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[linux/fpc-iii.git] / drivers / video / riva / riva_hw.c
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1 /***************************************************************************\
2 |* *|
3 |* Copyright 1993-1999 NVIDIA, Corporation. All rights reserved. *|
4 |* *|
5 |* NOTICE TO USER: The source code is copyrighted under U.S. and *|
6 |* international laws. Users and possessors of this source code are *|
7 |* hereby granted a nonexclusive, royalty-free copyright license to *|
8 |* use this code in individual and commercial software. *|
9 |* *|
10 |* Any use of this source code must include, in the user documenta- *|
11 |* tion and internal comments to the code, notices to the end user *|
12 |* as follows: *|
13 |* *|
14 |* Copyright 1993-1999 NVIDIA, Corporation. All rights reserved. *|
15 |* *|
16 |* NVIDIA, CORPORATION MAKES NO REPRESENTATION ABOUT THE SUITABILITY *|
17 |* OF THIS SOURCE CODE FOR ANY PURPOSE. IT IS PROVIDED "AS IS" *|
18 |* WITHOUT EXPRESS OR IMPLIED WARRANTY OF ANY KIND. NVIDIA, CORPOR- *|
19 |* ATION DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOURCE CODE, *|
20 |* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY, NONINFRINGE- *|
21 |* MENT, AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL *|
22 |* NVIDIA, CORPORATION BE LIABLE FOR ANY SPECIAL, INDIRECT, INCI- *|
23 |* DENTAL, OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RE- *|
24 |* SULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION *|
25 |* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF *|
26 |* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOURCE CODE. *|
27 |* *|
28 |* U.S. Government End Users. This source code is a "commercial *|
29 |* item," as that term is defined at 48 C.F.R. 2.101 (OCT 1995), *|
30 |* consisting of "commercial computer software" and "commercial *|
31 |* computer software documentation," as such terms are used in *|
32 |* 48 C.F.R. 12.212 (SEPT 1995) and is provided to the U.S. Govern- *|
33 |* ment only as a commercial end item. Consistent with 48 C.F.R. *|
34 |* 12.212 and 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), *|
35 |* all U.S. Government End Users acquire the source code with only *|
36 |* those rights set forth herein. *|
37 |* *|
38 \***************************************************************************/
41 * GPL licensing note -- nVidia is allowing a liberal interpretation of
42 * the documentation restriction above, to merely say that this nVidia's
43 * copyright and disclaimer should be included with all code derived
44 * from this source. -- Jeff Garzik <jgarzik@pobox.com>, 01/Nov/99
47 /* $XFree86: xc/programs/Xserver/hw/xfree86/drivers/nv/riva_hw.c,v 1.33 2002/08/05 20:47:06 mvojkovi Exp $ */
49 #include <linux/kernel.h>
50 #include <linux/pci.h>
51 #include <linux/pci_ids.h>
52 #include "riva_hw.h"
53 #include "riva_tbl.h"
54 #include "nv_type.h"
57 * This file is an OS-agnostic file used to make RIVA 128 and RIVA TNT
58 * operate identically (except TNT has more memory and better 3D quality.
60 static int nv3Busy
62 RIVA_HW_INST *chip
65 return ((NV_RD32(&chip->Rop->FifoFree, 0) < chip->FifoEmptyCount) ||
66 NV_RD32(&chip->PGRAPH[0x000006B0/4], 0) & 0x01);
68 static int nv4Busy
70 RIVA_HW_INST *chip
73 return ((NV_RD32(&chip->Rop->FifoFree, 0) < chip->FifoEmptyCount) ||
74 NV_RD32(&chip->PGRAPH[0x00000700/4], 0) & 0x01);
76 static int nv10Busy
78 RIVA_HW_INST *chip
81 return ((NV_RD32(&chip->Rop->FifoFree, 0) < chip->FifoEmptyCount) ||
82 NV_RD32(&chip->PGRAPH[0x00000700/4], 0) & 0x01);
85 static void vgaLockUnlock
87 RIVA_HW_INST *chip,
88 int Lock
91 U008 cr11;
92 VGA_WR08(chip->PCIO, 0x3D4, 0x11);
93 cr11 = VGA_RD08(chip->PCIO, 0x3D5);
94 if(Lock) cr11 |= 0x80;
95 else cr11 &= ~0x80;
96 VGA_WR08(chip->PCIO, 0x3D5, cr11);
98 static void nv3LockUnlock
100 RIVA_HW_INST *chip,
101 int Lock
104 VGA_WR08(chip->PVIO, 0x3C4, 0x06);
105 VGA_WR08(chip->PVIO, 0x3C5, Lock ? 0x99 : 0x57);
106 vgaLockUnlock(chip, Lock);
108 static void nv4LockUnlock
110 RIVA_HW_INST *chip,
111 int Lock
114 VGA_WR08(chip->PCIO, 0x3D4, 0x1F);
115 VGA_WR08(chip->PCIO, 0x3D5, Lock ? 0x99 : 0x57);
116 vgaLockUnlock(chip, Lock);
119 static int ShowHideCursor
121 RIVA_HW_INST *chip,
122 int ShowHide
125 int cursor;
126 cursor = chip->CurrentState->cursor1;
127 chip->CurrentState->cursor1 = (chip->CurrentState->cursor1 & 0xFE) |
128 (ShowHide & 0x01);
129 VGA_WR08(chip->PCIO, 0x3D4, 0x31);
130 VGA_WR08(chip->PCIO, 0x3D5, chip->CurrentState->cursor1);
131 return (cursor & 0x01);
134 /****************************************************************************\
136 * The video arbitration routines calculate some "magic" numbers. Fixes *
137 * the snow seen when accessing the framebuffer without it. *
138 * It just works (I hope). *
140 \****************************************************************************/
142 #define DEFAULT_GR_LWM 100
143 #define DEFAULT_VID_LWM 100
144 #define DEFAULT_GR_BURST_SIZE 256
145 #define DEFAULT_VID_BURST_SIZE 128
146 #define VIDEO 0
147 #define GRAPHICS 1
148 #define MPORT 2
149 #define ENGINE 3
150 #define GFIFO_SIZE 320
151 #define GFIFO_SIZE_128 256
152 #define MFIFO_SIZE 120
153 #define VFIFO_SIZE 256
155 typedef struct {
156 int gdrain_rate;
157 int vdrain_rate;
158 int mdrain_rate;
159 int gburst_size;
160 int vburst_size;
161 char vid_en;
162 char gr_en;
163 int wcmocc, wcgocc, wcvocc, wcvlwm, wcglwm;
164 int by_gfacc;
165 char vid_only_once;
166 char gr_only_once;
167 char first_vacc;
168 char first_gacc;
169 char first_macc;
170 int vocc;
171 int gocc;
172 int mocc;
173 char cur;
174 char engine_en;
175 char converged;
176 int priority;
177 } nv3_arb_info;
178 typedef struct {
179 int graphics_lwm;
180 int video_lwm;
181 int graphics_burst_size;
182 int video_burst_size;
183 int graphics_hi_priority;
184 int media_hi_priority;
185 int rtl_values;
186 int valid;
187 } nv3_fifo_info;
188 typedef struct {
189 char pix_bpp;
190 char enable_video;
191 char gr_during_vid;
192 char enable_mp;
193 int memory_width;
194 int video_scale;
195 int pclk_khz;
196 int mclk_khz;
197 int mem_page_miss;
198 int mem_latency;
199 char mem_aligned;
200 } nv3_sim_state;
201 typedef struct {
202 int graphics_lwm;
203 int video_lwm;
204 int graphics_burst_size;
205 int video_burst_size;
206 int valid;
207 } nv4_fifo_info;
208 typedef struct {
209 int pclk_khz;
210 int mclk_khz;
211 int nvclk_khz;
212 char mem_page_miss;
213 char mem_latency;
214 int memory_width;
215 char enable_video;
216 char gr_during_vid;
217 char pix_bpp;
218 char mem_aligned;
219 char enable_mp;
220 } nv4_sim_state;
221 typedef struct {
222 int graphics_lwm;
223 int video_lwm;
224 int graphics_burst_size;
225 int video_burst_size;
226 int valid;
227 } nv10_fifo_info;
228 typedef struct {
229 int pclk_khz;
230 int mclk_khz;
231 int nvclk_khz;
232 char mem_page_miss;
233 char mem_latency;
234 int memory_type;
235 int memory_width;
236 char enable_video;
237 char gr_during_vid;
238 char pix_bpp;
239 char mem_aligned;
240 char enable_mp;
241 } nv10_sim_state;
242 static int nv3_iterate(nv3_fifo_info *res_info, nv3_sim_state * state, nv3_arb_info *ainfo)
244 int iter = 0;
245 int tmp;
246 int vfsize, mfsize, gfsize;
247 int mburst_size = 32;
248 int mmisses, gmisses, vmisses;
249 int misses;
250 int vlwm, glwm, mlwm;
251 int last, next, cur;
252 int max_gfsize ;
253 long ns;
255 vlwm = 0;
256 glwm = 0;
257 mlwm = 0;
258 vfsize = 0;
259 gfsize = 0;
260 cur = ainfo->cur;
261 mmisses = 2;
262 gmisses = 2;
263 vmisses = 2;
264 if (ainfo->gburst_size == 128) max_gfsize = GFIFO_SIZE_128;
265 else max_gfsize = GFIFO_SIZE;
266 max_gfsize = GFIFO_SIZE;
267 while (1)
269 if (ainfo->vid_en)
271 if (ainfo->wcvocc > ainfo->vocc) ainfo->wcvocc = ainfo->vocc;
272 if (ainfo->wcvlwm > vlwm) ainfo->wcvlwm = vlwm ;
273 ns = 1000000 * ainfo->vburst_size/(state->memory_width/8)/state->mclk_khz;
274 vfsize = ns * ainfo->vdrain_rate / 1000000;
275 vfsize = ainfo->wcvlwm - ainfo->vburst_size + vfsize;
277 if (state->enable_mp)
279 if (ainfo->wcmocc > ainfo->mocc) ainfo->wcmocc = ainfo->mocc;
281 if (ainfo->gr_en)
283 if (ainfo->wcglwm > glwm) ainfo->wcglwm = glwm ;
284 if (ainfo->wcgocc > ainfo->gocc) ainfo->wcgocc = ainfo->gocc;
285 ns = 1000000 * (ainfo->gburst_size/(state->memory_width/8))/state->mclk_khz;
286 gfsize = (ns * (long) ainfo->gdrain_rate)/1000000;
287 gfsize = ainfo->wcglwm - ainfo->gburst_size + gfsize;
289 mfsize = 0;
290 if (!state->gr_during_vid && ainfo->vid_en)
291 if (ainfo->vid_en && (ainfo->vocc < 0) && !ainfo->vid_only_once)
292 next = VIDEO;
293 else if (ainfo->mocc < 0)
294 next = MPORT;
295 else if (ainfo->gocc< ainfo->by_gfacc)
296 next = GRAPHICS;
297 else return (0);
298 else switch (ainfo->priority)
300 case VIDEO:
301 if (ainfo->vid_en && ainfo->vocc<0 && !ainfo->vid_only_once)
302 next = VIDEO;
303 else if (ainfo->gr_en && ainfo->gocc<0 && !ainfo->gr_only_once)
304 next = GRAPHICS;
305 else if (ainfo->mocc<0)
306 next = MPORT;
307 else return (0);
308 break;
309 case GRAPHICS:
310 if (ainfo->gr_en && ainfo->gocc<0 && !ainfo->gr_only_once)
311 next = GRAPHICS;
312 else if (ainfo->vid_en && ainfo->vocc<0 && !ainfo->vid_only_once)
313 next = VIDEO;
314 else if (ainfo->mocc<0)
315 next = MPORT;
316 else return (0);
317 break;
318 default:
319 if (ainfo->mocc<0)
320 next = MPORT;
321 else if (ainfo->gr_en && ainfo->gocc<0 && !ainfo->gr_only_once)
