/** * Author......: See docs/credits.txt * License.....: MIT */ #include "common.h" #include "types.h" #include "memory.h" #include "event.h" #include "convert.h" #include "thread.h" #include "status.h" #include "shared.h" #include "hwmon.h" #include "interface.h" #include "hashcat.h" #include "timer.h" #include "terminal.h" static const size_t TERMINAL_LINE_LENGTH = 79; static const char *PROMPT_ACTIVE = "[s]tatus [p]ause [b]ypass [c]heckpoint [f]inish [q]uit => "; static const char *PROMPT_PAUSED = "[s]tatus [r]esume [b]ypass [c]heckpoint [f]inish [q]uit => "; void welcome_screen (hashcat_ctx_t *hashcat_ctx, const char *version_tag) { const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->quiet == true) return; if (user_options->keyspace == true) return; if (user_options->stdout_flag == true) return; if (user_options->show == true) return; if (user_options->left == true) return; if (user_options->identify == true) return; if (user_options->usage == true) { event_log_info (hashcat_ctx, "%s (%s) starting in help mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->benchmark == true) { if (user_options->machine_readable == false) { event_log_info (hashcat_ctx, "%s (%s) starting in benchmark mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); if (user_options->workload_profile_chgd == false) { event_log_advice (hashcat_ctx, "Benchmarking uses hand-optimized kernel code by default."); event_log_advice (hashcat_ctx, "You can use it in your cracking session by setting the -O option."); event_log_advice (hashcat_ctx, "Note: Using optimized kernel code limits the maximum supported password length."); event_log_advice (hashcat_ctx, "To disable the optimized kernel code in benchmark mode, use the -w option."); event_log_advice (hashcat_ctx, NULL); } } else { event_log_info (hashcat_ctx, "# version: %s", version_tag); } } else if (user_options->restore == true) { event_log_info (hashcat_ctx, "%s (%s) starting in restore mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->speed_only == true) { event_log_info (hashcat_ctx, "%s (%s) starting in speed-only mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->progress_only == true) { event_log_info (hashcat_ctx, "%s (%s) starting in progress-only mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->backend_info == true) { event_log_info (hashcat_ctx, "%s (%s) starting in backend information mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->hash_mode_chgd == false) { event_log_info (hashcat_ctx, "%s (%s) starting in autodetect mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else if (user_options->hash_info == true) { event_log_info (hashcat_ctx, "%s (%s) starting in hash-info mode", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } else { event_log_info (hashcat_ctx, "%s (%s) starting", PROGNAME, version_tag); event_log_info (hashcat_ctx, NULL); } if (user_options->force == true) { event_log_warning (hashcat_ctx, "You have enabled --force to bypass dangerous warnings and errors!"); event_log_warning (hashcat_ctx, "This can hide serious problems and should only be done when debugging."); event_log_warning (hashcat_ctx, "Do not report hashcat issues encountered when using --force."); event_log_warning (hashcat_ctx, NULL); } } void goodbye_screen (hashcat_ctx_t *hashcat_ctx, const time_t proc_start, const time_t proc_stop) { const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->quiet == true) return; if (user_options->keyspace == true) return; if (user_options->stdout_flag == true) return; if (user_options->show == true) return; if (user_options->left == true) return; if (user_options->identify == true) return; char start_buf[32]; memset (start_buf, 0, sizeof (start_buf)); char stop_buf[32]; memset (start_buf, 0, sizeof (stop_buf)); event_log_info_nn (hashcat_ctx, "Started: %s", ctime_r (&proc_start, start_buf)); event_log_info_nn (hashcat_ctx, "Stopped: %s", ctime_r (&proc_stop, stop_buf)); } int setup_console () { #if defined (_WIN) SetConsoleWindowSize (132); if (_setmode (_fileno (stdin), _O_BINARY) == -1) { __mingw_fprintf (stderr, "%s: %m", "stdin"); return -1; } if (_setmode (_fileno (stdout), _O_BINARY) == -1) { __mingw_fprintf (stderr, "%s: %m", "stdin"); // stdout ? return -1; } if (_setmode (_fileno (stderr), _O_BINARY) == -1) { __mingw_fprintf (stderr, "%s: %m", "stdin"); // stderr ? return -1; } #endif return 0; } void send_prompt (hashcat_ctx_t *hashcat_ctx) { const status_ctx_t *status_ctx = hashcat_ctx->status_ctx; if (status_ctx->devices_status == STATUS_PAUSED) { fprintf (stdout, "%s", PROMPT_PAUSED); } else { fprintf (stdout, "%s", PROMPT_ACTIVE); } fflush (stdout); } void clear_prompt (hashcat_ctx_t *hashcat_ctx) { const status_ctx_t *status_ctx = hashcat_ctx->status_ctx; size_t prompt_sz = 0; if (status_ctx->devices_status == STATUS_PAUSED) { prompt_sz = strlen (PROMPT_PAUSED); } else { prompt_sz = strlen (PROMPT_ACTIVE); } fputc ('\r', stdout); for (size_t i = 0; i < prompt_sz; i++) { fputc (' ', stdout); } fputc ('\r', stdout); fflush (stdout); } static void keypress (hashcat_ctx_t *hashcat_ctx) { status_ctx_t *status_ctx = hashcat_ctx->status_ctx; user_options_t *user_options = hashcat_ctx->user_options; // this is required, because some of the variables down there are not initialized at that point while (status_ctx->devices_status == STATUS_INIT) usleep (100000); const bool quiet = user_options->quiet; tty_break (); while (status_ctx->shutdown_outer == false) { int ch = tty_getchar (); if (ch == -1) break; if (ch == 0) continue; //https://github.com/hashcat/hashcat/issues/302 //#if defined (_POSIX) //if (ch != '\n') //#endif hc_thread_mutex_lock (status_ctx->mux_display); event_log_info (hashcat_ctx, NULL); switch (ch) { case 's': case '\r': case '\n': event_log_info (hashcat_ctx, NULL); status_display (hashcat_ctx); event_log_info (hashcat_ctx, NULL); if (quiet == false) send_prompt (hashcat_ctx); break; case 'b': event_log_info (hashcat_ctx, NULL); bypass (hashcat_ctx); event_log_info (hashcat_ctx, "Next dictionary / mask in queue selected. Bypassing current one."); event_log_info (hashcat_ctx, NULL); if (quiet == false) send_prompt (hashcat_ctx); break; case 'p': if (status_ctx->devices_status != STATUS_PAUSED) { event_log_info (hashcat_ctx, NULL); time_t now; time (&now); SuspendThreads (hashcat_ctx); if (status_ctx->devices_status == STATUS_PAUSED) { char buf[32] = { 0 }; char *pause_time = ctime_r (&now, buf); const size_t