/* * Services.exe - RPC functions * * Copyright 2007 Google (Mikolaj Zalewski) * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define WIN32_LEAN_AND_MEAN #include #include #include #include #include #include #include "wine/list.h" #include "wine/unicode.h" #include "wine/debug.h" #include "services.h" #include "svcctl.h" extern HANDLE CDECL __wine_make_process_system(void); WINE_DEFAULT_DEBUG_CHANNEL(service); static const GENERIC_MAPPING g_scm_generic = { (STANDARD_RIGHTS_READ | SC_MANAGER_ENUMERATE_SERVICE | SC_MANAGER_QUERY_LOCK_STATUS), (STANDARD_RIGHTS_WRITE | SC_MANAGER_CREATE_SERVICE | SC_MANAGER_MODIFY_BOOT_CONFIG), (STANDARD_RIGHTS_EXECUTE | SC_MANAGER_CONNECT | SC_MANAGER_LOCK), SC_MANAGER_ALL_ACCESS }; static const GENERIC_MAPPING g_svc_generic = { (STANDARD_RIGHTS_READ | SERVICE_QUERY_CONFIG | SERVICE_QUERY_STATUS | SERVICE_INTERROGATE | SERVICE_ENUMERATE_DEPENDENTS), (STANDARD_RIGHTS_WRITE | SERVICE_CHANGE_CONFIG), (STANDARD_RIGHTS_EXECUTE | SERVICE_START | SERVICE_STOP | SERVICE_PAUSE_CONTINUE | SERVICE_USER_DEFINED_CONTROL), SERVICE_ALL_ACCESS }; typedef enum { SC_HTYPE_DONT_CARE = 0, SC_HTYPE_MANAGER, SC_HTYPE_SERVICE } SC_HANDLE_TYPE; struct sc_handle { SC_HANDLE_TYPE type; DWORD access; }; struct sc_manager_handle /* service control manager handle */ { struct sc_handle hdr; struct scmdatabase *db; }; struct sc_service_handle /* service handle */ { struct sc_handle hdr; struct service_entry *service_entry; }; struct sc_lock { struct scmdatabase *db; }; static void free_service_strings(struct service_entry *old, struct service_entry *new) { QUERY_SERVICE_CONFIGW *old_cfg = &old->config; QUERY_SERVICE_CONFIGW *new_cfg = &new->config; if (old_cfg->lpBinaryPathName != new_cfg->lpBinaryPathName) HeapFree(GetProcessHeap(), 0, old_cfg->lpBinaryPathName); if (old_cfg->lpLoadOrderGroup != new_cfg->lpLoadOrderGroup) HeapFree(GetProcessHeap(), 0, old_cfg->lpLoadOrderGroup); if (old_cfg->lpServiceStartName != new_cfg->lpServiceStartName) HeapFree(GetProcessHeap(), 0, old_cfg->lpServiceStartName); if (old_cfg->lpDisplayName != new_cfg->lpDisplayName) HeapFree(GetProcessHeap(), 0, old_cfg->lpDisplayName); if (old->dependOnServices != new->dependOnServices) HeapFree(GetProcessHeap(), 0, old->dependOnServices); if (old->dependOnGroups != new->dependOnGroups) HeapFree(GetProcessHeap(), 0, old->dependOnGroups); } /* Check if the given handle is of the required type and allows the requested access. */ static DWORD validate_context_handle(SC_RPC_HANDLE handle, DWORD type, DWORD needed_access, struct sc_handle **out_hdr) { struct sc_handle *hdr = handle; if (type != SC_HTYPE_DONT_CARE && hdr->type != type) { WINE_ERR("Handle is of an invalid type (%d, %d)\n", hdr->type, type); return ERROR_INVALID_HANDLE; } if ((needed_access & hdr->access) != needed_access) { WINE_ERR("Access denied - handle created with access %x, needed %x\n", hdr->access, needed_access); return ERROR_ACCESS_DENIED; } *out_hdr = hdr; return ERROR_SUCCESS; } static DWORD validate_scm_handle(SC_RPC_HANDLE handle, DWORD needed_access, struct sc_manager_handle **manager) { struct sc_handle *hdr; DWORD err = validate_context_handle(handle, SC_HTYPE_MANAGER, needed_access, &hdr); if (err == ERROR_SUCCESS) *manager = (struct sc_manager_handle *)hdr; return err; } static DWORD validate_service_handle(SC_RPC_HANDLE handle, DWORD needed_access, struct sc_service_handle **service) { struct sc_handle *hdr; DWORD err = validate_context_handle(handle, SC_HTYPE_SERVICE, needed_access, &hdr); if (err == ERROR_SUCCESS) *service = (struct sc_service_handle *)hdr; return err; } DWORD __cdecl svcctl_OpenSCManagerW( MACHINE_HANDLEW MachineName, /* Note: this parameter is ignored */ LPCWSTR DatabaseName, DWORD dwAccessMask, SC_RPC_HANDLE *handle) { struct sc_manager_handle *manager; WINE_TRACE("(%s, %s, %x)\n", wine_dbgstr_w(MachineName), wine_dbgstr_w(DatabaseName), dwAccessMask); if (DatabaseName != NULL && DatabaseName[0]) { if (strcmpW(DatabaseName, SERVICES_FAILED_DATABASEW) == 0) return ERROR_DATABASE_DOES_NOT_EXIST; if (strcmpW(DatabaseName, SERVICES_ACTIVE_DATABASEW) != 0) return ERROR_INVALID_NAME; } if (!