322 next = GRAPHICS;
323 else if (ainfo->vid_en && ainfo->vocc<0 && !ainfo->vid_only_once)
324 next = VIDEO;
325 else return (0);
326 break;
328 last = cur;
329 cur = next;
330 iter++;
331 switch (cur)
333 case VIDEO:
334 if (last==cur) misses = 0;
335 else if (ainfo->first_vacc) misses = vmisses;
336 else misses = 1;
337 ainfo->first_vacc = 0;
338 if (last!=cur)
340 ns = 1000000 * (vmisses*state->mem_page_miss + state->mem_latency)/state->mclk_khz;
341 vlwm = ns * ainfo->vdrain_rate/ 1000000;
342 vlwm = ainfo->vocc - vlwm;
344 ns = 1000000*(misses*state->mem_page_miss + ainfo->vburst_size)/(state->memory_width/8)/state->mclk_khz;
345 ainfo->vocc = ainfo->vocc + ainfo->vburst_size - ns*ainfo->vdrain_rate/1000000;
346 ainfo->gocc = ainfo->gocc - ns*ainfo->gdrain_rate/1000000;
347 ainfo->mocc = ainfo->mocc - ns*ainfo->mdrain_rate/1000000;
348 break;
349 case GRAPHICS:
350 if (last==cur) misses = 0;
351 else if (ainfo->first_gacc) misses = gmisses;
352 else misses = 1;
353 ainfo->first_gacc = 0;
354 if (last!=cur)
356 ns = 1000000*(gmisses*state->mem_page_miss + state->mem_latency)/state->mclk_khz ;
357 glwm = ns * ainfo->gdrain_rate/1000000;
358 glwm = ainfo->gocc - glwm;
360 ns = 1000000*(misses*state->mem_page_miss + ainfo->gburst_size/(state->memory_width/8))/state->mclk_khz;
361 ainfo->vocc = ainfo->vocc + 0 - ns*ainfo->vdrain_rate/1000000;
362 ainfo->gocc = ainfo->gocc + ainfo->gburst_size - ns*ainfo->gdrain_rate/1000000;
363 ainfo->mocc = ainfo->mocc + 0 - ns*ainfo->mdrain_rate/1000000;
364 break;
365 default:
366 if (last==cur) misses = 0;
367 else if (ainfo->first_macc) misses = mmisses;
368 else misses = 1;
369 ainfo->first_macc = 0;
370 ns = 1000000*(misses*state->mem_page_miss + mburst_size/(state->memory_width/8))/state->mclk_khz;
371 ainfo->vocc = ainfo->vocc + 0 - ns*ainfo->vdrain_rate/1000000;
372 ainfo->gocc = ainfo->gocc + 0 - ns*ainfo->gdrain_rate/1000000;
373 ainfo->mocc = ainfo->mocc + mburst_size - ns*ainfo->mdrain_rate/1000000;
374 break;
376 if (iter>100)
378 ainfo->converged = 0;
379 return (1);
381 ns = 1000000*ainfo->gburst_size/(state->memory_width/8)/state->mclk_khz;
382 tmp = ns * ainfo->gdrain_rate/1000000;
383 if (abs(ainfo->gburst_size) + ((abs(ainfo->wcglwm) + 16 ) & ~0x7) - tmp > max_gfsize)
385 ainfo->converged = 0;
386 return (1);
388 ns = 1000000*ainfo->vburst_size/(state->memory_width/8)/state->mclk_khz;
389 tmp = ns * ainfo->vdrain_rate/1000000;
390 if (abs(ainfo->vburst_size) + (abs(ainfo->wcvlwm + 32) & ~0xf) - tmp> VFIFO_SIZE)
392 ainfo->converged = 0;
393 return (1);
395 if (abs(ainfo->gocc) > max_gfsize)
397 ainfo->converged = 0;
398 return (1);
400 if (abs(ainfo->vocc) > VFIFO_SIZE)
402 ainfo->converged = 0;
403 return (1);
405 if (abs(ainfo->mocc) > MFIFO_SIZE)
407 ainfo->converged = 0;
408 return (1);
410 if (abs(vfsize) > VFIFO_SIZE)
412 ainfo->converged = 0;
413 return (1);
415 if (abs(gfsize) > max_gfsize)
417 ainfo->converged = 0;
418 return (1);
420 if (abs(mfsize) > MFIFO_SIZE)
422 ainfo->converged = 0;
423 return (1);
427 static char nv3_arb(nv3_fifo_info * res_info, nv3_sim_state * state, nv3_arb_info *ainfo)
429 long ens, vns, mns, gns;
430 int mmisses, gmisses, vmisses, eburst_size, mburst_size;
431 int refresh_cycle;
433 refresh_cycle = 0;
434 refresh_cycle = 2*(state->mclk_khz/state->pclk_khz) + 5;
435 mmisses = 2;
436 if (state->mem_aligned) gmisses = 2;
437 else gmisses = 3;
438 vmisses = 2;
439 eburst_size = state->memory_width * 1;
440 mburst_size = 32;
441 gns = 1000000 * (gmisses*state->mem_page_miss + state->mem_latency)/state->mclk_khz;
442 ainfo->by_gfacc = gns*ainfo->gdrain_rate/1000000;
443 ainfo->wcmocc = 0;
444 ainfo->wcgocc = 0;
445 ainfo->wcvocc = 0;
446 ainfo->wcvlwm = 0;
447 ainfo->wcglwm = 0;
448 ainfo->engine_en = 1;
449 ainfo->converged = 1;
450 if (ainfo->engine_en)
452 ens = 1000000*(state->mem_page_miss + eburst_size/(state->memory_width/8) +refresh_cycle)/state->mclk_khz;
453 ainfo->mocc = state->enable_mp ? 0-ens*ainfo->mdrain_rate/1000000 : 0;
454 ainfo->vocc = ainfo->vid_en ? 0-ens*ainfo->vdrain_rate/1000000 : 0;
455 ainfo->gocc = ainfo->gr_en ? 0-ens*ainfo->gdrain_rate/1000000 : 0;
456 ainfo->cur = ENGINE;
457 ainfo->first_vacc = 1;
458 ainfo->first_gacc = 1;
459 ainfo->first_macc = 1;
460 nv3_iterate(res_info, state,ainfo);
462 if (state->enable_mp)
464 mns = 1000000 * (mmisses*state->mem_page_miss + mburst_size/(state->memory_width/8) + refresh_cycle)/state->mclk_khz;
465 ainfo->mocc = state->enable_mp ? 0 : mburst_size - mns*ainfo->mdrain_rate/1000000;
466 ainfo->vocc = ainfo->vid_en ? 0 : 0- mns*ainfo->vdrain_rate/1000000;
467 ainfo->gocc = ainfo->gr_en ? 0: 0- mns*ainfo->gdrain_rate/1000000;
468 ainfo->cur = MPORT;
469 ainfo->first_vacc = 1;
470 ainfo->first_gacc = 1;
471 ainfo->first_macc = 0;
472 nv3_iterate(res_info, state,ainfo);
474 if (ainfo->gr_en)
476 ainfo->first_vacc = 1;
477 ainfo->first_gacc = 0;
478 ainfo->first_macc = 1;
479 gns = 1000000*(gmisses*state->mem_page_miss + ainfo->gburst_size/(state->memory_width/8) + refresh_cycle)/state->mclk_khz;
480 ainfo->gocc = ainfo->gburst_size - gns*ainfo->gdrain_rate/1000000;
481 ainfo->vocc = ainfo->vid_en? 0-gns*ainfo->vdrain_rate/1000000 : 0;
482 ainfo->mocc = state->enable_mp ? 0-gns*ainfo->mdrain_rate/1000000: 0;
483 ainfo->cur = GRAPHICS;
484 nv3_iterate(res_info, state,ainfo);
486 if (ainfo->vid_en)
488 ainfo->first_vacc = 0;
489 ainfo->first_gacc = 1;
490 ainfo->first_macc = 1;
491 vns = 1000000*(vmisses*state->mem_page_miss + ainfo->vburst_size/(state->memory_width/8) + refresh_cycle)/state->mclk_khz;
492 ainfo->vocc = ainfo->vburst_size - vns*ainfo->vdrain_rate/1000000;
493 ainfo->gocc = ainfo->gr_en? (0-vns*ainfo->gdrain_rate/1000000) : 0;
494 ainfo->mocc = state->enable_mp? 0-vns*ainfo->mdrain_rate/1000000 :0 ;
495 ainfo->cur = VIDEO;
496 nv3_iterate(res_info, state, ainfo);
498 if (ainfo->converged)
500 res_info->graphics_lwm = (int)abs(ainfo->wcglwm) + 16;
501 res_info->video_lwm = (int)abs(ainfo->wcvlwm) + 32;
502 res_info->graphics_burst_size = ainfo->gburst_size;
503 res_info->video_burst_size = ainfo->vburst_size;
504 res_info->graphics_hi_priority = (ainfo->priority == GRAPHICS);
505 res_info->media_hi_priority = (ainfo->priority == MPORT);
506 if (res_info->video_lwm > 160)
508 res_info->graphics_lwm = 256;
509 res_info->video_lwm = 128;
510 res_info->graphics_burst_size = 64;
511 res_info->video_burst_size = 64;
512 res_info->graphics_hi_priority = 0;
513 res_info->media_hi_priority = 0;
514 ainfo->converged = 0;
515 return (0);
517 if (res_info->video_lwm > 128)
519 res_info->video_lwm = 128;
521 return (1);
523 else
525 res_info->graphics_lwm = 256;
526 res_info->video_lwm = 128;
527 res_info->graphics_burst_size = 64;
528 res_info->video_burst_size = 64;
529 res_info->graphics_hi_priority = 0;
530 res_info->media_hi_priority = 0;
531 return (0);
534 static char nv3_get_param(nv3_fifo_info *res_info, nv3_sim_state * state, nv3_arb_info *ainfo)
536 int done, g,v, p;
538 done = 0;
539 for (p=0; p < 2; p++)
541 for (g=128 ; g > 32; g= g>> 1)
543 for (v=128; v >=32; v = v>> 1)
545 ainfo->priority = p;
546 ainfo->gburst_size = g;
547 ainfo->vburst_size = v;
548 done = nv3_arb(res_info, state,ainfo);
549 if (done && (g==128))
550 if ((res_info->graphics_lwm + g) > 256)
551 done = 0;
552 if (done)
553 goto Done;
558 Done:
559 return done;
561 static void nv3CalcArbitration
563 nv3_fifo_info * res_info,
564 nv3_sim_state * state
567 nv3_fifo_info save_info;
568 nv3_arb_info ainfo;
569 char res_gr, res_vid;
571 ainfo.gr_en = 1;
572 ainfo.vid_en = state->enable_video;
573 ainfo.vid_only_once = 0;
574 ainfo.gr_only_once = 0;
575 ainfo.gdrain_rate = (int) state->pclk_khz * (state->pix_bpp/8);
576 ainfo.vdrain_rate = (int) state->pclk_khz * 2;
577 if (state->video_scale != 0)
578 ainfo.vdrain_rate = ainfo.vdrain_rate/state->video_scale;
579 ainfo.mdrain_rate = 33000;
580 res_info->rtl_values = 0;
581 if (!state->gr_during_vid && state->enable_video)
583 ainfo.gr_only_once = 1;
584 ainfo.gr_en = 1;
585 ainfo.gdrain_rate = 0;
586 res_vid = nv3_get_param(res_info, state, &ainfo);
587 res_vid = ainfo.converged;
588 save_info.video_lwm = res_info->video_lwm;
589 save_info.video_burst_size = res_info->video_burst_size;
590 ainfo.vid_en = 1;
591 ainfo.vid_only_once = 1;
592 ainfo.gr_en = 1;
593 ainfo.gdrain_rate = (int) state->pclk_khz * (state->pix_bpp/8);
594 ainfo.vdrain_rate = 0;
595 res_gr = nv3_get_param(res_info, state, &ainfo);
596 res_gr = ainfo.converged;
597 res_info->video_lwm = save_info.video_lwm;
598 res_info->video_burst_size = save_info.video_burst_size;
599 res_info->valid = res_gr & res_vid;
601 else
603 if (!ainfo.gr_en) ainfo.gdrain_rate = 0;
604 if (!ainfo.vid_en) ainfo.vdrain_rate = 0;
605 res_gr = nv3_get_param(res_info, state, &ainfo);
606 res_info->valid = ainfo.converged;
609 static void nv3UpdateArbitrationSettings
611 unsigned VClk,
612 unsigned pixelDepth,
613 unsigned *burst,
614 unsigned *lwm,
615 RIVA_HW_INST *chip
618 nv3_fifo_info fifo_data;
619 nv3_sim_state sim_data;
620 unsigned int M, N, P, pll, MClk;
622 pll = NV_RD32(&chip->PRAMDAC0[0x00000504/4], 0);
623 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
624 MClk = (N * chip->CrystalFreqKHz / M) >> P;
625 sim_data.pix_bpp = (char)pixelDepth;
626 sim_data.enable_video = 0;
627 sim_data.enable_mp = 0;
628 sim_data.video_scale = 1;
629 sim_data.memory_width = (NV_RD32(&chip->PEXTDEV[0x00000000/4], 0) & 0x10) ?