pause_time_len = strlen (pause_time); if (pause_time[pause_time_len - 1] == '\n') pause_time[pause_time_len - 1] = 0; if (pause_time[pause_time_len - 2] == '\r') pause_time[pause_time_len - 2] = 0; event_log_info (hashcat_ctx, "Paused at %s", pause_time); } event_log_info (hashcat_ctx, NULL); } if (quiet == false) send_prompt (hashcat_ctx); break; case 'r': if (status_ctx->devices_status == STATUS_PAUSED) { event_log_info (hashcat_ctx, NULL); time_t now; time (&now); const double msec_paused = hc_timer_get (status_ctx->timer_paused); ResumeThreads (hashcat_ctx); if (status_ctx->devices_status != STATUS_PAUSED) { char buf[32] = { 0 }; char *resume_time = ctime_r (&now, buf); const size_t resume_time_len = strlen (resume_time); if (resume_time[resume_time_len - 1] == '\n') resume_time[resume_time_len - 1] = 0; if (resume_time[resume_time_len - 2] == '\r') resume_time[resume_time_len - 2] = 0; struct tm *tmp; struct tm tm; time_t sec_run = msec_paused / 1000; tmp = gmtime_r (&sec_run, &tm); char *display_pause = (char *) hcmalloc (HCBUFSIZ_TINY); format_timer_display (tmp, display_pause, HCBUFSIZ_TINY); event_log_info (hashcat_ctx, "Resumed at %s (paused for %s)", resume_time, display_pause); hcfree (display_pause); } event_log_info (hashcat_ctx, NULL); } if (quiet == false) send_prompt (hashcat_ctx); break; case 'c': event_log_info (hashcat_ctx, NULL); stop_at_checkpoint (hashcat_ctx); if (status_ctx->checkpoint_shutdown == true) { event_log_info (hashcat_ctx, "Checkpoint enabled. Will quit at next restore-point update."); } else { event_log_info (hashcat_ctx, "Checkpoint disabled. Restore-point updates will no longer be monitored."); } event_log_info (hashcat_ctx, NULL); if (quiet == false) send_prompt (hashcat_ctx); break; case 'f': event_log_info (hashcat_ctx, NULL); finish_after_attack (hashcat_ctx); if (status_ctx->finish_shutdown == true) { event_log_info (hashcat_ctx, "Finish enabled. Will quit after this attack."); } else { event_log_info (hashcat_ctx, "Finish disabled. Will continue after this attack."); } event_log_info (hashcat_ctx, NULL); if (quiet == false) send_prompt (hashcat_ctx); break; case 'q': event_log_info (hashcat_ctx, NULL); myquit (hashcat_ctx); break; default: if (quiet == false) send_prompt (hashcat_ctx); break; } //https://github.com/hashcat/hashcat/issues/302 //#if defined (_POSIX) //if (ch != '\n') //#endif hc_thread_mutex_unlock (status_ctx->mux_display); } tty_fix (); } HC_API_CALL void *thread_keypress (void *p) { hashcat_ctx_t *hashcat_ctx = (hashcat_ctx_t *) p; keypress (hashcat_ctx); return NULL; } #if defined (_WIN) void SetConsoleWindowSize (const int x) { HANDLE h = GetStdHandle (STD_OUTPUT_HANDLE); if (h == INVALID_HANDLE_VALUE) return; CONSOLE_SCREEN_BUFFER_INFO bufferInfo; if (!GetConsoleScreenBufferInfo (h, &bufferInfo)) return; SMALL_RECT *sr = &bufferInfo.srWindow; sr->Right = MAX (sr->Right, x - 1); COORD co; co.X = sr->Right + 1; co.Y = 9999; if (!SetConsoleScreenBufferSize (h, co)) return; if (!SetConsoleWindowInfo (h, TRUE, sr)) return; } #endif #if defined (__linux__) || defined (__CYGWIN__) static struct termios savemodes; static int havemodes = 0; int tty_break () { struct termios modmodes; if (tcgetattr (fileno (stdin), &savemodes) < 0) return -1; havemodes = 1; modmodes = savemodes; modmodes.c_lflag &= ~ICANON; modmodes.c_cc[VMIN] = 1; modmodes.c_cc[VTIME] = 0; return tcsetattr (fileno (stdin), TCSANOW, &modmodes); } int tty_getchar () { fd_set rfds; FD_ZERO (&rfds); FD_SET (fileno (stdin), &rfds); struct timeval tv; tv.tv_sec = 1; tv.tv_usec = 0; int retval = select (1, &rfds, NULL, NULL, &tv); if (retval == 0) return 0; if (retval == -1) return -1; return getchar(); } int tty_fix () { if (!havemodes) return 0; return tcsetattr (fileno (stdin), TCSADRAIN, &savemodes); } #endif #if defined (__APPLE__) || defined (__FreeBSD__) static struct termios savemodes; static int havemodes = 0; int tty_break () { struct termios modmodes; if (ioctl (fileno (stdin), TIOCGETA, &savemodes) < 0) return -1; havemodes = 1; modmodes = savemodes; modmodes.c_lflag &= ~ICANON; modmodes.c_cc[VMIN] = 1; modmodes.c_cc[VTIME] = 0; return ioctl (fileno (stdin), TIOCSETAW, &modmodes); } int tty_getchar () { fd_set rfds; FD_ZERO (&rfds); FD_SET (fileno (stdin), &rfds); struct timeval tv; tv.tv_sec = 1; tv.tv_usec = 0; int retval = select (1, &rfds, NULL, NULL, &tv); if (retval == 0) return 0; if (retval == -1) return -1; return getchar(); } int tty_fix () { if (!havemodes) return 0; return ioctl (fileno (stdin), TIOCSETAW, &savemodes); } #endif #if defined (_WIN) static DWORD saveMode = 0; int tty_break () { HANDLE stdinHandle = GetStdHandle (STD_INPUT_HANDLE); GetConsoleMode (stdinHandle, &saveMode); SetConsoleMode (stdinHandle, ENABLE_PROCESSED_INPUT); return 0; } int tty_getchar () { HANDLE stdinHandle = GetStdHandle (STD_INPUT_HANDLE); DWORD rc = WaitForSingleObject (stdinHandle, 1000); if (rc == WAIT_TIMEOUT) return 0; if (rc == WAIT_ABANDONED) return -1; if (rc == WAIT_FAILED) return -1; // The whole ReadConsoleInput () part is a workaround. // For some unknown reason, maybe a mingw bug, a random signal // is sent to stdin which unblocks WaitForSingleObject () and sets rc 0. // Then it wants to read with getche () a keyboard input // which has never been made. INPUT_RECORD buf[100]; DWORD num = 0; memset (buf, 0, sizeof (buf)); ReadConsoleInput (stdinHandle, buf, 100, &num); FlushConsoleInputBuffer (stdinHandle); for (DWORD i = 0; i < num; i++) { if (buf[i].EventType != KEY_EVENT) continue; KEY_EVENT_RECORD KeyEvent = buf[i].Event.KeyEvent; if (KeyEvent.bKeyDown != TRUE) continue; return KeyEvent.uChar.AsciiChar; } return 0; } int tty_fix () { HANDLE stdinHandle = GetStdHandle (STD_INPUT_HANDLE); SetConsoleMode (stdinHandle, saveMode); return 0; } #endif void compress_terminal_line_length (char *out_buf, const size_t keep_from_beginning, const size_t keep_from_end) { const size_t target_len = TERMINAL_LINE_LENGTH - keep_from_beginning; const size_t out_len = strlen (out_buf); if (out_len < target_len) return; char *ptr1 = out_buf + target_len - 3 - keep_from_end; char *ptr2 = out_buf + out_len - keep_from_end; *ptr1++ = '.'; *ptr1++ = '.'; *ptr1++ = '.'; for (size_t i = 0; i < keep_from_end; i++) { *ptr1++ = *ptr2++; } *ptr1 = 0; } void hash_info_single (hashcat_ctx_t *hashcat_ctx, user_options_extra_t *user_options_extra) { if (hashconfig_init (hashcat_ctx) == 0) { hashconfig_t *hashconfig = hashcat_ctx->hashconfig; event_log_info (hashcat_ctx, "Hash mode #%u", hashconfig->hash_mode); event_log_info (hashcat_ctx, " Name................: %s", hashconfig->hash_name); event_log_info (hashcat_ctx, " Category............: %s", strhashcategory (hashconfig->hash_category)); event_log_info (hashcat_ctx, " Slow.Hash...........: %s", (hashconfig->attack_exec == ATTACK_EXEC_INSIDE_KERNEL) ? "No" : "Yes"); event_log_info (hashcat_ctx, " Password.Len.Min....: %d", hashconfig->pw_min); event_log_info (hashcat_ctx, " Password.Len.Max....: %d", hashconfig->pw_max); if (hashconfig->is_salted == true) { u32 t = hashconfig->salt_type; char *t_desc = (t == SALT_TYPE_EMBEDDED) ? "Embedded\0" : (t == SALT_TYPE_GENERIC) ? "Generic\0" : "Virtual\0"; event_log_info (hashcat_ctx, " Salt.Type...........: %s", t_desc); event_log_info (hashcat_ctx, " Salt.Len.Min........: %d", hashconfig->salt_min); event_log_info (hashcat_ctx, " Salt.Len.Max........: %d", hashconfig->salt_max); } // almost always 1 and -1 //event_log_info (hashcat_ctx, " Hashes.Count.Min....: %d", hashconfig->hashes_count_min); //event_log_info (hashcat_ctx, " Hashes.Count.Max....: %u", hashconfig->hashes_count_max); if ((hashconfig->has_pure_kernel) && (hashconfig->has_optimized_kernel)) { event_log_info (hashcat_ctx, " Kernel.Type(s)......: pure, optimized"); } else if (hashconfig->has_pure_kernel) { event_log_info (hashcat_ctx, " Kernel.Type(s)......: pure"); } else if (hashconfig->has_optimized_kernel) { event_log_info (hashcat_ctx, " Kernel.Type(s)......: optimized"); } if ((hashconfig->st_hash != NULL) && (hashconfig->st_pass != NULL)) { if (hashconfig->opts_type & OPTS_TYPE_BINARY_HASHFILE) { event_log_info (hashcat_ctx, " Example.Hash.Format.: hex-encoded"); event_log_info (hashcat_ctx, " Example.Hash........: %s", hashconfig->st_hash); } else { event_log_info (hashcat_ctx, " Example.Hash.Format.: plain"); event_log_info (hashcat_ctx, " Example.Hash........: %s", hashconfig->st_hash); } if (need_hexify ((const u8 *) hashconfig->st_pass, strlen (hashconfig->st_pass), user_options_extra->separator, false)) { char *tmp_buf = (char *) hcmalloc (HCBUFSIZ_LARGE); int tmp_len = 0; tmp_buf[tmp_len++] = '$'; tmp_buf[tmp_len++] = 'H'; tmp_buf[tmp_len++] = 'E'; tmp_buf[tmp_len++] = 'X'; tmp_buf[tmp_len++] = '['; exec_hexify ((const u8 *) hashconfig->st_pass, strlen (hashconfig->st_pass), (u8 *) tmp_buf + tmp_len); tmp_len += strlen (hashconfig->st_pass) * 2; tmp_buf[tmp_len++] = ']'; tmp_buf[tmp_len++] = 0; event_log_info (hashcat_ctx, " Example.Pass........: %s", tmp_buf); hcfree (tmp_buf); } else { event_log_info (hashcat_ctx, " Example.Pass........: %s", hashconfig->st_pass); } } else { event_log_info (hashcat_ctx, " Example.Hash.Format.: N/A"); event_log_info (hashcat_ctx, " Example.Hash........: N/A"); event_log_info (hashcat_ctx, " Example.Pass........: N/A"); } if (hashconfig->benchmark_mask != NULL) { event_log_info (hashcat_ctx, " Benchmark.Mask......: %s", hashconfig->benchmark_mask); } else { event_log_info (hashcat_ctx, " Benchmark.Mask......: N/A"); } event_log_info (hashcat_ctx, NULL); } hashconfig_destroy (hashcat_ctx); } void hash_info (hashcat_ctx_t *hashcat_ctx) { folder_config_t *folder_config = hashcat_ctx->folder_config; user_options_t *user_options = hashcat_ctx->user_options; user_options_extra_t *user_options_extra = hashcat_ctx->user_options_extra; event_log_info (hashcat_ctx, "Hash Info:"); event_log_info (hashcat_ctx, "=========="); event_log_info (hashcat_ctx, NULL); if (user_options->hash_mode_chgd == true) { hash_info_single (hashcat_ctx, user_options_extra); } else { char *modulefile = (char *) hcmalloc (HCBUFSIZ_TINY); for (int i = 0; i < MODULE_HASH_MODES_MAXIMUM; i++) { user_options->hash_mode = i; module_filename (folder_config, i, modulefile, HCBUFSIZ_TINY); if (hc_path_exist (modulefile) == false) continue; hash_info_single (hashcat_ctx, user_options_extra); } hcfree (modulefile); } } void backend_info (hashcat_ctx_t *hashcat_ctx) { const backend_ctx_t *backend_ctx = hashcat_ctx->backend_ctx; if (backend_ctx->cuda) { event_log_info (hashcat_ctx, "CUDA Info:"); event_log_info (hashcat_ctx, "=========="); event_log_info (hashcat_ctx, NULL); int cuda_devices_cnt = backend_ctx->cuda_devices_cnt; int cuda_driver_version = backend_ctx->cuda_driver_version; event_log_info (hashcat_ctx, "CUDA.Version.: %d.%d", cuda_driver_version / 1000, (cuda_driver_version % 100) / 10); event_log_info (hashcat_ctx, NULL); for (int cuda_devices_idx = 0; cuda_devices_idx < cuda_devices_cnt; cuda_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_cuda[cuda_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u32 device_maxclock_frequency = device_param->device_maxclock_frequency; u64 device_available_mem = device_param->device_available_mem; u64 device_global_mem = device_param->device_global_mem; u8 pcie_domain = device_param->pcie_domain; u8 pcie_bus = device_param->pcie_bus; u8 pcie_device = device_param->pcie_device; u8 pcie_function = device_param->pcie_function; if (device_param->device_id_alias_cnt) { event_log_info (hashcat_ctx, "Backend Device ID #%d (Alias: #%d)", device_id + 1, device_param->device_id_alias_buf[0] + 1); } else { event_log_info (hashcat_ctx, "Backend Device ID #%d", device_id + 1); } event_log_info (hashcat_ctx, " Name...........: %s", device_name); event_log_info (hashcat_ctx, " Processor(s)...: %u", device_processors); event_log_info (hashcat_ctx, " Clock..........: %u", device_maxclock_frequency); event_log_info (hashcat_ctx, " Memory.Total...: %" PRIu64 " MB", device_global_mem / 1024 / 1024); event_log_info (hashcat_ctx, " Memory.Free....: %" PRIu64 " MB", device_available_mem / 1024 / 1024); event_log_info (hashcat_ctx, " PCI.Addr.BDFe..: %04x:%02x:%02x.%d", (u16) pcie_domain, pcie_bus, pcie_device, pcie_function); event_log_info (hashcat_ctx, NULL); } } if (backend_ctx->hip) { event_log_info (hashcat_ctx, "HIP Info:"); event_log_info (hashcat_ctx, "========="); event_log_info (hashcat_ctx, NULL); int hip_devices_cnt = backend_ctx->hip_devices_cnt; int hip_driver_version = backend_ctx->hip_driver_version; event_log_info (hashcat_ctx, "HIP.Version.: %d.