sgimips/gio/newport.c

1.4  lonewolf /*	$NetBSD: newport.c,v 1.4 2004/01/26 11:00:47 lonewolf Exp $	*/
1.1  lonewolf
1.1  lonewolf /*
1.1  lonewolf  * Copyright (c) 2003 Ilpo Ruotsalainen
1.1  lonewolf  * All rights reserved.
1.1  lonewolf  *
1.1  lonewolf  * Redistribution and use in source and binary forms, with or without
1.1  lonewolf  * modification, are permitted provided that the following conditions
1.1  lonewolf  * are met:
1.1  lonewolf  * 1. Redistributions of source code must retain the above copyright
1.1  lonewolf  *    notice, this list of conditions and the following disclaimer.
1.1  lonewolf  * 2. Redistributions in binary form must reproduce the above copyright
1.1  lonewolf  *    notice, this list of conditions and the following disclaimer in the
1.1  lonewolf  *    documentation and/or other materials provided with the distribution.
1.1  lonewolf  * 3. The name of the author may not be used to endorse or promote products
1.1  lonewolf  *    derived from this software without specific prior written permission.
1.1  lonewolf  *
1.1  lonewolf  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  lonewolf  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  lonewolf  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  lonewolf  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  lonewolf  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1  lonewolf  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  lonewolf  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  lonewolf  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  lonewolf  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.1  lonewolf  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  lonewolf  *
1.1  lonewolf  * <<Id: LICENSE_GC,v 1.1 2001/10/01 23:24:05 cgd Exp>>
1.1  lonewolf  */
1.1  lonewolf
1.1  lonewolf #include <sys/cdefs.h>
1.4  lonewolf __KERNEL_RCSID(0, "$NetBSD: newport.c,v 1.4 2004/01/26 11:00:47 lonewolf Exp $");
1.1  lonewolf
1.1  lonewolf #include <sys/param.h>
1.1  lonewolf #include <sys/systm.h>
1.1  lonewolf #include <sys/device.h>
1.1  lonewolf #include <sys/malloc.h>
1.1  lonewolf
1.1  lonewolf #include <dev/wscons/wsconsio.h>
1.1  lonewolf #include <dev/wscons/wsdisplayvar.h>
1.1  lonewolf #include <dev/wsfont/wsfont.h>
1.1  lonewolf
1.1  lonewolf #include <sgimips/gio/giovar.h>
1.1  lonewolf #include <sgimips/gio/newportvar.h>
1.1  lonewolf #include <sgimips/gio/newportreg.h>
1.1  lonewolf
1.1  lonewolf struct newport_softc {
1.1  lonewolf 	struct device sc_dev;
1.1  lonewolf
1.1  lonewolf 	struct newport_devconfig *sc_dc;
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf struct newport_devconfig {
1.1  lonewolf 	uint32_t		dc_addr;
1.1  lonewolf
1.1  lonewolf 	bus_space_tag_t		dc_st;
1.1  lonewolf 	bus_space_handle_t	dc_sh;
1.1  lonewolf
1.1  lonewolf 	int			dc_boardrev;
1.3    sekiya 	int			dc_cmaprev;
1.3    sekiya 	int			dc_xmaprev;
1.3    sekiya 	int			dc_rexrev;
1.1  lonewolf 	int			dc_xres;
1.1  lonewolf 	int			dc_yres;
1.3    sekiya 	int			dc_depth;
1.1  lonewolf
1.1  lonewolf 	int			dc_font;
1.1  lonewolf 	struct wsdisplay_font	*dc_fontdata;
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static int  newport_match(struct device *, struct cfdata *, void *);
1.1  lonewolf static void newport_attach(struct device *, struct device *, void *);
1.1  lonewolf
1.1  lonewolf CFATTACH_DECL(newport, sizeof(struct newport_softc),
1.1  lonewolf     newport_match, newport_attach, NULL, NULL);
1.1  lonewolf
1.1  lonewolf /* textops */
1.1  lonewolf static void newport_cursor(void *, int, int, int);
1.1  lonewolf static int  newport_mapchar(void *, int, unsigned int *);
1.1  lonewolf static void newport_putchar(void *, int, int, u_int, long);
1.1  lonewolf static void newport_copycols(void *, int, int, int, int);
1.1  lonewolf static void newport_erasecols(void *, int, int, int, long);
1.1  lonewolf static void newport_copyrows(void *, int, int, int);
1.1  lonewolf static void newport_eraserows(void *, int, int, long);
