/* $NetBSD: zx.c,v 1.10 2003/08/25 17:50:29 uwe Exp $ */ /* * Copyright (c) 2002 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Andrew Doran. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * Driver for the Sun ZX display adapter. This would be called 'leo', but * NetBSD/amiga already has a driver by that name. The XFree86 and Linux * drivers were used as "living documentation" when writing this; thanks * to the authors. * * Issues (which can be solved with wscons, happily enough): * * o There is lots of unnecessary mucking about rasops in here, primarily * to appease the sparc fb code. * * o RASTERCONSOLE is required. X needs the board set up correctly, and * that's difficult to reconcile with using the PROM for output. */ #include __KERNEL_RCSID(0, "$NetBSD: zx.c,v 1.10 2003/08/25 17:50:29 uwe Exp $"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef RASTERCONSOLE #error Sorry, this driver needs the RASTERCONSOLE option #endif /* Force 32-bit writes. */ #define SETREG(r, v) (*((volatile u_int32_t *)&r) = (v)) #define ZX_STD_ROP (ZX_ROP_NEW | ZX_ATTR_WE_ENABLE | \ ZX_ATTR_OE_ENABLE | ZX_ATTR_FORCE_WID) void zx_attach(struct device *, struct device *, void *); int zx_match(struct device *, struct cfdata *, void *); void zx_blank(struct device *); int zx_cmap_put(struct zx_softc *); void zx_copyrect(struct rasops_info *, int, int, int, int, int, int); int zx_cross_loadwid(struct zx_softc *, u_int, u_int, u_int); int zx_cross_wait(struct zx_softc *); void zx_fillrect(struct rasops_info *, int, int, int, int, long, int); int zx_intr(void *); void zx_reset(struct zx_softc *); void zx_unblank(struct device *); void zx_cursor_blank(struct zx_softc *); void zx_cursor_color(struct zx_softc *); void zx_cursor_move(struct zx_softc *); void zx_cursor_set(struct zx_softc *); void zx_cursor_unblank(struct zx_softc *); void zx_copycols(void *, int, int, int, int); void zx_copyrows(void *, int, int, int); void zx_cursor(void *, int, int, int); void zx_do_cursor(struct rasops_info *); void zx_erasecols(void *, int, int, int, long); void zx_eraserows(void *, int, int, long); void zx_putchar(void *, int, int, u_int, long); struct zx_mmo { off_t mo_va; off_t mo_pa; off_t mo_size; } static const zx_mmo[] = { { ZX_FB0_VOFF, ZX_OFF_SS0, 0x00800000 }, { ZX_LC0_VOFF, ZX_OFF_LC_SS0_USR, 0x00001000 }, { ZX_LD0_VOFF, ZX_OFF_LD_SS0, 0x00001000 }, { ZX_LX0_CURSOR_VOFF, ZX_OFF_LX_CURSOR, 0x00001000 }, { ZX_FB1_VOFF, ZX_OFF_SS1, 0x00800000 }, { ZX_LC1_VOFF, ZX_OFF_LC_SS1_USR, 0x00001000 }, { ZX_LD1_VOFF, ZX_OFF_LD_SS1, 0x00001000 }, { ZX_LX_KRN_VOFF, ZX_OFF_LX_CROSS, 0x00001000 }, { ZX_LC0_KRN_VOFF, ZX_OFF_LC_SS0_KRN, 0x00001000 }, { ZX_LC1_KRN_VOFF, ZX_OFF_LC_SS1_KRN, 0x00001000 }, { ZX_LD_GBL_VOFF, ZX_OFF_LD_GBL, 0x00001000 }, }; CFATTACH_DECL(zx, sizeof(struct