/* * ReactOS mode console command * * mode.c * * Copyright (C) 2002 Robert Dickenson * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #define MAX_PORTNAME_LEN 20 #define MAX_COMPORT_NUM 10 #define MAX_COMPARAM_LEN 20 #define NUM_ELEMENTS(a) (sizeof(a)/sizeof(a[0])) #define ASSERT(a) const char* usage_strings[] = { "Device Status: MODE [device] [/STATUS]", "Select code page: MODE CON[:] CP SELECT=yyy", "Code page status: MODE CON[:] CP [/STATUS]", "Display mode: MODE CON[:] [COLS=c] [LINES=n]", "Typematic rate: MODE CON[:] [RATE=r DELAY=d]", "Redirect printing: MODE LPTn[:]=COMm[:]", "Serial port: MODE COMm[:] [BAUD=b] [PARITY=p] [DATA=d] [STOP=s]\n" \ " [to=on|off] [xon=on|off] [odsr=on|off]\n" \ " [octs=on|off] [dtr=on|off|hs]\n" \ " [rts=on|off|hs|tg] [idsr=on|off]", }; const char* parity_strings[] = { _T("None"), // default _T("Odd"), // only symbol in this set to have a 'd' in it _T("Even"), // ... 'v' in it _T("Mark"), // ... 'm' in it _T("Space") // ... 's' and/or a 'c' in it }; const char* control_strings[] = { "OFF", "ON", "HANDSHAKE", "TOGGLE" }; const char* stopbit_strings[] = { _T("1"), _T("1.5"), _T("2") }; int Usage() { int i; printf("\nConfigures system devices.\n\n"); for (i = 0; i < NUM_ELEMENTS(usage_strings); i++) { printf("%s\n", usage_strings[i]); } printf("\n"); return 0; } int QueryDevices() { char buffer[5000]; int len; char* ptr = buffer; *ptr = '\0'; if (QueryDosDevice(NULL, buffer, NUM_ELEMENTS(buffer))) { while (*ptr != '\0') { len = strlen(ptr); if (strstr(ptr, "COM")) { printf(" Found serial device - %s\n", ptr); } else if (strstr(ptr, "PRN")) { printf(" Found printer device - %s\n", ptr); } else if (strstr(ptr, "LPT")) { printf(" Found parallel device - %s\n", ptr); } else { printf(" Found other device - %s\n", ptr); } ptr += (len+1); } } else { printf(" ERROR: QueryDosDevice(...) failed.\n"); } return 1; } int ShowParrallelStatus(int nPortNum) { char buffer[250]; char szPortName[MAX_PORTNAME_LEN]; sprintf(szPortName, "LPT%d", nPortNum); printf("\nStatus for device LPT%d:\n", nPortNum); printf("-----------------------\n"); if (QueryDosDevice(szPortName, buffer, NUM_ELEMENTS(buffer))) { char* ptr = strrchr(buffer, '\\'); if (ptr != NULL) { if (0 == strcmp(szPortName, ++ptr)) { printf(" Printer output is not being rerouted.\n"); } else { printf(" Printer output is being rerouted to serial port %s\n", ptr); } return 0; } else { printf(" QueryDosDevice(%s) returned unrecogised form %s.\n", szPortName, buffer); } } else { printf(" ERROR: QueryDosDevice(%s) failed.\n", szPortName); } return 1; } int ShowConsoleStatus() { DWORD dwKbdDelay; DWORD dwKbdSpeed; CONSOLE_SCREEN_BUFFER_INFO ConsoleScreenBufferInfo; HANDLE hConsoleOutput = GetStdHandle(STD_OUTPUT_HANDLE); printf("\nStatus for device CON:\n"); printf("-----------------------\n"); if (GetConsoleScreenBufferInfo(hConsoleOutput, &ConsoleScreenBufferInfo)) { printf(" Lines: %d\n", ConsoleScreenBufferInfo.dwSize.Y); printf(" Columns: %d\n", ConsoleScreenBufferInfo.dwSize.X); } if (SystemParametersInfo(SPI_GETKEYBOARDDELAY, 0, &dwKbdDelay, 0)) { printf(" Keyboard delay: %d\n", dwKbdDelay); } if (SystemParametersInfo(SPI_GETKEYBOARDSPEED, 0, &dwKbdSpeed, 0)) { printf(" Keyboard rate: %d\n", dwKbdSpeed); } printf(" Code page: %d\n", GetConsoleOutputCP()); return 0; } static BOOL SerialPortQuery(int nPortNum, LPDCB pDCB, LPCOMMTIMEOUTS pCommTimeouts, BOOL bWrite) { BOOL result; HANDLE hPort; char szPortName[MAX_PORTNAME_LEN]; ASSERT(pDCB); ASSERT(pCommTimeouts); sprintf(szPortName, _T("COM%d"), nPortNum); hPort = CreateFile(szPortName, GENERIC_READ|GENERIC_WRITE, 0, // exclusive NULL, // sec attr OPEN_EXISTING, 0, // no attributes NULL); // no template if (hPort == (HANDLE)-1) { printf("Illegal device name - %s\n", szPortName); return FALSE; } if (bWrite) { result = SetCommState(hPort, pDCB); } else { result = GetCommState(hPort, pDCB); } if (!result) { printf("Failed to %s the status for device COM%d:\n", bWrite ? "set" : "get", nPortNum); CloseHandle(hPort); return FALSE; } if (bWrite) { result = SetCommTimeouts(hPort, pCommTimeouts); } else { result = GetCommTimeouts(hPort, pCommTimeouts); } if (!result) { printf("Failed to %s Timeout status for device COM%d:\n", bWrite ? "set" : "get", nPortNum); CloseHandle(hPort); return FALSE; } CloseHandle(hPort); return TRUE; } int ShowSerialStatus(int nPortNum) { HANDLE hPort; DCB dcb; COMMTIMEOUTS CommTimeouts; char szPortName[MAX_PORTNAME_LEN]; if (!SerialPortQuery(nPortNum, &dcb, &CommTimeouts, FALSE)) { return 1; } if (dcb.Parity > NUM_ELEMENTS(parity_strings)) { printf("ERROR: Invalid value for Parity Bits %d:\n", dcb.Parity); dcb.Parity = 0; } if (dcb.StopBits > NUM_ELEMENTS(stopbit_strings)) { printf("ERROR: Invalid value for Stop Bits %d:\n", dcb.StopBits); dcb.StopBits = 0; } printf("\nStatus for device COM%d:\n", nPortNum); printf("-----------------------\n"); printf(" Baud: %d\n", dcb.BaudRate); printf(" Parity: %s\n", parity_strings[dcb.Parity]); printf(" Data Bits: %d\n", dcb.ByteSize); printf(" Stop Bits: %s\n", stopbit_strings[dcb.StopBits]); printf(" Timeout: %s\n", CommTimeouts.ReadIntervalTimeout ? "ON" : "OFF"); printf(" XON/XOFF: %s\n", dcb.fOutX ? "ON" : "OFF"); printf(" CTS handshaking: %s\n", dcb.fOutxCtsFlow ? "ON" : "OFF"); printf(" DSR handshaking: %s\n", dcb.fOutxDsrFlow ? "ON" : "OFF"); printf(" DSR sensitivity: %s\n", dcb.fDsrSensitivity ? "ON" : "OFF"); printf(" DTR circuit: %s\n", control_strings[dcb.fDtrControl]); printf(" RTS circuit: %s\n", control_strings[dcb.fRtsControl]); return 0; } int SetParrallelState(int nPortNum) { char szPortName[MAX_PORTNAME_LEN]; char szTargetPath[MAX_PORTNAME_LEN]; sprintf(szPortName, _T("LPT%d"), nPortNum); sprintf(szTargetPath, _T("COM%d"), nPortNum); if (!DefineDosDevice(DDD_REMOVE_DEFINITION, szPortName, szTargetPath)) { DWORD error = GetLastError(); printf("SetParrallelState(%d) - DefineDosDevice(%s) failed: %x\n", nPortNum, error); } return 0; } /* \??\COM1 \Device\NamedPipe\Spooler\LPT1 BOOL DefineDosDevice( DWORD dwFlags, // options LPCTSTR lpDeviceName, // device name LPCTSTR lpTargetPath // path string ); DWORD QueryDosDevice( LPCTSTR lpDeviceName, // MS-DOS device name string LPTSTR lpTargetPath, // query results buffer DWORD ucchMax // maximum size of buffer ); */ int SetConsoleState() { /* "Select code page: MODE CON[:] CP SELECT=yyy", "Code page status: MODE CON[:] CP [/STATUS]", "Display mode: MODE CON[:] [COLS=c] [LINES=n]", "Typematic rate: MODE CON[:] [RATE=r DELAY=d]", */ return 0; } static int ExtractModeSerialParams(const char* param) { if ( strstr(param, "OFF")) { return 0; } else if (strstr(param, "ON")) { return 1; } else if (strstr(param, "HS")) { return 2; } else if (strstr(param, "TG")) { return 3; } return -1; } int SetSerialState(int nPortNum, int args, char *argv[]) { int arg; int value; DCB dcb; COMMTIMEOUTS CommTimeouts; char buf[MAX_COMPARAM_LEN+1]; if (SerialPortQuery(nPortNum, &dcb, &CommTimeouts, FALSE)) { for (arg = 2; arg < args; arg++) { if (strlen(argv[arg]) > MAX_COMPARAM_LEN) { printf("Invalid parameter (too