xref: /openbmc/u-boot/cmd/aspeed/dptest.c (revision b415f713)
1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3  * Copyright (C) ASPEED Technology Inc.
4  */
5 
6 #include <common.h>
7 #include <exports.h>
8 #include <clk.h>
9 #include <dm.h>
10 #include <errno.h>
11 #include <reset.h>
12 #include <fdtdec.h>
13 #include <asm/io.h>
14 
15 #include "dptest.h"
16 
17 /* Version info*/
18 #define MAINVER		0
19 #define SUBVER			2
20 #define TEMPVER			9
21 
22 #define YEAR	2022
23 #define MONTH	04
24 #define DAY		8
25 
26 /* Compile define */
27 /* #define RE_DRIVER */
28 /* #define INTERNAL */
29 
30 /* Debug define */
31 #define DBG_Print
32 
33 #define DBG_ERR		0x00000001	/* DBG_ERROR */
34 #define DBG_NOR		0x00000002	/* DBG_NORMAL */
35 #define DBG_A_NOR	0x00000004	/* DBG_AUTO_NORMAL */
36 #define DBG_A_TEST	0x00000008	/* DBG_AUTO_TEST */
37 #define DBG_A_SUB	0x00000010	/* DBG_AUTO_SUBFUNS */
38 #define DBG_A_EDID	0x00000020	/* DBG_AUTO_EDID */
39 #define DBG_INF		0x00000040	/* DBG_INFORMATION */
40 #define DBG_STAGE	0x00000040	/* DBG_STAGE */
41 #define DBG_AUX_R	0x00001000	/* DBG_AUX_R_VALUE */
42 /* #define DBG_AUX_W	0x00002000	*//*DBG_AUX_W_VALUE */
43 
44 int DBG_LEVEL = 0x00000040;		/* Information and stage */
45 /* int DBG_LEVEL = 0x0000107F;		*//*Fully */
46 /* int DBG_LEVEL = 0x00000001;		*//*Error */
47 
48 #ifdef DBG_Print
49 #define DBG(Level, format, args...) if ((Level) & DBG_LEVEL) printf(format, ##args)
50 #else
51 #define DBG(Level, format, args...)
52 #endif
53 
54 int	PHY_Cfg_N;
55 int	PHY_Cfg;
56 int	PHY_Cfg_1;
57 int	TX_SSCG_Cfg;
58 int	DP_Rate;
59 int	Deemphasis_Level;
60 int	Deemphasis_Level_1;
61 int	Deemphasis_Show;
62 int	Deemphasis_RD;
63 int	Swing_Level;
64 int	SSCG;
65 int	Current_Item;
66 int	GFlag;
67 uchar	EDID[256];
68 
69 int	I2C_PORT;/* I2c port */
70 int	I2C_BASE;
71 int	I2C_BUFF;
72 uchar	RD_VAL;
73 
74 /* Record DP Sink status */
75 uchar bEn_Frame;
76 uchar Link_Aux_RD_Val;
77 uchar CR_EQ_Keep;
78 int Deemlevel[3] = {DP_DEEMP_2, DP_DEEMP_0, DP_DEEMP_1};
79 uchar Auto_Link_Rate;
80 uchar Auto_Lane_Count;
81 /* uchar Patch_Normal_Behavior; */
82 
83 static int
84 do_ast_dptest(cmd_tbl_t *cmdtp, int flags, int argc, char *const argv[])
85 {
86 	char received = 0;
87 	char execute_test = 0;
88 	int flag = 0, i;
89 	char *Temp = NULL;
90 
91 	/* Default setting */
92 	DP_Rate			= DP_RATE_1_62;
93 
94 	Deemphasis_Show	= DP_DEEMP_0;
95 	Deemphasis_Level	= DP_DEEMP_0;
96 	Deemphasis_Level_1	= DP_DEEMP_2;
97 	Swing_Level		= 2;
98 	SSCG			= DP_SSCG_OFF;
99 
100 	/* Obtain the argc / argv */
101 	for (i = 1; i < argc; i++) {
102 		if (argv[i][0] == '-') {
103 			switch (argv[i][1]) {
104 			case 'D':
105 			case 'd':
106 				Temp = (char *)&argv[i][2];
107 				DBG_LEVEL = (int)(strtoul(Temp, NULL, 16));
108 				DBG_LEVEL |= DBG_ERR;	/* Add must print. */
109 				printf("DBG_LEVEL change into 0x%x\n", DBG_LEVEL);
110 				break;
111 			case 'R':
112 			case 'r':
113 				Temp = (char *)&argv[i][2];
114 				I2C_PORT = (int)(strtoul(Temp, NULL, 16));
115 				printf("I2C_PORT change into 0x%x\n", I2C_PORT);
116 				break;
117 			default:
118 				I2C_PORT = 0x0;
119 				break;
120 			}
121 		}
122 	}
123 
124 	printf("ASPEED DP Physical Layer Test Tool V %d.%d.%d\n", MAINVER, SUBVER, TEMPVER);
125 #ifdef INTERNAL
126 	printf("Internal Version\n");
127 #endif
128 
129 	printf("Build Date: %d.%d.%d\n\n", YEAR, MONTH, DAY);
130 
131 	printf("PLEASE REFER USER MANUAL BEFORE TEST!!\n\n");
132 
133 	/* DP TX MCU reset */
134 	DPTX_MCU_Reset();
135 	printf("DP TX MCU Initial Done!\n");
136 
137 	/* DP phy set */
138 	DPPHY_Set();
139 	printf("DP Physcial Config Done!\n");
140 
141 	printf("Press ESC key to leave test ...\n\n");
142 
143 	// While for auto testing
144 	while (1) {
145 		if (tstc()) {
146 			received = getc();
147 
148 			/* printf("Press %d\n",received); */
149 
150 			/* Set parameters path */
151 			if (received >= 49 && received <= 57) {
152 				switch (received) {
153 				/* Press "1" : Set DP_Rate as 1.62 */
154 				case '1':
155 					DP_Rate = DP_RATE_1_62;
156 					PRINT_RATE_1_62;
157 					break;
158 				/* Press "2" : Set DP_Rate as 2.701 */
159 				case '2':
160 					DP_Rate = DP_RATE_2_70;
161 					PRINT_RATE_2_70;
162 					break;
163 				/* Press "3" : Set DP_Rate as 5.40 */
164 				/* case '3': */
165 				/*	DP_Rate = DP_RATE_5_40;	*/
166 				/*	PRINT_RATE_5_40 */
167 				/*	break; */
168 #ifdef INTERNAL
169 				/* Press "4" : Set Deemphasis_Level as 1 / Deemphasis_Level_1 as 2 */
170 				case '4':
171 					Deemphasis_Level	= DP_DEEMP_1;
172 					Deemphasis_Level_1	= DP_DEEMP_2;
173 					Deemphasis_Show	= DP_DEEMP_0;
174 					Deemphasis_RD		= Deemphasis_Show;
175 					PRINT_DEEMP_0;
176 					break;
177 				/* Press "5" : Set Deemphasis_Level as 0 / Deemphasis_Level_1 as 0 */
178 				case '5':
179 					Deemphasis_Level	= DP_DEEMP_0;
180 					Deemphasis_Level_1	= DP_DEEMP_0;
181 					Deemphasis_Show	= DP_DEEMP_1;
182 					Deemphasis_RD		= Deemphasis_Show;
183 					PRINT_DEEMP_1;
184 					break;
185 				/* Press "6" : Set Deemphasis_Level as 2 / Deemphasis_Level_1 as 1 */
186 				case '6':
187 					Deemphasis_Level	= DP_DEEMP_2;
188 					Deemphasis_Level_1	= DP_DEEMP_1;
189 					Deemphasis_Show	= DP_DEEMP_2;
190 					Deemphasis_RD		= Deemphasis_Show;
191 					PRINT_DEEMP_2;
192 					break;
193 				/* Press "7" : Set Swing as 0 */
194 				case '7':
195 					Swing_Level			=  0;
196 					PRINT_SWING_0;
197 					break;
198 				/* Press "8" : Set Swing as 1 */
199 				case '8':
200 					Swing_Level			=  1;
201 					PRINT_SWING_1;
202 					break;
