/* * Copyright (c) 1988 University of Utah. * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * the Systems Programming Group of the University of Utah Computer * Science Department. * * %sccs.include.redist.c% * * from: Utah $Hdr: grf.c 1.28 89/08/14$ * * @(#)grf.c 7.6 (Berkeley) 12/16/90 */ /* * Graphics display driver for the HP300. * This is the hardware-independent portion of the driver. * Hardware access is through the grfdev routines below. */ #include "grf.h" #if NGRF > 0 #include "sys/param.h" #include "sys/user.h" #include "sys/proc.h" #include "sys/ioctl.h" #include "sys/file.h" #include "sys/malloc.h" #include "device.h" #include "grfioctl.h" #include "grfvar.h" #include "../include/cpu.h" #ifdef HPUXCOMPAT #include "../hpux/hpux.h" #endif #include "vm/vm_param.h" #include "vm/vm_map.h" #include "vm/vm_kern.h" #include "vm/vm_page.h" #include "vm/vm_pager.h" #include "sys/specdev.h" #include "sys/vnode.h" #include "sys/mman.h" #include "ite.h" #if NITE == 0 #define iteon(u,f) #define iteoff(u,f) #endif int grfprobe(); int tc_init(), tc_mode(); int gb_init(), gb_mode(); int rb_init(), rb_mode(); int dv_init(), dv_mode(); struct grfdev grfdev[] = { GID_TOPCAT, GRFBOBCAT, tc_init, tc_mode, "topcat", GID_GATORBOX, GRFGATOR, gb_init, gb_mode, "gatorbox", GID_RENAISSANCE,GRFRBOX, rb_init, rb_mode, "renaissance", GID_LRCATSEYE, GRFCATSEYE, tc_init, tc_mode, "lo-res catseye", GID_HRCCATSEYE, GRFCATSEYE, tc_init, tc_mode, "hi-res catseye", GID_HRMCATSEYE, GRFCATSEYE, tc_init, tc_mode, "hi-res catseye", GID_DAVINCI, GRFDAVINCI, dv_init, dv_mode, "davinci", }; int ngrfdev = sizeof(grfdev) / sizeof(grfdev[0]); struct driver grfdriver = { grfprobe, "grf" }; struct grf_softc grf_softc[NGRF]; #ifdef DEBUG int grfdebug = 0; #define GDB_DEVNO 0x01 #define GDB_MMAP 0x02 #define GDB_IOMAP 0x04 #define GDB_LOCK 0x08 #endif /* * XXX: called from ite console init routine. * Does just what configure will do later but without printing anything. */ grfconfig() { register caddr_t addr; register struct hp_hw *hw; register struct hp_device *hd, *nhd; for (hw = sc_table; hw->hw_type; hw++) { if (hw->hw_type != BITMAP) continue; /* * Found one, now match up with a logical unit number */ nhd = NULL; addr = hw->hw_addr; for (hd = hp_dinit; hd->hp_driver; hd++) { if (hd->hp_driver != &grfdriver || hd->hp_alive) continue; /* * Wildcarded. If first, remember as possible match. */ if (hd->hp_addr == NULL) { if (nhd == NULL) nhd = hd; continue; } /* * Not wildcarded. * If exact match done searching, else keep looking. */ if ((caddr_t)sctoaddr(hd->hp_addr) == addr) { nhd = hd; break; } } /* * Found a match, initialize */ if (nhd && grfinit(addr, nhd->hp_unit)) { nhd->hp_addr = addr; } } } /* * Normal init routine called by configure() code */ grfprobe(hd) struct hp_device *hd; { struct grf_softc *gp = &grf_softc[hd->hp_unit]; if ((gp->g_flags & GF_ALIVE) == 0 && !grfinit(hd->hp_addr, hd->hp_unit)) return(0); printf("grf%d: %d x %d ", hd->hp_unit, gp->g_display.gd_dwidth, gp->g_display.gd_dheight); if (gp->g_display.gd_colors == 2) printf("monochrome"); else printf("%d color", gp->g_display.gd_colors); printf(" %s display\n", grfdev[gp->g_type].gd_desc); return(1); } grfinit(addr, unit) caddr_t addr; { struct grf_softc *gp = &grf_softc[unit]; struct grfreg *gr; register struct grfdev *gd; gr = (struct grfreg *) addr; if (gr->gr_id != GRFHWID) return(0); for (gd = grfdev; gd < &grfdev[ngrfdev]; gd++) if (gd->gd_hardid == gr->gr_id2) break; if (gd < &grfdev[ngrfdev] && (*gd->gd_init)(gp, addr)) { gp->g_display.gd_id = gd->gd_softid; gp->g_type = gd - grfdev; gp->g_flags = GF_ALIVE; return(1); } return(0); } /*ARGSUSED*/ grfopen(dev, flags) dev_t dev; { int unit = GRFUNIT(dev); register struct grf_softc *gp = &grf_softc[unit]; int error = 0; if (unit >= NGRF || (gp->g_flags & GF_ALIVE) == 0) return(ENXIO); if ((gp->g_flags & (GF_OPEN|GF_EXCLUDE)) == (GF_OPEN|GF_EXCLUDE)) return(EBUSY); #ifdef HPUXCOMPAT /* * XXX: cannot handle both HPUX and BSD processes at the same time */ if (u.u_procp->p_flag & SHPUX) if (gp->g_flags & GF_BSDOPEN) return(EBUSY); else gp->g_flags |= GF_HPUXOPEN; else if (gp->g_flags & GF_HPUXOPEN) return(EBUSY); else gp->g_flags |= GF_BSDOPEN; #endif /* * First open. * XXX: always put in graphics mode. */ error = 0; if ((gp->g_flags & GF_OPEN) == 0) { gp->g_flags |= GF_OPEN; error = grfon(dev); } return(error); } /*ARGSUSED*/ grfclose(dev, flags) dev_t dev; { register struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; (void) grfoff(dev); (void) grfunlock(gp); gp->g_flags &= GF_ALIVE; return(0); } /*ARGSUSED*/ grfioctl(dev, cmd, data, flag) dev_t dev; caddr_t data; { register struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; int error; #ifdef HPUXCOMPAT if (u.u_procp->p_flag & SHPUX) return(hpuxgrfioctl(dev, cmd, data, flag)); #endif error = 0; switch (cmd) { /* XXX: compatibility hack */ case OGRFIOCGINFO: bcopy((caddr_t)&gp->g_display, data, sizeof(struct ogrfinfo)); break; case GRFIOCGINFO: bcopy((caddr_t)&gp->g_display, data, sizeof(struct grfinfo)); break; case GRFIOCON: error = grfon(dev); break; case GRFIOCOFF: error = grfoff(dev); break; case GRFIOCMAP: error = grfmmap(dev, (caddr_t *)data); break; case GRFIOCUNMAP: error = grfunmmap(dev, *(caddr_t *)data); break; default: error = EINVAL; break; } return(error); } /*ARGSUSED*/ grfselect(dev, rw) dev_t dev; { if (rw == FREAD) return(0); return(1); } grflock(gp, block) register struct grf_softc *gp; int block; { struct proc *p = u.u_procp; /* XXX */ int error; extern char devioc[]; #ifdef DEBUG if (grfdebug & GDB_LOCK) printf("grflock(%d): dev %x flags %x lockpid %x\n", p->p_pid, gp-grf_softc, gp->g_flags, gp->g_lockp ? gp->g_lockp->p_pid : -1); #endif #ifdef HPUXCOMPAT if (gp->g_pid) { #ifdef DEBUG if (grfdebug & GDB_LOCK) printf(" lock[0] %d lockslot %d lock[lockslot] %d\n", gp->g_locks[0], gp->g_lockpslot, gp->g_locks[gp->g_lockpslot]); #endif gp->g_locks[0] = 0; if (gp->g_locks[gp->g_lockpslot] == 0) { gp->g_lockp = NULL; gp->g_lockpslot = 0; } } #endif if (gp->g_lockp) { if (gp->g_lockp == p) return(EBUSY); if (!block) return(EAGAIN); do { gp->g_flags |= GF_WANTED; if (error = tsleep((caddr_t)&gp->g_flags, (PZERO+1) | PCATCH, devioc, 0)) return (error); } while (gp->g_lockp); } gp->g_lockp = p; #ifdef HPUXCOMPAT if (gp->g_pid) { int slot = grffindpid(gp); #ifdef DEBUG if (grfdebug & GDB_LOCK) printf(" slot %d\n", slot); #endif gp->g_lockpslot = gp->g_locks[0] = slot; gp->g_locks[slot] = 1; } #endif return(0); } grfunlock(gp) register struct grf_softc *gp; { #ifdef DEBUG if (grfdebug & GDB_LOCK) printf("grfunlock(%d): dev %x flags %x lockpid %d\n", u.u_procp->p_pid, gp-grf_softc, gp->g_flags, gp->g_lockp ? gp->g_lockp->p_pid : -1); #endif if (gp->g_lockp != u.u_procp) return(EBUSY); #ifdef HPUXCOMPAT if (gp->g_pid) { #ifdef DEBUG if (grfdebug & GDB_LOCK) printf(" lock[0] %d lockslot %d lock[lockslot] %d\n", gp->g_locks[0], gp->g_lockpslot, gp->g_locks[gp->g_lockpslot]); #endif gp->g_locks[gp->g_lockpslot] = gp->g_locks[0] = 0; gp->g_lockpslot = 0; } #endif if (gp->g_flags & GF_WANTED) { wakeup((caddr_t)&gp->g_flags); gp->g_flags &= ~GF_WANTED; } gp->g_lockp = NULL; return(0); } /*ARGSUSED*/ grfmap(dev, off, prot) dev_t dev; { return(grfaddr(&grf_softc[GRFUNIT(dev)], off)); } #ifdef HPUXCOMPAT /*ARGSUSED*/ hpuxgrfioctl(dev, cmd, data, flag) dev_t dev; caddr_t data; { register struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; int error; error = 0; switch (cmd) { case GCID: *(int *)data = gp->g_display.gd_id; break; case GCON: error = grfon(dev); break; case GCOFF: error = grfoff(dev); break; case GCLOCK: error = grflock(gp, 1); break; case GCUNLOCK: error = grfunlock(gp); break; case GCAON: case GCAOFF: break; /* GCSTATIC is implied by our implementation */ case GCSTATIC_CMAP: case GCVARIABLE_CMAP: break; /* map in control regs and frame buffer */ case GCMAP: error = grfmmap(dev, (caddr_t *)data); break; case GCUNMAP: error = grfunmmap(dev, *(caddr_t *)data); /* XXX: HP-UX uses GCUNMAP to get rid of GCSLOT memory */ if (error) error = grflckunmmap(dev, *(caddr_t *)data); break; case GCSLOT: { struct grf_slot *sp = (struct grf_slot *)data; sp->slot = grffindpid(gp); if (sp->slot) { error = grflckmmap(dev, (caddr_t *)&sp->addr); if (error && gp->g_pid) { free((caddr_t)gp->g_pid, M_DEVBUF); gp->g_pid = NULL; } } else error = EINVAL; /* XXX */ break; } /* * XXX: only used right now to map in rbox control registers * Will be replaced in the future with a real IOMAP interface. */ case IOMAPMAP: error = iommap(dev, (caddr_t *)data); #if 0 /* * It may not be worth kludging this (using p_devtmp) to * make this work. It was an undocumented side-effect * in HP-UX that the mapped address was the return value * of the ioctl. The only thing I remember that counted * on this behavior was the rbox X10 server. */ if (!error) u.u_r.r_val1 = *(int *)data; /* XXX: this sux */ #endif break; case IOMAPUNMAP: error = iounmmap(dev, *(caddr_t *)data); break; default: error = EINVAL; break; } return(error); } #endif grfon(dev) dev_t dev; { int unit = GRFUNIT(dev); struct grf_softc *gp = &grf_softc[unit]; /* * XXX: iteoff call relies on devices being in same order * as ITEs and the fact that iteoff only uses the minor part * of the dev arg. */ iteoff(unit, 3); return((*grfdev[gp->g_type].gd_mode) (gp, (dev&GRFOVDEV) ? GM_GRFOVON : GM_GRFON)); } grfoff(dev) dev_t dev; { int unit = GRFUNIT(dev); struct grf_softc *gp = &grf_softc[unit]; int error; (void) grfunmmap(dev, (caddr_t)0); error = (*grfdev[gp->g_type].gd_mode) (gp, (dev&GRFOVDEV) ? GM_GRFOVOFF : GM_GRFOFF); /* XXX: see comment for iteoff above */ iteon(unit, 2); return(error); } grfaddr(gp, off) struct grf_softc *gp; register int off; { register struct grfinfo *gi = &gp->g_display; /* control registers */ if (off >= 0 && off < gi->gd_regsize) return(((u_int)gi->gd_regaddr + off) >> PGSHIFT); /* frame buffer */ if (off >= gi->gd_regsize && off < gi->gd_regsize+gi->gd_fbsize) { off -= gi->gd_regsize; return(((u_int)gi->gd_fbaddr + off) >> PGSHIFT); } /* bogus */ return(-1); } #ifdef HPUXCOMPAT /* * Convert a BSD style minor devno to HPUX style. * We cannot just create HPUX style nodes as they require 24 bits * of minor device number and we only have 8. * XXX: This may give the wrong result for remote stats of other * machines where device 10 exists. */ grfdevno(dev) dev_t dev; { int unit = GRFUNIT(dev); struct grf_softc *gp = &grf_softc[unit]; int newdev; if (unit >= NGRF || (gp->g_flags&GF_ALIVE) == 0) return(bsdtohpuxdev(dev)); /* magic major number */ newdev = 12 << 24; /* now construct minor number */ if (gp->g_display.gd_regaddr != (caddr_t)GRFIADDR) newdev |= ((u_int)gp->g_display.gd_regaddr-EXTIOBASE) | 0x200; if (dev & GRFIMDEV) newdev |= 0x02; else if (dev & GRFOVDEV) newdev |= 0x01; #ifdef DEBUG if (grfdebug & GDB_DEVNO) printf("grfdevno: dev %x newdev %x\n", dev, newdev); #endif return(newdev); } #endif grfmmap(dev, addrp) dev_t dev; caddr_t *addrp; { struct proc *p = u.u_procp; /* XXX */ struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; int len, error; struct vnode vn; struct specinfo si; int flags; #ifdef DEBUG if (grfdebug & GDB_MMAP) printf("grfmmap(%d): addr %x\n", p->p_pid, *addrp); #endif len = gp->g_display.gd_regsize + gp->g_display.gd_fbsize; flags = MAP_FILE|MAP_SHARED; if (*addrp) flags |= MAP_FIXED; else *addrp = (caddr_t)0x1000000; /* XXX */ vn.v_type = VCHR; /* XXX */ vn.v_specinfo = &si; /* XXX */ vn.v_rdev = dev; /* XXX */ error = vm_mmap(u.u_procp->p_map, (vm_offset_t *)addrp, (vm_size_t)len, VM_PROT_ALL, flags, (caddr_t)&vn, 0); return(error); } grfunmmap(dev, addr) dev_t dev; caddr_t