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1/*-*- linux-c -*-
2 *  linux/drivers/video/i810_main.h -- Intel 810 Non-discrete Video Timings
3 *                                     (VESA GTF)
4 *
5 *      Copyright (C) 2001 Antonino Daplas<adaplas@pol.net>
6 *      All Rights Reserved
7 *
8 *
9 *  This file is subject to the terms and conditions of the GNU General Public
10 *  License. See the file COPYING in the main directory of this archive for
11 *  more details.
12 */
13#include <linux/kernel.h>
14
15#include "i810_regs.h"
16#include "i810.h"
17#include "i810_main.h"
18
19/*
20 * FIFO and Watermark tables - based almost wholly on i810_wmark.c in
21 * XFree86 v4.03 by Precision Insight.  Slightly modified for integer
22 * operation, instead of float
23 */
24
25struct wm_info {
26   u32 freq;
27   u32  wm;
28};
29
30static struct wm_info i810_wm_8_100[] = {
31	{ 15, 0x0070c000 },  { 19, 0x0070c000 },  { 25, 0x22003000 },
32	{ 28, 0x22003000 },  { 31, 0x22003000 },  { 36, 0x22007000 },
33	{ 40, 0x22007000 },  { 45, 0x22007000 },  { 49, 0x22008000 },
34	{ 50, 0x22008000 },  { 56, 0x22008000 },  { 65, 0x22008000 },
35	{ 75, 0x22008000 },  { 78, 0x22008000 },  { 80, 0x22008000 },
36	{ 94, 0x22008000 },  { 96, 0x22107000 },  { 99, 0x22107000 },
37	{ 108, 0x22107000 }, { 121, 0x22107000 }, { 128, 0x22107000 },
38	{ 132, 0x22109000 }, { 135, 0x22109000 }, { 157, 0x2210b000 },
39	{ 162, 0x2210b000 }, { 175, 0x2210b000 }, { 189, 0x2220e000 },
40	{ 195, 0x2220e000 }, { 202, 0x2220e000 }, { 204, 0x2220e000 },
41	{ 218, 0x2220f000 }, { 229, 0x22210000 }, { 234, 0x22210000 },
42};
43
44static struct wm_info i810_wm_16_100[] = {
45	{ 15, 0x0070c000 },  { 19, 0x0020c000 },  { 25, 0x22006000 },
46	{ 28, 0x22006000 },  { 31, 0x22007000 },  { 36, 0x22007000 },
47	{ 40, 0x22007000 },  { 45, 0x22007000 },  { 49, 0x22009000 },
48	{ 50, 0x22009000 },  { 56, 0x22108000 },  { 65, 0x2210e000 },
49	{ 75, 0x2210e000 },  { 78, 0x2210e000 },  { 80, 0x22210000 },
50	{ 94, 0x22210000 },  { 96, 0x22210000 },  { 99, 0x22210000 },
51	{ 108, 0x22210000 }, { 121, 0x22210000 }, { 128, 0x22210000 },
52	{ 132, 0x22314000 }, { 135, 0x22314000 }, { 157, 0x22415000 },
53	{ 162, 0x22416000 }, { 175, 0x22416000 }, { 189, 0x22416000 },
54	{ 195, 0x22416000 }, { 202, 0x22416000 }, { 204, 0x22416000 },
55	{ 218, 0x22416000 }, { 229, 0x22416000 },
56};
57
58static struct wm_info i810_wm_24_100[] = {
59	{ 15, 0x0020c000 },  { 19, 0x0040c000 },  { 25, 0x22009000 },
60	{ 28, 0x22009000 },  { 31, 0x2200a000 },  { 36, 0x2210c000 },
61	{ 40, 0x2210c000 },  { 45, 0x2210c000 },  { 49, 0x22111000 },
62	{ 50, 0x22111000 },  { 56, 0x22111000 },  { 65, 0x22214000 },
63	{ 75, 0x22214000 },  { 78, 0x22215000 },  { 80, 0x22216000 },
64	{ 94, 0x22218000 },  { 96, 0x22418000 },  { 99, 0x22418000 },
65	{ 108, 0x22418000 }, { 121, 0x22418000 }, { 128, 0x22419000 },