(manager = HeapAlloc(GetProcessHeap(), 0, sizeof(*manager)))) return ERROR_NOT_ENOUGH_SERVER_MEMORY; manager->hdr.type = SC_HTYPE_MANAGER; if (dwAccessMask & MAXIMUM_ALLOWED) dwAccessMask |= SC_MANAGER_ALL_ACCESS; manager->hdr.access = dwAccessMask; RtlMapGenericMask(&manager->hdr.access, &g_scm_generic); manager->db = active_database; *handle = &manager->hdr; return ERROR_SUCCESS; } static void SC_RPC_HANDLE_destroy(SC_RPC_HANDLE handle) { struct sc_handle *hdr = handle; switch (hdr->type) { case SC_HTYPE_MANAGER: { struct sc_manager_handle *manager = (struct sc_manager_handle *)hdr; HeapFree(GetProcessHeap(), 0, manager); break; } case SC_HTYPE_SERVICE: { struct sc_service_handle *service = (struct sc_service_handle *)hdr; release_service(service->service_entry); HeapFree(GetProcessHeap(), 0, service); break; } default: WINE_ERR("invalid handle type %d\n", hdr->type); RpcRaiseException(ERROR_INVALID_HANDLE); } } DWORD __cdecl svcctl_GetServiceDisplayNameW( SC_RPC_HANDLE hSCManager, LPCWSTR lpServiceName, WCHAR *lpBuffer, DWORD *cchBufSize) { struct sc_manager_handle *manager; struct service_entry *entry; DWORD err; WINE_TRACE("(%s, %d)\n", wine_dbgstr_w(lpServiceName), *cchBufSize); if ((err = validate_scm_handle(hSCManager, 0, &manager)) != ERROR_SUCCESS) return err; scmdatabase_lock_shared(manager->db); entry = scmdatabase_find_service(manager->db, lpServiceName); if (entry != NULL) { LPCWSTR name; int len; service_lock_shared(entry); name = get_display_name(entry); len = strlenW(name); if (len <= *cchBufSize) { err = ERROR_SUCCESS; memcpy(lpBuffer, name, (len + 1)*sizeof(*name)); } else err = ERROR_INSUFFICIENT_BUFFER; *cchBufSize = len; service_unlock(entry); } else err = ERROR_SERVICE_DOES_NOT_EXIST; scmdatabase_unlock(manager->db); if (err != ERROR_SUCCESS) lpBuffer[0] = 0; return err; } DWORD __cdecl svcctl_GetServiceKeyNameW( SC_RPC_HANDLE hSCManager, LPCWSTR lpServiceDisplayName, WCHAR *lpBuffer, DWORD *cchBufSize) { struct service_entry *entry; struct sc_manager_handle *manager; DWORD err; WINE_TRACE("(%s, %d)\n", wine_dbgstr_w(lpServiceDisplayName), *cchBufSize); if ((err = validate_scm_handle(hSCManager, 0, &manager)) != ERROR_SUCCESS) return err; scmdatabase_lock_shared(manager->db); entry = scmdatabase_find_service_by_displayname(manager->db, lpServiceDisplayName); if (entry != NULL) { int len; service_lock_shared(entry); len = strlenW(entry->name); if (len <= *cchBufSize) { err = ERROR_SUCCESS; memcpy(lpBuffer, entry->name, (len + 1)*sizeof(*entry->name)); } else err = ERROR_INSUFFICIENT_BUFFER; *cchBufSize = len; service_unlock(entry); } else err = ERROR_SERVICE_DOES_NOT_EXIST; scmdatabase_unlock(manager->db); if (err != ERROR_SUCCESS) lpBuffer[0] = 0; return err; } static DWORD create_handle_for_service(struct service_entry *entry, DWORD dwDesiredAccess, SC_RPC_HANDLE *phService) { struct sc_service_handle *service; if (!(service = HeapAlloc(GetProcessHeap(), 0, sizeof(*service)))) { release_service(entry); return ERROR_NOT_ENOUGH_SERVER_MEMORY; } service->hdr.type = SC_HTYPE_SERVICE; service->hdr.access = dwDesiredAccess; RtlMapGenericMask(&service->hdr.access, &g_svc_generic); service->service_entry = entry; if (dwDesiredAccess & MAXIMUM_ALLOWED) dwDesiredAccess |= SERVICE_ALL_ACCESS; *phService = &service->hdr; return ERROR_SUCCESS; } DWORD __cdecl svcctl_OpenServiceW( SC_RPC_HANDLE hSCManager, LPCWSTR lpServiceName, DWORD dwDesiredAccess, SC_RPC_HANDLE *phService) { struct sc_manager_handle *manager; struct service_entry *entry; DWORD err; WINE_TRACE("(%s, 0x%x)\n", wine_dbgstr_w(lpServiceName), dwDesiredAccess); if ((err = validate_scm_handle(hSCManager, 0, &manager)) != ERROR_SUCCESS) return err; if (!validate_service_name(lpServiceName)) return ERROR_INVALID_NAME; scmdatabase_lock_shared(manager->db); entry = scmdatabase_find_service(manager->db, lpServiceName); if (entry != NULL) InterlockedIncrement(&entry->ref_count); scmdatabase_unlock(manager->db); if (entry == NULL) return ERROR_SERVICE_DOES_NOT_EXIST; return create_handle_for_service(entry, dwDesiredAccess, phService); } static DWORD parse_dependencies(const WCHAR *dependencies, struct service_entry *entry) { WCHAR *services = NULL, *groups, *s; DWORD len, len_services = 0, len_groups = 0; const WCHAR *ptr = dependencies; if (!dependencies || !dependencies[0]) { entry->dependOnServices = NULL; entry->dependOnGroups = NULL; return ERROR_SUCCESS; } while (*ptr) { len = strlenW(ptr) + 1; if (ptr[0] == '+' && ptr[1]) len_groups += len - 1; else len_services += len; ptr += len; } if (!len_services) entry->dependOnServices = NULL; else { services = HeapAlloc(GetProcessHeap(), 0, (len_services + 1) * sizeof(WCHAR)); if (!services) return ERROR_OUTOFMEMORY; s = services; ptr = dependencies; while (*ptr) { len = strlenW(ptr) + 1; if (*ptr != '+') { strcpyW(s, ptr); s += len; } ptr += len; } *s = 0; entry->dependOnServices = services; } if (!len_groups) entry->dependOnGroups = NULL; else { groups = HeapAlloc(GetProcessHeap(), 0, (len_groups + 1) * sizeof(WCHAR)); if (!groups) { HeapFree(GetProcessHeap(), 0, services); return ERROR_OUTOFMEMORY; } s = groups; ptr = dependencies; while (*ptr) { len = strlenW(ptr) + 1; if (ptr[0] == '+' && ptr[1]) { strcpyW(s, ptr + 1); s += len - 1; } ptr += len; } *s = 0; entry->dependOnGroups = groups; } return