1.1  lonewolf static int  newport_allocattr(void *, int, int, int, long *);
1.1  lonewolf
1.1  lonewolf /* accessops */
1.1  lonewolf static int     newport_ioctl(void *, u_long, caddr_t, int, struct proc *);
1.1  lonewolf static paddr_t newport_mmap(void *, off_t, int);
1.1  lonewolf static int     newport_alloc_screen(void *, const struct wsscreen_descr *,
1.1  lonewolf     void **, int *, int *, long *);
1.1  lonewolf static void    newport_free_screen(void *, void *);
1.1  lonewolf static int     newport_show_screen(void *, void *, int,
1.1  lonewolf     void (*)(void *, int, int), void *);
1.1  lonewolf
1.1  lonewolf static const struct wsdisplay_emulops newport_textops = {
1.1  lonewolf 	.cursor		= newport_cursor,
1.1  lonewolf 	.mapchar	= newport_mapchar,
1.1  lonewolf 	.putchar	= newport_putchar,
1.1  lonewolf 	.copycols	= newport_copycols,
1.1  lonewolf 	.erasecols	= newport_erasecols,
1.1  lonewolf 	.copyrows	= newport_copyrows,
1.1  lonewolf 	.eraserows	= newport_eraserows,
1.1  lonewolf 	.allocattr	= newport_allocattr
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const struct wsdisplay_accessops newport_accessops = {
1.1  lonewolf 	.ioctl		= newport_ioctl,
1.1  lonewolf 	.mmap		= newport_mmap,
1.1  lonewolf 	.alloc_screen	= newport_alloc_screen,
1.1  lonewolf 	.free_screen	= newport_free_screen,
1.1  lonewolf 	.show_screen	= newport_show_screen,
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const struct wsscreen_descr newport_screen_1024x768 = {
1.1  lonewolf 	.name		= "1024x768",
1.1  lonewolf 	.ncols		= 128,
1.1  lonewolf 	.nrows		= 48,
1.1  lonewolf 	.textops	= &newport_textops,
1.1  lonewolf 	.fontwidth	= 8,
1.1  lonewolf 	.fontheight	= 16,
1.1  lonewolf 	.capabilities	= WSSCREEN_WSCOLORS | WSSCREEN_HILIT | WSSCREEN_REVERSE
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const struct wsscreen_descr newport_screen_1280x1024 = {
1.1  lonewolf 	.name		= "1280x1024",
1.1  lonewolf 	.ncols		= 160,
1.1  lonewolf 	.nrows		= 64,
1.1  lonewolf 	.textops	= &newport_textops,
1.1  lonewolf 	.fontwidth	= 8,
1.1  lonewolf 	.fontheight	= 16,
1.1  lonewolf 	.capabilities	= WSSCREEN_WSCOLORS | WSSCREEN_HILIT | WSSCREEN_REVERSE
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const struct wsscreen_descr *_newport_screenlist[] = {
1.1  lonewolf 	&newport_screen_1024x768,
1.1  lonewolf 	&newport_screen_1280x1024
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const struct wsscreen_list newport_screenlist = {
1.1  lonewolf 	sizeof(_newport_screenlist) / sizeof(struct wsscreen_descr *),
1.1  lonewolf 	_newport_screenlist
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static struct newport_devconfig newport_console_dc;
1.1  lonewolf static int newport_is_console = 0;
1.1  lonewolf
1.1  lonewolf #define NEWPORT_ATTR_ENCODE(fg,bg)	(((fg) << 8) | (bg))
1.1  lonewolf #define NEWPORT_ATTR_BG(a)		((a) & 0xff)
1.1  lonewolf #define NEWPORT_ATTR_FG(a)		(((a) >> 8) & 0xff)
1.1  lonewolf
1.1  lonewolf static const uint16_t newport_cursor_data[128] = {
1.1  lonewolf 	/* Bit 0 */
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0xff00, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf
1.1  lonewolf 	/* Bit 1 */
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf 	0x0000, 0x0000,
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf static const uint8_t newport_defcmap[16*3] = {
1.1  lonewolf 	/* Normal colors */
1.1  lonewolf 	0x00, 0x00, 0x00, /* black */
1.1  lonewolf 	0x7f, 0x00, 0x00, /* red */
1.1  lonewolf 	0x00, 0x7f, 0x00, /* green */
1.1  lonewolf 	0x7f, 0x7f, 0x00, /* brown */
1.1  lonewolf 	0x00, 0x00, 0x7f, /* blue */
1.1  lonewolf 	0x7f, 0x00, 0x7f, /* magenta */
1.1  lonewolf 	0x00, 0x7f, 0x7f, /* cyan */
1.1  lonewolf 	0xc7, 0xc7, 0xc7, /* white - XXX too dim? */
1.1  lonewolf
1.1  lonewolf 	/* Hilite colors */
1.1  lonewolf 	0x7f, 0x7f, 0x7f, /* black */
1.1  lonewolf 	0xff, 0x00, 0x00, /* red */
1.1  lonewolf 	0x00, 0xff, 0x00, /* green */
