/** * Author......: See docs/credits.txt * License.....: MIT */ #include "common.h" #include "types.h" #include "memory.h" #include "filehandling.h" #include "interface.h" #include "timer.h" #include "ext_OpenCL.h" #include "ext_ADL.h" #include "ext_nvapi.h" #include "ext_nvml.h" #include "ext_xnvctrl.h" #include "tuningdb.h" #include "thread.h" #include "opencl.h" #include "hwmon.h" #include "restore.h" #include "hashes.h" #include "rp_cpu.h" #include "terminal.h" #include "mpsp.h" #include "outfile.h" #include "potfile.h" #include "debugfile.h" #include "loopback.h" #include "status.h" #include "dictstat.h" #include "wordlist.h" #include "status.h" #include "shared.h" #include "event.h" #include "dispatch.h" static int set_kernel_power_final (hashcat_ctx_t *hashcat_ctx, const u32 kernel_power_final) { EVENT (EVENT_SET_KERNEL_POWER_FINAL); opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx; opencl_ctx->kernel_power_final = kernel_power_final; return 0; } static u32 get_power (opencl_ctx_t *opencl_ctx, hc_device_param_t *device_param) { const u64 kernel_power_final = opencl_ctx->kernel_power_final; if (kernel_power_final) { const double device_factor = (double) device_param->hardware_power / opencl_ctx->hardware_power_all; const u64 words_left_device = (u64) CEIL (kernel_power_final * device_factor); // work should be at least the hardware power available without any accelerator const u64 work = MAX (words_left_device, device_param->hardware_power); return work; } return device_param->kernel_power; } static u32 get_work (hashcat_ctx_t *hashcat_ctx, hc_device_param_t *device_param, const u64 max) { opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx; status_ctx_t *status_ctx = hashcat_ctx->status_ctx; user_options_t *user_options = hashcat_ctx->user_options; hc_thread_mutex_lock (status_ctx->mux_dispatcher); const u64 words_cur = status_ctx->words_cur; const u64 words_base = (user_options->limit == 0) ? status_ctx->words_base : MIN (user_options->limit, status_ctx->words_base); device_param->words_off = words_cur; const u64 kernel_power_all = opencl_ctx->kernel_power_all; const u64 words_left = words_base - words_cur; if (words_left < kernel_power_all) { if (opencl_ctx->kernel_power_final == 0) { set_kernel_power_final (hashcat_ctx, words_left); } } const u32 kernel_power = get_power (opencl_ctx, device_param); u32 work = MIN (words_left, kernel_power); work = MIN (work, max); status_ctx->words_cur += work; hc_thread_mutex_unlock (status_ctx->mux_dispatcher); return work; } static void calc_stdin (hashcat_ctx_t *hashcat_ctx, hc_device_param_t *device_param) { user_options_t *user_options = hashcat_ctx->user_options; user_options_extra_t *user_options_extra = hashcat_ctx->user_options_extra; hashconfig_t *hashconfig = hashcat_ctx->hashconfig; hashes_t *hashes = hashcat_ctx->hashes; straight_ctx_t *straight_ctx = hashcat_ctx->straight_ctx; status_ctx_t *status_ctx = hashcat_ctx->status_ctx; char *buf = (char *) hcmalloc (hashcat_ctx, HCBUFSIZ_LARGE); const u32 attack_kern = user_options_extra->attack_kern; while (status_ctx->run_thread_level1 == true) { hc_thread_mutex_lock (status_ctx->mux_dispatcher); if (feof (stdin) != 0) { hc_thread_mutex_unlock (status_ctx->mux_dispatcher); break; } u32 