1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3 * Copyright (C) 2016 Nexell Co., Ltd.
4 *
5 * Author: junghyun, kim <jhkim@nexell.co.kr>
6 */
7
8 #include <linux/types.h>
9 #include <linux/io.h>
10
11 #include "s5pxx18_soc_dpc.h"
12
13 static struct {
14 struct nx_dpc_register_set *pregister;
15 } __g_module_variables[NUMBER_OF_DPC_MODULE] = { { NULL,},};
16
nx_dpc_initialize(void)17 int nx_dpc_initialize(void)
18 {
19 static int binit;
20 u32 i;
21
22 if (binit == 0) {
23 for (i = 0; i < NUMBER_OF_DPC_MODULE; i++)
24 __g_module_variables[i].pregister = NULL;
25 binit = 1;
26 }
27 return 1;
28 }
29
nx_dpc_get_number_of_module(void)30 u32 nx_dpc_get_number_of_module(void)
31 {
32 return NUMBER_OF_DPC_MODULE;
33 }
34
nx_dpc_get_physical_address(u32 module_index)35 u32 nx_dpc_get_physical_address(u32 module_index)
36 {
37 const u32 physical_addr[] = PHY_BASEADDR_DPC_LIST;
38
39 return physical_addr[module_index];
40 }
41
nx_dpc_set_base_address(u32 module_index,void * base_address)42 void nx_dpc_set_base_address(u32 module_index, void *base_address)
43 {
44 __g_module_variables[module_index].pregister =
45 (struct nx_dpc_register_set *)base_address;
46 }
47
nx_dpc_get_base_address(u32 module_index)48 void *nx_dpc_get_base_address(u32 module_index)
49 {
50 return (void *)__g_module_variables[module_index].pregister;
51 }
52
nx_dpc_set_interrupt_enable(u32 module_index,int32_t int_num,int enable)53 void nx_dpc_set_interrupt_enable(u32 module_index, int32_t int_num, int enable)
54 {
55 const u32 intenb_pos = 11;
56 const u32 intenb_mask = 1ul << intenb_pos;
57 const u32 intpend_pos = 10;
58 const u32 intpend_mask = 1ul << intpend_pos;
59
60 register u32 regvalue;
61 register struct nx_dpc_register_set *pregister;
62
63 pregister = __g_module_variables[module_index].pregister;
64 regvalue = pregister->dpcctrl0;
65 regvalue &= ~(intenb_mask | intpend_mask);
66 regvalue |= (u32)enable << intenb_pos;
67
68 writel(regvalue, &pregister->dpcctrl0);
69 }
70
nx_dpc_get_interrupt_enable(u32 module_index,int32_t int_num)71 int nx_dpc_get_interrupt_enable(u32 module_index, int32_t int_num)
72 {
73 const u32 intenb_pos = 11;
74 const u32 intenb_mask = 1ul << intenb_pos;
75
76 return (int)((__g_module_variables[module_index].pregister->dpcctrl0 &
77 intenb_mask) >> intenb_pos);
78 }
79
nx_dpc_set_interrupt_enable32(u32 module_index,u32 enable_flag)80 void nx_dpc_set_interrupt_enable32(u32 module_index, u32 enable_flag)
81 {
82 const u32 intenb_pos = 11;
83 const u32 intenb_mask = 1 << intenb_pos;
84 const u32 intpend_pos = 10;
85 const u32 intpend_mask = 1 << intpend_pos;
86
87 register struct nx_dpc_register_set *pregister;
88 register u32 read_value;
89
90 pregister = __g_module_variables[module_index].pregister;
91 read_value = pregister->dpcctrl0 & ~(intpend_mask | intenb_mask);
92
93 writel((u32)(read_value | (enable_flag & 0x01) << intenb_pos),
94 &pregister->dpcctrl0);
95 }
96
nx_dpc_get_interrupt_enable32(u32 module_index)97 u32 nx_dpc_get_interrupt_enable32(u32 module_index)
98 {
99 const u32 intenb_pos = 11;
100 const u32 intenb_mask = 1 << intenb_pos;
101
102 return (u32)((__g_module_variables[module_index].pregister->dpcctrl0 &
103 intenb_mask) >> intenb_pos);
104 }
105
nx_dpc_get_interrupt_pending(u32 module_index,int32_t int_num)106 int nx_dpc_get_interrupt_pending(u32 module_index, int32_t int_num)
107 {
108 const u32 intpend_pos = 10;
109 const u32 intpend_mask = 1ul << intpend_pos;
110
111 return (int)((__g_module_variables[module_index].pregister->dpcctrl0 &
112 intpend_mask) >> intpend_pos);
113 }
114
nx_dpc_get_interrupt_pending32(u32 module_index)115 u32 nx_dpc_get_interrupt_pending32(u32 module_index)
116 {
117 const u32 intpend_pos = 10;
118 const u32 intpend_mask = 1 << intpend_pos;
119
120 return (u32)((__g_module_variables[module_index].pregister->dpcctrl0 &
121 intpend_mask) >> intpend_pos);
122 }
123
nx_dpc_clear_interrupt_pending(u32 module_index,int32_t int_num)124 void nx_dpc_clear_interrupt_pending(u32 module_index, int32_t int_num)
125 {
126 const u32 intpend_pos = 10;
127 register struct nx_dpc_register_set *pregister;
128 register u32 regvalue;
129
130 pregister = __g_module_variables[module_index].pregister;
131 regvalue = pregister->dpcctrl0;
132 regvalue |= 1ul << intpend_pos;
133
134 writel(regvalue, &pregister->dpcctrl0);
135 }
136
nx_dpc_clear_interrupt_pending32(u32 module_index,u32 pending_flag)137 void nx_dpc_clear_interrupt_pending32(u32 module_index, u32 pending_flag)
138 {
139 const u32 intpend_pos = 10;
140 const u32 intpend_mask = 1 << intpend_pos;
141 register struct nx_dpc_register_set *pregister;
142 register u32 read_value;
143
144 pregister = __g_module_variables[module_index].pregister;
145 read_value = pregister->dpcctrl0 & ~intpend_mask;
146
147 writel((u32)(read_value | ((pending_flag & 0x01) << intpend_pos)),
148 &pregister->dpcctrl0);
149 }
150
nx_dpc_set_interrupt_enable_all(u32 module_index,int enable)151 void nx_dpc_set_interrupt_enable_all(u32 module_index, int enable)
152 {
153 const u32 intenb_pos = 11;
154 const u32 intenb_mask = 1ul << intenb_pos;
155 const u32 intpend_pos = 10;
156 const u32 intpend_mask = 1ul << intpend_pos;
157 register u32 regvalue;
158 register struct nx_dpc_register_set *pregister;
159
160 pregister = __g_module_variables[module_index].pregister;
161 regvalue = pregister->dpcctrl0;
162 regvalue &= ~(intenb_mask | intpend_mask);
163 regvalue |= (u32)enable << intenb_pos;
164
165 writel(regvalue, &pregister->dpcctrl0);
166 }
167
nx_dpc_get_interrupt_enable_all(u32 module_index)168 int nx_dpc_get_interrupt_enable_all(u32 module_index)
169 {
170 const u32 intenb_pos = 11;
171 const u32 intenb_mask = 1ul << intenb_pos;
172
173 return (int)((__g_module_variables[module_index].pregister->dpcctrl0 &
174 intenb_mask) >> intenb_pos);
175 }
176
nx_dpc_get_interrupt_pending_all(u32 module_index)177 int nx_dpc_get_interrupt_pending_all(u32 module_index)
178 {
179 const u32 intpend_pos = 10;
180 const u32 intpend_mask = 1ul << intpend_pos;
181
182 return (int)((__g_module_variables[module_index].pregister->dpcctrl0 &
183 intpend_mask) >> intpend_pos);
184 }
185
nx_dpc_clear_interrupt_pending_all(u32 module_index)186 void nx_dpc_clear_interrupt_pending_all(u32 module_index)
187 {
188 const u32 intpend_pos = 10;
189 register struct nx_dpc_register_set *pregister;
190 register u32 regvalue;
191
192 pregister = __g_module_variables[module_index].pregister;
193 regvalue = pregister->dpcctrl0;
194 regvalue |= 1ul << intpend_pos;
195
196 writel(regvalue, &pregister->dpcctrl0);
197 }
198
nx_dpc_get_interrupt_pending_number(u32 module_index)199 int32_t nx_dpc_get_interrupt_pending_number(u32 module_index)
200 {
201 const u32 intenb_pos = 11;
202 const u32 intpend_pos = 10;
203 register struct nx_dpc_register_set *pregister;
204 register u32 pend;
205
206 pregister = __g_module_variables[module_index].pregister;
207 pend = ((pregister->dpcctrl0 >> intenb_pos) &&
208 (pregister->dpcctrl0 >> intpend_pos));
209
210 if (pend & 0x01)
211 return 0;
212
213 return -1;
214 }
215
nx_dpc_set_clock_pclk_mode(u32 module_index,enum nx_pclkmode mode)216 void nx_dpc_set_clock_pclk_mode(u32 module_index, enum nx_pclkmode mode)