ERROR_SUCCESS; } DWORD __cdecl svcctl_CreateServiceW( SC_RPC_HANDLE hSCManager, LPCWSTR lpServiceName, LPCWSTR lpDisplayName, DWORD dwDesiredAccess, DWORD dwServiceType, DWORD dwStartType, DWORD dwErrorControl, LPCWSTR lpBinaryPathName, LPCWSTR lpLoadOrderGroup, DWORD *lpdwTagId, const BYTE *lpDependencies, DWORD dwDependenciesSize, LPCWSTR lpServiceStartName, const BYTE *lpPassword, DWORD dwPasswordSize, SC_RPC_HANDLE *phService) { struct sc_manager_handle *manager; struct service_entry *entry; DWORD err; WINE_TRACE("(%s, %s, 0x%x, %s)\n", wine_dbgstr_w(lpServiceName), wine_dbgstr_w(lpDisplayName), dwDesiredAccess, wine_dbgstr_w(lpBinaryPathName)); if ((err = validate_scm_handle(hSCManager, SC_MANAGER_CREATE_SERVICE, &manager)) != ERROR_SUCCESS) return err; if (!validate_service_name(lpServiceName)) return ERROR_INVALID_NAME; if (!check_multisz((LPCWSTR)lpDependencies, dwDependenciesSize) || !lpServiceName[0] || !lpBinaryPathName[0]) return ERROR_INVALID_PARAMETER; if (lpPassword) WINE_FIXME("Don't know how to add a password\n"); /* I always get ERROR_GEN_FAILURE */ err = service_create(lpServiceName, &entry); if (err != ERROR_SUCCESS) return err; err = parse_dependencies((LPCWSTR)lpDependencies, entry); if (err != ERROR_SUCCESS) return err; entry->ref_count = 1; entry->config.dwServiceType = entry->status.dwServiceType = dwServiceType; entry->config.dwStartType = dwStartType; entry->config.dwErrorControl = dwErrorControl; entry->config.lpBinaryPathName = strdupW(lpBinaryPathName); entry->config.lpLoadOrderGroup = strdupW(lpLoadOrderGroup); entry->config.lpServiceStartName = strdupW(lpServiceStartName); entry->config.lpDisplayName = strdupW(lpDisplayName); if (lpdwTagId) /* TODO: In most situations a non-NULL TagId will generate an ERROR_INVALID_PARAMETER. */ entry->config.dwTagId = *lpdwTagId; else entry->config.dwTagId = 0; /* other fields NULL*/ if (!validate_service_config(entry)) { WINE_ERR("Invalid data while trying to create service\n"); free_service_entry(entry); return ERROR_INVALID_PARAMETER; } scmdatabase_lock_exclusive(manager->db); if (scmdatabase_find_service(manager->db, lpServiceName)) { scmdatabase_unlock(manager->db); free_service_entry(entry); return ERROR_SERVICE_EXISTS; } if (scmdatabase_find_service_by_displayname(manager->db, get_display_name(entry))) { scmdatabase_unlock(manager->db); free_service_entry(entry); return ERROR_DUPLICATE_SERVICE_NAME; } err = scmdatabase_add_service(manager->db, entry); if (err != ERROR_SUCCESS) { scmdatabase_unlock(manager->db); free_service_entry(entry); return err; } scmdatabase_unlock(manager->db); return create_handle_for_service(entry, dwDesiredAccess, phService); } DWORD __cdecl svcctl_DeleteService( SC_RPC_HANDLE hService) { struct sc_service_handle *service; DWORD err; if ((err = validate_service_handle(hService, DELETE, &service)) != ERROR_SUCCESS) return err; scmdatabase_lock_exclusive(service->service_entry->db); service_lock_exclusive(service->service_entry); if (!is_marked_for_delete(service->service_entry)) err = scmdatabase_remove_service(service->service_entry->db, service->service_entry); else err = ERROR_SERVICE_MARKED_FOR_DELETE; service_unlock(service->service_entry); scmdatabase_unlock(service->service_entry->db); return err; } DWORD __cdecl svcctl_QueryServiceConfigW( SC_RPC_HANDLE hService, QUERY_SERVICE_CONFIGW *config) { struct sc_service_handle *service; DWORD err; WINE_TRACE("(%p)\n", config); if ((err = validate_service_handle(hService, SERVICE_QUERY_CONFIG, &service)) != 0) return err; service_lock_shared(service->service_entry); config->dwServiceType = service->service_entry->config.dwServiceType; config->dwStartType = service->service_entry->config.dwStartType; config->dwErrorControl = service->service_entry->config.dwErrorControl; config->lpBinaryPathName = strdupW(service->service_entry->config.lpBinaryPathName); config->lpLoadOrderGroup = strdupW(service->service_entry->config.lpLoadOrderGroup); config->dwTagId = service->service_entry->config.dwTagId; config->lpDependencies = NULL; /* TODO */ config->lpServiceStartName = strdupW(service->service_entry->config.lpServiceStartName); config->lpDisplayName = strdupW(service->service_entry->config.lpDisplayName); service_unlock(service->service_entry); return ERROR_SUCCESS; } DWORD __cdecl svcctl_ChangeServiceConfigW( SC_RPC_HANDLE hService, DWORD dwServiceType, DWORD dwStartType, DWORD dwErrorControl, LPCWSTR lpBinaryPathName, LPCWSTR lpLoadOrderGroup, DWORD *lpdwTagId, const BYTE *lpDependencies, DWORD dwDependenciesSize, LPCWSTR lpServiceStartName, const BYTE *lpPassword, DWORD dwPasswordSize, LPCWSTR lpDisplayName) { struct service_entry new_entry, *entry; struct sc_service_handle *service; DWORD err; WINE_TRACE("\n"); if ((err = validate_service_handle(hService, SERVICE_CHANGE_CONFIG, &service)) != 0) return err; if (!check_multisz((LPCWSTR)lpDependencies, dwDependenciesSize)) return ERROR_INVALID_PARAMETER; /* first check if the new configuration is correct */ service_lock_exclusive(service->service_entry); if (is_marked_for_delete(service->service_entry)) { service_unlock(service->service_entry); return ERROR_SERVICE_MARKED_FOR_DELETE; } if (lpDisplayName != NULL && (entry = scmdatabase_find_service_by_displayname(service->service_entry->db, lpDisplayName)) && (entry != service->service_entry)) { service_unlock(service->service_entry); return ERROR_DUPLICATE_SERVICE_NAME; } new_entry = *service->service_entry; if (dwServiceType != SERVICE_NO_CHANGE) new_entry.config.dwServiceType = dwServiceType; if (dwStartType != SERVICE_NO_CHANGE) new_entry.config.dwStartType = dwStartType; if (dwErrorControl != SERVICE_NO_CHANGE) new_entry.config.dwErrorControl = dwErrorControl; if (lpBinaryPathName != NULL) new_entry.config.lpBinaryPathName = (LPWSTR)lpBinaryPathName; if (lpLoadOrderGroup != NULL) new_entry.config.lpLoadOrderGroup = (LPWSTR)lpLoadOrderGroup; if (lpdwTagId != NULL) WINE_FIXME("Changing tag id not supported\n"); if (lpServiceStartName != NULL) new_entry.config.lpServiceStartName = (LPWSTR)lpServiceStartName; if (lpPassword != NULL) WINE_FIXME("Setting password not supported\n"); if (lpDisplayName != NULL) new_entry.config.lpDisplayName = (LPWSTR)lpDisplayName; err = parse_dependencies((LPCWSTR)lpDependencies, &new_entry); if (err != ERROR_SUCCESS) { service_unlock(service->service_entry); return err; } if (!validate_service_config(&new_entry)) { WINE_ERR("The configuration after the change wouldn't be valid\n"); service_unlock(service->service_entry); return ERROR_INVALID_PARAMETER; } /* configuration OK. The strings needs to be duplicated */ if (lpBinaryPathName != NULL) new_entry.config.lpBinaryPathName = strdupW(lpBinaryPathName); if (lpLoadOrderGroup != NULL) new_entry.config.lpLoadOrderGroup = strdupW(lpLoadOrderGroup); if (lpServiceStartName != NULL) new_entry.config.lpServiceStartName = strdupW(lpServiceStartName); if (lpDisplayName != NULL) new_entry.config.lpDisplayName = strdupW(lpDisplayName); /* try to save to Registry, commit or rollback depending on success */ err = save_service_config(&new_entry); if (ERROR_SUCCESS == err) { free_service_strings(service->service_entry, &new_entry); *service->service_entry = new_entry; } else free_service_strings(&new_entry, service->service_entry); service_unlock(service->service_entry); return err; } DWORD __cdecl svcctl_SetServiceStatus( SC_RPC_HANDLE hServiceStatus, LPSERVICE_STATUS lpServiceStatus) { struct sc_service_handle *service; DWORD err; WINE_TRACE("(%p, %p)\n", hServiceStatus, lpServiceStatus); if ((err = validate_service_handle(hServiceStatus, SERVICE_SET_STATUS, &service)) != 0) return err; service_lock_exclusive(service->service_entry); /* FIXME: be a bit more discriminant about what parts of the status we set * and check that fields are valid */ service->service_entry->status.dwServiceType = lpServiceStatus->dwServiceType; service->service_entry->status.dwCurrentState = lpServiceStatus->dwCurrentState; service->service_entry->status.dwControlsAccepted = lpServiceStatus->dwControlsAccepted; service->service_entry->status.dwWin32ExitCode = lpServiceStatus->dwWin32ExitCode; service->service_entry->status.dwServiceSpecificExitCode = lpServiceStatus->dwServiceSpecificExitCode; service->service_entry->status.dwCheckPoint = lpServiceStatus->dwCheckPoint; service->service_entry->status.dwWaitHint = lpServiceStatus->dwWaitHint; service_unlock(service->service_entry); if (service->service_entry->status_changed_event) SetEvent(service->service_entry->status_changed_event); return ERROR_SUCCESS; } DWORD __cdecl svcctl_ChangeServiceConfig2W( SC_RPC_HANDLE hService, DWORD level, SERVICE_CONFIG2W *config ) { struct sc_service_handle *service; DWORD err; if ((err = validate_service_handle(hService, SERVICE_CHANGE_CONFIG, &service)) != 0) return err; switch (level) { case SERVICE_CONFIG_DESCRIPTION: { WCHAR *descr = NULL; if (config->descr.lpDescription[0]) { if (!