zx_softc), zx_match, zx_attach, NULL, NULL); extern struct cfdriver zx_cd; dev_type_open(zxopen); dev_type_close(zxclose); dev_type_ioctl(zxioctl); dev_type_mmap(zxmmap); static struct fbdriver zx_fbdriver = { zx_unblank, zxopen, zxclose, zxioctl, nopoll, zxmmap }; int zx_match(struct device *parent, struct cfdata *cf, void *aux) { struct sbus_attach_args *sa; sa = (struct sbus_attach_args *)aux; return (strcmp(sa->sa_name, "SUNW,leo") == 0); } void zx_attach(struct device *parent, struct device *self, void *args) { struct zx_softc *sc; struct sbus_attach_args *sa; bus_space_handle_t bh; bus_space_tag_t bt; struct fbdevice *fb; struct rasops_info *ri; volatile struct zx_command *zc; int isconsole; sc = (struct zx_softc *)self; sa = args; fb = &sc->sc_fb; ri = &fb->fb_rinfo; bt = sa->sa_bustag; sc->sc_bt = bt; sc->sc_paddr = sbus_bus_addr(bt, sa->sa_slot, sa->sa_offset); if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_SS0, 0x800000, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map bits\n", self->dv_xname); return; } fb->fb_pixels = (caddr_t)bus_space_vaddr(bt, bh); sc->sc_pixels = (u_int32_t *)fb->fb_pixels; if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_LC_SS0_USR, PAGE_SIZE, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map zc\n", self->dv_xname); return; } sc->sc_zc = (struct zx_command *)bus_space_vaddr(bt, bh); if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_LD_SS0, PAGE_SIZE, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map ld/ss0\n", self->dv_xname); return; } sc->sc_zd_ss0 = (struct zx_draw *)bus_space_vaddr(bt, bh); if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_LD_SS1, PAGE_SIZE, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map ld/ss1\n", self->dv_xname); return; } sc->sc_zd_ss1 = (struct zx_draw_ss1 *)bus_space_vaddr(bt, bh); if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_LX_CROSS, PAGE_SIZE, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map zx\n", self->dv_xname); return; } sc->sc_zx = (struct zx_cross *)bus_space_vaddr(bt, bh); if (sbus_bus_map(bt, sa->sa_slot, sa->sa_offset + ZX_OFF_LX_CURSOR, PAGE_SIZE, BUS_SPACE_MAP_LINEAR, &bh) != 0) { printf("%s: can't map zcu\n", self->dv_xname); return; } sc->sc_zcu = (struct zx_cursor *)bus_space_vaddr(bt, bh); fb->fb_driver = &zx_fbdriver; fb->fb_device = &sc->sc_dv; fb->fb_flags = sc->sc_dv.dv_cfdata->cf_flags & FB_USERMASK; fb->fb_pfour = NULL; fb->fb_linebytes = 8192; fb_setsize_obp(fb, 32, 1280, 1024, sa->sa_node); fb->fb_type.fb_cmsize = 256; fb->fb_type.fb_depth = 32; fb->fb_type.fb_size = fb->fb_type.fb_height * fb->fb_linebytes; fb->fb_type.fb_type = FBTYPE_SUNLEO; printf(": %d x %d", fb->fb_type.fb_width, fb->fb_type.fb_height); isconsole = fb_is_console(sa->sa_node); if (isconsole) printf(" (console)"); printf("\n"); sbus_establish(&sc->sc_sd, &sc->sc_dv); if (sa->sa_nintr != 0) bus_intr_establish(bt, sa->sa_pri, IPL_NONE, zx_intr, sc); sc->sc_cmap = malloc(768, M_DEVBUF, M_NOWAIT); fb_attach(&sc->sc_fb, isconsole); zx_reset(sc); /* * Attach to rcons. XXX At this point, rasops_do_cursor() will be * called before we get our hooks in place. So, we mask off access * to the framebuffer until it's done. */ zc = sc->sc_zc; SETREG(zc->zc_fontt, 1); SETREG(zc->zc_fontmsk, 0); fbrcons_init(&sc->sc_fb); SETREG(zc->zc_fontt, 0); SETREG(zc->zc_fontmsk, 0xffffffff); ri->ri_hw = sc; ri->ri_do_cursor = zx_do_cursor; ri->ri_ops.copycols = zx_copycols; ri->ri_ops.copyrows = zx_copyrows; ri->ri_ops.erasecols = zx_erasecols; ri->ri_ops.eraserows = zx_eraserows; ri->ri_ops.putchar = zx_putchar; sc->sc_fontw = ri->ri_font->fontwidth; sc->sc_fonth = ri->ri_font->fontheight; } int zxopen(dev_t dev, int flags, int mode, struct proc *p) { if (device_lookup(&zx_cd, minor(dev)) == NULL) return (ENXIO); return (0); } int zxclose(dev_t dev, int flags, int mode, struct proc *p) { struct zx_softc *sc; sc = (struct zx_softc *)device_lookup(&zx_cd, minor(dev)); zx_reset(sc); zx_cursor_blank(sc); return (0); } int zxioctl(dev_t dev, u_long cmd, caddr_t data, int flags, struct proc *p) { struct zx_softc *sc; struct fbcmap *cm; struct fbcursor *cu; int rv, v, count, i; sc = zx_cd.cd_devs[minor(dev)]; switch (cmd) { case FBIOGTYPE: *(struct fbtype *)data = sc->sc_fb.fb_type; break; case FBIOGATTR: #define fba ((struct fbgattr *)data) fba->real_type = sc->sc_fb.fb_type.fb_type; fba->owner = 0; /* XXX ??? */ fba->fbtype = sc->sc_fb.fb_type; fba->sattr.flags = 0; fba->sattr.emu_type = sc->sc_fb.fb_type.fb_type; fba->sattr.dev_specific[0] = -1; fba->emu_types[0] = sc->sc_fb.fb_type.fb_type; fba->emu_types[1] = -1; fba->emu_types[2] = -1; #undef fba break; case FBIOGVIDEO: *(int *)data = ((sc->sc_flags & ZX_BLANKED) != 0); break; case FBIOSVIDEO: if (*(int *)data) zx_unblank(&sc->sc_dv); else zx_blank(&sc->sc_dv); break; case FBIOGETCMAP: cm = (struct fbcmap *)data; if (cm->index > 256 || cm->count > 256 - cm->index) return (EINVAL); rv = copyout(sc->sc_cmap + cm->index, cm->red, cm->count); if (rv == 0) rv = copyout(sc->sc_cmap + 256 + cm->index, cm->green, cm->count); if (rv == 0) rv = copyout(sc->sc_cmap + 512 + cm->index, cm->blue, cm->count); return (rv); case FBIOPUTCMAP: cm = (struct fbcmap *)data; if (cm->index > 256 || cm->count > 256 - cm->index) return (EINVAL); rv = copyin(cm->red, sc->sc_cmap + cm->index, cm->count); if (rv == 0) rv = copyin(cm->green, sc->sc_cmap + 256 + cm->index, cm->count); if (rv == 0) rv = copyin(cm->blue, sc->sc_cmap + 512 + cm->index, cm->count); zx_cmap_put(sc); return (rv); case FBIOGCURPOS: *(struct fbcurpos *)data = sc->sc_curpos; break; case FBIOSCURPOS: sc->sc_curpos = *(struct fbcurpos *)data; zx_cursor_move(sc); break; case FBIOGCURMAX: ((struct fbcurpos *)data)->x = 32; ((struct fbcurpos *)data)->y = 32; break; case FBIOSCURSOR: cu = (struct fbcursor *)data; v = cu->set; if ((v & FB_CUR_SETSHAPE) != 0) { if ((u_int)cu->size.x > 32 || (u_int)cu->size.y > 32) return (EINVAL); count = cu->size.y * 4; if (!uvm_useracc(cu->image, count, B_READ) || !uvm_useracc(cu->mask, count, B_READ)) return (EFAULT); } if ((v & FB_CUR_SETCUR) != 0) { if (cu->enable) zx_cursor_unblank(sc); else zx_cursor_blank(sc); } if ((v & (FB_CUR_SETPOS | FB_CUR_SETHOT)) != 0) { if ((v & FB_CUR_SETPOS) != 0) sc->sc_curpos = cu->pos; if ((v & FB_CUR_SETHOT) != 0) sc->sc_curhot = cu->hot; zx_cursor_move(sc); } if ((v & FB_CUR_SETCMAP) != 0) { if (cu->cmap.index > 2 || cu->cmap.count > 2 - cu->cmap.index) return (EINVAL); for (i = 0; i < cu->cmap.count; i++) { if ((v = fubyte(&cu->cmap.red[i])) < 0) return (EFAULT); sc->sc_curcmap[i + cu->cmap.index + 0] = v; if ((v = fubyte(&cu->cmap.green[i])) < 0) return (EFAULT); sc->sc_curcmap[i + cu->cmap.index + 2] = v; if ((v = fubyte(&cu->cmap.blue[i])) < 0) return (EFAULT); sc->sc_curcmap[i + cu->cmap.index + 4] = v; } zx_cursor_color(sc); } if ((v & FB_CUR_SETSHAPE) != 0) { sc->sc_cursize = cu->size; count = cu->size.y * 4; memset(sc->sc_curbits, 0, sizeof(sc->sc_curbits)); copyin(cu->mask, (caddr_t)sc->sc_curbits[0], count); copyin(cu->image, (caddr_t)sc->sc_curbits[1], count); zx_cursor_set(sc); } break; case FBIOGCURSOR: cu = (struct fbcursor *)data; cu->set = FB_CUR_SETALL; cu->enable = ((sc->sc_flags & ZX_CURSOR) != 0); cu->pos = sc->sc_curpos; cu->hot = sc->sc_curhot; cu->size = sc->sc_cursize; if (cu->image != NULL) { count = sc->sc_cursize.y * 4; rv = copyout((caddr_t)sc->sc_curbits[1], (caddr_t)cu->image, count); if (rv) return (rv); rv = copyout((caddr_t)sc->sc_curbits[0], (caddr_t)cu->mask, count); if (rv) return (rv); } if (cu->cmap.red != NULL) { if (cu->cmap.index > 2 || cu->cmap.count > 2 - cu->cmap.index) return (EINVAL); for (i = 0; i < cu->cmap.count; i++) { v = sc->sc_curcmap[i + cu->cmap.index + 0]; if (subyte(&cu->cmap.red[i], v)) return (EFAULT); v = sc->sc_curcmap[i + cu->cmap.index + 2]; if (subyte(&cu->cmap.green[i], v)) return (EFAULT); v = sc->sc_curcmap[i + cu->cmap.index + 4]; if (subyte(&cu->cmap.blue[i], v)) return (EFAULT); } } else { cu->cmap.index = 0; cu->cmap.count = 2; } break; default: #ifdef DEBUG log(LOG_NOTICE, "zxioctl(0x%lx) (%s[%d])\n", cmd, p->p_comm, p->p_pid); #endif return (ENOTTY); } return (0); } int zx_intr(void *cookie) { return (1); } void zx_reset(struct zx_softc *sc) { volatile struct zx_draw *zd; volatile struct zx_command *zc; struct fbtype *fbt; u_int i; zd = sc->sc_zd_ss0; zc = sc->sc_zc; fbt = &sc->sc_fb.fb_type; zx_cross_loadwid(sc, ZX_WID_DBL_8, 0, 0x2c0); zx_cross_loadwid(sc, ZX_WID_DBL_8, 1, 