/* american fuzzy lop++ - globals declarations ------------------------------------------- Originally written by Michal Zalewski Now maintained by Marc Heuse , Heiko Eißfeldt and Andrea Fioraldi Copyright 2016, 2017 Google Inc. All rights reserved. Copyright 2019-2022 AFLplusplus Project. 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: https://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. */ #include "afl-fuzz.h" #include "envs.h" s8 interesting_8[] = {INTERESTING_8}; s16 interesting_16[] = {INTERESTING_8, INTERESTING_16}; s32 interesting_32[] = {INTERESTING_8, INTERESTING_16, INTERESTING_32}; char *power_names[POWER_SCHEDULES_NUM] = {"explore", "mmopt", "exploit", "fast", "coe", "lin", "quad", "rare", "seek"}; /* Initialize MOpt "globals" for this afl state */ static void init_mopt_globals(afl_state_t *afl) { MOpt_globals_t *core = &afl->mopt_globals_core; core->finds = afl->core_operator_finds_puppet; core->finds_v2 = afl->core_operator_finds_puppet_v2; core->cycles = afl->core_operator_cycles_puppet; core->cycles_v2 = afl->core_operator_cycles_puppet_v2; core->cycles_v3 = afl->core_operator_cycles_puppet_v3; core->is_pilot_mode = 0; core->pTime = &afl->tmp_core_time; core->period = period_core; core->havoc_stagename = "MOpt-core-havoc"; core->splice_stageformat = "MOpt-core-splice %u"; core->havoc_stagenameshort = "MOpt_core_havoc"; core->splice_stagenameshort = "MOpt_core_splice"; MOpt_globals_t *pilot = &afl->mopt_globals_pilot; pilot->finds = afl->stage_finds_puppet[0]; pilot->finds_v2 = afl->stage_finds_puppet_v2[0]; pilot->cycles = afl->stage_cycles_puppet[0]; pilot->cycles_v2 = afl->stage_cycles_puppet_v2[0]; pilot->cycles_v3 = afl->stage_cycles_puppet_v3[0]; pilot->is_pilot_mode = 1; pilot->pTime = &afl->tmp_pilot_time; pilot->period = period_pilot; pilot->havoc_stagename = "MOpt-havoc"; pilot->splice_stageformat = "MOpt-splice %u"; pilot->havoc_stagenameshort = "MOpt_havoc"; pilot->splice_stagenameshort = "MOpt_splice"; } /* A global pointer to all instances is needed (for now) for signals to arrive */ static list_t afl_states = {.element_prealloc_count = 0}; /* Initializes an afl_state_t. */ void afl_state_init(afl_state_t *afl, uint32_t map_size) { /* thanks to this memset, growing vars like out_buf and out_size are NULL/0 by default. */ memset(afl, 0, sizeof(afl_state_t)); afl->shm.map_size = map_size ? map_size : MAP_SIZE; afl->w_init = 0.9; afl->w_end = 0.3; afl->g_max = 5000; afl->period_pilot_tmp = 5000.0; afl->schedule = FAST; /* Power schedule (default: FAST) */ afl->havoc_max_mult = HAVOC_MAX_MULT; afl->clear_screen = 1; /* Window resized? */ afl->havoc_div = 1; /* Cycle count divisor for havoc */ afl->stage_name = "init"; /* Name of the current fuzz stage */ afl->splicing_with = -1; /* Splicing with which test case? */ afl->cpu_to_bind = -1; afl->havoc_stack_pow2 = HAVOC_STACK_POW2; afl->hang_tmout = EXEC_TIMEOUT; afl->exit_on_time = 0; afl->stats_update_freq = 1; afl->stats_avg_exec = 0; afl->skip_deterministic = 1; afl->cmplog_lvl = 2; afl->min_length = 1; afl->max_length = MAX_FILE; #ifndef NO_SPLICING afl->use_splicing = 1; #endif afl->q_testcase_max_cache_size = TESTCASE_CACHE_SIZE * 1048576UL; afl->q_testcase_max_cache_entries = 64 * 1024; #ifdef HAVE_AFFINITY afl->cpu_aff = -1; /* Selected CPU core */ #endif /* HAVE_AFFINITY */ afl->virgin_bits = ck_alloc(map_size); afl->virgin_tmout = ck_alloc(map_size); afl->virgin_crash = ck_alloc(map_size); afl->var_bytes = ck_alloc(map_size); afl->top_rated = ck_alloc(map_size * sizeof(void *)); afl->clean_trace = ck_alloc(map_size); afl->clean_trace_custom = ck_alloc(map_size); afl->first_trace = ck_alloc(map_size); afl->map_tmp_buf = ck_alloc(map_size); afl->fsrv.use_stdin = 1; afl->fsrv.map_size = map_size; // afl_state_t is not available in forkserver.c afl->fsrv.afl_ptr = (void *)afl; afl->fsrv.add_extra_func = (void (*)(void *, u8 *, u32)) & add_extra; afl->fsrv.exec_tmout = EXEC_TIMEOUT; afl->fsrv.mem_limit = MEM_LIMIT; afl->fsrv.dev_urandom_fd = -1; afl->fsrv.dev_null_fd = -1; afl->fsrv.child_pid = -1; afl->fsrv.out_dir_fd = -1; init_mopt_globals(afl); list_append(&afl_states, afl); } /*This sets up the environment variables for afl-fuzz into the afl_state * struct*/ void read_afl_environment(afl_state_t *afl, char **envp) { int index = 0, issue_detected = 0; char *env; while ((env = envp[index++]) != NULL) { if (strncmp(env, "ALF_", 4) == 0) { WARNF("Potentially mistyped AFL environment variable: %s", env); issue_detected = 1; } else if (strncmp(env, "USE_", 4) == 0) { WARNF( "Potentially mistyped AFL environment variable: %s, did you mean " "AFL_%s?", env, env); issue_detected = 1; } else if (strncmp(env, "AFL_", 4) == 0) { int i = 0, match = 0; while (match == 0 && afl_environment_variables[i] != NULL) { size_t afl_environment_variable_len = strlen(afl_environment_variables[i]); if (strncmp(env, afl_environment_variables[i], afl_environment_variable_len) == 0 && env[afl_environment_variable_len] == '=') { match = 1; if (!strncmp(env, "AFL_SKIP_CPUFREQ", afl_environment_variable_len)) { afl->afl_env.afl_skip_cpufreq = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_EXIT_WHEN_DONE", afl_environment_variable_len)) { afl->afl_env.afl_exit_when_done = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_EXIT_ON_TIME", afl_environment_variable_len)) { afl->afl_env.afl_exit_on_time = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_NO_AFFINITY", afl_environment_variable_len)) { afl->afl_env.afl_no_affinity = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_TRY_AFFINITY", afl_environment_variable_len)) { afl->afl_env.afl_try_affinity = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_SKIP_CRASHES", afl_environment_variable_len)) { // we should mark this obsolete in a few versions } else if (!strncmp(env, "AFL_HANG_TMOUT", afl_environment_variable_len)) { afl->afl_env.afl_hang_tmout = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_KEEP_TIMEOUTS", afl_environment_variable_len)) { afl->afl_env.afl_keep_timeouts = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_SKIP_BIN_CHECK", afl_environment_variable_len)) { afl->afl_env.afl_skip_bin_check = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_DUMB_FORKSRV", afl_environment_variable_len)) { afl->afl_env.afl_dumb_forksrv = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_IMPORT_FIRST", afl_environment_variable_len)) { afl->afl_env.afl_import_first = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_CUSTOM_MUTATOR_ONLY", afl_environment_variable_len)) { afl->afl_env.afl_custom_mutator_only = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_CMPLOG_ONLY_NEW", afl_environment_variable_len)) { afl->afl_env.afl_cmplog_only_new = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_NO_UI", afl_environment_variable_len)) { afl->afl_env.afl_no_ui = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_FORCE_UI", afl_environment_variable_len)) { afl->afl_env.afl_force_ui = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_IGNORE_PROBLEMS", afl_environment_variable_len)) { afl->afl_env.afl_ignore_problems = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_I_DONT_CARE_ABOUT_MISSING_CRASHES", afl_environment_variable_len)) { afl->afl_env.afl_i_dont_care_about_missing_crashes = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_BENCH_JUST_ONE", afl_environment_variable_len)) { afl->afl_env.afl_bench_just_one = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_BENCH_UNTIL_CRASH", afl_environment_variable_len)) { afl->afl_env.afl_bench_until_crash = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_DEBUG_CHILD", afl_environment_variable_len) || !strncmp(env, "AFL_DEBUG_CHILD_OUTPUT", afl_environment_variable_len)) { afl->afl_env.afl_debug_child = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_AUTORESUME", afl_environment_variable_len)) { afl->afl_env.afl_autoresume = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_PERSISTENT_RECORD", afl_environment_variable_len)) { afl->afl_env.afl_persistent_record = get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_CYCLE_SCHEDULES", afl_environment_variable_len)) { afl->cycle_schedules = afl->afl_env.afl_cycle_schedules = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_EXIT_ON_SEED_ISSUES", afl_environment_variable_len)) { afl->afl_env.afl_exit_on_seed_issues = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_EXPAND_HAVOC_NOW", afl_environment_variable_len)) { afl->expand_havoc = afl->afl_env.afl_expand_havoc = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_CAL_FAST", afl_environment_variable_len)) { afl->afl_env.afl_cal_fast = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_FAST_CAL", afl_environment_variable_len)) { afl->afl_env.afl_cal_fast = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_STATSD", afl_environment_variable_len)) { afl->afl_env.afl_statsd = get_afl_env(afl_environment_variables[i]) ? 1 : 0; } else if (!strncmp(env, "AFL_TMPDIR", afl_environment_variable_len)) { afl->afl_env.afl_tmpdir = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_CUSTOM_MUTATOR_LIBRARY", afl_environment_variable_len)) { afl->afl_env.afl_custom_mutator_library = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_PYTHON_MODULE", afl_environment_variable_len)) { afl->afl_env.afl_python_module = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_PATH", afl_environment_variable_len)) { afl->afl_env.afl_path = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_PRELOAD", afl_environment_variable_len)) { afl->afl_env.afl_preload = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_MAX_DET_EXTRAS", afl_environment_variable_len)) { afl->afl_env.afl_max_det_extras = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_FORKSRV_INIT_TMOUT", afl_environment_variable_len)) { afl->afl_env.afl_forksrv_init_tmout = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_TESTCACHE_SIZE", afl_environment_variable_len)) { afl->afl_env.afl_testcache_size = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_TESTCACHE_ENTRIES", afl_environment_variable_len)) { afl->afl_env.afl_testcache_entries = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_STATSD_HOST", afl_environment_variable_len)) { afl->afl_env.afl_statsd_host = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_STATSD_PORT", afl_environment_variable_len)) { afl->afl_env.afl_statsd_port = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_STATSD_TAGS_FLAVOR", afl_environment_variable_len)) { afl->afl_env.afl_statsd_tags_flavor = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_CRASH_EXITCODE", afl_environment_variable_len)) { afl->afl_env.afl_crash_exitcode = (u8 *)get_afl_env(afl_environment_variables[i]); #if defined USE_COLOR && !defined ALWAYS_COLORED } else if (!strncmp(env, "AFL_NO_COLOR", afl_environment_variable_len)) { afl->afl_env.afl_statsd_tags_flavor = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_NO_COLOUR", afl_environment_variable_len)) { afl->afl_env.afl_statsd_tags_flavor = (u8 *)get_afl_env(afl_environment_variables[i]); #endif } else if (!strncmp(env, "AFL_KILL_SIGNAL", afl_environment_variable_len)) { afl->afl_env.afl_kill_signal = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_TARGET_ENV", afl_environment_variable_len)) { afl->afl_env.afl_target_env = (u8 *)get_afl_env(afl_environment_variables[i]); } else if (!strncmp(env, "AFL_INPUT_LEN_MIN", afl_environment_variable_len)) { afl->min_length = atoi((u8 *)get_afl_env(afl_environment_variables[i])); } else if (!strncmp(env, "AFL_INPUT_LEN_MAX", afl_environment_variable_len)) { afl->max_length = atoi((u8 *)get_afl_env(afl_environment_variables[i])); } else if (!strncmp(env, "AFL_PIZZA_MODE", afl_environment_variable_len)) { afl->afl_env.afl_pizza_mode = atoi((u8 *)get_afl_env(afl_environment_variables[i])); if (afl->afl_env.afl_pizza_mode == 0) { afl->afl_env.afl_pizza_mode = 1; } else { afl->pizza_is_served = 1; } } } else { i++; } } i = 0; while (match == 0 && afl_environment_variables[i] != NULL) { if (strncmp(env, afl_environment_variables[i], strlen(afl_environment_variables[i])) == 0 && env[strlen(afl_environment_variables[i])] == '=') { match = 1; } else { i++; } } i = 0; while (match == 0 && afl_environment_deprecated[i] != NULL) { if (strncmp(env, afl_environment_deprecated[i], strlen(afl_environment_deprecated[i])) == 0 && env[strlen(afl_environment_deprecated[i])] == '=') { match = 1; WARNF("AFL environment variable %s is deprecated!", afl_environment_deprecated[i]); issue_detected = 1; } else { i++; } } if (match == 0) { WARNF("Mistyped AFL environment variable: %s", env); issue_detected = 1; print_suggested_envs(env); } } } if (issue_detected) { sleep(2); } } /* Removes this afl_state instance and frees it. */ void afl_state_deinit(afl_state_t *afl) { if (afl->in_place_resume) { ck_free(afl->in_dir); } if (afl->sync_id) { ck_free(afl->out_dir); } if (afl->pass_stats) { ck_free(afl->pass_stats); } if (afl->orig_cmp_map) { ck_free(afl->orig_cmp_map); } afl_free(afl->queue_buf); afl_free(afl->out_buf); afl_free(afl->out_scratch_buf); afl_free(afl->eff_buf); afl_free(afl->in_buf); afl_free(afl->in_scratch_buf); afl_free(afl->ex_buf); ck_free(afl->virgin_bits); ck_free(afl->virgin_tmout); ck_free(afl->virgin_crash); ck_free(afl->var_bytes); ck_free(afl->top_rated); ck_free(afl->clean_trace); ck_free(afl->clean_trace_custom); ck_free(afl->first_trace); ck_free(afl->map_tmp_buf); list_remove(&afl_states, afl); } void afl_states_stop(void) { /* We may be inside a signal handler. Set flags first, send kill signals to child proceses later. */ LIST_FOREACH(&afl_states, afl_state_t, { el->stop_soon = 1; }); LIST_FOREACH(&afl_states, afl_state_t, { if (el->fsrv.child_pid > 0) kill(el->fsrv.child_pid, el->fsrv.kill_signal); if (el->fsrv.fsrv_pid > 0) kill(el->fsrv.fsrv_pid, el->fsrv.kill_signal); }); } void afl_states_clear_screen(void) { LIST_FOREACH(&afl_states, afl_state_t, { el->clear_screen = 1; }); } void afl_states_request_skip(void) { LIST_FOREACH(&afl_states, afl_state_t, { el->skip_requested = 1; }); }