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1/*
2 * Copyright © 2006-2008 Intel Corporation
3 * Jesse Barnes <jesse.barnes@intel.com>
4 *
5 * Permission is hereby granted, free of charge, to any person obtaining a
6 * copy of this software and associated documentation files (the "Software"),
7 * to deal in the Software without restriction, including without limitation
8 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9 * and/or sell copies of the Software, and to permit persons to whom the
10 * Software is furnished to do so, subject to the following conditions:
11 *
12 * The above copyright notice and this permission notice (including the next
13 * paragraph) shall be included in all copies or substantial portions of the
14 * Software.
15 *
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22 * DEALINGS IN THE SOFTWARE.
23 *
24 * Authors:
25 * Eric Anholt <eric@anholt.net>
26 *
27 */
28
29/** @file
30 * Integrated TV-out support for the 915GM and 945GM.
31 */
32
33#include "drmP.h"
34#include "drm.h"
35#include "drm_crtc.h"
36#include "drm_edid.h"
37#include "intel_drv.h"
38#include "i915_drm.h"
39#include "i915_drv.h"
40
41enum tv_margin {
42 TV_MARGIN_LEFT, TV_MARGIN_TOP,
43 TV_MARGIN_RIGHT, TV_MARGIN_BOTTOM
44};
45
46/** Private structure for the integrated TV support */
47struct intel_tv {
48 struct intel_encoder base;
49
50 int type;
51 const char *tv_format;
52 int margin[4];
53 u32 save_TV_H_CTL_1;
54 u32 save_TV_H_CTL_2;
55 u32 save_TV_H_CTL_3;
56 u32 save_TV_V_CTL_1;
57 u32 save_TV_V_CTL_2;
58 u32 save_TV_V_CTL_3;
59 u32 save_TV_V_CTL_4;
60 u32 save_TV_V_CTL_5;
61 u32 save_TV_V_CTL_6;
62 u32 save_TV_V_CTL_7;
63 u32 save_TV_SC_CTL_1, save_TV_SC_CTL_2, save_TV_SC_CTL_3;
64
65 u32 save_TV_CSC_Y;
66 u32 save_TV_CSC_Y2;
67 u32 save_TV_CSC_U;
68 u32 save_TV_CSC_U2;
69 u32 save_TV_CSC_V;
70 u32 save_TV_CSC_V2;
71 u32 save_TV_CLR_KNOBS;
72 u32 save_TV_CLR_LEVEL;
73 u32 save_TV_WIN_POS;
74 u32 save_TV_WIN_SIZE;
75 u32 save_TV_FILTER_CTL_1;
76 u32 save_TV_FILTER_CTL_2;
77 u32 save_TV_FILTER_CTL_3;
78
79 u32 save_TV_H_LUMA[60];
80 u32 save_TV_H_CHROMA[60];
81 u32 save_TV_V_LUMA[43];
82 u32 save_TV_V_CHROMA[43];
83
84 u32 save_TV_DAC;
85 u32 save_TV_CTL;
86};
87
88struct video_levels {
89 int blank, black, burst;
90};
91
92struct color_conversion {
93 u16 ry, gy, by, ay;
94 u16 ru, gu, bu, au;
95 u16 rv, gv, bv, av;
96};
97
98static const u32 filter_table[] = {
99 0xB1403000, 0x2E203500, 0x35002E20, 0x3000B140,
100 0x35A0B160, 0x2DC02E80, 0xB1403480, 0xB1603000,
101 0x2EA03640, 0x34002D80, 0x3000B120, 0x36E0B160,
102 0x2D202EF0, 0xB1203380, 0xB1603000, 0x2F303780,
103 0x33002CC0, 0x3000B100, 0x3820B160, 0x2C802F50,
104 0xB10032A0, 0xB1603000, 0x2F9038C0, 0x32202C20,
105 0x3000B0E0, 0x3980B160, 0x2BC02FC0, 0xB0E031C0,
106 0xB1603000, 0x2FF03A20, 0x31602B60, 0xB020B0C0,
107 0x3AE0B160, 0x2B001810, 0xB0C03120, 0xB140B020,
108 0x18283BA0, 0x30C02A80, 0xB020B0A0, 0x3C60B140,
109 0x2A201838, 0xB0A03080, 0xB120B020, 0x18383D20,
110 0x304029C0, 0xB040B080, 0x3DE0B100, 0x29601848,
111 0xB0803000, 0xB100B040, 0x18483EC0, 0xB0402900,
112 0xB040B060, 0x3F80B0C0, 0x28801858, 0xB060B080,
113 0xB0A0B060, 0x18602820, 0xB0A02820, 0x0000B060,
114 0xB1403000, 0x2E203500, 0x35002E20, 0x3000B140,
115 0x35A0B160, 0x2DC02E80, 0xB1403480, 0xB1603000,
116 0x2EA03640, 0x34002D80, 0x3000B120, 0x36E0B160,
117 0x2D202EF0, 0xB1203380, 0xB1603000, 0x2F303780,
118 0x33002CC0, 0x3000B100, 0x3820B160, 0x2C802F50,
119 0xB10032A0, 0xB1603000, 0x2F9038C0, 0x32202C20,
120 0x3000B0E0, 0x3980B160, 0x2BC02FC0, 0xB0E031C0,
121 0xB1603000, 0x2FF03A20, 0x31602B60, 0xB020B0C0,
122 0x3AE0B160, 0x2B001810, 0xB0C03120, 0xB140B020,
123 0x18283BA0, 0x30C02A80, 0xB020B0A0, 0x3C60B140,
124 0x2A201838, 0xB0A03080, 0xB120B020, 0x18383D20,
125 0x304029C0, 0xB040B080, 0x3DE0B100, 0x29601848,
126 0xB0803000, 0xB100B040, 0x18483EC0, 0xB0402900,
127 0xB040B060, 0x3F80B0C0, 0x28801858, 0xB060B080,
128 0xB0A0B060, 0x18602820, 0xB0A02820, 0x0000B060,
129 0x36403000, 0x2D002CC0, 0x30003640, 0x2D0036C0,
130 0x35C02CC0, 0x37403000, 0x2C802D40, 0x30003540,
131 0x2D8037C0, 0x34C02C40, 0x38403000, 0x2BC02E00,
132 0x30003440, 0x2E2038C0, 0x34002B80, 0x39803000,
133 0x2B402E40, 0x30003380, 0x2E603A00, 0x33402B00,
134 0x3A803040, 0x2A802EA0, 0x30403300, 0x2EC03B40,
135 0x32802A40, 0x3C003040, 0x2A002EC0, 0x30803240,
136 0x2EC03C80, 0x320029C0, 0x3D403080, 0x29402F00,
137 0x308031C0, 0x2F203DC0, 0x31802900, 0x3E8030C0,
138 0x28802F40, 0x30C03140, 0x2F203F40, 0x31402840,
139 0x28003100, 0x28002F00, 0x00003100, 0x36403000,
140 0x2D002CC0, 0x30003640, 0x2D0036C0,
141 0x35C02CC0, 0x37403000, 0x2C802D40, 0x30003540,
142 0x2D8037C0, 0x34C02C40, 0x38403000, 0x2BC02E00,
143 0x30003440, 0x2E2038C0, 0x34002B80, 0x39803000,
144 0x2B402E40, 0x30003380, 0x2E603A00, 0x33402B00,
145 0x3A803040, 0x2A802EA0, 0x30403300, 0x2EC03B40,
146 0x32802A40, 0x3C003040, 0x2A002EC0, 0x30803240,
147 0x2EC03C80, 0x320029C0, 0x3D403080, 0x29402F00,
148 0x308031C0, 0x2F203DC0, 0x31802900, 0x3E8030C0,
149 0x28802F40, 0x30C03140, 0x2F203F40, 0x31402840,
150 0x28003100, 0x28002F00, 0x00003100,
151};
152
153/*
154 * Color conversion values have 3 separate fixed point formats:
155 *
156 * 10 bit fields (ay, au)
157 * 1.9 fixed point (b.bbbbbbbbb)
158 * 11 bit fields (ry, by, ru, gu, gv)
159 * exp.mantissa (ee.mmmmmmmmm)
160 * ee = 00 = 10^-1 (0.mmmmmmmmm)
161 * ee = 01 = 10^-2 (0.0mmmmmmmmm)
162 * ee = 10 = 10^-3 (0.00mmmmmmmmm)
163 * ee = 11 = 10^-4 (0.000mmmmmmmmm)
164 * 12 bit fields (gy, rv, bu)
165 * exp.mantissa (eee.mmmmmmmmm)
166 * eee = 000 = 10^-1 (0.mmmmmmmmm)
167 * eee = 001 = 10^-2 (0.0mmmmmmmmm)
168 * eee = 010 = 10^-3 (0.00mmmmmmmmm)
169 * eee = 011 = 10^-4 (0.000mmmmmmmmm)
170 * eee = 100 = reserved
171 * eee = 101 = reserved
172 * eee = 110 = reserved
173 * eee = 111 = 10^0 (m.mmmmmmmm) (only usable for 1.0 representation)
174 *
175 * Saturation and contrast are 8 bits, with their own representation:
176 * 8 bit field (saturation, contrast)
177 * exp.mantissa (ee.mmmmmm)
178 * ee = 00 = 10^-1 (0.mmmmmm)
179 * ee = 01 = 10^0 (m.mmmmm)
180 * ee = 10 = 10^1 (mm.mmmm)
181 * ee = 11 = 10^2 (mmm.mmm)
182 *
183 * Simple conversion function:
184 *
185 * static u32
186 * float_to_csc_11(float f)
187 * {
188 * u32 exp;
189 * u32 mant;
190 * u32 ret;
191 *
192 * if (f < 0)
193 * f = -f;
194 *
195 * if (f >= 1) {
196 * exp = 0x7;
197 * mant = 1 << 8;
198 * } else {
199 * for (exp = 0; exp < 3 && f < 0.5; exp++)
200 * f *= 2.0;
201 * mant = (f * (1 << 9) + 0.5);
202 * if (mant >= (1 << 9))
203 * mant = (1 << 9) - 1;
204 * }
205 * ret = (exp << 9) | mant;
206 * return ret;
207 * }
208 */
209
210/*
211 * Behold, magic numbers! If we plant them they might grow a big
212 * s-video cable to the sky... or something.
