newport.c revision 1.10.52.1 1 1.10.52.1 skrll /* $NetBSD: newport.c,v 1.10.52.1 2009/03/03 18:29:14 skrll Exp $ */
2 1.1 lonewolf
3 1.1 lonewolf /*
4 1.1 lonewolf * Copyright (c) 2003 Ilpo Ruotsalainen
5 1.1 lonewolf * All rights reserved.
6 1.1 lonewolf *
7 1.1 lonewolf * Redistribution and use in source and binary forms, with or without
8 1.1 lonewolf * modification, are permitted provided that the following conditions
9 1.1 lonewolf * are met:
10 1.1 lonewolf * 1. Redistributions of source code must retain the above copyright
11 1.1 lonewolf * notice, this list of conditions and the following disclaimer.
12 1.1 lonewolf * 2. Redistributions in binary form must reproduce the above copyright
13 1.1 lonewolf * notice, this list of conditions and the following disclaimer in the
14 1.1 lonewolf * documentation and/or other materials provided with the distribution.
15 1.1 lonewolf * 3. The name of the author may not be used to endorse or promote products
16 1.1 lonewolf * derived from this software without specific prior written permission.
17 1.1 lonewolf *
18 1.1 lonewolf * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
19 1.1 lonewolf * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
20 1.1 lonewolf * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
21 1.1 lonewolf * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
22 1.1 lonewolf * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
23 1.1 lonewolf * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24 1.1 lonewolf * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25 1.1 lonewolf * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26 1.1 lonewolf * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
27 1.1 lonewolf * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28 1.1 lonewolf *
29 1.1 lonewolf * <<Id: LICENSE_GC,v 1.1 2001/10/01 23:24:05 cgd Exp>>
30 1.1 lonewolf */
31 1.1 lonewolf
32 1.1 lonewolf #include <sys/cdefs.h>
33 1.10.52.1 skrll __KERNEL_RCSID(0, "$NetBSD: newport.c,v 1.10.52.1 2009/03/03 18:29:14 skrll Exp $");
34 1.1 lonewolf
35 1.1 lonewolf #include <sys/param.h>
36 1.1 lonewolf #include <sys/systm.h>
37 1.1 lonewolf #include <sys/device.h>
38 1.1 lonewolf #include <sys/malloc.h>
39 1.1 lonewolf
40 1.9 rumble #include <machine/sysconf.h>
41 1.9 rumble
42 1.1 lonewolf #include <dev/wscons/wsconsio.h>
43 1.1 lonewolf #include <dev/wscons/wsdisplayvar.h>
44 1.1 lonewolf #include <dev/wsfont/wsfont.h>
45 1.10.52.1 skrll #include <dev/rasops/rasops.h>
46 1.10.52.1 skrll #include <dev/wscons/wsdisplay_vconsvar.h>
47 1.1 lonewolf
48 1.1 lonewolf #include <sgimips/gio/giovar.h>
49 1.1 lonewolf #include <sgimips/gio/newportvar.h>
50 1.1 lonewolf #include <sgimips/gio/newportreg.h>
51 1.1 lonewolf
52 1.1 lonewolf struct newport_softc {
53 1.10.52.1 skrll device_t sc_dev;
54 1.1 lonewolf
55 1.1 lonewolf struct newport_devconfig *sc_dc;
56 1.10.52.1 skrll
57 1.1 lonewolf };
58 1.1 lonewolf
59 1.1 lonewolf struct newport_devconfig {
60 1.1 lonewolf uint32_t dc_addr;
61 1.1 lonewolf
62 1.1 lonewolf bus_space_tag_t dc_st;
63 1.1 lonewolf bus_space_handle_t dc_sh;
64 1.1 lonewolf
65 1.1 lonewolf int dc_boardrev;
66 1.5 sekiya int dc_vc2rev;
67 1.3 sekiya int dc_cmaprev;
68 1.3 sekiya int dc_xmaprev;
69 1.3 sekiya int dc_rexrev;
70 1.1 lonewolf int dc_xres;
71 1.1 lonewolf int dc_yres;
72 1.3 sekiya int dc_depth;
73 1.1 lonewolf
74 1.1 lonewolf int dc_font;
75 1.10.52.1 skrll struct wsscreen_descr *dc_screen;
76 1.1 lonewolf struct wsdisplay_font *dc_fontdata;
77 1.10.52.1 skrll struct vcons_data dc_vd;
78 1.1 lonewolf };
79 1.1 lonewolf
80 1.10.52.1 skrll static int newport_match(device_t, struct cfdata *, void *);
81 1.10.52.1 skrll static void newport_attach(device_t, device_t, void *);
82 1.1 lonewolf
83 1.10.52.1 skrll CFATTACH_DECL_NEW(newport, sizeof(struct newport_softc),
84 1.1 lonewolf newport_match, newport_attach, NULL, NULL);
85 1.1 lonewolf
86 1.1 lonewolf /* textops */
87 1.1 lonewolf static void newport_cursor(void *, int, int, int);
88 1.10.52.1 skrll static void newport_cursor_dummy(void *, int, int, int);
89 1.1 lonewolf static int newport_mapchar(void *, int, unsigned int *);
90 1.1 lonewolf static void newport_putchar(void *, int, int, u_int, long);
91 1.1 lonewolf static void newport_copycols(void *, int, int, int, int);
92 1.1 lonewolf static void newport_erasecols(void *, int, int, int, long);
93 1.1 lonewolf static void newport_copyrows(void *, int, int, int);
94 1.1 lonewolf static void newport_eraserows(void *, int, int, long);
95 1.1 lonewolf static int newport_allocattr(void *, int, int, int, long *);
96 1.1 lonewolf
97 1.10.52.1 skrll static void newport_init_screen(void *, struct vcons_screen *, int, long *);
98 1.10.52.1 skrll
99 1.1 lonewolf /* accessops */
100 1.10 christos static int newport_ioctl(void *, void *, u_long, void *, int,
101 1.7 jmmv struct lwp *);
102 1.7 jmmv static paddr_t newport_mmap(void *, void *, off_t, int);
103 1.1 lonewolf
104 1.10.52.1 skrll static struct wsdisplay_accessops newport_accessops = {
105 1.10.52.1 skrll .ioctl = newport_ioctl,
106 1.10.52.1 skrll .mmap = newport_mmap,
107 1.10.52.1 skrll };
108 1.10.52.1 skrll