203 				/* Press "9" : Set Swing as 2 */
204 				case '9':
205 					Swing_Level			=  2;
206 					PRINT_SWING_2;
207 					break;
208 #endif
209 				default:
210 					break;
211 				}
212 
213 				if (execute_test)
214 					printf("The parameter is applied next measure!\n");
215 
216 			} else if (received == '!') /* show config */ {
217 				if (execute_test)
218 					printf("Measurement is executed!\n");
219 				else
220 					printf("Measurement is stopped!\n");
221 
222 				DPPHYTX_Show_Cfg();
223 			} else if (received == '0') /* change sscfg */ {
224 				if (SSCG == DP_SSCG_ON) {
225 					SSCG = DP_SSCG_OFF;
226 					PRINT_SSCG_OFF;
227 				} else {
228 					SSCG = DP_SSCG_ON;
229 					PRINT_SSCG_ON;
230 				}
231 
232 				/* SSCG could be applied without reset device. */
233 				if (execute_test) {
234 					printf("Apply SSCG into current measurement !\n\n");
235 					TX_SSCG_Cfg = DP_TX_RDY_TEST;
236 					TX_SSCG_Cfg |= SSCG;
237 					writel(TX_SSCG_Cfg, DP_TX_PHY_SET);
238 				}
239 			} else {
240 				/* Check the ESC key */
241 				if (received == 27) {
242 					execute_test = 0;
243 					DPTX_MCU_Reset();
244 					printf("'ESC' is pressed!\n");
245 					break;
246 				}
247 
248 				/* If the test is execute, reset it */
249 				if (execute_test) {
250 					execute_test = 0;
251 					DPTX_MCU_Reset();
252 
253 					printf("Stop current measurement !\n\n\n\n\n\n");
254 				}
255 
256 				/* Clear flag */
257 				flag = 0;
258 
259 				Current_Item = received;
260 
261 				switch (received) {
262 				case 'a':
263 					flag = (F_EMPHASIS_NULL | F_PAT_PRBS7);
264 					break;
265 #ifdef INTERNAL
266 				case 'b':
267 					flag = (F_EMPHASIS_1 | F_PAT_PRBS7);
268 					break;
269 
270 				case 'c': /* Eye Diagram Test w/t w/o Cable - HBR2CPAT */
271 					flag = (F_EMPHASIS_1 | F_PAT_HBR2CPAT);
272 					break;
273 
274 				case 'd':
275 					flag = (F_EMPHASIS_1 | F_PAT_PLTPAT);
276 					break;
277 
278 				case 'e': /* Non-Transition Voltage Range Measurement - PLTPAT */
279 					flag = (F_EMPHASIS | F_PAT_PLTPAT);
280 					break;
281 
282 				case 'f': /* Pre-Emphasis Level Test and Pre-Emphasis Level Delta Test- PRBS7 */
283 					flag = (F_EMPHASIS_1 | F_PAT_PRBS7);
284 					break;
285 
286 				case 'g': /* Non-Transition Voltage Range Measurement - PRBS7 */
287 					flag = (F_EMPHASIS | F_PAT_PRBS7);
288 					break;
289 
290 				case 'h': /* Total - PRBS7 */
291 					flag = (F_EMPHASIS_1 | F_PAT_D10_2);
292 					break;
293 
294 				case 'i':
295 					printf("Change the Swing value from request\n");
296 					flag = (F_EMPHASIS_1 | F_PAT_PRBS7 | F_SHOW_SWING);
297 					break;
298 
299 				case 'j':
300 					printf("Change the Swing value from request\n");
301 					flag = (F_EMPHASIS_1 | F_PAT_PLTPAT | DP_TX_HIGH_SPEED | F_SHOW_SWING);
302 					break;
303 
304 				case 'k':
305 					flag = F_PAT_AUX;
306 					break;
307 #endif
308 				case 'x': /* Auto hand shaking with DPR-100 */
309 					flag = F_EXE_AUTO;
310 					break;
311 
312 				default:
313 					printf("Non - define command!\n");
314 					break;
315 				}
316 
317 				// Execute testing
318 				if (flag) {
319 					execute_test = 1;
320 					GFlag = flag;
321 
322 					if (flag & F_PAT_AUX) {
323 						printf("######################################\n");
324 						printf("#Current DP TX setting is shown below#\n");
325 						printf("######################################\n\n");
326 
327 						DPPHYTX_Show_Item(Current_Item);
328 						Apply_AUX_Mesument(flag);
329 					} else if (flag & F_EXE_AUTO) {
330 						printf("#########################\n");
331 						printf("#Enter DP TX Auto Test!!#\n");
332 						printf("#########################\n\n");
333 
334 						Apply_Auto_Preset(0x1);
335 						Apply_Auto_Mesument();
336 						Apply_Auto_Preset(0x0);
337 
338 						printf("#########################\n");
339 						printf("#Leave DP TX Auto Test!!#\n");
340 						printf("#########################\n\n");
341 					} else {
342 						DPPHYTX_Show_Cfg();
343 						Apply_Main_Mesument(flag);
344 					}
345 				}
346 			}
347 		}
348 		mdelay(200);
349 	};
350 
351 	printf("\n\n");
352 	return 0;
353 }
354 
355 /* Temp for cording here */
356 void Apply_Auto_Preset(char Init)
357 {
358 	/* Fill some nessary register value for auto test */
359 	if (Init) {
360 		/* Enable MCU received interrupt */
361 		writel(0x00e80000, DP_TX_INT_CLEAR);
362 
363 		/* Set HPD irq time interval */
364 		writel(0x04e300fb, DP_TX_IRQ_CFG);
365 
366 		/* Set HPD event time interval */
367 		writel(0x000007d1, DP_TX_EVENT_CFG);
368 	} else {
369 		/* Recover */
370 		writel(0x0, DP_TX_INT_CLEAR);
371 		writel(0x0, DP_TX_IRQ_CFG);
372 		writel(0x0, DP_TX_EVENT_CFG);
373 	}
374 }
375 
376 /* READ EDID */
377 void Read_EDID_128(char Offset)
378 {
379 	char AUX_Data[16] = {0};
380 	uchar Length = 1;
381 	uchar Status = 0;
382 	uchar i, j;
383 
384 	DBG(DBG_A_EDID, "R EDID Offset %d\n", Offset);
385 
386 	AUX_W(I2C_M_EA_CMD_W, 0x50, (int *)(&AUX_Data), &Length, &Status);
387 
388 	AUX_Data[0] = Offset;
389 	AUX_W(I2C_M_CMD_W, 0x50, (int *)(&AUX_Data), &Length, &Status);
390 
391 	AUX_R(I2C_M_EA_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
392 
393 	Length = 16;
394 
395 	// Read 128 bytes block
396 	for (i = 0; i < 8; i++) {
397 		do {
398 			AUX_R(I2C_M_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
399 			DBG(DBG_A_EDID, "EDID read %d!\n", i);
400 
401 			udelay(100);
402 		} while (Status == 0x20);
403 
404 		/* copy from temp into EDID */
405 		for (j = 0; j < 16; j++)
406 			EDID[Offset + i * 16 + j] = AUX_Data[j];
407 	}
408 
409 	Length = 1;