1.1  lonewolf 	0xff, 0xff, 0x00, /* brown */
1.1  lonewolf 	0x00, 0x00, 0xff, /* blue */
1.1  lonewolf 	0xff, 0x00, 0xff, /* magenta */
1.1  lonewolf 	0x00, 0xff, 0xff, /* cyan */
1.1  lonewolf 	0xff, 0xff, 0xff, /* white */
1.1  lonewolf };
1.1  lonewolf
1.1  lonewolf /**** Low-level hardware register groveling functions ****/
1.1  lonewolf static void
1.1  lonewolf rex3_write(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val)
1.1  lonewolf {
1.1  lonewolf 	bus_space_write_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET + rexreg,
1.1  lonewolf 	    val);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf rex3_write_go(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, rexreg + REX3_REG_GO, val);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static uint32_t
1.1  lonewolf rex3_read(struct newport_devconfig *dc, bus_size_t rexreg)
1.1  lonewolf {
1.1  lonewolf 	return bus_space_read_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET +
1.1  lonewolf 	    rexreg);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf rex3_wait_gfifo(struct newport_devconfig *dc)
1.1  lonewolf {
1.1  lonewolf 	while (rex3_read(dc, REX3_REG_STATUS) & REX3_STATUS_GFXBUSY)
1.1  lonewolf 		;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf vc2_write_ireg(struct newport_devconfig *dc, uint8_t ireg, uint16_t val)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_3 |
1.1  lonewolf 	    REX3_DCBMODE_ENCRSINC |
1.1  lonewolf 	    (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_ENASYNCACK |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, (ireg << 24) | (val << 8));
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static uint16_t
1.1  lonewolf vc2_read_ireg(struct newport_devconfig *dc, uint8_t ireg)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_1 |
1.1  lonewolf 	    REX3_DCBMODE_ENCRSINC |
1.1  lonewolf 	    (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_ENASYNCACK |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, ireg << 24);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_2 |
1.1  lonewolf 	    REX3_DCBMODE_ENCRSINC |
1.1  lonewolf 	    (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (VC2_DCBCRS_IREG << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_ENASYNCACK |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static uint16_t
1.1  lonewolf vc2_read_ram(struct newport_devconfig *dc, uint16_t addr)
1.1  lonewolf {
1.1  lonewolf 	vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_2 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_ENASYNCACK |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf vc2_write_ram(struct newport_devconfig *dc, uint16_t addr, uint16_t val)
1.1  lonewolf {
1.1  lonewolf 	vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_2 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_ENASYNCACK |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, val << 16);
1.1  lonewolf }
1.1  lonewolf
1.3    sekiya static u_int32_t
1.3    sekiya xmap9_read(struct newport_devconfig *dc, int crs)
1.3    sekiya {
1.3    sekiya 	rex3_write(dc, REX3_REG_DCBMODE,
1.3    sekiya 		REX3_DCBMODE_DW_1 |
1.3    sekiya 		(NEWPORT_DCBADDR_XMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.3    sekiya 		(crs << REX3_DCBMODE_DCBCRS_SHIFT) |
1.3    sekiya 		(3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.3    sekiya 		(2 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.3    sekiya 		(1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.3    sekiya 	return rex3_read(dc, REX3_REG_DCBDATA0);
1.3    sekiya }
1.3    sekiya
1.1  lonewolf static void