0x30); zx_cross_loadwid(sc, ZX_WID_DBL_8, 2, 0x20); zx_cross_loadwid(sc, ZX_WID_DBL_24, 1, 0x30); i = sc->sc_zd_ss1->zd_misc; i |= ZX_SS1_MISC_ENABLE; SETREG(sc->sc_zd_ss1->zd_misc, i); SETREG(zd->zd_wid, 0xffffffff); SETREG(zd->zd_widclip, 0); SETREG(zd->zd_wmask, 0xffff); SETREG(zd->zd_vclipmin, 0); SETREG(zd->zd_vclipmax, (fbt->fb_width - 1) | ((fbt->fb_height - 1) << 16)); SETREG(zd->zd_fg, 0); SETREG(zd->zd_planemask, 0xff000000); SETREG(zd->zd_rop, ZX_STD_ROP); SETREG(zc->zc_extent, (fbt->fb_width - 1) | ((fbt->fb_height - 1) << 11)); SETREG(zc->zc_addrspace, ZX_ADDRSPC_FONT_OBGR); SETREG(zc->zc_fontt, 0); for (i = 0; i < 256; i++) { sc->sc_cmap[i] = rasops_cmap[i * 3]; sc->sc_cmap[i + 256] = rasops_cmap[i * 3 + 1]; sc->sc_cmap[i + 512] = rasops_cmap[i * 3 + 2]; } zx_cmap_put(sc); } int zx_cross_wait(struct zx_softc *sc) { volatile struct zx_cross *zx; int i; zx = sc->sc_zx; for (i = 300000; i != 0; i--) { if ((zx->zx_csr & ZX_CROSS_CSR_PROGRESS) == 0) break; DELAY(1); } if (i == 0) printf("zx_cross_wait: timed out\n"); return (i); } int zx_cross_loadwid(struct zx_softc *sc, u_int type, u_int index, u_int value) { volatile struct zx_cross *zx; u_int tmp; zx = sc->sc_zx; SETREG(zx->zx_type, ZX_CROSS_TYPE_WID); if (zx_cross_wait(sc)) return (1); if (type == ZX_WID_DBL_8) tmp = (index & 0x0f) + 0x40; else if (type == ZX_WID_DBL_24) tmp = index & 0x3f; SETREG(zx->zx_type, 0x5800 + tmp); SETREG(zx->zx_value, value); SETREG(zx->zx_type, ZX_CROSS_TYPE_WID); SETREG(zx->zx_csr, ZX_CROSS_CSR_UNK | ZX_CROSS_CSR_UNK2); return (0); } int zx_cmap_put(struct zx_softc *sc) { volatile struct zx_cross *zx; const u_char *b; u_int i, t; zx = sc->sc_zx; SETREG(zx->zx_type, ZX_CROSS_TYPE_CLUT0); if (zx_cross_wait(sc)) return (1); SETREG(zx->zx_type, ZX_CROSS_TYPE_CLUTDATA); for (i = 0, b = sc->sc_cmap; i < 256; i++) { t = b[i]; t |= b[i + 256] << 8; t |= b[i + 512] << 16; SETREG(zx->zx_value, t); } SETREG(zx->zx_type, ZX_CROSS_TYPE_CLUT0); i = zx->zx_csr; i = i | ZX_CROSS_CSR_UNK | ZX_CROSS_CSR_UNK2; SETREG(zx->zx_csr, i); return (0); } void zx_cursor_move(struct zx_softc *sc) { volatile struct zx_cursor *zcu; int sx, sy, x, y; x = sc->sc_curpos.x - sc->sc_curhot.x; y = sc->sc_curpos.y - sc->sc_curhot.y; zcu = sc->sc_zcu; if (x < 0) { sx = min(-x, 32); x = 0; } else sx = 0; if (y < 0) { sy = min(-y, 32); y = 0; } else sy = 0; if (sx != sc->sc_shiftx || sy != sc->sc_shifty) { sc->sc_shiftx = sx; sc->sc_shifty = sy; zx_cursor_set(sc); } SETREG(zcu->zcu_sxy, ((y & 0x7ff) << 11) | (x & 0x7ff)); SETREG(zcu->zcu_misc, zcu->zcu_misc | 0x30); /* XXX Necessary? */ SETREG(zcu->zcu_misc, zcu->zcu_misc | 0x80); } void zx_cursor_set(struct zx_softc *sc) { volatile struct zx_cursor *zcu; int i, j, data; zcu = sc->sc_zcu; if ((sc->sc_flags & ZX_CURSOR) != 0) SETREG(zcu->zcu_misc, zcu->zcu_misc & ~0x80); for (j = 0; j < 2; j++) { SETREG(zcu->zcu_type, 0x20 << i); for (i = sc->sc_shifty; i < 32; i++) { data = sc->sc_curbits[j][i]; SETREG(zcu->zcu_data, data >> sc->sc_shiftx); } for (i = sc->sc_shifty; i != 0; i--) SETREG(zcu->zcu_data, 0); } if ((sc->sc_flags & ZX_CURSOR) != 0) SETREG(zcu->zcu_misc, zcu->zcu_misc | 0x80); } void zx_cursor_blank(struct zx_softc *sc) { volatile struct zx_cursor *zcu; sc->sc_flags &= ~ZX_CURSOR; zcu = sc->sc_zcu; SETREG(zcu->zcu_misc, zcu->zcu_misc & ~0x80); } void zx_cursor_unblank(struct zx_softc *sc) { volatile struct zx_cursor *zcu; sc->sc_flags |= ZX_CURSOR; zcu = sc->sc_zcu; SETREG(zcu->zcu_misc, zcu->zcu_misc | 0x80); } void zx_cursor_color(struct zx_softc *sc) { volatile struct zx_cursor *zcu; u_int8_t tmp; zcu = sc->sc_zcu; SETREG(zcu->zcu_type, 0x50); tmp = sc->sc_curcmap[0] | (sc->sc_curcmap[2] << 8) | (sc->sc_curcmap[4] << 16); SETREG(zcu->zcu_data, tmp); tmp = sc->sc_curcmap[1] | (sc->sc_curcmap[3] << 8) | (sc->sc_curcmap[5] << 16); SETREG(zcu->zcu_data, sc->sc_curcmap[1]); SETREG(zcu->zcu_misc, zcu->zcu_misc | 0x03); } void zx_blank(struct device *dv) { struct zx_softc *sc; volatile struct zx_cross *zx; sc = (struct zx_softc *)dv; if ((sc->sc_flags & ZX_BLANKED) != 0) return; sc->sc_flags |= ZX_BLANKED; zx = sc->sc_zx; SETREG(zx->zx_type, ZX_CROSS_TYPE_VIDEO); SETREG(zx->zx_csr, zx->zx_csr & ~ZX_CROSS_CSR_ENABLE); } void zx_unblank(struct device *dv) { struct zx_softc *sc; volatile struct zx_cross *zx; sc = (struct zx_softc *)dv; if ((sc->sc_flags & ZX_BLANKED) == 0) return; sc->sc_flags &= ~ZX_BLANKED; zx = sc->sc_zx; SETREG(zx->zx_type, ZX_CROSS_TYPE_VIDEO); SETREG(zx->zx_csr, zx->zx_csr | ZX_CROSS_CSR_ENABLE); } paddr_t zxmmap(dev_t dev, off_t off, int prot) { struct zx_softc *sc; const struct zx_mmo *mm, *max; sc = device_lookup(&zx_cd, minor(dev)); off = trunc_page(off); mm = zx_mmo; max = mm + sizeof(zx_mmo) / sizeof(zx_mmo[0]); for (; mm < max; mm++) if (off >= mm->mo_va && off < mm->mo_va + mm->mo_size) { off = off - mm->mo_va + mm->mo_pa; return (bus_space_mmap(sc->sc_bt, sc->sc_paddr, off, prot, BUS_SPACE_MAP_LINEAR)); } return (-1); } void zx_fillrect(struct rasops_info *ri, int x, int y, int w, int h, long attr, int rop) { struct zx_softc *sc; volatile struct zx_command *zc; volatile struct zx_draw *zd; int fg, bg; sc = ri->ri_hw; zc = sc->sc_zc; zd = sc->sc_zd_ss0; rasops_unpack_attr(attr, &fg, &bg, NULL); x = x * sc->sc_fontw + ri->ri_xorigin; y = y * sc->sc_fonth + ri->ri_yorigin; w = sc->sc_fontw * w - 1; h = sc->sc_fonth * h - 1; while ((zc->zc_csr & ZX_CSR_BLT_BUSY) != 0) ; SETREG(zd->zd_rop, rop); SETREG(zd->zd_fg, (bg & 7) ? 