217 {
218 const u32 pclkmode_pos = 3;
219 register u32 regvalue;
220 register struct nx_dpc_register_set *pregister;
221 u32 clkmode = 0;
222
223 pregister = __g_module_variables[module_index].pregister;
224 switch (mode) {
225 case nx_pclkmode_dynamic:
226 clkmode = 0;
227 break;
228 case nx_pclkmode_always:
229 clkmode = 1;
230 break;
231 default:
232 break;
233 }
234 regvalue = pregister->dpcclkenb;
235 regvalue &= ~(1ul << pclkmode_pos);
236 regvalue |= (clkmode & 0x01) << pclkmode_pos;
237
238 writel(regvalue, &pregister->dpcclkenb);
239 }
240
nx_dpc_get_clock_pclk_mode(u32 module_index)241 enum nx_pclkmode nx_dpc_get_clock_pclk_mode(u32 module_index)
242 {
243 const u32 pclkmode_pos = 3;
244
245 if (__g_module_variables[module_index].pregister->dpcclkenb &
246 (1ul << pclkmode_pos)) {
247 return nx_pclkmode_always;
248 }
249 return nx_pclkmode_dynamic;
250 }
251
nx_dpc_set_clock_source(u32 module_index,u32 index,u32 clk_src)252 void nx_dpc_set_clock_source(u32 module_index, u32 index, u32 clk_src)
253 {
254 const u32 clksrcsel_pos = 2;
255 const u32 clksrcsel_mask = 0x07 << clksrcsel_pos;
256 register struct nx_dpc_register_set *pregister;
257 register u32 read_value;
258
259 pregister = __g_module_variables[module_index].pregister;
260 read_value = pregister->dpcclkgen[index][0];
261 read_value &= ~clksrcsel_mask;
262 read_value |= clk_src << clksrcsel_pos;
263
264 writel(read_value, &pregister->dpcclkgen[index][0]);
265 }
266
nx_dpc_get_clock_source(u32 module_index,u32 index)267 u32 nx_dpc_get_clock_source(u32 module_index, u32 index)
268 {
269 const u32 clksrcsel_pos = 2;
270 const u32 clksrcsel_mask = 0x07 << clksrcsel_pos;
271
272 return (__g_module_variables[module_index]
273 .pregister->dpcclkgen[index][0] &
274 clksrcsel_mask) >> clksrcsel_pos;
275 }
276
nx_dpc_set_clock_divisor(u32 module_index,u32 index,u32 divisor)277 void nx_dpc_set_clock_divisor(u32 module_index, u32 index, u32 divisor)
278 {
279 const u32 clkdiv_pos = 5;
280 const u32 clkdiv_mask = ((1 << 8) - 1) << clkdiv_pos;
281 register struct nx_dpc_register_set *pregister;
282 register u32 read_value;
283
284 pregister = __g_module_variables[module_index].pregister;
285 read_value = pregister->dpcclkgen[index][0];
286 read_value &= ~clkdiv_mask;
287 read_value |= (divisor - 1) << clkdiv_pos;
288
289 writel(read_value, &pregister->dpcclkgen[index][0]);
290 }
291
nx_dpc_get_clock_divisor(u32 module_index,u32 index)292 u32 nx_dpc_get_clock_divisor(u32 module_index, u32 index)
293 {
294 const u32 clkdiv_pos = 5;
295 const u32 clkdiv_mask = ((1 << 8) - 1) << clkdiv_pos;
296
297 return ((__g_module_variables[module_index]
298 .pregister->dpcclkgen[index][0] &
299 clkdiv_mask) >> clkdiv_pos) + 1;
300 }
301
nx_dpc_set_clock_out_inv(u32 module_index,u32 index,int out_clk_inv)302 void nx_dpc_set_clock_out_inv(u32 module_index, u32 index, int out_clk_inv)
303 {
304 const u32 outclkinv_pos = 1;
305 const u32 outclkinv_mask = 1ul << outclkinv_pos;
306 register struct nx_dpc_register_set *pregister;
307 register u32 read_value;
308
309 pregister = __g_module_variables[module_index].pregister;
310 read_value = pregister->dpcclkgen[index][0];
311 read_value &= ~outclkinv_mask;
312 read_value |= out_clk_inv << outclkinv_pos;
313
314 writel(read_value, &pregister->dpcclkgen[index][0]);
315 }
316
nx_dpc_get_clock_out_inv(u32 module_index,u32 index)317 int nx_dpc_get_clock_out_inv(u32 module_index, u32 index)
318 {
319 const u32 outclkinv_pos = 1;
320 const u32 outclkinv_mask = 1ul << outclkinv_pos;
321
322 return (int)((__g_module_variables[module_index]
323 .pregister->dpcclkgen[index][0] &
324 outclkinv_mask) >> outclkinv_pos);
325 }
326
nx_dpc_set_clock_out_select(u32 module_index,u32 index,int bbypass)327 void nx_dpc_set_clock_out_select(u32 module_index, u32 index, int bbypass)
328 {
329 const u32 outclksel_pos = 0;
330 const u32 outclksel_mask = 1ul << outclksel_pos;
331 register struct nx_dpc_register_set *pregister;
332 register u32 read_value;
333
334 pregister = __g_module_variables[module_index].pregister;
335 read_value = pregister->dpcclkgen[index][0];
336 read_value &= ~outclksel_mask;
337 if (bbypass == 0)
338 read_value |= outclksel_mask;
339
340 writel(read_value, &pregister->dpcclkgen[index][0]);
341 }
342
nx_dpc_get_clock_out_select(u32 module_index,u32 index)343 int nx_dpc_get_clock_out_select(u32 module_index, u32 index)
344 {
345 const u32 outclksel_pos = 0;
346 const u32 outclksel_mask = 1ul << outclksel_pos;
347
348 if (__g_module_variables[module_index].pregister->dpcclkgen[index][0] &
349 outclksel_mask) {
350 return 0;
351 } else {
352 return 1;
353 }
354 }
355
nx_dpc_set_clock_polarity(u32 module_index,int bpolarity)356 void nx_dpc_set_clock_polarity(u32 module_index, int bpolarity)
357 {
358 const u32 clkpol_pos = 2;
359 const u32 clkpol_mask = 1ul << clkpol_pos;
360 register struct nx_dpc_register_set *pregister;
361 register u32 read_value;
362
363 pregister = __g_module_variables[module_index].pregister;
364 read_value = pregister->dpcctrl1;
365 read_value &= ~clkpol_mask;
366 if (bpolarity == 1)
367 read_value |= clkpol_mask;
368
369 writel(read_value, &pregister->dpcctrl1);
370 }
371
nx_dpc_get_clock_polarity(u32 module_index)372 int nx_dpc_get_clock_polarity(u32 module_index)
373 {
374 const u32 clkpol_pos = 2;
375 const u32 clkpol_mask = 1ul << clkpol_pos;
376
377 if (__g_module_variables[module_index].pregister->dpcctrl1 &
378 clkpol_mask) {
379 return 1;
380 } else {
381 return 0;
382 }
383 }
384
nx_dpc_set_clock_out_enb(u32 module_index,u32 index,int out_clk_enb)385 void nx_dpc_set_clock_out_enb(u32 module_index, u32 index, int out_clk_enb)
386 {
387 const u32 outclkenb_pos = 15;
388 const u32 outclkenb_mask = 1ul << outclkenb_pos;
389 register struct nx_dpc_register_set *pregister;
390 register u32 read_value;
391
392 pregister = __g_module_variables[module_index].pregister;
393 read_value = pregister->dpcclkgen[index][0];
394 read_value &= ~outclkenb_mask;
395
396 if (out_clk_enb == 1)
397 read_value |= outclkenb_mask;
398
399 writel(read_value, &pregister->dpcclkgen[index][0]);
400 }
401
nx_dpc_get_clock_out_enb(u32 module_index,u32 index)402 int nx_dpc_get_clock_out_enb(u32 module_index, u32 index)
403 {
404 const u32 outclkenb_pos = 15;
405 const u32 outclkenb_mask = 1ul << outclkenb_pos;
406
407 if (__g_module_variables[module_index].pregister->dpcclkgen[index][0] &
408 outclkenb_mask) {
409 return 1;
410 } else {
411 return 0;
412 }
413 }
414
nx_dpc_set_clock_out_delay(u32 module_index,u32 index,u32 delay)415 void nx_dpc_set_clock_out_delay(u32 module_index, u32 index, u32 delay)
416 {
417 const u32 outclkdelay_pos = 0;
418 const u32 outclkdelay_mask = 0x1f << outclkdelay_pos;
419 register struct nx_dpc_register_set *pregister;
420 register u32 read_value;
421
422 pregister = __g_module_variables[module_index].pregister;
423 read_value = pregister->dpcclkgen[index][1];
424 read_value &= ~outclkdelay_mask;
425 read_value |= (u32)delay << outclkdelay_pos;
426
427 writel(read_value, &pregister->dpcclkgen[index][1]);
428 }
429
nx_dpc_get_clock_out_delay(u32 module_index,u32 index)430 u32 nx_dpc_get_clock_out_delay(u32 module_index, u32 index)