630 128 : 64;
631 sim_data.memory_width = 128;
633 sim_data.mem_latency = 9;
634 sim_data.mem_aligned = 1;
635 sim_data.mem_page_miss = 11;
636 sim_data.gr_during_vid = 0;
637 sim_data.pclk_khz = VClk;
638 sim_data.mclk_khz = MClk;
639 nv3CalcArbitration(&fifo_data, &sim_data);
640 if (fifo_data.valid)
642 int b = fifo_data.graphics_burst_size >> 4;
643 *burst = 0;
644 while (b >>= 1)
645 (*burst)++;
646 *lwm = fifo_data.graphics_lwm >> 3;
648 else
650 *lwm = 0x24;
651 *burst = 0x2;
654 static void nv4CalcArbitration
656 nv4_fifo_info *fifo,
657 nv4_sim_state *arb
660 int data, pagemiss, cas,width, video_enable, color_key_enable, bpp, align;
661 int nvclks, mclks, pclks, vpagemiss, crtpagemiss, vbs;
662 int found, mclk_extra, mclk_loop, cbs, m1, p1;
663 int mclk_freq, pclk_freq, nvclk_freq, mp_enable;
664 int us_m, us_n, us_p, video_drain_rate, crtc_drain_rate;
665 int vpm_us, us_video, vlwm, video_fill_us, cpm_us, us_crt,clwm;
666 int craw, vraw;
668 fifo->valid = 1;
669 pclk_freq = arb->pclk_khz;
670 mclk_freq = arb->mclk_khz;
671 nvclk_freq = arb->nvclk_khz;
672 pagemiss = arb->mem_page_miss;
673 cas = arb->mem_latency;
674 width = arb->memory_width >> 6;
675 video_enable = arb->enable_video;
676 color_key_enable = arb->gr_during_vid;
677 bpp = arb->pix_bpp;
678 align = arb->mem_aligned;
679 mp_enable = arb->enable_mp;
680 clwm = 0;
681 vlwm = 0;
682 cbs = 128;
683 pclks = 2;
684 nvclks = 2;
685 nvclks += 2;
686 nvclks += 1;
687 mclks = 5;
688 mclks += 3;
689 mclks += 1;
690 mclks += cas;
691 mclks += 1;
692 mclks += 1;
693 mclks += 1;
694 mclks += 1;
695 mclk_extra = 3;
696 nvclks += 2;
697 nvclks += 1;
698 nvclks += 1;
699 nvclks += 1;
700 if (mp_enable)
701 mclks+=4;
702 nvclks += 0;
703 pclks += 0;
704 found = 0;
705 vbs = 0;
706 while (found != 1)
708 fifo->valid = 1;
709 found = 1;
710 mclk_loop = mclks+mclk_extra;
711 us_m = mclk_loop *1000*1000 / mclk_freq;
712 us_n = nvclks*1000*1000 / nvclk_freq;
713 us_p = nvclks*1000*1000 / pclk_freq;
714 if (video_enable)
716 video_drain_rate = pclk_freq * 2;
717 crtc_drain_rate = pclk_freq * bpp/8;
718 vpagemiss = 2;
719 vpagemiss += 1;
720 crtpagemiss = 2;
721 vpm_us = (vpagemiss * pagemiss)*1000*1000/mclk_freq;
722 if (nvclk_freq * 2 > mclk_freq * width)
723 video_fill_us = cbs*1000*1000 / 16 / nvclk_freq ;
724 else
725 video_fill_us = cbs*1000*1000 / (8 * width) / mclk_freq;
726 us_video = vpm_us + us_m + us_n + us_p + video_fill_us;
727 vlwm = us_video * video_drain_rate/(1000*1000);
728 vlwm++;
729 vbs = 128;
730 if (vlwm > 128) vbs = 64;
731 if (vlwm > (256-64)) vbs = 32;
732 if (nvclk_freq * 2 > mclk_freq * width)
733 video_fill_us = vbs *1000*1000/ 16 / nvclk_freq ;
734 else
735 video_fill_us = vbs*1000*1000 / (8 * width) / mclk_freq;
736 cpm_us = crtpagemiss * pagemiss *1000*1000/ mclk_freq;
737 us_crt =
738 us_video
739 +video_fill_us
740 +cpm_us
741 +us_m + us_n +us_p
743 clwm = us_crt * crtc_drain_rate/(1000*1000);
744 clwm++;
746 else
748 crtc_drain_rate = pclk_freq * bpp/8;
749 crtpagemiss = 2;
750 crtpagemiss += 1;
751 cpm_us = crtpagemiss * pagemiss *1000*1000/ mclk_freq;
752 us_crt = cpm_us + us_m + us_n + us_p ;
753 clwm = us_crt * crtc_drain_rate/(1000*1000);
754 clwm++;
756 m1 = clwm + cbs - 512;
757 p1 = m1 * pclk_freq / mclk_freq;
758 p1 = p1 * bpp / 8;
759 if ((p1 < m1) && (m1 > 0))
761 fifo->valid = 0;
762 found = 0;
763 if (mclk_extra ==0) found = 1;
764 mclk_extra--;
766 else if (video_enable)
768 if ((clwm > 511) || (vlwm > 255))
770 fifo->valid = 0;
771 found = 0;
772 if (mclk_extra ==0) found = 1;
773 mclk_extra--;
776 else
778 if (clwm > 519)
780 fifo->valid = 0;
781 found = 0;
782 if (mclk_extra ==0) found = 1;
783 mclk_extra--;
786 craw = clwm;
787 vraw = vlwm;
788 if (clwm < 384) clwm = 384;
789 if (vlwm < 128) vlwm = 128;
790 data = (int)(clwm);
791 fifo->graphics_lwm = data;
792 fifo->graphics_burst_size = 128;
793 data = (int)((vlwm+15));
794 fifo->video_lwm = data;
795 fifo->video_burst_size = vbs;
798 static void nv4UpdateArbitrationSettings
800 unsigned VClk,
801 unsigned pixelDepth,
802 unsigned *burst,
803 unsigned *lwm,
804 RIVA_HW_INST *chip
807 nv4_fifo_info fifo_data;
808 nv4_sim_state sim_data;
809 unsigned int M, N, P, pll, MClk, NVClk, cfg1;
811 pll = NV_RD32(&chip->PRAMDAC0[0x00000504/4], 0);
812 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
813 MClk = (N * chip->CrystalFreqKHz / M) >> P;
814 pll = NV_RD32(&chip->PRAMDAC0[0x00000500/4], 0);
815 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
816 NVClk = (N * chip->CrystalFreqKHz / M) >> P;
817 cfg1 = NV_RD32(&chip->PFB[0x00000204/4], 0);
818 sim_data.pix_bpp = (char)pixelDepth;
819 sim_data.enable_video = 0;
820 sim_data.enable_mp = 0;
821 sim_data.memory_width = (NV_RD32(&chip->PEXTDEV[0x00000000/4], 0) & 0x10) ?
822 128 : 64;
823 sim_data.mem_latency = (char)cfg1 & 0x0F;
824 sim_data.mem_aligned = 1;
825 sim_data.mem_page_miss = (char)(((cfg1 >> 4) &0x0F) + ((cfg1 >> 31) & 0x01));
826 sim_data.gr_during_vid = 0;
827 sim_data.pclk_khz = VClk;
828 sim_data.mclk_khz = MClk;
829 sim_data.nvclk_khz = NVClk;
830 nv4CalcArbitration(&fifo_data, &sim_data);
831 if (fifo_data.valid)
833 int b = fifo_data.graphics_burst_size >> 4;
834 *burst = 0;
835 while (b >>= 1)
836 (*burst)++;
837 *lwm = fifo_data.graphics_lwm >> 3;
840 static void nv10CalcArbitration
842 nv10_fifo_info *fifo,
843 nv10_sim_state *arb
846 int data, pagemiss, cas,width, video_enable, color_key_enable, bpp, align;
847 int nvclks, mclks, pclks, vpagemiss, crtpagemiss, vbs;
848 int nvclk_fill, us_extra;
849 int found, mclk_extra, mclk_loop, cbs, m1;
850 int mclk_freq, pclk_freq, nvclk_freq, mp_enable;
851 int us_m, us_m_min, us_n, us_p, video_drain_rate, crtc_drain_rate;
852 int vus_m, vus_n, vus_p;
853 int vpm_us, us_video, vlwm, cpm_us, us_crt,clwm;
854 int clwm_rnd_down;
855 int craw, m2us, us_pipe, us_pipe_min, vus_pipe, p1clk, p2;
856 int pclks_2_top_fifo, min_mclk_extra;
857 int us_min_mclk_extra;
859 fifo->valid = 1;
860 pclk_freq = arb->pclk_khz; /* freq in KHz */
861 mclk_freq = arb->mclk_khz;
862 nvclk_freq = arb->nvclk_khz;
863 pagemiss = arb->mem_page_miss;
864 cas = arb->mem_latency;
865 width = arb->memory_width/64;
866 video_enable = arb->enable_video;
867 color_key_enable = arb->gr_during_vid;
868 bpp = arb->pix_bpp;
869 align = arb->mem_aligned;
870 mp_enable = arb->enable_mp;
871 clwm = 0;
872 vlwm = 1024;
874 cbs = 512;
875 vbs = 512;
877 pclks = 4; /* lwm detect. */
879 nvclks = 3; /* lwm -> sync. */
880 nvclks += 2; /* fbi bus cycles (1 req + 1 busy) */
882 mclks = 1; /* 2 edge sync. may be very close to edge so just put one. */
884 mclks += 1; /* arb_hp_req */
885 mclks += 5; /* ap_hp_req tiling pipeline */
887 mclks += 2; /* tc_req latency fifo */
888 mclks += 2; /* fb_cas_n_ memory request to fbio block */
889 mclks += 7; /* sm_d_rdv data returned from fbio block */
891 /* fb.rd.d.Put_gc need to accumulate 256 bits for read */
892 if (arb->memory_type == 0)
893 if (arb->memory_width == 64) /* 64 bit bus */
894 mclks += 4;
895 else
896 mclks += 2;
897 else
898 if (arb->memory_width == 64) /* 64 bit bus */
899 mclks += 2;
900 else
901 mclks += 1;
903 if ((!video_enable) && (arb->memory_width == 128))
905 mclk_extra = (bpp == 32) ? 31 : 42; /* Margin of error */
906 min_mclk_extra = 17;
908 else
910 mclk_extra = (bpp == 32) ? 8 : 4; /* Margin of error */
911 /* mclk_extra = 4; */ /* Margin of error */
912 min_mclk_extra = 18;
915 nvclks += 1; /* 2 edge sync. may be very close to edge so just put one. */
916 nvclks += 1; /* fbi_d_rdv_n */
917 nvclks += 1; /* Fbi_d_rdata */
918 nvclks += 1; /* crtfifo load */
920 if(mp_enable)
921 mclks+=4; /* Mp can get in with a burst of 8. */
922 /* Extra clocks determined by heuristics */
924 nvclks += 0;
925 pclks += 0;
926 found = 0;
927 while(found != 1) {
928 fifo->valid = 1;
929 found = 1;
930 mclk_loop = mclks+mclk_extra;
931 us_m = mclk_loop *1000*1000 / mclk_freq; /* Mclk latency in us */
932 us_m_min = mclks * 1000*1000 / mclk_freq; /* Minimum Mclk latency in us */
933 us_min_mclk_extra = min_mclk_extra *1000*1000 / mclk_freq;
934 us_n = nvclks*1000*1000 / nvclk_freq;/* nvclk latency in us */
935 us_p = pclks*1000*1000 / pclk_freq;/* nvclk latency in us */