213 *
214 * Pre-converted to appropriate hex value.
215 */
216
217/*
218 * PAL & NTSC values for composite & s-video connections
219 */
220static const struct color_conversion ntsc_m_csc_composite = {
221 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0104,
222 .ru = 0x0733, .gu = 0x052d, .bu = 0x05c7, .au = 0x0200,
223 .rv = 0x0340, .gv = 0x030c, .bv = 0x06d0, .av = 0x0200,
224};
225
226static const struct video_levels ntsc_m_levels_composite = {
227 .blank = 225, .black = 267, .burst = 113,
228};
229
230static const struct color_conversion ntsc_m_csc_svideo = {
231 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0133,
232 .ru = 0x076a, .gu = 0x0564, .bu = 0x030d, .au = 0x0200,
233 .rv = 0x037a, .gv = 0x033d, .bv = 0x06f6, .av = 0x0200,
234};
235
236static const struct video_levels ntsc_m_levels_svideo = {
237 .blank = 266, .black = 316, .burst = 133,
238};
239
240static const struct color_conversion ntsc_j_csc_composite = {
241 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0119,
242 .ru = 0x074c, .gu = 0x0546, .bu = 0x05ec, .au = 0x0200,
243 .rv = 0x035a, .gv = 0x0322, .bv = 0x06e1, .av = 0x0200,
244};
245
246static const struct video_levels ntsc_j_levels_composite = {
247 .blank = 225, .black = 225, .burst = 113,
248};
249
250static const struct color_conversion ntsc_j_csc_svideo = {
251 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x014c,
252 .ru = 0x0788, .gu = 0x0581, .bu = 0x0322, .au = 0x0200,
253 .rv = 0x0399, .gv = 0x0356, .bv = 0x070a, .av = 0x0200,
254};
255
256static const struct video_levels ntsc_j_levels_svideo = {
257 .blank = 266, .black = 266, .burst = 133,
258};
259
260static const struct color_conversion pal_csc_composite = {
261 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0113,
262 .ru = 0x0745, .gu = 0x053f, .bu = 0x05e1, .au = 0x0200,
263 .rv = 0x0353, .gv = 0x031c, .bv = 0x06dc, .av = 0x0200,
264};
265
266static const struct video_levels pal_levels_composite = {
267 .blank = 237, .black = 237, .burst = 118,
268};
269
270static const struct color_conversion pal_csc_svideo = {
271 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0145,
272 .ru = 0x0780, .gu = 0x0579, .bu = 0x031c, .au = 0x0200,
273 .rv = 0x0390, .gv = 0x034f, .bv = 0x0705, .av = 0x0200,
274};
275
276static const struct video_levels pal_levels_svideo = {
277 .blank = 280, .black = 280, .burst = 139,
278};
279
280static const struct color_conversion pal_m_csc_composite = {
281 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0104,
282 .ru = 0x0733, .gu = 0x052d, .bu = 0x05c7, .au = 0x0200,
283 .rv = 0x0340, .gv = 0x030c, .bv = 0x06d0, .av = 0x0200,
284};
285
286static const struct video_levels pal_m_levels_composite = {
287 .blank = 225, .black = 267, .burst = 113,
288};
289
290static const struct color_conversion pal_m_csc_svideo = {
291 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0133,
292 .ru = 0x076a, .gu = 0x0564, .bu = 0x030d, .au = 0x0200,
293 .rv = 0x037a, .gv = 0x033d, .bv = 0x06f6, .av = 0x0200,
294};
295
296static const struct video_levels pal_m_levels_svideo = {
297 .blank = 266, .black = 316, .burst = 133,
298};
299
300static const struct color_conversion pal_n_csc_composite = {
301 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0104,
302 .ru = 0x0733, .gu = 0x052d, .bu = 0x05c7, .au = 0x0200,
303 .rv = 0x0340, .gv = 0x030c, .bv = 0x06d0, .av = 0x0200,
304};
305
306static const struct video_levels pal_n_levels_composite = {
307 .blank = 225, .black = 267, .burst = 118,
308};
309
310static const struct color_conversion pal_n_csc_svideo = {
311 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0133,
312 .ru = 0x076a, .gu = 0x0564, .bu = 0x030d, .au = 0x0200,
313 .rv = 0x037a, .gv = 0x033d, .bv = 0x06f6, .av = 0x0200,
314};
315
316static const struct video_levels pal_n_levels_svideo = {
317 .blank = 266, .black = 316, .burst = 139,
318};
319
320/*
321 * Component connections
322 */
323static const struct color_conversion sdtv_csc_yprpb = {
324 .ry = 0x0332, .gy = 0x012d, .by = 0x07d3, .ay = 0x0145,
325 .ru = 0x0559, .gu = 0x0353, .bu = 0x0100, .au = 0x0200,
326 .rv = 0x0100, .gv = 0x03ad, .bv = 0x074d, .av = 0x0200,
327};
328
329static const struct color_conversion sdtv_csc_rgb = {
330 .ry = 0x0000, .gy = 0x0f00, .by = 0x0000, .ay = 0x0166,
331 .ru = 0x0000, .gu = 0x0000, .bu = 0x0f00, .au = 0x0166,
332 .rv = 0x0f00, .gv = 0x0000, .bv = 0x0000, .av = 0x0166,
333};
334
335static const struct color_conversion hdtv_csc_yprpb = {
336 .ry = 0x05b3, .gy = 0x016e, .by = 0x0728, .ay = 0x0145,
337 .ru = 0x07d5, .gu = 0x038b, .bu = 0x0100, .au = 0x0200,
338 .rv = 0x0100, .gv = 0x03d1, .bv = 0x06bc, .av = 0x0200,
339};
340
341static const struct color_conversion hdtv_csc_rgb = {
342 .ry = 0x0000, .gy = 0x0f00, .by = 0x0000, .ay = 0x0166,
343 .ru = 0x0000, .gu = 0x0000, .bu = 0x0f00, .au = 0x0166,
344 .rv = 0x0f00, .gv = 0x0000, .bv = 0x0000, .av = 0x0166,
345};
346
347static const struct video_levels component_levels = {
348 .blank = 279, .black = 279, .burst = 0,
349};
350
351
352struct tv_mode {
353 const char *name;
354 int clock;
355 int refresh; /* in millihertz (for precision) */
356 u32 oversample;
357 int hsync_end, hblank_start, hblank_end, htotal;
358 bool progressive, trilevel_sync, component_only;
359 int vsync_start_f1, vsync_start_f2, vsync_len;
360 bool veq_ena;
361 int veq_start_f1, veq_start_f2, veq_len;
362 int vi_end_f1, vi_end_f2, nbr_end;
363 bool burst_ena;
364 int hburst_start, hburst_len;
365 int vburst_start_f1, vburst_end_f1;
366 int vburst_start_f2, vburst_end_f2;
367 int vburst_start_f3, vburst_end_f3;
368 int vburst_start_f4, vburst_end_f4;
369 /*
370 * subcarrier programming
371 */
372 int dda2_size, dda3_size, dda1_inc, dda2_inc, dda3_inc;
373 u32 sc_reset;
374 bool pal_burst;
375 /*
376 * blank/black levels
377 */
378 const struct video_levels *composite_levels, *svideo_levels;
379 const struct color_conversion *composite_color, *svideo_color;
380 const u32 *filter_table;
381 int max_srcw;
382};
383
384
385/*
386 * Sub carrier DDA
387 *
388 * I think this works as follows:
389 *
390 * subcarrier freq = pixel_clock * (dda1_inc + dda2_inc / dda2_size) / 4096
391 *
392 * Presumably, when dda3 is added in, it gets to adjust the dda2_inc value
393 *
394 * So,
395 * dda1_ideal = subcarrier/pixel * 4096
396 * dda1_inc = floor (dda1_ideal)
397 * dda2 = dda1_ideal - dda1_inc
398 *
399 * then pick a ratio for dda2 that gives the closest approximation. If
400 * you can't get close enough, you can play with dda3 as well. This
401 * seems likely to happen when dda2 is small as the jumps would be larger
402 *
403 * To invert this,
404 *
405 * pixel_clock = subcarrier * 4096 / (dda1_inc + dda2_inc / dda2_size)
406 *
407 * The constants below were all computed using a 107.520MHz clock
408 */
409
410/**
411 * Register programming values for TV modes.