431 {
432 register struct nx_dpc_register_set *pregister;
433 const u32 outclkdelay_pos = 0;
434 const u32 outclkdelay_mask = 0x1f << outclkdelay_pos;
435
436 pregister = __g_module_variables[module_index].pregister;
437
438 return (u32)((pregister->dpcclkgen[index][1] & outclkdelay_mask) >>
439 outclkdelay_pos);
440 }
441
nx_dpc_set_clock_divisor_enable(u32 module_index,int enable)442 void nx_dpc_set_clock_divisor_enable(u32 module_index, int enable)
443 {
444 const u32 clkgenenb_pos = 2;
445 const u32 clkgenenb_mask = 1ul << clkgenenb_pos;
446 register struct nx_dpc_register_set *pregister;
447 register u32 read_value;
448
449 pregister = __g_module_variables[module_index].pregister;
450 read_value = pregister->dpcclkenb;
451 read_value &= ~clkgenenb_mask;
452 read_value |= (u32)enable << clkgenenb_pos;
453
454 writel(read_value, &pregister->dpcclkenb);
455 }
456
nx_dpc_get_clock_divisor_enable(u32 module_index)457 int nx_dpc_get_clock_divisor_enable(u32 module_index)
458 {
459 const u32 clkgenenb_pos = 2;
460 const u32 clkgenenb_mask = 1ul << clkgenenb_pos;
461
462 return (int)((__g_module_variables[module_index].pregister->dpcclkenb &
463 clkgenenb_mask) >> clkgenenb_pos);
464 }
465
nx_dpc_set_dpc_enable(u32 module_index,int benb)466 void nx_dpc_set_dpc_enable(u32 module_index, int benb)
467 {
468 const u32 intpend_pos = 10;
469 const u32 intpend_mask = 1ul << intpend_pos;
470 const u32 dpcenb_pos = 15;
471 const u32 dpcenb_mask = 1ul << dpcenb_pos;
472 register struct nx_dpc_register_set *pregister;
473 register u32 read_value;
474
475 pregister = __g_module_variables[module_index].pregister;
476 read_value = pregister->dpcctrl0;
477 read_value &= ~(intpend_mask | dpcenb_mask);
478 read_value |= (u32)benb << dpcenb_pos;
479
480 writel(read_value, &pregister->dpcctrl0);
481 }
482
nx_dpc_get_dpc_enable(u32 module_index)483 int nx_dpc_get_dpc_enable(u32 module_index)
484 {
485 const u32 dpcenb_pos = 15;
486 const u32 dpcenb_mask = 1ul << dpcenb_pos;
487
488 return (int)((__g_module_variables[module_index].pregister->dpcctrl0 &
489 dpcenb_mask) >> dpcenb_pos);
490 }
491
nx_dpc_set_delay(u32 module_index,u32 delay_rgb_pvd,u32 delay_hs_cp1,u32 delay_vs_fram,u32 delay_de_cp2)492 void nx_dpc_set_delay(u32 module_index, u32 delay_rgb_pvd, u32 delay_hs_cp1,
493 u32 delay_vs_fram, u32 delay_de_cp2)
494 {
495 const u32 intpend_mask = 1u << 10;
496 const u32 delayrgb_pos = 4;
497 const u32 delayrgb_mask = 0xfu << delayrgb_pos;
498 register u32 temp;
499 const u32 delayde_pos = 0;
500 const u32 delayvs_pos = 8;
501 const u32 delayhs_pos = 0;
502 register struct nx_dpc_register_set *pregister;
503
504 pregister = __g_module_variables[module_index].pregister;
505 temp = pregister->dpcctrl0;
506 temp &= (u32)~(intpend_mask | delayrgb_mask);
507 temp = (u32)(temp | (delay_rgb_pvd << delayrgb_pos));
508
509 writel(temp, &pregister->dpcctrl0);
510
511 writel((u32)((delay_vs_fram << delayvs_pos) |
512 (delay_hs_cp1 << delayhs_pos)), &pregister->dpcdelay0);
513
514 writel((u32)(delay_de_cp2 << delayde_pos), &pregister->dpcdelay1);
515 }
516
nx_dpc_get_delay(u32 module_index,u32 * pdelayrgb_pvd,u32 * pdelayhs_cp1,u32 * pdelayvs_fram,u32 * pdelayde_cp2)517 void nx_dpc_get_delay(u32 module_index, u32 *pdelayrgb_pvd, u32 *pdelayhs_cp1,
518 u32 *pdelayvs_fram, u32 *pdelayde_cp2)
519 {
520 const u32 delayrgb_pos = 4;
521 const u32 delayrgb_mask = 0xfu << delayrgb_pos;
522 const u32 delayde_pos = 0;
523 const u32 delayde_mask = 0x3fu << delayde_pos;
524 const u32 delayvs_pos = 8;
525 const u32 delayvs_mask = 0x3fu << delayvs_pos;
526 const u32 delayhs_pos = 0;
527 const u32 delayhs_mask = 0x3fu << delayhs_pos;
528 register u32 temp;
529
530 temp = __g_module_variables[module_index].pregister->dpcctrl0;
531 if (pdelayrgb_pvd)
532 *pdelayrgb_pvd = (u32)((temp & delayrgb_mask) >> delayrgb_pos);
533 temp = __g_module_variables[module_index].pregister->dpcdelay0;
534 if (pdelayhs_cp1)
535 *pdelayhs_cp1 = (u32)((temp & delayhs_mask) >> delayhs_pos);
536 if (pdelayvs_fram)
537 *pdelayvs_fram = (u32)((temp & delayvs_mask) >> delayvs_pos);
538 temp = __g_module_variables[module_index].pregister->dpcdelay1;
539 if (pdelayde_cp2)
540 *pdelayde_cp2 = (u32)((temp & delayde_mask) >> delayde_pos);
541 }
542
nx_dpc_set_dither(u32 module_index,enum nx_dpc_dither dither_r,enum nx_dpc_dither dither_g,enum nx_dpc_dither dither_b)543 void nx_dpc_set_dither(u32 module_index, enum nx_dpc_dither dither_r,
544 enum nx_dpc_dither dither_g, enum nx_dpc_dither dither_b)
545 {
546 const u32 dither_mask = 0x3fu;
547 const u32 rdither_pos = 0;
548 const u32 gdither_pos = 2;
549 const u32 bdither_pos = 4;
550 register u32 temp;
551 register struct nx_dpc_register_set *pregister;
552
553 pregister = __g_module_variables[module_index].pregister;
554 temp = pregister->dpcctrl1;
555 temp &= (u32)~dither_mask;
556 temp = (u32)(temp |
557 ((dither_b << bdither_pos) | (dither_g << gdither_pos) |
558 (dither_r << rdither_pos)));
559
560 writel(temp, &pregister->dpcctrl1);
561 }
562
nx_dpc_get_dither(u32 module_index,enum nx_dpc_dither * pditherr,enum nx_dpc_dither * pditherg,enum nx_dpc_dither * pditherb)563 void nx_dpc_get_dither(u32 module_index, enum nx_dpc_dither *pditherr,
564 enum nx_dpc_dither *pditherg,
565 enum nx_dpc_dither *pditherb)
566 {
567 const u32 rdither_pos = 0;
568 const u32 rdither_mask = 0x3u << rdither_pos;
569 const u32 gdither_pos = 2;
570 const u32 gdither_mask = 0x3u << gdither_pos;
571 const u32 bdither_pos = 4;
572 const u32 bdither_mask = 0x3u << bdither_pos;
573 register u32 temp;
574
575 temp = __g_module_variables[module_index].pregister->dpcctrl1;
576 if (pditherr)
577 *pditherr =
578 (enum nx_dpc_dither)((temp & rdither_mask) >> rdither_pos);
579 if (pditherg)
580 *pditherg =
581 (enum nx_dpc_dither)((temp & gdither_mask) >> gdither_pos);
582 if (pditherb)
583 *pditherb =
584 (enum nx_dpc_dither)((temp & bdither_mask) >> bdither_pos);
585 }
586
nx_dpc_set_mode(u32 module_index,enum nx_dpc_format format,int binterlace,int binvertfield,int brgbmode,int bswaprb,enum nx_dpc_ycorder ycorder,int bclipyc,int bembeddedsync,enum nx_dpc_padclk clock,int binvertclock,int bdualview)587 void nx_dpc_set_mode(u32 module_index, enum nx_dpc_format format,
588 int binterlace, int binvertfield, int brgbmode,
589 int bswaprb, enum nx_dpc_ycorder ycorder, int bclipyc,
590 int bembeddedsync, enum nx_dpc_padclk clock,
591 int binvertclock, int bdualview)
592 {
593 const u32 polfield_pos = 2;
594 const u32 seavenb_pos = 8;
595 const u32 scanmode_pos = 9;
596 const u32 intpend_pos = 10;
597 const u32 rgbmode_pos = 12;
598
599 const u32 dither_mask = 0x3f;
600 const u32 ycorder_pos = 6;
601 const u32 format_pos = 8;
602 const u32 ycrange_pos = 13;
603 const u32 swaprb_pos = 15;
604
605 const u32 padclksel_pos = 0;
606 const u32 padclksel_mask = 3u << padclksel_pos;
607 const u32 lcdtype_pos = 7;
608 const u32 lcdtype_mask = 3u << lcdtype_pos;
609 register struct nx_dpc_register_set *pregister;
610 register u32 temp;
611
612 pregister = __g_module_variables[module_index].pregister;
613 temp = pregister->dpcctrl0;
614 temp &= (u32)~(1u << intpend_pos);
615 if (binterlace)
616 temp |= (u32)(1u << scanmode_pos);
