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1 /*
2  *
3  * Copyright (c) 2012 Gilles Dartiguelongue, Thomas Richter
4  *
5  * All Rights Reserved.
6  *
7  * Permission is hereby granted, free of charge, to any person obtaining a
8  * copy of this software and associated documentation files (the
9  * "Software"), to deal in the Software without restriction, including
10  * without limitation the rights to use, copy, modify, merge, publish,
11  * distribute, sub license, and/or sell copies of the Software, and to
12  * permit persons to whom the Software is furnished to do so, subject to
13  * the following conditions:
14  *
15  * The above copyright notice and this permission notice (including the
16  * next paragraph) shall be included in all copies or substantial portions
17  * of the Software.
18  *
19  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
20  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
21  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
22  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
23  * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
24  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
25  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
26  *
27  */
28 
29 #include "i915_drv.h"
30 #include "i915_reg.h"
31 #include "intel_display_types.h"
32 #include "intel_dvo_dev.h"
33 
34 #define NS2501_VID 0x1305
35 #define NS2501_DID 0x6726
36 
37 #define NS2501_VID_LO 0x00
38 #define NS2501_VID_HI 0x01
39 #define NS2501_DID_LO 0x02
40 #define NS2501_DID_HI 0x03
41 #define NS2501_REV 0x04
42 #define NS2501_RSVD 0x05
43 #define NS2501_FREQ_LO 0x06
44 #define NS2501_FREQ_HI 0x07
45 
46 #define NS2501_REG8 0x08
47 #define NS2501_8_VEN (1<<5)
48 #define NS2501_8_HEN (1<<4)
49 #define NS2501_8_DSEL (1<<3)
50 #define NS2501_8_BPAS (1<<2)
51 #define NS2501_8_RSVD (1<<1)
52 #define NS2501_8_PD (1<<0)
53 
54 #define NS2501_REG9 0x09
55 #define NS2501_9_VLOW (1<<7)
56 #define NS2501_9_MSEL_MASK (0x7<<4)
57 #define NS2501_9_TSEL (1<<3)
58 #define NS2501_9_RSEN (1<<2)
59 #define NS2501_9_RSVD (1<<1)
60 #define NS2501_9_MDI (1<<0)
61 
62 #define NS2501_REGC 0x0c
63 
64 /*
65  * The following registers are not part of the official datasheet
66  * and are the result of reverse engineering.
67  */
68 
69 /*
70  * Register c0 controls how the DVO synchronizes with
71  * its input.
72  */
73 #define NS2501_REGC0 0xc0
74 #define NS2501_C0_ENABLE (1<<0)	/* enable the DVO sync in general */
75 #define NS2501_C0_HSYNC (1<<1)	/* synchronize horizontal with input */
76 #define NS2501_C0_VSYNC (1<<2)	/* synchronize vertical with input */
77 #define NS2501_C0_RESET (1<<7)	/* reset the synchronization flip/flops */
78 
79 /*
80  * Register 41 is somehow related to the sync register and sync
81  * configuration. It should be 0x32 whenever regC0 is 0x05 (hsync off)
82  * and 0x00 otherwise.
83  */
84 #define NS2501_REG41 0x41
85 
86 /*
87  * this register controls the dithering of the DVO
88  * One bit enables it, the other define the dithering depth.
89  * The higher the value, the lower the dithering depth.
90  */
91 #define NS2501_F9_REG 0xf9
92 #define NS2501_F9_ENABLE (1<<0)		/* if set, dithering is enabled */
93 #define NS2501_F9_DITHER_MASK (0x7f<<1)	/* controls the dither depth */
94 #define NS2501_F9_DITHER_SHIFT 1	/* shifts the dither mask */
95 
96 /*
97  * PLL configuration register. This is a pair of registers,
98  * one single byte register at 1B, and a pair at 1C,1D.
99  * These registers are counters/dividers.
100  */
101 #define NS2501_REG1B 0x1b /* one byte PLL control register */
102 #define NS2501_REG1C 0x1c /* low-part of the second register */
103 #define NS2501_REG1D 0x1d /* high-part of the second register */
104 
105 /*
106  * Scaler control registers. Horizontal at b8,b9,
107  * vertical at 10,11. The scale factor is computed as
108  * 2^16/control-value. The low-byte comes first.