412 *
413 * These values account for -1s required.
414 */
415
416static const struct tv_mode tv_modes[] = {
417 {
418 .name = "NTSC-M",
419 .clock = 108000,
420 .refresh = 59940,
421 .oversample = TV_OVERSAMPLE_8X,
422 .component_only = 0,
423 /* 525 Lines, 60 Fields, 15.734KHz line, Sub-Carrier 3.580MHz */
424
425 .hsync_end = 64, .hblank_end = 124,
426 .hblank_start = 836, .htotal = 857,
427
428 .progressive = false, .trilevel_sync = false,
429
430 .vsync_start_f1 = 6, .vsync_start_f2 = 7,
431 .vsync_len = 6,
432
433 .veq_ena = true, .veq_start_f1 = 0,
434 .veq_start_f2 = 1, .veq_len = 18,
435
436 .vi_end_f1 = 20, .vi_end_f2 = 21,
437 .nbr_end = 240,
438
439 .burst_ena = true,
440 .hburst_start = 72, .hburst_len = 34,
441 .vburst_start_f1 = 9, .vburst_end_f1 = 240,
442 .vburst_start_f2 = 10, .vburst_end_f2 = 240,
443 .vburst_start_f3 = 9, .vburst_end_f3 = 240,
444 .vburst_start_f4 = 10, .vburst_end_f4 = 240,
445
446 /* desired 3.5800000 actual 3.5800000 clock 107.52 */
447 .dda1_inc = 135,
448 .dda2_inc = 20800, .dda2_size = 27456,
449 .dda3_inc = 0, .dda3_size = 0,
450 .sc_reset = TV_SC_RESET_EVERY_4,
451 .pal_burst = false,
452
453 .composite_levels = &ntsc_m_levels_composite,
454 .composite_color = &ntsc_m_csc_composite,
455 .svideo_levels = &ntsc_m_levels_svideo,
456 .svideo_color = &ntsc_m_csc_svideo,
457
458 .filter_table = filter_table,
459 },
460 {
461 .name = "NTSC-443",
462 .clock = 108000,
463 .refresh = 59940,
464 .oversample = TV_OVERSAMPLE_8X,
465 .component_only = 0,
466 /* 525 Lines, 60 Fields, 15.734KHz line, Sub-Carrier 4.43MHz */
467 .hsync_end = 64, .hblank_end = 124,
468 .hblank_start = 836, .htotal = 857,
469
470 .progressive = false, .trilevel_sync = false,
471
472 .vsync_start_f1 = 6, .vsync_start_f2 = 7,
473 .vsync_len = 6,
474
475 .veq_ena = true, .veq_start_f1 = 0,
476 .veq_start_f2 = 1, .veq_len = 18,
477
478 .vi_end_f1 = 20, .vi_end_f2 = 21,
479 .nbr_end = 240,
480
481 .burst_ena = true,
482 .hburst_start = 72, .hburst_len = 34,
483 .vburst_start_f1 = 9, .vburst_end_f1 = 240,
484 .vburst_start_f2 = 10, .vburst_end_f2 = 240,
485 .vburst_start_f3 = 9, .vburst_end_f3 = 240,
486 .vburst_start_f4 = 10, .vburst_end_f4 = 240,
487
488 /* desired 4.4336180 actual 4.4336180 clock 107.52 */
489 .dda1_inc = 168,
490 .dda2_inc = 4093, .dda2_size = 27456,
491 .dda3_inc = 310, .dda3_size = 525,
492 .sc_reset = TV_SC_RESET_NEVER,
493 .pal_burst = false,
494
495 .composite_levels = &ntsc_m_levels_composite,
496 .composite_color = &ntsc_m_csc_composite,
497 .svideo_levels = &ntsc_m_levels_svideo,
498 .svideo_color = &ntsc_m_csc_svideo,
499
500 .filter_table = filter_table,
501 },
502 {
503 .name = "NTSC-J",
504 .clock = 108000,
505 .refresh = 59940,
506 .oversample = TV_OVERSAMPLE_8X,
507 .component_only = 0,
508
509 /* 525 Lines, 60 Fields, 15.734KHz line, Sub-Carrier 3.580MHz */
510 .hsync_end = 64, .hblank_end = 124,
511 .hblank_start = 836, .htotal = 857,
512
513 .progressive = false, .trilevel_sync = false,
514
515 .vsync_start_f1 = 6, .vsync_start_f2 = 7,
516 .vsync_len = 6,
517
518 .veq_ena = true, .veq_start_f1 = 0,
519 .veq_start_f2 = 1, .veq_len = 18,
520
521 .vi_end_f1 = 20, .vi_end_f2 = 21,
522 .nbr_end = 240,
523
524 .burst_ena = true,
525 .hburst_start = 72, .hburst_len = 34,
526 .vburst_start_f1 = 9, .vburst_end_f1 = 240,
527 .vburst_start_f2 = 10, .vburst_end_f2 = 240,
528 .vburst_start_f3 = 9, .vburst_end_f3 = 240,
529 .vburst_start_f4 = 10, .vburst_end_f4 = 240,
530
531 /* desired 3.5800000 actual 3.5800000 clock 107.52 */
532 .dda1_inc = 135,
533 .dda2_inc = 20800, .dda2_size = 27456,
534 .dda3_inc = 0, .dda3_size = 0,
535 .sc_reset = TV_SC_RESET_EVERY_4,
536 .pal_burst = false,
537
538 .composite_levels = &ntsc_j_levels_composite,
539 .composite_color = &ntsc_j_csc_composite,
540 .svideo_levels = &ntsc_j_levels_svideo,
541 .svideo_color = &ntsc_j_csc_svideo,
542
543 .filter_table = filter_table,
544 },
545 {
546 .name = "PAL-M",
547 .clock = 108000,
548 .refresh = 59940,
549 .oversample = TV_OVERSAMPLE_8X,
550 .component_only = 0,
551
552 /* 525 Lines, 60 Fields, 15.734KHz line, Sub-Carrier 3.580MHz */
553 .hsync_end = 64, .hblank_end = 124,
554 .hblank_start = 836, .htotal = 857,
555
556 .progressive = false, .trilevel_sync = false,
557
558 .vsync_start_f1 = 6, .vsync_start_f2 = 7,
559 .vsync_len = 6,
560
561 .veq_ena = true, .veq_start_f1 = 0,
562 .veq_start_f2 = 1, .veq_len = 18,
563
564 .vi_end_f1 = 20, .vi_end_f2 = 21,
565 .nbr_end = 240,
566
567 .burst_ena = true,
568 .hburst_start = 72, .hburst_len = 34,
569 .vburst_start_f1 = 9, .vburst_end_f1 = 240,
570 .vburst_start_f2 = 10, .vburst_end_f2 = 240,
571 .vburst_start_f3 = 9, .vburst_end_f3 = 240,
572 .vburst_start_f4 = 10, .vburst_end_f4 = 240,
573
574 /* desired 3.5800000 actual 3.5800000 clock 107.52 */
575 .dda1_inc = 135,
576 .dda2_inc = 16704, .dda2_size = 27456,
577 .dda3_inc = 0, .dda3_size = 0,
578 .sc_reset = TV_SC_RESET_EVERY_8,
579 .pal_burst = true,
580
581 .composite_levels = &pal_m_levels_composite,
582 .composite_color = &pal_m_csc_composite,
583 .svideo_levels = &pal_m_levels_svideo,
584 .svideo_color = &pal_m_csc_svideo,
585
586 .filter_table = filter_table,
587 },
588 {
589 /* 625 Lines, 50 Fields, 15.625KHz line, Sub-Carrier 4.434MHz */
590 .name = "PAL-N",
591 .clock = 108000,
592 .refresh = 50000,
593 .oversample = TV_OVERSAMPLE_8X,
594 .component_only = 0,
595
596 .hsync_end = 64, .hblank_end = 128,
597 .hblank_start = 844, .htotal = 863,
598
599 .progressive = false, .trilevel_sync = false,
600
601
602 .vsync_start_f1 = 6, .vsync_start_f2 = 7,
603 .vsync_len = 6,
604
605 .veq_ena = true, .veq_start_f1 = 0,
606 .veq_start_f2 = 1, .veq_len = 18,
607
608 .vi_end_f1 = 24, .vi_end_f2 = 25,
609 .nbr_end = 286,
610
611 .burst_ena = true,
612 .hburst_start = 73, .hburst_len = 34,
