43BSDReno/sys/vaxuba/dmf.c - view

File: [CSRG BSD Unix] / 43BSDReno / sys / vaxuba / dmf.c
Revision 1.1.1.1 (vendor branch): download - view: text, annotated - select for diffs
Tue Apr 24 16:12:57 2018 UTC (8 years, 1 month ago) by root
Branches: MAIN, BSD
CVS tags: HEAD, BSD43reno

BSD 4.3reno

/* * 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. * * @(#)dmf.c 7.12 (Berkeley) 4/12/90 */ /* * DMF32 driver * * * TODO: * test with modem * load as much as possible into silo * use auto XON/XOFF * test reset code */ #include "dmf.h" #if NDMF > 0 #ifndef NDMF_LP #define NDMF_LP NDMF #endif NDMF_LP #include "machine/pte.h" #include "uba.h" #include "param.h" #include "conf.h" #include "user.h" #include "proc.h" #include "ioctl.h" #include "tty.h" #include "map.h" #include "buf.h" #include "vm.h" #include "bkmac.h" #include "clist.h" #include "file.h" #include "uio.h" #include "kernel.h" #include "syslog.h" #include "dmx.h" #include "ubareg.h" #include "ubavar.h" #include "dmxreg.h" #include "dmfreg.h" #include "dmreg.h" extern int dmx_timeout; /* silo timeout, in ms */ int dmfstart(); /* * The clist space is mapped by one terminal driver onto each UNIBUS. * The identity of the board which allocated resources is recorded, * so the process may be repeated after UNIBUS resets. * The UBACVT macro converts a clist space address for unibus uban * into an i/o space address for the DMA routine. */ int dmf_uballoc[NUBA]; /* which dmf (if any) allocated unibus map */ int cbase[NUBA]; /* base address of clists in unibus map */ /* * Autoconfiguration and variables for DMF32 */ int dmfprobe(), dmfattach(), dmfrint(), dmfxint(); int dmflint(); struct uba_device *dmfinfo[NDMF]; u_short dmfstd[] = { 0 }; struct uba_driver dmfdriver = { dmfprobe, 0, dmfattach, 0, dmfstd, "dmf", dmfinfo }; struct tty dmf_tty[NDMF*8]; struct dmx_softc dmf_softc[NDMF]; #ifndef lint int ndmf = NDMF*8; /* used by iostat */ #endif /* * Routine for configuration to set dmf interrupt. */ /*ARGSUSED*/ dmfprobe(reg, ctlr) caddr_t reg; struct uba_device *ctlr; { register int br, cvec; /* these are ``value-result'' */ register struct dmfdevice *dmfaddr = (struct dmfdevice *)reg; register int i; register unsigned int a; static char *dmfdevs[]= {"parallel","printer","synch","asynch"}; unsigned int dmfoptions; static int (*intrv[3])() = { (int (*)())0, (int (*)())0, (int (*)())0 }; #ifdef lint br = 0; cvec = br; br = cvec; dmfxint(0); dmfrint(0); dmfsrint(); dmfsxint(); dmfdaint(); dmfdbint(); dmflint(0); #endif /* * Pick the usual size DMF vector here (don't decrement it here). * grab configuration; note that the DMF32 * doesn't seem to put the right bits in this * register until AFTER the interrupt vector is set. */ br = 0x15; cvec = (uba_hd[numuba].uh_lastiv - 4*8); dmfaddr->dmfccsr0 = (cvec >> 2); dmfoptions = dmfaddr->dmfccsr0 & DMFC_CONFMASK; /* catch a couple of special cases: Able vmz/32n and vmz/lp */ if (dmfoptions == DMFC_ASYNC) { /* Async portion only */ cvec = (uba_hd[numuba].uh_lastiv -= 8); dmfaddr->dmfccsr0 = (cvec - 2*8) >> 2; intrv[0] = ctlr->ui_intr[4]; intrv[1] = ctlr->ui_intr[5]; ctlr->ui_intr = intrv; } else if (dmfoptions == DMFC_LP) { /* LP portion only */ cvec = (uba_hd[numuba].uh_lastiv -= 8); ctlr->ui_intr = &ctlr->ui_intr[6]; } else if (dmfoptions == (DMFC_LP|DMFC_ASYNC)) { /* LP and Async portions only */ cvec = (uba_hd[numuba].uh_lastiv -= 2*8); ctlr->ui_intr = &ctlr->ui_intr[4]; } else { /* All other configurations get everything */ cvec = (uba_hd[numuba].uh_lastiv -= 4*8); } a = (dmfoptions >> 12) & 0xf; printf("dmf%d:", ctlr->ui_unit); for (i = 0; a != 0; ++i, a >>= 1) { if (a & 1) printf(" %s",dmfdevs[i]); } printf(".