109  */
110 #define NS2501_REG10 0x10 /* low-byte vertical scaler */
111 #define NS2501_REG11 0x11 /* high-byte vertical scaler */
112 #define NS2501_REGB8 0xb8 /* low-byte horizontal scaler */
113 #define NS2501_REGB9 0xb9 /* high-byte horizontal scaler */
114 
115 /*
116  * Display window definition. This consists of four registers
117  * per dimension. One register pair defines the start of the
118  * display, one the end.
119  * As far as I understand, this defines the window within which
120  * the scaler samples the input.
121  */
122 #define NS2501_REGC1 0xc1 /* low-byte horizontal display start */
123 #define NS2501_REGC2 0xc2 /* high-byte horizontal display start */
124 #define NS2501_REGC3 0xc3 /* low-byte horizontal display stop */
125 #define NS2501_REGC4 0xc4 /* high-byte horizontal display stop */
126 #define NS2501_REGC5 0xc5 /* low-byte vertical display start */
127 #define NS2501_REGC6 0xc6 /* high-byte vertical display start */
128 #define NS2501_REGC7 0xc7 /* low-byte vertical display stop */
129 #define NS2501_REGC8 0xc8 /* high-byte vertical display stop */
130 
131 /*
132  * The following register pair seems to define the start of
133  * the vertical sync. If automatic syncing is enabled, and the
134  * register value defines a sync pulse that is later than the
135  * incoming sync, then the register value is ignored and the
136  * external hsync triggers the synchronization.
137  */
138 #define NS2501_REG80 0x80 /* low-byte vsync-start */
139 #define NS2501_REG81 0x81 /* high-byte vsync-start */
140 
141 /*
142  * The following register pair seems to define the total number
143  * of lines created at the output side of the scaler.
144  * This is again a low-high register pair.
145  */
146 #define NS2501_REG82 0x82 /* output display height, low byte */
147 #define NS2501_REG83 0x83 /* output display height, high byte */
148 
149 /*
150  * The following registers define the end of the front-porch
151  * in horizontal and vertical position and hence allow to shift
152  * the image left/right or up/down.
153  */
154 #define NS2501_REG98 0x98 /* horizontal start of display + 256, low */
155 #define NS2501_REG99 0x99 /* horizontal start of display + 256, high */
156 #define NS2501_REG8E 0x8e /* vertical start of the display, low byte */
157 #define NS2501_REG8F 0x8f /* vertical start of the display, high byte */
158 
159 /*
160  * The following register pair control the function of the
161  * backlight and the DVO output. To enable the corresponding
162  * function, the corresponding bit must be set in both registers.
163  */
164 #define NS2501_REG34 0x34 /* DVO enable functions, first register */
165 #define NS2501_REG35 0x35 /* DVO enable functions, second register */
166 #define NS2501_34_ENABLE_OUTPUT (1<<0) /* enable DVO output */
167 #define NS2501_34_ENABLE_BACKLIGHT (1<<1) /* enable backlight */
168 
169 /*
170  * Registers 9C and 9D define the vertical output offset
171  * of the visible region.
172  */
173 #define NS2501_REG9C 0x9c
174 #define NS2501_REG9D 0x9d
175 
176 /*
177  * The register 9F defines the dithering. This requires the
178  * scaler to be ON. Bit 0 enables dithering, the remaining
179  * bits control the depth of the dither. The higher the value,
180  * the LOWER the dithering amplitude. A good value seems to be
181  * 15 (total register value).
182  */
183 #define NS2501_REGF9 0xf9
184 #define NS2501_F9_ENABLE_DITHER (1<<0) /* enable dithering */
185 #define NS2501_F9_DITHER_MASK (0x7f<<1) /* dither masking */
186 #define NS2501_F9_DITHER_SHIFT 1	/* upshift of the dither mask */
187 
188 enum {
189 	MODE_640x480,
190 	MODE_800x600,
191 	MODE_1024x768,
192 };
193 
194 struct ns2501_reg {
195 	u8 offset;
196 	u8 value;
197 };
198 
199 /*
200  * The following structure keeps the complete configuration of
201  * the DVO, given a specific output configuration.