109 1.10.52.1 skrll static struct wsdisplay_emulops newport_textops = {
110 1.10.52.1 skrll .cursor = newport_cursor_dummy,
111 1.1 lonewolf .mapchar = newport_mapchar,
112 1.1 lonewolf .putchar = newport_putchar,
113 1.1 lonewolf .copycols = newport_copycols,
114 1.1 lonewolf .erasecols = newport_erasecols,
115 1.1 lonewolf .copyrows = newport_copyrows,
116 1.1 lonewolf .eraserows = newport_eraserows,
117 1.1 lonewolf .allocattr = newport_allocattr
118 1.1 lonewolf };
119 1.1 lonewolf
120 1.10.52.1 skrll static struct wsscreen_descr newport_screen_1024x768 = {
121 1.1 lonewolf .name = "1024x768",
122 1.1 lonewolf .ncols = 128,
123 1.1 lonewolf .nrows = 48,
124 1.1 lonewolf .textops = &newport_textops,
125 1.1 lonewolf .fontwidth = 8,
126 1.1 lonewolf .fontheight = 16,
127 1.1 lonewolf .capabilities = WSSCREEN_WSCOLORS | WSSCREEN_HILIT | WSSCREEN_REVERSE
128 1.1 lonewolf };
129 1.1 lonewolf
130 1.10.52.1 skrll static struct wsscreen_descr newport_screen_1280x1024 = {
131 1.1 lonewolf .name = "1280x1024",
132 1.1 lonewolf .ncols = 160,
133 1.1 lonewolf .nrows = 64,
134 1.1 lonewolf .textops = &newport_textops,
135 1.1 lonewolf .fontwidth = 8,
136 1.1 lonewolf .fontheight = 16,
137 1.1 lonewolf .capabilities = WSSCREEN_WSCOLORS | WSSCREEN_HILIT | WSSCREEN_REVERSE
138 1.1 lonewolf };
139 1.1 lonewolf
140 1.1 lonewolf static const struct wsscreen_descr *_newport_screenlist[] = {
141 1.1 lonewolf &newport_screen_1024x768,
142 1.1 lonewolf &newport_screen_1280x1024
143 1.1 lonewolf };
144 1.1 lonewolf
145 1.1 lonewolf static const struct wsscreen_list newport_screenlist = {
146 1.1 lonewolf sizeof(_newport_screenlist) / sizeof(struct wsscreen_descr *),
147 1.1 lonewolf _newport_screenlist
148 1.1 lonewolf };
149 1.1 lonewolf
150 1.10.52.1 skrll static struct vcons_screen newport_console_screen;
151 1.1 lonewolf static struct newport_devconfig newport_console_dc;
152 1.1 lonewolf static int newport_is_console = 0;
153 1.1 lonewolf
154 1.1 lonewolf #define NEWPORT_ATTR_ENCODE(fg,bg) (((fg) << 8) | (bg))
155 1.1 lonewolf #define NEWPORT_ATTR_BG(a) ((a) & 0xff)
156 1.1 lonewolf #define NEWPORT_ATTR_FG(a) (((a) >> 8) & 0xff)
157 1.1 lonewolf
158 1.10.52.1 skrll extern const u_char rasops_cmap[768];
159 1.1 lonewolf
160 1.1 lonewolf /**** Low-level hardware register groveling functions ****/
161 1.1 lonewolf static void
162 1.1 lonewolf rex3_write(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val)
163 1.1 lonewolf {
164 1.1 lonewolf bus_space_write_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET + rexreg,
165 1.1 lonewolf val);
166 1.1 lonewolf }
167 1.1 lonewolf
168 1.1 lonewolf static void
169 1.1 lonewolf rex3_write_go(struct newport_devconfig *dc, bus_size_t rexreg, uint32_t val)
170 1.1 lonewolf {
171 1.1 lonewolf rex3_write(dc, rexreg + REX3_REG_GO, val);
172 1.1 lonewolf }
173 1.1 lonewolf
174 1.1 lonewolf static uint32_t
175 1.1 lonewolf rex3_read(struct newport_devconfig *dc, bus_size_t rexreg)
176 1.1 lonewolf {
177 1.1 lonewolf return bus_space_read_4(dc->dc_st, dc->dc_sh, NEWPORT_REX3_OFFSET +
178 1.1 lonewolf rexreg);
179 1.1 lonewolf }
180 1.1 lonewolf
181 1.1 lonewolf static void
182 1.1 lonewolf rex3_wait_gfifo(struct newport_devconfig *dc)
183 1.1 lonewolf {
184 1.1 lonewolf while (rex3_read(dc, REX3_REG_STATUS) & REX3_STATUS_GFXBUSY)
185 1.1 lonewolf ;
186 1.1 lonewolf }
187 1.1 lonewolf
188 1.1 lonewolf static void
189 1.1 lonewolf vc2_write_ireg(struct newport_devconfig *dc, uint8_t ireg, uint16_t val)
190 1.1 lonewolf {
191 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
192 1.1 lonewolf REX3_DCBMODE_DW_3 |
193 1.1 lonewolf REX3_DCBMODE_ENCRSINC |
194 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
195 1.1 lonewolf (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) |
196 1.1 lonewolf REX3_DCBMODE_ENASYNCACK |
197 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
198 1.1 lonewolf
199 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (ireg << 24) | (val << 8));
200 1.1 lonewolf }
201 1.1 lonewolf
202 1.1 lonewolf static uint16_t
203 1.1 lonewolf vc2_read_ireg(struct newport_devconfig *dc, uint8_t ireg)
204 1.1 lonewolf {
205 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
206 1.1 lonewolf REX3_DCBMODE_DW_1 |
207 1.1 lonewolf REX3_DCBMODE_ENCRSINC |
208 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
209 1.1 lonewolf (VC2_DCBCRS_INDEX << REX3_DCBMODE_DCBCRS_SHIFT) |
210 1.1 lonewolf REX3_DCBMODE_ENASYNCACK |
211 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
212 1.1 lonewolf
213 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, ireg << 24);
214 1.1 lonewolf
215 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
216 1.1 lonewolf REX3_DCBMODE_DW_2 |
217 1.1 lonewolf REX3_DCBMODE_ENCRSINC |
218 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
219 1.1 lonewolf (VC2_DCBCRS_IREG << REX3_DCBMODE_DCBCRS_SHIFT) |
220 1.1 lonewolf REX3_DCBMODE_ENASYNCACK |
221 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
222 1.1 lonewolf
223 1.1 lonewolf return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16);
224 1.1 lonewolf }
225 1.1 lonewolf
226 1.1 lonewolf static uint16_t
227 1.1 lonewolf vc2_read_ram(struct newport_devconfig *dc, uint16_t addr)
