/* * Copyright (c) 1982, 1986 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. * * @(#)dz.c 7.1 (Berkeley) 6/5/86 */ #include "dz.h" #if NDZ > 0 /* * DZ-11/DZ-32 Driver * * This driver mimics dh.c; see it for explanation of common code. */ #include "bk.h" #include "../machine/pte.h" #include "param.h" #include "systm.h" #include "ioctl.h" #include "tty.h" #include "dir.h" #include "user.h" #include "proc.h" #include "map.h" #include "buf.h" #include "vm.h" #include "conf.h" #include "bkmac.h" #include "file.h" #include "uio.h" #include "kernel.h" #include "syslog.h" #include "pdma.h" #include "ubavar.h" #include "dzreg.h" /* * Driver information for auto-configuration stuff. */ int dzprobe(), dzattach(), dzrint(); struct uba_device *dzinfo[NDZ]; u_short dzstd[] = { 0 }; struct uba_driver dzdriver = { dzprobe, 0, dzattach, 0, dzstd, "dz", dzinfo }; #define NDZLINE (NDZ*8) #define FASTTIMER (hz/30) /* rate to drain silos, when in use */ int dzstart(), dzxint(), dzdma(); int ttrstrt(); struct tty dz_tty[NDZLINE]; int dz_cnt = { NDZLINE }; int dzact; int dzsilos; /* mask of dz's with silo in use */ int dzchars[NDZ]; /* recent input count */ int dzrate[NDZ]; /* smoothed input count */ int dztimerintvl; /* time interval for dztimer */ int dzhighrate = 100; /* silo on if dzchars > dzhighrate */ int dzlowrate = 75; /* silo off if dzrate < dzlowrate */ #define dzwait(x) while (((x)->dzlcs & DZ_ACK) == 0) /* * Software copy of dzbrk since it isn't readable */ char dz_brk[NDZ]; char dzsoftCAR[NDZ]; char dz_lnen[NDZ]; /* saved line enable bits for DZ32 */ /* * The dz11 doesn't interrupt on carrier transitions, so * we have to use a timer to watch it. */ char dz_timer; /* timer started? */ /* * Pdma structures for fast output code */ struct pdma dzpdma[NDZLINE]; char dz_speeds[] = { 0,020,021,022,023,024,0,025,026,027,030,032,034,036,037,0 }; #ifndef PORTSELECTOR #define ISPEED B9600 #define IFLAGS (EVENP|ODDP|ECHO) #else #define ISPEED B4800 #define IFLAGS (EVENP|ODDP) #endif dzprobe(reg) caddr_t reg; { register int br, cvec; register struct dzdevice *dzaddr = (struct dzdevice *)reg; #ifdef lint br = 0; cvec = br; br = cvec; dzrint(0); dzxint((struct tty *)0); #endif dzaddr->dzcsr = DZ_TIE|DZ_MSE|DZ_32; if (dzaddr->dzcsr & DZ_32) dzaddr->dzlnen = 1; else dzaddr->dztcr = 1; /* enable any line */ DELAY(100000); dzaddr->dzcsr = DZ_CLR|DZ_32; /* reset everything */ if (cvec && cvec != 0x200) cvec -= 4; return (sizeof (struct dzdevice)); } dzattach(ui) register struct uba_device *ui; { register struct pdma *pdp = &dzpdma[ui->ui_unit*8]; register struct tty *tp = &dz_tty[ui->ui_unit*8]; register int cntr; extern dzscan(); for (cntr = 0; cntr < 8; cntr++) { pdp->p_addr = (struct dzdevice *)ui->ui_addr; pdp->p_arg = (int)tp; pdp->p_fcn = dzxint; pdp++, tp++; } dzsoftCAR[ui->ui_unit] = ui->ui_flags; if (dz_timer == 0) { dz_timer++; timeout(dzscan, (caddr_t)0, hz); dztimerintvl = FASTTIMER; } } /*ARGSUSED*/ dzopen(dev, flag) dev_t dev; { register struct tty *tp; register int unit; unit = minor(dev); if (unit >= dz_cnt || dzpdma[unit].p_addr == 0) return (ENXIO); tp = &dz_tty[unit]; tp->t_addr = (caddr_t)&dzpdma[unit]; tp->t_oproc = dzstart; if ((tp->t_state & TS_ISOPEN) == 0) { ttychars(tp); #ifndef PORTSELECTOR if (tp->t_ispeed == 0) { #else tp->t_state |= TS_HUPCLS; #endif PORTSELECTOR tp->t_ispeed = ISPEED; tp->t_ospeed = ISPEED; tp->t_flags = IFLAGS; #ifndef PORTSELECTOR } #endif PORTSELECTOR dzparam(unit); } else if (tp->t_state&TS_XCLUDE && u.u_uid != 0) return (EBUSY); (void) dzmctl(dev, DZ_ON, DMSET); (void) spl5(); while ((tp->t_state & TS_CARR_ON) == 0) { tp->t_state |= TS_WOPEN; sleep((caddr_t)&tp->t_rawq, TTIPRI); } (void) spl0(); return ((*linesw[tp->t_line].l_open)(dev, tp)); } /*ARGSUSED*/ dzclose(dev, flag) dev_t dev; { register struct tty *tp; register int unit; register struct dzdevice *dzaddr; int dz; unit = minor(dev); dz = unit >> 3; tp = &dz_tty[unit]; (*linesw[tp->t_line].l_close)(tp); dzaddr = dzpdma[unit].p_addr; if (dzaddr->dzcsr&DZ_32) (void) dzmctl(dev, DZ_BRK, DMBIC); else dzaddr->dzbrk = (dz_brk[dz] &= ~(1 << (unit&07))); if ((tp->t_state&(TS_HUPCLS|TS_WOPEN)) || (tp->t_state&TS_ISOPEN) == 0) (void) dzmctl(dev, DZ_OFF, DMSET); ttyclose(tp); } dzread(dev, uio) dev_t dev; struct uio *uio; { register struct tty *tp; tp = &dz_tty[minor(dev)]; return ((*linesw[tp->t_line].l_read)(tp, uio)); } dzwrite(dev, uio) dev_t dev; struct uio *uio; { register struct tty *tp; tp = &dz_tty[minor(dev)]; return ((*linesw[tp->t_line].l_write)(tp, uio)); } /*ARGSUSED*/ dzrint(dz) int dz; { register struct tty *tp; register int c; register struct dzdevice *dzaddr; register struct tty *tp0; register int unit; int overrun = 0; if ((dzact & (1<dzcsr &= ~(DZ_RIE|DZ_MIE); /* the manual says this song */ dzaddr->dzcsr |= DZ_RIE|DZ_MIE; /* and dance is necessary */ while (dzaddr->dzcsr & DZ_MSC) { /* DZ32 modem change interrupt */ c = dzaddr->dzmtsr; tp = tp0 + (c&7); if (tp >= &dz_tty[dz_cnt]) break; dzaddr->dzlcs = c&7; /* get status of modem lines */ dzwait(dzaddr); /* wait for them */ if (c & DZ_CD) /* carrier status change? */ if (dzaddr->dzlcs & DZ_CD) { /* carrier up? */ /* carrier present */ (void)(*linesw[tp->t_line].l_modem)(tp, 1); } else if ((*linesw[tp->t_line].l_modem)(tp, 0) == 0) dzaddr->dzlcs = DZ_ACK|(c&7); } while ((c = dzaddr->dzrbuf) < 0) { /* char present */ dzchars[dz]++; tp = tp0 + ((c>>8)&07); if (tp >= &dz_tty[dz_cnt]) continue; if ((tp->t_state & TS_ISOPEN) == 0) { wakeup((caddr_t)&tp->t_rawq); #ifdef PORTSELECTOR if ((tp->t_state&TS_WOPEN) == 0) #endif continue; } if (c&DZ_FE) if (tp->t_flags & RAW) c = 0; else c = tp->t_intrc; if (c&DZ_DO && overrun == 0) { log(LOG_WARNING, "dz%d,%d: silo overflow\n", dz, (c>>8)&7); overrun = 1; } if (c&DZ_PE) if (((tp->t_flags & (EVENP|ODDP)) == EVENP) || ((tp->t_flags & (EVENP|ODDP)) == ODDP)) continue; #if NBK > 0 if (tp->t_line == NETLDISC) { c &= 0177; BKINPUT(c, tp); } else #endif (*linesw[tp->t_line].l_rint)(c, tp); } } /*ARGSUSED*/ dzioctl(dev, cmd, data, flag) dev_t dev; caddr_t data; { register struct tty *tp; register int unit = minor(dev); register int dz = unit >> 3; register struct dzdevice *dzaddr; int error; tp = &dz_tty[unit]; error = (*linesw[tp->t_line].l_ioctl)(tp, cmd, data, flag); if (error >= 0) return (error); error = ttioctl(tp, cmd, data, flag); if (error >= 0) { if (cmd == TIOCSETP || cmd == TIOCSETN || cmd == TIOCLBIS || cmd == TIOCLBIC || cmd == TIOCLSET) dzparam(unit); return (error); } switch (cmd) { case TIOCSBRK: dzaddr = ((struct pdma *)(tp->t_addr))->p_addr; if (dzaddr->dzcsr&DZ_32) (void) dzmctl(dev, DZ_BRK, DMBIS); else dzaddr->dzbrk = (dz_brk[dz] |= 1 << (unit&07)); break; case TIOCCBRK: dzaddr = ((struct pdma *)(tp->t_addr))->p_addr; if (dzaddr->dzcsr&DZ_32) (void) dzmctl(dev, DZ_BRK, DMBIC); else dzaddr->dzbrk = (dz_brk[dz] &= ~(1 << (unit&07))); break; case TIOCSDTR: (void) dzmctl(dev, DZ_DTR|DZ_RTS, DMBIS); break; case TIOCCDTR: (void) dzmctl(dev, DZ_DTR|DZ_RTS, DMBIC); break; case TIOCMSET: (void) dzmctl(dev, dmtodz(*(int *)data), DMSET); break; case TIOCMBIS: (void) dzmctl(dev, dmtodz(*(int *)data), DMBIS); break; case TIOCMBIC: (void) dzmctl(dev, dmtodz(*(int *)data), DMBIC); break; case TIOCMGET: *(int *)data = dztodm(dzmctl(dev, 0, DMGET)); break; default: return (ENOTTY); } return (0); } dmtodz(bits) register int bits; { register int b; b = (bits >>1) & 0370; if (bits & DML_ST) b |= DZ_ST; if (bits & DML_RTS) b |= DZ_RTS; if (bits & DML_DTR) b |= DZ_DTR; if (bits & DML_LE) b |= DZ_LE; return(b); } dztodm(bits) register int bits; { register int b; b = (bits << 1) & 0360; if (bits & DZ_DSR) b |= DML_DSR; if (bits & DZ_DTR) b |= DML_DTR; if (bits & DZ_ST) b |= DML_ST; if (bits & DZ_RTS) b |= DML_RTS; return(b); } dzparam(unit) register int unit; { register struct tty *tp; register struct dzdevice *dzaddr; register int lpr; tp = &dz_tty[unit]; dzaddr = dzpdma[unit].p_addr; if (dzsilos & (1 << (unit >> 3))) dzaddr->dzcsr = DZ_IEN | DZ_SAE; else dzaddr->dzcsr = DZ_IEN; dzact |= (1<<(unit>>3)); if (tp->t_ispeed == 0) { (void) dzmctl(unit, DZ_OFF, DMSET); /* hang up line */ return; } lpr = (dz_speeds[tp->t_ispeed]<<8) | (unit & 07); if (tp->t_flags & (RAW|LITOUT|PASS8)) lpr |= BITS8; else lpr |= (BITS7|PENABLE); if ((tp->t_flags & EVENP) == 0) lpr |= OPAR; if (tp->t_ispeed == B110) lpr |= TWOSB; dzaddr->dzlpr = lpr; } dzxint(tp) register struct tty *tp; { register struct pdma *dp; register dz, unit; dp = (struct pdma *)tp->t_addr; tp->t_state &= ~TS_BUSY; if (tp->t_state & TS_FLUSH) tp->t_state &= ~TS_FLUSH; else { ndflush(&tp->t_outq, dp->p_mem-tp->t_outq.c_cf); dp->p_end = dp->p_mem = tp->t_outq.c_cf; } if (tp->t_line) (*linesw[tp->t_line].l_start)(tp); else dzstart(tp); dz = minor(tp->t_dev) >> 3; unit = minor(tp->t_dev) & 7; if (tp->t_outq.c_cc == 0 || (tp->t_state&TS_BUSY)==0) if (dp->p_addr->dzcsr & DZ_32) dp->p_addr->dzlnen = (dz_lnen[dz] &= ~(1<p_addr->dztcr &= ~(1<t_addr; dzaddr = dp->p_addr; s = spl5(); if (tp->t_state & (TS_TIMEOUT|TS_BUSY|TS_TTSTOP)) goto out; if (tp->t_outq.c_cc <= TTLOWAT(tp)) { if (tp->t_state&TS_ASLEEP) { tp->t_state &= ~TS_ASLEEP; wakeup((caddr_t)&tp->t_outq); } if (tp->t_wsel) { selwakeup(tp->t_wsel, tp->t_state & TS_WCOLL); tp->t_wsel = 0; tp->t_state &= ~TS_WCOLL; } } if (tp->t_outq.c_cc == 0) goto out; if (tp->t_flags & (RAW|LITOUT)) cc = ndqb(&tp->t_outq, 0); else { cc = ndqb(&tp->t_outq, 0200); if (cc == 0) { cc = getc(&tp->t_outq); timeout(ttrstrt, (caddr_t)tp, (cc&0x7f) + 6); tp->t_state |= TS_TIMEOUT; goto out; } } tp->t_state |= TS_BUSY; dp->p_end = dp->p_mem = tp->t_outq.c_cf; dp->p_end += cc; dz = minor(tp->t_dev) >> 3; unit = minor(tp->t_dev) & 7; if (dzaddr->dzcsr & DZ_32) dzaddr->dzlnen = (dz_lnen[dz] |= (1<dztcr |= (1<t_addr; s = spl5(); if (tp->t_state & TS_BUSY) { dp->p_end = dp->p_mem; if ((tp->t_state&TS_TTSTOP)==0) tp->t_state |= TS_FLUSH; } splx(s); } dzmctl(dev, bits, how) dev_t dev; int bits, how; { register struct dzdevice *dzaddr; register int unit, mbits; int b, s; unit = minor(dev); b = 1<<(unit&7); dzaddr = dzpdma[unit].p_addr; s = spl5(); if (dzaddr->dzcsr & DZ_32) { dzwait(dzaddr) DELAY(100); /* IS 100 TOO MUCH? */ dzaddr->dzlcs = unit&7; DELAY(100); dzwait(dzaddr) DELAY(100); mbits = dzaddr->dzlcs; mbits &= 0177770; } else { mbits = (dzaddr->dzdtr & b) ? DZ_DTR : 0; mbits |= (dzaddr->dzmsr & b) ? DZ_CD : 0; mbits |= (dzaddr->dztbuf & b) ? DZ_RI : 0; } switch (how) { case DMSET: mbits = bits; break; case DMBIS: mbits |= bits; break; case DMBIC: mbits &= ~bits; break; case DMGET: (void) splx(s); return(mbits); } if (dzaddr->dzcsr & DZ_32) { mbits |= DZ_ACK|(unit&7); dzaddr->dzlcs = mbits; } else { if (mbits & DZ_DTR) dzaddr->dzdtr |= b; else dzaddr->dzdtr &= ~b; } (void) splx(s); return(mbits); } int dztransitions, dzfasttimers; /*DEBUG*/ dzscan() { register i; register struct dzdevice *dzaddr; register bit; register struct tty *tp; register car; int olddzsilos = dzsilos; int dztimer(); for (i = 0; i < dz_cnt ; i++) { dzaddr = dzpdma[i].p_addr; if (dzaddr == 0) continue; tp = &dz_tty[i]; bit = 1<<(i&07); car = 0; if (dzsoftCAR[i>>3]&bit) car = 1; else if (dzaddr->dzcsr & DZ_32) { dzaddr->dzlcs = i&07; dzwait(dzaddr); car = dzaddr->dzlcs & DZ_CD; } else car = dzaddr->dzmsr&bit; if (car) { /* carrier present */ if ((tp->t_state & TS_CARR_ON) == 0) (void)(*linesw[tp->t_line].l_modem)(tp, 1); } else if ((tp->t_state&TS_CARR_ON) && (*linesw[tp->t_line].l_modem)(tp, 0) == 0) dzaddr->dzdtr &= ~bit; } for (i = 0; i < NDZ; i++) { ave(dzrate[i], dzchars[i], 8); if (dzchars[i] > dzhighrate && ((dzsilos & (1 << i)) == 0)) { dzpdma[i << 3].p_addr->dzcsr = DZ_IEN | DZ_SAE; dzsilos |= (1 << i); dztransitions++; /*DEBUG*/ } else if ((dzsilos & (1 << i)) && (dzrate[i] < dzlowrate)) { dzpdma[i << 3].p_addr->dzcsr = DZ_IEN; dzsilos &= ~(1 << i); } dzchars[i] = 0; } if (dzsilos && !olddzsilos) timeout(dztimer, (caddr_t)0, dztimerintvl); timeout(dzscan, (caddr_t)0, hz); } dztimer() { register int dz; register int s; if (dzsilos == 0) return; s = spl5(); dzfasttimers++; /*DEBUG*/ for (dz = 0; dz < NDZ; dz++) if (dzsilos & (1 << dz)) dzrint(dz); splx(s); timeout(dztimer, (caddr_t) 0, dztimerintvl); } /* * Reset state of driver if UBA reset was necessary. * Reset parameters and restart transmission on open lines. */ dzreset(uban) int uban; { register int unit; register struct tty *tp; register struct uba_device *ui; for (unit = 0; unit < NDZLINE; unit++) { ui = dzinfo[unit >> 3]; if (ui == 0 || ui->ui_ubanum != uban || ui->ui_alive == 0) continue; if (unit%8 == 0) printf(" dz%d", unit>>3); tp = &dz_tty[unit]; if (tp->t_state & (TS_ISOPEN|TS_WOPEN)) { dzparam(unit); (void) dzmctl(unit, DZ_ON, DMSET); tp->t_state &= ~TS_BUSY; dzstart(tp); } } } #endif