202  * This is pretty much guess-work from reverse-engineering, so
203  * read all this with a grain of salt.
204  */
205 struct ns2501_configuration {
206 	u8 sync;		/* configuration of the C0 register */
207 	u8 conf;		/* configuration register 8 */
208 	u8 syncb;		/* configuration register 41 */
209 	u8 dither;		/* configuration of the dithering */
210 	u8 pll_a;		/* PLL configuration, register A, 1B */
211 	u16 pll_b;		/* PLL configuration, register B, 1C/1D */
212 	u16 hstart;		/* horizontal start, registers C1/C2 */
213 	u16 hstop;		/* horizontal total, registers C3/C4 */
214 	u16 vstart;		/* vertical start, registers C5/C6 */
215 	u16 vstop;		/* vertical total, registers C7/C8 */
216 	u16 vsync;		/* manual vertical sync start, 80/81 */
217 	u16 vtotal;		/* number of lines generated, 82/83 */
218 	u16 hpos;		/* horizontal position + 256, 98/99  */
219 	u16 vpos;		/* vertical position, 8e/8f */
220 	u16 voffs;		/* vertical output offset, 9c/9d */
221 	u16 hscale;		/* horizontal scaling factor, b8/b9 */
222 	u16 vscale;		/* vertical scaling factor, 10/11 */
223 };
224 
225 /*
226  * DVO configuration values, partially based on what the BIOS
227  * of the Fujitsu Lifebook S6010 writes into registers,
228  * partially found by manual tweaking. These configurations assume
229  * a 1024x768 panel.
230  */
231 static const struct ns2501_configuration ns2501_modes[] = {
232 	[MODE_640x480] = {
233 		.sync	= NS2501_C0_ENABLE | NS2501_C0_VSYNC,
234 		.conf	= NS2501_8_VEN | NS2501_8_HEN | NS2501_8_PD,
235 		.syncb	= 0x32,
236 		.dither	= 0x0f,
237 		.pll_a	= 17,
238 		.pll_b	= 852,
239 		.hstart	= 144,
240 		.hstop	= 783,
241 		.vstart	= 22,
242 		.vstop	= 514,
243 		.vsync	= 2047, /* actually, ignored with this config */
244 		.vtotal	= 1341,
245 		.hpos	= 0,
246 		.vpos	= 16,
247 		.voffs	= 36,
248 		.hscale	= 40960,
249 		.vscale	= 40960
250 	},
251 	[MODE_800x600] = {
252 		.sync	= NS2501_C0_ENABLE |
253 			  NS2501_C0_HSYNC | NS2501_C0_VSYNC,
254 		.conf   = NS2501_8_VEN | NS2501_8_HEN | NS2501_8_PD,
255 		.syncb	= 0x00,
256 		.dither	= 0x0f,
257 		.pll_a	= 25,
258 		.pll_b	= 612,
259 		.hstart	= 215,
260 		.hstop	= 1016,
261 		.vstart	= 26,
262 		.vstop	= 627,
263 		.vsync	= 807,
264 		.vtotal	= 1341,
265 		.hpos	= 0,
266 		.vpos	= 4,
267 		.voffs	= 35,
268 		.hscale	= 51248,
269 		.vscale	= 51232
270 	},
271 	[MODE_1024x768] = {
272 		.sync	= NS2501_C0_ENABLE | NS2501_C0_VSYNC,
273 		.conf   = NS2501_8_VEN | NS2501_8_HEN | NS2501_8_PD,
274 		.syncb	= 0x32,
275 		.dither	= 0x0f,
276 		.pll_a	= 11,
277 		.pll_b	= 1350,
278 		.hstart	= 276,
279 		.hstop	= 1299,
280 		.vstart	= 15,
281 		.vstop	= 1056,
282 		.vsync	= 2047,
283 		.vtotal	= 1341,
284 		.hpos	= 0,
285 		.vpos	= 7,
286 		.voffs	= 27,
287 		.hscale	= 65535,
288 		.vscale	= 65535
289 	}
290 };
291 
292 /*
293  * Other configuration values left by the BIOS of the
294  * Fujitsu S6010 in the DVO control registers. Their
295  * value does not depend on the BIOS and their meaning
296  * is unknown.