228 1.1 lonewolf {
229 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr);
230 1.1 lonewolf
231 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
232 1.1 lonewolf REX3_DCBMODE_DW_2 |
233 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
234 1.1 lonewolf (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) |
235 1.1 lonewolf REX3_DCBMODE_ENASYNCACK |
236 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
237 1.1 lonewolf
238 1.1 lonewolf return (uint16_t)(rex3_read(dc, REX3_REG_DCBDATA0) >> 16);
239 1.1 lonewolf }
240 1.1 lonewolf
241 1.10.52.1 skrll #if 0
242 1.1 lonewolf static void
243 1.1 lonewolf vc2_write_ram(struct newport_devconfig *dc, uint16_t addr, uint16_t val)
244 1.1 lonewolf {
245 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_RAM_ADDRESS, addr);
246 1.1 lonewolf
247 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
248 1.1 lonewolf REX3_DCBMODE_DW_2 |
249 1.1 lonewolf (NEWPORT_DCBADDR_VC2 << REX3_DCBMODE_DCBADDR_SHIFT) |
250 1.1 lonewolf (VC2_DCBCRS_RAM << REX3_DCBMODE_DCBCRS_SHIFT) |
251 1.1 lonewolf REX3_DCBMODE_ENASYNCACK |
252 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
253 1.1 lonewolf
254 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, val << 16);
255 1.1 lonewolf }
256 1.10.52.1 skrll #endif
257 1.1 lonewolf
258 1.3 sekiya static u_int32_t
259 1.3 sekiya xmap9_read(struct newport_devconfig *dc, int crs)
260 1.3 sekiya {
261 1.3 sekiya rex3_write(dc, REX3_REG_DCBMODE,
262 1.3 sekiya REX3_DCBMODE_DW_1 |
263 1.3 sekiya (NEWPORT_DCBADDR_XMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) |
264 1.3 sekiya (crs << REX3_DCBMODE_DCBCRS_SHIFT) |
265 1.3 sekiya (3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
266 1.3 sekiya (2 << REX3_DCBMODE_CSHOLD_SHIFT) |
267 1.3 sekiya (1 << REX3_DCBMODE_CSSETUP_SHIFT));
268 1.3 sekiya return rex3_read(dc, REX3_REG_DCBDATA0);
269 1.3 sekiya }
270 1.3 sekiya
271 1.1 lonewolf static void
272 1.1 lonewolf xmap9_write(struct newport_devconfig *dc, int crs, uint8_t val)
273 1.1 lonewolf {
274 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
275 1.1 lonewolf REX3_DCBMODE_DW_1 |
276 1.1 lonewolf (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
277 1.1 lonewolf (crs << REX3_DCBMODE_DCBCRS_SHIFT) |
278 1.1 lonewolf (3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
279 1.1 lonewolf (2 << REX3_DCBMODE_CSHOLD_SHIFT) |
280 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
281 1.1 lonewolf
282 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, val << 24);
283 1.1 lonewolf }
284 1.1 lonewolf
285 1.1 lonewolf static void
286 1.1 lonewolf xmap9_write_mode(struct newport_devconfig *dc, uint8_t index, uint32_t mode)
287 1.1 lonewolf {
288 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
289 1.1 lonewolf REX3_DCBMODE_DW_4 |
290 1.1 lonewolf (NEWPORT_DCBADDR_XMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
291 1.1 lonewolf (XMAP9_DCBCRS_MODE_SETUP << REX3_DCBMODE_DCBCRS_SHIFT) |
292 1.1 lonewolf (3 << REX3_DCBMODE_CSWIDTH_SHIFT) |
293 1.1 lonewolf (2 << REX3_DCBMODE_CSHOLD_SHIFT) |
294 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
295 1.1 lonewolf
296 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (index << 24) | mode);
297 1.1 lonewolf }
298 1.1 lonewolf
299 1.1 lonewolf /**** Helper functions ****/
300 1.1 lonewolf static void
301 1.1 lonewolf newport_fill_rectangle(struct newport_devconfig *dc, int x1, int y1, int x2,
302 1.1 lonewolf int y2, uint8_t color)
303 1.1 lonewolf {
304 1.1 lonewolf rex3_wait_gfifo(dc);
305 1.1 lonewolf
306 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW |
307 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP |
308 1.1 lonewolf REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY);
309 1.10.52.1 skrll rex3_write(dc, REX3_REG_DRAWMODE1,
310 1.10.52.1 skrll REX3_DRAWMODE1_PLANES_CI |
311 1.10.52.1 skrll REX3_DRAWMODE1_DD_DD8 |
312 1.10.52.1 skrll REX3_DRAWMODE1_RWPACKED |
313 1.10.52.1 skrll REX3_DRAWMODE1_HD_HD8 |
314 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_LT |
315 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_EQ |
316 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_GT |
317 1.10.52.1 skrll REX3_DRAWMODE1_LO_SRC);
318 1.3 sekiya rex3_write(dc, REX3_REG_WRMASK, 0xffffffff);
319 1.1 lonewolf rex3_write(dc, REX3_REG_COLORI, color);
320 1.1 lonewolf rex3_write(dc, REX3_REG_XYSTARTI, (x1 << REX3_XYSTARTI_XSHIFT) | y1);
321 1.1 lonewolf
322 1.1 lonewolf rex3_write_go(dc, REX3_REG_XYENDI, (x2 << REX3_XYENDI_XSHIFT) | y2);
323 1.1 lonewolf }
324 1.1 lonewolf
325 1.1 lonewolf static void
326 1.10.52.1 skrll newport_bitblt(struct newport_devconfig *dc, int xs, int ys, int xd,
327 1.10.52.1 skrll int yd, int wi, int he, int rop)
328 1.1 lonewolf {
329 1.10.52.1 skrll int xe, ye;
330 1.1 lonewolf uint32_t tmp;
331 1.1 lonewolf
332 1.1 lonewolf rex3_wait_gfifo(dc);
333 1.10.52.1 skrll if (yd > ys) {
334 1.10.52.1 skrll /* need to copy bottom up */
335 1.10.52.1 skrll ye = ys;
336 1.10.52.1 skrll yd += he - 1;
337 1.10.52.1 skrll ys += he - 1;
338 1.10.52.1 skrll } else
339 1.10.52.1 skrll ye = ys + he - 1;
340 1.10.52.1 skrll
341 1.10.52.1 skrll if (xd > xs) {