(descr = strdupW( config->descr.lpDescription ))) return ERROR_NOT_ENOUGH_MEMORY; } WINE_TRACE( "changing service %p descr to %s\n", service, wine_dbgstr_w(descr) ); service_lock_exclusive( service->service_entry ); HeapFree( GetProcessHeap(), 0, service->service_entry->description ); service->service_entry->description = descr; save_service_config( service->service_entry ); service_unlock( service->service_entry ); } break; case SERVICE_CONFIG_FAILURE_ACTIONS: WINE_FIXME( "SERVICE_CONFIG_FAILURE_ACTIONS not implemented: period %u msg %s cmd %s\n", config->actions.dwResetPeriod, wine_dbgstr_w(config->actions.lpRebootMsg), wine_dbgstr_w(config->actions.lpCommand) ); break; default: WINE_FIXME("level %u not implemented\n", level); err = ERROR_INVALID_LEVEL; break; } return err; } DWORD __cdecl svcctl_QueryServiceConfig2W( SC_RPC_HANDLE hService, DWORD level, BYTE *buffer, DWORD size, LPDWORD needed ) { struct sc_service_handle *service; DWORD err; memset(buffer, 0, size); if ((err = validate_service_handle(hService, SERVICE_QUERY_STATUS, &service)) != 0) return err; switch (level) { case SERVICE_CONFIG_DESCRIPTION: { SERVICE_DESCRIPTIONW *descr = (SERVICE_DESCRIPTIONW *)buffer; service_lock_shared(service->service_entry); *needed = sizeof(*descr); if (service->service_entry->description) *needed += (strlenW(service->service_entry->description) + 1) * sizeof(WCHAR); if (size >= *needed) { if (service->service_entry->description) { /* store a buffer offset instead of a pointer */ descr->lpDescription = (WCHAR *)((BYTE *)(descr + 1) - buffer); strcpyW( (WCHAR *)(descr + 1), service->service_entry->description ); } else descr->lpDescription = NULL; } else err = ERROR_INSUFFICIENT_BUFFER; service_unlock(service->service_entry); } break; default: WINE_FIXME("level %u not implemented\n", level); err = ERROR_INVALID_LEVEL; break; } return err; } DWORD __cdecl svcctl_QueryServiceStatusEx( SC_RPC_HANDLE hService, SC_STATUS_TYPE InfoLevel, BYTE *lpBuffer, DWORD cbBufSize, LPDWORD pcbBytesNeeded) { struct sc_service_handle *service; DWORD err; LPSERVICE_STATUS_PROCESS pSvcStatusData; memset(lpBuffer, 0, cbBufSize); if ((err = validate_service_handle(hService, SERVICE_QUERY_STATUS, &service)) != 0) return err; if (InfoLevel != SC_STATUS_PROCESS_INFO) return ERROR_INVALID_LEVEL; pSvcStatusData = (LPSERVICE_STATUS_PROCESS) lpBuffer; if (pSvcStatusData == NULL) return ERROR_INVALID_PARAMETER; if (cbBufSize < sizeof(SERVICE_STATUS_PROCESS)) { if( pcbBytesNeeded != NULL) *pcbBytesNeeded = sizeof(SERVICE_STATUS_PROCESS); return ERROR_INSUFFICIENT_BUFFER; } service_lock_shared(service->service_entry); pSvcStatusData->dwServiceType = service->service_entry->status.dwServiceType; pSvcStatusData->dwCurrentState = service->service_entry->status.dwCurrentState; pSvcStatusData->dwControlsAccepted = service->service_entry->status.dwControlsAccepted; pSvcStatusData->dwWin32ExitCode = service->service_entry->status.dwWin32ExitCode; pSvcStatusData->dwServiceSpecificExitCode = service->service_entry->status.dwServiceSpecificExitCode; pSvcStatusData->dwCheckPoint = service->service_entry->status.dwCheckPoint; pSvcStatusData->dwWaitHint = service->service_entry->status.dwWaitHint; pSvcStatusData->dwProcessId = service->service_entry->status.dwProcessId; pSvcStatusData->dwServiceFlags = service->service_entry->status.dwServiceFlags; service_unlock(service->service_entry); return ERROR_SUCCESS; } /****************************************************************************** * service_accepts_control */ static BOOL service_accepts_control(const struct service_entry *service, DWORD dwControl) { DWORD a = service->status.dwControlsAccepted; switch (dwControl) { case SERVICE_CONTROL_INTERROGATE: return TRUE; case SERVICE_CONTROL_STOP: if (a&SERVICE_ACCEPT_STOP) return TRUE; break; case SERVICE_CONTROL_SHUTDOWN: if (a&SERVICE_ACCEPT_SHUTDOWN) return TRUE; break; case SERVICE_CONTROL_PAUSE: case SERVICE_CONTROL_CONTINUE: if (a&SERVICE_ACCEPT_PAUSE_CONTINUE) return TRUE; break; case SERVICE_CONTROL_PARAMCHANGE: if (a&SERVICE_ACCEPT_PARAMCHANGE) return TRUE; break; case SERVICE_CONTROL_NETBINDADD: case SERVICE_CONTROL_NETBINDREMOVE: case SERVICE_CONTROL_NETBINDENABLE: case SERVICE_CONTROL_NETBINDDISABLE: if (a&SERVICE_ACCEPT_NETBINDCHANGE) return TRUE; case SERVICE_CONTROL_HARDWAREPROFILECHANGE: if (a&SERVICE_ACCEPT_HARDWAREPROFILECHANGE) return TRUE; break; case SERVICE_CONTROL_POWEREVENT: if (a&SERVICE_ACCEPT_POWEREVENT) return TRUE; break; case SERVICE_CONTROL_SESSIONCHANGE: if (a&SERVICE_ACCEPT_SESSIONCHANGE) return TRUE; break; } return FALSE; } /****************************************************************************** * service_send_command */ BOOL service_send_command( struct service_entry *service, HANDLE pipe, const void *data, DWORD size, DWORD *result ) { OVERLAPPED overlapped; DWORD count; BOOL r; overlapped.hEvent = service->overlapped_event; r = WriteFile(pipe, data, size, &count, &overlapped); if (!r && GetLastError() == ERROR_IO_PENDING) { WaitForSingleObject( service->overlapped_event, service_pipe_timeout ); r = GetOverlappedResult( pipe, &overlapped, &count, FALSE ); } if (!r || count != size) { WINE_ERR("service protocol error - failed to write pipe!