long) - %s\n", argv[arg]); return 1; } strcpy(buf, argv[arg]); strupr(buf); if (strstr(buf, "BAUD=")) { dcb.BaudRate = atol(buf+5); } else if (strstr(buf, "PARITY=")) { if (strchr(buf, 'D')) { dcb.Parity = 1; } else if (strchr(buf, 'V')) { dcb.Parity = 2; } else if (strchr(buf, 'M')) { dcb.Parity = 3; } else if (strchr(buf, 'S')) { dcb.Parity = 4; } else { dcb.Parity = 0; } } else if (strstr(buf, "DATA=")) { dcb.ByteSize = atol(buf+5); } else if (strstr(buf, "STOP=")) { if (strchr(buf, '5')) { dcb.StopBits = 1; } else if (strchr(buf, '2')) { dcb.StopBits = 2; } else { dcb.StopBits = 0; } } else if (strstr(buf, "TO=")) { // to=on|off value = ExtractModeSerialParams(buf); if (value != -1) { } else { goto invalid_serial_parameter; } } else if (strstr(buf, "XON=")) { // xon=on|off value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fOutX = value; dcb.fInX = value; } else { goto invalid_serial_parameter; } } else if (strstr(buf, "ODSR=")) { // odsr=on|off value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fOutxDsrFlow = value; } else { goto invalid_serial_parameter; } } else if (strstr(buf, "OCTS=")) { // octs=on|off value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fOutxCtsFlow = value; } else { goto invalid_serial_parameter; } } else if (strstr(buf, "DTR=")) { // dtr=on|off|hs value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fDtrControl = value; } else { goto invalid_serial_parameter; } } else if (strstr(buf, "RTS=")) { // rts=on|off|hs|tg value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fRtsControl = value; } else { goto invalid_serial_parameter; } } else if (strstr(buf, "IDSR=")) { // idsr=on|off value = ExtractModeSerialParams(buf); if (value != -1) { dcb.fDsrSensitivity = value; } else { goto invalid_serial_parameter; } } else { invalid_serial_parameter:; printf("Invalid parameter - %s\n", buf); return 1; } } SerialPortQuery(nPortNum, &dcb, &CommTimeouts, TRUE); } return 0; } int find_portnum(const char* cmdverb) { int portnum = -1; if ((char)*(cmdverb + 3) >= '0' && (char)*(cmdverb + 3) <= '9') { portnum = ((char)*(cmdverb + 3)) - '0'; if ((char)*(cmdverb + 4) >= '0' && (char)*(cmdverb + 4) <= '9') { portnum *= 10; portnum += ((char)*(cmdverb + 4)) - '0'; } } return portnum; } int main(int argc, char *argv[]) { int nPortNum; char param1[MAX_COMPARAM_LEN+1]; char param2[MAX_COMPARAM_LEN+1]; if (argc > 1) { if (strlen(argv[1]) > MAX_COMPARAM_LEN) { printf("Invalid parameter (too long) - %s\n", argv[1]); return 1; } strcpy(param1, argv[1]); strupr(param1); if (argc > 2) { if (strlen(argv[2]) > MAX_COMPARAM_LEN) { printf("Invalid parameter (too long) - %s\n", argv[2]); return 1; } strcpy(param2, argv[2]); strupr(param2); } else { param2[0] = '\0'; } if (strstr(param1, "/?") || strstr(param1, "-?")) { return Usage(); } else if (strstr(param1, "/STA")) { goto show_status; } else if (strstr(param1, "LPT")) { nPortNum = find_portnum(param1); if (nPortNum != -1) return ShowParrallelStatus(nPortNum); } else if (strstr(param1, "CON")) { return ShowConsoleStatus(); } else if (strstr(param1, "COM")) { nPortNum = find_portnum(param1); if (nPortNum != -1) { if (param2[0] == '\0' || strstr(param2, "/STA")) { return ShowSerialStatus(nPortNum); } else { return SetSerialState(nPortNum, argc, argv); } } } printf("Invalid parameter - %s\n", param1); return 1; } else { show_status:; QueryDevices(); /* ShowParrallelStatus(1); for (nPortNum = 0; nPortNum < MAX_COMPORT_NUM; nPortNum++) { ShowSerialStatus(nPortNum + 1); } ShowConsoleStatus(); */ } return 0; }