void printVersion() { if (cfg.version) { printAbout(); exit(EXIT_SUCCESS); } }
void comandos(tTabla tabla, char comando){ switch (comando) { case 'b': backupTable(tabla); break; case 'v': setTable(tabla); break; case 'a': printHelp(); break; case 'c': printAbout(); break; } }
static void inputCommand(void) { char command[20]; printf("Type 'help' to see help\n\n"); while (true) { fgets(command, 20, stdin); if (command[strlen(command) - 1] == '\n') { command[strlen(command) - 1] = '\0'; } if (_stricmp(command, "about") == 0) { printAbout(); } else if (_stricmp(command, "help") == 0) { printHelp(); } else if (_stricmp(command, "log on") == 0) { g_RPCServer.SetLogOn(true); } else if (_stricmp(command, "log off") == 0) { g_RPCServer.SetLogOn(false); } else if (_stricmp(command, "list") == 0) { printList(); } else if (_stricmp(command, "quit") == 0) { if (g_MountProg.GetMountNumber() == 0) { break; } else { printConfirmQuit(); fgets(command, 20, stdin); if (command[0] == 'y' || command[0] == 'Y') { break; } } } else if (_stricmp(command, "refresh") == 0) { g_MountProg.Refresh(); } else if (_stricmp(command, "reset") == 0) { g_RPCServer.Set(PROG_NFS, NULL); } else if (strcmp(command, "") != 0) { printf("Unknown command: '%s'\n", command); printf("Type 'help' to see help\n"); } } }
int main(int argc, char *argv[]) { std::vector<std::vector<std::string>> pPaths; char *pPath = NULL; bool pathFile = false; WSADATA wsaData; printAbout(); if (argc < 2) { pPath = strrchr(argv[0], '\\'); pPath = pPath == NULL ? argv[0] : pPath + 1; printUsage(pPath); return 1; } g_nUID = g_nGID = 0; g_bLogOn = true; g_sFileName = NULL; for (int i = 1; i < argc; i++) {//parse parameters if (_stricmp(argv[i], "-id") == 0) { g_nUID = atoi(argv[++i]); g_nGID = atoi(argv[++i]); } else if (_stricmp(argv[i], "-log") == 0) { g_bLogOn = _stricmp(argv[++i], "off") != 0; } else if (_stricmp(argv[i], "-pathFile") == 0) { g_sFileName = argv[++i]; if (g_MountProg.SetPathFile(g_sFileName) == false) { printf("Can't open file %s.\n", g_sFileName); return 1; } else { g_MountProg.Refresh(); pathFile = true; } } else if (i == argc - 2) { pPath = argv[argc - 2]; //path is before the last parameter char *pCurPathAlias = argv[argc - 1]; //path alias is the last parameter if (pPath != NULL || pCurPathAlias != NULL) { std::vector<std::string> pCurPaths; pCurPaths.push_back(std::string(pPath)); pCurPaths.push_back(std::string(pCurPathAlias)); pPaths.push_back(pCurPaths); } break; } else if (i == argc - 1) { char *pPath = argv[argc - 1]; //path is the last parameter if (pPath != NULL) { char curPathAlias[MAXPATHLEN]; strcpy_s(curPathAlias, pPath); char *pCurPathAlias = curPathAlias; std::vector<std::string> pCurPaths; pCurPaths.push_back(std::string(pPath)); pCurPaths.push_back(std::string(pCurPathAlias)); pPaths.push_back(pCurPaths); } break; } } HWND console = GetConsoleWindow(); if (g_bLogOn == false && IsWindow(console)) { ShowWindow(console, SW_HIDE); // hides the window } if (pPaths.size() <= 0 && !pathFile) { printf("No paths to mount\n"); return 1; } WSAStartup(0x0101, &wsaData); start(pPaths); WSACleanup(); return 0; }