%d", hip_driver_version / 1000, (hip_driver_version % 100) / 10); event_log_info (hashcat_ctx, NULL); for (int hip_devices_idx = 0; hip_devices_idx < hip_devices_cnt; hip_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_hip[hip_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u32 device_maxclock_frequency = device_param->device_maxclock_frequency; u64 device_available_mem = device_param->device_available_mem; u64 device_global_mem = device_param->device_global_mem; u8 pcie_domain = device_param->pcie_domain; u8 pcie_bus = device_param->pcie_bus; u8 pcie_device = device_param->pcie_device; u8 pcie_function = device_param->pcie_function; if (device_param->device_id_alias_cnt) { event_log_info (hashcat_ctx, "Backend Device ID #%d (Alias: #%d)", device_id + 1, device_param->device_id_alias_buf[0] + 1); } else { event_log_info (hashcat_ctx, "Backend Device ID #%d", device_id + 1); } event_log_info (hashcat_ctx, " Name...........: %s", device_name); event_log_info (hashcat_ctx, " Processor(s)...: %u", device_processors); event_log_info (hashcat_ctx, " Clock..........: %u", device_maxclock_frequency); event_log_info (hashcat_ctx, " Memory.Total...: %" PRIu64 " MB", device_global_mem / 1024 / 1024); event_log_info (hashcat_ctx, " Memory.Free....: %" PRIu64 " MB", device_available_mem / 1024 / 1024); event_log_info (hashcat_ctx, " PCI.Addr.BDFe..: %04x:%02x:%02x.%d", (u16) pcie_domain, pcie_bus, pcie_device, pcie_function); event_log_info (hashcat_ctx, NULL); } } if (backend_ctx->ocl) { event_log_info (hashcat_ctx, "OpenCL Info:"); event_log_info (hashcat_ctx, "============"); event_log_info (hashcat_ctx, NULL); cl_uint opencl_platforms_cnt = backend_ctx->opencl_platforms_cnt; cl_uint *opencl_platforms_devices_cnt = backend_ctx->opencl_platforms_devices_cnt; char **opencl_platforms_name = backend_ctx->opencl_platforms_name; char **opencl_platforms_vendor = backend_ctx->opencl_platforms_vendor; char **opencl_platforms_version = backend_ctx->opencl_platforms_version; for (cl_uint opencl_platforms_idx = 0; opencl_platforms_idx < opencl_platforms_cnt; opencl_platforms_idx++) { char *opencl_platform_vendor = opencl_platforms_vendor[opencl_platforms_idx]; char *opencl_platform_name = opencl_platforms_name[opencl_platforms_idx]; char *opencl_platform_version = opencl_platforms_version[opencl_platforms_idx]; cl_uint opencl_platform_devices_cnt = opencl_platforms_devices_cnt[opencl_platforms_idx]; event_log_info (hashcat_ctx, "OpenCL Platform ID #%u", opencl_platforms_idx + 1); event_log_info (hashcat_ctx, " Vendor..: %s", opencl_platform_vendor); event_log_info (hashcat_ctx, " Name....: %s", opencl_platform_name); event_log_info (hashcat_ctx, " Version.: %s", opencl_platform_version); event_log_info (hashcat_ctx, NULL); for (cl_uint opencl_platform_devices_idx = 0; opencl_platform_devices_idx < opencl_platform_devices_cnt; opencl_platform_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_opencl_platform[opencl_platforms_idx][opencl_platform_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u32 device_maxclock_frequency = device_param->device_maxclock_frequency; u64 device_maxmem_alloc = device_param->device_maxmem_alloc; u64 device_available_mem = device_param->device_available_mem; u64 device_global_mem = device_param->device_global_mem; cl_device_type opencl_device_type = device_param->opencl_device_type; cl_uint opencl_device_vendor_id = device_param->opencl_device_vendor_id; char *opencl_device_vendor = device_param->opencl_device_vendor; char *opencl_device_c_version = device_param->opencl_device_c_version; char *opencl_device_version = device_param->opencl_device_version; char *opencl_driver_version = device_param->opencl_driver_version; if (device_param->device_id_alias_cnt) { event_log_info (hashcat_ctx, " Backend Device ID #%d (Alias: #%d)", device_id + 1, device_param->device_id_alias_buf[0] + 1); } else { event_log_info (hashcat_ctx, " Backend Device ID #%d", device_id + 1); } event_log_info (hashcat_ctx, " Type...........: %s", ((opencl_device_type & CL_DEVICE_TYPE_CPU) ? "CPU" : ((opencl_device_type & CL_DEVICE_TYPE_GPU) ? "GPU" : "Accelerator"))); event_log_info (hashcat_ctx, " Vendor.ID......: %u", opencl_device_vendor_id); event_log_info (hashcat_ctx, " Vendor.........: %s", opencl_device_vendor); event_log_info (hashcat_ctx, " Name...........: %s", device_name); event_log_info (hashcat_ctx, " Version........: %s", opencl_device_version); event_log_info (hashcat_ctx, " Processor(s)...: %u", device_processors); event_log_info (hashcat_ctx, " Clock..........: %u", device_maxclock_frequency); event_log_info (hashcat_ctx, " Memory.Total...: %" PRIu64 " MB (limited to %" PRIu64 " MB allocatable in one block)", device_global_mem / 1024 / 1024, device_maxmem_alloc / 1024 / 1024); event_log_info (hashcat_ctx, " Memory.Free....: %" PRIu64 " MB", device_available_mem / 1024 / 1024); event_log_info (hashcat_ctx, " OpenCL.Version.: %s", opencl_device_c_version); event_log_info (hashcat_ctx, " Driver.Version.: %s", opencl_driver_version); if (device_param->opencl_device_type & CL_DEVICE_TYPE_GPU) { u8 pcie_bus = device_param->pcie_bus; u8 pcie_device = device_param->pcie_device; u8 pcie_function = device_param->pcie_function; if ((device_param->opencl_platform_vendor_id == VENDOR_ID_AMD) && (device_param->opencl_device_vendor_id == VENDOR_ID_AMD)) { event_log_info (hashcat_ctx, " PCI.Addr.BDF...: %02x:%02x.%d", pcie_bus, pcie_device, pcie_function); } if ((device_param->opencl_platform_vendor_id == VENDOR_ID_NV) && (device_param->opencl_device_vendor_id == VENDOR_ID_NV)) { event_log_info (hashcat_ctx, " PCI.Addr.BDF...: %02x:%02x.%d", pcie_bus, pcie_device, pcie_function); } } event_log_info (hashcat_ctx, NULL); } } } } void backend_info_compact (hashcat_ctx_t *hashcat_ctx) { const backend_ctx_t *backend_ctx = hashcat_ctx->backend_ctx; const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->quiet == true) return; if (user_options->machine_readable == true) return; if (user_options->status_json == true) return; /** * CUDA */ if (backend_ctx->cuda) { int cuda_devices_cnt = backend_ctx->cuda_devices_cnt; int cuda_driver_version = backend_ctx->cuda_driver_version; const size_t len = event_log_info (hashcat_ctx, "CUDA API (CUDA %d.