936 us_pipe = us_m + us_n + us_p;
937 us_pipe_min = us_m_min + us_n + us_p;
938 us_extra = 0;
940 vus_m = mclk_loop *1000*1000 / mclk_freq; /* Mclk latency in us */
941 vus_n = (4)*1000*1000 / nvclk_freq;/* nvclk latency in us */
942 vus_p = 0*1000*1000 / pclk_freq;/* pclk latency in us */
943 vus_pipe = vus_m + vus_n + vus_p;
945 if(video_enable) {
946 video_drain_rate = pclk_freq * 4; /* MB/s */
947 crtc_drain_rate = pclk_freq * bpp/8; /* MB/s */
949 vpagemiss = 1; /* self generating page miss */
950 vpagemiss += 1; /* One higher priority before */
952 crtpagemiss = 2; /* self generating page miss */
953 if(mp_enable)
954 crtpagemiss += 1; /* if MA0 conflict */
956 vpm_us = (vpagemiss * pagemiss)*1000*1000/mclk_freq;
958 us_video = vpm_us + vus_m; /* Video has separate read return path */
960 cpm_us = crtpagemiss * pagemiss *1000*1000/ mclk_freq;
961 us_crt =
962 us_video /* Wait for video */
963 +cpm_us /* CRT Page miss */
964 +us_m + us_n +us_p /* other latency */
967 clwm = us_crt * crtc_drain_rate/(1000*1000);
968 clwm++; /* fixed point <= float_point - 1. Fixes that */
969 } else {
970 crtc_drain_rate = pclk_freq * bpp/8; /* bpp * pclk/8 */
972 crtpagemiss = 1; /* self generating page miss */
973 crtpagemiss += 1; /* MA0 page miss */
974 if(mp_enable)
975 crtpagemiss += 1; /* if MA0 conflict */
976 cpm_us = crtpagemiss * pagemiss *1000*1000/ mclk_freq;
977 us_crt = cpm_us + us_m + us_n + us_p ;
978 clwm = us_crt * crtc_drain_rate/(1000*1000);
979 clwm++; /* fixed point <= float_point - 1. Fixes that */
983 // Another concern, only for high pclks so don't do this
984 // with video:
985 // What happens if the latency to fetch the cbs is so large that
986 // fifo empties. In that case we need to have an alternate clwm value
987 // based off the total burst fetch
989 us_crt = (cbs * 1000 * 1000)/ (8*width)/mclk_freq ;
990 us_crt = us_crt + us_m + us_n + us_p + (4 * 1000 * 1000)/mclk_freq;
991 clwm_mt = us_crt * crtc_drain_rate/(1000*1000);
992 clwm_mt ++;
993 if(clwm_mt > clwm)
994 clwm = clwm_mt;
996 /* Finally, a heuristic check when width == 64 bits */
997 if(width == 1){
998 nvclk_fill = nvclk_freq * 8;
999 if(crtc_drain_rate * 100 >= nvclk_fill * 102)
1000 clwm = 0xfff; /*Large number to fail */
1002 else if(crtc_drain_rate * 100 >= nvclk_fill * 98) {
1003 clwm = 1024;
1004 cbs = 512;
1005 us_extra = (cbs * 1000 * 1000)/ (8*width)/mclk_freq ;
1012 Overfill check:
1016 clwm_rnd_down = ((int)clwm/8)*8;
1017 if (clwm_rnd_down < clwm)
1018 clwm += 8;
1020 m1 = clwm + cbs - 1024; /* Amount of overfill */
1021 m2us = us_pipe_min + us_min_mclk_extra;
1022 pclks_2_top_fifo = (1024-clwm)/(8*width);
1024 /* pclk cycles to drain */
1025 p1clk = m2us * pclk_freq/(1000*1000);
1026 p2 = p1clk * bpp / 8; /* bytes drained. */
1028 if((p2 < m1) && (m1 > 0)) {
1029 fifo->valid = 0;
1030 found = 0;
1031 if(min_mclk_extra == 0) {
1032 if(cbs <= 32) {
1033 found = 1; /* Can't adjust anymore! */
1034 } else {
1035 cbs = cbs/2; /* reduce the burst size */
1037 } else {
1038 min_mclk_extra--;
1040 } else {
1041 if (clwm > 1023){ /* Have some margin */
1042 fifo->valid = 0;
1043 found = 0;
1044 if(min_mclk_extra == 0)
1045 found = 1; /* Can't adjust anymore! */
1046 else
1047 min_mclk_extra--;
1050 craw = clwm;
1052 if(clwm < (1024-cbs+8)) clwm = 1024-cbs+8;
1053 data = (int)(clwm);
1054 /* printf("CRT LWM: %f bytes, prog: 0x%x, bs: 256\n", clwm, data ); */
1055 fifo->graphics_lwm = data; fifo->graphics_burst_size = cbs;
1057 /* printf("VID LWM: %f bytes, prog: 0x%x, bs: %d\n, ", vlwm, data, vbs ); */
1058 fifo->video_lwm = 1024; fifo->video_burst_size = 512;
1061 static void nv10UpdateArbitrationSettings
1063 unsigned VClk,
1064 unsigned pixelDepth,
1065 unsigned *burst,
1066 unsigned *lwm,
1067 RIVA_HW_INST *chip
1070 nv10_fifo_info fifo_data;
1071 nv10_sim_state sim_data;
1072 unsigned int M, N, P, pll, MClk, NVClk, cfg1;
1074 pll = NV_RD32(&chip->PRAMDAC0[0x00000504/4], 0);
1075 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
1076 MClk = (N * chip->CrystalFreqKHz / M) >> P;
1077 pll = NV_RD32(&chip->PRAMDAC0[0x00000500/4], 0);
1078 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
1079 NVClk = (N * chip->CrystalFreqKHz / M) >> P;
1080 cfg1 = NV_RD32(&chip->PFB[0x00000204/4], 0);
1081 sim_data.pix_bpp = (char)pixelDepth;
1082 sim_data.enable_video = 0;
1083 sim_data.enable_mp = 0;
1084 sim_data.memory_type = (NV_RD32(&chip->PFB[0x00000200/4], 0) & 0x01) ?
1085 1 : 0;
1086 sim_data.memory_width = (NV_RD32(&chip->PEXTDEV[0x00000000/4], 0) & 0x10) ?
1087 128 : 64;
1088 sim_data.mem_latency = (char)cfg1 & 0x0F;
1089 sim_data.mem_aligned = 1;
1090 sim_data.mem_page_miss = (char)(((cfg1 >> 4) &0x0F) + ((cfg1 >> 31) & 0x01));
1091 sim_data.gr_during_vid = 0;
1092 sim_data.pclk_khz = VClk;
1093 sim_data.mclk_khz = MClk;
1094 sim_data.nvclk_khz = NVClk;
1095 nv10CalcArbitration(&fifo_data, &sim_data);
1096 if (fifo_data.valid)
1098 int b = fifo_data.graphics_burst_size >> 4;
1099 *burst = 0;
1100 while (b >>= 1)
1101 (*burst)++;
1102 *lwm = fifo_data.graphics_lwm >> 3;
1106 static void nForceUpdateArbitrationSettings
1108 unsigned VClk,
1109 unsigned pixelDepth,
1110 unsigned *burst,
1111 unsigned *lwm,
1112 RIVA_HW_INST *chip
1115 nv10_fifo_info fifo_data;
1116 nv10_sim_state sim_data;
1117 unsigned int M, N, P, pll, MClk, NVClk;
1118 unsigned int uMClkPostDiv;
1119 struct pci_dev *dev;
1121 dev = pci_find_slot(0, 3);
1122 pci_read_config_dword(dev, 0x6C, &uMClkPostDiv);
1123 uMClkPostDiv = (uMClkPostDiv >> 8) & 0xf;
1125 if(!uMClkPostDiv) uMClkPostDiv = 4;
1126 MClk = 400000 / uMClkPostDiv;
1128 pll = NV_RD32(&chip->PRAMDAC0[0x00000500/4], 0);
1129 M = (pll >> 0) & 0xFF; N = (pll >> 8) & 0xFF; P = (pll >> 16) & 0x0F;
1130 NVClk = (N * chip->CrystalFreqKHz / M) >> P;
1131 sim_data.pix_bpp = (char)pixelDepth;
1132 sim_data.enable_video = 0;
1133 sim_data.enable_mp = 0;
1135 dev = pci_find_slot(0, 1);
1136 pci_read_config_dword(dev, 0x7C, &sim_data.memory_type);
1137 sim_data.memory_type = (sim_data.memory_type >> 12) & 1;
1139 sim_data.memory_width = 64;
1140 sim_data.mem_latency = 3;
1141 sim_data.mem_aligned = 1;
1142 sim_data.mem_page_miss = 10;
1143 sim_data.gr_during_vid = 0;
1144 sim_data.pclk_khz = VClk;
1145 sim_data.mclk_khz = MClk;
1146 sim_data.nvclk_khz = NVClk;
1147 nv10CalcArbitration(&fifo_data, &sim_data);
1148 if (fifo_data.valid)
1150 int b = fifo_data.graphics_burst_size >> 4;
1151 *burst = 0;
1152 while (b >>= 1)
1153 (*burst)++;
1154 *lwm = fifo_data.graphics_lwm >> 3;
1158 /****************************************************************************\
1160 * RIVA Mode State Routines *
1162 \****************************************************************************/
1165 * Calculate the Video Clock parameters for the PLL.
1167 static int CalcVClock
1169 int clockIn,
1170 int *clockOut,
1171 int *mOut,
1172 int *nOut,
1173 int *pOut,
1174 RIVA_HW_INST *chip
1177 unsigned lowM, highM, highP;
1178 unsigned DeltaNew, DeltaOld;
1179 unsigned VClk, Freq;
1180 unsigned M, N, P;
1182 DeltaOld = 0xFFFFFFFF;
1184 VClk = (unsigned)clockIn;
1186 if (chip->CrystalFreqKHz == 13500)
1188 lowM = 7;
1189 highM = 13 - (chip->Architecture == NV_ARCH_03);
1191 else
1193 lowM = 8;
1194 highM = 14 - (chip->Architecture == NV_ARCH_03);
1197 highP = 4 - (chip->Architecture == NV_ARCH_03);
1198 for (P = 0; P <= highP; P ++)
1200 Freq = VClk << P;
1201 if ((Freq >= 128000) && (Freq <= chip->MaxVClockFreqKHz))
1203 for (M = lowM; M <= highM; M++)
1205 N = (VClk << P) * M / chip->CrystalFreqKHz;
1206 if(N <= 255) {
1207 Freq = (chip->CrystalFreqKHz * N / M) >> P;
1208 if (Freq > VClk)
1209 DeltaNew = Freq - VClk;
1210 else
1211 DeltaNew = VClk - Freq;
1212 if (DeltaNew < DeltaOld)
1214 *mOut = M;
1215 *nOut = N;
1216 *pOut = P;
1217 *clockOut = Freq;
1218 DeltaOld = DeltaNew;
1224 return (DeltaOld != 0xFFFFFFFF);
1227 * Calculate extended mode parameters (SVGA) and save in a
1228 * mode state structure.
1230 static void CalcStateExt
1232 RIVA_HW_INST *chip,
1233 RIVA_HW_STATE *state,
1234 int bpp,
1235 int width,
1236 int hDisplaySize,
1237 int height,
1238 int dotClock
1241 int pixelDepth, VClk, m, n, p;
1243 * Save mode parameters.