613 .vburst_start_f1 = 8, .vburst_end_f1 = 285,
614 .vburst_start_f2 = 8, .vburst_end_f2 = 286,
615 .vburst_start_f3 = 9, .vburst_end_f3 = 286,
616 .vburst_start_f4 = 9, .vburst_end_f4 = 285,
617
618
619 /* desired 4.4336180 actual 4.4336180 clock 107.52 */
620 .dda1_inc = 135,
621 .dda2_inc = 23578, .dda2_size = 27648,
622 .dda3_inc = 134, .dda3_size = 625,
623 .sc_reset = TV_SC_RESET_EVERY_8,
624 .pal_burst = true,
625
626 .composite_levels = &pal_n_levels_composite,
627 .composite_color = &pal_n_csc_composite,
628 .svideo_levels = &pal_n_levels_svideo,
629 .svideo_color = &pal_n_csc_svideo,
630
631 .filter_table = filter_table,
632 },
633 {
634 /* 625 Lines, 50 Fields, 15.625KHz line, Sub-Carrier 4.434MHz */
635 .name = "PAL",
636 .clock = 108000,
637 .refresh = 50000,
638 .oversample = TV_OVERSAMPLE_8X,
639 .component_only = 0,
640
641 .hsync_end = 64, .hblank_end = 142,
642 .hblank_start = 844, .htotal = 863,
643
644 .progressive = false, .trilevel_sync = false,
645
646 .vsync_start_f1 = 5, .vsync_start_f2 = 6,
647 .vsync_len = 5,
648
649 .veq_ena = true, .veq_start_f1 = 0,
650 .veq_start_f2 = 1, .veq_len = 15,
651
652 .vi_end_f1 = 24, .vi_end_f2 = 25,
653 .nbr_end = 286,
654
655 .burst_ena = true,
656 .hburst_start = 73, .hburst_len = 32,
657 .vburst_start_f1 = 8, .vburst_end_f1 = 285,
658 .vburst_start_f2 = 8, .vburst_end_f2 = 286,
659 .vburst_start_f3 = 9, .vburst_end_f3 = 286,
660 .vburst_start_f4 = 9, .vburst_end_f4 = 285,
661
662 /* desired 4.4336180 actual 4.4336180 clock 107.52 */
663 .dda1_inc = 168,
664 .dda2_inc = 4122, .dda2_size = 27648,
665 .dda3_inc = 67, .dda3_size = 625,
666 .sc_reset = TV_SC_RESET_EVERY_8,
667 .pal_burst = true,
668
669 .composite_levels = &pal_levels_composite,
670 .composite_color = &pal_csc_composite,
671 .svideo_levels = &pal_levels_svideo,
672 .svideo_color = &pal_csc_svideo,
673
674 .filter_table = filter_table,
675 },
676 {
677 .name = "480p",
678 .clock = 107520,
679 .refresh = 59940,
680 .oversample = TV_OVERSAMPLE_4X,
681 .component_only = 1,
682
683 .hsync_end = 64, .hblank_end = 122,
684 .hblank_start = 842, .htotal = 857,
685
686 .progressive = true, .trilevel_sync = false,
687
688 .vsync_start_f1 = 12, .vsync_start_f2 = 12,
689 .vsync_len = 12,
690
691 .veq_ena = false,
692
693 .vi_end_f1 = 44, .vi_end_f2 = 44,
694 .nbr_end = 479,
695
696 .burst_ena = false,
697
698 .filter_table = filter_table,
699 },
700 {
701 .name = "576p",
702 .clock = 107520,
703 .refresh = 50000,
704 .oversample = TV_OVERSAMPLE_4X,
705 .component_only = 1,
706
707 .hsync_end = 64, .hblank_end = 139,
708 .hblank_start = 859, .htotal = 863,
709
710 .progressive = true, .trilevel_sync = false,
711
712 .vsync_start_f1 = 10, .vsync_start_f2 = 10,
713 .vsync_len = 10,
714
715 .veq_ena = false,
716
717 .vi_end_f1 = 48, .vi_end_f2 = 48,
718 .nbr_end = 575,
719
720 .burst_ena = false,
721
722 .filter_table = filter_table,
723 },
724 {
725 .name = "720p@60Hz",
726 .clock = 148800,
727 .refresh = 60000,
728 .oversample = TV_OVERSAMPLE_2X,
729 .component_only = 1,
730
731 .hsync_end = 80, .hblank_end = 300,
732 .hblank_start = 1580, .htotal = 1649,
733
734 .progressive = true, .trilevel_sync = true,
735
736 .vsync_start_f1 = 10, .vsync_start_f2 = 10,
737 .vsync_len = 10,
738
739 .veq_ena = false,
740
741 .vi_end_f1 = 29, .vi_end_f2 = 29,
742 .nbr_end = 719,
743
744 .burst_ena = false,
745
746 .filter_table = filter_table,
747 },
748 {
749 .name = "720p@50Hz",
750 .clock = 148800,
751 .refresh = 50000,
752 .oversample = TV_OVERSAMPLE_2X,
753 .component_only = 1,
754
755 .hsync_end = 80, .hblank_end = 300,
756 .hblank_start = 1580, .htotal = 1979,
757
758 .progressive = true, .trilevel_sync = true,
759
760 .vsync_start_f1 = 10, .vsync_start_f2 = 10,
761 .vsync_len = 10,
762
763 .veq_ena = false,
764
765 .vi_end_f1 = 29, .vi_end_f2 = 29,
766 .nbr_end = 719,
767
768 .burst_ena = false,
769
770 .filter_table = filter_table,
771 .max_srcw = 800
772 },
773 {
774 .name = "1080i@50Hz",
775 .clock = 148800,
776 .refresh = 50000,
777 .oversample = TV_OVERSAMPLE_2X,
778 .component_only = 1,
779
780 .hsync_end = 88, .hblank_end = 235,
781 .hblank_start = 2155, .htotal = 2639,
782
783 .progressive = false, .trilevel_sync = true,
784
785 .vsync_start_f1 = 4, .vsync_start_f2 = 5,
786 .vsync_len = 10,
787
788 .veq_ena = true, .veq_start_f1 = 4,
789 .veq_start_f2 = 4, .veq_len = 10,
790
791
792 .vi_end_f1 = 21, .vi_end_f2 = 22,
793 .nbr_end = 539,
794
795 .burst_ena = false,
796
797 .filter_table = filter_table,
798 },
799 {
800 .name = "1080i@60Hz",
801 .clock = 148800,
802 .refresh = 60000,
803 .oversample = TV_OVERSAMPLE_2X,
804 .component_only = 1,
805
806 .hsync_end = 88, .hblank_end = 235,
807 .hblank_start = 2155, .htotal = 2199,
808
809 .progressive = false, .trilevel_sync = true,
810
811 .vsync_start_f1 = 4, .vsync_start_f2 = 5,
812 .vsync_len = 10,
813
814 .veq_ena = true, .veq_start_f1 = 4,
815 .veq_start_f2 = 4, .veq_len = 10,
816
817
818 .vi_end_f1 = 21, .vi_end_f2 = 22,
819 .nbr_end = 539,
820
821 .burst_ena = false,
822
823 .filter_table = filter_table,
824 },
825};
826
827static struct intel_tv *enc_to_intel_tv(struct drm_encoder *encoder)
828{
829 return container_of(encoder, struct intel_tv, base.base);
830}
831
832static struct intel_tv *intel_attached_tv(struct drm_connector *connector)
833{
834 return container_of(intel_attached_encoder(connector),
835 struct intel_tv,
836 base);
837}
838
839static void
840intel_tv_dpms(struct drm_encoder *encoder, int mode)
841{
842 struct drm_device *dev = encoder->dev;
843 struct drm_i915_private *dev_priv = dev->dev_private;
844
845 switch (mode) {
846 case DRM_MODE_DPMS_ON:
847 I915_WRITE(TV_CTL, I915_READ(TV_CTL) | TV_ENC_ENABLE);
848 break;
849 case DRM_MODE_DPMS_STANDBY:
850 case DRM_MODE_DPMS_SUSPEND:
851 case DRM_MODE_DPMS_OFF:
