/* * remote.c: Interface to the Remote Control Unit * * See the main source file 'vdr.c' for copyright information and * how to reach the author. * * Ported to LIRC by Carsten Koch 2000-06-16. * * $Id: remote.c 1.12 2000/09/16 16:42:30 kls Exp $ */ #include "remote.h" #include #include #include #include #include #include #include #if defined REMOTE_LIRC #include #include #include #endif #include "config.h" #include "tools.h" #define REPEATLIMIT 100 // ms #define REPEATDELAY 250 // ms // --- cRcIoBase ------------------------------------------------------------- cRcIoBase::cRcIoBase(void) { t = 0; firstTime = lastTime = 0; lastCommand = 0; } cRcIoBase::~cRcIoBase() { } // --- cRcIoKBD -------------------------------------------------------------- #if defined REMOTE_KBD cRcIoKBD::cRcIoKBD(void) { f.Open(0); // stdin } cRcIoKBD::~cRcIoKBD() { } void cRcIoKBD::Flush(int WaitSeconds) { time_t t0 = time(NULL); timeout(10); for (;;) { while (getch() > 0) t0 = time(NULL); if (time(NULL) - t0 >= WaitSeconds) break; } } bool cRcIoKBD::InputAvailable(bool Wait) { return f.Ready(Wait); } bool cRcIoKBD::GetCommand(unsigned int *Command, unsigned short *) { if (Command) { *Command = getch(); return *Command > 0; } return false; } // --- cRcIoRCU -------------------------------------------------------------- #elif defined REMOTE_RCU cRcIoRCU::cRcIoRCU(char *DeviceName) { dp = 0; mode = modeB; code = 0; address = 0xFFFF; lastNumber = 0; if (f.Open(DeviceName, O_RDWR | O_NONBLOCK)) { struct termios t; if (tcgetattr(f, &t) == 0) { cfsetspeed(&t, B9600); cfmakeraw(&t); if (tcsetattr(f, TCSAFLUSH, &t) == 0) return; } LOG_ERROR_STR(DeviceName); f.Close(); } else LOG_ERROR_STR(DeviceName); } cRcIoRCU::~cRcIoRCU() { } int cRcIoRCU::ReceiveByte(bool Wait) { // Returns the byte if one was received within a timeout, -1 otherwise if (InputAvailable(Wait)) { unsigned char b; if (read(f, &b, 1) == 1) return b; else LOG_ERROR; } return -1; } bool cRcIoRCU::SendByteHandshake(unsigned char c) { if (f.IsOpen()) { int w = write(f, &c, 1); if (w == 1) { for (int reply = ReceiveByte(); reply >= 0;) { if (reply == c) return true; else if (reply == 'X') { // skip any incoming RC code - it will come again for (int i = 6; i--;) { if (ReceiveByte(false) < 0) return false; } } else return false; } } LOG_ERROR; } return false; } bool cRcIoRCU::SendByte(unsigned char c) { for (int retry = 5; retry--;) { if (SendByteHandshake(c)) return true; } return false; } bool cRcIoRCU::SetCode(unsigned char Code, unsigned short Address) { code = Code; address = Address; return SendCommand(code); } bool cRcIoRCU::SetMode(unsigned char Mode) { mode = Mode; return SendCommand(mode); } void cRcIoRCU::Flush(int WaitSeconds) { time_t t0 = time(NULL); for (;;) { while (ReceiveByte(false) >= 0) t0 = time(NULL); if (time(NULL) - t0 >= WaitSeconds) break; } } bool cRcIoRCU::InputAvailable(bool Wait) { return f.Ready(Wait); } bool cRcIoRCU::GetCommand(unsigned int *Command, unsigned short *Address) { #pragma pack(1) union { struct { unsigned short address; unsigned int command; } data; unsigned char raw[6]; } buffer; #pragma pack() Flush(); if (Command && ReceiveByte() == 'X') { for (int i = 0; i < 6; i++) { int b = ReceiveByte(false); if (b >= 0) buffer.raw[i] = b; else return false; } if (Address) *Address = ntohs(buffer.data.address); // the PIC sends bytes in "network order" else if (address != ntohs(buffer.data.address)) return false; *Command = ntohl(buffer.data.command); if (code == 'B' && address == 0x0000 && *Command == 0x00004000) // Well, well, if it isn't the "d-box"... // This remote control sends the above command before and after // each keypress - let's just drop this: return false; if (*Command == lastCommand) { // let's have a timeout to avoid getting overrun by commands int now = time_ms(); int delta = now - lastTime; lastTime = now; if (delta < REPEATLIMIT) { // if commands come in rapidly... if (now - firstTime < REPEATDELAY) return false; // ...repeat function kicks in after a short delay return true; } } lastTime = firstTime = time_ms(); lastCommand = *Command; return true; } if (time(NULL) - t > 60) { SendCommand(code); // in case the PIC listens to the wrong code t = time(NULL); } return false; } bool cRcIoRCU::SendCommand(unsigned char Cmd) { return SendByte(Cmd | 0x80); } bool cRcIoRCU::Digit(int n, int v) { return SendByte(((n & 0x03) << 5) | (v & 0x0F) | (((dp >> n) & 0x01) << 4)); } bool cRcIoRCU::Number(int n, bool Hex) { if (!Hex) { char buf[8]; sprintf(buf, "%4d", n & 0xFFFF); n = 0; for (char *d = buf; *d; d++) { if (*d == ' ') *d = 0xF; n = (n << 4) | ((*d - '0') & 0x0F); } } lastNumber = n; for (int i = 0; i < 4; i++) { if (!Digit(i, n)) return false; n >>= 4; } return SendCommand(mode); } bool cRcIoRCU::String(char *s) { const char *chars = mode == modeH ? "0123456789ABCDEF" : "0123456789-EHLP "; int n = 0; for (int i = 0; *s && i < 4; s++, i++) { n <<= 4; for (const char *c = chars; *c; c++) { if (*c == *s) { n |= c - chars; break; } } } return Number(n, true); } void cRcIoRCU::SetPoints(unsigned char Dp, bool On) { if (On) dp |= Dp; else dp &= ~Dp; Number(lastNumber, true); } bool cRcIoRCU::DetectCode(unsigned char *Code, unsigned short *Address) { // Caller should initialize 'Code' to 0 and call DetectCode() // until it returns true. Whenever DetectCode() returns false // and 'Code' is not 0, the caller can use 'Code' to display // a message like "Trying code '%c'". If false is returned and // 'Code' is 0, all possible codes have been tried and the caller // can either stop calling DetectCode() (and give some error // message), or start all over again. if (*Code < 'A' || *Code > 'D') { *Code = 'A'; return false; } if (*Code <= 'D') { SetMode(modeH); char buf[5]; sprintf(buf, "C0D%c", *Code); String(buf); SetCode(*Code, 0); unsigned int Command; if (GetCommand(&Command, Address)) { SetMode(modeB); String("----"); return true; } if (*Code < 'D') { (*Code)++; return false; } } *Code = 0; return false; } // --- cRcIoLIRC ------------------------------------------------------------- #elif defined REMOTE_LIRC cRcIoLIRC::cRcIoLIRC(char *DeviceName) { struct sockaddr_un addr; addr.sun_family = AF_UNIX; strcpy(addr.sun_path, DeviceName); int sock = socket(AF_UNIX, SOCK_STREAM, 0); if (sock >= 0) { if (connect(sock, (struct sockaddr *)&addr, sizeof(addr)) >= 0) { f.Open(sock); return; } LOG_ERROR_STR(DeviceName); close(sock); } else LOG_ERROR_STR(DeviceName); } cRcIoLIRC::~cRcIoLIRC() { } const char *cRcIoLIRC::ReceiveString(void) { char buf[LIRC_BUFFER_SIZE]; while (InputAvailable(true)) { if (read(f, buf, sizeof(buf)) > 21) { const int now = time_ms(); int repeat; sscanf(buf, "%*s %x %7s", &repeat, keyName); // '7' in '%7s' is LIRC_KEY_BUF-1! if (repeat == 0) { firstTime = lastTime = now; return keyName; } else if ((now > firstTime + REPEATDELAY) && (now > lastTime + REPEATLIMIT)) { lastTime = now; return keyName; } } } return NULL; } void cRcIoLIRC::Flush(int WaitSeconds) { char buf[LIRC_BUFFER_SIZE]; time_t t0 = time(NULL); for (;;) { while (InputAvailable(false)) { read(f, buf, sizeof(buf)); t0 = time(NULL); } if (time(NULL) - t0 >= WaitSeconds) break; } } bool cRcIoLIRC::InputAvailable(bool Wait) { return f.Ready(Wait); } bool cRcIoLIRC::GetCommand(unsigned int *Command, unsigned short *) { Flush(); if (Command) { const char *cmd = ReceiveString(); if (cmd) { *Command = Keys.Encode(cmd); return true; } } return false; } #endif