1245 state->bpp = bpp; /* this is not bitsPerPixel, it's 8,15,16,32 */
1246 state->width = width;
1247 state->height = height;
1249 * Extended RIVA registers.
1251 pixelDepth = (bpp + 1)/8;
1252 CalcVClock(dotClock, &VClk, &m, &n, &p, chip);
1254 switch (chip->Architecture)
1256 case NV_ARCH_03:
1257 nv3UpdateArbitrationSettings(VClk,
1258 pixelDepth * 8,
1259 &(state->arbitration0),
1260 &(state->arbitration1),
1261 chip);
1262 state->cursor0 = 0x00;
1263 state->cursor1 = 0x78;
1264 state->cursor2 = 0x00000000;
1265 state->pllsel = 0x10010100;
1266 state->config = ((width + 31)/32)
1267 | (((pixelDepth > 2) ? 3 : pixelDepth) << 8)
1268 | 0x1000;
1269 state->general = 0x00100100;
1270 state->repaint1 = hDisplaySize < 1280 ? 0x06 : 0x02;
1271 break;
1272 case NV_ARCH_04:
1273 nv4UpdateArbitrationSettings(VClk,
1274 pixelDepth * 8,
1275 &(state->arbitration0),
1276 &(state->arbitration1),
1277 chip);
1278 state->cursor0 = 0x00;
1279 state->cursor1 = 0xFC;
1280 state->cursor2 = 0x00000000;
1281 state->pllsel = 0x10000700;
1282 state->config = 0x00001114;
1283 state->general = bpp == 16 ? 0x00101100 : 0x00100100;
1284 state->repaint1 = hDisplaySize < 1280 ? 0x04 : 0x00;
1285 break;
1286 case NV_ARCH_10:
1287 case NV_ARCH_20:
1288 case NV_ARCH_30:
1289 if((chip->Chipset == NV_CHIP_IGEFORCE2) ||
1290 (chip->Chipset == NV_CHIP_0x01F0))
1292 nForceUpdateArbitrationSettings(VClk,
1293 pixelDepth * 8,
1294 &(state->arbitration0),
1295 &(state->arbitration1),
1296 chip);
1297 } else {
1298 nv10UpdateArbitrationSettings(VClk,
1299 pixelDepth * 8,
1300 &(state->arbitration0),
1301 &(state->arbitration1),
1302 chip);
1304 state->cursor0 = 0x80 | (chip->CursorStart >> 17);
1305 state->cursor1 = (chip->CursorStart >> 11) << 2;
1306 state->cursor2 = chip->CursorStart >> 24;
1307 state->pllsel = 0x10000700;
1308 state->config = NV_RD32(&chip->PFB[0x00000200/4], 0);
1309 state->general = bpp == 16 ? 0x00101100 : 0x00100100;
1310 state->repaint1 = hDisplaySize < 1280 ? 0x04 : 0x00;
1311 break;
1314 /* Paul Richards: below if block borks things in kernel for some reason */
1315 /* Tony: Below is needed to set hardware in DirectColor */
1316 if((bpp != 8) && (chip->Architecture != NV_ARCH_03))
1317 state->general |= 0x00000030;
1319 state->vpll = (p << 16) | (n << 8) | m;
1320 state->repaint0 = (((width/8)*pixelDepth) & 0x700) >> 3;
1321 state->pixel = pixelDepth > 2 ? 3 : pixelDepth;
1322 state->offset0 =
1323 state->offset1 =
1324 state->offset2 =
1325 state->offset3 = 0;
1326 state->pitch0 =
1327 state->pitch1 =
1328 state->pitch2 =
1329 state->pitch3 = pixelDepth * width;
1332 * Load fixed function state and pre-calculated/stored state.
1334 #if 0
1335 #define LOAD_FIXED_STATE(tbl,dev) \
1336 for (i = 0; i < sizeof(tbl##Table##dev)/8; i++) \
1337 chip->dev[tbl##Table##dev[i][0]] = tbl##Table##dev[i][1]
1338 #define LOAD_FIXED_STATE_8BPP(tbl,dev) \
1339 for (i = 0; i < sizeof(tbl##Table##dev##_8BPP)/8; i++) \
1340 chip->dev[tbl##Table##dev##_8BPP[i][0]] = tbl##Table##dev##_8BPP[i][1]
1341 #define LOAD_FIXED_STATE_15BPP(tbl,dev) \
1342 for (i = 0; i < sizeof(tbl##Table##dev##_15BPP)/8; i++) \
1343 chip->dev[tbl##Table##dev##_15BPP[i][0]] = tbl##Table##dev##_15BPP[i][1]
1344 #define LOAD_FIXED_STATE_16BPP(tbl,dev) \
1345 for (i = 0; i < sizeof(tbl##Table##dev##_16BPP)/8; i++) \
1346 chip->dev[tbl##Table##dev##_16BPP[i][0]] = tbl##Table##dev##_16BPP[i][1]
1347 #define LOAD_FIXED_STATE_32BPP(tbl,dev) \
1348 for (i = 0; i < sizeof(tbl##Table##dev##_32BPP)/8; i++) \
1349 chip->dev[tbl##Table##dev##_32BPP[i][0]] = tbl##Table##dev##_32BPP[i][1]
1350 #endif
1352 #define LOAD_FIXED_STATE(tbl,dev) \
1353 for (i = 0; i < sizeof(tbl##Table##dev)/8; i++) \
1354 NV_WR32(&chip->dev[tbl##Table##dev[i][0]], 0, tbl##Table##dev[i][1])
1355 #define LOAD_FIXED_STATE_8BPP(tbl,dev) \
1356 for (i = 0; i < sizeof(tbl##Table##dev##_8BPP)/8; i++) \
1357 NV_WR32(&chip->dev[tbl##Table##dev##_8BPP[i][0]], 0, tbl##Table##dev##_8BPP[i][1])
1358 #define LOAD_FIXED_STATE_15BPP(tbl,dev) \
1359 for (i = 0; i < sizeof(tbl##Table##dev##_15BPP)/8; i++) \
1360 NV_WR32(&chip->dev[tbl##Table##dev##_15BPP[i][0]], 0, tbl##Table##dev##_15BPP[i][1])
1361 #define LOAD_FIXED_STATE_16BPP(tbl,dev) \
1362 for (i = 0; i < sizeof(tbl##Table##dev##_16BPP)/8; i++) \
1363 NV_WR32(&chip->dev[tbl##Table##dev##_16BPP[i][0]], 0, tbl##Table##dev##_16BPP[i][1])
1364 #define LOAD_FIXED_STATE_32BPP(tbl,dev) \
1365 for (i = 0; i < sizeof(tbl##Table##dev##_32BPP)/8; i++) \
1366 NV_WR32(&chip->dev[tbl##Table##dev##_32BPP[i][0]], 0, tbl##Table##dev##_32BPP[i][1])
1368 static void UpdateFifoState
1370 RIVA_HW_INST *chip
1373 int i;
1375 switch (chip->Architecture)
1377 case NV_ARCH_04:
1378 LOAD_FIXED_STATE(nv4,FIFO);
1379 chip->Tri03 = NULL;
1380 chip->Tri05 = (RivaTexturedTriangle05 __iomem *)&(chip->FIFO[0x0000E000/4]);
1381 break;
1382 case NV_ARCH_10:
1383 case NV_ARCH_20:
1384 case NV_ARCH_30:
1386 * Initialize state for the RivaTriangle3D05 routines.
1388 LOAD_FIXED_STATE(nv10tri05,PGRAPH);
1389 LOAD_FIXED_STATE(nv10,FIFO);
1390 chip->Tri03 = NULL;
1391 chip->Tri05 = (RivaTexturedTriangle05 __iomem *)&(chip->FIFO[0x0000E000/4]);
1392 break;
1395 static void LoadStateExt
1397 RIVA_HW_INST *chip,
1398 RIVA_HW_STATE *state
1401 int i;
1404 * Load HW fixed function state.
1406 LOAD_FIXED_STATE(Riva,PMC);
1407 LOAD_FIXED_STATE(Riva,PTIMER);
1408 switch (chip->Architecture)
1410 case NV_ARCH_03:
1412 * Make sure frame buffer config gets set before loading PRAMIN.
1414 NV_WR32(chip->PFB, 0x00000200, state->config);
1415 LOAD_FIXED_STATE(nv3,PFIFO);
1416 LOAD_FIXED_STATE(nv3,PRAMIN);
1417 LOAD_FIXED_STATE(nv3,PGRAPH);
1418 switch (state->bpp)
1420 case 15:
1421 case 16:
1422 LOAD_FIXED_STATE_15BPP(nv3,PRAMIN);
1423 LOAD_FIXED_STATE_15BPP(nv3,PGRAPH);
1424 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
1425 break;
1426 case 24:
1427 case 32:
1428 LOAD_FIXED_STATE_32BPP(nv3,PRAMIN);
1429 LOAD_FIXED_STATE_32BPP(nv3,PGRAPH);
1430 chip->Tri03 = NULL;
1431 break;
1432 case 8:
1433 default:
1434 LOAD_FIXED_STATE_8BPP(nv3,PRAMIN);
1435 LOAD_FIXED_STATE_8BPP(nv3,PGRAPH);
1436 chip->Tri03 = NULL;
1437 break;
1439 for (i = 0x00000; i < 0x00800; i++)
1440 NV_WR32(&chip->PRAMIN[0x00000502 + i], 0, (i << 12) | 0x03);
1441 NV_WR32(chip->PGRAPH, 0x00000630, state->offset0);
1442 NV_WR32(chip->PGRAPH, 0x00000634, state->offset1);
1443 NV_WR32(chip->PGRAPH, 0x00000638, state->offset2);
1444 NV_WR32(chip->PGRAPH, 0x0000063C, state->offset3);
1445 NV_WR32(chip->PGRAPH, 0x00000650, state->pitch0);
1446 NV_WR32(chip->PGRAPH, 0x00000654, state->pitch1);
1447 NV_WR32(chip->PGRAPH, 0x00000658, state->pitch2);
1448 NV_WR32(chip->PGRAPH, 0x0000065C, state->pitch3);
1449 break;
1450 case NV_ARCH_04:
1452 * Make sure frame buffer config gets set before loading PRAMIN.