addr; { struct proc *p = u.u_procp; /* XXX */ struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; vm_size_t size; int rv; #ifdef DEBUG if (grfdebug & GDB_MMAP) printf("grfunmmap(%d): dev %x addr %x\n", p->p_pid, dev, addr); #endif if (addr == 0) return(EINVAL); /* XXX: how do we deal with this? */ size = round_page(gp->g_display.gd_regsize + gp->g_display.gd_fbsize); rv = vm_deallocate(p->p_map, (vm_offset_t)addr, size); return(rv == KERN_SUCCESS ? 0 : EINVAL); } #ifdef HPUXCOMPAT iommap(dev, addrp) dev_t dev; caddr_t *addrp; { struct proc *p = u.u_procp; /* XXX */ struct grf_softc *gp = &grf_softc[GRFUNIT(dev)]; #ifdef DEBUG if (grfdebug & (GDB_MMAP|GDB_IOMAP)) printf("iommap(%d): addr %x\n", p->p_pid, *addrp); #endif return(EINVAL); } iounmmap(dev, addr) dev_t dev; caddr_t addr; { int unit = minor(dev); #ifdef DEBUG if (grfdebug & (GDB_MMAP|GDB_IOMAP)) printf("iounmmap(%d): id %d addr %x\n", u.u_procp->p_pid, unit, addr); #endif return(0); } /* * Processes involved in framebuffer mapping via GCSLOT are recorded in * an array of pids. The first element is used to record the last slot used * (for faster lookups). The remaining elements record up to GRFMAXLCK-1 * process ids. Returns a slot number between 1 and GRFMAXLCK or 0 if no * slot is available. */ grffindpid(gp) struct grf_softc *gp; { register short pid, *sp; register int i, limit; int ni; if (gp->g_pid == NULL) { gp->g_pid = (short *) malloc(GRFMAXLCK * sizeof(short), M_DEVBUF, M_WAITOK); bzero((caddr_t)gp->g_pid, GRFMAXLCK * sizeof(short)); } pid = u.u_procp->p_pid; ni = limit = gp->g_pid[0]; for (i = 1, sp = &gp->g_pid[1]; i <= limit; i++, sp++) { if (*sp == pid) goto done; if (*sp == 0) ni = i; } i = ni; if (i < limit) { gp->g_pid[i] = pid; goto done; } if (++i == GRFMAXLCK) return(0); gp->g_pid[0] = i; gp->g_pid[i] = pid; done: #ifdef DEBUG if (grfdebug & GDB_LOCK) printf("grffindpid(%d): slot %d of %d\n", pid, i, gp->g_pid[0]); #endif return(i); } grfrmpid(gp) struct grf_softc *gp; { register short pid, *sp; register int limit, i; int mi; if (gp->g_pid == NULL || (limit = gp->g_pid[0]) == 0) return; pid = u.u_procp->p_pid; limit = gp->g_pid[0]; mi = 0; for (i = 1, sp = &gp->g_pid[1]; i <= limit; i++, sp++) { if (*sp == pid) *sp = 0; else if (*sp) mi = i; } i = mi; if (i < limit) gp->g_pid[0] = i; #ifdef DEBUG if (grfdebug & GDB_LOCK) printf("grfrmpid(%d): slot %d of %d\n", pid, sp-gp->g_pid, gp->g_pid[0]); #endif } grflckmmap(dev, addrp) dev_t dev; caddr_t *addrp; { struct proc *p = u.u_procp; /* XXX */ #ifdef DEBUG if (grfdebug & (GDB_MMAP|GDB_LOCK)) printf("grflckmmap(%d): addr %x\n", p->p_pid, *addrp); #endif return(EINVAL); } grflckunmmap(dev, addr) dev_t dev; caddr_t addr; { int unit = minor(dev); #ifdef DEBUG if (grfdebug & (GDB_MMAP|GDB_LOCK)) printf("grflckunmmap(%d): id %d addr %x\n", u.u_procp->p_pid, unit, addr); #endif return(EINVAL); } #endif /* HPUXCOMPAT */ #endif /* NGRF > 0 */