop.
* Therefore at the end of fuzzing, the mutation counter might be higher
* than hfuzz->mutationsMax
*/
if (hfuzz->mutate.mutationsMax > 0 && curr_exec_cnt > hfuzz->mutate.mutationsMax) {
curr_exec_cnt = hfuzz->mutate.mutationsMax;
}
int exeProgress = 0;
if (hfuzz->mutate.mutationsMax > 0) {
exeProgress = (curr_exec_cnt * 100) / hfuzz->mutate.mutationsMax;
}
static size_t prev_exec_cnt = 0UL;
size_t exec_per_usecs =
elapsed_usecs ? ((curr_exec_cnt - prev_exec_cnt) * 1000000) / elapsed_usecs : 0;
prev_exec_cnt = curr_exec_cnt;
display_start();
display_put(ESC_NAV(13, 1) ESC_CLEAR_ABOVE ESC_NAV(1, 1));
display_put("------------------------[" ESC_BOLD "%31s " ESC_RESET "]----------------------\n",
timeStr);
display_put(" Iterations : " ESC_BOLD "%" _HF_NONMON_SEP "zu" ESC_RESET, curr_exec_cnt);
display_printKMG(curr_exec_cnt);
if (hfuzz->mutate.mutationsMax) {
display_put(" (out of: " ESC_BOLD "%" _HF_NONMON_SEP "zu" ESC_RESET " [%d%%])",
hfuzz->mutate.mutationsMax, exeProgress);
}
switch (ATOMIC_GET(hfuzz->feedback.state)) {
case _HF_STATE_STATIC:
display_put("\n Mode : " ESC_BOLD "Static" ESC_RESET "\n");
break;
case _HF_STATE_DYNAMIC_DRY_RUN: {
if (ATOMIC_GET(hfuzz->cfg.switchingToFDM)) {
display_put("\n Mode [2/3] : " ESC_BOLD
"Switching to the Feedback Driven Mode" ESC_RESET " [%zu/%zu]\n",
hfuzz->io.testedFileCnt, hfuzz->io.fileCnt);
} else {
display_put("\n Mode [1/3] : " ESC_BOLD "Feedback Driven Dry Run" ESC_RESET
" [%zu/%zu]\n",
hfuzz->io.testedFileCnt, hfuzz->io.fileCnt);
}
} break;
case _HF_STATE_DYNAMIC_MAIN:
display_put("\n Mode [3/3] : " ESC_BOLD "Feedback Driven Mode" ESC_RESET "\n");
break;
case _HF_STATE_DYNAMIC_MINIMIZE:
display_put("\n Mode [3/3] : " ESC_BOLD "Corpus Minimization" ESC_RESET "\n");
break;
default:
display_put("\n Mode : " ESC_BOLD "Unknown" ESC_RESET "\n");
break;
}
display_put(" Target : " ESC_BOLD "%s" ESC_RESET "\n", hfuzz->display.cmdline_txt);
static long num_cpu = 0;
if (num_cpu == 0) {
num_cpu = sysconf(_SC_NPROCESSORS_ONLN);
}
if (num_cpu <= 0) {
num_cpu = 1;
}
unsigned cpuUse = getCpuUse(num_cpu);
display_put(" Threads : " ESC_BOLD "%zu" ESC_RESET ", CPUs: " ESC_BOLD "%ld" ESC_RESET
", CPU%%: " ESC_BOLD "%u" ESC_RESET "%% [" ESC_BOLD "%lu" ESC_RESET "%%/CPU]\n",
hfuzz->threads.threadsMax, num_cpu, cpuUse, cpuUse / num_cpu);
size_t tot_exec_per_sec = elapsed_sec ? (curr_exec_cnt / elapsed_sec) : 0;
display_put(" Speed : " ESC_BOLD "%" _HF_NONMON_SEP "zu" ESC_RESET "/sec [avg: " ESC_BOLD
"%" _HF_NONMON_SEP "zu" ESC_RESET "]\n",
exec_per_usecs, tot_exec_per_sec);
uint64_t crashesCnt = ATOMIC_GET(hfuzz->cnts.crashesCnt);
/* colored the crash count as red when exist crash */
display_put(" Crashes : " ESC_BOLD "%s"
"%zu" ESC_RESET " [unique: %s" ESC_BOLD "%zu" ESC_RESET ", blocklist: " ESC_BOLD
"%zu" ESC_RESET ", verified: " ESC_BOLD "%zu" ESC_RESET "]\n",