words_cur = 0; while (words_cur < device_param->kernel_power) { char *line_buf = fgets (buf, HCBUFSIZ_LARGE - 1, stdin); if (line_buf == NULL) break; u32 line_len = (u32) in_superchop (line_buf); line_len = convert_from_hex (hashcat_ctx, line_buf, line_len); // post-process rule engine if (run_rule_engine ((int) user_options_extra->rule_len_l, user_options->rule_buf_l)) { char rule_buf_out[BLOCK_SIZE] = { 0 }; int rule_len_out = -1; if (line_len < BLOCK_SIZE) { rule_len_out = _old_apply_rule (user_options->rule_buf_l, (int) user_options_extra->rule_len_l, line_buf, (int) line_len, rule_buf_out); } if (rule_len_out < 0) continue; line_buf = rule_buf_out; line_len = (u32) rule_len_out; } if (line_len > PW_MAX) { continue; } // hmm that's always the case, or? if (attack_kern == ATTACK_KERN_STRAIGHT) { if ((line_len < hashconfig->pw_min) || (line_len > hashconfig->pw_max)) { hc_thread_mutex_lock (status_ctx->mux_counter); for (u32 salt_pos = 0; salt_pos < hashes->salts_cnt; salt_pos++) { status_ctx->words_progress_rejected[salt_pos] += straight_ctx->kernel_rules_cnt; } hc_thread_mutex_unlock (status_ctx->mux_counter); continue; } } pw_add (device_param, (u8 *) line_buf, (int) line_len); words_cur++; while (status_ctx->run_thread_level1 == false) break; } hc_thread_mutex_unlock (status_ctx->mux_dispatcher); while (status_ctx->run_thread_level1 == false) break; // flush const u32 pws_cnt = device_param->pws_cnt; if (pws_cnt) { run_copy (hashcat_ctx, device_param, pws_cnt); run_cracker (hashcat_ctx, device_param, pws_cnt); device_param->pws_cnt = 0; /* still required? if (attack_kern == ATTACK_KERN_STRAIGHT) { run_kernel_bzero (opencl_ctx, device_param, device_param->d_rules_c, device_param->size_rules_c); } else if (attack_kern == ATTACK_KERN_COMBI) { run_kernel_bzero (opencl_ctx, device_param, device_param->d_combs_c, device_param->size_combs); } */ } } device_param->kernel_accel = 0; device_param->kernel_loops = 0; hcfree (buf); } void *thread_calc_stdin (void *p) { thread_param_t *thread_param = (thread_param_t *) p; hashcat_ctx_t *hashcat_ctx = thread_param->hashcat_ctx; opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx; if (opencl_ctx->enabled == false) return NULL; hc_device_param_t *device_param = opencl_ctx->devices_param + thread_param->tid; if (device_param->skipped) return NULL; calc_stdin (hashcat_ctx, device_param); return NULL; } static void calc (hashcat_ctx_t *hashcat_ctx, hc_device_param_t *device_param) { user_options_t *user_options = hashcat_ctx->user_options; user_options_extra_t *user_options_extra = hashcat_ctx->user_options_extra; hashconfig_t *hashconfig = hashcat_ctx->hashconfig; hashes_t *hashes = hashcat_ctx->hashes; straight_ctx_t *straight_ctx = hashcat_ctx->straight_ctx; combinator_ctx_t *combinator_ctx = hashcat_ctx->combinator_ctx; status_ctx_t *status_ctx = hashcat_ctx->status_ctx; const u32 attack_mode = user_options->attack_mode; const u32 attack_kern = user_options_extra->attack_kern; if (attack_mode == ATTACK_MODE_BF) { while (status_ctx->run_thread_level1 == true) { const u32 work = get_work (hashcat_ctx, device_param, -1u); if (work == 0) break; const u64 words_off = device_param->words_off; const u64 words_fin = words_off + work; const u32 pws_cnt = work; device_param->pws_cnt = pws_cnt; if (pws_cnt) { run_copy (hashcat_ctx, device_param, pws_cnt); run_cracker (hashcat_ctx, device_param, pws_cnt); device_param->pws_cnt = 0; /* still required? run_kernel_bzero (device_param, device_param->d_bfs_c, device_param->size_bfs); */ } if (status_ctx->run_thread_level1 == false) break; if (user_options->benchmark == true) break; device_param->words_done = words_fin; } } else { char *dictfile = straight_ctx->dict; if (attack_mode == ATTACK_MODE_COMBI) { if (combinator_ctx->combs_mode == COMBINATOR_MODE_BASE_LEFT) { dictfile = combinator_ctx->dict1; } else { dictfile = combinator_ctx->dict2; } } FILE *fd = fopen (dictfile, "rb"); if (fd == NULL) { event_log_error (hashcat_ctx, "ERROR: %s: %s", dictfile, strerror (errno)); return; } if (attack_mode == ATTACK_MODE_COMBI) { const u32 combs_mode = combinator_ctx->combs_mode; if (combs_mode == COMBINATOR_MODE_BASE_LEFT) { const char *dictfilec = combinator_ctx->dict2; FILE *combs_fp = fopen (dictfilec, "rb"); if (combs_fp == NULL) { event_log_error (hashcat_ctx, "ERROR: %s: %s", combinator_ctx->dict2, strerror (errno)); fclose (fd); return; } device_param->combs_fp = combs_fp; } else if (combs_mode == COMBINATOR_MODE_BASE_RIGHT) { const char *dictfilec = combinator_ctx->dict1; FILE *combs_fp = fopen (dictfilec, "rb"); if (combs_fp == NULL) { event_log_error (hashcat_ctx, "ERROR: %s: %s", dictfilec, strerror (errno)); fclose (fd); return; } device_param->combs_fp = combs_fp; } } hashcat_ctx_t *hashcat_ctx_tmp = (hashcat_ctx_t *) hcmalloc (hashcat_ctx, sizeof (hashcat_ctx_t)); /* hashcat_ctx_tmp->bitmap_ctx = hashcat_ctx->bitmap_ctx; hashcat_ctx_tmp->combinator_ctx = hashcat_ctx->combinator_ctx; hashcat_ctx_tmp->cpt_ctx = hashcat_ctx->cpt_ctx; hashcat_ctx_tmp->debugfile_ctx = hashcat_ctx->debugfile_ctx; hashcat_ctx_tmp->dictstat_ctx = hashcat_ctx->dictstat_ctx; hashcat_ctx_tmp->folder_config = hashcat_ctx->folder_config; hashcat_ctx_tmp->hashconfig = hashcat_ctx->hashconfig; hashcat_ctx_tmp->hashes = hashcat_ctx->hashes; hashcat_ctx_tmp->hwmon_ctx = hashcat_ctx->hwmon_ctx; hashcat_ctx_tmp->induct_ctx = hashcat_ctx->induct_ctx; hashcat_ctx_tmp->logfile_ctx = hashcat_ctx->logfile_ctx; hashcat_ctx_tmp->loopback_ctx = hashcat_ctx->loopback_ctx; hashcat_ctx_tmp->mask_ctx = hashcat_ctx->mask_ctx; hashcat_ctx_tmp->opencl_ctx = hashcat_ctx->opencl_ctx; hashcat_ctx_tmp->outcheck_ctx = hashcat_ctx->outcheck_ctx; hashcat_ctx_tmp->outfile_ctx = hashcat_ctx->outfile_ctx; hashcat_ctx_tmp->potfile_ctx = hashcat_ctx->potfile_ctx; hashcat_ctx_tmp->restore_ctx = hashcat_ctx->restore_ctx; hashcat_ctx_tmp->status_ctx = hashcat_ctx->status_ctx; hashcat_ctx_tmp->straight_ctx = hashcat_ctx->straight_ctx; hashcat_ctx_tmp->tuning_db = hashcat_ctx->tuning_db; hashcat_ctx_tmp->user_options_extra = hashcat_ctx->user_options_extra; hashcat_ctx_tmp->user_options = hashcat_ctx->user_options; */ memcpy (hashcat_ctx_tmp, hashcat_ctx, sizeof (hashcat_ctx_t)); // yes we actually want to copy these pointers hashcat_ctx_tmp->wl_data = (wl_data_t *) hcmalloc (hashcat_ctx, sizeof (wl_data_t)); wl_data_init (hashcat_ctx_tmp); u64 words_cur = 0; while (status_ctx->run_thread_level1 == true) { u64 words_off = 0; u64 words_fin = 0; u64 max = -1llu; while (max) { const u32 work = get_work (hashcat_ctx, device_param, max); if (work == 0) break; max = 0; words_off = device_param->words_off; words_fin = words_off + work; char *line_buf; u32 line_len; for ( ; words_cur < words_off; words_cur++) get_next_word (hashcat_ctx_tmp, fd, &line_buf, &line_len); for ( ; words_cur < words_fin; words_cur++) { get_next_word (hashcat_ctx_tmp, fd, &line_buf, &line_len); line_len = convert_from_hex (hashcat_ctx, line_buf, line_len); // post-process rule engine if (run_rule_engine ((int) user_options_extra->rule_len_l, user_options->rule_buf_l)) { char rule_buf_out[BLOCK_SIZE] = { 0 }; int rule_len_out = -1; if (line_len < BLOCK_SIZE) { rule_len_out = _old_apply_rule (user_options->rule_buf_l, (int) user_options_extra->rule_len_l, line_buf, (int) line_len, rule_buf_out); } if (rule_len_out < 0) continue; line_buf = rule_buf_out; line_len = (u32) rule_len_out; } if (attack_kern == ATTACK_KERN_STRAIGHT) { if ((line_len < hashconfig->pw_min) || (line_len > hashconfig->pw_max)) { max++; hc_thread_mutex_lock (status_ctx->mux_counter); for (u32 salt_pos = 0; salt_pos < hashes->salts_cnt; salt_pos++) { status_ctx->words_progress_rejected[salt_pos] += straight_ctx->kernel_rules_cnt; } hc_thread_mutex_unlock (status_ctx->mux_counter); continue; } } else if (attack_kern == ATTACK_KERN_COMBI) { // do not check if minimum restriction is satisfied (line_len >= hashconfig->pw_min) here // since we still need to combine the plains if (line_len > hashconfig->pw_max) { max++; hc_thread_mutex_lock (status_ctx->mux_counter); for (u32 salt_pos = 0; salt_pos < hashes->salts_cnt; salt_pos++) { status_ctx->words_progress_rejected[salt_pos] += combinator_ctx->combs_cnt; } hc_thread_mutex_unlock (status_ctx->mux_counter); continue; } } pw_add (device_param, (u8 *) line_buf, (int) line_len); if (status_ctx->run_thread_level1 == false) break; } if (status_ctx->run_thread_level1 == false) break; } if (status_ctx->run_thread_level1 == false) break; // // flush // const u32 pws_cnt = device_param->pws_cnt; if (pws_cnt) { run_copy (hashcat_ctx, device_param, pws_cnt); run_cracker (hashcat_ctx, device_param, pws_cnt); device_param->pws_cnt = 0; /* still required? if (attack_kern == ATTACK_KERN_STRAIGHT) { run_kernel_bzero (device_param, device_param->d_rules_c, device_param->size_rules_c); } else if (attack_kern == ATTACK_KERN_COMBI) { run_kernel_bzero (device_param, device_param->d_combs_c, device_param->size_combs); } */ } if (status_ctx->run_thread_level1 == false) break; if (words_fin == 0) break; device_param->words_done = words_fin; } if (attack_mode == ATTACK_MODE_COMBI) { fclose (device_param->combs_fp); } wl_data_destroy (hashcat_ctx_tmp); hcfree (hashcat_ctx_tmp->wl_data); hcfree (hashcat_ctx_tmp); fclose (fd); } device_param->kernel_accel = 0; device_param->kernel_loops = 0; } void *thread_calc (void *p) { thread_param_t *thread_param = (thread_param_t *) p; hashcat_ctx_t *hashcat_ctx = thread_param->hashcat_ctx; opencl_ctx_t *opencl_ctx = hashcat_ctx->opencl_ctx; if (opencl_ctx->enabled == false) return NULL; hc_device_param_t *device_param = opencl_ctx->devices_param + thread_param->tid; if (device_param->skipped) return NULL; calc (hashcat_ctx, device_param); return NULL; }