297  */
298 
299 static const struct ns2501_reg mode_agnostic_values[] = {
300 	/* 08 is mode specific */
301 	[0] = { .offset = 0x0a, .value = 0x81, },
302 	/* 10,11 are part of the mode specific configuration */
303 	[1] = { .offset = 0x12, .value = 0x02, },
304 	[2] = { .offset = 0x18, .value = 0x07, },
305 	[3] = { .offset = 0x19, .value = 0x00, },
306 	[4] = { .offset = 0x1a, .value = 0x00, }, /* PLL?, ignored */
307 	/* 1b,1c,1d are part of the mode specific configuration */
308 	[5] = { .offset = 0x1e, .value = 0x02, },
309 	[6] = { .offset = 0x1f, .value = 0x40, },
310 	[7] = { .offset = 0x20, .value = 0x00, },
311 	[8] = { .offset = 0x21, .value = 0x00, },
312 	[9] = { .offset = 0x22, .value = 0x00, },
313 	[10] = { .offset = 0x23, .value = 0x00, },
314 	[11] = { .offset = 0x24, .value = 0x00, },
315 	[12] = { .offset = 0x25, .value = 0x00, },
316 	[13] = { .offset = 0x26, .value = 0x00, },
317 	[14] = { .offset = 0x27, .value = 0x00, },
318 	[15] = { .offset = 0x7e, .value = 0x18, },
319 	/* 80-84 are part of the mode-specific configuration */
320 	[16] = { .offset = 0x84, .value = 0x00, },
321 	[17] = { .offset = 0x85, .value = 0x00, },
322 	[18] = { .offset = 0x86, .value = 0x00, },
323 	[19] = { .offset = 0x87, .value = 0x00, },
324 	[20] = { .offset = 0x88, .value = 0x00, },
325 	[21] = { .offset = 0x89, .value = 0x00, },
326 	[22] = { .offset = 0x8a, .value = 0x00, },
327 	[23] = { .offset = 0x8b, .value = 0x00, },
328 	[24] = { .offset = 0x8c, .value = 0x10, },
329 	[25] = { .offset = 0x8d, .value = 0x02, },
330 	/* 8e,8f are part of the mode-specific configuration */
331 	[26] = { .offset = 0x90, .value = 0xff, },
332 	[27] = { .offset = 0x91, .value = 0x07, },
333 	[28] = { .offset = 0x92, .value = 0xa0, },
334 	[29] = { .offset = 0x93, .value = 0x02, },
335 	[30] = { .offset = 0x94, .value = 0x00, },
336 	[31] = { .offset = 0x95, .value = 0x00, },
337 	[32] = { .offset = 0x96, .value = 0x05, },
338 	[33] = { .offset = 0x97, .value = 0x00, },
339 	/* 98,99 are part of the mode-specific configuration */
340 	[34] = { .offset = 0x9a, .value = 0x88, },
341 	[35] = { .offset = 0x9b, .value = 0x00, },
342 	/* 9c,9d are part of the mode-specific configuration */
343 	[36] = { .offset = 0x9e, .value = 0x25, },
344 	[37] = { .offset = 0x9f, .value = 0x03, },
345 	[38] = { .offset = 0xa0, .value = 0x28, },
346 	[39] = { .offset = 0xa1, .value = 0x01, },
347 	[40] = { .offset = 0xa2, .value = 0x28, },
348 	[41] = { .offset = 0xa3, .value = 0x05, },
349 	/* register 0xa4 is mode specific, but 0x80..0x84 works always */
350 	[42] = { .offset = 0xa4, .value = 0x84, },
351 	[43] = { .offset = 0xa5, .value = 0x00, },
352 	[44] = { .offset = 0xa6, .value = 0x00, },
353 	[45] = { .offset = 0xa7, .value = 0x00, },
354 	[46] = { .offset = 0xa8, .value = 0x00, },
355 	/* 0xa9 to 0xab are mode specific, but have no visible effect */
356 	[47] = { .offset = 0xa9, .value = 0x04, },
357 	[48] = { .offset = 0xaa, .value = 0x70, },
358 	[49] = { .offset = 0xab, .value = 0x4f, },
359 	[50] = { .offset = 0xac, .value = 0x00, },