342 1.10.52.1 skrll /* need to copy right to left */
343 1.10.52.1 skrll xe = xs;
344 1.10.52.1 skrll xd += wi - 1;
345 1.10.52.1 skrll xs += wi - 1;
346 1.10.52.1 skrll } else
347 1.10.52.1 skrll xe = xs + wi - 1;
348 1.10.52.1 skrll
349 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_SCR2SCR |
350 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_DOSETUP |
351 1.1 lonewolf REX3_DRAWMODE0_STOPONX | REX3_DRAWMODE0_STOPONY);
352 1.10.52.1 skrll rex3_write(dc, REX3_REG_DRAWMODE1,
353 1.10.52.1 skrll REX3_DRAWMODE1_PLANES_CI |
354 1.10.52.1 skrll REX3_DRAWMODE1_DD_DD8 |
355 1.10.52.1 skrll REX3_DRAWMODE1_RWPACKED |
356 1.10.52.1 skrll REX3_DRAWMODE1_HD_HD8 |
357 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_LT |
358 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_EQ |
359 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_GT |
360 1.10.52.1 skrll ((rop << 28) & REX3_DRAWMODE1_LOGICOP_MASK));
361 1.10.52.1 skrll rex3_write(dc, REX3_REG_XYSTARTI, (xs << REX3_XYSTARTI_XSHIFT) | ys);
362 1.10.52.1 skrll rex3_write(dc, REX3_REG_XYENDI, (xe << REX3_XYENDI_XSHIFT) | ye);
363 1.1 lonewolf
364 1.10.52.1 skrll tmp = (yd - ys) & 0xffff;
365 1.10.52.1 skrll tmp |= (xd - xs) << REX3_XYMOVE_XSHIFT;
366 1.1 lonewolf
367 1.1 lonewolf rex3_write_go(dc, REX3_REG_XYMOVE, tmp);
368 1.1 lonewolf }
369 1.1 lonewolf
370 1.1 lonewolf static void
371 1.1 lonewolf newport_cmap_setrgb(struct newport_devconfig *dc, int index, uint8_t r,
372 1.1 lonewolf uint8_t g, uint8_t b)
373 1.1 lonewolf {
374 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
375 1.1 lonewolf REX3_DCBMODE_DW_2 |
376 1.1 lonewolf REX3_DCBMODE_ENCRSINC |
377 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
378 1.1 lonewolf (CMAP_DCBCRS_ADDRESS_LOW << REX3_DCBMODE_DCBCRS_SHIFT) |
379 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
380 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
381 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT) |
382 1.1 lonewolf REX3_DCBMODE_SWAPENDIAN);
383 1.1 lonewolf
384 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, index << 16);
385 1.1 lonewolf
386 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
387 1.1 lonewolf REX3_DCBMODE_DW_3 |
388 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_BOTH << REX3_DCBMODE_DCBADDR_SHIFT) |
389 1.1 lonewolf (CMAP_DCBCRS_PALETTE << REX3_DCBMODE_DCBCRS_SHIFT) |
390 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
391 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
392 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
393 1.1 lonewolf
394 1.1 lonewolf rex3_write(dc, REX3_REG_DCBDATA0, (r << 24) + (g << 16) + (b << 8));
395 1.1 lonewolf }
396 1.1 lonewolf
397 1.1 lonewolf static void
398 1.1 lonewolf newport_get_resolution(struct newport_devconfig *dc)
399 1.1 lonewolf {
400 1.1 lonewolf uint16_t vep,lines;
401 1.1 lonewolf uint16_t linep,cols;
402 1.1 lonewolf uint16_t data;
403 1.1 lonewolf
404 1.1 lonewolf vep = vc2_read_ireg(dc, VC2_IREG_VIDEO_ENTRY);
405 1.1 lonewolf
406 1.1 lonewolf dc->dc_xres = 0;
407 1.1 lonewolf dc->dc_yres = 0;
408 1.1 lonewolf
409 1.1 lonewolf for (;;) {
410 1.1 lonewolf /* Iterate over runs in video timing table */
411 1.1 lonewolf
412 1.1 lonewolf cols = 0;
413 1.1 lonewolf
414 1.1 lonewolf linep = vc2_read_ram(dc, vep++);
415 1.1 lonewolf lines = vc2_read_ram(dc, vep++);
416 1.1 lonewolf
417 1.1 lonewolf if (lines == 0)
418 1.1 lonewolf break;
419 1.1 lonewolf
420 1.1 lonewolf do {
421 1.1 lonewolf /* Iterate over state runs in line sequence table */
422 1.1 lonewolf
423 1.1 lonewolf data = vc2_read_ram(dc, linep++);
424 1.1 lonewolf
425 1.1 lonewolf if ((data & 0x0001) == 0)
426 1.1 lonewolf cols += (data >> 7) & 0xfe;
427 1.1 lonewolf
428 1.1 lonewolf if ((data & 0x0080) == 0)
429 1.1 lonewolf data = vc2_read_ram(dc, linep++);
430 1.1 lonewolf } while ((data & 0x8000) == 0);
431 1.1 lonewolf
432 1.1 lonewolf if (cols != 0) {
433 1.1 lonewolf if (cols > dc->dc_xres)
434 1.1 lonewolf dc->dc_xres = cols;
435 1.1 lonewolf
436 1.1 lonewolf dc->dc_yres += lines;
437 1.1 lonewolf }
438 1.1 lonewolf }
439 1.1 lonewolf }
440 1.1 lonewolf
441 1.1 lonewolf static void
442 1.1 lonewolf newport_setup_hw(struct newport_devconfig *dc)
443 1.1 lonewolf {
444 1.1 lonewolf uint16_t curp,tmp;
445 1.1 lonewolf int i;
446 1.3 sekiya uint32_t scratch;
447 1.1 lonewolf
448 1.3 sekiya /* Get various revisions */
449 1.1 lonewolf rex3_write(dc, REX3_REG_DCBMODE,
450 1.1 lonewolf REX3_DCBMODE_DW_1 |
451 1.1 lonewolf (NEWPORT_DCBADDR_CMAP_0 << REX3_DCBMODE_DCBADDR_SHIFT) |
452 1.1 lonewolf (CMAP_DCBCRS_REVISION << REX3_DCBMODE_DCBCRS_SHIFT) |
453 1.1 lonewolf (1 << REX3_DCBMODE_CSWIDTH_SHIFT) |
454 1.1 lonewolf (1 << REX3_DCBMODE_CSHOLD_SHIFT) |
455 1.1 lonewolf (1 << REX3_DCBMODE_CSSETUP_SHIFT));
456 1.1 lonewolf
457 1.5 sekiya scratch = vc2_read_ireg(dc, VC2_IREG_CONFIG);
458 1.5 sekiya dc->dc_vc2rev = (scratch & VC2_IREG_CONFIG_REVISION) >> 5;
459 1.5 sekiya
460 1.3 sekiya scratch = rex3_read(dc, REX3_REG_DCBDATA0);
461 1.3 sekiya
462 1.3 sekiya dc->dc_boardrev = (scratch >> 28) & 0x07;
463 1.3 sekiya dc->dc_cmaprev = scratch & 0x07;
464 1.3 sekiya dc->dc_xmaprev = xmap9_read(dc, XMAP9_DCBCRS_REVISION) & 0x07;