1.1  lonewolf xmap9_write(struct newport_devconfig *dc, int crs, uint8_t val)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_1 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (crs << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    (3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.1  lonewolf 	    (2 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, val << 24);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf xmap9_write_mode(struct newport_devconfig *dc, uint8_t index, uint32_t mode)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_4 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (XMAP9_DCBCRS_MODE_SETUP << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    (3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.1  lonewolf 	    (2 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, (index << 24) | mode);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf /**** Helper functions ****/
1.1  lonewolf static void
1.1  lonewolf newport_fill_rectangle(struct newport_devconfig *dc, int x1, int y1, int x2,
1.1  lonewolf     int y2, uint8_t color)
1.1  lonewolf {
1.1  lonewolf 	rex3_wait_gfifo(dc);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW |
1.1  lonewolf 	    REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP |
1.1  lonewolf 	    REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY);
1.3    sekiya 	rex3_write(dc, REX3_REG_WRMASK, 0xffffffff);
1.1  lonewolf 	rex3_write(dc, REX3_REG_COLORI, color);
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYSTARTI, (x1 << REX3_XYSTARTI_XSHIFT) | y1);
1.1  lonewolf
1.1  lonewolf 	rex3_write_go(dc, REX3_REG_XYENDI, (x2 << REX3_XYENDI_XSHIFT) | y2);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_copy_rectangle(struct newport_devconfig *dc, int x1, int y1, int x2,
1.1  lonewolf     int y2, int dx, int dy)
1.1  lonewolf {
1.1  lonewolf 	uint32_t tmp;
1.1  lonewolf
1.1  lonewolf 	rex3_wait_gfifo(dc);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_SCR2SCR |
1.1  lonewolf 	    REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP |
1.1  lonewolf 	    REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY);
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYSTARTI, (x1 << REX3_XYSTARTI_XSHIFT) | y1);
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYENDI, (x2 << REX3_XYENDI_XSHIFT) | y2);
1.1  lonewolf
1.1  lonewolf 	tmp = (dy - y1) & 0xffff;
1.1  lonewolf 	tmp |= (dx - x1) << REX3_XYMOVE_XSHIFT;
1.1  lonewolf
1.1  lonewolf 	rex3_write_go(dc, REX3_REG_XYMOVE, tmp);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_cmap_setrgb(struct newport_devconfig *dc, int index, uint8_t r,
1.1  lonewolf     uint8_t g, uint8_t b)
1.1  lonewolf {
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_2 |
1.1  lonewolf 	    REX3_DCBMODE_ENCRSINC |
1.1  lonewolf 	    (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (CMAP_DCBCRS_ADDRESS_LOW << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT) |
1.1  lonewolf 	    REX3_DCBMODE_SWAPENDIAN);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, index << 16);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_3 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (CMAP_DCBCRS_PALETTE << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBDATA0, (r << 24) + (g << 16) + (b << 8));
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_get_resolution(struct newport_devconfig *dc)
1.1  lonewolf {
1.1  lonewolf 	uint16_t vep,lines;
1.1  lonewolf 	uint16_t linep,cols;
1.1  lonewolf 	uint16_t data;
1.1  lonewolf
1.1  lonewolf 	vep = vc2_read_ireg(dc, VC2_IREG_VIDEO_ENTRY);
1.1  lonewolf
1.1  lonewolf 	dc->dc_xres = 0;
1.1  lonewolf 	dc->dc_yres = 0;
1.1  lonewolf
1.1  lonewolf 	for (;;) {
1.1  lonewolf 		/* Iterate over runs in video timing table */
1.1  lonewolf
1.1  lonewolf 		cols = 0;
1.1  lonewolf
1.1  lonewolf 		linep = vc2_read_ram(dc, vep++);
1.1  lonewolf 		lines = vc2_read_ram(dc, vep++);
1.1  lonewolf
1.1  lonewolf 		if (lines == 0)
1.1  lonewolf 			break;
1.1  lonewolf
1.1  lonewolf 		do {
1.1  lonewolf 			/* Iterate over state runs in line sequence table */
1.1  lonewolf
1.1  lonewolf 			data = vc2_read_ram(dc, linep++);
1.1  lonewolf
1.1  lonewolf 			if ((data & 0x0001) == 0)
1.1  lonewolf 				cols += (data >> 7) & 0xfe;
1.1  lonewolf
1.1  lonewolf 			if ((data & 0x0080) == 0)
1.1  lonewolf 				data = vc2_read_ram(dc, linep++);
