/* * client.c - simple terminal client for operationg with * Standa's 8MT175-150 translator by SMSD-1.5 driver * * Hardware operates in microsterpping mode (1/16), * max current = 1.2A * voltage = 12V * "0" of driver connected to end-switch at opposite from motor side * switch of motor's side connected to "IN1" * * Copyright 2013 Edward V. Emelianoff * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA. */ #include // tcsetattr #include // tcsetattr, close, read, write #include // ioctl #include // printf, getchar, fopen, perror #include // exit #include // read #include // read #include // signal #include // time #include // memcpy, strcmp etc #include // int types #include // gettimeofday #define DBG(...) do{fprintf(stderr, __VA_ARGS__); }while(0) //double t0; // start time static int bus_error = 0; // last error of data output enum{ NO_ERROR = 0, // normal execution CODE_ERR, // error of exexuted program code BUS_ERR, // data transmission error COMMAND_ERR, // wrong command CMD_DATA_ERR, // wrong data of command UNDEFINED_ERR // something else wrong }; FILE *fout = NULL; // file for messages duplicating char *comdev = "/dev/ttyUSB0"; int BAUD_RATE = B9600; uint16_t step_spd = 900; // stepper speed: 225 steps per second in 1/1 mode struct termio oldtty, tty; // TTY flags struct termios oldt, newt; // terminal flags int comfd = -1; // TTY fd int erase_ctrlr(); /** * function for different purposes that need to know time intervals * @return double value: time in seconds * double dtime(){ double t; struct timeval tv; gettimeofday(&tv, NULL); t = tv.tv_sec + ((double)tv.tv_usec)/1e6; return t; }*/ /** * Exit & return terminal to old state * @param ex_stat - status (return code) */ void quit(int ex_stat){ tcsetattr(STDIN_FILENO, TCSANOW, &oldt); // return terminal to previous state if(comfd > 0){ erase_ctrlr(); ioctl(comfd, TCSANOW, &oldtty ); // return TTY to previous state close(comfd); } if(fout) fclose(fout); printf("Exit! (%d)\n", ex_stat); exit(ex_stat); } /** * Open & setup TTY, terminal */ void tty_init(){ // terminal without echo tcgetattr(STDIN_FILENO, &oldt); newt = oldt; //newt.c_lflag &= ~(ICANON | ECHO); newt.c_lflag &= ~(ICANON); if(tcsetattr(STDIN_FILENO, TCSANOW, &newt) < 0) quit(-2); printf("\nOpen port...\n"); if ((comfd = open(comdev,O_RDWR|O_NOCTTY|O_NONBLOCK)) < 0){ fprintf(stderr,"Can't use port %s\n",comdev); quit(1); } printf(" OK\nGet current settings...\n"); if(ioctl(comfd,TCGETA,&oldtty) < 0) quit(-1); // Get settings tty = oldtty; tty.c_lflag = 0; // ~(ICANON | ECHO | ECHOE | ISIG) tty.c_oflag = 0; tty.c_cflag = BAUD_RATE|CS8|CREAD|CLOCAL | PARENB; // 9.6k, 8N1, RW, ignore line ctrl tty.c_cc[VMIN] = 0; // non-canonical mode tty.c_cc[VTIME] = 5; if(ioctl(comfd,TCSETA,&tty) < 0) quit(-1); // set new mode printf(" OK\n"); } /** * Read characters from console without echo * @return char readed */ int read_console(char *buf, size_t len){ int rb = 0; ssize_t L = 0; struct timeval tv; int retval; fd_set rfds; tcsetattr(STDIN_FILENO, TCSANOW, &newt); FD_ZERO(&rfds); FD_SET(STDIN_FILENO, &rfds); tv.tv_sec = 0; tv.tv_usec = 1000; retval = select(1, &rfds, NULL, NULL, &tv); if(retval){ if(FD_ISSET(STDIN_FILENO, &rfds)){ if(len < 2 || !buf) // command works as simple getchar rb = getchar(); else{ // read all data from console buffer if((L = read(STDIN_FILENO, buf, len)) > 0) rb = (int)L; } } } //tcsetattr(STDIN_FILENO, TCSANOW, &oldt); return rb; } /** * getchar() without echo * wait until at least one character pressed * @return character readed */ int mygetchar(){ // аналог getchar() без необходимости жать Enter int ret; do ret = read_console(NULL, 1); while(ret == 0); return ret; } /** * Read data from TTY * @param buff (o) - buffer for data read * @param length - buffer len * @return amount of readed bytes */ size_t read_tty(char *buff, size_t length){ ssize_t L = 0; fd_set rfds; struct timeval tv; int retval; FD_ZERO(&rfds); FD_SET(comfd, &rfds); tv.tv_sec = 0; tv.tv_usec = 50000; retval = select(comfd + 1, &rfds, NULL, NULL, &tv); if(retval < 1) return 0; if(FD_ISSET(comfd, &rfds)){ if((L = read(comfd, buff, length)) < 1){ fprintf(stderr, "ERROR on bus, exit!