465 1.5 sekiya dc->dc_depth = ( (dc->dc_boardrev > 1) && (scratch & 0x80)) ? 8 : 24;
466 1.1 lonewolf
467 1.1 lonewolf /* Setup cursor glyph */
468 1.1 lonewolf curp = vc2_read_ireg(dc, VC2_IREG_CURSOR_ENTRY);
469 1.1 lonewolf
470 1.1 lonewolf /* Setup VC2 to a known state */
471 1.1 lonewolf tmp = vc2_read_ireg(dc, VC2_IREG_CONTROL) & VC2_CONTROL_INTERLACE;
472 1.1 lonewolf vc2_write_ireg(dc, VC2_IREG_CONTROL, tmp |
473 1.1 lonewolf VC2_CONTROL_DISPLAY_ENABLE |
474 1.1 lonewolf VC2_CONTROL_VTIMING_ENABLE |
475 1.1 lonewolf VC2_CONTROL_DID_ENABLE |
476 1.10.52.1 skrll VC2_CONTROL_CURSORFUNC_ENABLE /*|
477 1.10.52.1 skrll VC2_CONTROL_CURSOR_ENABLE*/);
478 1.1 lonewolf
479 1.1 lonewolf /* Setup XMAP9s */
480 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_CONFIG,
481 1.1 lonewolf XMAP9_CONFIG_8BIT_SYSTEM | XMAP9_CONFIG_RGBMAP_CI);
482 1.1 lonewolf
483 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_CURSOR_CMAP, 0);
484 1.1 lonewolf
485 1.1 lonewolf xmap9_write_mode(dc, 0,
486 1.1 lonewolf XMAP9_MODE_GAMMA_BYPASS |
487 1.1 lonewolf XMAP9_MODE_PIXSIZE_8BPP);
488 1.1 lonewolf xmap9_write(dc, XMAP9_DCBCRS_MODE_SELECT, 0);
489 1.1 lonewolf
490 1.1 lonewolf /* Setup REX3 */
491 1.1 lonewolf rex3_write(dc, REX3_REG_XYWIN, (4096 << 16) | 4096);
492 1.1 lonewolf rex3_write(dc, REX3_REG_TOPSCAN, 0x3ff); /* XXX Why? XXX */
493 1.1 lonewolf
494 1.1 lonewolf /* Setup CMAP */
495 1.10.52.1 skrll for (i = 0; i < 256; i++)
496 1.10.52.1 skrll newport_cmap_setrgb(dc, i, rasops_cmap[i * 3],
497 1.10.52.1 skrll rasops_cmap[i * 3 + 1], rasops_cmap[i * 3 + 2]);
498 1.1 lonewolf }
499 1.1 lonewolf
500 1.1 lonewolf /**** Attach routines ****/
501 1.1 lonewolf static int
502 1.10.52.1 skrll newport_match(device_t parent, struct cfdata *self, void *aux)
503 1.1 lonewolf {
504 1.1 lonewolf struct gio_attach_args *ga = aux;
505 1.1 lonewolf
506 1.1 lonewolf /* newport doesn't decode all addresses */
507 1.1 lonewolf if (ga->ga_addr != 0x1f000000 && ga->ga_addr != 0x1f400000 &&
508 1.1 lonewolf ga->ga_addr != 0x1f800000 && ga->ga_addr != 0x1fc00000)
509 1.1 lonewolf return 0;
510 1.1 lonewolf
511 1.1 lonewolf /* Don't do the destructive probe if we're already attached */
512 1.1 lonewolf if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr)
513 1.1 lonewolf return 1;
514 1.1 lonewolf
515 1.9 rumble if (platform.badaddr(
516 1.8 rumble (void *)(ga->ga_ioh + NEWPORT_REX3_OFFSET + REX3_REG_XSTARTI),
517 1.8 rumble sizeof(uint32_t)))
518 1.8 rumble return 0;
519 1.9 rumble if (platform.badaddr(
520 1.8 rumble (void *)(ga->ga_ioh + NEWPORT_REX3_OFFSET + REX3_REG_XSTART),
521 1.8 rumble sizeof(uint32_t)))
522 1.8 rumble return 0;
523 1.8 rumble
524 1.1 lonewolf /* Ugly, this probe is destructive, blame SGI... */
525 1.1 lonewolf /* XXX Should be bus_space_peek/bus_space_poke XXX */
526 1.1 lonewolf bus_space_write_4(ga->ga_iot, ga->ga_ioh,
527 1.1 lonewolf NEWPORT_REX3_OFFSET + REX3_REG_XSTARTI, 0x12345678);
528 1.1 lonewolf if (bus_space_read_4(ga->ga_iot, ga->ga_ioh,
529 1.1 lonewolf NEWPORT_REX3_OFFSET + REX3_REG_XSTART)
530 1.1 lonewolf != ((0x12345678 & 0xffff) << 11))
531 1.1 lonewolf return 0;
532 1.1 lonewolf
533 1.1 lonewolf return 1;
534 1.1 lonewolf }
535 1.1 lonewolf
536 1.1 lonewolf static void
537 1.1 lonewolf newport_attach_common(struct newport_devconfig *dc, struct gio_attach_args *ga)
538 1.1 lonewolf {
539 1.1 lonewolf dc->dc_addr = ga->ga_addr;
540 1.1 lonewolf
541 1.1 lonewolf dc->dc_st = ga->ga_iot;
542 1.1 lonewolf dc->dc_sh = ga->ga_ioh;
543 1.1 lonewolf
544 1.1 lonewolf wsfont_init();
545 1.1 lonewolf
546 1.1 lonewolf dc->dc_font = wsfont_find(NULL, 8, 16, 0, WSDISPLAY_FONTORDER_L2R,
547 1.1 lonewolf WSDISPLAY_FONTORDER_L2R);
548 1.1 lonewolf if (dc->dc_font < 0)
549 1.1 lonewolf panic("newport_attach_common: no suitable fonts");
550 1.1 lonewolf
551 1.1 lonewolf if (wsfont_lock(dc->dc_font, &dc->dc_fontdata))
552 1.1 lonewolf panic("newport_attach_common: unable to lock font data");
553 1.1 lonewolf
554 1.1 lonewolf newport_setup_hw(dc);
555 1.1 lonewolf
556 1.1 lonewolf newport_get_resolution(dc);
557 1.1 lonewolf
558 1.1 lonewolf newport_fill_rectangle(dc, 0, 0, dc->dc_xres, dc->dc_yres, 0);
559 1.10.52.1 skrll if (dc->dc_xres == 1280) {
560 1.10.52.1 skrll dc->dc_screen = &newport_screen_1280x1024;
561 1.10.52.1 skrll } else
562 1.10.52.1 skrll dc->dc_screen = &newport_screen_1024x768;
563 1.10.52.1 skrll
564 1.1 lonewolf }
565 1.1 lonewolf
566 1.1 lonewolf static void
567 1.10.52.1 skrll newport_attach(device_t parent, device_t self, void *aux)
568 1.1 lonewolf {
569 1.1 lonewolf struct gio_attach_args *ga = aux;
570 1.10.52.1 skrll struct newport_softc *sc = device_private(self);
571 1.1 lonewolf struct wsemuldisplaydev_attach_args wa;
572 1.10.52.1 skrll unsigned long defattr;
573 1.1 lonewolf
574 1.10.52.1 skrll sc->sc_dev = self;
575 1.1 lonewolf if (newport_is_console && ga->ga_addr == newport_console_dc.dc_addr) {
576 1.1 lonewolf wa.console = 1;
577 1.1 lonewolf sc->sc_dc = &newport_console_dc;
578 1.1 lonewolf } else {
579 1.1 lonewolf wa.console = 0;
580 1.1 lonewolf sc->sc_dc = malloc(sizeof(struct newport_devconfig),