617 else
618 temp &= (u32)~(1u << scanmode_pos);
619 if (binvertfield)
620 temp |= (u32)(1u << polfield_pos);
621 else
622 temp &= (u32)~(1u << polfield_pos);
623 if (brgbmode)
624 temp |= (u32)(1u << rgbmode_pos);
625 else
626 temp &= (u32)~(1u << rgbmode_pos);
627 if (bembeddedsync)
628 temp |= (u32)(1u << seavenb_pos);
629 else
630 temp &= (u32)~(1u << seavenb_pos);
631
632 writel(temp, &pregister->dpcctrl0);
633 temp = pregister->dpcctrl1;
634 temp &= (u32)dither_mask;
635 temp = (u32)(temp | (ycorder << ycorder_pos));
636 if (format >= 16) {
637 register u32 temp1;
638
639 temp1 = pregister->dpcctrl2;
640 temp1 = temp1 | (1 << 4);
641 writel(temp1, &pregister->dpcctrl2);
642 } else {
643 register u32 temp1;
644
645 temp1 = pregister->dpcctrl2;
646 temp1 = temp1 & ~(1 << 4);
647 writel(temp1, &pregister->dpcctrl2);
648 }
649 temp = (u32)(temp | ((format & 0xf) << format_pos));
650 if (!bclipyc)
651 temp |= (u32)(1u << ycrange_pos);
652 if (bswaprb)
653 temp |= (u32)(1u << swaprb_pos);
654
655 writel(temp, &pregister->dpcctrl1);
656 temp = pregister->dpcctrl2;
657 temp &= (u32)~(padclksel_mask | lcdtype_mask);
658 temp = (u32)(temp | (clock << padclksel_pos));
659
660 writel(temp, &pregister->dpcctrl2);
661
662 nx_dpc_set_clock_out_inv(module_index, 0, binvertclock);
663 nx_dpc_set_clock_out_inv(module_index, 1, binvertclock);
664 }
665
nx_dpc_get_mode(u32 module_index,enum nx_dpc_format * pformat,int * pbinterlace,int * pbinvertfield,int * pbrgbmode,int * pbswaprb,enum nx_dpc_ycorder * pycorder,int * pbclipyc,int * pbembeddedsync,enum nx_dpc_padclk * pclock,int * pbinvertclock,int * pbdualview)666 void nx_dpc_get_mode(u32 module_index, enum nx_dpc_format *pformat,
667 int *pbinterlace, int *pbinvertfield, int *pbrgbmode,
668 int *pbswaprb, enum nx_dpc_ycorder *pycorder,
669 int *pbclipyc, int *pbembeddedsync,
670 enum nx_dpc_padclk *pclock, int *pbinvertclock,
671 int *pbdualview)
672 {
673 const u32 polfield = 1u << 2;
674 const u32 seavenb = 1u << 8;
675 const u32 scanmode = 1u << 9;
676 const u32 rgbmode = 1u << 12;
677
678 const u32 ycorder_pos = 6;
679 const u32 ycorder_mask = 0x3u << ycorder_pos;
680 const u32 format_pos = 8;
681 const u32 format_mask = 0xfu << format_pos;
682 const u32 ycrange = 1u << 13;
683 const u32 swaprb = 1u << 15;
684
685 const u32 padclksel_pos = 0;
686 const u32 padclksel_mask = 3u << padclksel_pos;
687 const u32 lcdtype_pos = 7;
688 const u32 lcdtype_mask = 3u << lcdtype_pos;
689 register u32 temp;
690
691 temp = __g_module_variables[module_index].pregister->dpcctrl0;
692 if (pbinterlace)
693 *pbinterlace = (temp & scanmode) ? 1 : 0;
694
695 if (pbinvertfield)
696 *pbinvertfield = (temp & polfield) ? 1 : 0;
697
698 if (pbrgbmode)
699 *pbrgbmode = (temp & rgbmode) ? 1 : 0;
700
701 if (pbembeddedsync)
702 *pbembeddedsync = (temp & seavenb) ? 1 : 0;
703
704 temp = __g_module_variables[module_index].pregister->dpcctrl1;
705
706 if (pycorder)
707 *pycorder =
708 (enum nx_dpc_ycorder)((temp & ycorder_mask) >> ycorder_pos);
709
710 if (pformat)
711 *pformat =
712 (enum nx_dpc_format)((temp & format_mask) >> format_pos);
713 if (pbclipyc)
714 *pbclipyc = (temp & ycrange) ? 0 : 1;
715 if (pbswaprb)
716 *pbswaprb = (temp & swaprb) ? 1 : 0;
717
718 temp = __g_module_variables[module_index].pregister->dpcctrl2;
719
720 if (pclock)
721 *pclock =
722 (enum nx_dpc_padclk)((temp & padclksel_mask) >>
723 padclksel_pos);
724
725 if (pbdualview)
726 *pbdualview = (2 == ((temp & lcdtype_mask) >> lcdtype_pos))
727 ? 1 : 0;
728
729 if (pbinvertclock)
730 *pbinvertclock = nx_dpc_get_clock_out_inv(module_index, 1);
731 }
732
nx_dpc_set_hsync(u32 module_index,u32 avwidth,u32 hsw,u32 hfp,u32 hbp,int binvhsync)733 void nx_dpc_set_hsync(u32 module_index, u32 avwidth, u32 hsw, u32 hfp, u32 hbp,
734 int binvhsync)
735 {
736 const u32 intpend = 1u << 10;
737 const u32 polhsync = 1u << 0;
738 register u32 temp;
739 register struct nx_dpc_register_set *pregister;
740
741 pregister = __g_module_variables[module_index].pregister;
742
743 writel((u32)(hsw + hbp + avwidth + hfp - 1), &pregister->dpchtotal);
744
745 writel((u32)(hsw - 1), &pregister->dpchswidth);
746
747 writel((u32)(hsw + hbp - 1), &pregister->dpchastart);
748
749 writel((u32)(hsw + hbp + avwidth - 1), &pregister->dpchaend);
750 temp = pregister->dpcctrl0;
751 temp &= ~intpend;
752 if (binvhsync)
753 temp |= (u32)polhsync;
754 else
755 temp &= (u32)~polhsync;
756
757 writel(temp, &pregister->dpcctrl0);
758 }
759
nx_dpc_get_hsync(u32 module_index,u32 * pavwidth,u32 * phsw,u32 * phfp,u32 * phbp,int * pbinvhsync)760 void nx_dpc_get_hsync(u32 module_index, u32 *pavwidth, u32 *phsw, u32 *phfp,
761 u32 *phbp, int *pbinvhsync)
762 {
763 const u32 polhsync = 1u << 0;
764 u32 htotal, hsw, hab, hae;
765 u32 avw, hfp, hbp;
766 register struct nx_dpc_register_set *pregister;
767
768 pregister = __g_module_variables[module_index].pregister;
769 htotal = (u32)pregister->dpchtotal + 1;
770 hsw = (u32)pregister->dpchswidth + 1;
771 hab = (u32)pregister->dpchastart + 1;
772 hae = (u32)pregister->dpchaend + 1;
773 hbp = hab - hsw;
774 avw = hae - hab;
775 hfp = htotal - hae;
776 if (pavwidth)
777 *pavwidth = avw;
778 if (phsw)
779 *phsw = hsw;
780 if (phfp)
781 *phfp = hfp;
782 if (phbp)
783 *phbp = hbp;
784 if (pbinvhsync)
785 *pbinvhsync = (pregister->dpcctrl0 & polhsync) ? 1 : 0;
786 }
787
nx_dpc_set_vsync(u32 module_index,u32 avheight,u32 vsw,u32 vfp,u32 vbp,int binvvsync,u32 eavheight,u32 evsw,u32 evfp,u32 evbp)788 void nx_dpc_set_vsync(u32 module_index, u32 avheight, u32 vsw, u32 vfp, u32 vbp,
789 int binvvsync, u32 eavheight, u32 evsw, u32 evfp,
790 u32 evbp)
791 {
792 const u32 intpend = 1u << 10;
793 const u32 polvsync = 1u << 1;
794 register u32 temp;
795 register struct nx_dpc_register_set *pregister;
796
797 pregister = __g_module_variables[module_index].pregister;
798
799 writel((u32)(vsw + vbp + avheight + vfp - 1), &pregister->dpcvtotal);
800
801 writel((u32)(vsw - 1), &pregister->dpcvswidth);
802
803 writel((u32)(vsw + vbp - 1), &pregister->dpcvastart);
804
805 writel((u32)(vsw + vbp + avheight - 1), &pregister->dpcvaend);
806
807 writel((u32)(evsw + evbp + eavheight + evfp - 1),
808 &pregister->dpcevtotal);
809
810 writel((u32)(evsw - 1), &pregister->dpcevswidth);
811
812 writel((u32)(evsw + evbp - 1), &pregister->dpcevastart);
813
814 writel((u32)(evsw + evbp + eavheight - 1), &pregister->dpcevaend);
815 temp = pregister->dpcctrl0;
816 temp &= ~intpend;
817 if (binvvsync)
818 temp |= (u32)polvsync;
819 else
820 temp &= (u32)~polvsync;
821
822 writel(temp, &pregister->dpcctrl0);
823 }
824
nx_dpc_get_vsync(u32 module_index,u32 * pavheight,u32 * pvsw,u32 * pvfp,u32 * pvbp,int * pbinvvsync,u32 * peavheight,u32 * pevsw,u32 * pevfp,u32 * pevbp)825 void nx_dpc_get_vsync(u32 module_index, u32 *pavheight, u32 *pvsw, u32 *pvfp,
826 u32 *pvbp, int *pbinvvsync, u32 *peavheight,
827 u32 *pevsw, u32 *pevfp, u32 *pevbp)
828 {
829 const u32 polvsync = 1u << 1;
830 u32 vtotal, vsw, vab, vae;
831 u32 avh, vfp, vbp;
832 register struct nx_dpc_register_set *pregister;
833
834 pregister = __g_module_variables[module_index].pregister;
835 vtotal = (u32)pregister->dpcvtotal + 1;
836 vsw = (u32)pregister->dpcvswidth + 1;