410 	AUX_R(I2C_EA_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
411 }
412 
413 void Apply_EDID_Reading(void)
414 {
415 	char AUX_Data[16] = {0};
416 	uchar Length = 1;
417 	uchar Status = 0;
418 
419 	DBG(DBG_STAGE, "Apply EDID Reading!\n");
420 
421 	AUX_W(I2C_M_EA_CMD_W, 0x50, (int *)(&AUX_Data), &Length, &Status);
422 
423 	AUX_W(I2C_M_CMD_W, 0x50, (int *)(&AUX_Data), &Length, &Status);
424 
425 	AUX_R(I2C_M_EA_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
426 
427 	/* Check read EDID header */
428 	Length = 4;
429 	do {
430 		AUX_R(I2C_M_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
431 
432 		udelay(100);
433 	} while (Status == 0x20);
434 
435 	DBG(DBG_A_EDID, "EDID First 4 is 0x%X_0x%X_0x%X_0x%X\n", AUX_Data[0], AUX_Data[1], AUX_Data[2], AUX_Data[3]);
436 
437 	Length = 1;
438 	AUX_R(I2C_EA_CMD_R, 0x50, (int *)(&AUX_Data), &Length, &Status);
439 
440 	DBG(DBG_A_EDID, "Read 128!\n");
441 	Read_EDID_128(0x0);
442 
443 	/* If the extension bit is set, then read back next block */
444 	if (EDID[0x7E] == 0x1) {
445 		DBG(DBG_A_EDID, "Read 256!\n");
446 		Read_EDID_128(0x80);
447 	}
448 }
449 
450 /* LINK TRAIN */
451 uchar Adjust_CR_EQ_Train(int TrainPat, uchar ADJStatus)
452 {
453 	char AUX_Data[16] = {0};
454 	uchar Ret = 0;
455 	uchar Length = 1;
456 	uchar Status = 0;
457 	uchar AUX_R_Level = 0;
458 	uchar AUX_W_Level = 0;
459 	uchar DE_Level = 0x0;
460 	uchar CR_Status = 0;
461 	int value = 0;
462 	uchar bFirst = 1;
463 	uchar tempkeep = 0;
464 
465 	/* Set the main link pattern with TPS1 / TPS2 for Lanex_CR_Done */
466 	value = ((readl(DP_TX_MAIN_PAT) & ~(0x30000000)) | TrainPat);
467 	writel(value, DP_TX_MAIN_PAT);
468 	DBG(DBG_A_SUB, "1.A_C_E Set Link Pattern\n");
469 
470 	/* AST phy 0xE4 Bit28 (0x1000000) / DP 0x102 Bit0 : TPS1 */
471 	/* AST phy 0xE4 Bit29 (0x2000000) / DP 0x102 Bit1 : TPS2 */
472 	if (TrainPat == 0x10000000)
473 		AUX_Data[0]  = 0x21;
474 	else
475 		AUX_Data[0]  = 0x22;
476 
477 	AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
478 	DBG(DBG_A_SUB, "2.A_C_E W 0x102 set 0x%x\n", AUX_Data[0]);
479 
480 	/* First */
481 	if (bFirst) {
482 		Length = 4;
483 
484 		AUX_Data[0]  = CR_EQ_Keep;
485 		AUX_Data[1]  = CR_EQ_Keep;
486 		AUX_Data[2]  = CR_EQ_Keep;
487 		AUX_Data[3]  = CR_EQ_Keep;
488 		tempkeep = CR_EQ_Keep;
489 
490 		do {
491 			AUX_W(AUX_CMD_W, 0x103, (int *)(&AUX_Data), &Length, &Status);
492 			DBG(DBG_A_SUB, "3.A_C_E W 0x103 - 0x106 set\n");
493 		} while (Status == 0x20);
494 
495 		Length = 6;
496 
497 		udelay(1200);
498 
499 		AUX_R(AUX_CMD_R, 0x200, (int *)(&AUX_Data), &Length, &Status);
500 		DBG(DBG_A_SUB, "4.A_C_E R 0x200 - 0x205 read back\n");
501 
502 		if ((AUX_Data[2] & ADJStatus) == ADJStatus) {
503 			CR_EQ_Keep = tempkeep;
504 			return Ret;
505 		}
506 
507 		bFirst = 0;
508 	}
509 
510 	/* loop for CR_lock */
511 	do {
512 		Length = 1;
513 
514 		AUX_R(AUX_CMD_R, 0x206, (int *)(&AUX_Data), &Length, &Status);
515 		DBG(DBG_A_SUB, "5.A_C_E R 0x206 read back\n");
516 		AUX_R_Level = AUX_Data[0];
517 
518 		AUX_R(AUX_CMD_R, 0x207, (int *)(&AUX_Data), &Length, &Status);
519 		DBG(DBG_A_SUB, "6.A_C_E R 0x207 read back\n");
520 
521 		/* Update SW Level */
522 		switch (AUX_R_Level & 0x33) {
523 		case 0x00:
524 			AUX_W_Level = 00;
525 			break;
526 		case 0x11:
527 			AUX_W_Level = 01;
528 			break;
529 		default:
530 			AUX_W_Level = 06;
531 			break;
532 		}
533 
534 		/* Update SW Level */
535 		switch (AUX_R_Level & 0xCC) {
536 		case 0x00:
537 			/* AUX_W_Level |= 00; */
538 			DE_Level = 0;
539 			break;
540 		case 0x44:
541 			AUX_W_Level  |= 0x08;
542 			DE_Level = 1;
543 			break;
544 		default:
545 			AUX_W_Level  |= 0x30;
546 			DE_Level = 2;
547 			break;
548 		}
549 
550 		/* Set the de-emphsis value */
551 		value = ((readl(DP_TX_PHY_CFG) & ~(0x33000000)) | Deemlevel[DE_Level]);
552 		writel(value, DP_TX_PHY_CFG);
553 		DBG(DBG_A_SUB, "6.A_C_E Set Phy config %d\n", DE_Level);
554 
555 		DBG(DBG_A_SUB, "Link AUX_W_Level is 0x%x\n", AUX_W_Level);
556 
557 		Length = 4;
558 
559 		AUX_Data[0]  = AUX_W_Level;
560 		AUX_Data[1]  = AUX_W_Level;
561 		AUX_Data[2]  = AUX_W_Level;
562 		AUX_Data[3]  = AUX_W_Level;
563 		tempkeep = AUX_W_Level;
564 
565 		do {
566 			AUX_W(AUX_CMD_W, 0x103, (int *)(&AUX_Data), &Length, &Status);
567 			DBG(DBG_A_SUB, "7.A_C_E W 0x103 - 0x106 set\n");
568 		} while (Status == 0x20);
569 
570 		udelay(1380);
571 
572 		Length = 6;
573 		AUX_R(AUX_CMD_R, 0x200, (int *)(&AUX_Data), &Length, &Status);
574 		DBG(DBG_A_SUB, "8.A_C_E R 0x200 - 0x205 read back\n");
575 
576 		CR_Status = AUX_Data[2] & ADJStatus;
577 
578 		/* Decrease speed because the deemphasis level reach max value */
579 		if (AUX_W_Level == 0x36) {
580 			Ret = 1;
581 			break;
582 		}
583 
584 	} while (CR_Status != ADJStatus);
585 
586 	CR_EQ_Keep = tempkeep;
587 
588 	return Ret;
589 }
590 
591 uchar Link_Train_Flow(char Link_Level)
592 {
593 	char AUX_Data[16] = {0};
594 	uchar Length = 1;
595 	uchar Status = 0;
596 	uchar Ret = 0;
597 	int value = 0;
598 
599 	DBG(DBG_STAGE, "Link train flow! Level : %d\n", Link_Level);
600 
601 	AUX_R(AUX_CMD_R, 0x101, (int *)(&AUX_Data), &Length, &Status);
602 	DBG(DBG_A_SUB, "1.Link R 0x101 read back\n");
603 
604 	/* Normal / Test case */
605 	if (Auto_Lane_Count)
606 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | Auto_Lane_Count);
607 	else
608 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | 0x2);
609 
610 	AUX_W(AUX_CMD_W, 0x101, (int *)(&AUX_Data), &Length, &Status);
611 	DBG(DBG_A_SUB, "2.Link W 0x101 clear\n");
612 
613 	/* Set different clock bit rate */
