/* Any copyright is dedicated to the Public Domain. * http://creativecommons.org/publicdomain/zero/1.0/ */ #include "updatedefines.h" #ifdef XP_WIN # include "commonupdatedir.h" # include "updatehelper.h" # include "certificatecheck.h" # define NS_main wmain # define NS_tgetcwd _wgetcwd # define NS_ttoi _wtoi #else # define NS_main main # define NS_tgetcwd getcwd # define NS_ttoi atoi #endif #include #include #include #include #include #include static void WriteMsg(const NS_tchar* path, const char* status) { FILE* outFP = NS_tfopen(path, NS_T("wb")); if (!outFP) { return; } fprintf(outFP, "%s\n", status); fclose(outFP); outFP = nullptr; } static bool CheckMsg(const NS_tchar* path, const char* expected) { FILE* inFP = NS_tfopen(path, NS_T("rb")); if (!inFP) { return false; } struct stat ms; if (fstat(fileno(inFP), &ms)) { fclose(inFP); inFP = nullptr; return false; } char* mbuf = (char*)malloc(ms.st_size + 1); if (!mbuf) { fclose(inFP); inFP = nullptr; return false; } size_t r = ms.st_size; char* rb = mbuf; size_t c = fread(rb, sizeof(char), 50, inFP); r -= c; if (c == 0 && r) { free(mbuf); fclose(inFP); inFP = nullptr; return false; } mbuf[ms.st_size] = '\0'; rb = mbuf; bool isMatch = strcmp(rb, expected) == 0; free(mbuf); fclose(inFP); inFP = nullptr; return isMatch; } int NS_main(int argc, NS_tchar** argv) { if (argc == 2) { if (!NS_tstrcmp(argv[1], NS_T("post-update-async")) || !NS_tstrcmp(argv[1], NS_T("post-update-sync"))) { NS_tchar exePath[MAXPATHLEN]; #ifdef XP_WIN if (!::GetModuleFileNameW(0, exePath, MAXPATHLEN)) { return 1; } #else if (!NS_tvsnprintf(exePath, sizeof(exePath) / sizeof(exePath[0]), NS_T("%s"), argv[0])) { return 1; } #endif NS_tchar runFilePath[MAXPATHLEN]; if (!NS_tvsnprintf(runFilePath, sizeof(runFilePath) / sizeof(runFilePath[0]), NS_T("%s.running"), exePath)) { return 1; } #ifdef XP_WIN if (!NS_taccess(runFilePath, F_OK)) { // This makes it possible to check if the post update process was // launched twice which happens when the service performs an update. NS_tchar runFilePathBak[MAXPATHLEN]; if (!NS_tvsnprintf(runFilePathBak, sizeof(runFilePathBak) / sizeof(runFilePathBak[0]), NS_T("%s.bak"), runFilePath)) { return 1; } MoveFileExW(runFilePath, runFilePathBak, MOVEFILE_REPLACE_EXISTING); } #endif WriteMsg(runFilePath, "running"); if (!NS_tstrcmp(argv[1], NS_T("post-update-sync"))) { #ifdef XP_WIN Sleep(2000); #else sleep(2); #endif } NS_tchar logFilePath[MAXPATHLEN]; if (!NS_tvsnprintf(logFilePath, sizeof(logFilePath) / sizeof(logFilePath[0]), NS_T("%s.log"), exePath)) { return 1; } WriteMsg(logFilePath, "post-update"); return 0; } } if (argc < 3) { fprintf( stderr, "\n" "Application Update Service Test Helper\n" "\n" "Usage: WORKINGDIR INFILE OUTFILE -s SECONDS [FILETOLOCK]\n" " or: WORKINGDIR LOGFILE [ARG2 ARG3...]\n" " or: signature-check filepath\n" " or: setup-symlink dir1 dir2 file symlink\n" " or: remove-symlink dir1 dir2 file symlink\n" " or: check-symlink symlink\n" " or: post-update\n" " or: create-update-dir\n" "\n" " WORKINGDIR \tThe relative path to the working directory to use.\n" " INFILE \tThe relative path from the working directory for the " "file to\n" " \tread actions to perform such as finish.\n" " OUTFILE \tThe relative path from the working directory for the " "file to\n" " \twrite status information.\n" " SECONDS \tThe number of seconds to sleep.\n" " FILETOLOCK \tThe relative path from the working directory to an " "existing\n" " \tfile to open exlusively.\n" " \tOnly available on Windows platforms and silently " "ignored on\n" " \tother platforms.\n" " LOGFILE \tThe relative path from the working directory to log " "the\n" " \tcommand line arguments.\n" " ARG2 ARG3...\tArguments to write to the LOGFILE after the preceding " "command\n" " \tline arguments.\n" "\n" "Note: All paths must be relative.\n" "\n"); return 1; } if (!NS_tstrcmp(argv[1], NS_T("check-signature"))) { #if defined(XP_WIN) && defined(MOZ_MAINTENANCE_SERVICE) if (ERROR_SUCCESS == VerifyCertificateTrustForFile(argv[2])) { return 0; } else { return 1; } #else // Not implemented on non-Windows platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("setup-symlink"))) { #ifdef XP_UNIX NS_tchar path[MAXPATHLEN]; if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s"), NS_T("/tmp"), argv[2])) { return 1; } if (mkdir(path, 0755)) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s/%s"), NS_T("/tmp"), argv[2], argv[3])) { return 1; } if (mkdir(path, 0755)) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s/%s/%s"), NS_T("/tmp"), argv[2], argv[3], argv[4])) { return 1; } FILE* file = NS_tfopen(path, NS_T("w")); if (file) { fputs(NS_T("test"), file); fclose(file); } if (symlink(path, argv[5]) != 0) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s"), NS_T("/tmp"), argv[2])) { return 