/*++ Copyright (c) 1998 Microsoft Corporation Module Name: grovctrl.cpp Abstract: SIS Groveler controller main function Authors: John Douceur, 1998 Environment: User Mode Revision History: --*/ #include "all.hxx" static _TCHAR *service_name = _T("Groveler"); static _TCHAR *service_path = _T("%SystemRoot%\\System32\\grovel.exe"); static const int num_actions = 11; static Action actions[num_actions] = { {_T("background"), 1, command_service, CMD_background, _T(" [drive_letter ...]")}, {_T("continue"), 1, control_service, CTRL_continue, _T("")}, {_T("foreground"), 1, command_service, CMD_foreground, _T(" [drive_letter ...]")}, {_T("install"), 3, install_service, 0, _T("")}, {_T("interact"), 3, set_service_interaction, TRUE, _T("")}, {_T("nointeract"), 1, set_service_interaction, FALSE, _T("")}, {_T("pause"), 1, control_service, CTRL_pause, _T("")}, {_T("remove"), 1, remove_service, 0, _T("")}, {_T("start"), 3, start_service, 0, _T("")}, {_T("stop"), 3, control_service, CTRL_stop, _T("")}, {_T("volscan"), 1, command_service, CMD_volscan, _T(" [drive_letter ...]")} }; static const int perf_value_count = 4; static _TCHAR *perf_tags[perf_value_count] = { _T("Library"), _T("Open"), _T("Collect"), _T("Close") }; static _TCHAR *perf_values[perf_value_count] = { _T("grovperf.dll"), _T("OpenGrovelerPerformanceData"), _T("CollectGrovelerPerformanceData"), _T("CloseGrovelerPerformanceData") }; void usage( _TCHAR *progname, _TCHAR *prefix = 0) { int prefixlen; if (prefix == 0) { prefixlen = 0; _ftprintf(stderr, _T("usage:\n")); } else { prefixlen = _tcslen(prefix); _ftprintf(stderr, _T("unrecognized or ambiguous command: %s\n"), prefix); } for (int index = 0; index < num_actions; index++) { _TCHAR *arg = actions[index].arg; int min_chars = actions[index].min_character_count; if (_tcsncicmp(prefix, arg, prefixlen) == 0) { _ftprintf(stderr, _T("\t%s %.*s[%s]%s\n"), progname, min_chars, arg, &arg[min_chars], actions[index].help); } } } void display_error( DWORD err = 0) { void *buffer = 0; if (err == 0) { err = GetLastError(); } DWORD lang = MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT); DWORD result = FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, 0, err, lang, (LPTSTR) &buffer, 0, 0); if (result != 0) { ASSERT(buffer != 0); _ftprintf(stderr, (_TCHAR *)buffer); } else { _ftprintf(stderr, _T("error number = %d\n"), err); } if (buffer != 0) { LocalFree(buffer); } } extern "C" __cdecl _tmain(int argc, _TCHAR **argv) { if (argc < 2) { usage(argv[0]); return 1; } int arglen = _tcslen(argv[1]); for (int index = 0; index < num_actions; index++) { if (arglen >= actions[index].min_character_count && _tcsncicmp(argv[1], actions[index].arg, arglen) == 0) { break; } } if (index < num_actions) { Function function = actions[index].function; int flag = actions[index].flag; ASSERT(function != 0); int exit_code = (*function)(flag, argc - 2, &argv[2]); return exit_code; } else { usage(argv[0], argv[1]); return 1; } } int install_service( int dummy, int argc, _TCHAR **argv) { SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_HANDLE service = CreateService(sc_manager, service_name, service_name, SERVICE_ALL_ACCESS, SERVICE_WIN32_OWN_PROCESS, SERVICE_DEMAND_START, SERVICE_ERROR_NORMAL, service_path, 0, 0, 0, 0, 0); if (service == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } _ftprintf(stderr, _T("Service installed\n")); CloseServiceHandle(service); CloseServiceHandle(sc_manager); #if DBG load_counters(); #endif // DBG return 0; } int remove_service( int dummy, int argc, _TCHAR **argv) { #if DBG unload_counters(); #endif // DBG SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_HANDLE service = OpenService(sc_manager, service_name, SERVICE_ALL_ACCESS); if (service == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } SERVICE_STATUS