852 I915_WRITE(TV_CTL, I915_READ(TV_CTL) & ~TV_ENC_ENABLE);
853 break;
854 }
855}
856
857static const struct tv_mode *
858intel_tv_mode_lookup(const char *tv_format)
859{
860 int i;
861
862 for (i = 0; i < ARRAY_SIZE(tv_modes); i++) {
863 const struct tv_mode *tv_mode = &tv_modes[i];
864
865 if (!strcmp(tv_format, tv_mode->name))
866 return tv_mode;
867 }
868 return NULL;
869}
870
871static const struct tv_mode *
872intel_tv_mode_find(struct intel_tv *intel_tv)
873{
874 return intel_tv_mode_lookup(intel_tv->tv_format);
875}
876
877static enum drm_mode_status
878intel_tv_mode_valid(struct drm_connector *connector,
879 struct drm_display_mode *mode)
880{
881 struct intel_tv *intel_tv = intel_attached_tv(connector);
882 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
883
884 /* Ensure TV refresh is close to desired refresh */
885 if (tv_mode && abs(tv_mode->refresh - drm_mode_vrefresh(mode) * 1000)
886 < 1000)
887 return MODE_OK;
888
889 return MODE_CLOCK_RANGE;
890}
891
892
893static bool
894intel_tv_mode_fixup(struct drm_encoder *encoder, struct drm_display_mode *mode,
895 struct drm_display_mode *adjusted_mode)
896{
897 struct drm_device *dev = encoder->dev;
898 struct drm_mode_config *drm_config = &dev->mode_config;
899 struct intel_tv *intel_tv = enc_to_intel_tv(encoder);
900 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
901 struct drm_encoder *other_encoder;
902
903 if (!tv_mode)
904 return false;
905
906 /* FIXME: lock encoder list */
907 list_for_each_entry(other_encoder, &drm_config->encoder_list, head) {
908 if (other_encoder != encoder &&
909 other_encoder->crtc == encoder->crtc)
910 return false;
911 }
912
913 adjusted_mode->clock = tv_mode->clock;
914 return true;
915}
916
917static void
918intel_tv_mode_set(struct drm_encoder *encoder, struct drm_display_mode *mode,
919 struct drm_display_mode *adjusted_mode)
920{
921 struct drm_device *dev = encoder->dev;
922 struct drm_i915_private *dev_priv = dev->dev_private;
923 struct drm_crtc *crtc = encoder->crtc;
924 struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
925 struct intel_tv *intel_tv = enc_to_intel_tv(encoder);
926 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
927 u32 tv_ctl;
928 u32 hctl1, hctl2, hctl3;
929 u32 vctl1, vctl2, vctl3, vctl4, vctl5, vctl6, vctl7;
930 u32 scctl1, scctl2, scctl3;
931 int i, j;
932 const struct video_levels *video_levels;
933 const struct color_conversion *color_conversion;
934 bool burst_ena;
935 int pipe = intel_crtc->pipe;
936
937 if (!tv_mode)
938 return; /* can't happen (mode_prepare prevents this) */
939
940 tv_ctl = I915_READ(TV_CTL);
941 tv_ctl &= TV_CTL_SAVE;
942
943 switch (intel_tv->type) {
944 default:
945 case DRM_MODE_CONNECTOR_Unknown:
946 case DRM_MODE_CONNECTOR_Composite:
947 tv_ctl |= TV_ENC_OUTPUT_COMPOSITE;
948 video_levels = tv_mode->composite_levels;
949 color_conversion = tv_mode->composite_color;
950 burst_ena = tv_mode->burst_ena;
951 break;
952 case DRM_MODE_CONNECTOR_Component:
953 tv_ctl |= TV_ENC_OUTPUT_COMPONENT;
954 video_levels = &component_levels;
955 if (tv_mode->burst_ena)
956 color_conversion = &sdtv_csc_yprpb;
957 else
958 color_conversion = &hdtv_csc_yprpb;
959 burst_ena = false;
960 break;
961 case DRM_MODE_CONNECTOR_SVIDEO:
962 tv_ctl |= TV_ENC_OUTPUT_SVIDEO;
963 video_levels = tv_mode->svideo_levels;
964 color_conversion = tv_mode->svideo_color;
965 burst_ena = tv_mode->burst_ena;
966 break;
967 }
968 hctl1 = (tv_mode->hsync_end << TV_HSYNC_END_SHIFT) |
969 (tv_mode->htotal << TV_HTOTAL_SHIFT);
970
971 hctl2 = (tv_mode->hburst_start << 16) |
972 (tv_mode->hburst_len << TV_HBURST_LEN_SHIFT);
973
974 if (burst_ena)
975 hctl2 |= TV_BURST_ENA;
976
977 hctl3 = (tv_mode->hblank_start << TV_HBLANK_START_SHIFT) |
978 (tv_mode->hblank_end << TV_HBLANK_END_SHIFT);
979
980 vctl1 = (tv_mode->nbr_end << TV_NBR_END_SHIFT) |
981 (tv_mode->vi_end_f1 << TV_VI_END_F1_SHIFT) |
982 (tv_mode->vi_end_f2 << TV_VI_END_F2_SHIFT);
983
984 vctl2 = (tv_mode->vsync_len << TV_VSYNC_LEN_SHIFT) |
985 (tv_mode->vsync_start_f1 << TV_VSYNC_START_F1_SHIFT) |
986 (tv_mode->vsync_start_f2 << TV_VSYNC_START_F2_SHIFT);
987
988 vctl3 = (tv_mode->veq_len << TV_VEQ_LEN_SHIFT) |
989 (tv_mode->veq_start_f1 << TV_VEQ_START_F1_SHIFT) |
990 (tv_mode->veq_start_f2 << TV_VEQ_START_F2_SHIFT);
991
992 if (tv_mode->veq_ena)
993 vctl3 |= TV_EQUAL_ENA;
994
995 vctl4 = (tv_mode->vburst_start_f1 << TV_VBURST_START_F1_SHIFT) |
996 (tv_mode->vburst_end_f1 << TV_VBURST_END_F1_SHIFT);
997
998 vctl5 = (tv_mode->vburst_start_f2 << TV_VBURST_START_F2_SHIFT) |
999 (tv_mode->vburst_end_f2 << TV_VBURST_END_F2_SHIFT);
1000
1001 vctl6 = (tv_mode->vburst_start_f3 << TV_VBURST_START_F3_SHIFT) |
1002 (tv_mode->vburst_end_f3 << TV_VBURST_END_F3_SHIFT);
1003
1004 vctl7 = (tv_mode->vburst_start_f4 << TV_VBURST_START_F4_SHIFT) |
1005 (tv_mode->vburst_end_f4 << TV_VBURST_END_F4_SHIFT);
1006
1007 if (intel_crtc->pipe == 1)
1008 tv_ctl |= TV_ENC_PIPEB_SELECT;
1009 tv_ctl |= tv_mode->oversample;
1010
1011 if (tv_mode->progressive)
1012 tv_ctl |= TV_PROGRESSIVE;
1013 if (tv_mode->trilevel_sync)
1014 tv_ctl |= TV_TRILEVEL_SYNC;
1015 if (tv_mode->pal_burst)
1016 tv_ctl |= TV_PAL_BURST;
1017
1018 scctl1 = 0;
1019 if (tv_mode->dda1_inc)
1020 scctl1 |= TV_SC_DDA1_EN;
1021 if (tv_mode->dda2_inc)
1022 scctl1 |= TV_SC_DDA2_EN;
1023 if (tv_mode->dda3_inc)
1024 scctl1 |= TV_SC_DDA3_EN;
1025 scctl1 |= tv_mode->sc_reset;
1026 if (video_levels)
1027 scctl1 |= video_levels->burst << TV_BURST_LEVEL_SHIFT;
1028 scctl1 |= tv_mode->dda1_inc << TV_SCDDA1_INC_SHIFT;
1029
1030 scctl2 = tv_mode->dda2_size << TV_SCDDA2_SIZE_SHIFT |
1031 tv_mode->dda2_inc << TV_SCDDA2_INC_SHIFT;
1032
1033 scctl3 = tv_mode->dda3_size << TV_SCDDA3_SIZE_SHIFT |
1034 tv_mode->dda3_inc << TV_SCDDA3_INC_SHIFT;
1035
1036 /* Enable two fixes for the chips that need them. */