66	{ 132, 0x22519000 }, { 135, 0x4441d000 }, { 157, 0x44419000 },
67	{ 162, 0x44419000 }, { 175, 0x44419000 }, { 189, 0x44419000 },
68	{ 195, 0x44419000 }, { 202, 0x44419000 }, { 204, 0x44419000 },
69};
70
71static struct wm_info i810_wm_8_133[] = {
72	{ 15, 0x0070c000 },  { 19, 0x0070c000 },  { 25, 0x22003000 },
73	{ 28, 0x22003000 },  { 31, 0x22003000 },  { 36, 0x22007000 },
74	{ 40, 0x22007000 },  { 45, 0x22007000 },  { 49, 0x22008000 },
75	{ 50, 0x22008000 },  { 56, 0x22008000 },  { 65, 0x22008000 },
76	{ 75, 0x22008000 },  { 78, 0x22008000 },  { 80, 0x22008000 },
77	{ 94, 0x22008000 },  { 96, 0x22107000 },  { 99, 0x22107000 },
78	{ 108, 0x22107000 }, { 121, 0x22107000 }, { 128, 0x22107000 },
79	{ 132, 0x22109000 }, { 135, 0x22109000 }, { 157, 0x2210b000 },
80	{ 162, 0x2210b000 }, { 175, 0x2210b000 }, { 189, 0x2220e000 },
81	{ 195, 0x2220e000 }, { 202, 0x2220e000 }, { 204, 0x2220e000 },
82	{ 218, 0x2220f000 }, { 229, 0x22210000 }, { 234, 0x22210000 },
83};
84
85static struct wm_info i810_wm_16_133[] = {
86	{ 15, 0x0020c000 },  { 19, 0x0020c000 },  { 25, 0x22006000 },
87	{ 28, 0x22006000 },  { 31, 0x22007000 },  { 36, 0x22007000 },
88	{ 40, 0x22007000 },  { 45, 0x22007000 },  { 49, 0x22009000 },
89	{ 50, 0x22009000 },  { 56, 0x22108000 },  { 65, 0x2210e000 },
90	{ 75, 0x2210e000 },  { 78, 0x2210e000 },  { 80, 0x22210000 },
91	{ 94, 0x22210000 },  { 96, 0x22210000 },  { 99, 0x22210000 },
92	{ 108, 0x22210000 }, { 121, 0x22210000 }, { 128, 0x22210000 },
93	{ 132, 0x22314000 }, { 135, 0x22314000 }, { 157, 0x22415000 },
94	{ 162, 0x22416000 }, { 175, 0x22416000 }, { 189, 0x22416000 },
95	{ 195, 0x22416000 }, { 202, 0x22416000 }, { 204, 0x22416000 },
96	{ 218, 0x22416000 }, { 229, 0x22416000 },
97};
98
99static struct wm_info i810_wm_24_133[] = {
100	{ 15, 0x0020c000 },  { 19, 0x00408000 },  { 25, 0x22009000 },
101	{ 28, 0x22009000 },  { 31, 0x2200a000 },  { 36, 0x2210c000 },
102	{ 40, 0x2210c000 },  { 45, 0x2210c000 },  { 49, 0x22111000 },
103	{ 50, 0x22111000 },  { 56, 0x22111000 },  { 65, 0x22214000 },
104	{ 75, 0x22214000 },  { 78, 0x22215000 },  { 80, 0x22216000 },
105	{ 94, 0x22218000 },  { 96, 0x22418000 },  { 99, 0x22418000 },
106	{ 108, 0x22418000 }, { 121, 0x22418000 }, { 128, 0x22419000 },
107	{ 132, 0x22519000 }, { 135, 0x4441d000 }, { 157, 0x44419000 },
108	{ 162, 0x44419000 }, { 175, 0x44419000 }, { 189, 0x44419000 },
109	{ 195, 0x44419000 }, { 202, 0x44419000 }, { 204, 0x44419000 },
110};
111
112void round_off_xres(u32 *xres) { }
113void round_off_yres(u32 *xres, u32 *yres) { }
114
115/**
116 * i810fb_encode_registers - encode @var to hardware register values
117 * @var: pointer to var structure
118 * @par: pointer to hardware par structure
119 *
120 * DESCRIPTION:
121 * Timing values in @var will be converted to appropriate
122 * register values of @par.