614 	value = ((readl(DP_TX_MAIN_SET) & ~(0x300)) | (Link_Level << 8));
615 	writel(value, DP_TX_MAIN_SET);
616 
617 	switch (Link_Level) {
618 	case 0x1: /* 2.7 */
619 		AUX_Data[0] = 0x0a;
620 		break;
621 
622 	default: /* 1.62 */
623 		AUX_Data[0] = 0x06;
624 		break;
625 	}
626 
627 	AUX_W(AUX_CMD_W, 0x100, (int *)(&AUX_Data), &Length, &Status);
628 	DBG(DBG_A_SUB, "3.Link W 0x100 set\n");
629 
630 	AUX_R(AUX_CMD_R, 0x101, (int *)(&AUX_Data), &Length, &Status);
631 	DBG(DBG_A_SUB, "4.Link R 0x101 read back\n");
632 
633 	/* Normal / Test case */
634 	if (Auto_Lane_Count)
635 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | Auto_Lane_Count);
636 	else
637 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | 0x2);
638 
639 	AUX_W(AUX_CMD_W, 0x101, (int *)(&AUX_Data), &Length, &Status);
640 	DBG(DBG_A_SUB, "5.Link W 0x101 clear\n");
641 
642 	/* Set the 2 lanes and enhance frame by checking AUX 0x2 bit 7 */
643 	value = ((readl(DP_TX_MAIN_SET) & ~(0x1070)) | 0x20);
644 
645 	if (bEn_Frame)
646 		value |= 0x1000;
647 
648 	writel(value, DP_TX_MAIN_SET);
649 
650 	value = ((readl(DP_TX_PHY_CFG) & ~(0x3000)) | 0x3000);
651 
652 	writel(value, DP_TX_PHY_CFG);
653 
654 	AUX_R(AUX_CMD_R, 0x101, (int *)(&AUX_Data), &Length, &Status);
655 	DBG(DBG_A_SUB, "6.Link R 0x101 read back\n");
656 
657 	/* Normal / Test case */
658 	if (Auto_Lane_Count)
659 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | Auto_Lane_Count);
660 	else
661 		AUX_Data[0] = ((AUX_Data[0] & 0xE0) | 0x2);
662 
663 	AUX_W(AUX_CMD_W, 0x101, (int *)(&AUX_Data), &Length, &Status);
664 	DBG(DBG_A_SUB, "7.Link W 0x101 clear\n");
665 
666 	/* Set the main link control on */
667 	value = ((readl(DP_TX_PHY_SET) & ~(0x100)) | 0x100);
668 
669 	udelay(1000);
670 	udelay(1500);
671 
672 	writel(value, DP_TX_PHY_SET);
673 
674 	do {
675 		value = (readl(DP_TX_PHY_SET) & 0x200);
676 	} while (value != 0x200);
677 	DBG(DBG_A_SUB, "8.Link Main Link Ready\n");
678 
679 	/* Adjust for CR */
680 	if (Adjust_CR_EQ_Train(0x10000000, 0x11)) {
681 		Ret = 1;
682 		return Ret;
683 	}
684 
685 	/* Adjust for EQ */
686 	if (Adjust_CR_EQ_Train(0x20000000, 0x77)) {
687 		Ret = 1;
688 		return Ret;
689 	}
690 
691 	return Ret;
692 }
693 
694 void Apply_HPD_Normal(void)
695 {
696 	char AUX_Data[16] = {0};
697 	uchar Length = 1;
698 	uchar Status = 0;
699 	int value = 0;
700 
701 	DBG(DBG_STAGE, "HPD Normal set!\n");
702 
703 	AUX_Data[0] = 0x01;
704 	AUX_W(AUX_CMD_W, 0x600, (int *)(&AUX_Data), &Length, &Status);
705 	DBG(DBG_NOR, "1.HPD_N W 0x600 set power!\n");
706 
707 	AUX_R(AUX_CMD_R, 0x0, (int *)(&AUX_Data), &Length, &Status);
708 	DBG(DBG_NOR, "2.HPD_N R 0x0 read back is 0x%X!\n", AUX_Data[0]);
709 
710 	Length = 8;
711 	AUX_R(AUX_CMD_R, 0x500, (int *)(&AUX_Data), &Length, &Status);
712 	DBG(DBG_NOR, "3.HPD_N R 0x500 - 0x508 read back\n");
713 
714 	Length = 14;
715 	AUX_R(AUX_CMD_R, 0x0, (int *)(&AUX_Data), &Length, &Status);
716 	DBG(DBG_NOR, "4.HPD_N R 0x0 - 0xD read back\n");
717 
718 	bEn_Frame = AUX_Data[2] & 0x80;
719 	Link_Aux_RD_Val = AUX_Data[14];
720 
721 	if (bEn_Frame)
722 		DBG(DBG_NOR, "4.HPD_N R 0x2 En_Frame_Cap\n");
723 
724 	Length = 1;
725 	AUX_R(AUX_CMD_R, 0xe, (int *)(&AUX_Data), &Length, &Status);
726 	DBG(DBG_NOR, "5.HPD_N R 0xE read back\n");
727 
728 	/* Read EDID */
729 	DBG(DBG_NOR, "6.HPD_N Apply_EDID_Reading Enter\n");
730 
731 	Apply_EDID_Reading();
732 
733 	DBG(DBG_NOR, "6.HPD_N Apply_EDID_Reading Leave\n");
734 
735 	Length = 2;
736 	AUX_R(AUX_CMD_R, 0x200, (int *)(&AUX_Data), &Length, &Status);
737 	DBG(DBG_NOR, "7.HPD_N R 0x200 - 0x201 read back.\n");
738 
739 	Length = 1;
740 	AUX_R(AUX_CMD_R, 0x68028, (int *)(&AUX_Data), &Length, &Status);
741 	DBG(DBG_NOR, "8.HPD_N R 0x68028 read back.\n");
742 
743 	AUX_R(AUX_CMD_R, 0x68028, (int *)(&AUX_Data), &Length, &Status);
744 	DBG(DBG_NOR, "9.HPD_N R 0x68028 read back.\n");
745 
746 	AUX_R(AUX_CMD_R, 0x600, (int *)(&AUX_Data), &Length, &Status);
747 	DBG(DBG_NOR, "10.HPD_N R 0x600 read back.\n");
748 
749 	AUX_Data[0] = 0x01;
750 	AUX_W(AUX_CMD_W, 0x600, (int *)(&AUX_Data), &Length, &Status);
751 	DBG(DBG_NOR, "11.HPD_N W 0x600 set power!\n");
752 
753 	DBG(DBG_NOR, "12.HPD_N Link_Train_Flow 0x1 Enter\n");
754 
755 	Status = Link_Train_Flow(0x1);
756 
757 	DBG(DBG_NOR, "12.HPD_N Link_Train_Flow 0x1 Leave\n");
758 
759 	if (Status) {
760 		AUX_Data[0] = 0x20;
761 		AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
762 		DBG(DBG_ERR, "!!HPD_N W 0x102 set Train Flow 0x1 Fail!!\n");
763 
764 		DBG(DBG_NOR, "13.HPD_N Link_Train_Flow 0x0 Enter\n");
765 
766 		Status = Link_Train_Flow(0x0);
767 
768 		DBG(DBG_NOR, "13.HPD_NLink_Train_Flow 0x0 Leave\n");
769 
770 		if (Status) {
771 			AUX_Data[0] = 0x20;
772 			AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
773 			DBG(DBG_ERR, "!!HPD_N W 0x102 set Train Flow 0x0 Fail!!\n");
774 
775 			DBG(DBG_ERR, "### CAUTION!! LINK TRAN FAIL!! ###\n");
776 
777 			return;
778 		}
779 	}
780 
781 	/* Link successful */
782 	AUX_Data[0] = 0x00;
783 	AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
784 	DBG(DBG_NOR, "14.HPD_N W 0x102 clear!\n");
785 
786 	/* Fill idle pattern */
787 	value = ((readl(DP_TX_MAIN_PAT) & ~(0x31000000)) | 0x01000000);
788 	writel(value, DP_TX_MAIN_PAT);
789 	DBG(DBG_NOR, "15.HPD_N Fill idle pattern!\n");
790 
791 	Length = 1;
792 	AUX_R(AUX_CMD_R, 0x68028, (int *)(&AUX_Data), &Length, &Status);
793 	DBG(DBG_NOR, "16.HPD_N R 0x68028 read back.\n");
794 
795 	Length = 5;
796 	AUX_R(AUX_CMD_R, 0x68000, (int *)(&AUX_Data), &Length, &Status);
797 	DBG(DBG_NOR, "17.HPD_N R 0x68000 - 0x68004 read back.\n");