1037 if (dev->pci_device < 0x2772)
1038 tv_ctl |= TV_ENC_C0_FIX | TV_ENC_SDP_FIX;
1039
1040 I915_WRITE(TV_H_CTL_1, hctl1);
1041 I915_WRITE(TV_H_CTL_2, hctl2);
1042 I915_WRITE(TV_H_CTL_3, hctl3);
1043 I915_WRITE(TV_V_CTL_1, vctl1);
1044 I915_WRITE(TV_V_CTL_2, vctl2);
1045 I915_WRITE(TV_V_CTL_3, vctl3);
1046 I915_WRITE(TV_V_CTL_4, vctl4);
1047 I915_WRITE(TV_V_CTL_5, vctl5);
1048 I915_WRITE(TV_V_CTL_6, vctl6);
1049 I915_WRITE(TV_V_CTL_7, vctl7);
1050 I915_WRITE(TV_SC_CTL_1, scctl1);
1051 I915_WRITE(TV_SC_CTL_2, scctl2);
1052 I915_WRITE(TV_SC_CTL_3, scctl3);
1053
1054 if (color_conversion) {
1055 I915_WRITE(TV_CSC_Y, (color_conversion->ry << 16) |
1056 color_conversion->gy);
1057 I915_WRITE(TV_CSC_Y2, (color_conversion->by << 16) |
1058 color_conversion->ay);
1059 I915_WRITE(TV_CSC_U, (color_conversion->ru << 16) |
1060 color_conversion->gu);
1061 I915_WRITE(TV_CSC_U2, (color_conversion->bu << 16) |
1062 color_conversion->au);
1063 I915_WRITE(TV_CSC_V, (color_conversion->rv << 16) |
1064 color_conversion->gv);
1065 I915_WRITE(TV_CSC_V2, (color_conversion->bv << 16) |
1066 color_conversion->av);
1067 }
1068
1069 if (INTEL_INFO(dev)->gen >= 4)
1070 I915_WRITE(TV_CLR_KNOBS, 0x00404000);
1071 else
1072 I915_WRITE(TV_CLR_KNOBS, 0x00606000);
1073
1074 if (video_levels)
1075 I915_WRITE(TV_CLR_LEVEL,
1076 ((video_levels->black << TV_BLACK_LEVEL_SHIFT) |
1077 (video_levels->blank << TV_BLANK_LEVEL_SHIFT)));
1078 {
1079 int pipeconf_reg = PIPECONF(pipe);
1080 int dspcntr_reg = DSPCNTR(intel_crtc->plane);
1081 int pipeconf = I915_READ(pipeconf_reg);
1082 int dspcntr = I915_READ(dspcntr_reg);
1083 int dspbase_reg = DSPADDR(intel_crtc->plane);
1084 int xpos = 0x0, ypos = 0x0;
1085 unsigned int xsize, ysize;
1086 /* Pipe must be off here */
1087 I915_WRITE(dspcntr_reg, dspcntr & ~DISPLAY_PLANE_ENABLE);
1088 /* Flush the plane changes */
1089 I915_WRITE(dspbase_reg, I915_READ(dspbase_reg));
1090
1091 /* Wait for vblank for the disable to take effect */
1092 if (IS_GEN2(dev))
1093 intel_wait_for_vblank(dev, intel_crtc->pipe);
1094
1095 I915_WRITE(pipeconf_reg, pipeconf & ~PIPECONF_ENABLE);
1096 /* Wait for vblank for the disable to take effect. */
1097 intel_wait_for_pipe_off(dev, intel_crtc->pipe);
1098
1099 /* Filter ctl must be set before TV_WIN_SIZE */
1100 I915_WRITE(TV_FILTER_CTL_1, TV_AUTO_SCALE);
1101 xsize = tv_mode->hblank_start - tv_mode->hblank_end;
1102 if (tv_mode->progressive)
1103 ysize = tv_mode->nbr_end + 1;
1104 else
1105 ysize = 2*tv_mode->nbr_end + 1;
1106
1107 xpos += intel_tv->margin[TV_MARGIN_LEFT];
1108 ypos += intel_tv->margin[TV_MARGIN_TOP];
1109 xsize -= (intel_tv->margin[TV_MARGIN_LEFT] +
1110 intel_tv->margin[TV_MARGIN_RIGHT]);
1111 ysize -= (intel_tv->margin[TV_MARGIN_TOP] +
1112 intel_tv->margin[TV_MARGIN_BOTTOM]);
1113 I915_WRITE(TV_WIN_POS, (xpos<<16)|ypos);
1114 I915_WRITE(TV_WIN_SIZE, (xsize<<16)|ysize);
1115
1116 I915_WRITE(pipeconf_reg, pipeconf);
1117 I915_WRITE(dspcntr_reg, dspcntr);
1118 /* Flush the plane changes */
1119 I915_WRITE(dspbase_reg, I915_READ(dspbase_reg));
1120 }
1121
1122 j = 0;
1123 for (i = 0; i < 60; i++)
1124 I915_WRITE(TV_H_LUMA_0 + (i<<2), tv_mode->filter_table[j++]);
1125 for (i = 0; i < 60; i++)
1126 I915_WRITE(TV_H_CHROMA_0 + (i<<2), tv_mode->filter_table[j++]);
1127 for (i = 0; i < 43; i++)
1128 I915_WRITE(TV_V_LUMA_0 + (i<<2), tv_mode->filter_table[j++]);
1129 for (i = 0; i < 43; i++)
1130 I915_WRITE(TV_V_CHROMA_0 + (i<<2), tv_mode->filter_table[j++]);
1131 I915_WRITE(TV_DAC, I915_READ(TV_DAC) & TV_DAC_SAVE);
1132 I915_WRITE(TV_CTL, tv_ctl);
1133}
1134
1135static const struct drm_display_mode reported_modes[] = {
1136 {
1137 .name = "NTSC 480i",
1138 .clock = 107520,
1139 .hdisplay = 1280,
1140 .hsync_start = 1368,
1141 .hsync_end = 1496,
1142 .htotal = 1712,
1143
1144 .vdisplay = 1024,
1145 .vsync_start = 1027,
1146 .vsync_end = 1034,
1147 .vtotal = 1104,
1148 .type = DRM_MODE_TYPE_DRIVER,
1149 },
1150};
1151
1152/**
1153 * Detects TV presence by checking for load.
1154 *
1155 * Requires that the current pipe's DPLL is active.
1156
1157 * \return true if TV is connected.
1158 * \return false if TV is disconnected.
1159 */
1160static int
1161intel_tv_detect_type(struct intel_tv *intel_tv,
1162 struct drm_connector *connector)
1163{
1164 struct drm_encoder *encoder = &intel_tv->base.base;
1165 struct drm_crtc *crtc = encoder->crtc;
1166 struct intel_crtc *intel_crtc = to_intel_crtc(crtc);
1167 struct drm_device *dev = encoder->dev;
1168 struct drm_i915_private *dev_priv = dev->dev_private;
1169 unsigned long irqflags;
1170 u32 tv_ctl, save_tv_ctl;
1171 u32 tv_dac, save_tv_dac;
1172 int type;
1173
1174 /* Disable TV interrupts around load detect or we'll recurse */
1175 if (connector->polled & DRM_CONNECTOR_POLL_HPD) {
1176 spin_lock_irqsave(&dev_priv->irq_lock, irqflags);
1177 i915_disable_pipestat(dev_priv, 0,
1178 PIPE_HOTPLUG_INTERRUPT_ENABLE |
1179 PIPE_HOTPLUG_TV_INTERRUPT_ENABLE);
1180 spin_unlock_irqrestore(&dev_priv->irq_lock, irqflags);
1181 }
1182
1183 save_tv_dac = tv_dac = I915_READ(TV_DAC);
1184 save_tv_ctl = tv_ctl = I915_READ(TV_CTL);
1185
1186 /* Poll for TV detection */
1187 tv_ctl &= ~(TV_ENC_ENABLE | TV_TEST_MODE_MASK);
1188 tv_ctl |= TV_TEST_MODE_MONITOR_DETECT;
1189 if (intel_crtc->pipe == 1)
1190 tv_ctl |= TV_ENC_PIPEB_SELECT;
1191 else
1192 tv_ctl &= ~TV_ENC_PIPEB_SELECT;
1193
1194 tv_dac &= ~(TVDAC_SENSE_MASK | DAC_A_MASK | DAC_B_MASK | DAC_C_MASK);
1195 tv_dac |= (TVDAC_STATE_CHG_EN |
1196 TVDAC_A_SENSE_CTL |
1197 TVDAC_B_SENSE_CTL |
1198 TVDAC_C_SENSE_CTL |
1199 DAC_CTL_OVERRIDE |
1200 DAC_A_0_7_V |
1201 DAC_B_0_7_V |
1202 DAC_C_0_7_V);
1203
1204
1205 /*
1206 * The TV sense state should be cleared to zero on cantiga platform. Otherwise
1207 * the TV is misdetected. This is hardware requirement.