123 */
124void i810fb_encode_registers(const struct fb_var_screeninfo *var,
125			     struct i810fb_par *par, u32 xres, u32 yres)
126{
127	int n, blank_s, blank_e;
128	u8 __iomem *mmio = par->mmio_start_virtual;
129	u8 msr = 0;
130
131	/* Horizontal */
132	/* htotal */
133	n = ((xres + var->right_margin + var->hsync_len +
134	      var->left_margin) >> 3) - 5;
135	par->regs.cr00 =  (u8) n;
136	par->regs.cr35 = (u8) ((n >> 8) & 1);
137
138	/* xres */
139	par->regs.cr01 = (u8) ((xres >> 3) - 1);
140
141	/* hblank */
142	blank_e = (xres + var->right_margin + var->hsync_len +
143		   var->left_margin) >> 3;
144	blank_e--;
145	blank_s = blank_e - 127;
146	if (blank_s < (xres >> 3))
147		blank_s = xres >> 3;
148	par->regs.cr02 = (u8) blank_s;
149	par->regs.cr03 = (u8) (blank_e & 0x1F);
150	par->regs.cr05 = (u8) ((blank_e & (1 << 5)) << 2);
151	par->regs.cr39 = (u8) ((blank_e >> 6) & 1);
152
153	/* hsync */
154	par->regs.cr04 = (u8) ((xres + var->right_margin) >> 3);
155	par->regs.cr05 |= (u8) (((xres + var->right_margin +
156				  var->hsync_len) >> 3) & 0x1F);
157
158       	/* Vertical */
159	/* vtotal */
160	n = yres + var->lower_margin + var->vsync_len + var->upper_margin - 2;
161	par->regs.cr06 = (u8) (n & 0xFF);
162	par->regs.cr30 = (u8) ((n >> 8) & 0x0F);
163
164	/* vsync */
165	n = yres + var->lower_margin;
166	par->regs.cr10 = (u8) (n & 0xFF);
167	par->regs.cr32 = (u8) ((n >> 8) & 0x0F);
168	par->regs.cr11 = i810_readb(CR11, mmio) & ~0x0F;
169	par->regs.cr11 |= (u8) ((yres + var->lower_margin +
170				 var->vsync_len) & 0x0F);
171
172	/* yres */
173	n = yres - 1;
174	par->regs.cr12 = (u8) (n & 0xFF);
175	par->regs.cr31 = (u8) ((n >> 8) & 0x0F);
176
177	/* vblank */
178	blank_e = yres + var->lower_margin + var->vsync_len +
179		var->upper_margin;
180	blank_e--;
181	blank_s = blank_e - 127;
182	if (blank_s < yres)
183		blank_s = yres;
184	par->regs.cr15 = (u8) (blank_s & 0xFF);
185	par->regs.cr33 = (u8) ((blank_s >> 8) & 0x0F);
186	par->regs.cr16 = (u8) (blank_e & 0xFF);
187	par->regs.cr09 = 0;
188
189	/* sync polarity */
190	if (!(var->sync & FB_SYNC_HOR_HIGH_ACT))
191		msr |= 1 << 6;
192	if (!(var->sync & FB_SYNC_VERT_HIGH_ACT))
193		msr |= 1 << 7;
194	par->regs.msr = msr;
195
196	/* interlace */
197	if (var->vmode & FB_VMODE_INTERLACED)
198		par->interlace = (1 << 7) | ((u8) (var->yres >> 4));
199	else
200		par->interlace = 0;
201
202	if (var->vmode & FB_VMODE_DOUBLE)
203		par->regs.cr09 |= 1 << 7;
204
205	/* overlay */
206	par->ovract = ((var->xres + var->right_margin + var->hsync_len +
207			var->left_margin - 32) | ((var->xres - 32) << 16));
208}
209
210void i810fb_fill_var_timings(struct fb_var_screeninfo *var) { }
211
212/**
213 * i810_get_watermark - gets watermark
214 * @var: pointer to fb_var_screeninfo
215 * @par: pointer to i810fb_par structure
216 *
217 * DESCRIPTION:
218 * Gets the required watermark based on
219 * pixelclock and RAMBUS frequency.
220 *
221 * RETURNS:
222 * watermark
223 */
224u32 i810_get_watermark(const struct fb_var_screeninfo *var,
225		       struct i810fb_par *par)
226{
227	struct wm_info *wmark = NULL;
228	u32 i, size = 0, pixclock, wm_best = 0, min, diff;
229
230	if (par->mem_freq == 100) {
231		switch (var->bits_per_pixel) {
232		case 8:
233			wmark = i810_wm_8_100;
234			size = ARRAY_SIZE(i810_wm_8_100);
235			break;
236		case 16:
237			wmark = i810_wm_16_100;
238			size = ARRAY_SIZE(i810_wm_16_100);
239			break;
240		case 24:
241		case 32:
242			wmark = i810_wm_24_100;
243			size = ARRAY_SIZE(i810_wm_24_100);
244		}
245	} else {
246		switch(var->bits_per_pixel) {
247		case 8:
248			wmark = i810_wm_8_133;
249			size = ARRAY_SIZE(i810_wm_8_133);
250			break;
251		case 16:
252			wmark = i810_wm_16_133;
253			size = ARRAY_SIZE(i810_wm_16_133);
254			break;
255		case 24:
256		case 32:
257			wmark = i810_wm_24_133;
258			size = ARRAY_SIZE(i810_wm_24_133);
259		}
260	}
261
262	pixclock = 1000000/var->pixclock;
263	min = ~0;
264	for (i = 0; i < size; i++) {
265		if (pixclock <= wmark[i].freq)
266			diff = wmark[i].freq - pixclock;
267		else
268			diff = pixclock - wmark[i].freq;
269		if (diff < min) {
270			wm_best = wmark[i].wm;
271			min = diff;
272		}
273	}
274	return wm_best;
275}
276
277