int main(int argc, char **argv) { if (argc == 1) { printHelp(argv, false); return 0; } std::string command = argv[1]; if (command == "-dv" || command == "--deltav") { if (argc >= 5) { DeltaVCalculator dvCalc; float result = dvCalc.Calculate (argc, argv); printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("Δv syntax: -dv [isp] [total mass] [fuel mass 1] [fuel mass 2] [fuel mass 3]...\n"); return 0; } } if (command == "-twr" || command == "--thrust-to-weight") { if (argc >= 4) { TWRCalculator twrCalc; float result = twrCalc.Calculate (argc, argv); printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("TWR syntax: -twr [total mass] [thrust 1] [thrust 2] [thrust 3]...\n"); return 0; } } if (command == "-isp" || command == "--specific-impulse") { if (argc >= 3 && ((argc-1) % 2) != 0) { IspCalculator ispCalc; float result = ispCalc.Calculate (argc, argv); printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("ISP syntax: -isp [thrust 1] [isp 1] [thrust 2] [isp 2]...\n"); return 0; } } if (command == "-tdv" || command == "--true-deltav") { if (argc >= 6) { TrueDeltaVCalculator tdvCalc; float result = tdvCalc.Calculate (argc, argv); printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("True Δv syntax: -tdv [atmIsp] [vacIsp] [escapeDv] [total mass] [fuel mass 1] [fuel mass 2]...\n"); return 0; } } if (command == "-cpu" || command == "--convert-propellant-units") { if (argc >= 3) { float result = 0; for (int i = 2; i < argc; i++) { result += atof(argv[i]) / 200; } printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("Conversion syntax: -cpu [propellant units]\n"); return 0; } } if (command == "-fm" || command == "--fuel-mass") { if (argc == 8) { FuelMassCalculator fmCalc; float result = fmCalc.Calculate (argc, argv); printf("%f\n", result); return 0; } else { printf("Error: invalid syntax\n"); printf("Fuel mass syntax: -fm [Δv] [isp] [numEngines] [massEngine] [massPayload] [fullEmptyRatio]\n"); return 0; } } if (command == "-ts" || command == "--time-split") { if (argc == 4) { if (atoi(argv[3]) >= 60) { printf("Error: invalid number of seconds\n"); return 0; } double wseconds = ((atof(argv[2])*60) + atof(argv[3])) / 120; double minutes = 0; double seconds = modf (wseconds, &minutes) * 60; printf("%.0fm%.1fs\n", minutes, seconds); return 0; } else if (argc == 3) { if (atoi(argv[2]) >= 60) { printf("Error: invalid number of seconds\n"); return 0; } double seconds = atof(argv[2]) / 2; printf("%.1fs\n", seconds); return 0; } else { printf("Error: invalid syntax\n"); printf("Time split syntax: -ts [min] [s]\n"); return 0; } } if (command == "-h" || command == "--help") { printHelp(argv, true); return 0; } if (command == "-a" || command == "--about") { printAbout(argv, version); return 0; } printf("Error: invalid option specified\n"); return 0; }
int main(int argc, char *argv[]) { char *pPath; char m_pPathAlias[MAXPATHLEN]; char *pPathAlias; WSADATA wsaData; printAbout(); if (argc < 2) { pPath = strrchr(argv[0], '\\'); pPath = pPath == NULL? argv[0] : pPath + 1; printUsage(pPath); return 1; } /*if (argc == 2) { pPath = argv[argc - 1]; //path is the last parameter if (*pPath == '"') ++pPath; //remove head " if (*(pPath + strlen(pPath) - 1) == '"') *(pPath + strlen(pPath) - 1) = '\0'; //remove tail " if (pPath[0] == '.' && pPath[1] == '\0') { static char path1[MAXPATHLEN]; getcwd(path1, MAXPATHLEN); pPath = path1; } else if (pPath[1] != ':' || !