837 vab = (u32)pregister->dpcvastart + 1;
838 vae = (u32)pregister->dpcvaend + 1;
839 vbp = vab - vsw;
840 avh = vae - vab;
841 vfp = vtotal - vae;
842 if (pavheight)
843 *pavheight = avh;
844 if (pvsw)
845 *pvsw = vsw;
846 if (pvfp)
847 *pvfp = vfp;
848 if (pvbp)
849 *pvbp = vbp;
850 vtotal = (u32)pregister->dpcevtotal + 1;
851 vsw = (u32)pregister->dpcevswidth + 1;
852 vab = (u32)pregister->dpcevastart + 1;
853 vae = (u32)pregister->dpcevaend + 1;
854 vbp = vab - vsw;
855 avh = vae - vab;
856 vfp = vtotal - vae;
857 if (peavheight)
858 *peavheight = avh;
859 if (pevsw)
860 *pevsw = vsw;
861 if (pevfp)
862 *pevfp = vfp;
863 if (pevbp)
864 *pevbp = vbp;
865 if (pbinvvsync)
866 *pbinvvsync = (pregister->dpcctrl0 & polvsync) ? 1 : 0;
867 }
868
nx_dpc_set_vsync_offset(u32 module_index,u32 vssoffset,u32 vseoffset,u32 evssoffset,u32 evseoffset)869 void nx_dpc_set_vsync_offset(u32 module_index, u32 vssoffset, u32 vseoffset,
870 u32 evssoffset, u32 evseoffset)
871 {
872 register struct nx_dpc_register_set *pregister;
873
874 pregister = __g_module_variables[module_index].pregister;
875
876 writel((u32)vseoffset, &pregister->dpcvseoffset);
877
878 writel((u32)vssoffset, &pregister->dpcvssoffset);
879
880 writel((u32)evseoffset, &pregister->dpcevseoffset);
881
882 writel((u32)evssoffset, &pregister->dpcevssoffset);
883 }
884
nx_dpc_get_vsync_offset(u32 module_index,u32 * pvssoffset,u32 * pvseoffset,u32 * pevssoffset,u32 * pevseoffset)885 void nx_dpc_get_vsync_offset(u32 module_index, u32 *pvssoffset,
886 u32 *pvseoffset, u32 *pevssoffset,
887 u32 *pevseoffset)
888 {
889 register struct nx_dpc_register_set *pregister;
890
891 pregister = __g_module_variables[module_index].pregister;
892
893 if (pvseoffset)
894 *pvseoffset = (u32)pregister->dpcvseoffset;
895
896 if (pvssoffset)
897 *pvssoffset = (u32)pregister->dpcvssoffset;
898
899 if (pevseoffset)
900 *pevseoffset = (u32)pregister->dpcevseoffset;
901
902 if (pevssoffset)
903 *pevssoffset = (u32)pregister->dpcevssoffset;
904 }
905
nx_dpc_set_horizontal_up_scaler(u32 module_index,int benb,u32 sourcewidth,u32 destwidth)906 void nx_dpc_set_horizontal_up_scaler(u32 module_index, int benb,
907 u32 sourcewidth, u32 destwidth)
908 {
909 const u32 upscalel_pos = 8;
910 const u32 upscaleh_pos = 0;
911 const u32 upscaleh_mask = ((1 << 15) - 1) << upscaleh_pos;
912 const u32 upscalerenb_pos = 0;
913 register struct nx_dpc_register_set *pregister;
914 register u32 regvalue;
915 register u32 up_scale;
916
917 pregister = __g_module_variables[module_index].pregister;
918 up_scale = ((sourcewidth - 1) * (1 << 11)) / (destwidth - 1);
919 regvalue = 0;
920 regvalue |= (((u32)benb << upscalerenb_pos) |
921 (up_scale & 0xff) << upscalel_pos);
922
923 writel(regvalue, &pregister->dpcupscalecon0);
924
925 writel((up_scale >> 0x08) & upscaleh_mask, &pregister->dpcupscalecon1);
926
927 writel(sourcewidth - 1, &pregister->dpcupscalecon2);
928 }
929
nx_dpc_get_horizontal_up_scaler(u32 module_index,int * pbenb,u32 * psourcewidth,u32 * pdestwidth)930 void nx_dpc_get_horizontal_up_scaler(u32 module_index, int *pbenb,
931 u32 *psourcewidth, u32 *pdestwidth)
932 {
933 const u32 upscalerenb_pos = 0;
934 const u32 upscalerenb_mask = 1u << upscalerenb_pos;
935 register struct nx_dpc_register_set *pregister;
936
937 u32 up_scale;
938 u32 destwidth, srcwidth;
939
940 pregister = __g_module_variables[module_index].pregister;
941 up_scale = ((u32)(pregister->dpcupscalecon1 & 0x7fff) << 8) |
942 ((u32)(pregister->dpcupscalecon0 >> 8) & 0xff);
943 srcwidth = pregister->dpcupscalecon2;
944 destwidth = (srcwidth * (1 << 11)) / up_scale;
945 if (pbenb)
946 *pbenb = (pregister->dpcupscalecon0 & upscalerenb_mask);
947 if (psourcewidth)
948 *psourcewidth = srcwidth + 1;
949 if (pdestwidth)
950 *pdestwidth = destwidth + 1;
951 }
952
nx_dpc_set_sync(u32 module_index,enum syncgenmode sync_gen_mode,u32 avwidth,u32 avheight,u32 hsw,u32 hfp,u32 hbp,u32 vsw,u32 vfp,u32 vbp,enum polarity field_polarity,enum polarity hsyncpolarity,enum polarity vsyncpolarity,u32 even_vsw,u32 even_vfp,u32 even_vbp,u32 vsetpixel,u32 vsclrpixel,u32 evenvsetpixel,u32 evenvsclrpixel)953 void nx_dpc_set_sync(u32 module_index, enum syncgenmode sync_gen_mode,
954 u32 avwidth, u32 avheight, u32 hsw, u32 hfp, u32 hbp,
955 u32 vsw, u32 vfp, u32 vbp, enum polarity field_polarity,
956 enum polarity hsyncpolarity, enum polarity vsyncpolarity,
957 u32 even_vsw, u32 even_vfp, u32 even_vbp, u32 vsetpixel,
958 u32 vsclrpixel, u32 evenvsetpixel, u32 evenvsclrpixel)
959 {
960 register struct nx_dpc_register_set *pregister;
961 u32 regvalue = 0;
962
963 pregister = __g_module_variables[module_index].pregister;
964
965 writel((u32)(hfp + hsw + hbp + avwidth - 1), &pregister->dpchtotal);
966 writel((u32)(hsw - 1), &pregister->dpchswidth);
967 writel((u32)(hsw + hbp - 1), &pregister->dpchastart);
968 writel((u32)(hsw + hbp + avwidth - 1), &pregister->dpchaend);
969 writel((u32)(vfp + vsw + vbp + avheight - 1), &pregister->dpcvtotal);
970 writel((u32)(vsw - 1), &pregister->dpcvswidth);
971 writel((u32)(vsw + vbp - 1), &pregister->dpcvastart);
972 writel((u32)(vsw + vbp + avheight - 1), &pregister->dpcvaend);
973 writel((u32)vsetpixel, &pregister->dpcvseoffset);
974 writel((u32)(hfp + hsw + hbp + avwidth - vsclrpixel - 1),
975 &pregister->dpcvssoffset);
976 writel((u32)evenvsetpixel, &pregister->dpcevseoffset);
977 writel((u32)(hfp + hsw + hbp + avwidth - evenvsclrpixel - 1),
978 &pregister->dpcevssoffset);
979 if (sync_gen_mode == 1) {
980 writel((u32)(even_vfp + even_vsw + even_vbp + avheight - 1),
981 &pregister->dpcevtotal);
982 writel((u32)(even_vsw - 1), &pregister->dpcevswidth);
983 writel((u32)(even_vsw + even_vbp - 1),
984 &pregister->dpcevastart);
985 writel((u32)(even_vsw + even_vbp + avheight - 1),
986 &pregister->dpcevaend);
987 }
988 regvalue = readl(&pregister->dpcctrl0) & 0xfff0ul;
989 regvalue |= (((u32)field_polarity << 2) | ((u32)vsyncpolarity << 1) |
990 ((u32)hsyncpolarity << 0));
991 writel((u32)regvalue, &pregister->dpcctrl0);
992 }
993
nx_dpc_set_output_format(u32 module_index,enum outputformat output_format,u8 output_video_config)994 void nx_dpc_set_output_format(u32 module_index, enum outputformat output_format,
995 u8 output_video_config)
996 {
997 const u32 format_table[] = {
998 (0 << 0), (1 << 0), (2 << 0), (3 << 0), (4 << 0), (5 << 0),
999 (6 << 0), (7 << 0), (8 << 0), (9 << 0), (0 << 0) | (1 << 7),
1000 (1 << 0) | (1 << 7), (2 << 0) | (1 << 7), (3 << 0) | (1 << 7),
1001 (4 << 0) | (1 << 7), (5 << 0) | (1 << 7), (6 << 0) | (1 << 7),
1002 (7 << 0) | (1 << 7), (8 << 0) | (1 << 7), (9 << 0) | (1 << 7),
1003 (10 << 0), (11 << 0), (12 << 0), (13 << 0), (14 << 0), (15 << 0)
1004 };
1005 u32 regvalue;
1006 u32 regvalue0;
1007 register struct nx_dpc_register_set *pregister;
1008
1009 pregister = __g_module_variables[module_index].pregister;
1010 regvalue = readl(&pregister->dpcctrl1) & 0x30fful;
1011
1012 regvalue |= (format_table[output_format] << 8);
1013 writel((u32)regvalue, &pregister->dpcctrl1);
1014 regvalue0 = (u32)(readl(&pregister->dpcctrl1) & 0xff3f);
1015 regvalue0 = (u32)((output_video_config << 6) | regvalue0);
1016 writel((u32)regvalue0, &pregister->dpcctrl1);