\n"); quit(-4); } } return (size_t)L; } /** * wait for answer from server * @param sock - socket fd * @return 0 in case of error or timeout, 1 in case of socket ready * int waittoread(int sock){ fd_set fds; struct timeval timeout; int rc; timeout.tv_sec = 0; timeout.tv_usec = 1000; FD_ZERO(&fds); FD_SET(sock, &fds); rc = select(sock+1, &fds, NULL, NULL, &timeout); if(rc < 0){ perror("select failed"); return 0; } if(rc > 0 && FD_ISSET(sock, &fds)) return 1; return 0; } */ void help(){ printf("\n\nUse this commands:\n" "0\tMove to end-switch 0\n" "1\tMove to end-switch 1\n" "-xxx\tMake xxx steps toward zero's end-switch (0 main infinity)\n" "+xxx\tMake xxx steps toward end-switch 1 (0 main infinity)\n" "S\tPause motor when program is running\n" "A\tStop motor when programm is running\n" "E\tErase previous program from controller's memory\n" "R\tTurn relay ON\n" "r\tTurn relay OFF\n" ">\tincrease speed for 25pulses per second\n" "<\tdecrease speed for 25pulses per second\n" "\n" ); } void write_tty(char *str, int L){ ssize_t D = write(comfd, str, L); if(D != L){ fprintf(stderr, "ERROR on bus, exit!\n"); quit(-3); } } //#define dup_pr(...) do{printf(__VA_ARGS__); if(fout) fprintf(fout, __VA_ARGS__);}while(0) size_t read_ctrl_command(char *buf, size_t L){ // read data from controller to buffer buf int i, j; char *ptr = buf; size_t R; memset(buf, 0, L); for(j = 0; j < L; j++, ptr++){ R = 0; for(i = 0; i < 10 && !R; i++){ R = read_tty(ptr, 1); } if(!R){j--; break;} // nothing to read if(*ptr == '*') // read only one command break; if(*ptr < ' '){ // omit spaces & non-characters j--; ptr--; } } return (size_t) j + 1; } int parse_ctrlr_ans(char *ans){ char *E = NULL, *Star = NULL; if(!ans || !*ans) return 1; bus_error = NO_ERROR; if(!(E = strchr(ans, 'E')) || !(Star = strchr(ans, '*')) || E[1] != '1'){ fprintf(stderr, "Answer format error (got: %s)\n", ans); bus_error = UNDEFINED_ERR; return 0; } switch (E[2]){ // E = "E1x" case '0': // 10 - normal execution break; case '4': // 14 - program end printf("Last command exectuted normally\n"); break; case '2': // command interrupt by other signal fprintf(stderr, "Last command terminated\n"); break; case '3': bus_error = CODE_ERR; fprintf(stderr, "runtime"); break; case '5': bus_error = BUS_ERR; fprintf(stderr, "data bus"); break; case '6': bus_error = COMMAND_ERR; fprintf(stderr, "command"); break; case '9': bus_error = CMD_DATA_ERR; fprintf(stderr, "command data"); break; default: bus_error = UNDEFINED_ERR; fprintf(stderr, "undefined (%s)", ans); } if(bus_error != NO_ERROR){ fprintf(stderr, " error in controller\n"); return 0; } return 1; } int send_command(char *cmd){ int L = strlen(cmd); size_t R = 0; char ans[256]; write_tty(cmd, L); R = read_ctrl_command(ans, 255); // DBG("readed: %s (cmd: %s, R = %zd, L = %d)\n", ans, cmd, R, L); if(!R || (strncmp(ans, cmd, L) != 0)){ fprintf(stderr, "Error: controller doesn't respond (answer: %s)\n", ans); return 0; } R = read_ctrl_command(ans, 255); // DBG("readed: %s\n", ans); if(!R){ // controller is running or error fprintf(stderr, "Controller doesn't answer!\n"); return 0; } return parse_ctrlr_ans(ans); } /* int send5times(char *cmd){ // sends command 'cmd' up to 5 times (if errors), return 0 in case of false int N, R = 0; for(N = 0; N < 5 && !R; N++){ R = send_command(cmd); } return R; }*/ int erase_ctrlr(){ char *errmsg = "\n\nCan't erase controller's memory: some errors occured!