798 
799 	Length = 1;
800 	AUX_R(AUX_CMD_R, 0x68028, (int *)(&AUX_Data), &Length, &Status);
801 	DBG(DBG_NOR, "18.HPD_N R 0x68028 read back.\n");
802 
803 	AUX_R(AUX_CMD_R, 0x68028, (int *)(&AUX_Data), &Length, &Status);
804 	DBG(DBG_NOR, "19.HPD_N R 0x68028 read back.\n");
805 
806 	AUX_R(AUX_CMD_R, 0x0, (int *)(&AUX_Data), &Length, &Status);
807 	DBG(DBG_NOR, "20.HPD_N R 0x0 read back.\n");
808 }
809 
810 void Apply_HPD_Auto_Test(void)
811 {
812 	char AUX_Data[16];
813 	uchar Length = 0;
814 	uchar Status = 0;
815 	uchar clear_auto_test = 0;
816 	uchar auto_test_link = 0;
817 	uchar auto_test_phy = 0;
818 	uchar swing0 = 0, preemphasis0 = 0;
819 	uchar swing1 = 0, preemphasis1 = 0;
820 	int flag = 0;
821 	char temp0 = 0, temp1 = 0;
822 	char temp206 = 0;
823 
824 	DBG(DBG_STAGE, "HPD Auto test set!\n");
825 
826 	/* Set power D0 */
827 	AUX_Data[0] = 0x01;
828 	Length = 1;
829 	AUX_W(AUX_CMD_W, 0x600, (int *)(&AUX_Data), &Length, &Status);
830 	DBG(DBG_A_TEST, "1.HP_I W 0x600 done!\n");
831 
832 	Length = 6;
833 	AUX_R(AUX_CMD_R, 0x200, (int *)(&AUX_Data), &Length, &Status);
834 	DBG(DBG_A_TEST, "2.HP_I R 0x200 - 0x206 done!\n");
835 
836 	Length = 1;
837 	AUX_R(AUX_CMD_R, 0x201, (int *)(&AUX_Data), &Length, &Status);
838 	DBG(DBG_A_TEST, "3.HP_I R 0x201 done!\n");
839 
840 	/* Obtain auto test */
841 	if (AUX_Data[0] & 0x2)
842 		clear_auto_test = 1;
843 	else
844 		clear_auto_test = 0;
845 
846 	/* Read dummy */
847 	Length = 3;
848 	AUX_R(AUX_CMD_R, 0x202, (int *)(&AUX_Data), &Length, &Status);
849 	Length = 1;
850 	AUX_R(AUX_CMD_R, 0x101, (int *)(&AUX_Data), &Length, &Status);
851 	AUX_R(AUX_CMD_R, 0x200, (int *)(&AUX_Data), &Length, &Status);
852 	Length = 3;
853 	AUX_R(AUX_CMD_R, 0x202, (int *)(&AUX_Data), &Length, &Status);
854 	Length = 1;
855 	AUX_R(AUX_CMD_R, 0x205, (int *)(&AUX_Data), &Length, &Status);
856 	DBG(DBG_A_TEST, "4. HP_I R Dummy!\n");
857 
858 	AUX_R(AUX_CMD_R, 0x219, (int *)(&AUX_Data), &Length, &Status);
859 	DBG(DBG_A_TEST, "5. HP_I Link Rate R 0x219 : 0x%x\n", AUX_Data[0]);
860 
861 	if (AUX_Data[0] == 0x06) {
862 		Auto_Link_Rate = AUX_Data[0];
863 		DP_Rate = DP_RATE_1_62;
864 		PRINT_RATE_1_62;
865 	} else if (AUX_Data[0] == 0x0a) {
866 		Auto_Link_Rate = AUX_Data[0];
867 		DP_Rate = DP_RATE_2_70;
868 		PRINT_RATE_2_70;
869 	} else if (AUX_Data[0] == 0x14) {
870 		DBG(DBG_ERR, "!!DON'T SET 5.4 bps !!\n");
871 		return;
872 	}
873 
874 	if (clear_auto_test) {
875 		AUX_Data[0] = 0x02;
876 		AUX_W(AUX_CMD_W, 0x201, (int *)(&AUX_Data), &Length, &Status);
877 		DBG(DBG_A_TEST, "1.HP_I CA W 0x201 clear auto!\n");
878 		clear_auto_test = 0;
879 
880 		/* Fetch Testing data */
881 		AUX_R(AUX_CMD_R, 0x218, (int *)(&AUX_Data), &Length, &Status);
882 		DBG(DBG_A_TEST, "2.HP_I CA R 0x218 done!\n");
883 
884 		/* Check auto test link flag */
885 		if (AUX_Data[0] & 0x1)
886 			auto_test_link = 1;
887 		else
888 			auto_test_link = 0;
889 
890 		/* Check auto test phy flag */
891 		if (AUX_Data[0] & 0x8)
892 			auto_test_phy = 1;
893 		else
894 			auto_test_phy = 0;
895 
896 		if (auto_test_link) {
897 			AUX_R(AUX_CMD_R, 0x219, (int *)(&AUX_Data), &Length, &Status);
898 			DBG(DBG_A_TEST, "1.HP_I TL R 0x219 : 0x%x\n", AUX_Data[0]);
899 
900 			if (AUX_Data[0] == 0x06) {
901 				Auto_Link_Rate = AUX_Data[0];
902 				DP_Rate = DP_RATE_1_62;
903 				PRINT_RATE_1_62;
904 			} else if (AUX_Data[0] == 0x0a) {
905 				Auto_Link_Rate = AUX_Data[0];
906 				DP_Rate = DP_RATE_2_70;
907 				PRINT_RATE_2_70;
908 			} else if (AUX_Data[0] == 0x14) {
909 				DBG(DBG_ERR, "!!DON'T SET 5.4 bps !!\n");
910 				return;
911 			}
912 
913 			AUX_R(AUX_CMD_R, 0x220, (int *)(&AUX_Data), &Length, &Status);
914 			DBG(DBG_A_TEST, "2.HP_I TL R 0x220 : 0x%x\n", AUX_Data[0]);
915 			Auto_Lane_Count = AUX_Data[0]  & 0x1F;
916 
917 			AUX_Data[0] = 0x01;
918 			AUX_W(AUX_CMD_W, 0x260, (int *)(&AUX_Data), &Length, &Status);
919 			DBG(DBG_A_TEST, "3.HP_I TL W 0x260 test ACK\n");
920 
921 			mdelay(95);
922 
923 			/* Set power D0 */
924 			AUX_Data[0] = 0x01;
925 			AUX_W(AUX_CMD_W, 0x600, (int *)(&AUX_Data), &Length, &Status);
926 			DBG(DBG_A_TEST, "3.1 HP_I W 0x600 done!\n");
927 
928 			switch (Auto_Link_Rate) {
929 			case 0x06:
930 				DBG(DBG_A_TEST, "4.HP_I TL Link_Train_Flow 1.62bps Enter\n");
931 				Status = Link_Train_Flow(0x0);
932 				DBG(DBG_A_TEST, "4.HP_I TL Link_Train_Flow 1.62bps Leave\n");
933 				break;
934 
935 			case 0x0a:
936 				DBG(DBG_A_TEST, "4.HP_I TL Link_Train_Flow 2.70bps Enter\n");
937 				Status = Link_Train_Flow(0x1);
938 				DBG(DBG_A_TEST, "4.HP_I TL Link_Train_Flow 2.70bps Leave\n");
939 				break;
940 
941 			default:
942 				DBG(DBG_ERR, "!!BAD LINK RATE!!\n");
943 				return;
944 			}
945 
946 			if (Status) {
947 				DBG(DBG_ERR, "!!AUTO TEST LINK FAIL!!\n");
948 				return;
949 			}
950 
951 			/* Link successful */
952 			AUX_Data[0] = 0x00;
953 			AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
954 			DBG(DBG_A_TEST, "5.HP_I TL Link clear!\n");
955 
956 			auto_test_link = 0;
957 		}
958 
959 		if (auto_test_phy) {
960 			Length = 1;
961 			flag = 0;
962 			temp206 = 0;
963 
964 			AUX_R(AUX_CMD_R, 0x248, (int *)(&AUX_Data), &Length, &Status);
965 			DBG(DBG_A_TEST, "1.HP_I TP R 0x248 : 0x%x!\n", AUX_Data[0]);
966 
967 			if (AUX_Data[0] == 0x01) {
968 				flag |= F_PAT_D10_2;
969 				DBG(DBG_A_TEST, "HP_I TP D10.2!\n");
970 			} else if (AUX_Data[0] == 0x03) {
971 				flag |= F_PAT_PRBS7;
972 				DBG(DBG_A_TEST, "HP_I TP PRBS7!\n");
973 			}
974 
975 			AUX_R(AUX_CMD_R, 0x206, (int *)(&AUX_Data), &Length, &Status);