\n"); if (dmfoptions & DMFC_LP) dmfaddr->dmfl_ctrl = DMFL_RESET; return (sizeof (struct dmfdevice)); } /* * Routine called to attach a dmf. */ dmfattach(ui) register struct uba_device *ui; { register struct dmx_softc *sc; sc = &dmf_softc[ui->ui_unit]; sc->dmx_type = 'f'; sc->dmx_unit = ui->ui_unit; sc->dmx_unit0 = 0; sc->dmx_ubanum = ui->ui_ubanum; sc->dmx_softCAR = ui->ui_flags & 0xff; sc->dmx_tty = &dmf_tty[ui->ui_unit * 8]; sc->dmx_octet = (struct dmx_octet *)&((struct dmfdevice *)ui->ui_addr)->dmfa; cbase[ui->ui_ubanum] = -1; dmf_uballoc[ui->ui_ubanum] = -1; #if NDMF_LP > 0 dmflattach(ui); #endif NDMF_LP } /* * Open a DMF32 line, mapping the clist onto the uba if this * is the first dmf on this uba. Turn on this dmf if this is * the first use of it. */ /*ARGSUSED*/ dmfopen(dev, flag) dev_t dev; { register struct tty *tp; register struct dmx_softc *sc; int unit, dmf; register struct dmfdevice *addr; register struct uba_device *ui; int s; int dmxparam(); unit = minor(dev); if (unit & 0200) return (dmflopen(dev,flag)); dmf = unit >> 3; if (unit >= NDMF*8 || (ui = dmfinfo[dmf])== 0 || ui->ui_alive == 0) return (ENXIO); tp = &dmf_tty[unit]; sc = &dmf_softc[dmf]; addr = (struct dmfdevice *)ui->ui_addr; tp->t_addr = (caddr_t)(&addr->dmfa); tp->t_oproc = dmfstart; tp->t_dev = dev; /* needed before dmxopen */ tp->t_param = dmxparam; /* * While setting up state for this uba, * block uba resets which can clear the state. */ s = spl6(); if (cbase[ui->ui_ubanum] == -1) { dmf_uballoc[ui->ui_ubanum] = dmf; cbase[ui->ui_ubanum] = UBAI_ADDR(uballoc(ui->ui_ubanum, (caddr_t)cfree, nclist*sizeof(struct cblock), 0)); } splx(s); return (dmxopen(tp, sc, flag)); } /* * Close a DMF32 line. */ /*ARGSUSED*/ dmfclose(dev, flag) dev_t dev; int flag; { register unit; unit = minor(dev); if (unit & 0200) { dmflclose(dev, flag); return; } return (dmxclose(&dmf_tty[unit])); } dmfread(dev, uio, flag) dev_t dev; struct uio *uio; { register struct tty *tp; if (minor(dev) & 0200) return(ENXIO); tp = &dmf_tty[minor(dev)]; return ((*linesw[tp->t_line].l_read)(tp, uio, flag)); } dmfwrite(dev, uio) dev_t dev; struct uio *uio; { register struct tty *tp; if (minor(dev) & 0200) return (dmflwrite(dev,uio)); tp = &dmf_tty[minor(dev)]; return ((*linesw[tp->t_line].l_write)(tp, uio)); } /* * DMF32 receiver interrupt. */ dmfrint(dmf) int dmf; { struct uba_device *ui; ui = dmfinfo[dmf]; if (ui == 0 || ui->ui_alive == 0) return; dmxrint(&dmf_softc[dmf]); } /* * Ioctl for DMF32. */ dmfioctl(dev, cmd, data, flag) dev_t dev; caddr_t data; { int unit = minor(dev); if (unit & 0200) return (ENOTTY); return (dmxioctl(&dmf_tty[unit], cmd, data, flag)); } /* * DMF32 transmitter interrupt. * Restart the idle line. */ dmfxint(dmf) int dmf; { dmxxint(&dmf_softc[dmf]); } /* * Start (restart) transmission on the given line. */ dmfstart(tp) struct tty *tp; { dmxstart(tp, &dmf_softc[minor(tp->t_dev) >> 3]); } /* * Stop output on a line, e.g. for ^S/^Q or output flush. */ dmfstop(tp, flag) struct tty *tp; { dmxstop(tp, &dmf_softc[minor(tp->t_dev) >> 3], flag); } /* * Reset state of driver if UBA reset was necessary. * Reset the csr, lpr, and lcr registers on open lines, and * restart