%d)", cuda_driver_version / 1000, (cuda_driver_version % 100) / 10); char line[HCBUFSIZ_TINY] = { 0 }; memset (line, '=', len); line[len] = 0; event_log_info (hashcat_ctx, "%s", line); for (int cuda_devices_idx = 0; cuda_devices_idx < cuda_devices_cnt; cuda_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_cuda[cuda_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u64 device_global_mem = device_param->device_global_mem; u64 device_available_mem = device_param->device_available_mem; if ((device_param->skipped == false) && (device_param->skipped_warning == false)) { event_log_info (hashcat_ctx, "* Device #%u: %s, %" PRIu64 "/%" PRIu64 " MB, %uMCU", device_id + 1, device_name, device_available_mem / 1024 / 1024, device_global_mem / 1024 / 1024, device_processors); } else { event_log_info (hashcat_ctx, "* Device #%u: %s, skipped", device_id + 1, device_name); } } event_log_info (hashcat_ctx, NULL); } /** * HIP */ if (backend_ctx->hip) { int hip_devices_cnt = backend_ctx->hip_devices_cnt; int hip_driver_version = backend_ctx->hip_driver_version; const size_t len = event_log_info (hashcat_ctx, "HIP API (HIP %d.%d)", hip_driver_version / 1000, (hip_driver_version % 100) / 10); char line[HCBUFSIZ_TINY] = { 0 }; memset (line, '=', len); line[len] = 0; event_log_info (hashcat_ctx, "%s", line); for (int hip_devices_idx = 0; hip_devices_idx < hip_devices_cnt; hip_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_hip[hip_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u64 device_global_mem = device_param->device_global_mem; u64 device_available_mem = device_param->device_available_mem; if ((device_param->skipped == false) && (device_param->skipped_warning == false)) { event_log_info (hashcat_ctx, "* Device #%u: %s, %" PRIu64 "/%" PRIu64 " MB, %uMCU", device_id + 1, device_name, device_available_mem / 1024 / 1024, device_global_mem / 1024 / 1024, device_processors); } else { event_log_info (hashcat_ctx, "* Device #%u: %s, skipped", device_id + 1, device_name); } } event_log_info (hashcat_ctx, NULL); } /** * OpenCL */ if (backend_ctx->ocl) { cl_uint opencl_platforms_cnt = backend_ctx->opencl_platforms_cnt; cl_uint *opencl_platforms_devices_cnt = backend_ctx->opencl_platforms_devices_cnt; char **opencl_platforms_vendor = backend_ctx->opencl_platforms_vendor; char **opencl_platforms_version = backend_ctx->opencl_platforms_version; for (cl_uint opencl_platforms_idx = 0; opencl_platforms_idx < opencl_platforms_cnt; opencl_platforms_idx++) { char *opencl_platform_vendor = opencl_platforms_vendor[opencl_platforms_idx]; char *opencl_platform_version = opencl_platforms_version[opencl_platforms_idx]; cl_uint opencl_platform_devices_cnt = opencl_platforms_devices_cnt[opencl_platforms_idx]; const size_t len = event_log_info (hashcat_ctx, "OpenCL API (%s) - Platform #%u [%s]", opencl_platform_version, opencl_platforms_idx + 1, opencl_platform_vendor); char line[HCBUFSIZ_TINY] = { 0 }; memset (line, '=', len); line[len] = 0; event_log_info (hashcat_ctx, "%s", line); for (cl_uint opencl_platform_devices_idx = 0; opencl_platform_devices_idx < opencl_platform_devices_cnt; opencl_platform_devices_idx++) { const int backend_devices_idx = backend_ctx->backend_device_from_opencl_platform[opencl_platforms_idx][opencl_platform_devices_idx]; const hc_device_param_t *device_param = backend_ctx->devices_param + backend_devices_idx; int device_id = device_param->device_id; char *device_name = device_param->device_name; u32 device_processors = device_param->device_processors; u64 device_maxmem_alloc = device_param->device_maxmem_alloc; u64 device_global_mem = device_param->device_global_mem; u64 device_available_mem = device_param->device_available_mem; if ((device_param->skipped == false) && (device_param->skipped_warning == false)) { event_log_info (hashcat_ctx, "* Device #%u: %s, %" PRIu64 "/%" PRIu64 " MB (%" PRIu64 " MB allocatable), %uMCU", device_id + 1, device_name, device_available_mem / 1024 / 1024, device_global_mem / 1024 / 1024, device_maxmem_alloc / 1024 / 1024, device_processors); } else { event_log_info (hashcat_ctx, "* Device #%u: %s, skipped", device_id + 1, device_name); } } event_log_info (hashcat_ctx, NULL); } } } void status_display_machine_readable (hashcat_ctx_t *hashcat_ctx) { const hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx; hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } printf ("STATUS\t%d\t", hashcat_status->status_number); printf ("SPEED\t"); for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; printf ("%" PRIu64 "\t", (u64) (device_info->hashes_msec_dev * 1000)); // that 1\t is for backward compatibility printf ("1000\t"); } printf ("EXEC_RUNTIME\t"); for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; printf ("%f\t", device_info->exec_msec_dev); } printf ("CURKU\t%" PRIu64 "\t", hashcat_status->restore_point); printf ("PROGRESS\t%" PRIu64 "\t%" PRIu64 "\t", hashcat_status->progress_cur_relative_skip, hashcat_status->progress_end_relative_skip); printf ("RECHASH\t%d\t%d\t", hashcat_status->digests_done, hashcat_status->digests_cnt); printf ("RECSALT\t%d\t%d\t", hashcat_status->salts_done, hashcat_status->salts_cnt); if (hwmon_ctx->enabled == true) { printf ("TEMP\t"); for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; const int temp = hm_get_temperature_with_devices_idx (hashcat_ctx, device_id); printf ("%d\t", temp); } } printf ("REJECTED\t%" PRIu64 "\t", hashcat_status->progress_rejected); printf ("UTIL\t"); for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; // ok, little cheat here again... const int util = hm_get_utilization_with_devices_idx (hashcat_ctx, device_id); printf ("%d\t", util); } fwrite (EOL, strlen (EOL), 1, stdout); fflush (stdout); status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_display_status_json (hashcat_ctx_t *hashcat_ctx) { const hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx; const status_ctx_t *status_ctx = hashcat_ctx->status_ctx; hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } time_t time_now; time (&time_now); time_t end; time_t sec_etc = status_get_sec_etc (hashcat_ctx); if (overflow_check_u64_add (time_now, sec_etc) == false) { end = 1; } else { end = time_now + sec_etc; } /* * As the hash target can contain the hash (in case of a single attacked hash), especially * some salts can contain chars which need to be escaped to not break the JSON encoding. * Based on https://www.freeformatter.com/json-escape.html, below these 7 different chars * are getting escaped before being printed. */ char *target_json_encoded = (char *) hcmalloc (strlen (hashcat_status->hash_target) * 2); unsigned long i, j; for (i = 0, j = 0; i < strlen (hashcat_status->hash_target); i++, j++) { char c = hashcat_status->hash_target[i]; switch (c) { case '\b': c = 'b'; target_json_encoded[j] = '\\'; j++; break; case '\t': c = 't'; target_json_encoded[j] = '\\'; j++; break; case '\n': c = 'n'; target_json_encoded[j] = '\\'; j++; break; case '\f': c = 