\n"); return FALSE; } r = ReadFile(pipe, result, sizeof *result, &count, &overlapped); if (!r && GetLastError() == ERROR_IO_PENDING) { WaitForSingleObject( service->overlapped_event, service_pipe_timeout ); r = GetOverlappedResult( pipe, &overlapped, &count, FALSE ); } if (!r || count != sizeof *result) { WINE_ERR("service protocol error - failed to read pipe " "r = %d count = %d!\n", r, count); return FALSE; } return r; } /****************************************************************************** * service_send_control */ static BOOL service_send_control(struct service_entry *service, HANDLE pipe, DWORD dwControl, DWORD *result) { service_start_info *ssi; DWORD len; BOOL r; /* calculate how much space we need to send the startup info */ len = strlenW(service->name) + 1; ssi = HeapAlloc(GetProcessHeap(),0,FIELD_OFFSET(service_start_info, data[len])); ssi->cmd = WINESERV_SENDCONTROL; ssi->control = dwControl; ssi->total_size = FIELD_OFFSET(service_start_info, data[len]); ssi->name_size = strlenW(service->name) + 1; strcpyW( ssi->data, service->name ); r = service_send_command( service, pipe, ssi, ssi->total_size, result ); HeapFree( GetProcessHeap(), 0, ssi ); return r; } DWORD __cdecl svcctl_StartServiceW( SC_RPC_HANDLE hService, DWORD dwNumServiceArgs, LPCWSTR *lpServiceArgVectors) { struct sc_service_handle *service; DWORD err; WINE_TRACE("(%p, %d, %p)\n", hService, dwNumServiceArgs, lpServiceArgVectors); if ((err = validate_service_handle(hService, SERVICE_START, &service)) != 0) return err; err = service_start(service->service_entry, dwNumServiceArgs, lpServiceArgVectors); return err; } DWORD __cdecl svcctl_ControlService( SC_RPC_HANDLE hService, DWORD dwControl, SERVICE_STATUS *lpServiceStatus) { DWORD access_required; struct sc_service_handle *service; DWORD err; BOOL ret; HANDLE control_mutex; HANDLE control_pipe; WINE_TRACE("(%p, %d, %p)\n", hService, dwControl, lpServiceStatus); switch (dwControl) { case SERVICE_CONTROL_CONTINUE: case SERVICE_CONTROL_NETBINDADD: case SERVICE_CONTROL_NETBINDDISABLE: case SERVICE_CONTROL_NETBINDENABLE: case SERVICE_CONTROL_NETBINDREMOVE: case SERVICE_CONTROL_PARAMCHANGE: case SERVICE_CONTROL_PAUSE: access_required = SERVICE_PAUSE_CONTINUE; break; case SERVICE_CONTROL_INTERROGATE: access_required = SERVICE_INTERROGATE; break; case SERVICE_CONTROL_STOP: access_required = SERVICE_STOP; break; default: if (dwControl >= 128 && dwControl <= 255) access_required = SERVICE_USER_DEFINED_CONTROL; else return ERROR_INVALID_PARAMETER; } if ((err = validate_service_handle(hService, access_required, &service)) != 0) return err; service_lock_exclusive(service->service_entry); if (lpServiceStatus) { lpServiceStatus->dwServiceType = service->service_entry->status.dwServiceType; lpServiceStatus->dwCurrentState = service->service_entry->status.dwCurrentState; lpServiceStatus->dwControlsAccepted = service->service_entry->status.dwControlsAccepted; lpServiceStatus->dwWin32ExitCode = service->service_entry->status.dwWin32ExitCode; lpServiceStatus->dwServiceSpecificExitCode = service->service_entry->status.dwServiceSpecificExitCode; lpServiceStatus->dwCheckPoint = service->service_entry->status.dwCheckPoint; lpServiceStatus->dwWaitHint = service->service_entry->status.dwWaitHint; } if (!service_accepts_control(service->service_entry, dwControl)) { service_unlock(service->service_entry); return ERROR_INVALID_SERVICE_CONTROL; } switch (service->service_entry->status.dwCurrentState) { case SERVICE_STOPPED: service_unlock(service->service_entry); return ERROR_SERVICE_NOT_ACTIVE; case SERVICE_START_PENDING: if (dwControl==SERVICE_CONTROL_STOP) break; /* fall thru */ case SERVICE_STOP_PENDING: service_unlock(service->service_entry); return ERROR_SERVICE_CANNOT_ACCEPT_CTRL; } /* prevent races by caching these variables and clearing them on * stop here instead of outside the services lock */ control_mutex = service->service_entry->control_mutex; control_pipe = service->service_entry->control_pipe; if (dwControl == SERVICE_CONTROL_STOP) { service->service_entry->control_mutex = NULL; service->service_entry->control_pipe = INVALID_HANDLE_VALUE; } service_unlock(service->service_entry); ret = WaitForSingleObject(control_mutex, 30000); if (ret == WAIT_OBJECT_0) { DWORD result = ERROR_SUCCESS; ret = service_send_control(service->service_entry, control_pipe, dwControl, &result); if (dwControl == SERVICE_CONTROL_STOP) { CloseHandle(control_mutex); CloseHandle(control_pipe); } else ReleaseMutex(control_mutex); return result; } else { if (dwControl == SERVICE_CONTROL_STOP) { CloseHandle(control_mutex); CloseHandle(control_pipe); } return ERROR_SERVICE_REQUEST_TIMEOUT; } } DWORD __cdecl svcctl_CloseServiceHandle( SC_RPC_HANDLE *handle) { WINE_TRACE("(&%p)\n", *handle); SC_RPC_HANDLE_destroy(*handle); *handle = NULL; return ERROR_SUCCESS; } static void SC_RPC_LOCK_destroy(SC_RPC_LOCK hLock) { struct sc_lock *lock = hLock; scmdatabase_unlock_startup(lock->db); HeapFree(GetProcessHeap(), 0, lock); } void __RPC_USER SC_RPC_LOCK_rundown(SC_RPC_LOCK hLock) { SC_RPC_LOCK_destroy(hLock); } DWORD __cdecl svcctl_LockServiceDatabase( SC_RPC_HANDLE hSCManager, SC_RPC_LOCK *phLock) { struct sc_manager_handle *manager; struct sc_lock *lock; DWORD err; WINE_TRACE("(%p, %p)\n", hSCManager, phLock); if ((err = validate_scm_handle(hSCManager, SC_MANAGER_LOCK, &manager)) != ERROR_SUCCESS) return err; err = scmdatabase_lock_startup(manager->db); if (err != ERROR_SUCCESS) return err; lock = HeapAlloc(GetProcessHeap(), 0, sizeof(struct sc_lock)); if (!lock) { scmdatabase_unlock_startup(manager->db); return ERROR_NOT_ENOUGH_SERVER_MEMORY; } lock->db = manager->db; *phLock = lock; return ERROR_SUCCESS; } DWORD __cdecl svcctl_UnlockServiceDatabase( SC_RPC_LOCK *phLock) { WINE_TRACE("(&%p)\n", *phLock); SC_RPC_LOCK_destroy(*phLock); *phLock = NULL; return ERROR_SUCCESS; } static BOOL map_state(DWORD state, DWORD mask) { switch (state) { case SERVICE_START_PENDING: case SERVICE_STOP_PENDING: case SERVICE_RUNNING: case SERVICE_CONTINUE_PENDING: case SERVICE_PAUSE_PENDING: case SERVICE_PAUSED: if (SERVICE_ACTIVE & mask) return TRUE; break; case SERVICE_STOPPED: if (SERVICE_INACTIVE & mask) return TRUE; break; default: WINE_ERR("unknown state %u\n", state); break; } return FALSE; } DWORD __cdecl svcctl_EnumServicesStatusW( SC_RPC_HANDLE hmngr, DWORD type, DWORD state, BYTE *buffer, DWORD size, LPDWORD needed, LPDWORD returned) { DWORD err, sz, total_size, num_services; DWORD_PTR offset; struct sc_manager_handle *manager; struct service_entry *service; ENUM_SERVICE_STATUSW *s; WINE_TRACE("(%p, 0x%x, 0x%x, %p, %u, %p, %p)\n", hmngr, type, state, buffer, size, needed, returned); if (!type || !state) return ERROR_INVALID_PARAMETER; if ((err = validate_scm_handle(hmngr, SC_MANAGER_ENUMERATE_SERVICE, &manager)) != ERROR_SUCCESS) return err; scmdatabase_lock_exclusive(manager->db); total_size = num_services = 0; LIST_FOR_EACH_ENTRY(service, &manager->db->services, struct service_entry, entry) { if ((service->status.dwServiceType & type) && map_state(service->status.dwCurrentState, state)) { total_size += sizeof(ENUM_SERVICE_STATUSW); total_size += (strlenW(service->name) + 1) * sizeof(WCHAR); if (service->config.lpDisplayName) { total_size += (strlenW(service->config.lpDisplayName) + 1) * sizeof(WCHAR); } num_services++; } } *returned = 0; *needed = total_size; if (total_size > size) { scmdatabase_unlock(manager->db); return ERROR_MORE_DATA; } s = (ENUM_SERVICE_STATUSW *)buffer; offset = num_services * sizeof(ENUM_SERVICE_STATUSW); LIST_FOR_EACH_ENTRY(service, &manager->db->services, struct service_entry, entry) { if ((service->status.dwServiceType & type) && map_state(service->status.dwCurrentState, state)) { sz = (strlenW(service->name) + 1) * sizeof(WCHAR); memcpy(buffer + offset, service->name, sz); s->lpServiceName = (WCHAR *)offset; /* store a buffer offset instead of a pointer */ offset += sz; if (!service->config.lpDisplayName) s->lpDisplayName = NULL; else { sz = (strlenW(service->config.lpDisplayName) + 1) * sizeof(WCHAR); memcpy(buffer + offset, service->config.lpDisplayName, sz); s->lpDisplayName = (WCHAR *)offset; offset += sz; } memcpy(&s->ServiceStatus, &service->status, sizeof(SERVICE_STATUS)); s++; } } *returned = num_services; *needed = 0; scmdatabase_unlock(manager->db); return ERROR_SUCCESS; } static struct service_entry *find_service_by_group(struct scmdatabase *db, const WCHAR *group) { struct service_entry *service; LIST_FOR_EACH_ENTRY(service, &db->services, struct service_entry, entry) { if (service->config.lpLoadOrderGroup && !strcmpiW(group, service->config.lpLoadOrderGroup)) return service; } return NULL; } static BOOL match_group(const WCHAR *g1, const WCHAR *g2) { if (!g2) return TRUE; if (!g2[0] && (!g1 || !g1[0])) return TRUE; if (g1 && !strcmpW(g1, g2)) return TRUE; return FALSE; } DWORD __cdecl svcctl_EnumServicesStatusExW( SC_RPC_HANDLE hmngr, DWORD type, DWORD state, BYTE *buffer, DWORD size, LPDWORD needed, LPDWORD returned, LPCWSTR group) { DWORD err, sz, total_size, num_services; DWORD_PTR offset; struct sc_manager_handle *manager; struct service_entry *service; ENUM_SERVICE_STATUS_PROCESSW *s; WINE_TRACE("(%p, 0x%x, 0x%x, %p, %u, %p, %p, %s)\n", hmngr, type, state, buffer, size, needed, returned, wine_dbgstr_w(group)); if (!type || !state) return ERROR_INVALID_PARAMETER; if ((err = validate_scm_handle(hmngr, SC_MANAGER_ENUMERATE_SERVICE, &manager)) != ERROR_SUCCESS) return err; scmdatabase_lock_exclusive(manager->db); if (group && !find_service_by_group(manager->db, group)) { scmdatabase_unlock(manager->db); return ERROR_SERVICE_DOES_NOT_EXIST; } total_size = num_services = 0; LIST_FOR_EACH_ENTRY(service, &manager->db->services, struct service_entry, entry) { if ((service->status.dwServiceType & type) && map_state(service->status.dwCurrentState, state) && match_group(service->config.lpLoadOrderGroup, group)) { total_size += sizeof(ENUM_SERVICE_STATUS_PROCESSW); total_size += (strlenW(service->name) + 1) * sizeof(WCHAR); if (service->config.lpDisplayName) { total_size += (strlenW(service->config.lpDisplayName) + 1) * sizeof(WCHAR); } num_services++; } } *returned = 0; *needed = total_size; if (total_size > size) { scmdatabase_unlock(manager->db); return ERROR_MORE_DATA; } s = (ENUM_SERVICE_STATUS_PROCESSW *)buffer; offset = num_services * sizeof(ENUM_SERVICE_STATUS_PROCESSW); LIST_FOR_EACH_ENTRY(service, &manager->db->services, struct service_entry, entry) { if ((service->status.dwServiceType & type) && map_state(service->status.dwCurrentState, state) && match_group(service->config.lpLoadOrderGroup, group)) { sz = (strlenW(service->name) + 1) * sizeof(WCHAR); memcpy(buffer + offset, service->name, sz); s->lpServiceName = (WCHAR *)offset; /* store a buffer offset instead of a pointer */ offset += sz; if (!service->config.lpDisplayName) s->lpDisplayName = NULL; else { sz = (strlenW(service->config.lpDisplayName) + 1) * sizeof(WCHAR); memcpy(buffer + offset, service->config.lpDisplayName, sz); s->lpDisplayName = (WCHAR *)offset; offset += sz; } s->ServiceStatusProcess = service->status; s++; } } *returned = num_services; *needed = 0; scmdatabase_unlock(manager->db); return ERROR_SUCCESS; } DWORD __cdecl svcctl_QueryServiceObjectSecurity(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_SetServiceObjectSecurity(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_QueryServiceStatus(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_NotifyBootConfigStatus(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_SCSetServiceBitsW(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_EnumDependentServicesW(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_QueryServiceLockStatusW(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_SCSetServiceBitsA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_ChangeServiceConfigA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_CreateServiceA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_EnumDependentServicesA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_EnumServicesStatusA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_OpenSCManagerA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_OpenServiceA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_QueryServiceConfigA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_QueryServiceLockStatusA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_StartServiceA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_GetServiceDisplayNameA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_GetServiceKeyNameA(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_GetCurrentGroupStateW(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_EnumServiceGroupW(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_ChangeServiceConfig2A(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD __cdecl svcctl_QueryServiceConfig2A(void) { WINE_FIXME("\n"); return ERROR_CALL_NOT_IMPLEMENTED; } DWORD RPC_Init(void) { WCHAR transport[] = SVCCTL_TRANSPORT; WCHAR endpoint[] = SVCCTL_ENDPOINT; DWORD err; if ((err = RpcServerUseProtseqEpW(transport, 0, endpoint, NULL)) != ERROR_SUCCESS) { WINE_ERR("RpcServerUseProtseq failed with error %u\n", err); return err; } if ((err = RpcServerRegisterIf(svcctl_v2_0_s_ifspec, 0, 0)) != ERROR_SUCCESS) { WINE_ERR("RpcServerRegisterIf failed with error %u\n", err); return err; } if ((err = RpcServerListen(1, RPC_C_LISTEN_MAX_CALLS_DEFAULT, TRUE)) != ERROR_SUCCESS) { WINE_ERR("RpcServerListen failed with error %u\n", err); return err; } return ERROR_SUCCESS; } DWORD RPC_MainLoop(void) { DWORD err; HANDLE hExitEvent = __wine_make_process_system(); SetEvent(g_hStartedEvent); WINE_TRACE("Entered main loop\n"); do { err = WaitForSingleObjectEx(hExitEvent, INFINITE, TRUE); WINE_TRACE("Wait returned %d\n", err); } while (err != WAIT_OBJECT_0); WINE_TRACE("Object signaled - wine shutdown\n"); CloseHandle(hExitEvent); return ERROR_SUCCESS; } void __RPC_USER SC_RPC_HANDLE_rundown(SC_RPC_HANDLE handle) { SC_RPC_HANDLE_destroy(handle); } void __RPC_FAR * __RPC_USER MIDL_user_allocate(SIZE_T len) { return HeapAlloc(GetProcessHeap(), 0, len); } void __RPC_USER MIDL_user_free(void __RPC_FAR * ptr) { HeapFree(GetProcessHeap(), 0, ptr); }