581 1.1 lonewolf M_DEVBUF, M_WAITOK | M_ZERO);
582 1.1 lonewolf if (sc->sc_dc == NULL)
583 1.1 lonewolf panic("newport_attach: out of memory");
584 1.1 lonewolf
585 1.1 lonewolf newport_attach_common(sc->sc_dc, ga);
586 1.1 lonewolf }
587 1.1 lonewolf
588 1.1 lonewolf aprint_naive(": Display adapter\n");
589 1.1 lonewolf
590 1.5 sekiya aprint_normal(": SGI NG1 (board revision %d, cmap revision %d, xmap revision %d, vc2 revision %d), depth %d\n",
591 1.3 sekiya sc->sc_dc->dc_boardrev, sc->sc_dc->dc_cmaprev,
592 1.5 sekiya sc->sc_dc->dc_xmaprev, sc->sc_dc->dc_vc2rev, sc->sc_dc->dc_depth);
593 1.10.52.1 skrll vcons_init(&sc->sc_dc->dc_vd, sc->sc_dc, sc->sc_dc->dc_screen,
594 1.10.52.1 skrll &newport_accessops);
595 1.10.52.1 skrll sc->sc_dc->dc_vd.init_screen = newport_init_screen;
596 1.10.52.1 skrll if (newport_is_console) {
597 1.10.52.1 skrll newport_console_screen.scr_flags |= VCONS_SCREEN_IS_STATIC;
598 1.10.52.1 skrll vcons_init_screen(&sc->sc_dc->dc_vd, &newport_console_screen,
599 1.10.52.1 skrll 1, &defattr);
600 1.10.52.1 skrll sc->sc_dc->dc_screen->textops =
601 1.10.52.1 skrll &newport_console_screen.scr_ri.ri_ops;
602 1.10.52.1 skrll memcpy(&newport_textops, &newport_console_screen.scr_ri.ri_ops,
603 1.10.52.1 skrll sizeof(struct wsdisplay_emulops));
604 1.10.52.1 skrll }
605 1.1 lonewolf wa.scrdata = &newport_screenlist;
606 1.1 lonewolf wa.accessops = &newport_accessops;
607 1.10.52.1 skrll wa.accesscookie = &sc->sc_dc->dc_vd;
608 1.1 lonewolf
609 1.10.52.1 skrll config_found(sc->sc_dev, &wa, wsemuldisplaydevprint);
610 1.1 lonewolf }
611 1.1 lonewolf
612 1.1 lonewolf int
613 1.1 lonewolf newport_cnattach(struct gio_attach_args *ga)
614 1.1 lonewolf {
615 1.10.52.1 skrll struct rasops_info *ri = &newport_console_screen.scr_ri;
616 1.1 lonewolf long defattr = NEWPORT_ATTR_ENCODE(WSCOL_WHITE, WSCOL_BLACK);
617 1.1 lonewolf const struct wsscreen_descr *screen;
618 1.1 lonewolf
619 1.1 lonewolf if (!newport_match(NULL, NULL, ga)) {
620 1.1 lonewolf return ENXIO;
621 1.1 lonewolf }
622 1.1 lonewolf
623 1.1 lonewolf newport_attach_common(&newport_console_dc, ga);
624 1.1 lonewolf
625 1.1 lonewolf if (newport_console_dc.dc_xres >= 1280 &&
626 1.1 lonewolf newport_console_dc.dc_yres >= 1024)
627 1.1 lonewolf screen = &newport_screen_1280x1024;
628 1.1 lonewolf else
629 1.1 lonewolf screen = &newport_screen_1024x768;
630 1.1 lonewolf
631 1.10.52.1 skrll ri->ri_hw = &newport_console_screen;
632 1.10.52.1 skrll ri->ri_depth = newport_console_dc.dc_depth;
633 1.10.52.1 skrll ri->ri_width = newport_console_dc.dc_xres;
634 1.10.52.1 skrll ri->ri_height = newport_console_dc.dc_yres;
635 1.10.52.1 skrll ri->ri_stride = newport_console_dc.dc_xres; /* XXX */
636 1.10.52.1 skrll ri->ri_flg = RI_CENTER | RI_FULLCLEAR;
637 1.10.52.1 skrll ri->ri_ops.copyrows = newport_copyrows;
638 1.10.52.1 skrll ri->ri_ops.eraserows = newport_eraserows;
639 1.10.52.1 skrll ri->ri_ops.copycols = newport_copycols;
640 1.10.52.1 skrll ri->ri_ops.erasecols = newport_erasecols;
641 1.10.52.1 skrll ri->ri_ops.cursor = newport_cursor_dummy;
642 1.10.52.1 skrll ri->ri_ops.mapchar = newport_mapchar;
643 1.10.52.1 skrll ri->ri_ops.putchar = newport_putchar;
644 1.10.52.1 skrll ri->ri_ops.allocattr = newport_allocattr;
645 1.10.52.1 skrll ri->ri_font = newport_console_dc.dc_fontdata;
646 1.10.52.1 skrll newport_console_screen.scr_cookie = &newport_console_dc;
647 1.10.52.1 skrll
648 1.10.52.1 skrll newport_putchar(ri, 3, 3, 0x41, defattr);
649 1.10.52.1 skrll wsdisplay_cnattach(screen, ri, 0, 0, defattr);
650 1.10.52.1 skrll newport_putchar(ri, 4, 3, 0x42, defattr);
651 1.1 lonewolf
652 1.1 lonewolf newport_is_console = 1;
653 1.1 lonewolf
654 1.1 lonewolf return 0;
655 1.1 lonewolf }
656 1.1 lonewolf
657 1.10.52.1 skrll static void
658 1.10.52.1 skrll newport_init_screen(void *cookie, struct vcons_screen *scr,
659 1.10.52.1 skrll int existing, long *defattr)
660 1.10.52.1 skrll {
661 1.10.52.1 skrll struct newport_devconfig *dc = cookie;
662 1.10.52.1 skrll struct rasops_info *ri = &scr->scr_ri;
663 1.10.52.1 skrll
664 1.10.52.1 skrll ri->ri_depth = dc->dc_depth;
665 1.10.52.1 skrll ri->ri_width = dc->dc_xres;
666 1.10.52.1 skrll ri->ri_height = dc->dc_yres;
667 1.10.52.1 skrll ri->ri_stride = dc->dc_xres; /* XXX */
668 1.10.52.1 skrll ri->ri_flg = RI_CENTER;
669 1.10.52.1 skrll
670 1.10.52.1 skrll /*&ri->ri_bits = (char *)sc->sc_fb.fb_pixels;*/
671 1.10.52.1 skrll
672 1.10.52.1 skrll rasops_init(ri, dc->dc_yres / 8, dc->dc_xres / 8);
673 1.10.52.1 skrll ri->ri_caps = WSSCREEN_WSCOLORS;
674 1.10.52.1 skrll
675 1.10.52.1 skrll rasops_reconfig(ri, dc->dc_yres / ri->ri_font->fontheight,
676 1.10.52.1 skrll dc->dc_xres / ri->ri_font->fontwidth);
677 1.10.52.1 skrll
678 1.10.52.1 skrll ri->ri_hw = scr;
679 1.10.52.1 skrll ri->ri_ops.copyrows = newport_copyrows;
680 1.10.52.1 skrll ri->ri_ops.eraserows = newport_eraserows;
681 1.10.52.1 skrll ri->ri_ops.copycols = newport_copycols;
682 1.10.52.1 skrll ri->ri_ops.erasecols = newport_erasecols;
683 1.10.52.1 skrll ri->ri_ops.cursor = newport_cursor;
684 1.10.52.1 skrll ri->ri_ops.mapchar = newport_mapchar;
685 1.10.52.1 skrll ri->ri_ops.putchar = newport_putchar;