1454 NV_WR32(chip->PFB, 0x00000200, state->config);
1455 LOAD_FIXED_STATE(nv4,PFIFO);
1456 LOAD_FIXED_STATE(nv4,PRAMIN);
1457 LOAD_FIXED_STATE(nv4,PGRAPH);
1458 switch (state->bpp)
1460 case 15:
1461 LOAD_FIXED_STATE_15BPP(nv4,PRAMIN);
1462 LOAD_FIXED_STATE_15BPP(nv4,PGRAPH);
1463 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
1464 break;
1465 case 16:
1466 LOAD_FIXED_STATE_16BPP(nv4,PRAMIN);
1467 LOAD_FIXED_STATE_16BPP(nv4,PGRAPH);
1468 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
1469 break;
1470 case 24:
1471 case 32:
1472 LOAD_FIXED_STATE_32BPP(nv4,PRAMIN);
1473 LOAD_FIXED_STATE_32BPP(nv4,PGRAPH);
1474 chip->Tri03 = NULL;
1475 break;
1476 case 8:
1477 default:
1478 LOAD_FIXED_STATE_8BPP(nv4,PRAMIN);
1479 LOAD_FIXED_STATE_8BPP(nv4,PGRAPH);
1480 chip->Tri03 = NULL;
1481 break;
1483 NV_WR32(chip->PGRAPH, 0x00000640, state->offset0);
1484 NV_WR32(chip->PGRAPH, 0x00000644, state->offset1);
1485 NV_WR32(chip->PGRAPH, 0x00000648, state->offset2);
1486 NV_WR32(chip->PGRAPH, 0x0000064C, state->offset3);
1487 NV_WR32(chip->PGRAPH, 0x00000670, state->pitch0);
1488 NV_WR32(chip->PGRAPH, 0x00000674, state->pitch1);
1489 NV_WR32(chip->PGRAPH, 0x00000678, state->pitch2);
1490 NV_WR32(chip->PGRAPH, 0x0000067C, state->pitch3);
1491 break;
1492 case NV_ARCH_10:
1493 case NV_ARCH_20:
1494 case NV_ARCH_30:
1495 if(chip->twoHeads) {
1496 VGA_WR08(chip->PCIO, 0x03D4, 0x44);
1497 VGA_WR08(chip->PCIO, 0x03D5, state->crtcOwner);
1498 chip->LockUnlock(chip, 0);
1501 LOAD_FIXED_STATE(nv10,PFIFO);
1502 LOAD_FIXED_STATE(nv10,PRAMIN);
1503 LOAD_FIXED_STATE(nv10,PGRAPH);
1504 switch (state->bpp)
1506 case 15:
1507 LOAD_FIXED_STATE_15BPP(nv10,PRAMIN);
1508 LOAD_FIXED_STATE_15BPP(nv10,PGRAPH);
1509 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
1510 break;
1511 case 16:
1512 LOAD_FIXED_STATE_16BPP(nv10,PRAMIN);
1513 LOAD_FIXED_STATE_16BPP(nv10,PGRAPH);
1514 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
1515 break;
1516 case 24:
1517 case 32:
1518 LOAD_FIXED_STATE_32BPP(nv10,PRAMIN);
1519 LOAD_FIXED_STATE_32BPP(nv10,PGRAPH);
1520 chip->Tri03 = NULL;
1521 break;
1522 case 8:
1523 default:
1524 LOAD_FIXED_STATE_8BPP(nv10,PRAMIN);
1525 LOAD_FIXED_STATE_8BPP(nv10,PGRAPH);
1526 chip->Tri03 = NULL;
1527 break;
1530 if(chip->Architecture == NV_ARCH_10) {
1531 NV_WR32(chip->PGRAPH, 0x00000640, state->offset0);
1532 NV_WR32(chip->PGRAPH, 0x00000644, state->offset1);
1533 NV_WR32(chip->PGRAPH, 0x00000648, state->offset2);
1534 NV_WR32(chip->PGRAPH, 0x0000064C, state->offset3);
1535 NV_WR32(chip->PGRAPH, 0x00000670, state->pitch0);
1536 NV_WR32(chip->PGRAPH, 0x00000674, state->pitch1);
1537 NV_WR32(chip->PGRAPH, 0x00000678, state->pitch2);
1538 NV_WR32(chip->PGRAPH, 0x0000067C, state->pitch3);
1539 NV_WR32(chip->PGRAPH, 0x00000680, state->pitch3);
1540 } else {
1541 NV_WR32(chip->PGRAPH, 0x00000820, state->offset0);
1542 NV_WR32(chip->PGRAPH, 0x00000824, state->offset1);
1543 NV_WR32(chip->PGRAPH, 0x00000828, state->offset2);
1544 NV_WR32(chip->PGRAPH, 0x0000082C, state->offset3);
1545 NV_WR32(chip->PGRAPH, 0x00000850, state->pitch0);
1546 NV_WR32(chip->PGRAPH, 0x00000854, state->pitch1);
1547 NV_WR32(chip->PGRAPH, 0x00000858, state->pitch2);
1548 NV_WR32(chip->PGRAPH, 0x0000085C, state->pitch3);
1549 NV_WR32(chip->PGRAPH, 0x00000860, state->pitch3);
1550 NV_WR32(chip->PGRAPH, 0x00000864, state->pitch3);
1551 NV_WR32(chip->PGRAPH, 0x000009A4, NV_RD32(chip->PFB, 0x00000200));
1552 NV_WR32(chip->PGRAPH, 0x000009A8, NV_RD32(chip->PFB, 0x00000204));
1554 if(chip->twoHeads) {
1555 NV_WR32(chip->PCRTC0, 0x00000860, state->head);
1556 NV_WR32(chip->PCRTC0, 0x00002860, state->head2);
1558 NV_WR32(chip->PRAMDAC, 0x00000404, NV_RD32(chip->PRAMDAC, 0x00000404) | (1 << 25));
1560 NV_WR32(chip->PMC, 0x00008704, 1);
1561 NV_WR32(chip->PMC, 0x00008140, 0);
1562 NV_WR32(chip->PMC, 0x00008920, 0);
1563 NV_WR32(chip->PMC, 0x00008924, 0);
1564 NV_WR32(chip->PMC, 0x00008908, 0x01ffffff);
1565 NV_WR32(chip->PMC, 0x0000890C, 0x01ffffff);
1566 NV_WR32(chip->PMC, 0x00001588, 0);
1568 NV_WR32(chip->PFB, 0x00000240, 0);
1569 NV_WR32(chip->PFB, 0x00000250, 0);
1570 NV_WR32(chip->PFB, 0x00000260, 0);
1571 NV_WR32(chip->PFB, 0x00000270, 0);
1572 NV_WR32(chip->PFB, 0x00000280, 0);
1573 NV_WR32(chip->PFB, 0x00000290, 0);
1574 NV_WR32(chip->PFB, 0x000002A0, 0);
1575 NV_WR32(chip->PFB, 0x000002B0, 0);
1577 NV_WR32(chip->PGRAPH, 0x00000B00, NV_RD32(chip->PFB, 0x00000240));
1578 NV_WR32(chip->PGRAPH, 0x00000B04, NV_RD32(chip->PFB, 0x00000244));
1579 NV_WR32(chip->PGRAPH, 0x00000B08, NV_RD32(chip->PFB, 0x00000248));
1580 NV_WR32(chip->PGRAPH, 0x00000B0C, NV_RD32(chip->PFB, 0x0000024C));
1581 NV_WR32(chip->PGRAPH, 0x00000B10, NV_RD32(chip->PFB, 0x00000250));
1582 NV_WR32(chip->PGRAPH, 0x00000B14, NV_RD32(chip->PFB, 0x00000254));
1583 NV_WR32(chip->PGRAPH, 0x00000B18, NV_RD32(chip->PFB, 0x00000258));
1584 NV_WR32(chip->PGRAPH, 0x00000B1C, NV_RD32(chip->PFB, 0x0000025C));
1585 NV_WR32(chip->PGRAPH, 0x00000B20, NV_RD32(chip->PFB, 0x00000260));
1586 NV_WR32(chip->PGRAPH, 0x00000B24, NV_RD32(chip->PFB, 0x00000264));
1587 NV_WR32(chip->PGRAPH, 0x00000B28, NV_RD32(chip->PFB, 0x00000268));
1588 NV_WR32(chip->PGRAPH, 0x00000B2C, NV_RD32(chip->PFB, 0x0000026C));
1589 NV_WR32(chip->PGRAPH, 0x00000B30, NV_RD32(chip->PFB, 0x00000270));
1590 NV_WR32(chip->PGRAPH, 0x00000B34, NV_RD32(chip->PFB, 0x00000274));
1591 NV_WR32(chip->PGRAPH, 0x00000B38, NV_RD32(chip->PFB, 0x00000278));
1592 NV_WR32(chip->PGRAPH, 0x00000B3C, NV_RD32(chip->PFB, 0x0000027C));
1593 NV_WR32(chip->PGRAPH, 0x00000B40, NV_RD32(chip->PFB, 0x00000280));
1594 NV_WR32(chip->PGRAPH, 0x00000B44, NV_RD32(chip->PFB, 0x00000284));
1595 NV_WR32(chip->PGRAPH, 0x00000B48, NV_RD32(chip->PFB, 0x00000288));
1596 NV_WR32(chip->PGRAPH, 0x00000B4C, NV_RD32(chip->PFB, 0x0000028C));
1597 NV_WR32(chip->PGRAPH, 0x00000B50, NV_RD32(chip->PFB, 0x00000290));
1598 NV_WR32(chip->PGRAPH, 0x00000B54, NV_RD32(chip->PFB, 0x00000294));
1599 NV_WR32(chip->PGRAPH, 0x00000B58, NV_RD32(chip->PFB, 0x00000298));
1600 NV_WR32(chip->PGRAPH, 0x00000B5C, NV_RD32(chip->PFB, 0x0000029C));
1601 NV_WR32(chip->PGRAPH, 0x00000B60, NV_RD32(chip->PFB, 0x000002A0));
1602 NV_WR32(chip->PGRAPH, 0x00000B64, NV_RD32(chip->PFB, 0x000002A4));
1603 NV_WR32(chip->PGRAPH, 0x00000B68, NV_RD32(chip->PFB, 0x000002A8));
1604 NV_WR32(chip->PGRAPH, 0x00000B6C, NV_RD32(chip->PFB, 0x000002AC));
1605 NV_WR32(chip->PGRAPH, 0x00000B70, NV_RD32(chip->PFB, 0x000002B0));
1606 NV_WR32(chip->PGRAPH, 0x00000B74, NV_RD32(chip->PFB, 0x000002B4));
1607 NV_WR32(chip->PGRAPH, 0x00000B78, NV_RD32(chip->PFB, 0x000002B8));
1608 NV_WR32(chip->PGRAPH, 0x00000B7C, NV_RD32(chip->PFB, 0x000002BC));
1609 NV_WR32(chip->PGRAPH, 0x00000F40, 0x10000000);
1610 NV_WR32(chip->PGRAPH, 0x00000F44, 0x00000000);
1611 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000040);
1612 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000008);
1613 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000200);
1614 for (i = 0; i < (3*16); i++)
1615 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1616 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000040);
1617 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1618 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000800);
1619 for (i = 0; i < (16*16); i++)
1620 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1621 NV_WR32(chip->PGRAPH, 0x00000F40, 0x30000000);
1622 NV_WR32(chip->PGRAPH, 0x00000F44, 0x00000004);
1623 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00006400);
1624 for (i = 0; i < (59*4); i++)
1625 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1626 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00006800);
1627 for (i = 0; i < (47*4); i++)
1628 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1629 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00006C00);
1630 for (i = 0; i < (3*4); i++)
1631 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1632 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00007000);
1633 for (i = 0; i < (19*4); i++)
1634 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1635 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00007400);
1636 for (i = 0; i < (12*4); i++)
1637 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1638 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00007800);
1639 for (i = 0; i < (12*4); i++)
1640 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1641 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00004400);
1642 for (i = 0; i < (8*4); i++)
1643 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1644 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000000);
1645 for (i = 0; i < 16; i++)
1646 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1647 NV_WR32(chip->PGRAPH, 0x00000F50, 0x00000040);
1648 for (i = 0; i < 4; i++)
1649 NV_WR32(chip->PGRAPH, 0x00000F54, 0x00000000);
1651 NV_WR32(chip->PCRTC, 0x00000810, state->cursorConfig);
1653 if(chip->flatPanel) {
1654 if((chip->Chipset & 0x0ff0) == 0x0110) {
1655 NV_WR32(chip->PRAMDAC, 0x0528, state->dither);
1656 } else
1657 if((chip->Chipset & 0x0ff0) >= 0x0170) {
1658 NV_WR32(chip->PRAMDAC, 0x083C, state->dither);
1661 VGA_WR08(chip->PCIO, 0x03D4, 0x53);
1662 VGA_WR08(chip->PCIO, 0x03D5, 0);
1663 VGA_WR08(chip->PCIO, 0x03D4, 0x54);
1664 VGA_WR08(chip->PCIO, 0x03D5, 0);
1665 VGA_WR08(chip->PCIO, 0x03D4, 0x21);
1666 VGA_WR08(chip->PCIO, 0x03D5, 0xfa);
1669 VGA_WR08(chip->PCIO, 0x03D4, 0x41);
1670 VGA_WR08(chip->PCIO, 0x03D5, state->extra);
1672 LOAD_FIXED_STATE(Riva,FIFO);
1673 UpdateFifoState(chip);
1675 * Load HW mode state.