1.1  lonewolf 		} while ((data & 0x8000) == 0);
1.1  lonewolf
1.1  lonewolf 		if (cols != 0) {
1.1  lonewolf 			if (cols > dc->dc_xres)
1.1  lonewolf 				dc->dc_xres = cols;
1.1  lonewolf
1.1  lonewolf 			dc->dc_yres += lines;
1.1  lonewolf 		}
1.1  lonewolf 	}
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_setup_hw(struct newport_devconfig *dc)
1.1  lonewolf {
1.1  lonewolf 	uint16_t curp,tmp;
1.1  lonewolf 	int i;
1.3    sekiya 	uint32_t scratch;
1.1  lonewolf
1.3    sekiya 	/* Get various revisions */
1.1  lonewolf 	rex3_write(dc, REX3_REG_DCBMODE,
1.1  lonewolf 	    REX3_DCBMODE_DW_1 |
1.1  lonewolf 	    (NEWPORT_DCBADDR_CMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) |
1.1  lonewolf 	    (CMAP_DCBCRS_REVISION << REX3_DCBMODE_DCBCRS_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
1.1  lonewolf 	    (1 << REX3_DCBMODE_CSSETUP_SHIFT));
1.1  lonewolf
1.3    sekiya 	scratch = rex3_read(dc, REX3_REG_DCBDATA0);
1.3    sekiya
1.3    sekiya 	dc->dc_boardrev = (scratch >> 28) & 0x07;
1.3    sekiya 	dc->dc_cmaprev = scratch & 0x07;
1.3    sekiya 	dc->dc_xmaprev = xmap9_read(dc, XMAP9_DCBCRS_REVISION) & 0x07;
1.1  lonewolf
1.1  lonewolf 	/* Setup cursor glyph */
1.1  lonewolf 	curp = vc2_read_ireg(dc, VC2_IREG_CURSOR_ENTRY);
1.1  lonewolf
1.1  lonewolf 	for (i=0; i<128; i++)
1.1  lonewolf 		vc2_write_ram(dc, curp + i, newport_cursor_data[i]);
1.1  lonewolf
1.1  lonewolf 	/* Setup VC2 to a known state */
1.1  lonewolf 	tmp = vc2_read_ireg(dc, VC2_IREG_CONTROL) & VC2_CONTROL_INTERLACE;
1.1  lonewolf 	vc2_write_ireg(dc, VC2_IREG_CONTROL, tmp |
1.1  lonewolf 	    VC2_CONTROL_DISPLAY_ENABLE |
1.1  lonewolf 	    VC2_CONTROL_VTIMING_ENABLE |
1.1  lonewolf 	    VC2_CONTROL_DID_ENABLE |
1.1  lonewolf 	    VC2_CONTROL_CURSORFUNC_ENABLE |
1.1  lonewolf 	    VC2_CONTROL_CURSOR_ENABLE);
1.1  lonewolf
1.1  lonewolf 	/* Setup XMAP9s */
1.1  lonewolf 	xmap9_write(dc, XMAP9_DCBCRS_CONFIG,
1.1  lonewolf 	    XMAP9_CONFIG_8BIT_SYSTEM | XMAP9_CONFIG_RGBMAP_CI);
1.1  lonewolf
1.1  lonewolf 	xmap9_write(dc, XMAP9_DCBCRS_CURSOR_CMAP, 0);
1.1  lonewolf
1.1  lonewolf 	xmap9_write_mode(dc, 0,
1.1  lonewolf 	    XMAP9_MODE_GAMMA_BYPASS |
1.1  lonewolf 	    XMAP9_MODE_PIXSIZE_8BPP);
1.1  lonewolf 	xmap9_write(dc, XMAP9_DCBCRS_MODE_SELECT, 0);
1.1  lonewolf
1.1  lonewolf 	/* Setup REX3 */
1.1  lonewolf 	rex3_write(dc, REX3_REG_DRAWMODE1,
1.1  lonewolf 	    REX3_DRAWMODE1_PLANES_CI |
1.1  lonewolf 	    REX3_DRAWMODE1_DD_DD8 |
1.1  lonewolf 	    REX3_DRAWMODE1_RWPACKED |
1.1  lonewolf 	    REX3_DRAWMODE1_HD_HD8 |
1.1  lonewolf 	    REX3_DRAWMODE1_COMPARE_LT |
1.1  lonewolf 	    REX3_DRAWMODE1_COMPARE_EQ |
1.1  lonewolf 	    REX3_DRAWMODE1_COMPARE_GT |
1.1  lonewolf 	    REX3_DRAWMODE1_LO_SRC);
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYWIN, (4096 << 16) | 4096);
1.1  lonewolf 	rex3_write(dc, REX3_REG_TOPSCAN, 0x3ff); /* XXX Why? XXX */
1.1  lonewolf
1.1  lonewolf 	/* Setup CMAP */
1.1  lonewolf 	for (i=0; i<16; i++)
1.1  lonewolf 		newport_cmap_setrgb(dc, i, newport_defcmap[i*3],
1.1  lonewolf 		    newport_defcmap[i*3 + 1], newport_defcmap[i*3 + 2]);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf /**** Attach routines ****/
1.1  lonewolf static int
1.1  lonewolf newport_match(struct device *parent, struct cfdata *self, void *aux)
1.1  lonewolf {
1.1  lonewolf 	struct gio_attach_args *ga = aux;
1.1  lonewolf
1.1  lonewolf 	/* newport doesn't decode all addresses */
1.1  lonewolf 	if (ga->ga_addr != 0x1f000000 && ga->ga_addr != 0x1f400000 &&
1.1  lonewolf 	    ga->ga_addr != 0x1f800000 && ga->ga_addr != 0x1fc00000)
1.1  lonewolf 		return 0;
1.1  lonewolf
1.1  lonewolf 	/* newport doesn't respond with correct product id, empirically
1.1  lonewolf 	 * both empty slots and newports seem to yield this result */
1.1  lonewolf 	if (ga->ga_product != 0x04)
1.1  lonewolf 		return 0;
1.1  lonewolf
1.1  lonewolf 	/* Don't do the destructive probe if we're already attached */
1.1  lonewolf 	if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr)