status; int ok = QueryServiceStatus(service, &status); if (ok && status.dwCurrentState != SERVICE_STOPPED) { ok = ControlService(service, SERVICE_CONTROL_STOP, &status); while (ok && status.dwCurrentState == SERVICE_STOP_PENDING) { Sleep(100); ok = QueryServiceStatus(service, &status); } if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } else if (status.dwCurrentState != SERVICE_STOPPED) { _ftprintf(stderr, _T("Unable to stop service\nService not removed\n")); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } } ok = DeleteService(service); if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } _ftprintf(stderr, _T("Service removed\n")); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 0; } int set_service_interaction( int interactive, int argc, _TCHAR **argv) { SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_LOCK sc_lock = LockServiceDatabase(sc_manager); if (sc_lock == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } SC_HANDLE service = OpenService(sc_manager, service_name, SERVICE_ALL_ACCESS); if (service == 0) { display_error(); UnlockServiceDatabase(sc_lock); CloseServiceHandle(sc_manager); return 1; } DWORD service_type = SERVICE_WIN32_OWN_PROCESS; if (interactive) { service_type |= SERVICE_INTERACTIVE_PROCESS; } int ok = ChangeServiceConfig(service, service_type, SERVICE_NO_CHANGE, SERVICE_NO_CHANGE, 0, 0, 0, 0, 0, 0, 0); if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } if (interactive) { _ftprintf(stderr, _T("Service configured for interaction\n")); } else { _ftprintf(stderr, _T("Service configured for no interaction\n")); } CloseServiceHandle(service); UnlockServiceDatabase(sc_lock); CloseServiceHandle(sc_manager); return 0; } int start_service( int dummy, int argc, _TCHAR **argv) { SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_HANDLE service = OpenService(sc_manager, service_name, SERVICE_ALL_ACCESS); if (service == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } SERVICE_STATUS status; int ok = StartService(service, 0, 0); if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } ok = QueryServiceStatus(service, &status); while (ok && status.dwCurrentState == SERVICE_START_PENDING) { Sleep(100); ok = QueryServiceStatus(service, &status); } if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } else if (status.dwCurrentState != SERVICE_RUNNING) { _ftprintf(stderr, _T("Service not started")); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } _ftprintf(stderr, _T("Service started\n")); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 0; } int control_service( int control, int argc, _TCHAR **argv) { DWORD control_code; DWORD pending_state; DWORD target_state; _TCHAR *good_message; _TCHAR *bad_message; switch (control) { case CTRL_stop: control_code = SERVICE_CONTROL_STOP; pending_state = SERVICE_STOP_PENDING; target_state = SERVICE_STOPPED; good_message = _T("Service stopped\n"); bad_message = _T("Service not stopped\n"); break; case CTRL_pause: control_code = SERVICE_CONTROL_PAUSE; pending_state = SERVICE_PAUSE_PENDING; target_state = SERVICE_PAUSED; good_message = _T("Service paused\n"); bad_message = _T("Service not paused\n"); break; case CTRL_continue: control_code = SERVICE_CONTROL_CONTINUE; pending_state = SERVICE_CONTINUE_PENDING; target_state = SERVICE_RUNNING; good_message = _T("Service continued\n"); bad_message = _T("Service not continued\n"); break; default: return 1; } SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_HANDLE service = OpenService(sc_manager, service_name, SERVICE_ALL_ACCESS); if (service == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } SERVICE_STATUS status; int ok = ControlService(service, control_code, &status); while (ok && status.dwCurrentState == pending_state) { Sleep(100); ok = QueryServiceStatus(service, &status); } if (!ok) { display_error(); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } else if (status.dwCurrentState != target_state) { _ftprintf(stderr, bad_message); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 1; } _ftprintf(stderr, good_message); CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 0; } int command_service( int command, int argc, _TCHAR **argv) { DWORD control_code; _TCHAR *message; switch (command) { case CMD_foreground: control_code = SERVICE_CONTROL_FOREGROUND; message = _T("Service mode set to foreground"); break; case CMD_background: control_code = SERVICE_CONTROL_BACKGROUND; message = _T("Service mode set to background"); break; case CMD_volscan: control_code = SERVICE_CONTROL_VOLSCAN; message = _T("Volume scan initiated"); break; default: return 1; } SC_HANDLE sc_manager = OpenSCManager(0, 0, SC_MANAGER_ALL_ACCESS); if (sc_manager == 0) { display_error(); return 1; } SC_HANDLE service = OpenService(sc_manager, service_name, SERVICE_ALL_ACCESS); if (service == 0) { display_error(); CloseServiceHandle(sc_manager); return 1; } int exit_code = 0; SERVICE_STATUS status; if (argc > 0) { for (int index = 0; index < argc; index++) { _TCHAR drive_letter = argv[index][0]; ASSERT(drive_letter != 0); if (drive_letter >= _T('a') && drive_letter <= _T('z') || drive_letter >= _T('A') && drive_letter <= _T('Z')) { DWORD drive_spec = SERVICE_CONTROL_PARTITION_MASK & (DWORD)(_totlower(drive_letter) - _T('a')); int ok = ControlService(service, control_code | drive_spec, &status); if (ok) { _ftprintf(stderr, _T("%s on drive %c\n"), message, drive_letter); } else { display_error(); exit_code++; } } else { _ftprintf(stderr, _T("Invalid drive letter: %c\n"), drive_letter); exit_code++; } } } else { int ok = ControlService(service, control_code | SERVICE_CONTROL_ALL_PARTITIONS, &status); if (ok) { _ftprintf(stderr, _T("%s on all drives\n"), message); } else { display_error(); exit_code++; } } CloseServiceHandle(service); CloseServiceHandle(sc_manager); return 0; } int load_counters() { HKEY grovperf_key = 0; HKEY perflib_key = 0; _TCHAR grovperf_path[1024]; _stprintf(grovperf_path, _T("SYSTEM\\CurrentControlSet\\Services\\%s\\Performance"), service_name); bool ok = Registry::write_string_set(HKEY_LOCAL_MACHINE, grovperf_path, perf_value_count, perf_values, perf_tags); if (!ok) { display_error(); _ftprintf(stderr, _T("Unable to configure performance counters\n")); return 1; } _ftprintf(stderr, _T("Adding counter names and explain text for %s\n"), service_name); try { Registry::open_key_ex(HKEY_LOCAL_MACHINE, grovperf_path, 0, KEY_ALL_ACCESS, &grovperf_key); Registry::open_key_ex(HKEY_LOCAL_MACHINE, _T("SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Perflib"), 0, KEY_ALL_ACCESS, &perflib_key); DWORD last_counter = 0; DWORD ctr_size = sizeof(DWORD); Registry::query_value_ex(perflib_key, _T("Last Counter"), 0, 0, (BYTE *)&last_counter, &ctr_size); DWORD last_help = 0; ctr_size = sizeof(DWORD); Registry::query_value_ex(perflib_key, _T("Last Help"), 0, 0, (BYTE *)&last_help, &ctr_size); DWORD current_counter; DWORD current_help; for (int language = 0; language < num_languages; language++) { HKEY lang_key = 0; BYTE *counter_text = 0; BYTE *help_text = 0; try { Registry::open_key_ex(perflib_key, language_codes[language], 0, KEY_ALL_ACCESS, &lang_key); DWORD ctr_size; Registry::query_value_ex(lang_key, _T("Counter"), 0, 0, 0, &ctr_size); counter_text = new BYTE[ctr_size + num_perf_counters * 64]; Registry::query_value_ex(lang_key, _T("Counter"), 0, 0, counter_text, &ctr_size); DWORD help_size; Registry::query_value_ex(lang_key, _T("Help"), 0, 0, 0, &help_size); help_text = new BYTE[help_size + num_perf_counters * 256]; Registry::query_value_ex(lang_key, _T("Help"), 