'f'; target_json_encoded[j] = '\\'; j++; break; case '\r': c = 'r'; target_json_encoded[j] = '\\'; j++; break; case '\\': c = '\\'; target_json_encoded[j] = '\\'; j++; break; case '"': c = '"'; target_json_encoded[j] = '\\'; j++; break; } target_json_encoded[j] = c; } target_json_encoded[j] = 0; printf ("{ \"session\": \"%s\",", hashcat_status->session); printf (" \"status\": %d,", hashcat_status->status_number); printf (" \"target\": \"%s\",", target_json_encoded); printf (" \"progress\": [%" PRIu64 ", %" PRIu64 "],", hashcat_status->progress_cur_relative_skip, hashcat_status->progress_end_relative_skip); printf (" \"restore_point\": %" PRIu64 ",", hashcat_status->restore_point); printf (" \"recovered_hashes\": [%d, %d],", hashcat_status->digests_done, hashcat_status->digests_cnt); printf (" \"recovered_salts\": [%d, %d],", hashcat_status->salts_done, hashcat_status->salts_cnt); printf (" \"rejected\": %" PRIu64 ",", hashcat_status->progress_rejected); printf (" \"devices\": ["); hcfree (target_json_encoded); int device_num = 0; for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_num != 0) { printf (","); } printf (" { \"device_id\": %d,", device_id + 1); printf (" \"speed\": %" PRIu64 ",", (u64) (device_info->hashes_msec_dev * 1000)); if (hwmon_ctx->enabled == true) { const int temp = hm_get_temperature_with_devices_idx (hashcat_ctx, device_id); printf (" \"temp\": %d,", temp); } const int util = hm_get_utilization_with_devices_idx (hashcat_ctx, device_id); printf (" \"util\": %d }", util); device_num++; } printf (" ],"); printf (" \"time_start\": %" PRIu64 ",", (u64) status_ctx->runtime_start); printf (" \"estimated_stop\": %" PRIu64 " }", (u64) end); fwrite (EOL, strlen (EOL), 1, stdout); fflush (stdout); status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_display (hashcat_ctx_t *hashcat_ctx) { const hashconfig_t *hashconfig = hashcat_ctx->hashconfig; const hwmon_ctx_t *hwmon_ctx = hashcat_ctx->hwmon_ctx; const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->machine_readable == true) { status_display_machine_readable (hashcat_ctx); return; } if (user_options->status_json == true) { status_display_status_json (hashcat_ctx); return; } hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } /** * show something */ #ifdef WITH_BRAIN if (user_options->brain_client == true) { event_log_info (hashcat_ctx, "Session..........: %s (Brain Session/Attack:0x%08x/0x%08x)", hashcat_status->session, hashcat_status->brain_session, hashcat_status->brain_attack); } else { event_log_info (hashcat_ctx, "Session..........: %s", hashcat_status->session); } #else event_log_info (hashcat_ctx, "Session..........: %s", hashcat_status->session); #endif event_log_info (hashcat_ctx, "Status...........: %s", hashcat_status->status_string); event_log_info (hashcat_ctx, "Hash.Name........: %s", hashcat_status->hash_name); event_log_info (hashcat_ctx, "Hash.Target......: %s", hashcat_status->hash_target); if (user_options->force == true) { event_log_info (hashcat_ctx, "Time.Started.....: %s, (%s)", hashcat_status->time_started_absolute, hashcat_status->time_started_relative); } else { event_log_info (hashcat_ctx, "Time.Started.....: %s (%s)", hashcat_status->time_started_absolute, hashcat_status->time_started_relative); } if (user_options->force == true) { event_log_info (hashcat_ctx, "Time.Estimated...: %s, (%s)", hashcat_status->time_estimated_absolute, hashcat_status->time_estimated_relative); } else { event_log_info (hashcat_ctx, "Time.Estimated...: %s (%s)", hashcat_status->time_estimated_absolute, hashcat_status->time_estimated_relative); } if (hashconfig->opti_type & OPTI_TYPE_OPTIMIZED_KERNEL) { event_log_info (hashcat_ctx, "Kernel.Feature...: Optimized Kernel"); } else { event_log_info (hashcat_ctx, "Kernel.Feature...: Pure Kernel"); } switch (hashcat_status->guess_mode) { case GUESS_MODE_STRAIGHT_FILE: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s)", hashcat_status->guess_base); break; case GUESS_MODE_STRAIGHT_FILE_RULES_FILE: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s)", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Rules (%s)", hashcat_status->guess_mod); break; case GUESS_MODE_STRAIGHT_FILE_RULES_GEN: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s)", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Rules (Generated)"); break; case GUESS_MODE_STRAIGHT_STDIN: event_log_info (hashcat_ctx, "Guess.Base.......: Pipe"); break; case GUESS_MODE_STRAIGHT_STDIN_RULES_FILE: event_log_info (hashcat_ctx, "Guess.Base.......: Pipe"); event_log_info (hashcat_ctx, "Guess.Mod........: Rules (%s)", hashcat_status->guess_mod); break; case GUESS_MODE_STRAIGHT_STDIN_RULES_GEN: event_log_info (hashcat_ctx, "Guess.Base.......: Pipe"); event_log_info (hashcat_ctx, "Guess.Mod........: Rules (Generated)"); break; case GUESS_MODE_COMBINATOR_BASE_LEFT: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Left Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: File (%s), Right Side", hashcat_status->guess_mod); break; case GUESS_MODE_COMBINATOR_BASE_RIGHT: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Right Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: File (%s), Left Side", hashcat_status->guess_mod); break; case GUESS_MODE_MASK: event_log_info (hashcat_ctx, "Guess.Mask.......: %s [%d]", hashcat_status->guess_base, hashcat_status->guess_mask_length); break; case GUESS_MODE_MASK_CS: event_log_info (hashcat_ctx, "Guess.Mask.......: %s [%d]", hashcat_status->guess_base, hashcat_status->guess_mask_length); event_log_info (hashcat_ctx, "Guess.Charset....: %s ", hashcat_status->guess_charset); break; case GUESS_MODE_HYBRID1: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Left Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Mask (%s) [%d], Right Side", hashcat_status->guess_mod, hashcat_status->guess_mask_length); break; case GUESS_MODE_HYBRID1_CS: event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Left Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Mask (%s) [%d], Right Side", hashcat_status->guess_mod, hashcat_status->guess_mask_length); event_log_info (hashcat_ctx, "Guess.Charset....: %s", hashcat_status->guess_charset); break; case GUESS_MODE_HYBRID2: if (hashconfig->opti_type & OPTI_TYPE_OPTIMIZED_KERNEL) { event_log_info (hashcat_ctx, "Guess.Base.......: Mask (%s) [%d], Left Side", hashcat_status->guess_base, hashcat_status->guess_mask_length); event_log_info (hashcat_ctx, "Guess.Mod........: File (%s), Right