1208 */
1209 if (IS_GM45(dev))
1210 tv_dac &= ~(TVDAC_STATE_CHG_EN | TVDAC_A_SENSE_CTL |
1211 TVDAC_B_SENSE_CTL | TVDAC_C_SENSE_CTL);
1212
1213 I915_WRITE(TV_CTL, tv_ctl);
1214 I915_WRITE(TV_DAC, tv_dac);
1215 POSTING_READ(TV_DAC);
1216
1217 intel_wait_for_vblank(intel_tv->base.base.dev,
1218 to_intel_crtc(intel_tv->base.base.crtc)->pipe);
1219
1220 type = -1;
1221 tv_dac = I915_READ(TV_DAC);
1222 DRM_DEBUG_KMS("TV detected: %x, %x\n", tv_ctl, tv_dac);
1223 /*
1224 * A B C
1225 * 0 1 1 Composite
1226 * 1 0 X svideo
1227 * 0 0 0 Component
1228 */
1229 if ((tv_dac & TVDAC_SENSE_MASK) == (TVDAC_B_SENSE | TVDAC_C_SENSE)) {
1230 DRM_DEBUG_KMS("Detected Composite TV connection\n");
1231 type = DRM_MODE_CONNECTOR_Composite;
1232 } else if ((tv_dac & (TVDAC_A_SENSE|TVDAC_B_SENSE)) == TVDAC_A_SENSE) {
1233 DRM_DEBUG_KMS("Detected S-Video TV connection\n");
1234 type = DRM_MODE_CONNECTOR_SVIDEO;
1235 } else if ((tv_dac & TVDAC_SENSE_MASK) == 0) {
1236 DRM_DEBUG_KMS("Detected Component TV connection\n");
1237 type = DRM_MODE_CONNECTOR_Component;
1238 } else {
1239 DRM_DEBUG_KMS("Unrecognised TV connection\n");
1240 type = -1;
1241 }
1242
1243 I915_WRITE(TV_DAC, save_tv_dac & ~TVDAC_STATE_CHG_EN);
1244 I915_WRITE(TV_CTL, save_tv_ctl);
1245 POSTING_READ(TV_CTL);
1246
1247 /* For unknown reasons the hw barfs if we don't do this vblank wait. */
1248 intel_wait_for_vblank(intel_tv->base.base.dev,
1249 to_intel_crtc(intel_tv->base.base.crtc)->pipe);
1250
1251 /* Restore interrupt config */
1252 if (connector->polled & DRM_CONNECTOR_POLL_HPD) {
1253 spin_lock_irqsave(&dev_priv->irq_lock, irqflags);
1254 i915_enable_pipestat(dev_priv, 0,
1255 PIPE_HOTPLUG_INTERRUPT_ENABLE |
1256 PIPE_HOTPLUG_TV_INTERRUPT_ENABLE);
1257 spin_unlock_irqrestore(&dev_priv->irq_lock, irqflags);
1258 }
1259
1260 return type;
1261}
1262
1263/*
1264 * Here we set accurate tv format according to connector type
1265 * i.e Component TV should not be assigned by NTSC or PAL
1266 */
1267static void intel_tv_find_better_format(struct drm_connector *connector)
1268{
1269 struct intel_tv *intel_tv = intel_attached_tv(connector);
1270 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
1271 int i;
1272
1273 if ((intel_tv->type == DRM_MODE_CONNECTOR_Component) ==
1274 tv_mode->component_only)
1275 return;
1276
1277
1278 for (i = 0; i < sizeof(tv_modes) / sizeof(*tv_modes); i++) {
1279 tv_mode = tv_modes + i;
1280
1281 if ((intel_tv->type == DRM_MODE_CONNECTOR_Component) ==
1282 tv_mode->component_only)
1283 break;
1284 }
1285
1286 intel_tv->tv_format = tv_mode->name;
1287 drm_connector_property_set_value(connector,
1288 connector->dev->mode_config.tv_mode_property, i);
1289}
1290
1291/**
1292 * Detect the TV connection.
1293 *
1294 * Currently this always returns CONNECTOR_STATUS_UNKNOWN, as we need to be sure
1295 * we have a pipe programmed in order to probe the TV.
1296 */
1297static enum drm_connector_status
1298intel_tv_detect(struct drm_connector *connector, bool force)
1299{
1300 struct drm_display_mode mode;
1301 struct intel_tv *intel_tv = intel_attached_tv(connector);
1302 int type;
1303
1304 mode = reported_modes[0];
1305
1306 if (force) {
1307 struct intel_load_detect_pipe tmp;
1308
1309 if (intel_get_load_detect_pipe(&intel_tv->base, connector,
1310 &mode, &tmp)) {
1311 type = intel_tv_detect_type(intel_tv, connector);
1312 intel_release_load_detect_pipe(&intel_tv->base,
1313 connector,
1314 &tmp);
1315 } else
1316 return connector_status_unknown;
1317 } else
1318 return connector->status;
1319
1320 if (type < 0)
1321 return connector_status_disconnected;
1322
1323 intel_tv->type = type;
1324 intel_tv_find_better_format(connector);
1325
1326 return connector_status_connected;
1327}
1328
1329static const struct input_res {
1330 const char *name;
1331 int w, h;
1332} input_res_table[] = {
1333 {"640x480", 640, 480},
1334 {"800x600", 800, 600},
1335 {"1024x768", 1024, 768},
1336 {"1280x1024", 1280, 1024},
1337 {"848x480", 848, 480},
1338 {"1280x720", 1280, 720},
1339 {"1920x1080", 1920, 1080},
1340};
1341
1342/*
1343 * Chose preferred mode according to line number of TV format
1344 */
1345static void
1346intel_tv_chose_preferred_modes(struct drm_connector *connector,
1347 struct drm_display_mode *mode_ptr)
1348{
1349 struct intel_tv *intel_tv = intel_attached_tv(connector);
1350 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
1351
1352 if (tv_mode->nbr_end < 480 && mode_ptr->vdisplay == 480)
1353 mode_ptr->type |= DRM_MODE_TYPE_PREFERRED;
1354 else if (tv_mode->nbr_end > 480) {
1355 if (tv_mode->progressive == true && tv_mode->nbr_end < 720) {
1356 if (mode_ptr->vdisplay == 720)
1357 mode_ptr->type |= DRM_MODE_TYPE_PREFERRED;
1358 } else if (mode_ptr->vdisplay == 1080)
1359 mode_ptr->type |= DRM_MODE_TYPE_PREFERRED;
1360 }
1361}
1362
1363/**
1364 * Stub get_modes function.
1365 *
1366 * This should probably return a set of fixed modes, unless we can figure out
1367 * how to probe modes off of TV connections.
1368 */
1369
1370static int
1371intel_tv_get_modes(struct drm_connector *connector)
1372{
1373 struct drm_display_mode *mode_ptr;
1374 struct intel_tv *intel_tv = intel_attached_tv(connector);
1375 const struct tv_mode *tv_mode = intel_tv_mode_find(intel_tv);
1376 int j, count = 0;
1377 u64 tmp;
1378
1379 for (j = 0; j < ARRAY_SIZE(input_res_table);
1380 j++) {
1381 const struct input_res *input = &input_res_table[j];
1382 unsigned int hactive_s = input->w;
1383 unsigned int vactive_s = input->h;
1384
1385 if (tv_mode->max_srcw && input->w > tv_mode->max_srcw)
1386 continue;
1387
1388 if (input->w > 1024 && (!tv_mode->progressive
1389 && !tv_mode->component_only))
1390 continue;
1391
1392 mode_ptr = drm_mode_create(connector->dev);
1393 if (!mode_ptr)
1394 continue;
1395 strncpy(mode_ptr->name, input->name, DRM_DISPLAY_MODE_LEN);
1396
1397 mode_ptr->hdisplay = hactive_s;
1398 mode_ptr->hsync_start = hactive_s + 1;
1399 mode_ptr->hsync_end = hactive_s + 64;
1400 if (mode_ptr->hsync_end <= mode_ptr->hsync_start)
1401 mode_ptr->hsync_end = mode_ptr->hsync_start + 1;
1402 mode_ptr->htotal = hactive_s + 96;
1403
1404 mode_ptr->vdisplay = vactive_s;
1405 mode_ptr->vsync_start = vactive_s + 1;
1406 mode_ptr->vsync_end = vactive_s + 32;
1407 if (mode_ptr->vsync_end <= mode_ptr->vsync_start)
1408 mode_ptr->vsync_end = mode_ptr->vsync_start + 1;
1409 mode_ptr->vtotal = vactive_s + 33;
1410
1411 tmp = (u64) tv_mode->refresh * mode_ptr->vtotal;
1412 tmp *= mode_ptr->htotal;
1413 tmp = div_u64(tmp, 1000000);
1414 mode_ptr->clock = (int) tmp;
1415
1416 mode_ptr->type = DRM_MODE_TYPE_DRIVER;
1417 intel_tv_chose_preferred_modes(connector, mode_ptr);
1418 drm_mode_probed_add(connector, mode_ptr);
1419 count++;
1420 }
1421
1422 return count;
1423}
1424
1425static void
1426intel_tv_destroy(struct drm_connector *connector)
1427{
1428 drm_sysfs_connector_remove(connector);
1429 drm_connector_cleanup(connector);
1430 kfree(connector);
1431}
1432
1433
1434static int
1435intel_tv_set_property(struct drm_connector *connector, struct drm_property *property,
1436 uint64_t val)
1437{
1438 struct drm_device *dev = connector->dev;
1439 struct intel_tv *intel_tv = intel_attached_tv(connector);
1440 struct drm_crtc *crtc = intel_tv->base.base.crtc;
1441 int ret = 0;
1442 bool changed = false;
1443
1444 ret = drm_connector_property_set_value(connector, property, val);
1445 if (ret < 0)
1446 goto out;
1447
1448 if (property == dev->mode_config.tv_left_margin_property &&
1449 intel_tv->margin[TV_MARGIN_LEFT] != val) {
1450 intel_tv->margin[TV_MARGIN_LEFT] = val;
1451 changed = true;
1452 } else if (property == dev->mode_config.tv_right_margin_property &&
1453 intel_tv->margin[TV_MARGIN_RIGHT] != val) {
1454 intel_tv->margin[TV_MARGIN_RIGHT] = val;
1455 changed = true;
1456 } else if (property == dev->mode_config.tv_top_margin_property &&
1457 intel_tv->margin[TV_MARGIN_TOP] != val) {
1458 intel_tv->margin[TV_MARGIN_TOP] = val;
1459 changed = true;
1460 } else if (property == dev->mode_config.tv_bottom_margin_property &&
1461 intel_tv->margin[TV_MARGIN_BOTTOM] != val) {
1462 intel_tv->margin[TV_MARGIN_BOTTOM] = val;
1463 changed = true;
1464 } else if (property == dev->mode_config.tv_mode_property) {
1465 if (val >= ARRAY_SIZE(tv_modes)) {
1466 ret = -EINVAL;
1467 goto out;
1468 }
1469 if (!strcmp(intel_tv->tv_format, tv_modes[val].name))
1470 goto out;
1471
1472 intel_tv->tv_format = tv_modes[val].name;
1473 changed = true;
1474 } else {
1475 ret = -EINVAL;
1476 goto out;
1477 }
1478
1479 if (changed && crtc)
1480 drm_crtc_helper_set_mode(crtc, &crtc->mode, crtc->x,
1481 crtc->y, crtc->fb);
1482out:
1483 return ret;
1484}
1485
1486static const struct drm_encoder_helper_funcs intel_tv_helper_funcs = {
1487 .dpms = intel_tv_dpms,
1488 .mode_fixup = intel_tv_mode_fixup,
1489 .prepare = intel_encoder_prepare,
1490 .mode_set = intel_tv_mode_set,
1491 .commit = intel_encoder_commit,
1492};
1493
1494static const struct drm_connector_funcs intel_tv_connector_funcs = {
1495 .dpms = drm_helper_connector_dpms,
1496 .detect = intel_tv_detect,
1497 .destroy = intel_tv_destroy,
1498 .set_property = intel_tv_set_property,
1499 .fill_modes = drm_helper_probe_single_connector_modes,
1500};
1501
1502static const struct drm_connector_helper_funcs intel_tv_connector_helper_funcs = {
1503 .mode_valid = intel_tv_mode_valid,
1504 .get_modes = intel_tv_get_modes,
1505 .best_encoder = intel_best_encoder,
1506};
1507
1508static const struct drm_encoder_funcs intel_tv_enc_funcs = {
1509 .destroy = intel_encoder_destroy,
1510};
1511
1512/*
1513 * Enumerate the child dev array parsed from VBT to check whether
1514 * the integrated TV is present.