0, 0, help_text, &help_size); current_counter = last_counter; current_help = last_help; _TCHAR *counter_point = (_TCHAR *)(counter_text + ctr_size - sizeof(_TCHAR)); _TCHAR *help_point = (_TCHAR *)(help_text + help_size - sizeof(_TCHAR)); current_counter += 2; int chars_written = _stprintf(counter_point, _T("%d%c%s%c"), current_counter, 0, object_info.text[language].counter_name, 0); counter_point += chars_written; ctr_size += chars_written * sizeof(_TCHAR); current_help += 2; chars_written = _stprintf(help_point, _T("%d%c%s%c"), current_help, 0, object_info.text[language].counter_help, 0); help_point += chars_written; help_size += chars_written * sizeof(_TCHAR); for (int index = 0; index < num_perf_counters; index++) { current_counter += 2; chars_written = _stprintf(counter_point, _T("%d%c%s%c"), current_counter, 0, counter_info[index].text[language].counter_name, 0); counter_point += chars_written; ctr_size += chars_written * sizeof(_TCHAR); current_help += 2; chars_written = _stprintf(help_point, _T("%d%c%s%c"), current_help, 0, counter_info[index].text[language].counter_help, 0); help_point += chars_written; help_size += chars_written * sizeof(_TCHAR); } Registry::set_value_ex(lang_key, _T("Counter"), 0, REG_MULTI_SZ, counter_text, ctr_size); Registry::set_value_ex(lang_key, _T("Help"), 0, REG_MULTI_SZ, help_text, help_size); delete[] counter_text; delete[] help_text; RegCloseKey(lang_key); lang_key = 0; _ftprintf(stderr, _T("Updating text for language %s\n"), language_codes[language]); } catch (DWORD) { if (counter_text != 0) { delete[] counter_text; counter_text = 0; } if (help_text != 0) { delete[] help_text; help_text = 0; } if (lang_key != 0) { RegCloseKey(lang_key); lang_key = 0; } } } Registry::set_value_ex(perflib_key, _T("Last Counter"), 0, REG_DWORD, (BYTE *)¤t_counter, sizeof(DWORD)); Registry::set_value_ex(perflib_key, _T("Last Help"), 0, REG_DWORD, (BYTE *)¤t_help, sizeof(DWORD)); DWORD first_counter = last_counter + 2; DWORD first_help = last_help + 2; Registry::set_value_ex(grovperf_key, _T("First Counter"), 0, REG_DWORD, (BYTE *)&first_counter, sizeof(DWORD)); Registry::set_value_ex(grovperf_key, _T("First Help"), 0, REG_DWORD, (BYTE *)&first_help, sizeof(DWORD)); Registry::set_value_ex(grovperf_key, _T("Last Counter"), 0, REG_DWORD, (BYTE *)¤t_counter, sizeof(DWORD)); Registry::set_value_ex(grovperf_key, _T("Last Help"), 0, REG_DWORD, (BYTE *)¤t_help, sizeof(DWORD)); Registry::close_key(grovperf_key); grovperf_key = 0; Registry::close_key(perflib_key); perflib_key = 0; } catch (DWORD) { if (grovperf_key != 0) { RegCloseKey(grovperf_key); grovperf_key = 0; } if (perflib_key != 0) { RegCloseKey(perflib_key); perflib_key = 0; } _ftprintf(stderr, _T("Unable to configure performance counters\n")); return 1; } return 0; } int unload_counters() { STARTUPINFO startupinfo; PROCESS_INFORMATION process_information; startupinfo.cb = sizeof(STARTUPINFO); startupinfo.lpReserved = 0; startupinfo.lpDesktop = 0; startupinfo.lpTitle = 0; startupinfo.dwFlags = 0; startupinfo.cbReserved2 = 0; startupinfo.lpReserved2 = 0; int pathlen = GetSystemDirectory(0, 0); if (pathlen == 0) { display_error(); return 1; } _TCHAR *command_line = new _TCHAR[pathlen + 64]; pathlen = GetSystemDirectory(command_line, pathlen); if (pathlen == 0) { delete[] command_line; display_error(); return 1; } _stprintf(&command_line[pathlen], _T("\\unlodctr.exe \"%s\""), service_name); BOOL ok = CreateProcess(0, command_line, 0, 0, FALSE, 0, 0, 0, &startupinfo, &process_information); if (!ok) { delete[] command_line; display_error(); return 1; } delete[] command_line; DWORD result = WaitForSingleObject(process_information.hProcess, 5000); _tprintf(_T("\n")); if (result != WAIT_OBJECT_0) { return 1; } return 0; }