/* EIBD eib bus access and management daemon Copyright (C) 2005-2007 Martin Koegler 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include "ft12.h" FT12LowLevelDriver::FT12LowLevelDriver (const char *dev, Trace * tr) { struct termios t1; t = tr; TRACEPRINTF (t, 1, this, "Open"); fd = open (dev, O_RDWR | O_NOCTTY); if (fd == -1) throw Exception (DEV_OPEN_FAIL); tcgetattr (fd, &old); tcgetattr (fd, &t1); t1.c_cflag = CS8 | PARENB | CLOCAL | CREAD; t1.c_iflag = IGNBRK | INPCK | ISIG; t1.c_oflag = 0; t1.c_lflag = 0; t1.c_cc[VTIME] = 1; t1.c_cc[VMIN] = 0; cfsetospeed (&t1, B19200); cfsetispeed (&t1, 0); tcsetattr (fd, TCSAFLUSH, &t1); sendflag = 0; recvflag = 0; repeatcount = 0; mode = 0; pth_sem_init (&in_signal); pth_sem_init (&out_signal); pth_sem_init (&send_empty); pth_sem_set_value (&send_empty, 1); getwait = pth_event (PTH_EVENT_SEM, &out_signal); Start (); TRACEPRINTF (t, 1, this, "Opened"); } FT12LowLevelDriver::~FT12LowLevelDriver () { Stop (); pth_event_free (getwait, PTH_FREE_THIS); while (!outqueue.isempty ()) delete outqueue.get (); TRACEPRINTF (t, 1, this, "Close"); if (fd != -1) { tcsetattr (fd, TCSAFLUSH, &old); close (fd); } } void FT12LowLevelDriver::Send_Packet (CArray l) { CArray pdu; uchar c; unsigned i; t->TracePacket (1, this, "Send", l); assert (l () <= 32); pdu.resize (l () + 7); pdu[0] = 0x68; pdu[1] = l () + 1; pdu[2] = l () + 1; pdu[3] = 0x68; if (sendflag) pdu[4] = 0x53; else pdu[4] = 0x73; sendflag = !sendflag; pdu.setpart (l.array (), 5, l ()); c = pdu[4]; for (i = 0; i < l (); i++) c += l[i]; pdu[pdu () - 2] = c; pdu[pdu () - 1] = 0x16; inqueue.put (pdu); pth_sem_set_value (&send_empty, 0); pth_sem_inc (&in_signal, TRUE); } void FT12LowLevelDriver::SendReset () { CArray pdu; TRACEPRINTF (t, 1, this, "SendReset"); pdu.resize (4); pdu[0] = 0x10; pdu[1] = 0x40; pdu[2] = 0x40; pdu[3] = 0x16; sendflag = 0; recvflag = 0; inqueue.put (pdu); pth_sem_set_value (&send_empty, 0); pth_sem_inc (&in_signal, TRUE); } bool FT12LowLevelDriver::Send_Queue_Empty () { return inqueue.isempty (); } pth_sem_t * FT12LowLevelDriver::Send_Queue_Empty_Cond () { return &send_empty; } CArray * FT12LowLevelDriver::Get_Packet (pth_event_t stop) { if (stop != NULL) pth_event_concat (getwait, stop, NULL); pth_wait (getwait); if (stop) pth_event_isolate (getwait); if (pth_event_status (getwait) == PTH_STATUS_OCCURRED) { pth_sem_dec (&out_signal); CArray *c = outqueue.get (); t->TracePacket (1, this, "Recv", *c); return c; } else return 0; } bool FT12LowLevelDriver::Connection_Lost () { return repeatcount > 10; } void FT12LowLevelDriver::Run (pth_sem_t * stop1) { CArray last; int i; uchar buf[255]; pth_event_t stop = pth_event (PTH_EVENT_SEM, stop1); pth_event_t input = pth_event (PTH_EVENT_SEM, &in_signal); pth_event_t timeout = pth_event (PTH_EVENT_TIME, pth_timeout (0, 100000)); while (pth_event_status (stop) != PTH_STATUS_OCCURRED) { pth_event_isolate (input); pth_event_isolate (timeout); if (mode == 0) pth_event_concat (stop, input, NULL); if (mode == 1) pth_event_concat (stop, timeout, NULL); i = pth_read_ev (fd, buf, sizeof (buf), stop); if (i > 0) { t->TracePacket (0, this, "Recv", i, buf); akt.setpart (buf, akt (), i); } while (akt.len () > 0) { if (akt[0] == 0xE5 && mode == 1) { pth_sem_dec (&in_signal); inqueue.get (); if (inqueue.isempty ()) pth_sem_set_value (&send_empty, 1); akt.deletepart (0, 1); mode = 0; repeatcount = 0; } else if (akt[0] == 0x10) { if (akt () < 4) break; if (akt[1] == akt[2] && akt[3] == 0x16) { uchar c1 = 0xE5; t->TracePacket (0, this, "Send Ack", 1, &c1); write (fd, &c1, 1); if ((akt[1] == 0xF3 && !recvflag) || (akt[1] == 0xD3 && recvflag)) { //right sequence number recvflag = !recvflag; } } akt.deletepart (0, 4); } else if (akt[0] == 0x68) { int len; uchar c1; if (akt () < 7) break; if (akt[1] != akt[2] || akt[3] != 0x68) { //receive error, try to resume akt.deletepart (0, 1); continue; } if (akt () < akt[1] + 6) break; c1 = 0; for (i = 4; i < akt[1] + 4; i++) c1 += akt[i]; if (akt[akt[1] + 4] != c1 || akt[akt[1] + 5] != 0x16) { len = akt[1] + 6; //Forget wrong short frame akt.deletepart (0, len); continue; } c1 = 0xE5; t->TracePacket (0, this, "Send Ack", 1, &c1); i = write (fd, &c1, 1); if ((akt[4] == 0xF3 && recvflag) || (akt[4] == 0xD3 && !recvflag)) { if (CArray (akt.array () + 5, akt[1] - 1) != last) { TRACEPRINTF (t, 0, this, "Sequence jump"); recvflag = !recvflag; } else TRACEPRINTF (t, 0, this, "Wrong Sequence"); } if ((akt[4] == 0xF3 && !recvflag) || (akt[4] == 0xD3 && recvflag)) { recvflag = !recvflag; CArray *c = new CArray; len = akt[1] + 6; c->setpart (akt.array () + 5, 0, len - 7); last = *c; outqueue.put (c); pth_sem_inc (&out_signal, TRUE); } akt.deletepart (0, len); } else //Forget unknown byte akt.deletepart (0, 1); } if (mode == 1 && pth_event_status (timeout) == PTH_STATUS_OCCURRED) mode = 0; if (mode == 0 && !inqueue.isempty ()) { const CArray & c = inqueue.top (); t->TracePacket (0, this, "Send", c); repeatcount++; i = pth_write_ev (fd, c.array (), c (), stop); if (i == c ()) { mode = 1; timeout = pth_event (PTH_EVENT_TIME | PTH_MODE_REUSE, timeout, pth_timeout (0, 100000)); } } } pth_event_free (stop, PTH_FREE_THIS); pth_event_free (timeout, PTH_FREE_THIS); pth_event_free (input, PTH_FREE_THIS); } LowLevelDriverInterface::EMIVer FT12LowLevelDriver::getEMIVer () { return vEMI2; }