1.1  lonewolf 		return 1;
1.1  lonewolf
1.1  lonewolf 	/* Ugly, this probe is destructive, blame SGI... */
1.1  lonewolf 	/* XXX Should be bus_space_peek/bus_space_poke XXX */
1.1  lonewolf 	bus_space_write_4(ga->ga_iot, ga->ga_ioh,
1.1  lonewolf 	    NEWPORT_REX3_OFFSET + REX3_REG_XSTARTI, 0x12345678);
1.1  lonewolf 	if (bus_space_read_4(ga->ga_iot, ga->ga_ioh,
1.1  lonewolf 	      NEWPORT_REX3_OFFSET + REX3_REG_XSTART)
1.1  lonewolf 	    != ((0x12345678 & 0xffff) << 11))
1.1  lonewolf 		return 0;
1.1  lonewolf
1.1  lonewolf 	return 1;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_attach_common(struct newport_devconfig *dc, struct gio_attach_args *ga)
1.1  lonewolf {
1.1  lonewolf 	dc->dc_addr = ga->ga_addr;
1.1  lonewolf
1.1  lonewolf 	dc->dc_st = ga->ga_iot;
1.1  lonewolf 	dc->dc_sh = ga->ga_ioh;
1.1  lonewolf
1.1  lonewolf 	wsfont_init();
1.1  lonewolf
1.1  lonewolf 	dc->dc_font = wsfont_find(NULL, 8, 16, 0, WSDISPLAY_FONTORDER_L2R,
1.1  lonewolf 	    WSDISPLAY_FONTORDER_L2R);
1.1  lonewolf 	if (dc->dc_font < 0)
1.1  lonewolf 		panic("newport_attach_common: no suitable fonts");
1.1  lonewolf
1.1  lonewolf 	if (wsfont_lock(dc->dc_font, &dc->dc_fontdata))
1.1  lonewolf 		panic("newport_attach_common: unable to lock font data");
1.1  lonewolf
1.1  lonewolf 	newport_setup_hw(dc);
1.1  lonewolf
1.1  lonewolf 	newport_get_resolution(dc);
1.1  lonewolf
1.1  lonewolf 	newport_fill_rectangle(dc, 0, 0, dc->dc_xres, dc->dc_yres, 0);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_attach(struct device *parent, struct device *self, void *aux)
1.1  lonewolf {
1.1  lonewolf 	struct gio_attach_args *ga = aux;
1.1  lonewolf 	struct newport_softc *sc = (void *)self;
1.1  lonewolf 	struct wsemuldisplaydev_attach_args wa;
1.1  lonewolf
1.1  lonewolf 	if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr) {
1.1  lonewolf 		wa.console = 1;
1.1  lonewolf 		sc->sc_dc = &newport_console_dc;
1.1  lonewolf 	} else {
1.1  lonewolf 		wa.console = 0;
1.1  lonewolf 		sc->sc_dc = malloc(sizeof(struct newport_devconfig),
1.1  lonewolf 		    M_DEVBUF, M_WAITOK | M_ZERO);
1.1  lonewolf 		if (sc->sc_dc == NULL)
1.1  lonewolf 			panic("newport_attach: out of memory");
1.1  lonewolf
1.1  lonewolf 		newport_attach_common(sc->sc_dc, ga);
1.1  lonewolf 	}
1.1  lonewolf
1.1  lonewolf 	aprint_naive(": Display adapter\n");
1.1  lonewolf
1.3    sekiya 	aprint_normal(": SGI NG1 (board revision %d, cmap revision %d, xmap revision %d), depth %d\n",
1.3    sekiya 	    sc->sc_dc->dc_boardrev, sc->sc_dc->dc_cmaprev,
1.3    sekiya 	    sc->sc_dc->dc_xmaprev, sc->sc_dc->dc_depth);
1.1  lonewolf
1.1  lonewolf 	wa.scrdata = &newport_screenlist;
1.1  lonewolf 	wa.accessops = &newport_accessops;
1.1  lonewolf 	wa.accesscookie = sc->sc_dc;
1.1  lonewolf
1.1  lonewolf 	config_found(&sc->sc_dev, &wa, wsemuldisplaydevprint);
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf int
1.1  lonewolf newport_cnattach(struct gio_attach_args *ga)
1.1  lonewolf {
1.1  lonewolf 	long defattr = NEWPORT_ATTR_ENCODE(WSCOL_WHITE, WSCOL_BLACK);
1.1  lonewolf 	const struct wsscreen_descr *screen;
1.1  lonewolf
1.1  lonewolf 	if (!newport_match(NULL, NULL, ga)) {
1.1  lonewolf 		return ENXIO;
1.1  lonewolf 	}
1.1  lonewolf
1.1  lonewolf 	newport_attach_common(&newport_console_dc, ga);
1.1  lonewolf
1.1  lonewolf 	if (newport_console_dc.dc_xres >= 1280 &&
1.1  lonewolf 	    newport_console_dc.dc_yres >= 1024)
1.1  lonewolf 		screen = &newport_screen_1280x1024;
1.1  lonewolf 	else
1.1  lonewolf 		screen = &newport_screen_1024x768;
1.1  lonewolf
1.1  lonewolf 	wsdisplay_cnattach(screen, &newport_console_dc, 0, 0, defattr);
1.1  lonewolf
1.1  lonewolf 	newport_is_console = 1;
1.1  lonewolf
1.1  lonewolf 	return 0;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf /**** wsdisplay textops ****/
1.1  lonewolf static void
1.1  lonewolf newport_cursor(void *c, int on, int row, int col)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	uint16_t control;