((pPath[0] >= 'A' && pPath[0] <= 'Z') || (pPath[0] >= 'a' && pPath[0] <= 'z'))) //check path format { printf("Path format is incorrect.\n"); printf("Please use a full path such as C:\\work"); return 1; } strncpy(m_pPathAlias, pPath, sizeof(m_pPathAlias) - 1); m_pPathAlias[1] = m_pPathAlias[0]; //transform mount path to Windows format m_pPathAlias[0] = '/'; for (size_t i = 2; i < strlen(pPath); i++) if (m_pPathAlias[i] == '\\') m_pPathAlias[i] = '/'; m_pPathAlias[strlen(pPath)] = '\0'; pPathAlias = m_pPathAlias; } else if (argc == 3) { pPath = argv[argc - 2]; //path is before the last parameter if (*pPath == '"') ++pPath; //remove head " if (*(pPath + strlen(pPath) - 1) == '"') *(pPath + strlen(pPath) - 1) = '\0'; //remove tail " if (pPath[0] == '.' && pPath[1] == '\0') { static char path1[MAXPATHLEN]; getcwd(path1, MAXPATHLEN); pPath = path1; } else if (pPath[1] != ':' || !((pPath[0] >= 'A' && pPath[0] <= 'Z') || (pPath[0] >= 'a' && pPath[0] <= 'z'))) //check path format { printf("Path format is incorrect.\n"); printf("Please use a full path such as C:\\work"); return 1; } pPathAlias = argv[argc - 1]; //path alias is the last parameter if (*pPathAlias == '"') ++pPathAlias; //remove head " if (*(pPathAlias + strlen(pPathAlias) - 1) == '"') *(pPathAlias + strlen(pPathAlias) - 1) = '\0'; //remove tail " if (pPathAlias[0] != '/') //check path alias format { printf("Path alias format is incorrect.\n"); printf("Please use a path like /exports\n"); return 1; } }*/ g_nUID = g_nGID = 0; g_bLogOn = true; for (int i = 1; i < argc; i++) //parse parameters { if (stricmp(argv[i], "-id") == 0) { g_nUID = atoi(argv[++i]); g_nGID = atoi(argv[++i]); } else if (stricmp(argv[i], "-log") == 0) { g_bLogOn = stricmp(argv[++i], "off") != 0; } else if (i==argc - 2) { pPath = argv[argc - 2]; //path is before the last parameter if (*pPath == '"') ++pPath; //remove head " if (*(pPath + strlen(pPath) - 1) == '"') *(pPath + strlen(pPath) - 1) = '\0'; //remove tail " if (pPath[0] == '.' && pPath[1] == '\0') { static char path1[MAXPATHLEN]; getcwd(path1, MAXPATHLEN); pPath = path1; } else if (pPath[1] != ':' || !((pPath[0] >= 'A' && pPath[0] <= 'Z') || (pPath[0] >= 'a' && pPath[0] <= 'z'))) //check path format { printf("Path format is incorrect.\n"); printf("Please use a full path such as C:\\work"); return 1; } pPathAlias = argv[argc - 1]; //path alias is the last parameter if (*pPathAlias == '"') ++pPathAlias; //remove head " if (*(pPathAlias + strlen(pPathAlias) - 1) == '"') *(pPathAlias + strlen(pPathAlias) - 1) = '\0'; //remove tail " if (pPathAlias[0] != '/') //check path alias format { printf("Path alias format is incorrect.\n"); printf("Please use a path like /exports\n"); return 1; } break; } else if (i==argc - 1) { pPath = argv[argc - 1]; //path is the last parameter if (*pPath == '"') ++pPath; //remove head " if (*(pPath + strlen(pPath) - 1) == '"') *(pPath + strlen(pPath) - 1) = '\0'; //remove tail " if (pPath[0] == '.' && pPath[1] == '\0') { static char path1[MAXPATHLEN]; getcwd(path1, MAXPATHLEN); pPath = path1; } else if (pPath[1] != ':' || !((pPath[0] >= 'A' && pPath[0] <= 'Z') || (pPath[0] >= 'a' && pPath[0] <= 'z'))) //check path format { printf("Path format is incorrect.