686 1.10.52.1 skrll ri->ri_ops.allocattr = newport_allocattr;
687 1.10.52.1 skrll }
688 1.10.52.1 skrll
689 1.1 lonewolf /**** wsdisplay textops ****/
690 1.1 lonewolf static void
691 1.10.52.1 skrll newport_cursor_dummy(void *c, int on, int row, int col)
692 1.10.52.1 skrll {
693 1.10.52.1 skrll }
694 1.10.52.1 skrll
695 1.10.52.1 skrll static void
696 1.1 lonewolf newport_cursor(void *c, int on, int row, int col)
697 1.1 lonewolf {
698 1.10.52.1 skrll struct rasops_info *ri = c;
699 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
700 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
701 1.10.52.1 skrll int x, y, wi,he;
702 1.10.52.1 skrll
703 1.10.52.1 skrll wi = ri->ri_font->fontwidth;
704 1.10.52.1 skrll he = ri->ri_font->fontheight;
705 1.10.52.1 skrll
706 1.10.52.1 skrll if (ri->ri_flg & RI_CURSOR) {
707 1.10.52.1 skrll x = ri->ri_ccol * wi + ri->ri_xorigin;
708 1.10.52.1 skrll y = ri->ri_crow * he + ri->ri_yorigin;
709 1.10.52.1 skrll newport_bitblt(dc, x, y, x, y, wi, he, 12);
710 1.10.52.1 skrll ri->ri_flg &= ~RI_CURSOR;
711 1.10.52.1 skrll }
712 1.10.52.1 skrll
713 1.10.52.1 skrll ri->ri_crow = row;
714 1.10.52.1 skrll ri->ri_ccol = col;
715 1.10.52.1 skrll
716 1.10.52.1 skrll if (on)
717 1.10.52.1 skrll {
718 1.10.52.1 skrll x = ri->ri_ccol * wi + ri->ri_xorigin;
719 1.10.52.1 skrll y = ri->ri_crow * he + ri->ri_yorigin;
720 1.10.52.1 skrll newport_bitblt(dc, x, y, x, y, wi, he, 12);
721 1.10.52.1 skrll ri->ri_flg |= RI_CURSOR;
722 1.1 lonewolf }
723 1.1 lonewolf }
724 1.1 lonewolf
725 1.1 lonewolf static int
726 1.1 lonewolf newport_mapchar(void *c, int ch, unsigned int *cp)
727 1.1 lonewolf {
728 1.10.52.1 skrll struct rasops_info *ri = c;
729 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
730 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
731 1.1 lonewolf
732 1.1 lonewolf if (dc->dc_fontdata->encoding != WSDISPLAY_FONTENC_ISO) {
733 1.1 lonewolf ch = wsfont_map_unichar(dc->dc_fontdata, ch);
734 1.1 lonewolf
735 1.1 lonewolf if (ch < 0)
736 1.1 lonewolf goto fail;
737 1.1 lonewolf }
738 1.1 lonewolf
739 1.1 lonewolf if (ch < dc->dc_fontdata->firstchar ||
740 1.1 lonewolf ch >= dc->dc_fontdata->firstchar + dc->dc_fontdata->numchars)
741 1.1 lonewolf goto fail;
742 1.1 lonewolf
743 1.1 lonewolf *cp = ch;
744 1.1 lonewolf return 5;
745 1.1 lonewolf
746 1.1 lonewolf fail:
747 1.1 lonewolf *cp = ' ';
748 1.1 lonewolf return 0;
749 1.1 lonewolf }
750 1.1 lonewolf
751 1.1 lonewolf static void
752 1.1 lonewolf newport_putchar(void *c, int row, int col, u_int ch, long attr)
753 1.1 lonewolf {
754 1.10.52.1 skrll struct rasops_info *ri = c;
755 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
756 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
757 1.10.52.1 skrll struct wsdisplay_font *font = ri->ri_font;
758 1.1 lonewolf uint8_t *bitmap = (u_int8_t *)font->data + (ch - font->firstchar) *
759 1.1 lonewolf font->fontheight * font->stride;
760 1.1 lonewolf uint32_t pattern;
761 1.1 lonewolf int i;
762 1.10.52.1 skrll int x = col * font->fontwidth + ri->ri_xorigin;
763 1.10.52.1 skrll int y = row * font->fontheight + ri->ri_yorigin;
764 1.1 lonewolf
765 1.1 lonewolf rex3_wait_gfifo(dc);
766 1.1 lonewolf
767 1.1 lonewolf rex3_write(dc, REX3_REG_DRAWMODE0, REX3_DRAWMODE0_OPCODE_DRAW |
768 1.1 lonewolf REX3_DRAWMODE0_ADRMODE_BLOCK | REX3_DRAWMODE0_STOPONX |
769 1.1 lonewolf REX3_DRAWMODE0_ENZPATTERN | REX3_DRAWMODE0_ZPOPAQUE);
770 1.1 lonewolf
771 1.10.52.1 skrll rex3_write(dc, REX3_REG_DRAWMODE1,
772 1.10.52.1 skrll REX3_DRAWMODE1_PLANES_CI |
773 1.10.52.1 skrll REX3_DRAWMODE1_DD_DD8 |
774 1.10.52.1 skrll REX3_DRAWMODE1_RWPACKED |
775 1.10.52.1 skrll REX3_DRAWMODE1_HD_HD8 |
776 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_LT |
777 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_EQ |
778 1.10.52.1 skrll REX3_DRAWMODE1_COMPARE_GT |
779 1.10.52.1 skrll REX3_DRAWMODE1_LO_SRC);
780 1.10.52.1 skrll
781 1.1 lonewolf rex3_write(dc, REX3_REG_XYSTARTI, (x << REX3_XYSTARTI_XSHIFT) | y);
782 1.1 lonewolf rex3_write(dc, REX3_REG_XYENDI,
783 1.1 lonewolf (x + font->fontwidth - 1) << REX3_XYENDI_XSHIFT);
784 1.1 lonewolf
785 1.1 lonewolf rex3_write(dc, REX3_REG_COLORI, NEWPORT_ATTR_FG(attr));
786 1.1 lonewolf rex3_write(dc, REX3_REG_COLORBACK, NEWPORT_ATTR_BG(attr));
787 1.1 lonewolf
788 1.3 sekiya rex3_write(dc, REX3_REG_WRMASK, 0xffffffff);
789 1.1 lonewolf
790 1.10.52.1 skrll for (i = 0; i < font->fontheight; i++) {
791 1.1 lonewolf /* XXX Works only with font->fontwidth == 8 XXX */
792 1.1 lonewolf pattern = *bitmap << 24;
793 1.1 lonewolf
794 1.1 lonewolf rex3_write_go(dc, REX3_REG_ZPATTERN, pattern);
795 1.1 lonewolf
796 1.1 lonewolf bitmap += font->stride;
797 1.1 lonewolf }
798 1.1 lonewolf }
799 1.1 lonewolf
800 1.1 lonewolf static void
801 1.1 lonewolf newport_copycols(void *c, int row, int srccol, int dstcol, int ncols)
802 1.1 lonewolf {
803 1.10.52.1 skrll struct rasops_info *ri = c;
804 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
805 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
806 1.10.52.1 skrll int32_t xs, xd, y, width, height;
807 1.10.52.1 skrll
808 1.10.52.1 skrll xs = ri->ri_xorigin + ri->ri_font->fontwidth * srccol;