360 	[51] = { .offset = 0xad, .value = 0x00, },
361 	[52] = { .offset = 0xb6, .value = 0x09, },
362 	[53] = { .offset = 0xb7, .value = 0x03, },
363 	/* b8,b9 are part of the mode-specific configuration */
364 	[54] = { .offset = 0xba, .value = 0x00, },
365 	[55] = { .offset = 0xbb, .value = 0x20, },
366 	[56] = { .offset = 0xf3, .value = 0x90, },
367 	[57] = { .offset = 0xf4, .value = 0x00, },
368 	[58] = { .offset = 0xf7, .value = 0x88, },
369 	/* f8 is mode specific, but the value does not matter */
370 	[59] = { .offset = 0xf8, .value = 0x0a, },
371 	[60] = { .offset = 0xf9, .value = 0x00, }
372 };
373 
374 static const struct ns2501_reg regs_init[] = {
375 	[0] = { .offset = 0x35, .value = 0xff, },
376 	[1] = { .offset = 0x34, .value = 0x00, },
377 	[2] = { .offset = 0x08, .value = 0x30, },
378 };
379 
380 struct ns2501_priv {
381 	bool quiet;
382 	const struct ns2501_configuration *conf;
383 };
384 
385 #define NSPTR(d) ((NS2501Ptr)(d->DriverPrivate.ptr))
386 
387 /*
388 ** Read a register from the ns2501.
389 ** Returns true if successful, false otherwise.
390 ** If it returns false, it might be wise to enable the
391 ** DVO with the above function.
392 */
ns2501_readb(struct intel_dvo_device * dvo,int addr,u8 * ch)393 static bool ns2501_readb(struct intel_dvo_device *dvo, int addr, u8 *ch)
394 {
395 	struct ns2501_priv *ns = dvo->dev_priv;
396 	struct i2c_adapter *adapter = dvo->i2c_bus;
397 	u8 out_buf[2];
398 	u8 in_buf[2];
399 
400 	struct i2c_msg msgs[] = {
401 		{
402 		 .addr = dvo->slave_addr,
403 		 .flags = 0,
404 		 .len = 1,
405 		 .buf = out_buf,
406 		 },
407 		{
408 		 .addr = dvo->slave_addr,
409 		 .flags = I2C_M_RD,
410 		 .len = 1,
411 		 .buf = in_buf,
412 		 }
413 	};
414 
415 	out_buf[0] = addr;
416 	out_buf[1] = 0;
417 
418 	if (i2c_transfer(adapter, msgs, 2) == 2) {
419 		*ch = in_buf[0];
420 		return true;
421 	}
422 
423 	if (!ns->quiet) {
424 		DRM_DEBUG_KMS
425 		    ("Unable to read register 0x%02x from %s:0x%02x.\n", addr,
426 		     adapter->name, dvo->slave_addr);
427 	}
428 
429 	return false;
430 }
431 
432 /*
433 ** Write a register to the ns2501.
434 ** Returns true if successful, false otherwise.
435 ** If it returns false, it might be wise to enable the
436 ** DVO with the above function.
437 */
ns2501_writeb(struct intel_dvo_device * dvo,int addr,u8 ch)438 static bool ns2501_writeb(struct intel_dvo_device *dvo, int addr, u8 ch)
439 {
440 	struct ns2501_priv *ns = dvo->dev_priv;
441 	struct i2c_adapter *adapter = dvo->i2c_bus;
442 	u8 out_buf[2];
443 
444 	struct i2c_msg msg = {
445 		.addr = dvo->slave_addr,
446 		.flags = 0,
447 		.len = 2,
448 		.buf = out_buf,
449 	};
450 
451 	out_buf[0] = addr;
452 	out_buf[1] = ch;
453 
454 	if (i2c_transfer(adapter, &msg, 1) == 1) {
455 		return true;
456 	}
457 
458 	if (!ns->quiet) {
459 		DRM_DEBUG_KMS("Unable to write register 0x%02x to %s:%d\n",
460 			      addr, adapter->name, dvo->slave_addr);
461 	}
462 
463 	return false;
464 }
465 
466 /* National Semiconductor 2501 driver for chip on i2c bus
467  * scan for the chip on the bus.