1.1  lonewolf 	int x_offset;
1.1  lonewolf
1.1  lonewolf 	control = vc2_read_ireg(dc, VC2_IREG_CONTROL);
1.1  lonewolf
1.1  lonewolf 	if (!on) {
1.1  lonewolf 		vc2_write_ireg(dc, VC2_IREG_CONTROL,
1.1  lonewolf 		    control & ~VC2_CONTROL_CURSOR_ENABLE);
1.1  lonewolf 	} else {
1.1  lonewolf 		/* Work around bug in some board revisions */
1.1  lonewolf 		if (dc->dc_boardrev < 6)
1.1  lonewolf 			x_offset = 21;
1.1  lonewolf 		else
1.1  lonewolf 			x_offset = 31;
1.1  lonewolf
1.1  lonewolf 		vc2_write_ireg(dc, VC2_IREG_CURSOR_X,
1.1  lonewolf 		    col * dc->dc_fontdata->fontwidth + x_offset);
1.1  lonewolf 		vc2_write_ireg(dc, VC2_IREG_CURSOR_Y,
1.1  lonewolf 		    row * dc->dc_fontdata->fontheight + 31);
1.1  lonewolf
1.1  lonewolf 		vc2_write_ireg(dc, VC2_IREG_CONTROL,
1.1  lonewolf 		    control | VC2_CONTROL_CURSOR_ENABLE);
1.1  lonewolf 	}
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static int
1.1  lonewolf newport_mapchar(void *c, int ch, unsigned int *cp)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf
1.1  lonewolf 	if (dc->dc_fontdata->encoding != WSDISPLAY_FONTENC_ISO) {
1.1  lonewolf 		ch = wsfont_map_unichar(dc->dc_fontdata, ch);
1.1  lonewolf
1.1  lonewolf 		if (ch < 0)
1.1  lonewolf 			goto fail;
1.1  lonewolf 	}
1.1  lonewolf
1.1  lonewolf 	if (ch < dc->dc_fontdata->firstchar ||
1.1  lonewolf 	    ch >= dc->dc_fontdata->firstchar + dc->dc_fontdata->numchars)
1.1  lonewolf 		goto fail;
1.1  lonewolf
1.1  lonewolf 	*cp = ch;
1.1  lonewolf 	return 5;
1.1  lonewolf
1.1  lonewolf fail:
1.1  lonewolf 	*cp = ' ';
1.1  lonewolf 	return 0;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_putchar(void *c, int row, int col, u_int ch, long attr)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	struct wsdisplay_font *font = dc->dc_fontdata;
1.1  lonewolf 	uint8_t *bitmap = (u_int8_t *)font->data + (ch - font->firstchar) *
1.1  lonewolf 	    font->fontheight * font->stride;
1.1  lonewolf 	uint32_t pattern;
1.1  lonewolf 	int i;
1.1  lonewolf 	int x = col * font->fontwidth;
1.1  lonewolf 	int y = row * font->fontheight;
1.1  lonewolf
1.1  lonewolf 	rex3_wait_gfifo(dc);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW |
1.1  lonewolf 	    REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_STOPONX |
1.1  lonewolf 	    REX3_DRAWMODE0_ENZPATTERN | REX3_DRAWMODE0_ZPOPAQUE);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYSTARTI, (x << REX3_XYSTARTI_XSHIFT) | y);
1.1  lonewolf 	rex3_write(dc, REX3_REG_XYENDI,
1.1  lonewolf 	    (x + font->fontwidth - 1) << REX3_XYENDI_XSHIFT);
1.1  lonewolf
1.1  lonewolf 	rex3_write(dc, REX3_REG_COLORI, NEWPORT_ATTR_FG(attr));
1.1  lonewolf 	rex3_write(dc, REX3_REG_COLORBACK, NEWPORT_ATTR_BG(attr));
1.1  lonewolf
1.3    sekiya 	rex3_write(dc, REX3_REG_WRMASK, 0xffffffff);
1.1  lonewolf
1.1  lonewolf 	for (i=0; i<font->fontheight; i++) {
1.1  lonewolf 		/* XXX Works only with font->fontwidth == 8 XXX */
1.1  lonewolf 		pattern = *bitmap << 24;
1.1  lonewolf
1.1  lonewolf 		rex3_write_go(dc, REX3_REG_ZPATTERN, pattern);
1.1  lonewolf
1.1  lonewolf 		bitmap += font->stride;
1.1  lonewolf 	}
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_copycols(void *c, int row, int srccol, int dstcol, int ncols)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	struct wsdisplay_font *font = dc->dc_fontdata;
1.1  lonewolf
1.1  lonewolf 	newport_copy_rectangle(dc,
1.1  lonewolf 	    srccol * font->fontwidth,			/* x1 */
1.1  lonewolf 	    row * font->fontheight,			/* y1 */
1.1  lonewolf 	    (srccol + ncols + 1) * font->fontwidth - 1,	/* x2 */
1.1  lonewolf 	    (row + 1) * font->fontheight - 1,		/* y2 */
1.1  lonewolf 	    dstcol * font->fontheight,			/* dx */
1.1  lonewolf 	    row * font->fontheight);			/* dy */
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_erasecols(void *c, int row, int startcol, int ncols,
1.1  lonewolf     long attr)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	struct wsdisplay_font *font = dc->dc_fontdata;
1.1  lonewolf