1017 }
1018
nx_dpc_set_quantization_mode(u32 module_index,enum qmode rgb2yc,enum qmode yc2rgb)1019 void nx_dpc_set_quantization_mode(u32 module_index, enum qmode rgb2yc,
1020 enum qmode yc2rgb)
1021 {
1022 register struct nx_dpc_register_set *pregister;
1023 u32 regvalue;
1024
1025 pregister = __g_module_variables[module_index].pregister;
1026 regvalue = readl(&pregister->dpcctrl1) & 0x8ffful;
1027 regvalue |= ((u32)rgb2yc << 13) | ((u32)yc2rgb << 12);
1028 writel((u32)regvalue, &pregister->dpcctrl1);
1029 }
1030
nx_dpc_set_enable(u32 module_index,int enable,int rgbmode,int use_ntscsync,int use_analog_output,int seavenable)1031 void nx_dpc_set_enable(u32 module_index, int enable, int rgbmode,
1032 int use_ntscsync, int use_analog_output, int seavenable)
1033 {
1034 u32 regvalue;
1035 register struct nx_dpc_register_set *pregister;
1036
1037 pregister = __g_module_variables[module_index].pregister;
1038 regvalue = readl(&pregister->dpcctrl0) & 0x0efful;
1039 regvalue |= ((u32)enable << 15) | ((u32)use_ntscsync << 14) |
1040 ((u32)seavenable << 8) | ((u32)use_analog_output << 13) |
1041 ((u32)rgbmode << 12);
1042 writel((u32)regvalue, &pregister->dpcctrl0);
1043 }
1044
nx_dpc_set_out_video_clk_select(u32 module_index,enum outpadclksel out_pad_vclk_sel)1045 void nx_dpc_set_out_video_clk_select(u32 module_index,
1046 enum outpadclksel out_pad_vclk_sel)
1047 {
1048 register struct nx_dpc_register_set *pregister;
1049
1050 pregister = __g_module_variables[module_index].pregister;
1051
1052 writel((u32)((readl(&pregister->dpcctrl2)) | (out_pad_vclk_sel & 0x3)),
1053 &pregister->dpcctrl2);
1054 }
1055
nx_dpc_set_reg_flush(u32 module_index)1056 void nx_dpc_set_reg_flush(u32 module_index)
1057 {
1058 u32 reg;
1059 register struct nx_dpc_register_set *pregister;
1060
1061 pregister = __g_module_variables[module_index].pregister;
1062 reg = readl(&pregister->dpcdataflush);
1063 writel((u32)(reg | (1ul << 4)), &pregister->dpcdataflush);
1064 }
1065
nx_dpc_set_sramon(u32 module_index)1066 void nx_dpc_set_sramon(u32 module_index)
1067 {
1068 u32 reg;
1069 register struct nx_dpc_register_set *pregister;
1070
1071 pregister = __g_module_variables[module_index].pregister;
1072 reg = (u32)(readl(&pregister->dpcctrl2) & 0xf3ff);
1073 writel((u32)(reg | (1ul << 10)), &pregister->dpcctrl2);
1074 reg = (u32)(readl(&pregister->dpcctrl2) & 0xf7ff);
1075 writel((u32)(reg | (1ul << 11)), &pregister->dpcctrl2);
1076 }
1077
nx_dpc_set_sync_lcdtype(u32 module_index,int stnlcd,int dual_view_enb,int bit_widh,u8 cpcycle)1078 void nx_dpc_set_sync_lcdtype(u32 module_index, int stnlcd, int dual_view_enb,
1079 int bit_widh, u8 cpcycle)
1080 {
1081 u32 reg;
1082 register struct nx_dpc_register_set *pregister;
1083
1084 pregister = __g_module_variables[module_index].pregister;
1085
1086 reg = (u32)(readl(&pregister->dpcctrl2) & 0xc0f);
1087 writel((u32)(reg | (cpcycle << 12) | (bit_widh << 9) |
1088 (dual_view_enb << 8) | (stnlcd << 7)),
1089 &pregister->dpcctrl2);
1090 }
1091
nx_dpc_set_up_scale_control(u32 module_index,int up_scale_enb,int filter_enb,u32 hscale,u16 source_width)1092 void nx_dpc_set_up_scale_control(u32 module_index, int up_scale_enb,
1093 int filter_enb, u32 hscale, u16 source_width)
1094 {
1095 register struct nx_dpc_register_set *pregister;
1096
1097 pregister = __g_module_variables[module_index].pregister;
1098 writel((u32)((hscale << 8) | ((u32)filter_enb << 1) | (up_scale_enb)),
1099 &pregister->dpcupscalecon0);
1100 writel((u32)(hscale >> 8), &pregister->dpcupscalecon1);
1101 writel(source_width, &pregister->dpcupscalecon2);
1102 }
1103
nx_dpc_set_mputime(u32 module_index,u8 setup,u8 hold,u8 acc)1104 void nx_dpc_set_mputime(u32 module_index, u8 setup, u8 hold, u8 acc)
1105 {
1106 register struct nx_dpc_register_set *pregister;
1107
1108 pregister = __g_module_variables[module_index].pregister;
1109 writel((u32)((setup << 8) | (hold & 0xff)), &pregister->dpcmputime0);
1110 writel((u32)(acc), &pregister->dpcmputime1);
1111 }
1112
nx_dpc_set_index(u32 module_index,u32 index)1113 void nx_dpc_set_index(u32 module_index, u32 index)
1114 {
1115 u32 regvalue;
1116 register struct nx_dpc_register_set *pregister;
1117
1118 pregister = __g_module_variables[module_index].pregister;
1119 writel((u32)(index & 0xffff), &pregister->dpcmpuwrdatal);
1120 writel((u32)((index >> 16) & 0xff), &pregister->dpcmpuindex);
1121 if (index == 0x22) {
1122 regvalue = readl(&pregister->dpcctrl2);
1123 writel((regvalue | 0x10), &pregister->dpcctrl2);
1124 }
1125 }
1126
nx_dpc_set_data(u32 module_index,u32 data)1127 void nx_dpc_set_data(u32 module_index, u32 data)
1128 {
1129 register struct nx_dpc_register_set *pregister;
1130
1131 pregister = __g_module_variables[module_index].pregister;
1132 writel((u32)(data & 0xffff), &pregister->dpcmpuwrdatal);
1133 writel((u32)((data >> 16) & 0xff), &pregister->dpcmpudatah);
1134 }
1135
nx_dpc_set_cmd_buffer_flush(u32 module_index)1136 void nx_dpc_set_cmd_buffer_flush(u32 module_index)
1137 {
1138 u32 reg;
1139 register struct nx_dpc_register_set *pregister;
1140
1141 pregister = __g_module_variables[module_index].pregister;
1142 reg = readl(&pregister->dpcdataflush);
1143 writel((u32)(reg | (1 << 1)), &pregister->dpcdataflush);
1144 }
1145
nx_dpc_set_cmd_buffer_clear(u32 module_index)1146 void nx_dpc_set_cmd_buffer_clear(u32 module_index)
1147 {
1148 u32 reg;
1149 register struct nx_dpc_register_set *pregister;
1150
1151 pregister = __g_module_variables[module_index].pregister;
1152 reg = readl(&pregister->dpcdataflush);
1153 writel((u32)(reg | (1 << 0)), &pregister->dpcdataflush);
1154 }
1155
nx_dpc_set_cmd_buffer_write(u32 module_index,u32 cmd_data)1156 void nx_dpc_set_cmd_buffer_write(u32 module_index, u32 cmd_data)
1157 {
1158 register struct nx_dpc_register_set *pregister;
1159
1160 pregister = __g_module_variables[module_index].pregister;
1161 writel((u32)(cmd_data & 0xffff), &pregister->dpccmdbufferdatal);
1162 writel((u32)(cmd_data >> 16), &pregister->dpccmdbufferdatah);
1163 }
1164
nx_dpc_set(u32 module_index)1165 void nx_dpc_set(u32 module_index)
1166 {
1167 u32 reg;
1168 register struct nx_dpc_register_set *pregister;
1169
1170 pregister = __g_module_variables[module_index].pregister;
1171 reg = readl(&pregister->dpcpolctrl);
1172 writel((u32)(reg | 0x1), &pregister->dpcpolctrl);
1173 }
1174
nx_dpc_get_data(u32 module_index)1175 u32 nx_dpc_get_data(u32 module_index)
1176 {
1177 u32 reg = 0;
1178 register struct nx_dpc_register_set *pregister;
1179
1180 pregister = __g_module_variables[module_index].pregister;
1181 reg = readl(&pregister->dpcmpudatah);
1182 reg = (reg << 16) | readl(&pregister->dpcmpurdatal);
1183 return reg;
1184 }
1185
nx_dpc_get_status(u32 module_index)1186 u32 nx_dpc_get_status(u32 module_index)
1187 {
1188 u32 reg = 0;
1189 register struct nx_dpc_register_set *pregister;
1190
1191 pregister = __g_module_variables[module_index].pregister;
1192 reg = readl(&pregister->dpcmpustatus);
1193 reg = (reg << 16) | readl(&pregister->dpcmpurdatal);
1194 return reg;
1195 }
1196
nx_dpc_rgbmask(u32 module_index,u32 rgbmask)1197 void nx_dpc_rgbmask(u32 module_index, u32 rgbmask)
1198 {
1199 register struct nx_dpc_register_set *pregister;
1200