468  * Hope the VBIOS initialized the PLL correctly so we can
469  * talk to it. If not, it will not be seen and not detected.
470  * Bummer!
471  */
ns2501_init(struct intel_dvo_device * dvo,struct i2c_adapter * adapter)472 static bool ns2501_init(struct intel_dvo_device *dvo,
473 			struct i2c_adapter *adapter)
474 {
475 	/* this will detect the NS2501 chip on the specified i2c bus */
476 	struct ns2501_priv *ns;
477 	unsigned char ch;
478 
479 	ns = kzalloc(sizeof(struct ns2501_priv), GFP_KERNEL);
480 	if (ns == NULL)
481 		return false;
482 
483 	dvo->i2c_bus = adapter;
484 	dvo->dev_priv = ns;
485 	ns->quiet = true;
486 
487 	if (!ns2501_readb(dvo, NS2501_VID_LO, &ch))
488 		goto out;
489 
490 	if (ch != (NS2501_VID & 0xff)) {
491 		DRM_DEBUG_KMS("ns2501 not detected got %d: from %s Slave %d.\n",
492 			      ch, adapter->name, dvo->slave_addr);
493 		goto out;
494 	}
495 
496 	if (!ns2501_readb(dvo, NS2501_DID_LO, &ch))
497 		goto out;
498 
499 	if (ch != (NS2501_DID & 0xff)) {
500 		DRM_DEBUG_KMS("ns2501 not detected got %d: from %s Slave %d.\n",
501 			      ch, adapter->name, dvo->slave_addr);
502 		goto out;
503 	}
504 	ns->quiet = false;
505 
506 	DRM_DEBUG_KMS("init ns2501 dvo controller successfully!\n");
507 
508 	return true;
509 
510 out:
511 	kfree(ns);
512 	return false;
513 }
514 
ns2501_detect(struct intel_dvo_device * dvo)515 static enum drm_connector_status ns2501_detect(struct intel_dvo_device *dvo)
516 {
517 	/*
518 	 * This is a Laptop display, it doesn't have hotplugging.
519 	 * Even if not, the detection bit of the 2501 is unreliable as
520 	 * it only works for some display types.
521 	 * It is even more unreliable as the PLL must be active for
522 	 * allowing reading from the chiop.
523 	 */
524 	return connector_status_connected;
525 }
526 
ns2501_mode_valid(struct intel_dvo_device * dvo,struct drm_display_mode * mode)527 static enum drm_mode_status ns2501_mode_valid(struct intel_dvo_device *dvo,
528 					      struct drm_display_mode *mode)
529 {
530 	DRM_DEBUG_KMS
531 	    ("is mode valid (hdisplay=%d,htotal=%d,vdisplay=%d,vtotal=%d)\n",
532 	     mode->hdisplay, mode->htotal, mode->vdisplay, mode->vtotal);
533 
534 	/*
535 	 * Currently, these are all the modes I have data from.
536 	 * More might exist. Unclear how to find the native resolution
537 	 * of the panel in here so we could always accept it
538 	 * by disabling the scaler.