976 			DBG(DBG_A_TEST, "2.HP_I TP R 0x206 : 0x%x!\n", AUX_Data[0]);
977 
978 			/* Temp for verified */
979 			DBG(DBG_INF, "Read value 0x206 : 0x%x!\n", AUX_Data[0]);
980 
981 			/* Check Swing */
982 			temp0 = (AUX_Data[0] & 0x03);
983 			temp1 = (AUX_Data[0] & 0x30);
984 
985 			/* Check Swing0 */
986 			switch (temp0) {
987 			case 0x2:
988 				swing0 = 0x2;
989 				temp206 |= 6;
990 				break;
991 			case 0x1:
992 				swing0 = 0x1;
993 				temp206 |= 1;
994 				break;
995 			case 0x0:
996 				swing0 = 0x0;
997 				break;
998 			default:
999 				DBG(DBG_ERR, "HP_I TP 0x206 other swing0 val %x!\n", temp0);
1000 				break;
1001 			}
1002 
1003 			/* Check Swing1 */
1004 			switch (temp1) {
1005 			case 0x20:
1006 				swing1 = 0x2;
1007 				temp206 |= 6;
1008 				break;
1009 			case 0x10:
1010 				swing1 = 0x1;
1011 				temp206 |= 1;
1012 				break;
1013 			case 0x00:
1014 				swing1 = 0x0;
1015 				break;
1016 			default:
1017 				DBG(DBG_ERR, "HP_I TP 0x206 other swing1 val %x!\n", temp1);
1018 				break;
1019 			}
1020 
1021 			if (swing0 != swing1)
1022 				DBG(DBG_ERR, "Swing 0 / 1 diff val %x!\n", AUX_Data[0]);
1023 
1024 			/* Check Pre-emphasis */
1025 			temp0 = (AUX_Data[0] & 0x0C);
1026 			temp1 = (AUX_Data[0] & 0xC0);
1027 
1028 			/* Check Pre-emphasis0 */
1029 			switch (temp0) {
1030 			case 0x8:
1031 				preemphasis0 = 0x2;
1032 				temp206 |= 0x30;
1033 				break;
1034 			case 0x4:
1035 				preemphasis0 = 0x1;
1036 				temp206 |= 0x08;
1037 				break;
1038 			case 0x0:
1039 				preemphasis0 = 0x0;
1040 				break;
1041 			default:
1042 				DBG(DBG_ERR, "HP_I TP 0x206 other Pre-emphasis0 val %x!\n", temp0);
1043 				break;
1044 			}
1045 
1046 			/* Check Pre-emphasis1 */
1047 			switch (temp1) {
1048 			case 0x80:
1049 				preemphasis1 = 0x2;
1050 				temp206 |= 0x30;
1051 				break;
1052 			case 0x40:
1053 				preemphasis1 = 0x1;
1054 				temp206 |= 0x08;
1055 				break;
1056 			case 0x00:
1057 				preemphasis1 = 0x0;
1058 				break;
1059 			default:
1060 				DBG(DBG_ERR, "HP_I TP 0x206 other Pre-emphasis1 val %x!\n", temp1);
1061 				break;
1062 			}
1063 
1064 			if (preemphasis0 != preemphasis1)
1065 				DBG(DBG_ERR, "Preemphasis 0 / 1 diff val %x!\n", AUX_Data[0]);
1066 
1067 			/* Judgement */
1068 			if (swing0 == 0x2 || swing1 == 0x2)
1069 				Swing_Level = 0x2;
1070 			else if (swing0 == 1 || swing1 == 0x1)
1071 				Swing_Level = 0x1;
1072 			else if (swing0 == 0x0 || swing1 == 0x0)
1073 				Swing_Level = 0x0;
1074 
1075 			if (preemphasis0 == 0x2 || preemphasis1 == 0x2) {
1076 				Deemphasis_RD = DP_DEEMP_2;
1077 				Deemphasis_Level_1 = DP_DEEMP_1;
1078 				DBG(DBG_ERR, "!!De-type 1 P_2 !!\n");
1079 			} else if (preemphasis0 == 0x1 || preemphasis1 == 0x1) {
1080 				Deemphasis_RD = DP_DEEMP_1;
1081 				Deemphasis_Level_1 = DP_DEEMP_0;
1082 				DBG(DBG_ERR, "!!De-type 0 P_1 !!\n");
1083 			} else if (preemphasis0 == 0x0 || preemphasis1 == 0x0) {
1084 				Deemphasis_RD = DP_DEEMP_0;
1085 				Deemphasis_Level_1 = DP_DEEMP_2;
1086 				DBG(DBG_ERR, "!!De-type 2 P_0 !!\n");
1087 			}
1088 
1089 			DBG(DBG_INF, "!!Swing %d / Pre-emphasis %d !!\n", swing0, preemphasis0);
1090 
1091 			flag |= F_EMPHASIS_1;
1092 
1093 			AUX_R(AUX_CMD_R, 0x102, (int *)(&AUX_Data), &Length, &Status);
1094 			DBG(DBG_A_TEST, "3.HP_I TP R 0x102 done!\n");
1095 			temp0 = AUX_Data[0];
1096 
1097 			Length = 2;
1098 			AUX_R(AUX_CMD_R, 0x10b, (int *)(&AUX_Data), &Length, &Status);
1099 			DBG(DBG_A_TEST, "4.HP_I TP R 0x10b done!\n");
1100 
1101 			AUX_W(AUX_CMD_W, 0x10b, (int *)(&AUX_Data), &Length, &Status);
1102 			DBG(DBG_A_TEST, "5.HP_I TP W 0x10b done!\n");
1103 
1104 			AUX_Data[0] = temp0 | 0x20;
1105 			Length = 1;
1106 			AUX_W(AUX_CMD_W, 0x102, (int *)(&AUX_Data), &Length, &Status);
1107 			DBG(DBG_A_TEST, "6.HP_I TP W 0x102 done!\n");
1108 
1109 			AUX_Data[0] = temp206;
1110 			AUX_Data[1] = temp206;
1111 			Length = 2;
1112 
1113 			do {
1114 				AUX_W(AUX_CMD_W, 0x103, (int *)(&AUX_Data), &Length, &Status);
1115 				DBG(DBG_A_TEST, "7.HP_I TP W 0x103 - 0x104 done!\n");
1116 			} while (Status == 0x20);
1117 
1118 			DPPHYTX_Show_Cfg();
1119 			Apply_Main_Mesument(flag);
1120 
1121 			Length = 1;
1122 			AUX_Data[0] = 0x01;
1123 			AUX_W(AUX_CMD_W, 0x260, (int *)(&AUX_Data), &Length, &Status);
1124 			DBG(DBG_A_TEST, "8.HP_I TP W 0x260 done!\n");
1125 
1126 			DBG(DBG_STAGE, "Leave Apply Auto Test\n");
1127 
1128 			auto_test_phy = 0;
1129 		}
1130 		clear_auto_test = 0;
1131 	}
1132 }
1133 
1134 /* TEST SECTION */
1135 void Apply_Auto_Mesument(void)
1136 {
1137 	char auto_received = 0;
1138 	int temp = 0, wdata = 0;
1139 	int breakcount = 0;
1140 
1141 	while (1) {
1142 		breakcount = 0;
1143 
1144 		/* Wait HPD */
1145 		do {
1146 			temp = (readl(DP_TX_INT_STATUS) & 0x3800);
1147 			breakcount++;
1148 
1149 			if (breakcount == 0x96000) {
1150 				/* A simple break for esc press received */
1151 				break;
1152 			}
1153 
1154 		} while (!(temp & 0x3800));
1155 
1156 		if (temp) {
1157 			/* Clear AUX write interrupt status */
1158 			wdata = (readl(DP_TX_INT_CLEAR) | (temp >> 8));
1159 			writel(wdata, DP_TX_INT_CLEAR);
1160 		}
1161 
1162 		/* Interrupt occur */
1163 		if (temp & 0x2800) {
1164 			/* Initial global parameter */
1165 			Auto_Link_Rate = 0;
1166 			Auto_Lane_Count = 0;
1167 			bEn_Frame = 0;
1168 			CR_EQ_Keep = 0;
1169 
1170 			if (temp & 0x2000) {
1171 				printf("DP HPD event is detected!\n");
1172 				Apply_HPD_Normal();
1173 			}
1174 
1175 			if (temp & 0x800) {
1176 				printf("DP HPD irq is detected!\n");
1177 				Apply_HPD_Auto_Test();
1178 			}
1179 		}
1180 