1.1  lonewolf 	newport_fill_rectangle(dc,
1.1  lonewolf 	    startcol * font->fontwidth,				/* x1 */
1.1  lonewolf 	    row * font->fontheight,				/* y1 */
1.1  lonewolf 	    (startcol + ncols + 1) * font->fontwidth - 1,	/* x2 */
1.1  lonewolf 	    (row + 1) * font->fontheight - 1,			/* y2 */
1.1  lonewolf 	    NEWPORT_ATTR_BG(attr));
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_copyrows(void *c, int srcrow, int dstrow, int nrows)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	struct wsdisplay_font *font = dc->dc_fontdata;
1.1  lonewolf
1.1  lonewolf 	newport_copy_rectangle(dc,
1.1  lonewolf 	    0,							/* x1 */
1.1  lonewolf 	    srcrow * font->fontheight,				/* y1 */
1.1  lonewolf 	    dc->dc_xres,					/* x2 */
1.1  lonewolf 	    (srcrow + nrows + 1) * font->fontheight - 1,	/* y2 */
1.1  lonewolf 	    0,							/* dx */
1.1  lonewolf 	    dstrow * font->fontheight);				/* dy */
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_eraserows(void *c, int startrow, int nrows, long attr)
1.1  lonewolf {
1.1  lonewolf 	struct newport_devconfig *dc = (void *)c;
1.1  lonewolf 	struct wsdisplay_font *font = dc->dc_fontdata;
1.1  lonewolf
1.1  lonewolf 	newport_fill_rectangle(dc,
1.1  lonewolf 	    0,							/* x1 */
1.1  lonewolf 	    startrow * font->fontheight,			/* y1 */
1.1  lonewolf 	    dc->dc_xres,					/* x2 */
1.1  lonewolf 	    (startrow + nrows + 1) * font->fontheight - 1,	/* y2 */
1.1  lonewolf 	    NEWPORT_ATTR_BG(attr));
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static int
1.1  lonewolf newport_allocattr(void *c, int fg, int bg, int flags, long *attr)
1.1  lonewolf {
1.1  lonewolf 	if (flags & WSATTR_BLINK)
1.1  lonewolf 		return EINVAL;
1.1  lonewolf
1.1  lonewolf 	if ((flags & WSATTR_WSCOLORS) == 0) {
1.1  lonewolf 		fg = WSCOL_WHITE;
1.1  lonewolf 		bg = WSCOL_BLACK;
1.1  lonewolf 	}
1.1  lonewolf
1.1  lonewolf 	if (flags & WSATTR_HILIT)
1.1  lonewolf 		fg += 8;
1.1  lonewolf
1.1  lonewolf 	if (flags & WSATTR_REVERSE) {
1.1  lonewolf 		int tmp = fg;
1.1  lonewolf 		fg = bg;
1.1  lonewolf 		bg = tmp;
1.1  lonewolf 	}
1.1  lonewolf
1.1  lonewolf 	*attr = NEWPORT_ATTR_ENCODE(fg, bg);
1.1  lonewolf
1.1  lonewolf 	return 0;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf /**** wsdisplay accessops ****/
1.1  lonewolf
1.1  lonewolf static int
1.1  lonewolf newport_ioctl(void *c, u_long cmd, caddr_t data, int flag, struct proc *p)
1.1  lonewolf {
1.3    sekiya 	struct newport_softc *sc = c;
1.3    sekiya
1.3    sekiya #define FBINFO (*(struct wsdisplay_fbinfo*)data)
1.3    sekiya
1.3    sekiya 	switch (cmd) {
1.3    sekiya 	case WSDISPLAYIO_GINFO:
1.3    sekiya 		FBINFO.width  = sc->sc_dc->dc_xres;
1.3    sekiya 		FBINFO.height = sc->sc_dc->dc_yres;
1.3    sekiya 		FBINFO.depth  = sc->sc_dc->dc_depth;
1.3    sekiya 		FBINFO.cmsize = 1 << FBINFO.depth;
1.3    sekiya 		return 0;
1.3    sekiya 	case WSDISPLAYIO_GTYPE:
1.3    sekiya 		*(u_int *)data = WSDISPLAY_TYPE_NEWPORT;
1.3    sekiya 		return 0;
1.3    sekiya 	}
1.1  lonewolf 	return EPASSTHROUGH;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static paddr_t
1.1  lonewolf newport_mmap(void *c, off_t offset, int prot)
1.1  lonewolf {
1.1  lonewolf 	return -1;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static int
1.1  lonewolf newport_alloc_screen(void *c, const struct wsscreen_descr *type, void **cookiep,
1.1  lonewolf     int *cursxp, int *cursyp, long *attrp)
1.1  lonewolf {
1.1  lonewolf 	/* This won't get called for console screen and we don't support
1.1  lonewolf 	 * virtual screens */
1.1  lonewolf
1.1  lonewolf 	return ENOMEM;
1.1  lonewolf }
1.1  lonewolf
1.1  lonewolf static void
1.1  lonewolf newport_free_screen(void *c, void *cookie)
1.1  lonewolf {
1.1  lonewolf 	panic("newport_free_screen");
1.1  lonewolf }
1.1  lonewolf static int
1.1  lonewolf newport_show_screen(void *c, void *cookie, int waitok,
1.1  lonewolf     void (*cb)(void *, int, int), void *cbarg)
1.1  lonewolf {
1.1  lonewolf 	return 0;
1.1  lonewolf }