1677 VGA_WR08(chip->PCIO, 0x03D4, 0x19);
1678 VGA_WR08(chip->PCIO, 0x03D5, state->repaint0);
1679 VGA_WR08(chip->PCIO, 0x03D4, 0x1A);
1680 VGA_WR08(chip->PCIO, 0x03D5, state->repaint1);
1681 VGA_WR08(chip->PCIO, 0x03D4, 0x25);
1682 VGA_WR08(chip->PCIO, 0x03D5, state->screen);
1683 VGA_WR08(chip->PCIO, 0x03D4, 0x28);
1684 VGA_WR08(chip->PCIO, 0x03D5, state->pixel);
1685 VGA_WR08(chip->PCIO, 0x03D4, 0x2D);
1686 VGA_WR08(chip->PCIO, 0x03D5, state->horiz);
1687 VGA_WR08(chip->PCIO, 0x03D4, 0x1B);
1688 VGA_WR08(chip->PCIO, 0x03D5, state->arbitration0);
1689 VGA_WR08(chip->PCIO, 0x03D4, 0x20);
1690 VGA_WR08(chip->PCIO, 0x03D5, state->arbitration1);
1691 VGA_WR08(chip->PCIO, 0x03D4, 0x30);
1692 VGA_WR08(chip->PCIO, 0x03D5, state->cursor0);
1693 VGA_WR08(chip->PCIO, 0x03D4, 0x31);
1694 VGA_WR08(chip->PCIO, 0x03D5, state->cursor1);
1695 VGA_WR08(chip->PCIO, 0x03D4, 0x2F);
1696 VGA_WR08(chip->PCIO, 0x03D5, state->cursor2);
1697 VGA_WR08(chip->PCIO, 0x03D4, 0x39);
1698 VGA_WR08(chip->PCIO, 0x03D5, state->interlace);
1700 if(!chip->flatPanel) {
1701 NV_WR32(chip->PRAMDAC0, 0x00000508, state->vpll);
1702 NV_WR32(chip->PRAMDAC0, 0x0000050C, state->pllsel);
1703 if(chip->twoHeads)
1704 NV_WR32(chip->PRAMDAC0, 0x00000520, state->vpll2);
1705 } else {
1706 NV_WR32(chip->PRAMDAC, 0x00000848 , state->scale);
1708 NV_WR32(chip->PRAMDAC, 0x00000600 , state->general);
1711 * Turn off VBlank enable and reset.
1713 NV_WR32(chip->PCRTC, 0x00000140, 0);
1714 NV_WR32(chip->PCRTC, 0x00000100, chip->VBlankBit);
1716 * Set interrupt enable.
1718 NV_WR32(chip->PMC, 0x00000140, chip->EnableIRQ & 0x01);
1720 * Set current state pointer.
1722 chip->CurrentState = state;
1724 * Reset FIFO free and empty counts.
1726 chip->FifoFreeCount = 0;
1727 /* Free count from first subchannel */
1728 chip->FifoEmptyCount = NV_RD32(&chip->Rop->FifoFree, 0);
1730 static void UnloadStateExt
1732 RIVA_HW_INST *chip,
1733 RIVA_HW_STATE *state
1737 * Save current HW state.
1739 VGA_WR08(chip->PCIO, 0x03D4, 0x19);
1740 state->repaint0 = VGA_RD08(chip->PCIO, 0x03D5);
1741 VGA_WR08(chip->PCIO, 0x03D4, 0x1A);
1742 state->repaint1 = VGA_RD08(chip->PCIO, 0x03D5);
1743 VGA_WR08(chip->PCIO, 0x03D4, 0x25);
1744 state->screen = VGA_RD08(chip->PCIO, 0x03D5);
1745 VGA_WR08(chip->PCIO, 0x03D4, 0x28);
1746 state->pixel = VGA_RD08(chip->PCIO, 0x03D5);
1747 VGA_WR08(chip->PCIO, 0x03D4, 0x2D);
1748 state->horiz = VGA_RD08(chip->PCIO, 0x03D5);
1749 VGA_WR08(chip->PCIO, 0x03D4, 0x1B);
1750 state->arbitration0 = VGA_RD08(chip->PCIO, 0x03D5);
1751 VGA_WR08(chip->PCIO, 0x03D4, 0x20);
1752 state->arbitration1 = VGA_RD08(chip->PCIO, 0x03D5);
1753 VGA_WR08(chip->PCIO, 0x03D4, 0x30);
1754 state->cursor0 = VGA_RD08(chip->PCIO, 0x03D5);
1755 VGA_WR08(chip->PCIO, 0x03D4, 0x31);
1756 state->cursor1 = VGA_RD08(chip->PCIO, 0x03D5);
1757 VGA_WR08(chip->PCIO, 0x03D4, 0x2F);
1758 state->cursor2 = VGA_RD08(chip->PCIO, 0x03D5);
1759 VGA_WR08(chip->PCIO, 0x03D4, 0x39);
1760 state->interlace = VGA_RD08(chip->PCIO, 0x03D5);
1761 state->vpll = NV_RD32(chip->PRAMDAC0, 0x00000508);
1762 state->vpll2 = NV_RD32(chip->PRAMDAC0, 0x00000520);
1763 state->pllsel = NV_RD32(chip->PRAMDAC0, 0x0000050C);
1764 state->general = NV_RD32(chip->PRAMDAC, 0x00000600);
1765 state->scale = NV_RD32(chip->PRAMDAC, 0x00000848);
1766 state->config = NV_RD32(chip->PFB, 0x00000200);
1767 switch (chip->Architecture)
1769 case NV_ARCH_03:
1770 state->offset0 = NV_RD32(chip->PGRAPH, 0x00000630);
1771 state->offset1 = NV_RD32(chip->PGRAPH, 0x00000634);
1772 state->offset2 = NV_RD32(chip->PGRAPH, 0x00000638);
1773 state->offset3 = NV_RD32(chip->PGRAPH, 0x0000063C);
1774 state->pitch0 = NV_RD32(chip->PGRAPH, 0x00000650);
1775 state->pitch1 = NV_RD32(chip->PGRAPH, 0x00000654);
1776 state->pitch2 = NV_RD32(chip->PGRAPH, 0x00000658);
1777 state->pitch3 = NV_RD32(chip->PGRAPH, 0x0000065C);
1778 break;
1779 case NV_ARCH_04:
1780 state->offset0 = NV_RD32(chip->PGRAPH, 0x00000640);
1781 state->offset1 = NV_RD32(chip->PGRAPH, 0x00000644);
1782 state->offset2 = NV_RD32(chip->PGRAPH, 0x00000648);
1783 state->offset3 = NV_RD32(chip->PGRAPH, 0x0000064C);
1784 state->pitch0 = NV_RD32(chip->PGRAPH, 0x00000670);
1785 state->pitch1 = NV_RD32(chip->PGRAPH, 0x00000674);
1786 state->pitch2 = NV_RD32(chip->PGRAPH, 0x00000678);
1787 state->pitch3 = NV_RD32(chip->PGRAPH, 0x0000067C);
1788 break;
1789 case NV_ARCH_10:
1790 case NV_ARCH_20:
1791 case NV_ARCH_30:
1792 state->offset0 = NV_RD32(chip->PGRAPH, 0x00000640);
1793 state->offset1 = NV_RD32(chip->PGRAPH, 0x00000644);
1794 state->offset2 = NV_RD32(chip->PGRAPH, 0x00000648);
1795 state->offset3 = NV_RD32(chip->PGRAPH, 0x0000064C);
1796 state->pitch0 = NV_RD32(chip->PGRAPH, 0x00000670);
1797 state->pitch1 = NV_RD32(chip->PGRAPH, 0x00000674);
1798 state->pitch2 = NV_RD32(chip->PGRAPH, 0x00000678);
1799 state->pitch3 = NV_RD32(chip->PGRAPH, 0x0000067C);
1800 if(chip->twoHeads) {
1801 state->head = NV_RD32(chip->PCRTC0, 0x00000860);
1802 state->head2 = NV_RD32(chip->PCRTC0, 0x00002860);
1803 VGA_WR08(chip->PCIO, 0x03D4, 0x44);
1804 state->crtcOwner = VGA_RD08(chip->PCIO, 0x03D5);
1806 VGA_WR08(chip->PCIO, 0x03D4, 0x41);
1807 state->extra = VGA_RD08(chip->PCIO, 0x03D5);
1808 state->cursorConfig = NV_RD32(chip->PCRTC, 0x00000810);
1810 if((chip->Chipset & 0x0ff0) == 0x0110) {
1811 state->dither = NV_RD32(chip->PRAMDAC, 0x0528);
1812 } else
1813 if((chip->Chipset & 0x0ff0) >= 0x0170) {
1814 state->dither = NV_RD32(chip->PRAMDAC, 0x083C);
1816 break;
1819 static void SetStartAddress
1821 RIVA_HW_INST *chip,
1822 unsigned start
1825 NV_WR32(chip->PCRTC, 0x800, start);
1828 static void SetStartAddress3
1830 RIVA_HW_INST *chip,
1831 unsigned start
1834 int offset = start >> 2;
1835 int pan = (start & 3) << 1;
1836 unsigned char tmp;
1839 * Unlock extended registers.
1841 chip->LockUnlock(chip, 0);
1843 * Set start address.
1845 VGA_WR08(chip->PCIO, 0x3D4, 0x0D); VGA_WR08(chip->PCIO, 0x3D5, offset);
1846 offset >>= 8;
1847 VGA_WR08(chip->PCIO, 0x3D4, 0x0C); VGA_WR08(chip->PCIO, 0x3D5, offset);
1848 offset >>= 8;
1849 VGA_WR08(chip->PCIO, 0x3D4, 0x19); tmp = VGA_RD08(chip->PCIO, 0x3D5);
1850 VGA_WR08(chip->PCIO, 0x3D5, (offset & 0x01F) | (tmp & ~0x1F));
1851 VGA_WR08(chip->PCIO, 0x3D4, 0x2D); tmp = VGA_RD08(chip->PCIO, 0x3D5);
1852 VGA_WR08(chip->PCIO, 0x3D5, (offset & 0x60) | (tmp & ~0x60));
1854 * 4 pixel pan register.
1856 offset = VGA_RD08(chip->PCIO, chip->IO + 0x0A);
1857 VGA_WR08(chip->PCIO, 0x3C0, 0x13);
1858 VGA_WR08(chip->PCIO, 0x3C0, pan);
1860 static void nv3SetSurfaces2D
1862 RIVA_HW_INST *chip,
1863 unsigned surf0,
1864 unsigned surf1
1867 RivaSurface __iomem *Surface =
1868 (RivaSurface __iomem *)&(chip->FIFO[0x0000E000/4]);
1870 RIVA_FIFO_FREE(*chip,Tri03,5);
1871 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000003);
1872 NV_WR32(&Surface->Offset, 0, surf0);
1873 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000004);
1874 NV_WR32(&Surface->Offset, 0, surf1);
1875 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000013);
1877 static void nv4SetSurfaces2D
1879 RIVA_HW_INST *chip,
1880 unsigned surf0,
1881 unsigned surf1
1884 RivaSurface __iomem *Surface =
1885 (RivaSurface __iomem *)&(chip->FIFO[0x0000E000/4]);
1887 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000003);
1888 NV_WR32(&Surface->Offset, 0, surf0);
1889 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000004);
1890 NV_WR32(&Surface->Offset, 0, surf1);
1891 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000014);
1893 static void nv10SetSurfaces2D
1895 RIVA_HW_INST *chip,
1896 unsigned surf0,
1897 unsigned surf1
1900 RivaSurface __iomem *Surface =
1901 (RivaSurface __iomem *)&(chip->FIFO[0x0000E000/4]);
1903 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000003);
1904 NV_WR32(&Surface->Offset, 0, surf0);
1905 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000004);
1906 NV_WR32(&Surface->Offset, 0, surf1);
1907 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000014);
1909 static void nv3SetSurfaces3D
1911 RIVA_HW_INST *chip,
1912 unsigned surf0,
1913 unsigned surf1
1916 RivaSurface __iomem *Surface =
1917 (RivaSurface __iomem *)&(chip->FIFO[0x0000E000/4]);
1919 RIVA_FIFO_FREE(*chip,Tri03,5);
1920 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000005);
1921 NV_WR32(&Surface->Offset, 0, surf0);
1922 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000006);
1923 NV_WR32(&Surface->Offset, 0, surf1);
1924 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000013);
1926 static void nv4SetSurfaces3D
1928 RIVA_HW_INST *chip,
1929 unsigned surf0,
1930 unsigned surf1
1933 RivaSurface __iomem *Surface =
1934 (RivaSurface __iomem *)&(chip->FIFO[0x0000E000/4]);
1936 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000005);
1937 NV_WR32(&Surface->Offset, 0, surf0);
1938 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000006);
1939 NV_WR32(&Surface->Offset, 0, surf1);
1940 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000014);
1942 static void nv10SetSurfaces3D
1944 RIVA_HW_INST *chip,
1945 unsigned surf0,
1946 unsigned surf1
1949 RivaSurface3D __iomem *Surfaces3D =
1950 (RivaSurface3D __iomem *)&(chip->FIFO[0x0000E000/4]);
1952 RIVA_FIFO_FREE(*chip,Tri03,4);
1953 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000007);
1954 NV_WR32(&Surfaces3D->RenderBufferOffset, 0, surf0);
1955 NV_WR32(&Surfaces3D->ZBufferOffset, 0, surf1);
1956 NV_WR32(&chip->FIFO[0x00003800], 0, 0x80000014);
1959 /****************************************************************************\
1961 * Probe RIVA Chip Configuration *
1963 \****************************************************************************/
1965 static void nv3GetConfig
1967 RIVA_HW_INST *chip
1971 * Fill in chip configuration.