1; } if (argc > 6 && !NS_tstrcmp(argv[6], NS_T("change-perm"))) { if (chmod(path, 0644)) { return 1; } } return 0; #else // Not implemented on non-Unix platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("remove-symlink"))) { #ifdef XP_UNIX // The following can be called at the start of a test in case these symlinks // need to be removed if they already exist and at the end of a test to // remove the symlinks created by the test so ignore file doesn't exist // errors. NS_tchar path[MAXPATHLEN]; if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s"), NS_T("/tmp"), argv[2])) { return 1; } if (chmod(path, 0755) && errno != ENOENT) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s/%s/%s"), NS_T("/tmp"), argv[2], argv[3], argv[4])) { return 1; } if (unlink(path) && errno != ENOENT) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s/%s"), NS_T("/tmp"), argv[2], argv[3])) { return 1; } if (rmdir(path) && errno != ENOENT) { return 1; } if (!NS_tvsnprintf(path, sizeof(path) / sizeof(path[0]), NS_T("%s/%s"), NS_T("/tmp"), argv[2])) { return 1; } if (rmdir(path) && errno != ENOENT) { return 1; } return 0; #else // Not implemented on non-Unix platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("check-symlink"))) { #ifdef XP_UNIX struct stat ss; if (lstat(argv[2], &ss)) { return 1; } return S_ISLNK(ss.st_mode) ? 0 : 1; #else // Not implemented on non-Unix platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("wait-for-service-stop"))) { #if defined(XP_WIN) && defined(MOZ_MAINTENANCE_SERVICE) const int maxWaitSeconds = NS_ttoi(argv[3]); LPCWSTR serviceName = argv[2]; DWORD serviceState = WaitForServiceStop(serviceName, maxWaitSeconds); if (SERVICE_STOPPED == serviceState) { return 0; } else { return serviceState; } #else // Not implemented on non-Windows platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("wait-for-application-exit"))) { #ifdef XP_WIN const int maxWaitSeconds = NS_ttoi(argv[3]); LPCWSTR application = argv[2]; DWORD ret = WaitForProcessExit(application, maxWaitSeconds); if (ERROR_SUCCESS == ret) { return 0; } else if (WAIT_TIMEOUT == ret) { return 1; } else { return 2; } #else // Not implemented on non-Windows platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("launch-service"))) { #if defined(XP_WIN) && defined(MOZ_MAINTENANCE_SERVICE) DWORD ret = LaunchServiceSoftwareUpdateCommand(argc - 2, (LPCWSTR*)argv + 2); if (ret != ERROR_SUCCESS) { // 192 is used to avoid reusing a possible return value from the call to // WaitForServiceStop return 0x000000C0; } // Wait a maximum of 120 seconds. DWORD lastState = WaitForServiceStop(SVC_NAME, 120); if (SERVICE_STOPPED == lastState) { return 0; } return lastState; #else // Not implemented on non-Windows platforms return 1; #endif } if (!NS_tstrcmp(argv[1], NS_T("create-update-dir"))) { #ifdef XP_WIN mozilla::UniquePtr updateDir; HRESULT result = GetCommonUpdateDirectory( argv[2], SetPermissionsOf::BaseDirIfNotExists, updateDir); return SUCCEEDED(result) ? 0 : 1; #else // Not implemented on non-Windows platforms return 1; #endif } if (NS_tchdir(argv[1]) != 0) { return 1; } // File in use test helper section if (!NS_tstrcmp(argv[4], NS_T("-s"))) { // Note: glibc's getcwd() allocates the buffer dynamically using malloc(3) // if buf (the 1st param) is NULL so free cwd when it is no longer needed. NS_tchar* cwd = NS_tgetcwd(nullptr, 0); NS_tchar inFilePath[MAXPATHLEN]; if (!NS_tvsnprintf(inFilePath, sizeof(inFilePath) / sizeof(inFilePath[0]), NS_T("%s/%s"), cwd, argv[2])) { return 1; } NS_tchar outFilePath[MAXPATHLEN]; if (!NS_tvsnprintf(outFilePath, sizeof(outFilePath) / sizeof(outFilePath[0]), NS_T("%s/%s"), cwd, argv[3])) { return 1; } free(cwd); int seconds = NS_ttoi(argv[5]); #ifdef XP_WIN HANDLE hFile = INVALID_HANDLE_VALUE; if (argc == 7) { hFile = CreateFileW(argv[6], DELETE | GENERIC_WRITE, 0, nullptr, OPEN_EXISTING, 0, nullptr); if (hFile == INVALID_HANDLE_VALUE) { WriteMsg(outFilePath, "error_locking"); return 1; } } WriteMsg(outFilePath, "sleeping"); int i = 0; while (!CheckMsg(inFilePath, "finish\n") && i++ <= seconds) { Sleep(1000); } if (argc == 7) { CloseHandle(hFile); } #else WriteMsg(outFilePath, "sleeping"); int i = 0; while (!CheckMsg(inFilePath, "finish\n") && i++ <= seconds) { sleep(1); } #endif WriteMsg(outFilePath, "finished"); return 0; } { // Command line argument test helper section NS_tchar logFilePath[MAXPATHLEN]; if (!NS_tvsnprintf(logFilePath, sizeof(logFilePath) / sizeof(logFilePath[0]), NS_T("%s"), argv[2])) { return 1; } FILE* logFP = NS_tfopen(logFilePath, NS_T("wb")); if (!logFP) { return 1; } for (int i = 1; i < argc; ++i) { fprintf(logFP, LOG_S "\n", argv[i]); } fclose(logFP); logFP = nullptr; } return 0; }