0x00000000 : 0xff000000); SETREG(zc->zc_extent, w | (h << 11)); SETREG(zc->zc_fill, x | (y << 11) | 0x80000000); } void zx_copyrect(struct rasops_info *ri, int sx, int sy, int dx, int dy, int w, int h) { struct zx_softc *sc; volatile struct zx_command *zc; volatile struct zx_draw *zd; int dir; sc = ri->ri_hw; zc = sc->sc_zc; zd = sc->sc_zd_ss0; sx = sx * sc->sc_fontw + ri->ri_xorigin; sy = sy * sc->sc_fonth + ri->ri_yorigin; dx = dx * sc->sc_fontw + ri->ri_xorigin; dy = dy * sc->sc_fonth + ri->ri_yorigin; w = w * sc->sc_fontw - 1; h = h * sc->sc_fonth - 1; if (sy < dy || sx < dx) { dir = 0x80000000; sx += w; sy += h; dx += w; dy += h; } else dir = 0; while ((zc->zc_csr & ZX_CSR_BLT_BUSY) != 0) ; SETREG(zd->zd_rop, ZX_STD_ROP); SETREG(zc->zc_extent, w | (h << 11) | dir); SETREG(zc->zc_src, sx | (sy << 11)); SETREG(zc->zc_copy, dx | (dy << 11)); } void zx_do_cursor(struct rasops_info *ri) { zx_fillrect(ri, ri->ri_ccol, ri->ri_crow, 1, 1, 0, ZX_ROP_NEW_XOR_OLD | ZX_ATTR_WE_ENABLE | ZX_ATTR_OE_ENABLE | ZX_ATTR_FORCE_WID); } void zx_erasecols(void *cookie, int row, int col, int num, long attr) { struct rasops_info *ri; ri = (struct rasops_info *)cookie; zx_fillrect(ri, col, row, num, 1, attr, ZX_STD_ROP); } void zx_eraserows(void *cookie, int row, int num, long attr) { struct rasops_info *ri; ri = (struct rasops_info *)cookie; zx_fillrect(ri, 0, row, ri->ri_cols, num, attr, ZX_STD_ROP); } void zx_copyrows(void *cookie, int src, int dst, int num) { struct rasops_info *ri; ri = (struct rasops_info *)cookie; zx_copyrect(ri, 0, src, 0, dst, ri->ri_cols, num); } void zx_copycols(void *cookie, int row, int src, int dst, int num) { struct rasops_info *ri; ri = (struct rasops_info *)cookie; zx_copyrect(ri, src, row, dst, row, num, 1); } void zx_putchar(void *cookie, int row, int col, u_int uc, long attr) { struct rasops_info *ri; struct zx_softc *sc; struct wsdisplay_font *font; volatile struct zx_command *zc; volatile struct zx_draw *zd; volatile u_int32_t *dp; u_int8_t *fb; int fs, i, fg, bg, ul; ri = (struct rasops_info *)cookie; if (uc == ' ') { zx_fillrect(ri, col, row, 1, 1, attr, ZX_STD_ROP); return; } sc = (struct zx_softc *)ri->ri_hw; font = ri->ri_font; zc = sc->sc_zc; zd = sc->sc_zd_ss0; dp = (volatile u_int32_t *)sc->sc_pixels + ((row * sc->sc_fonth + ri->ri_yorigin) << 11) + (col * sc->sc_fontw + ri->ri_xorigin); fb = (u_int8_t *)font->data + (uc - font->firstchar) * ri->ri_fontscale; fs = font->stride; rasops_unpack_attr(attr, &fg, &bg, &ul); while ((zc->zc_csr & ZX_CSR_BLT_BUSY) != 0) ; SETREG(zd->zd_rop, ZX_STD_ROP); SETREG(zd->zd_fg, (fg & 7) ? 0x00000000 : 0xff000000); SETREG(zd->zd_bg, (bg & 7) ? 0x00000000 : 0xff000000); SETREG(zc->zc_fontmsk, 0xffffffff << (32 - sc->sc_fontw)); if (sc->sc_fontw <= 8) { for (i = sc->sc_fonth; i != 0; i--, dp += 2048) { *dp = *fb << 24; fb += fs; } } else { for (i = sc->sc_fonth; i != 0; i--, dp += 2048) { *dp = *((u_int16_t *)fb) << 16; fb += fs; } } if (ul) { dp -= 4096; *dp = 0xffffffff; } }