539 	 */
540 	if ((mode->hdisplay == 640 && mode->vdisplay == 480 && mode->clock == 25175) ||
541 	    (mode->hdisplay == 800 && mode->vdisplay == 600 && mode->clock == 40000) ||
542 	    (mode->hdisplay == 1024 && mode->vdisplay == 768 && mode->clock == 65000)) {
543 		return MODE_OK;
544 	} else {
545 		return MODE_ONE_SIZE;	/* Is this a reasonable error? */
546 	}
547 }
548 
ns2501_mode_set(struct intel_dvo_device * dvo,const struct drm_display_mode * mode,const struct drm_display_mode * adjusted_mode)549 static void ns2501_mode_set(struct intel_dvo_device *dvo,
550 			    const struct drm_display_mode *mode,
551 			    const struct drm_display_mode *adjusted_mode)
552 {
553 	const struct ns2501_configuration *conf;
554 	struct ns2501_priv *ns = (struct ns2501_priv *)(dvo->dev_priv);
555 	int mode_idx, i;
556 
557 	DRM_DEBUG_KMS
558 	    ("set mode (hdisplay=%d,htotal=%d,vdisplay=%d,vtotal=%d).\n",
559 	     mode->hdisplay, mode->htotal, mode->vdisplay, mode->vtotal);
560 
561 	DRM_DEBUG_KMS("Detailed requested mode settings are:\n"
562 			"clock		: %d kHz\n"
563 			"hdisplay	: %d\n"
564 			"hblank start	: %d\n"
565 			"hblank end	: %d\n"
566 			"hsync start	: %d\n"
567 			"hsync end	: %d\n"
568 			"htotal		: %d\n"
569 			"hskew		: %d\n"
570 			"vdisplay	: %d\n"
571 			"vblank start	: %d\n"
572 			"hblank end	: %d\n"
573 			"vsync start	: %d\n"
574 			"vsync end	: %d\n"
575 			"vtotal		: %d\n",
576 			adjusted_mode->crtc_clock,
577 			adjusted_mode->crtc_hdisplay,
578 			adjusted_mode->crtc_hblank_start,
579 			adjusted_mode->crtc_hblank_end,
580 			adjusted_mode->crtc_hsync_start,
581 			adjusted_mode->crtc_hsync_end,
582 			adjusted_mode->crtc_htotal,
583 			adjusted_mode->crtc_hskew,
584 			adjusted_mode->crtc_vdisplay,
585 			adjusted_mode->crtc_vblank_start,
586 			adjusted_mode->crtc_vblank_end,
587 			adjusted_mode->crtc_vsync_start,
588 			adjusted_mode->crtc_vsync_end,
589 			adjusted_mode->crtc_vtotal);
590 
591 	if (mode->hdisplay == 640 && mode->vdisplay == 480)
592 		mode_idx = MODE_640x480;
593 	else if (mode->hdisplay == 800 && mode->vdisplay == 600)
594 		mode_idx = MODE_800x600;
595 	else if (mode->hdisplay == 1024 && mode->vdisplay == 768)
596 		mode_idx = MODE_1024x768;
597 	else
598 		return;
599 
600 	/* Hopefully doing it every time won't hurt... */
601 	for (i = 0; i < ARRAY_SIZE(regs_init); i++)
602 		ns2501_writeb(dvo, regs_init[i].offset, regs_init[i].value);
603 
604 	/* Write the mode-agnostic values */
605 	for (i = 0; i < ARRAY_SIZE(mode_agnostic_values); i++)
606 		ns2501_writeb(dvo, mode_agnostic_values[i].offset,
607 				mode_agnostic_values[i].value);
608 
609 	/* Write now the mode-specific configuration */
610 	conf = ns2501_modes + mode_idx;
611 	ns->conf = conf;
612 
613 	ns2501_writeb(dvo, NS2501_REG8, conf->conf);
614 	ns2501_writeb(dvo, NS2501_REG1B, conf->pll_a);
615 	ns2501_writeb(dvo, NS2501_REG1C, conf->pll_b & 0xff);
616 	ns2501_writeb(dvo, NS2501_REG1D, conf->pll_b >> 8);
617 	ns2501_writeb(dvo, NS2501_REGC1, conf->hstart & 0xff);
618 	ns2501_writeb(dvo, NS2501_REGC2, conf->hstart >> 8);
619 	ns2501_writeb(dvo, NS2501_REGC3, conf->hstop & 0xff);
620 	ns2501_writeb(dvo, NS2501_REGC4, conf->hstop >> 8);