Side", hashcat_status->guess_mod); } else { event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Right Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Mask (%s) [%d], Left Side", hashcat_status->guess_mod, hashcat_status->guess_mask_length); } break; case GUESS_MODE_HYBRID2_CS: if (hashconfig->opti_type & OPTI_TYPE_OPTIMIZED_KERNEL) { event_log_info (hashcat_ctx, "Guess.Base.......: Mask (%s) [%d], Left Side", hashcat_status->guess_base, hashcat_status->guess_mask_length); event_log_info (hashcat_ctx, "Guess.Mod........: File (%s), Right Side", hashcat_status->guess_mod); event_log_info (hashcat_ctx, "Guess.Charset....: %s", hashcat_status->guess_charset); } else { event_log_info (hashcat_ctx, "Guess.Base.......: File (%s), Right Side", hashcat_status->guess_base); event_log_info (hashcat_ctx, "Guess.Mod........: Mask (%s) [%d], Left Side", hashcat_status->guess_mod, hashcat_status->guess_mask_length); event_log_info (hashcat_ctx, "Guess.Charset....: %s", hashcat_status->guess_charset); } break; } switch (hashcat_status->guess_mode) { case GUESS_MODE_STRAIGHT_FILE: event_log_info (hashcat_ctx, "Guess.Queue......: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); break; case GUESS_MODE_STRAIGHT_FILE_RULES_FILE: event_log_info (hashcat_ctx, "Guess.Queue......: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); break; case GUESS_MODE_STRAIGHT_FILE_RULES_GEN: event_log_info (hashcat_ctx, "Guess.Queue......: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); break; case GUESS_MODE_MASK: event_log_info (hashcat_ctx, "Guess.Queue......: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); break; case GUESS_MODE_MASK_CS: event_log_info (hashcat_ctx, "Guess.Queue......: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); break; case GUESS_MODE_HYBRID1: event_log_info (hashcat_ctx, "Guess.Queue.Base.: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); event_log_info (hashcat_ctx, "Guess.Queue.Mod..: %d/%d (%.02f%%)", hashcat_status->guess_mod_offset, hashcat_status->guess_mod_count, hashcat_status->guess_mod_percent); break; case GUESS_MODE_HYBRID2: event_log_info (hashcat_ctx, "Guess.Queue.Base.: %d/%d (%.02f%%)", hashcat_status->guess_base_offset, hashcat_status->guess_base_count, hashcat_status->guess_base_percent); event_log_info (hashcat_ctx, "Guess.Queue.Mod..: %d/%d (%.02f%%)", hashcat_status->guess_mod_offset, hashcat_status->guess_mod_count, hashcat_status->guess_mod_percent); break; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Speed.#%d.........: %9sH/s (%0.2fms) @ Accel:%d Loops:%d Thr:%d Vec:%d", device_id + 1, device_info->speed_sec_dev, device_info->exec_msec_dev, device_info->kernel_accel_dev, device_info->kernel_loops_dev, device_info->kernel_threads_dev, device_info->vector_width_dev); } if (hashcat_status->device_info_active > 1) { event_log_info (hashcat_ctx, "Speed.#*.........: %9sH/s", hashcat_status->speed_sec_all); } if (hashcat_status->salts_cnt > 1) { event_log_info (hashcat_ctx, "Recovered........: %d/%d (%.2f%%) Digests, %d/%d (%.2f%%) Salts", hashcat_status->digests_done, hashcat_status->digests_cnt, hashcat_status->digests_percent, hashcat_status->salts_done, hashcat_status->salts_cnt, hashcat_status->salts_percent); } else { event_log_info (hashcat_ctx, "Recovered........: %d/%d (%.2f%%) Digests", hashcat_status->digests_done, hashcat_status->digests_cnt, hashcat_status->digests_percent); } if (hashcat_status->digests_cnt > 1000) { const int digests_remain = hashcat_status->digests_cnt - hashcat_status->digests_done; const double digests_remain_percent = (double) digests_remain / (double) hashcat_status->digests_cnt * 100; const int salts_remain = hashcat_status->salts_cnt - hashcat_status->salts_done; const double salts_remain_percent = (double) salts_remain / (double) hashcat_status->salts_cnt * 100; if (hashcat_status->salts_cnt > 1) { event_log_info (hashcat_ctx, "Remaining........: %d (%.2f%%) Digests, %d (%.2f%%) Salts", digests_remain, digests_remain_percent, salts_remain, salts_remain_percent); } else { event_log_info (hashcat_ctx, "Remaining........: %d (%.2f%%) Digests", digests_remain, digests_remain_percent); } } if (hashcat_status->digests_cnt > 1000) { event_log_info (hashcat_ctx, "Recovered/Time...: %s", hashcat_status->cpt); } switch (hashcat_status->progress_mode) { case PROGRESS_MODE_KEYSPACE_KNOWN: event_log_info (hashcat_ctx, "Progress.........: %" PRIu64 "/%" PRIu64 " (%.02f%%)", hashcat_status->progress_cur_relative_skip, hashcat_status->progress_end_relative_skip, hashcat_status->progress_finished_percent); event_log_info (hashcat_ctx, "Rejected.........: %" PRIu64 "/%" PRIu64 " (%.02f%%)", hashcat_status->progress_rejected, hashcat_status->progress_cur_relative_skip, hashcat_status->progress_rejected_percent); break; case PROGRESS_MODE_KEYSPACE_UNKNOWN: event_log_info (hashcat_ctx, "Progress.........: %" PRIu64, hashcat_status->progress_cur_relative_skip); event_log_info (hashcat_ctx, "Rejected.........: %" PRIu64, hashcat_status->progress_rejected); break; } #ifdef WITH_BRAIN if (user_options->brain_client == true) { event_log_info (hashcat_ctx, "Brain.Link.All...: RX: %sB, TX: %sB", hashcat_status->brain_rx_all, hashcat_status->brain_tx_all); for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_info->brain_link_status_dev == BRAIN_LINK_STATUS_CONNECTED) { event_log_info (hashcat_ctx, "Brain.Link.#%d....: RX: %sB (%sbps), TX: %sB (%sbps), idle", device_id + 1, device_info->brain_link_recv_bytes_dev, device_info->brain_link_recv_bytes_sec_dev, device_info->brain_link_send_bytes_dev, device_info->brain_link_send_bytes_sec_dev); } else if (device_info->brain_link_status_dev == BRAIN_LINK_STATUS_RECEIVING) { event_log_info (hashcat_ctx, "Brain.Link.#%d....: RX: %sB (%sbps), TX: %sB (%sbps), receiving", device_id + 1, device_info->brain_link_recv_bytes_dev, device_info->brain_link_recv_bytes_sec_dev, device_info->brain_link_send_bytes_dev, device_info->brain_link_send_bytes_sec_dev); } else if (device_info->brain_link_status_dev == BRAIN_LINK_STATUS_SENDING) { event_log_info (hashcat_ctx, "Brain.Link.#%d....: RX: %sB (%sbps), TX: %sB (%sbps), sending", device_id + 1, device_info->brain_link_recv_bytes_dev, device_info->brain_link_recv_bytes_sec_dev, device_info->brain_link_send_bytes_dev, device_info->brain_link_send_bytes_sec_dev); } else { if ((device_info->brain_link_time_recv_dev > 0) && (device_info->brain_link_time_send_dev > 0)) { event_log_info (hashcat_ctx, "Brain.Link.