1515 * If it is present, return 1.
1516 * If it is not present, return false.
1517 * If no child dev is parsed from VBT, it assumes that the TV is present.
1518 */
1519static int tv_is_present_in_vbt(struct drm_device *dev)
1520{
1521 struct drm_i915_private *dev_priv = dev->dev_private;
1522 struct child_device_config *p_child;
1523 int i, ret;
1524
1525 if (!dev_priv->child_dev_num)
1526 return 1;
1527
1528 ret = 0;
1529 for (i = 0; i < dev_priv->child_dev_num; i++) {
1530 p_child = dev_priv->child_dev + i;
1531 /*
1532 * If the device type is not TV, continue.
1533 */
1534 if (p_child->device_type != DEVICE_TYPE_INT_TV &&
1535 p_child->device_type != DEVICE_TYPE_TV)
1536 continue;
1537 /* Only when the addin_offset is non-zero, it is regarded
1538 * as present.
1539 */
1540 if (p_child->addin_offset) {
1541 ret = 1;
1542 break;
1543 }
1544 }
1545 return ret;
1546}
1547
1548void
1549intel_tv_init(struct drm_device *dev)
1550{
1551 struct drm_i915_private *dev_priv = dev->dev_private;
1552 struct drm_connector *connector;
1553 struct intel_tv *intel_tv;
1554 struct intel_encoder *intel_encoder;
1555 struct intel_connector *intel_connector;
1556 u32 tv_dac_on, tv_dac_off, save_tv_dac;
1557 char *tv_format_names[ARRAY_SIZE(tv_modes)];
1558 int i, initial_mode = 0;
1559
1560 if ((I915_READ(TV_CTL) & TV_FUSE_STATE_MASK) == TV_FUSE_STATE_DISABLED)
1561 return;
1562
1563 if (!tv_is_present_in_vbt(dev)) {
1564 DRM_DEBUG_KMS("Integrated TV is not present.\n");
1565 return;
1566 }
1567 /* Even if we have an encoder we may not have a connector */
1568 if (!dev_priv->int_tv_support)
1569 return;
1570
1571 /*
1572 * Sanity check the TV output by checking to see if the
1573 * DAC register holds a value
1574 */
1575 save_tv_dac = I915_READ(TV_DAC);
1576
1577 I915_WRITE(TV_DAC, save_tv_dac | TVDAC_STATE_CHG_EN);
1578 tv_dac_on = I915_READ(TV_DAC);
1579
1580 I915_WRITE(TV_DAC, save_tv_dac & ~TVDAC_STATE_CHG_EN);
1581 tv_dac_off = I915_READ(TV_DAC);
1582
1583 I915_WRITE(TV_DAC, save_tv_dac);
1584
1585 /*
1586 * If the register does not hold the state change enable
1587 * bit, (either as a 0 or a 1), assume it doesn't really
1588 * exist
1589 */
1590 if ((tv_dac_on & TVDAC_STATE_CHG_EN) == 0 ||
1591 (tv_dac_off & TVDAC_STATE_CHG_EN) != 0)
1592 return;
1593
1594 intel_tv = kzalloc(sizeof(struct intel_tv), GFP_KERNEL);
1595 if (!intel_tv) {
1596 return;
1597 }
1598
1599 intel_connector = kzalloc(sizeof(struct intel_connector), GFP_KERNEL);
1600 if (!intel_connector) {
1601 kfree(intel_tv);
1602 return;
1603 }
1604
1605 intel_encoder = &intel_tv->base;
1606 connector = &intel_connector->base;
1607
1608 /* The documentation, for the older chipsets at least, recommend
1609 * using a polling method rather than hotplug detection for TVs.
1610 * This is because in order to perform the hotplug detection, the PLLs
1611 * for the TV must be kept alive increasing power drain and starving
1612 * bandwidth from other encoders. Notably for instance, it causes
1613 * pipe underruns on Crestline when this encoder is supposedly idle.
1614 *
1615 * More recent chipsets favour HDMI rather than integrated S-Video.
1616 */
1617 connector->polled = DRM_CONNECTOR_POLL_CONNECT;
1618
1619 drm_connector_init(dev, connector, &intel_tv_connector_funcs,
1620 DRM_MODE_CONNECTOR_SVIDEO);
1621
1622 drm_encoder_init(dev, &intel_encoder->base, &intel_tv_enc_funcs,
1623 DRM_MODE_ENCODER_TVDAC);
1624
1625 intel_connector_attach_encoder(intel_connector, intel_encoder);
1626 intel_encoder->type = INTEL_OUTPUT_TVOUT;
1627 intel_encoder->crtc_mask = (1 << 0) | (1 << 1);
1628 intel_encoder->clone_mask = (1 << INTEL_TV_CLONE_BIT);
1629 intel_encoder->base.possible_crtcs = ((1 << 0) | (1 << 1));
1630 intel_encoder->base.possible_clones = (1 << INTEL_OUTPUT_TVOUT);
1631 intel_tv->type = DRM_MODE_CONNECTOR_Unknown;
1632
1633 /* BIOS margin values */
1634 intel_tv->margin[TV_MARGIN_LEFT] = 54;
1635 intel_tv->margin[TV_MARGIN_TOP] = 36;
1636 intel_tv->margin[TV_MARGIN_RIGHT] = 46;
1637 intel_tv->margin[TV_MARGIN_BOTTOM] = 37;
1638
1639 intel_tv->tv_format = tv_modes[initial_mode].name;
1640
1641 drm_encoder_helper_add(&intel_encoder->base, &intel_tv_helper_funcs);
1642 drm_connector_helper_add(connector, &intel_tv_connector_helper_funcs);
1643 connector->interlace_allowed = false;
1644 connector->doublescan_allowed = false;
1645
1646 /* Create TV properties then attach current values */
1647 for (i = 0; i < ARRAY_SIZE(tv_modes); i++)
1648 tv_format_names[i] = (char *)tv_modes[i].name;
1649 drm_mode_create_tv_properties(dev,
1650 ARRAY_SIZE(tv_modes),
1651 tv_format_names);
1652
1653 drm_connector_attach_property(connector, dev->mode_config.tv_mode_property,
1654 initial_mode);
1655 drm_connector_attach_property(connector,
1656 dev->mode_config.tv_left_margin_property,
1657 intel_tv->margin[TV_MARGIN_LEFT]);
1658 drm_connector_attach_property(connector,
1659 dev->mode_config.tv_top_margin_property,
1660 intel_tv->margin[TV_MARGIN_TOP]);
1661 drm_connector_attach_property(connector,
1662 dev->mode_config.tv_right_margin_property,
1663 intel_tv->margin[TV_MARGIN_RIGHT]);
1664 drm_connector_attach_property(connector,
1665 dev->mode_config.tv_bottom_margin_property,
1666 intel_tv->margin[TV_MARGIN_BOTTOM]);
1667 drm_sysfs_connector_add(connector);
1668}