1181 		/* Leave auto test if the 'ESC' is pressed */
1182 		if (tstc()) {
1183 			auto_received = getc();
1184 
1185 			/* Check the ESC key */
1186 			if (auto_received == 27) {
1187 				printf("'ESC' is pressed under auto test!\n\n");
1188 				return;
1189 			}
1190 
1191 			printf("DP TX auto test is executed!\n");
1192 		}
1193 	}
1194 }
1195 
1196 void Apply_Main_Mesument(int flag)
1197 {
1198 	DPTX_MCU_Reset();
1199 
1200 	/* Emphasis setting */
1201 	if (flag & F_EMPHASIS_NULL)
1202 		writel(PHY_Cfg_N, DP_TX_PHY_CFG);
1203 	else if (flag & F_EMPHASIS)
1204 		writel(PHY_Cfg, DP_TX_PHY_CFG);
1205 	else if (flag & F_EMPHASIS_1)
1206 		writel(PHY_Cfg_1, DP_TX_PHY_CFG);
1207 
1208 	if (flag & F_RES_HIGH)
1209 		writel(DP_TX_HIGH_SPEED, DP_TX_RES_CFG);
1210 	else
1211 		writel(DP_TX_NOR_SPEED, DP_TX_RES_CFG);
1212 
1213 	writel(PHY_Cfg_1, DP_TX_PHY_CFG);
1214 
1215 	DPPHY_Set();
1216 
1217 	if (flag & F_PAT_PRBS7)
1218 		Set_PRBS7();
1219 	else if (flag & F_PAT_PLTPAT)
1220 		Set_PLTPAT();
1221 	else if (flag & F_PAT_HBR2CPAT)
1222 		Set_HBR2CPAT();
1223 	else if (flag & F_PAT_D10_2)
1224 		Set_D10_1();
1225 
1226 	writel(TX_SSCG_Cfg, DP_TX_PHY_SET);
1227 }
1228 
1229 void Apply_AUX_Mesument(int flag)
1230 {
1231 	DPTX_MCU_Reset();
1232 	DPPHY_Set();
1233 
1234 	writel(0x0F000000, DP_AUX_ADDR_LEN);
1235 	writel(0x80000010, DP_AUX_REQ_CFG);
1236 }
1237 
1238 /* FUNCTION SECTION */
1239 /* i2c set */
1240 #ifdef RE_DRIVER
1241 void Set_Redriver(void)
1242 {
1243 	int value = 0x0;
1244 	uchar offset = 0x0;
1245 	uchar *set_table = &set_table0;
1246 
1247 	if (Deemphasis_RD == DP_DEEMP_1)
1248 		set_table = &set_table1;
1249 	else if (Deemphasis_RD == DP_DEEMP_2)
1250 		set_table = &set_table2;
1251 
1252 	RD_VAL = set_table[Swing_Level];
1253 
1254 	printf("RD_VAL is 0x%x\n", RD_VAL);
1255 
1256 	writel(0x600, I2C_BASE + I2C0_COUNT_O);
1257 	value = (0x0000f0f0 | (RD_VAL << 24));
1258 	writel(value, I2C_BUFF);
1259 	printf("value0 is 0x%x\n", value);
1260 	value = (RD_VAL | (RD_VAL << 8) | (RD_VAL << 16) | (RD_VAL << 24));
1261 	writel(value, (I2C_BUFF + 0x4));
1262 	printf("value1 is 0x%x\n", value);
1263 	writel(0x70010063, (I2C_BASE + I2C0_EXECUTE_O));
1264 	mdelay(1000);
1265 }
1266 
1267 /* i2c single initial */
1268 void I2C_L_Initial(void)
1269 {
1270 	I2C_BASE = (I2C0_BASE + (I2C_DEV_OFFSET * I2C_PORT));
1271 	I2C_BUFF = (I2C0_BUFF + (I2C_BUFF_OFFSET * I2C_PORT));
1272 
1273 	writel(0x0, I2C_BASE);
1274 	mdelay(1);
1275 	writel(0x28001, I2C_BASE);
1276 	writel(0x344001, I2C_BASE + I2C0_TIMMING_O);
1277 	writel(0xFFFFFFFF, I2C_BASE + I2C0_INT_STATUS_O);
1278 	writel(0x0, I2C_BASE + I2C0_INT_O);
1279 	mdelay(10);
1280 }
1281 
1282 /* i2c golbal iniitial */
1283 void I2C_G_Initial(void)
1284 {
1285 	/* i2c multi-function */
1286 	writel(0x0FFF3000, MP_SCU410);
1287 	writel(0x0F00FF00, MP_SCU414);
1288 	writel(0xCFFF001F, MP_SCU418);
1289 	writel(0xF00000FF, MP_SCU4b0);
1290 	writel(0xF0FF00FF, MP_SCU4b4);
1291 	writel(0x0000FF00, MP_SCU4b8);
1292 
1293 	/* I2c control */
1294 	writel(0x16, (I2C_GBASE + 0xC));
1295 	writel(0x041230C6, (I2C_GBASE + 0x10));
1296 
1297 	mdelay(1000);
1298 }
1299 #endif
1300 
1301 void DPTX_MCU_Reset(void)
1302 {
1303 	/* Reset DPMCU & Release DPTX */
1304 	writel(0x20000000, SYS_REST);
1305 	writel(0x10000000, SYS_REST_CLR);
1306 
1307 	/* Wait for apply setting */
1308 	mdelay(1000);
1309 }
1310 
1311 void DPPHY_Set(void)
1312 {
1313 	int value = 0, count = 0;
1314 
1315 	/* Clear power on reset */
1316 	writel(0x10000000, DP_TX_PHY_SET);
1317 	mdelay(1);
1318 
1319 	/* Clear DPTX reset */
1320 	writel(0x11000000, DP_TX_PHY_SET);
1321 	mdelay(1);
1322 
1323 	/* Turn on Main link / Aux channel */
1324 	writel(0x11001100, DP_TX_PHY_SET);
1325 	mdelay(1);
1326 
1327 	while (value != DP_TX_RDY_TEST) {
1328 		value =  readl(DP_TX_PHY_SET);
1329 		mdelay(1);
1330 		count++;
1331 	}
1332 }
1333 
1334 char DPPHYTX_Show_Cfg(void)
1335 {
1336 	char SetFail = 0;
1337 
1338 	PHY_Cfg		= DP_PHY_INIT_CFG;
1339 	PHY_Cfg_1	= DP_PHY_INIT_CFG;
1340 	TX_SSCG_Cfg	= DP_TX_RDY_TEST;
1341 
1342 	/* Show the setting */
1343 
1344 	printf("######################################\n");
1345 	printf("#Current DP TX setting is shown below#\n");
1346 	printf("######################################\n\n");
1347 
1348 	DPPHYTX_Show_Item(Current_Item);
1349 
1350 	switch (DP_Rate) {
1351 	case DP_RATE_1_62:
1352 		PRINT_RATE_1_62;
1353 		break;
1354 
1355 	case DP_RATE_2_70:
1356 		PRINT_RATE_2_70;
1357 		break;
1358 
1359 	case DP_RATE_5_40:
1360 		PRINT_RATE_5_40;
1361 		break;
1362 
1363 	default:
1364 		PRINT_INVALID;
1365 		printf("DP Rate\n");
1366 		SetFail = 1;
1367 		break;
1368 	}
1369 
1370 	switch (Deemphasis_Show) {
1371 	case DP_DEEMP_0:
1372 		if (GFlag & F_SHOW_SWING)
1373 			PRINT_SWING_0;
1374 		else
1375 			PRINT_EMPVAL_0;
1376 		break;
1377 
1378 	case DP_DEEMP_1:
1379 		if (GFlag & F_SHOW_SWING)
1380 			PRINT_SWING_1;
1381 		else
1382 			PRINT_EMPVAL_1;
1383 		break;
1384 
1385 	case DP_DEEMP_2:
1386 		if (GFlag & F_SHOW_SWING)
1387 			PRINT_SWING_2;
1388 		else
1389 			PRINT_EMPVAL_2;
1390 		break;
1391 
1392 	default:
1393 		PRINT_INVALID;
1394 		printf("Deemphasis Level\n");
1395 		SetFail = 1;
1396 		break;
1397 	}
1398 
1399 	switch (Swing_Level) {
1400 	case 0:
1401 		PRINT_SWING_0;
1402 		break;
1403 
1404 	case 1:
1405 		PRINT_SWING_1;
1406 		break;
1407 
1408 	case 2:
1409 		PRINT_SWING_2;
1410 		break;
1411 
1412 	default:
1413 		PRINT_INVALID;
1414 		printf("Swing Level\n");
1415 		SetFail = 1;
1416 		break;
1417 	}
1418 
1419 	PHY_Cfg		= DP_PHY_INIT_CFG | (DP_Rate | Deemphasis_Level);