\n"); printf("Please use a full path such as C:\\work"); return 1; } strncpy(m_pPathAlias, pPath, sizeof(m_pPathAlias) - 1); m_pPathAlias[1] = m_pPathAlias[0]; //transform mount path to Windows format m_pPathAlias[0] = '/'; for (size_t i = 2; i < strlen(pPath); i++) if (m_pPathAlias[i] == '\\') m_pPathAlias[i] = '/'; m_pPathAlias[strlen(pPath)] = '\0'; pPathAlias = m_pPathAlias; break; } } WSAStartup(0x0101, &wsaData); printf("Starting, path is: %s, path alias is: %s\n", pPath, pPathAlias); start(pPath, pPathAlias); WSACleanup(); return 0; }
void menu() { int selectedMenuItem; char varPassword[MAXPASSWORDSIZE] = {""}; char varReservedWords[MAXRESERVEDWORDS][16]; char varSavedPasswords[MAXRESERVEDWORDS][16]; do { selectedMenuItem = selectMenu(varPassword, varReservedWords, varSavedPasswords); switch(selectedMenuItem) { // 1 menu item, Verify password case 0: system("cls"); printframe(28, 2, 49,6, 2); setCursorPosition(31,4); scanf("%s",varPassword); //fgets(varPassword, MAXPASSWORDSIZE, stdin); fflush(stdin); readReservedWords(varReservedWords, MAXRESERVEDWORDS); readSavedPasswords(varSavedPasswords,MAXRESERVEDWORDS); verifyPW(varPassword, varReservedWords, MAXRESERVEDWORDS,varSavedPasswords,MAXRESERVEDWORDS,true); setCursorPosition(20,24); system("pause"); break; // 2 menu item, Generate password case 1: system("cls"); //setCursorPosition(20,17); readReservedWords(varReservedWords, MAXRESERVEDWORDS); readSavedPasswords(varSavedPasswords,MAXRESERVEDWORDS); generatePW(varPassword, MAXPASSWORDSIZE, varReservedWords, MAXRESERVEDWORDS, varSavedPasswords,MAXRESERVEDWORDS); printPasswordIfExists(varPassword, MAXPASSWORDSIZE, varReservedWords, MAXRESERVEDWORDS, varSavedPasswords,MAXRESERVEDWORDS); setCursorPosition(20,24); system("pause"); break; // 3 menu item, Save password case 2: system("cls"); readReservedWords(varReservedWords, MAXRESERVEDWORDS); readSavedPasswords(varSavedPasswords,MAXRESERVEDWORDS); printPasswordIfExists(varPassword, MAXPASSWORDSIZE, varReservedWords, MAXRESERVEDWORDS, varSavedPasswords,MAXRESERVEDWORDS); if ((savePasswordchar(varPassword,varReservedWords,MAXRESERVEDWORDS,varSavedPasswords,MAXRESERVEDWORDS)) == 1) { setCursorPosition(30,21); printColouredText("The password is saved successfully.",4); } else { setCursorPosition(30,21); printColouredText("We can't save the password.",3); } setCursorPosition(20,24); system("pause"); break; // 4 menu item, About case 3: system("cls"); printAbout(); setCursorPosition(20,24); system("pause"); break; } } while (selectedMenuItem != LASTMENUITEM); }
int main(void) { CURL *curl_handle; CURLcode res; char *townName = (char *) secure_malloc(1); char readKeyBoard_char=' '; size_t townName_size=1; int choice=TOWN_NAME; char *name_validity_pointer=NULL; int query_strin_Size=strlen(initValue_queryValue)+1; char *query_string=(char *)secure_malloc(query_strin_Size); struct MemoryStruct chunk; secure_strcpy(query_string,initValue_queryValue); ////////////////////////////////begin big while LOOP while(1) { switch(choice) { case PRINT_TEMPERATURE: system("cls"); print_temp(chunk.memory); printf("\nPress anything to go back.."); _getch(); break; case PRINT_HUMIDITY: system("cls"); print_humidity(chunk.memory); printf("\nPress anything to back.."); _getch(); break; case TOWN_NAME: name_validity_pointer= NULL; while(name_validity_pointer==NULL){ chunk.memory =(char*) secure_malloc(1); /* will be grown as needed by the realloc above */ chunk.size = 0; /* no data at this point */ curl_global_init(CURL_GLOBAL_ALL); /* init the curl session */ curl_handle = curl_easy_init(); /* specify URL to get */ printf("\nplease enter townName:"); if(townName) { free(townName); townName=NULL; } townName_size=1; readKeyBoard_char=' '; townName=(char *) secure_malloc(1); while(1) { readKeyBoard_char=_getch(); if((int)readKeyBoard_char == ASCII_Code_ENTER) break; printf("%c",readKeyBoard_char); townName[townName_size-1]=readKeyBoard_char; townName[townName_size]='\0'; townName_size++; townName=(char *) realloc(townName,townName_size+1); } townName[townName_size]='\0'; secure_strcpy(query_string,initValue_queryValue); query_strin_Size = strlen(initValue_queryValue)+townName_size+strlen(lastPart_queryValue)+1; query_string=(char *) realloc(query_string,query_strin_Size); strcat_s(query_string,townName_size,townName); strcat_s(query_string,strlen(lastPart_queryValue),lastPart_queryValue); query_string[query_strin_Size]='\0'; curl_easy_setopt(curl_handle, CURLOPT_URL, query_string); /* send all data to this function */ curl_easy_setopt(curl_handle, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); /* we pass our 'chunk' struct to the callback function */ curl_easy_setopt(curl_handle, CURLOPT_WRITEDATA, (void *)&chunk); /* some servers don't like requests that are made without a user-agent field, so we provide one */ curl_easy_setopt(curl_handle, CURLOPT_USERAGENT, "libcurl-agent/1.0"); /* get it! */ res = curl_easy_perform(curl_handle); /* check for errors */ if(res != CURLE_OK) { fprintf(stderr, "Connection to the server failed: %s\n", curl_easy_strerror(res)); } else { /* * Now, our chunk.memory points to a memory block that is chunk.size * bytes big and contains the remote file.*/ name_validity_pointer=strstr(chunk.memory,"Error: Not found city"); if(name_validity_pointer!=NULL) { printf("please enter a valid town name ,you have entered %s\n",townName); free_dynamicVar(chunk.memory); name_validity_pointer=NULL; } else{ name_validity_pointer = (char *) !NULL; } } } printf("\nThe town name %s is accepted",townName); Sleep(SECOND); break; case ABOUT_APPLICATION: system("cls"); printAbout(); printf("\nPress anything to back.."); _getch(); break; case EXIT: printf("Please enter any key to exit the Weather Application.."); _getch(); break; } if(choice == EXIT) break; system("cls"); printf("Welcome to Embedded Weather Station !\n"); printf("************The Menu ***************\n"); printf("1) Consult the temperature\n"); printf("2) Consult the humidity\n"); printf("3) change the town's name\n"); printf("4) About the application\n"); printf("5) exit the application\n"); printf("\nPlease enter a valid choice: (between 1 and 5):"); choice = DEFAULT; choice = (int)_getch() - ASCII_Code_0; while((choice < PRINT_TEMPERATURE) || (choice > EXIT)) { choice=(int)getchar()-ASCII_Code_0; } } ///////////////////////////////end big while /* cleanup curl stuff */ curl_easy_cleanup(curl_handle); free_dynamicVar(chunk.memory); free_dynamicVar(query_string); /* we're done with libcurl, so clean it up */ curl_global_cleanup(); return 0; }
void about(){ printAbout(); }