#%d....: RX: %sB (%sbps), TX: %sB (%sbps)", device_id + 1, device_info->brain_link_recv_bytes_dev, device_info->brain_link_recv_bytes_sec_dev, device_info->brain_link_send_bytes_dev, device_info->brain_link_send_bytes_sec_dev); } else { event_log_info (hashcat_ctx, "Brain.Link.#%d....: N/A", device_id + 1); } } } } #endif switch (hashcat_status->progress_mode) { case PROGRESS_MODE_KEYSPACE_KNOWN: event_log_info (hashcat_ctx, "Restore.Point....: %" PRIu64 "/%" PRIu64 " (%.02f%%)", hashcat_status->restore_point, hashcat_status->restore_total, hashcat_status->restore_percent); break; case PROGRESS_MODE_KEYSPACE_UNKNOWN: event_log_info (hashcat_ctx, "Restore.Point....: %" PRIu64, hashcat_status->restore_point); break; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Restore.Sub.#%d...: Salt:%d Amplifier:%d-%d Iteration:%d-%d", device_id + 1, device_info->salt_pos_dev, device_info->innerloop_pos_dev, device_info->innerloop_pos_dev + device_info->innerloop_left_dev, device_info->iteration_pos_dev, device_info->iteration_pos_dev + device_info->iteration_left_dev); } //if (hashconfig->opts_type & OPTS_TYPE_SLOW_CANDIDATES) if (user_options->slow_candidates == true) { event_log_info (hashcat_ctx, "Candidate.Engine.: Host Generator + PCIe"); } else { event_log_info (hashcat_ctx, "Candidate.Engine.: Device Generator"); } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_info->guess_candidates_dev == NULL) continue; event_log_info (hashcat_ctx, "Candidates.#%d....: %s", device_id + 1, device_info->guess_candidates_dev); } if (hwmon_ctx->enabled == true) { #if defined(__APPLE__) bool first_dev = true; #endif for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_info->hwmon_dev == NULL) continue; #if defined(__APPLE__) if (first_dev && strlen (device_info->hwmon_fan_dev) > 0) { event_log_info (hashcat_ctx, "Hardware.Mon.SMC.: %s", device_info->hwmon_fan_dev); first_dev = false; } #endif event_log_info (hashcat_ctx, "Hardware.Mon.#%d..: %s", device_id + 1, device_info->hwmon_dev); } } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_benchmark_machine_readable (hashcat_ctx_t *hashcat_ctx) { hashconfig_t *hashconfig = hashcat_ctx->hashconfig; const u32 hash_mode = hashconfig->hash_mode; hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "%d:%u:%d:%d:%.2f:%" PRIu64, device_id + 1, hash_mode, device_info->corespeed_dev, device_info->memoryspeed_dev, device_info->exec_msec_dev, (u64) (device_info->hashes_msec_dev_benchmark * 1000)); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_benchmark (hashcat_ctx_t *hashcat_ctx) { const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->machine_readable == true) { status_benchmark_machine_readable (hashcat_ctx); return; } hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Speed.#%d.........: %9sH/s (%0.2fms) @ Accel:%d Loops:%d Thr:%d Vec:%d", device_id + 1, device_info->speed_sec_dev, device_info->exec_msec_dev, device_info->kernel_accel_dev, device_info->kernel_loops_dev, device_info->kernel_threads_dev, device_info->vector_width_dev); } if (hashcat_status->device_info_active > 1) { event_log_info (hashcat_ctx, "Speed.#*.........: %9sH/s", hashcat_status->speed_sec_all); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_speed_machine_readable (hashcat_ctx_t *hashcat_ctx) { hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "%d:%" PRIu64, device_id + 1, (u64) (device_info->hashes_msec_dev_benchmark * 1000)); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_speed_json (hashcat_ctx_t *hashcat_ctx) { hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } printf ("{ \"devices\": ["); int device_num = 0; for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_num != 0) { printf (","); } printf (" { \"device_id\": %d,", device_id + 1); printf (" \"speed\": %" PRIu64 " }", (u64) (device_info->hashes_msec_dev_benchmark * 1000)); device_num++; } printf (" ] }"); status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_speed (hashcat_ctx_t *hashcat_ctx) { const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->machine_readable == true) { status_speed_machine_readable (hashcat_ctx); return; } if (user_options->status_json == true) { status_speed_json (hashcat_ctx); return; } hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Speed.#%d.........: %9sH/s (%0.2fms)", device_id + 1, device_info->speed_sec_dev, device_info->exec_msec_dev); } if (hashcat_status->device_info_active > 1) { event_log_info (hashcat_ctx, "Speed.#*.........: %9sH/s", hashcat_status->speed_sec_all); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_progress_machine_readable (hashcat_ctx_t *hashcat_ctx) { hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "%d:%" PRIu64 ":%0.2f", device_id + 1, device_info->progress_dev, device_info->runtime_msec_dev); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_progress_json (hashcat_ctx_t *hashcat_ctx) { hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } printf ("{ \"devices\": ["); int device_num = 0; for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; if (device_num != 0) { printf (","); } printf (" { \"device_id\": %d,", device_id + 1); printf (" \"progress\": %" PRIu64 ",", device_info->progress_dev); printf (" \"runtime\": %0.2f }", device_info->runtime_msec_dev); device_num++; } printf (" ] }"); status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); } void status_progress (hashcat_ctx_t *hashcat_ctx) { const user_options_t *user_options = hashcat_ctx->user_options; if (user_options->machine_readable == true) { status_progress_machine_readable (hashcat_ctx); return; } if (user_options->status_json == true) { status_progress_json (hashcat_ctx); return; } hashcat_status_t *hashcat_status = (hashcat_status_t *) hcmalloc (sizeof (hashcat_status_t)); if (hashcat_get_status (hashcat_ctx, hashcat_status) == -1) { hcfree (hashcat_status); return; } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Progress.#%d......: %" PRIu64, device_id + 1, device_info->progress_dev); } for (int device_id = 0; device_id < hashcat_status->device_info_cnt; device_id++) { const device_info_t *device_info = hashcat_status->device_info_buf + device_id; if (device_info->skipped_dev == true) continue; if (device_info->skipped_warning_dev == true) continue; event_log_info (hashcat_ctx, "Runtime.#%d.......: %0.2fms", device_id + 1, device_info->runtime_msec_dev); } status_status_destroy (hashcat_ctx, hashcat_status); hcfree (hashcat_status); }