crashesCnt > 0 ? ESC_RED : "", hfuzz->cnts.crashesCnt, crashesCnt > 0 ? ESC_RED : "",
ATOMIC_GET(hfuzz->cnts.uniqueCrashesCnt), ATOMIC_GET(hfuzz->cnts.blCrashesCnt),
ATOMIC_GET(hfuzz->cnts.verifiedCrashesCnt));
display_put(" Timeouts : " ESC_BOLD "%" _HF_NONMON_SEP "zu" ESC_RESET " [%lu sec]\n",
ATOMIC_GET(hfuzz->cnts.timeoutedCnt), (unsigned long)hfuzz->timing.tmOut);
/* Feedback data sources. Common headers. */
display_put(" Corpus Size : " ESC_BOLD "%" _HF_NONMON_SEP "zu" ESC_RESET ", max: " ESC_BOLD
"%" _HF_NONMON_SEP "zu" ESC_RESET " bytes, init: " ESC_BOLD "%" _HF_NONMON_SEP
"zu" ESC_RESET " files\n",
hfuzz->io.dynfileqCnt, hfuzz->mutate.maxInputSz, ATOMIC_GET(hfuzz->io.fileCnt));
display_put(" Cov Update : " ESC_BOLD "%s" ESC_RESET " ago\n" ESC_RESET, lastCovStr);
display_put(" Coverage :");
/* HW perf specific counters */
if (hfuzz->feedback.dynFileMethod == 0) {
display_put(" [none]");
}
if (hfuzz->feedback.dynFileMethod & _HF_DYNFILE_INSTR_COUNT) {
display_put(" hwi: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET,
ATOMIC_GET(hfuzz->feedback.hwCnts.cpuInstrCnt));
}
if (hfuzz->feedback.dynFileMethod & _HF_DYNFILE_BRANCH_COUNT) {
display_put(" hwb: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET,
ATOMIC_GET(hfuzz->feedback.hwCnts.cpuBranchCnt));
}
if (hfuzz->feedback.dynFileMethod & _HF_DYNFILE_BTS_EDGE) {
display_put(" bts: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET,
ATOMIC_GET(hfuzz->feedback.hwCnts.bbCnt));
}
if (hfuzz->feedback.dynFileMethod & _HF_DYNFILE_IPT_BLOCK) {
display_put(" ipt: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET,
ATOMIC_GET(hfuzz->feedback.hwCnts.bbCnt));
}
if (hfuzz->feedback.dynFileMethod & _HF_DYNFILE_SOFT) {
uint64_t softCntPc = ATOMIC_GET(hfuzz->feedback.hwCnts.softCntPc);
uint64_t softCntEdge = ATOMIC_GET(hfuzz->feedback.hwCnts.softCntEdge);
uint64_t softCntCmp = ATOMIC_GET(hfuzz->feedback.hwCnts.softCntCmp);
uint64_t guardNb = ATOMIC_GET(hfuzz->feedback.covFeedbackMap->guardNb);
display_put(" edge: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET "/"
"%" _HF_NONMON_SEP PRIu64 " [%" PRId64 "%%]",
softCntEdge, guardNb, guardNb ? ((softCntEdge * 100) / guardNb) : 0);
display_put(" pc: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET, softCntPc);
display_put(" cmp: " ESC_BOLD "%" _HF_NONMON_SEP PRIu64 ESC_RESET, softCntCmp);
}
display_put("\n---------------------------------- [ " ESC_BOLD "LOGS" ESC_RESET
" ] ------------------/ " ESC_BOLD "%s %s " ESC_RESET "/-",
PROG_NAME, PROG_VERSION);
display_put(ESC_SCROLL_REGION(13, ) ESC_NAV_HORIZ(1) ESC_NAV_DOWN(500));
MX_SCOPED_LOCK(logMutexGet());
display_stop();
}
static void display_fini(void) {
display_imm(ESC_SCROLL_RESET ESC_NAV_DOWN(500));
}
void display_clear(void) {
display_imm(ESC_CLEAR_ALL);
display_imm(ESC_NAV_DOWN(500));
}
void display_init(void) {
atexit(display_fini);
display_clear();
}