1201 pregister = __g_module_variables[module_index].pregister;
1202 writel((rgbmask >> 0) & 0xffff, &pregister->dpcrgbmask[0]);
1203 writel((rgbmask >> 16) & 0x00ff, &pregister->dpcrgbmask[1]);
1204 }
1205
nx_dpc_set_pad_location(u32 module_index,u32 index,u32 regvalue)1206 void nx_dpc_set_pad_location(u32 module_index, u32 index, u32 regvalue)
1207 {
1208 register struct nx_dpc_register_set *pregister;
1209
1210 pregister = __g_module_variables[module_index].pregister;
1211 writel(regvalue, &pregister->dpcpadposition[index]);
1212 }
1213
nx_dpc_get_field_flag(u32 module_index)1214 u32 nx_dpc_get_field_flag(u32 module_index)
1215 {
1216 register struct nx_dpc_register_set *pregister;
1217 u32 regvalue;
1218
1219 pregister = __g_module_variables[module_index].pregister;
1220 regvalue = readl(&pregister->dpcrgbshift);
1221
1222 return (u32)((regvalue >> 5) & 0x01);
1223 }
1224
nx_dpc_set_enable_with_interlace(u32 module_index,int enable,int rgbmode,int use_ntscsync,int use_analog_output,int seavenable)1225 void nx_dpc_set_enable_with_interlace(u32 module_index, int enable, int rgbmode,
1226 int use_ntscsync, int use_analog_output,
1227 int seavenable)
1228 {
1229 u32 regvalue;
1230 register struct nx_dpc_register_set *pregister;
1231
1232 pregister = __g_module_variables[module_index].pregister;
1233 regvalue = readl(&pregister->dpcctrl0) & 0x0eff;
1234 regvalue = readl(&pregister->dpcctrl0) & 0x0eff;
1235 regvalue |= ((u32)enable << 15) | ((u32)use_ntscsync << 14) |
1236 ((u32)seavenable << 8) | ((u32)use_analog_output << 13) |
1237 ((u32)rgbmode << 12);
1238
1239 regvalue |= (1 << 9);
1240 writel((u16)regvalue, &pregister->dpcctrl0);
1241 }
1242
nx_dpc_set_encoder_control_reg(u32 module_index,u32 param_a,u32 param_b,u32 param_c)1243 void nx_dpc_set_encoder_control_reg(u32 module_index, u32 param_a, u32 param_b,
1244 u32 param_c)
1245 {
1246 register struct nx_dpc_register_set *pregister;
1247
1248 pregister = __g_module_variables[module_index].pregister;
1249 writel(param_a, &pregister->ntsc_ecmda);
1250 writel(param_b, &pregister->ntsc_ecmdb);
1251 writel(param_c, &pregister->ntsc_ecmdc);
1252 }
1253
nx_dpc_set_encoder_shcphase_control(u32 module_index,u32 chroma_param)1254 void nx_dpc_set_encoder_shcphase_control(u32 module_index, u32 chroma_param)
1255 {
1256 register struct nx_dpc_register_set *pregister;
1257
1258 pregister = __g_module_variables[module_index].pregister;
1259 writel(chroma_param, &pregister->ntsc_sch);
1260 }
1261
nx_dpc_set_encoder_timing_config_reg(u32 module_index,u32 icntl)1262 void nx_dpc_set_encoder_timing_config_reg(u32 module_index, u32 icntl)
1263 {
1264 register struct nx_dpc_register_set *pregister;
1265
1266 pregister = __g_module_variables[module_index].pregister;
1267 writel(icntl, &pregister->ntsc_icntl);
1268 }
1269
nx_dpc_set_encoder_dacoutput_select(u32 module_index,u8 dacsel0,u8 dacsel1,u8 dacsel2,u8 dacsel3,u8 dacsel4,u8 dacsel5)1270 void nx_dpc_set_encoder_dacoutput_select(u32 module_index, u8 dacsel0,
1271 u8 dacsel1, u8 dacsel2, u8 dacsel3,
1272 u8 dacsel4, u8 dacsel5)
1273 {
1274 register struct nx_dpc_register_set *pregister;
1275
1276 pregister = __g_module_variables[module_index].pregister;
1277 writel(((dacsel1 & 0xf) << 4) | (dacsel0 & 0xf),
1278 &pregister->ntsc_dacsel10);
1279 writel(((dacsel3 & 0xf) << 4) | (dacsel2 & 0xf),
1280 &pregister->ntsc_dacsel32);
1281 writel(((dacsel5 & 0xf) << 4) | (dacsel4 & 0xf),
1282 &pregister->ntsc_dacsel54);
1283 }
1284
nx_dpc_set_encoder_sync_location(u32 module_index,u16 hsoe,u16 hsob,u16 vsob,u16 vsoe,u8 vsost,int novrst)1285 void nx_dpc_set_encoder_sync_location(u32 module_index, u16 hsoe, u16 hsob,
1286 u16 vsob, u16 vsoe, u8 vsost, int novrst)
1287 {
1288 register struct nx_dpc_register_set *pregister;
1289
1290 pregister = __g_module_variables[module_index].pregister;
1291 writel((u16)((((vsob & 0x100) >> 2) | ((hsob & 0x700) >> 5) |
1292 (hsoe & 0x700) >> 8)), &pregister->ntsc_hsvso);
1293 writel((u16)(hsoe & 0xff), &pregister->ntsc_hsoe);
1294 writel((u16)(hsob & 0xff), &pregister->ntsc_hsob);
1295 writel((u16)(vsob & 0xff), &pregister->ntsc_vsob);
1296 writel((u16)(((vsost & 0x3) << 6) | (novrst << 5) | (vsoe & 0x1f)),
1297 &pregister->ntsc_vsoe);
1298 }
1299
nx_dpc_set_encoder_dacpower_enable(u32 module_index,u8 dacpd)1300 void nx_dpc_set_encoder_dacpower_enable(u32 module_index, u8 dacpd)
1301 {
1302 register struct nx_dpc_register_set *pregister;
1303
1304 pregister = __g_module_variables[module_index].pregister;
1305 writel(dacpd, &pregister->ntsc_dacpd);
1306 }
1307
nx_dpc_set_ycorder(u32 module_index,enum nx_dpc_ycorder ycorder)1308 void nx_dpc_set_ycorder(u32 module_index, enum nx_dpc_ycorder ycorder)
1309 {
1310 const u16 ycorder_pos = 6;
1311 register struct nx_dpc_register_set *pregister;
1312 u32 temp;
1313
1314 pregister = __g_module_variables[module_index].pregister;
1315 temp = pregister->dpcctrl1 & (~(0xf << ycorder_pos));
1316 temp = (u16)(temp | (ycorder << ycorder_pos));
1317 writel(temp, &pregister->dpcctrl1);
1318 }
1319
nx_dpc_set_luma_gain(u32 module_index,u32 luma_gain)1320 void nx_dpc_set_luma_gain(u32 module_index, u32 luma_gain)
1321 {
1322 register struct nx_dpc_register_set *pregister;
1323
1324 pregister = __g_module_variables[module_index].pregister;
1325 writel(luma_gain, &pregister->ntsc_cont);
1326 }
1327
nx_dpc_set_encenable(u32 module_index,int benb)1328 void nx_dpc_set_encenable(u32 module_index, int benb)
1329 {
1330 const u16 encmode = 1u << 14;
1331 const u16 encrst = 1u << 13;
1332 const u16 intpend = 1u << 10;
1333 register struct nx_dpc_register_set *pregister;
1334 register u16 temp;
1335
1336 pregister = __g_module_variables[module_index].pregister;
1337 temp = readl(&pregister->dpcctrl0);
1338 temp &= (u16)~intpend;
1339 if (benb)
1340 temp |= (u16)encrst;
1341 else
1342 temp &= (u16)~encrst;
1343 writel((temp | encmode), &pregister->dpcctrl0);
1344 writel(7, &pregister->ntsc_icntl);
1345 }
1346
nx_dpc_get_encenable(u32 module_index)1347 int nx_dpc_get_encenable(u32 module_index)
1348 {
1349 const u16 encrst = 1u << 13;
1350 register struct nx_dpc_register_set *pregister;
1351
1352 pregister = __g_module_variables[module_index].pregister;
1353 return (readl(&pregister->dpcctrl0) & encrst) ? 1 : 0;
1354 }
1355
nx_dpc_set_video_encoder_power_down(u32 module_index,int benb)1356 void nx_dpc_set_video_encoder_power_down(u32 module_index, int benb)
1357 {
1358 const u16 pwdenc = 1u << 7;
1359 register struct nx_dpc_register_set *pregister;
1360
1361 pregister = __g_module_variables[module_index].pregister;
1362 if (benb) {
1363 writel(readl(&pregister->ntsc_ecmda) | (u16)pwdenc,
1364 &pregister->ntsc_ecmda);
1365 writel(0, &pregister->ntsc_dacsel10);
1366 } else {
1367 writel(1, &pregister->ntsc_dacsel10);
1368 writel(readl(&pregister->ntsc_ecmda) & (u16)~pwdenc,
1369 &pregister->ntsc_ecmda);
1370 }
1371 }
1372
nx_dpc_get_video_encoder_power_down(u32 module_index)1373 int nx_dpc_get_video_encoder_power_down(u32 module_index)
1374 {
1375 const u16 pwdenc = 1u << 7;
1376 register struct nx_dpc_register_set *pregister;
1377
1378 pregister = __g_module_variables[module_index].pregister;
1379 return (readl(&pregister->ntsc_ecmda) & pwdenc) ? 1 : 0;