621 	ns2501_writeb(dvo, NS2501_REGC5, conf->vstart & 0xff);
622 	ns2501_writeb(dvo, NS2501_REGC6, conf->vstart >> 8);
623 	ns2501_writeb(dvo, NS2501_REGC7, conf->vstop & 0xff);
624 	ns2501_writeb(dvo, NS2501_REGC8, conf->vstop >> 8);
625 	ns2501_writeb(dvo, NS2501_REG80, conf->vsync & 0xff);
626 	ns2501_writeb(dvo, NS2501_REG81, conf->vsync >> 8);
627 	ns2501_writeb(dvo, NS2501_REG82, conf->vtotal & 0xff);
628 	ns2501_writeb(dvo, NS2501_REG83, conf->vtotal >> 8);
629 	ns2501_writeb(dvo, NS2501_REG98, conf->hpos & 0xff);
630 	ns2501_writeb(dvo, NS2501_REG99, conf->hpos >> 8);
631 	ns2501_writeb(dvo, NS2501_REG8E, conf->vpos & 0xff);
632 	ns2501_writeb(dvo, NS2501_REG8F, conf->vpos >> 8);
633 	ns2501_writeb(dvo, NS2501_REG9C, conf->voffs & 0xff);
634 	ns2501_writeb(dvo, NS2501_REG9D, conf->voffs >> 8);
635 	ns2501_writeb(dvo, NS2501_REGB8, conf->hscale & 0xff);
636 	ns2501_writeb(dvo, NS2501_REGB9, conf->hscale >> 8);
637 	ns2501_writeb(dvo, NS2501_REG10, conf->vscale & 0xff);
638 	ns2501_writeb(dvo, NS2501_REG11, conf->vscale >> 8);
639 	ns2501_writeb(dvo, NS2501_REGF9, conf->dither);
640 	ns2501_writeb(dvo, NS2501_REG41, conf->syncb);
641 	ns2501_writeb(dvo, NS2501_REGC0, conf->sync);
642 }
643 
644 /* set the NS2501 power state */
ns2501_get_hw_state(struct intel_dvo_device * dvo)645 static bool ns2501_get_hw_state(struct intel_dvo_device *dvo)
646 {
647 	unsigned char ch;
648 
649 	if (!ns2501_readb(dvo, NS2501_REG8, &ch))
650 		return false;
651 
652 	return ch & NS2501_8_PD;
653 }
654 
655 /* set the NS2501 power state */
ns2501_dpms(struct intel_dvo_device * dvo,bool enable)656 static void ns2501_dpms(struct intel_dvo_device *dvo, bool enable)
657 {
658 	struct ns2501_priv *ns = (struct ns2501_priv *)(dvo->dev_priv);
659 
660 	DRM_DEBUG_KMS("Trying set the dpms of the DVO to %i\n", enable);
661 
662 	if (enable) {
663 		ns2501_writeb(dvo, NS2501_REGC0, ns->conf->sync | 0x08);
664 
665 		ns2501_writeb(dvo, NS2501_REG41, ns->conf->syncb);
666 
667 		ns2501_writeb(dvo, NS2501_REG34, NS2501_34_ENABLE_OUTPUT);
668 		msleep(15);
669 
670 		ns2501_writeb(dvo, NS2501_REG8,
671 				ns->conf->conf | NS2501_8_BPAS);
672 		if (!(ns->conf->conf & NS2501_8_BPAS))
673 			ns2501_writeb(dvo, NS2501_REG8, ns->conf->conf);
674 		msleep(200);
675 
676 		ns2501_writeb(dvo, NS2501_REG34,
677 			NS2501_34_ENABLE_OUTPUT | NS2501_34_ENABLE_BACKLIGHT);
678 
679 		ns2501_writeb(dvo, NS2501_REGC0, ns->conf->sync);
680 	} else {
681 		ns2501_writeb(dvo, NS2501_REG34, NS2501_34_ENABLE_OUTPUT);
682 		msleep(200);
683 
684 		ns2501_writeb(dvo, NS2501_REG8, NS2501_8_VEN | NS2501_8_HEN |
685 				NS2501_8_BPAS);
686 		msleep(15);
687 
688 		ns2501_writeb(dvo, NS2501_REG34, 0x00);
689 	}
690 }
691 
ns2501_destroy(struct intel_dvo_device * dvo)692 static void ns2501_destroy(struct intel_dvo_device *dvo)
693 {
694 	struct ns2501_priv *ns = dvo->dev_priv;
695 
696 	if (ns) {
697 		kfree(ns);
698 		dvo->dev_priv = NULL;
699 	}
700 }
701 
702 const struct intel_dvo_dev_ops ns2501_ops = {
703 	.init = ns2501_init,
704 	.detect = ns2501_detect,
705 	.mode_valid = ns2501_mode_valid,
706 	.mode_set = ns2501_mode_set,
707 	.dpms = ns2501_dpms,
708 	.get_hw_state = ns2501_get_hw_state,
709 	.destroy = ns2501_destroy,
710 };
711