1420 	PHY_Cfg_1	= DP_PHY_INIT_CFG | (DP_Rate | Deemphasis_Level_1);
1421 	PHY_Cfg_N	= DP_PHY_INIT_CFG | (DP_Rate | DP_DEEMP_2);
1422 
1423 	switch (SSCG) {
1424 	case DP_SSCG_ON:
1425 		PRINT_SSCG_ON;
1426 		break;
1427 
1428 	case DP_SSCG_OFF:
1429 		PRINT_SSCG_OFF;
1430 		break;
1431 
1432 	default:
1433 		PRINT_INVALID;
1434 		printf("SSCG\n");
1435 		SetFail = 1;
1436 		break;
1437 	}
1438 	TX_SSCG_Cfg |= SSCG;
1439 
1440 	printf("\n");
1441 
1442 	return SetFail;
1443 }
1444 
1445 void DPPHYTX_Show_Item(char received)
1446 {
1447 	switch (received) {
1448 	case 'a':
1449 		PRINT_ITEM_A;
1450 		break;
1451 
1452 	case 'b':
1453 		PRINT_ITEM_B;
1454 		break;
1455 
1456 	case 'c':
1457 		PRINT_ITEM_C;
1458 		break;
1459 
1460 	case 'd':
1461 		PRINT_ITEM_D;
1462 		break;
1463 
1464 	case 'e':
1465 		PRINT_ITEM_E;
1466 		break;
1467 
1468 	case 'f':
1469 		PRINT_ITEM_F;
1470 		break;
1471 
1472 	case 'g':
1473 		PRINT_ITEM_G;
1474 		break;
1475 
1476 	case 'h':
1477 		PRINT_ITEM_H;
1478 		break;
1479 
1480 	case 'i':
1481 		PRINT_ITEM_I;
1482 		break;
1483 
1484 	case 'j':
1485 		PRINT_ITEM_J;
1486 		break;
1487 
1488 	case 'k':
1489 		PRINT_ITEM_K;
1490 		break;
1491 
1492 	case 'x':
1493 		PRINT_ITEM_X;
1494 		break;
1495 
1496 	default:
1497 		break;
1498 	}
1499 
1500 	printf("\n");
1501 }
1502 
1503 void Set_PRBS7(void)
1504 {
1505 	writel(DP_TX_MAIN_NOR, DP_TX_MAIN_SET);
1506 	writel((DP_PY_PAT | DP_PY_PAT_PRB7), DP_TX_PHY_PAT);
1507 }
1508 
1509 void Set_HBR2CPAT(void)
1510 {
1511 	int value = 0, count = 0;
1512 
1513 	writel(DP_TX_MAIN_ADV, DP_TX_MAIN_SET);
1514 
1515 	writel(DP_TX_PAT_HBR2, DP_TX_MAIN_PAT);
1516 	writel((DP_PY_PAT | DP_PY_PAT_SCRB), DP_TX_PHY_PAT);
1517 
1518 	writel(DP_TX_MAIN_TRA, DP_TX_MAIN_CFG);
1519 	mdelay(1);
1520 
1521 	while (value != DP_TX_RDY_25201) {
1522 		value =  (readl(DP_TX_MAIN_CFG) & 0xFFF);
1523 		mdelay(1);
1524 		count++;
1525 	}
1526 
1527 	/* Reset for signal apply */
1528 	writel((DP_TX_MAIN_ADV | DP_TX_PY_RESET), DP_TX_MAIN_SET);
1529 }
1530 
1531 void Set_PLTPAT(void)
1532 {
1533 	writel(DP_TX_MAIN_NOR, DP_TX_MAIN_SET);
1534 
1535 	writel(DP_TX_PLTPAT_0, DP_TX_CUS_PAT_0);
1536 	writel(DP_TX_PLTPAT_1, DP_TX_CUS_PAT_1);
1537 	writel(DP_TX_PLTPAT_2, DP_TX_CUS_PAT_2);
1538 
1539 	writel((DP_PY_PAT | DP_PY_PAT_CUS), DP_TX_PHY_PAT);
1540 }
1541 
1542 void Set_D10_1(void)
1543 {
1544 	writel(DP_TX_MAIN_NOR, DP_TX_MAIN_SET);
1545 
1546 	writel(DP_TX_PAT_TPS1, DP_TX_MAIN_PAT);
1547 	writel(DP_PY_PAT, DP_TX_PHY_PAT);
1548 }
1549 
1550 uchar AUX_R(int aux_cmd, int aux_addr, int *aux_r_data, uchar *length, uchar *status)
1551 {
1552 	int wdata = 0,  temp = 0;
1553 	uchar len = *length;
1554 
1555 	/* Check valid length */
1556 	if (len >= 1)
1557 		len -= 1;
1558 	else
1559 		return 1;
1560 
1561 	/* Prepare AUX write address and data */
1562 	wdata = (int)((len << 24) | aux_addr);
1563 	writel(wdata, DP_AUX_ADDR_LEN);
1564 
1565 	DBG(DBG_AUX_R, "AUX Read on 0x%x with %d bytes.\n", aux_addr, *length);
1566 
1567 	/* Fire AUX read */
1568 	writel(aux_cmd, DP_AUX_REQ_CFG);
1569 
1570 	/* Wait AUX read finish or timeout */
1571 	do {
1572 		temp = (readl(DP_TX_INT_STATUS) & 0xC000);
1573 	} while (!(temp & 0xC000));
1574 
1575 	/* Clear AUX write interrupt status */
1576 	wdata = (readl(DP_TX_INT_CLEAR) | (temp >> 8));
1577 	writel(wdata, DP_TX_INT_CLEAR);
1578 
1579 	if (temp & AUX_CMD_DONE) {
1580 		/* Read back data count */
1581 		*aux_r_data = readl(DP_AUX_R_D_0);
1582 
1583 		DBG(DBG_AUX_R, "Data on 0x0 is 0x%x.\n", *aux_r_data);
1584 
1585 		if ((*length) > 0x4) {
1586 			aux_r_data++;
1587 			*aux_r_data = readl(DP_AUX_R_D_4);
1588 			DBG(DBG_AUX_R, "Data on 0x4 is 0x%x.\n", *aux_r_data);
1589 		}
1590 
1591 		if ((*length) > 0x8) {
1592 			aux_r_data++;
1593 			*aux_r_data = readl(DP_AUX_R_D_8);
1594 			DBG(DBG_AUX_R, "Data on 0x8 is 0x%x.\n", *aux_r_data);
1595 		}
1596 
1597 		if ((*length) > 0xC) {
1598 			aux_r_data++;
1599 			*aux_r_data = readl(DP_AUX_R_D_C);
1600 			DBG(DBG_AUX_R, "Data on 0xC is 0x%x.\n", *aux_r_data);
1601 		}
1602 
1603 		(*status) = (uchar)(readl(DP_AUX_STATUS) & 0xFF);
1604 		return 0;
1605 	}	else {
1606 		return 1;
1607 	}
1608 }
1609 
1610 uchar AUX_W(int aux_cmd, int aux_addr, int *aux_w_data, uchar *length, uchar *status)
1611 {
1612 	int wdata = 0, temp = 0;
1613 	uchar len = *length;
1614 
1615 	/* Check valid length */
1616 	if (len >= 1)
1617 		len -= 1;
1618 	else
1619 		return 1;
1620 
1621 	/* Prepare AUX write address and data */
1622 	wdata = (int)((len << 24) | aux_addr);
1623 	writel(wdata, DP_AUX_ADDR_LEN);
1624 
1625 	writel(*aux_w_data, DP_AUX_W_D_0);
1626 
1627 	if ((*length) > 0x4) {
1628 		aux_w_data++;
1629 		writel(*aux_w_data, DP_AUX_W_D_4);
1630 	}
1631 
1632 	if ((*length) > 0x8) {
1633 		aux_w_data++;
1634 		writel(*aux_w_data, DP_AUX_W_D_8);
1635 	}
1636 
1637 	if ((*length) > 0xC) {
1638 		aux_w_data++;
1639 		writel(*aux_w_data, DP_AUX_W_D_C);
1640 	}
1641 
1642 	/* Fire AUX write */
1643 	writel(aux_cmd, DP_AUX_REQ_CFG);
1644 
1645 	/* Wait AUX write finish or timeout */
1646 	do {
1647 		temp = (readl(DP_TX_INT_STATUS) & 0xC000);
1648 	} while (!(temp & 0xC000));
1649 
1650 	/* Clear AUX write interrupt status */
1651 	wdata = (readl(DP_TX_INT_CLEAR) | (temp >> 8));
1652 	writel(wdata, DP_TX_INT_CLEAR);
1653 
1654 	if (temp & AUX_CMD_DONE) {
1655 		(*status) = (uchar)(readl(DP_AUX_STATUS) & 0xFF);
1656 		return 0;
1657 	} else {
1658 		return 1;
1659 	}
1660 }
1661 
1662 U_BOOT_CMD(dptest, 2, 0, do_ast_dptest, "ASPEED Display Port phy test", "ASPEED DP test v.0.2.9");
1663