1973 if (NV_RD32(&chip->PFB[0x00000000/4], 0) & 0x00000020)
1975 if (((NV_RD32(chip->PMC, 0x00000000) & 0xF0) == 0x20)
1976 && ((NV_RD32(chip->PMC, 0x00000000) & 0x0F) >= 0x02))
1979 * SDRAM 128 ZX.
1981 chip->RamBandwidthKBytesPerSec = 800000;
1982 switch (NV_RD32(chip->PFB, 0x00000000) & 0x03)
1984 case 2:
1985 chip->RamAmountKBytes = 1024 * 4;
1986 break;
1987 case 1:
1988 chip->RamAmountKBytes = 1024 * 2;
1989 break;
1990 default:
1991 chip->RamAmountKBytes = 1024 * 8;
1992 break;
1995 else
1997 chip->RamBandwidthKBytesPerSec = 1000000;
1998 chip->RamAmountKBytes = 1024 * 8;
2001 else
2004 * SGRAM 128.
2006 chip->RamBandwidthKBytesPerSec = 1000000;
2007 switch (NV_RD32(chip->PFB, 0x00000000) & 0x00000003)
2009 case 0:
2010 chip->RamAmountKBytes = 1024 * 8;
2011 break;
2012 case 2:
2013 chip->RamAmountKBytes = 1024 * 4;
2014 break;
2015 default:
2016 chip->RamAmountKBytes = 1024 * 2;
2017 break;
2020 chip->CrystalFreqKHz = (NV_RD32(chip->PEXTDEV, 0x00000000) & 0x00000040) ? 14318 : 13500;
2021 chip->CURSOR = &(chip->PRAMIN[0x00008000/4 - 0x0800/4]);
2022 chip->VBlankBit = 0x00000100;
2023 chip->MaxVClockFreqKHz = 256000;
2025 * Set chip functions.
2027 chip->Busy = nv3Busy;
2028 chip->ShowHideCursor = ShowHideCursor;
2029 chip->CalcStateExt = CalcStateExt;
2030 chip->LoadStateExt = LoadStateExt;
2031 chip->UnloadStateExt = UnloadStateExt;
2032 chip->SetStartAddress = SetStartAddress3;
2033 chip->SetSurfaces2D = nv3SetSurfaces2D;
2034 chip->SetSurfaces3D = nv3SetSurfaces3D;
2035 chip->LockUnlock = nv3LockUnlock;
2037 static void nv4GetConfig
2039 RIVA_HW_INST *chip
2043 * Fill in chip configuration.
2045 if (NV_RD32(chip->PFB, 0x00000000) & 0x00000100)
2047 chip->RamAmountKBytes = ((NV_RD32(chip->PFB, 0x00000000) >> 12) & 0x0F) * 1024 * 2
2048 + 1024 * 2;
2050 else
2052 switch (NV_RD32(chip->PFB, 0x00000000) & 0x00000003)
2054 case 0:
2055 chip->RamAmountKBytes = 1024 * 32;
2056 break;
2057 case 1:
2058 chip->RamAmountKBytes = 1024 * 4;
2059 break;
2060 case 2:
2061 chip->RamAmountKBytes = 1024 * 8;
2062 break;
2063 case 3:
2064 default:
2065 chip->RamAmountKBytes = 1024 * 16;
2066 break;
2069 switch ((NV_RD32(chip->PFB, 0x00000000) >> 3) & 0x00000003)
2071 case 3:
2072 chip->RamBandwidthKBytesPerSec = 800000;
2073 break;
2074 default:
2075 chip->RamBandwidthKBytesPerSec = 1000000;
2076 break;
2078 chip->CrystalFreqKHz = (NV_RD32(chip->PEXTDEV, 0x00000000) & 0x00000040) ? 14318 : 13500;
2079 chip->CURSOR = &(chip->PRAMIN[0x00010000/4 - 0x0800/4]);
2080 chip->VBlankBit = 0x00000001;
2081 chip->MaxVClockFreqKHz = 350000;
2083 * Set chip functions.
2085 chip->Busy = nv4Busy;
2086 chip->ShowHideCursor = ShowHideCursor;
2087 chip->CalcStateExt = CalcStateExt;
2088 chip->LoadStateExt = LoadStateExt;
2089 chip->UnloadStateExt = UnloadStateExt;
2090 chip->SetStartAddress = SetStartAddress;
2091 chip->SetSurfaces2D = nv4SetSurfaces2D;
2092 chip->SetSurfaces3D = nv4SetSurfaces3D;
2093 chip->LockUnlock = nv4LockUnlock;
2095 static void nv10GetConfig
2097 RIVA_HW_INST *chip,
2098 unsigned int chipset
2101 struct pci_dev* dev;
2102 int amt;
2104 #ifdef __BIG_ENDIAN
2105 /* turn on big endian register access */
2106 if(!(NV_RD32(chip->PMC, 0x00000004) & 0x01000001))
2107 NV_WR32(chip->PMC, 0x00000004, 0x01000001);
2108 #endif
2111 * Fill in chip configuration.
2113 if(chipset == NV_CHIP_IGEFORCE2) {
2114 dev = pci_find_slot(0, 1);
2115 pci_read_config_dword(dev, 0x7C, &amt);
2116 chip->RamAmountKBytes = (((amt >> 6) & 31) + 1) * 1024;
2117 } else if(chipset == NV_CHIP_0x01F0) {
2118 dev = pci_find_slot(0, 1);
2119 pci_read_config_dword(dev, 0x84, &amt);
2120 chip->RamAmountKBytes = (((amt >> 4) & 127) + 1) * 1024;
2121 } else {
2122 switch ((NV_RD32(chip->PFB, 0x0000020C) >> 20) & 0x000000FF)
2124 case 0x02:
2125 chip->RamAmountKBytes = 1024 * 2;
2126 break;
2127 case 0x04:
2128 chip->RamAmountKBytes = 1024 * 4;
2129 break;
2130 case 0x08:
2131 chip->RamAmountKBytes = 1024 * 8;
2132 break;
2133 case 0x10:
2134 chip->RamAmountKBytes = 1024 * 16;
2135 break;
2136 case 0x20:
2137 chip->RamAmountKBytes = 1024 * 32;
2138 break;
2139 case 0x40:
2140 chip->RamAmountKBytes = 1024 * 64;
2141 break;
2142 case 0x80:
2143 chip->RamAmountKBytes = 1024 * 128;
2144 break;
2145 default:
2146 chip->RamAmountKBytes = 1024 * 16;
2147 break;
2150 switch ((NV_RD32(chip->PFB, 0x00000000) >> 3) & 0x00000003)
2152 case 3:
2153 chip->RamBandwidthKBytesPerSec = 800000;
2154 break;
2155 default:
2156 chip->RamBandwidthKBytesPerSec = 1000000;
2157 break;
2159 chip->CrystalFreqKHz = (NV_RD32(chip->PEXTDEV, 0x0000) & (1 << 6)) ?
2160 14318 : 13500;
2162 switch (chipset & 0x0ff0) {
2163 case 0x0170:
2164 case 0x0180:
2165 case 0x01F0:
2166 case 0x0250:
2167 case 0x0280:
2168 case 0x0300:
2169 case 0x0310:
2170 case 0x0320:
2171 case 0x0330:
2172 case 0x0340:
2173 if(NV_RD32(chip->PEXTDEV, 0x0000) & (1 << 22))
2174 chip->CrystalFreqKHz = 27000;
2175 break;
2176 default:
2177 break;
2180 chip->CursorStart = (chip->RamAmountKBytes - 128) * 1024;
2181 chip->CURSOR = NULL; /* can't set this here */
2182 chip->VBlankBit = 0x00000001;
2183 chip->MaxVClockFreqKHz = 350000;
2185 * Set chip functions.
2187 chip->Busy = nv10Busy;
2188 chip->ShowHideCursor = ShowHideCursor;
2189 chip->CalcStateExt = CalcStateExt;
2190 chip->LoadStateExt = LoadStateExt;
2191 chip->UnloadStateExt = UnloadStateExt;
2192 chip->SetStartAddress = SetStartAddress;
2193 chip->SetSurfaces2D = nv10SetSurfaces2D;
2194 chip->SetSurfaces3D = nv10SetSurfaces3D;
2195 chip->LockUnlock = nv4LockUnlock;
2197 switch(chipset & 0x0ff0) {
2198 case 0x0110:
2199 case 0x0170:
2200 case 0x0180:
2201 case 0x01F0:
2202 case 0x0250:
2203 case 0x0280:
2204 case 0x0300:
2205 case 0x0310:
2206 case 0x0320:
2207 case 0x0330:
2208 case 0x0340:
2209 chip->twoHeads = TRUE;
2210 break;
2211 default:
2212 chip->twoHeads = FALSE;
2213 break;
2216 int RivaGetConfig
2218 RIVA_HW_INST *chip,
2219 unsigned int chipset
2223 * Save this so future SW know whats it's dealing with.
2225 chip->Version = RIVA_SW_VERSION;
2227 * Chip specific configuration.
2229 switch (chip->Architecture)
2231 case NV_ARCH_03:
2232 nv3GetConfig(chip);
2233 break;
2234 case NV_ARCH_04:
2235 nv4GetConfig(chip);
2236 break;
2237 case NV_ARCH_10:
2238 case NV_ARCH_20:
2239 case NV_ARCH_30:
2240 nv10GetConfig(chip, chipset);
2241 break;
2242 default:
2243 return (-1);
2245 chip->Chipset = chipset;
2247 * Fill in FIFO pointers.
2249 chip->Rop = (RivaRop __iomem *)&(chip->FIFO[0x00000000/4]);
2250 chip->Clip = (RivaClip __iomem *)&(chip->FIFO[0x00002000/4]);
2251 chip->Patt = (RivaPattern __iomem *)&(chip->FIFO[0x00004000/4]);
2252 chip->Pixmap = (RivaPixmap __iomem *)&(chip->FIFO[0x00006000/4]);
2253 chip->Blt = (RivaScreenBlt __iomem *)&(chip->FIFO[0x00008000/4]);
2254 chip->Bitmap = (RivaBitmap __iomem *)&(chip->FIFO[0x0000A000/4]);
2255 chip->Line = (RivaLine __iomem *)&(chip->FIFO[0x0000C000/4]);
2256 chip->Tri03 = (RivaTexturedTriangle03 __iomem *)&(chip->FIFO[0x0000E000/4]);
2257 return (0);