\n\n"; #define safely_send(x) do{ if(bus_error != NO_ERROR){ \ fprintf(stderr, errmsg); return 0;} send_command(x); }while(0) if(!send_command("LD1*")){ // start writing a program //if(!send_command("LB*")){ // start writing a program into op-buffer if(bus_error == COMMAND_ERR){ // motor is moving printf("Found running program, stop it\n"); if(!send_command("ST1*")) //if(!send_command("ST*")) send_command("SP*"); send_command("LD1*"); //send_command("LB*"); }else{ fprintf(stderr, "Controller doesn't answer: try to press S or E\n"); return 1; } } safely_send("BG*"); // move address pointer to beginning safely_send("DS*"); // turn off motor safely_send("ED*"); // end of program if(bus_error != NO_ERROR){ fprintf(stderr, errmsg); return 0; } return 1; } void con_sig(int rb){ int stepsN = 0, got_command = 0; char command[256]; char buf[13]; if(rb < 1) return; if(rb == 'q') quit(0); // q == exit if(rb == '-' || rb == '+'){ if(!fgets(command, 255, stdin)){ fprintf(stderr, "You should give amount of steps after commands 'L' and 'R'\n"); return; } stepsN = atoi(command); // in ticks if(stepsN < 0 || stepsN > 10000000){ fprintf(stderr, "\n\nSteps amount should be > -1 and < 10000000 (0 means infinity)!\n\n"); return; } } #define Die_on_error(arg) do{if(!send_command(arg)) goto erase_;}while(0) if(strchr("-+01Rr", rb)){ // command to execute got_command = 1; if(!send_command("LD1*")){ // start writing a program //if(!send_command("LB*")){ // start writing a program into op-buffer fprintf(stderr, "Error: previous program is running!\n"); return; } Die_on_error("BG*"); // move address pointer to beginning if(strchr("-+01", rb)){ Die_on_error("EN*"); // enable power //Die_on_error("SD10000*"); // set speed to max (156.25 steps per second with 1/16) snprintf(buf, 12, "SD%u*", step_spd); Die_on_error(buf); } } switch(rb){ case 'h': help(); break; case '0': Die_on_error("DL*"); Die_on_error("HM*"); break; case '1': Die_on_error("DR*"); Die_on_error("ML*"); break; case '+': Die_on_error("DR*"); if(stepsN) sprintf(command, "MV%d*", stepsN); else sprintf(command, "MV*"); Die_on_error(command); break; case '-': Die_on_error("DL*"); if(stepsN) sprintf(command, "MV%d*", stepsN); else sprintf(command, "MV*"); Die_on_error(command); break; case 'S': Die_on_error("SP*"); break; case 'A': Die_on_error("ST1*"); //Die_on_error("ST*"); break; case 'E': erase_ctrlr(); break; case 'R': Die_on_error("SF*"); break; case 'r': Die_on_error("CF*"); break; case '>': // increase speed for 25 pulses step_spd += 25; printf("\nCurrent speed: %u pulses per sec\n", step_spd); //snprintf(buf, 12, "SD%u*", step_spd); //Die_on_error(buf); break; case '<': // decrease speed for 25 pulses if(step_spd > 25){ step_spd -= 25; printf("\nCurrent speed: %u pulses per sec\n", step_spd); //snprintf(buf, 12, "SD%u*", step_spd); //Die_on_error(buf); }else printf("\nSpeed is too low\n"); break; /* default: cmd = (uint8_t) rb; write(comfd, &cmd, 1);*/ } if(got_command){ // there was some command: write ending words Die_on_error("DS*"); // turn off power from motor at end Die_on_error("ED*"); // signal about command end Die_on_error("ST1*");// start program } return; erase_: erase_ctrlr(); } /** * Get integer value from buffer * @param buff (i) - buffer with int * @param len - length of data in buffer (could be 2 or 4) * @return * uint32_t get_int(uint8_t *buff, size_t len){ int i; printf("read %zd bytes: ", len); for(i = 0; i < len; i++) printf("0x%x ", buff[i]); printf("\n"); if(len != 2 && len != 4){ fprintf(stdout, "Bad data length!\n"); return 0xffffffff; } uint32_t data = 0; uint8_t *i8 = (uint8_t*) &data; if(len == 2) memcpy(i8, buff, 2); else memcpy(i8, buff, 4); return data; }*/ int main(int argc, char *argv[]){ int rb; char buff[128], *bufptr = buff; size_t L; if(argc == 2){ fout = fopen(argv[1], "a"); if(!fout){ perror("Can't open output file"); return (-1); } setbuf(fout, NULL); } tty_init(); signal(SIGTERM, quit); // kill (-15) signal(SIGINT, quit); // ctrl+C signal(SIGQUIT, SIG_IGN); // ctrl+\ . signal(SIGTSTP, SIG_IGN); // ctrl+Z setbuf(stdout, NULL); erase_ctrlr(); //t0 = dtime(); while(1){ rb = read_console(NULL, 1); if(rb > 0) con_sig(rb); L = read_tty(bufptr, 127); if(L){ bufptr += L; if(bufptr - buff > 127){ fprintf(stderr, "Error: input buffer overflow!\n"); bufptr = buff; } if(bufptr[-1] == '*'){ // end of input command *bufptr = 0; parse_ctrlr_ans(buff); //printf("%s", buff); if(fout) fprintf(fout, "%zd\t%s\n", time(NULL), buff); bufptr = buff; } } } }