1380 }
1381
nx_dpc_set_video_encoder_mode(u32 module_index,enum nx_dpc_vbs vbs,int bpedestal)1382 void nx_dpc_set_video_encoder_mode(u32 module_index, enum nx_dpc_vbs vbs,
1383 int bpedestal)
1384 {
1385 register struct nx_dpc_register_set *pregister;
1386
1387 #define phalt (1u << 0)
1388 #define ifmt (1u << 1)
1389 #define ped (1u << 3)
1390 #define fscsel_ntsc (0u << 4)
1391 #define fscsel_pal (1u << 4)
1392 #define fscsel_palm (2u << 4)
1393 #define fscsel_paln (3u << 4)
1394 #define fdrst (1u << 6)
1395 #define pwdenc (1u << 7)
1396 register u16 temp;
1397 static const u8 ntsc_ecmda_table[] = {
1398 (u8)(fscsel_ntsc | fdrst), (u8)(ifmt | fscsel_ntsc),
1399 (u8)(fscsel_pal), (u8)(fscsel_palm | phalt),
1400 (u8)(ifmt | fscsel_paln | phalt),
1401 (u8)(ifmt | fscsel_pal | phalt | fdrst),
1402 (u8)(fscsel_pal | phalt),
1403 (u8)(ifmt | fscsel_ntsc)
1404 };
1405 pregister = __g_module_variables[module_index].pregister;
1406 temp = readl(&pregister->ntsc_ecmda);
1407 temp &= (u16)pwdenc;
1408 temp = (u16)(temp | (u16)ntsc_ecmda_table[vbs]);
1409 if (bpedestal)
1410 temp |= (u16)ped;
1411 writel(temp, &pregister->ntsc_ecmda);
1412 #undef phalt
1413 #undef ifmt
1414 #undef ped
1415 #undef fscsel_ntsc
1416 #undef fscsel_pal
1417 #undef fscsel_palm
1418 #undef fscsel_paln
1419 #undef fdrst
1420 #undef pwdenc
1421 }
1422
nx_dpc_set_video_encoder_schlock_control(u32 module_index,int bfreerun)1423 void nx_dpc_set_video_encoder_schlock_control(u32 module_index, int bfreerun)
1424 {
1425 const u16 fdrst = 1u << 6;
1426 register struct nx_dpc_register_set *pregister;
1427 register u16 temp;
1428
1429 pregister = __g_module_variables[module_index].pregister;
1430 temp = readl(&pregister->ntsc_ecmda);
1431 if (bfreerun)
1432 temp |= (u16)fdrst;
1433 else
1434 temp &= (u16)~fdrst;
1435 writel(temp, &pregister->ntsc_ecmda);
1436 }
1437
nx_dpc_get_video_encoder_schlock_control(u32 module_index)1438 int nx_dpc_get_video_encoder_schlock_control(u32 module_index)
1439 {
1440 const u16 fdrst = 1u << 6;
1441 register struct nx_dpc_register_set *pregister;
1442
1443 pregister = __g_module_variables[module_index].pregister;
1444 return (readl(&pregister->ntsc_ecmda) & fdrst) ? 1 : 0;
1445 }
1446
nx_dpc_set_video_encoder_bandwidth(u32 module_index,enum nx_dpc_bandwidth luma,enum nx_dpc_bandwidth chroma)1447 void nx_dpc_set_video_encoder_bandwidth(u32 module_index,
1448 enum nx_dpc_bandwidth luma,
1449 enum nx_dpc_bandwidth chroma)
1450 {
1451 const u16 ybw_pos = 0;
1452 const u16 cbw_pos = 2;
1453 register struct nx_dpc_register_set *pregister;
1454
1455 pregister = __g_module_variables[module_index].pregister;
1456 writel((u16)((chroma << cbw_pos) | (luma << ybw_pos)),
1457 &pregister->ntsc_ecmdb);
1458 }
1459
nx_dpc_get_video_encoder_bandwidth(u32 module_index,enum nx_dpc_bandwidth * pluma,enum nx_dpc_bandwidth * pchroma)1460 void nx_dpc_get_video_encoder_bandwidth(u32 module_index,
1461 enum nx_dpc_bandwidth *pluma,
1462 enum nx_dpc_bandwidth *pchroma)
1463 {
1464 const u16 ybw_pos = 0;
1465 const u16 ybw_mask = 3u << ybw_pos;
1466 const u16 cbw_pos = 2;
1467 const u16 cbw_mask = 3u << cbw_pos;
1468 register struct nx_dpc_register_set *pregister;
1469 register u16 temp;
1470
1471 pregister = __g_module_variables[module_index].pregister;
1472 temp = readl(&pregister->ntsc_ecmdb);
1473 if (pluma)
1474 *pluma = (enum nx_dpc_bandwidth)((temp & ybw_mask) >> ybw_pos);
1475 if (pchroma)
1476 *pchroma =
1477 (enum nx_dpc_bandwidth)((temp & cbw_mask) >> cbw_pos);
1478 }
1479
nx_dpc_set_video_encoder_color_control(u32 module_index,s8 sch,s8 hue,s8 sat,s8 crt,s8 brt)1480 void nx_dpc_set_video_encoder_color_control(u32 module_index, s8 sch,
1481 s8 hue, s8 sat, s8 crt,
1482 s8 brt)
1483 {
1484 register struct nx_dpc_register_set *pregister;
1485
1486 pregister = __g_module_variables[module_index].pregister;
1487 writel((u16)sch, &pregister->ntsc_sch);
1488 writel((u16)hue, &pregister->ntsc_hue);
1489 writel((u16)sat, &pregister->ntsc_sat);
1490 writel((u16)crt, &pregister->ntsc_cont);
1491 writel((u16)brt, &pregister->ntsc_bright);
1492 }
1493
nx_dpc_get_video_encoder_color_control(u32 module_index,s8 * psch,s8 * phue,s8 * psat,s8 * pcrt,s8 * pbrt)1494 void nx_dpc_get_video_encoder_color_control(u32 module_index, s8 *psch,
1495 s8 *phue, s8 *psat,
1496 s8 *pcrt, s8 *pbrt)
1497 {
1498 register struct nx_dpc_register_set *pregister;
1499
1500 pregister = __g_module_variables[module_index].pregister;
1501 if (psch)
1502 *psch = (s8)readl(&pregister->ntsc_sch);
1503 if (phue)
1504 *phue = (s8)readl(&pregister->ntsc_hue);
1505 if (psat)
1506 *psat = (s8)readl(&pregister->ntsc_sat);
1507 if (pcrt)
1508 *pcrt = (s8)readl(&pregister->ntsc_cont);
1509 if (pbrt)
1510 *pbrt = (s8)readl(&pregister->ntsc_bright);
1511 }
1512
nx_dpc_set_video_encoder_fscadjust(u32 module_index,int16_t adjust)1513 void nx_dpc_set_video_encoder_fscadjust(u32 module_index, int16_t adjust)
1514 {
1515 register struct nx_dpc_register_set *pregister;
1516
1517 pregister = __g_module_variables[module_index].pregister;
1518 writel((u16)(adjust >> 8), &pregister->ntsc_fsc_adjh);
1519 writel((u16)(adjust & 0xff), &pregister->ntsc_fsc_adjl);
1520 }
1521
nx_dpc_get_video_encoder_fscadjust(u32 module_index)1522 u16 nx_dpc_get_video_encoder_fscadjust(u32 module_index)
1523 {
1524 register u32 temp;
1525 register struct nx_dpc_register_set *pregister;
1526
1527 pregister = __g_module_variables[module_index].pregister;
1528 temp = (u32)readl(&pregister->ntsc_fsc_adjh);
1529 temp <<= 8;
1530 temp |= (((u32)readl(&pregister->ntsc_fsc_adjl)) & 0xff);
1531 return (u16)temp;
1532 }
1533
nx_dpc_set_video_encoder_timing(u32 module_index,u32 hsos,u32 hsoe,u32 vsos,u32 vsoe)1534 void nx_dpc_set_video_encoder_timing(u32 module_index, u32 hsos, u32 hsoe,
1535 u32 vsos, u32 vsoe)
1536 {
1537 register struct nx_dpc_register_set *pregister;
1538
1539 pregister = __g_module_variables[module_index].pregister;
1540 hsos -= 1;
1541 hsoe -= 1;
1542 writel((u16)((((vsos >> 8) & 1u) << 6) | (((hsos >> 8) & 7u) << 3) |
1543 (((hsoe >> 8) & 7u) << 0)), &pregister->ntsc_hsvso);
1544 writel((u16)(hsos & 0xffu), &pregister->ntsc_hsob);
1545 writel((u16)(hsoe & 0xffu), &pregister->ntsc_hsoe);
1546 writel((u16)(vsos & 0xffu), &pregister->ntsc_vsob);
1547 writel((u16)(vsoe & 0x1fu), &pregister->ntsc_vsoe);
1548 }
1549
nx_dpc_get_video_encoder_timing(u32 module_index,u32 * phsos,u32 * phsoe,u32 * pvsos,u32 * pvsoe)1550 void nx_dpc_get_video_encoder_timing(u32 module_index, u32 *phsos, u32 *phsoe,
1551 u32 *pvsos, u32 *pvsoe)
1552 {
1553 register u16 hsvso;
1554 register struct nx_dpc_register_set *pregister;
1555
1556 pregister = __g_module_variables[module_index].pregister;
1557 hsvso = readl(&pregister->ntsc_hsvso);
1558 if (phsos)
1559 *phsos = (u32)((((hsvso >> 3) & 7u) << 8) |
1560 (readl(&pregister->ntsc_hsob) & 0xffu)) + 1;
1561 if (phsoe)
1562 *phsoe = (u32)((((hsvso >> 0) & 7u) << 8) |
1563 (readl(&pregister->ntsc_hsoe) & 0xffu)) + 1;
1564 if (pvsos)
1565 *pvsos = (u32)((((hsvso >> 6) & 1u) << 8) |
1566 (readl(&pregister->ntsc_vsob) & 0xffu));
1567 if (pvsoe)
1568 *pvsoe = (u32)(readl(&pregister->ntsc_vsoe) & 0x1fu);
1569 }
1570