809 1.10.52.1 skrll xd = ri->ri_xorigin + ri->ri_font->fontwidth * dstcol;
810 1.10.52.1 skrll y = ri->ri_yorigin + ri->ri_font->fontheight * row;
811 1.10.52.1 skrll width = ri->ri_font->fontwidth * ncols;
812 1.10.52.1 skrll height = ri->ri_font->fontheight;
813 1.10.52.1 skrll newport_bitblt(dc, xs, y, xd, y, width, height, 3);
814 1.1 lonewolf }
815 1.1 lonewolf
816 1.1 lonewolf static void
817 1.1 lonewolf newport_erasecols(void *c, int row, int startcol, int ncols,
818 1.1 lonewolf long attr)
819 1.1 lonewolf {
820 1.10.52.1 skrll struct rasops_info *ri = c;
821 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
822 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
823 1.1 lonewolf struct wsdisplay_font *font = dc->dc_fontdata;
824 1.1 lonewolf
825 1.1 lonewolf newport_fill_rectangle(dc,
826 1.1 lonewolf startcol * font->fontwidth, /* x1 */
827 1.1 lonewolf row * font->fontheight, /* y1 */
828 1.10.52.1 skrll (startcol + ncols) * font->fontwidth - 1, /* x2 */
829 1.1 lonewolf (row + 1) * font->fontheight - 1, /* y2 */
830 1.1 lonewolf NEWPORT_ATTR_BG(attr));
831 1.1 lonewolf }
832 1.1 lonewolf
833 1.1 lonewolf static void
834 1.1 lonewolf newport_copyrows(void *c, int srcrow, int dstrow, int nrows)
835 1.1 lonewolf {
836 1.10.52.1 skrll struct rasops_info *ri = c;
837 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
838 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
839 1.10.52.1 skrll int32_t x, ys, yd, width, height;
840 1.10.52.1 skrll
841 1.10.52.1 skrll x = ri->ri_xorigin;
842 1.10.52.1 skrll ys = ri->ri_yorigin + ri->ri_font->fontheight * srcrow;
843 1.10.52.1 skrll yd = ri->ri_yorigin + ri->ri_font->fontheight * dstrow;
844 1.10.52.1 skrll width = ri->ri_emuwidth;
845 1.10.52.1 skrll height = ri->ri_font->fontheight * nrows;
846 1.1 lonewolf
847 1.10.52.1 skrll newport_bitblt(dc, x, ys, x, yd, width, height, 3);
848 1.1 lonewolf }
849 1.1 lonewolf
850 1.1 lonewolf static void
851 1.1 lonewolf newport_eraserows(void *c, int startrow, int nrows, long attr)
852 1.1 lonewolf {
853 1.10.52.1 skrll struct rasops_info *ri = c;
854 1.10.52.1 skrll struct vcons_screen *scr = ri->ri_hw;
855 1.10.52.1 skrll struct newport_devconfig *dc = scr->scr_cookie;
856 1.1 lonewolf struct wsdisplay_font *font = dc->dc_fontdata;
857 1.1 lonewolf
858 1.1 lonewolf newport_fill_rectangle(dc,
859 1.1 lonewolf 0, /* x1 */
860 1.1 lonewolf startrow * font->fontheight, /* y1 */
861 1.1 lonewolf dc->dc_xres, /* x2 */
862 1.10.52.1 skrll (startrow + nrows) * font->fontheight - 1, /* y2 */
863 1.1 lonewolf NEWPORT_ATTR_BG(attr));
864 1.1 lonewolf }
865 1.1 lonewolf
866 1.1 lonewolf static int
867 1.1 lonewolf newport_allocattr(void *c, int fg, int bg, int flags, long *attr)
868 1.1 lonewolf {
869 1.1 lonewolf if (flags & WSATTR_BLINK)
870 1.1 lonewolf return EINVAL;
871 1.1 lonewolf
872 1.1 lonewolf if ((flags & WSATTR_WSCOLORS) == 0) {
873 1.1 lonewolf fg = WSCOL_WHITE;
874 1.1 lonewolf bg = WSCOL_BLACK;
875 1.1 lonewolf }
876 1.1 lonewolf
877 1.1 lonewolf if (flags & WSATTR_HILIT)
878 1.1 lonewolf fg += 8;
879 1.1 lonewolf
880 1.1 lonewolf if (flags & WSATTR_REVERSE) {
881 1.1 lonewolf int tmp = fg;
882 1.1 lonewolf fg = bg;
883 1.1 lonewolf bg = tmp;
884 1.1 lonewolf }
885 1.1 lonewolf
886 1.1 lonewolf *attr = NEWPORT_ATTR_ENCODE(fg, bg);
887 1.1 lonewolf
888 1.1 lonewolf return 0;
889 1.1 lonewolf }
890 1.1 lonewolf
891 1.1 lonewolf /**** wsdisplay accessops ****/
892 1.1 lonewolf
893 1.1 lonewolf static int
894 1.10.52.1 skrll newport_ioctl(void *v, void *vs, u_long cmd, void *data, int flag,
895 1.7 jmmv struct lwp *l)
896 1.1 lonewolf {
897 1.10.52.1 skrll struct vcons_data *vd;
898 1.10.52.1 skrll struct newport_devconfig *dc;
899 1.10.52.1 skrll struct vcons_screen *ms;
900 1.10.52.1 skrll #if 0
901 1.10.52.1 skrll struct wsdisplay_fbinfo *wdf;
902 1.10.52.1 skrll int nmode;
903 1.10.52.1 skrll #endif
904 1.10.52.1 skrll vd = (struct vcons_data *)v;
905 1.10.52.1 skrll dc = (struct newport_devconfig *)vd->cookie;
906 1.10.52.1 skrll ms = (struct vcons_screen *)vd->active;
907 1.3 sekiya
908 1.3 sekiya #define FBINFO (*(struct wsdisplay_fbinfo*)data)
909 1.3 sekiya
910 1.3 sekiya switch (cmd) {
911 1.3 sekiya case WSDISPLAYIO_GINFO:
912 1.10.52.1 skrll FBINFO.width = dc->dc_xres;
913 1.10.52.1 skrll FBINFO.height = dc->dc_yres;
914 1.10.52.1 skrll FBINFO.depth = dc->dc_depth;
915 1.3 sekiya FBINFO.cmsize = 1 << FBINFO.depth;
916 1.3 sekiya return 0;
917 1.3 sekiya case WSDISPLAYIO_GTYPE:
918 1.3 sekiya *(u_int *)data = WSDISPLAY_TYPE_NEWPORT;
919 1.3 sekiya return 0;
920 1.3 sekiya }
921 1.1 lonewolf return EPASSTHROUGH;
922 1.1 lonewolf }
923 1.1 lonewolf
924 1.1 lonewolf static paddr_t
925 1.10.52.1 skrll newport_mmap(void *v, void *vs, off_t offset, int prot)
926 1.1 lonewolf {
927 1.10.52.1 skrll struct vcons_data *vd;
928 1.10.52.1 skrll struct newport_devconfig *dc;
929 1.10.52.1 skrll
930 1.10.52.1 skrll vd = (struct vcons_data *)v;
931 1.10.52.1 skrll dc = (struct newport_devconfig *)vd->cookie;
932 1.5 sekiya
933 1.5 sekiya if ( offset >= 0xfffff)
934 1.5 sekiya return -1;
935 1.5 sekiya
936 1.5 sekiya return mips_btop(dc->dc_addr + offset);
937 1.1 lonewolf }
938