transmitters. */ dmfreset(uban) int uban; { register int dmf; register struct tty *tp; register struct uba_device *ui; register struct dmfdevice *addr; int i; for (dmf = 0; dmf < NDMF; dmf++) { ui = dmfinfo[dmf]; if (ui == 0 || ui->ui_alive == 0 || ui->ui_ubanum != uban) continue; printf(" dmf%d", dmf); if (dmf_uballoc[uban] == dmf) { int info; info = uballoc(uban, (caddr_t)cfree, nclist * sizeof(struct cblock), UBA_CANTWAIT); if (info) cbase[uban] = UBAI_ADDR(info); else { printf(" [can't get uba map]"); cbase[uban] = -1; } } addr = (struct dmfdevice *)ui->ui_addr; addr->dmfa.csr = DMF_IE; addr->dmfa.rsp = dmx_timeout; tp = &dmf_tty[dmf * 8]; for (i = 0; i < 8; i++, tp++) { if (tp->t_state & (TS_ISOPEN|TS_WOPEN)) { dmxparam(tp, &tp->t_termios); (void) dmxmctl(tp, DMF_ON, DMSET); tp->t_state &= ~TS_BUSY; dmfstart(tp); } } #if NDMF_LP > 0 dmflint(dmf); #endif } } #if NDMF_LP > 0 /* * DMF32 line printer driver * * the line printer on dmfx is indicated by a minor device code of 128+x * * the flags field of the config file is interpreted like so: * bits meaning * ---- ------- * 0-7 soft carrier bits for ttys part of dmf32 * 8-15 number of cols/line on the line printer * if 0, 132 will be used. * 16-23 number of lines/page on the line printer * if 0, 66 will be used. * 24 if 1 DO NOT use the auto format mode of the * line printer parallel port */ struct dmfl_softc { u_int dmfl_state; /* soft state bits */ int dmfl_info; /* uba info */ u_short dmfl_lines; /* lines per page (66 def.) */ u_short dmfl_cols; /* cols per line (132 def.) */ u_short dmfl_format; /* fflag for auto form feed */ char dmfl_buf[DMFL_BUFSIZ]; } dmfl_softc[NDMF]; /* * convert device number into DMF line printer unit number */ #define DMFL_UNIT(d) (minor(d) & 0xf) /* up to 16 DMFs */ #define ASLP 1 /* waiting for interrupt from dmf */ #define OPEN 2 /* line printer is open */ #define ERROR 4 /* error while printing, driver refuses to do anything till closed */ #define MOREIO 8 /* more data for printer */ /* * Attach printer portion of dmf. */ dmflattach(ui) register struct uba_device *ui; { register int unit = ui->ui_unit; register int cols = (ui->ui_flags>>8) & 0xff; register int lines = (ui->ui_flags>>16) & 0xff; register struct dmfl_softc *sc; sc = &dmfl_softc[unit]; sc->dmfl_cols = cols == 0 ? DMFL_DEFCOLS : cols; sc->dmfl_lines = lines == 0 ? DMFL_DEFLINES : lines; if ((ui->ui_flags >> 24) & 0x1) sc->dmfl_format = (2 << 8); else sc->dmfl_format = (2 << 8) | DMFL_FORMAT; } /* * dmflopen -- open the line printer port on a dmf32 */ /* ARGSUSED */ dmflopen(dev, flag) dev_t dev; int flag; { register int dmf; register struct dmfl_softc *sc; register struct uba_device *ui; register struct dmfdevice *addr; dmf = DMFL_UNIT(dev); if (dmf >= NDMF || (ui = dmfinfo[dmf]) == 0 || ui->ui_alive == 0) return (ENXIO); sc = &dmfl_softc[dmf]; if (sc->dmfl_state & OPEN) return (EBUSY); addr = (struct dmfdevice *)ui->ui_addr; if (addr->dmfl_ctrl & DMFL_OFFLINE) { #ifdef notdef log(LOG_WARNING, "dmf%d: line printer offline/jammed\n", dmf); #endif return (EIO); } if ((addr->dmfl_ctrl & DMFL_CONV)) { log(LOG_WARNING, "dmf%d: line printer disconnected\n", dmf); return (EIO); } addr->dmfl_ctrl = 0; sc->dmfl_state |= OPEN; return (0); } /* ARGSUSED */ dmflclose(dev, flag) dev_t dev; int flag; { register int dmf = DMFL_UNIT(dev); register struct dmfl_softc *sc = &dmfl_softc[dmf]; register struct uba_device *ui = dmfinfo[dmf]; sc->dmfl_state = 0; if (sc->dmfl_info != 0) ubarelse((int)ui->ui_ubanum, &sc->dmfl_info); ((struct dmfdevice *)ui->ui_addr)->dmfl_ctrl = 0; } dmflwrite(dev, uio) dev_t dev; struct uio *uio; { register int n; register int error; register struct dmfl_softc *sc; sc = &dmfl_softc[DMFL_UNIT(dev)]; if (sc->dmfl_state & ERROR) return (EIO); while (n = (unsigned)uio->uio_resid) { if (n > DMFL_BUFSIZ) { n = DMFL_BUFSIZ; sc->dmfl_state |= MOREIO; } else sc->dmfl_state &= ~MOREIO; if (error = uiomove(sc->dmfl_buf, (int)n, uio)) return (error); if (error = dmflout(dev, sc->dmfl_buf, n)) return (error); } return (0); } /* * dmflout -- start io operation to dmf line printer * cp is addr of buf of n chars to be sent. * * -- dmf will be put in formatted output mode, this will * be selectable from an ioctl if the * need ever arises. */ dmflout(dev, cp, n) dev_t dev; char *cp; int n; { register struct dmfl_softc *sc; register int dmf; register struct uba_device *ui; register struct dmfdevice *d; int s, error; dmf = DMFL_UNIT(dev); sc = &dmfl_softc[dmf]; if (sc->dmfl_state & ERROR) return (EIO); ui = dmfinfo[dmf]; /* * allocate unibus resources, will be released when io * operation is done. */ if (sc->dmfl_info == 0) sc->dmfl_info = uballoc(ui->ui_ubanum, cp, n, 0); d = (struct dmfdevice *)ui->ui_addr; d->dmfl_ctrl = sc->dmfl_format; /* indir reg 2 */ /* indir reg auto increments on r/w */ /* SO DON'T CHANGE THE ORDER OF THIS CODE */ d->dmfl_indrct = 0; /* prefix chars & num */ d->dmfl_indrct = 0; /* suffix chars & num */ d->dmfl_indrct = sc->dmfl_info; /* dma lo 16 bits addr */ d->dmfl_indrct = -n; /* number of chars */ d->dmfl_indrct = ((sc->dmfl_info>>16)&3) | DMFL_OPTIONS; /* dma hi 2 bits addr */ d->dmfl_indrct = sc->dmfl_lines /* lines per page */ | (sc->dmfl_cols<<8); /* carriage width */ sc->dmfl_state |= ASLP; error = 0; s = spltty(); d->dmfl_ctrl |= DMFL_PEN | DMFL_IE; while (sc->dmfl_state & ASLP) { if (error = tsleep(sc->dmfl_buf, (PZERO + 8) | PCATCH, ttyout, 0)) break; while (sc->dmfl_state & ERROR) { timeout(dmflint, (caddr_t)dmf, 10 * hz); if (error = tsleep((caddr_t)&sc->dmfl_state, (PZERO + 8) | PCATCH, ttyout, 0)) goto out; } } out: splx(s); return (0); } /* * dmflint -- handle an interrupt from the line printer part of the dmf32 */ dmflint(dmf) int dmf; { register struct uba_device *ui; register struct dmfl_softc *sc; register struct dmfdevice *d; short dmfl_stats; ui = dmfinfo[dmf]; sc = &dmfl_softc[dmf]; d = (struct dmfdevice *)ui->ui_addr; d->dmfl_ctrl &= ~DMFL_IE; dmfl_stats = d->dmfl_ctrl; if (sc->dmfl_state & ERROR) { if ((dmfl_stats & DMFL_OFFLINE) == 0) sc->dmfl_state &= ~ERROR; wakeup((caddr_t)&sc->dmfl_state); return; } if (dmfl_stats & DMFL_DMAERR) log(LOG_WARNING, "dmf%d: NXM\n", dmf); if (dmfl_stats & DMFL_OFFLINE) { log(LOG_WARNING, "dmf%d: printer error\n", dmf); sc->dmfl_state |= ERROR; } #ifdef notdef if (dmfl_stats & DMFL_PDONE) { printf("bytes= %d\n", d->dmfl_indrct); printf("lines= %d\n", d->dmfl_indrct); } #endif sc->dmfl_state &= ~ASLP; wakeup((caddr_t)sc->dmfl_buf); if (sc->dmfl_info && (sc->dmfl_state & MOREIO) == 0) ubarelse(ui->ui_ubanum, &sc->dmfl_info); } #endif NDMF_LP /* stubs for interrupt routines for devices not yet supported */ dmfsrint() { printf("dmfsrint\n"); } dmfsxint() { printf("dmfsxint\n"); } dmfdaint() { printf("dmfdaint\n"); } dmfdbint() { printf("dmfdbint\n"); } #endif NDMF

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