1 // SPDX-License-Identifier: GPL-2.0
2 /*
3 * Copyright (c) 2007 by Silicon Motion, Inc. (SMI)
4 *
5 * swi2c.c --- SM750/SM718 DDK
6 * This file contains the source code for I2C using software
7 * implementation.
8 */
9
10 #include "ddk750_chip.h"
11 #include "ddk750_reg.h"
12 #include "ddk750_swi2c.h"
13 #include "ddk750_power.h"
14
15 /*
16 * I2C Software Master Driver:
17 * ===========================
18 * Each i2c cycle is split into 4 sections. Each of these section marks
19 * a point in time where the SCL or SDA may be changed.
20 *
21 * 1 Cycle == | Section I. | Section 2. | Section 3. | Section 4. |
22 * +-------------+-------------+-------------+-------------+
23 * | SCL set LOW |SCL no change| SCL set HIGH|SCL no change|
24 *
25 * ____________ _____________
26 * SCL == XXXX _____________ ____________ /
27 *
28 * I.e. the SCL may only be changed in section 1. and section 3. while
29 * the SDA may only be changed in section 2. and section 4. The table
30 * below gives the changes for these 2 lines in the varios sections.
31 *
32 * Section changes Table:
33 * ======================
34 * blank = no change, L = set bit LOW, H = set bit HIGH
35 *
36 * | 1.| 2.| 3.| 4.|
37 * ---------------+---+---+---+---+
38 * Tx Start SDA | | H | | L |
39 * SCL | L | | H | |
40 * ---------------+---+---+---+---+
41 * Tx Stop SDA | | L | | H |
42 * SCL | L | | H | |
43 * ---------------+---+---+---+---+
44 * Tx bit H SDA | | H | | |
45 * SCL | L | | H | |
46 * ---------------+---+---+---+---+
47 * Tx bit L SDA | | L | | |
48 * SCL | L | | H | |
49 * ---------------+---+---+---+---+
50 *
51 */
52
53 /* GPIO pins used for this I2C. It ranges from 0 to 63. */
54 static unsigned char sw_i2c_clk_gpio = DEFAULT_I2C_SCL;
55 static unsigned char sw_i2c_data_gpio = DEFAULT_I2C_SDA;
56
57 /*
58 * Below is the variable declaration for the GPIO pin register usage
59 * for the i2c Clock and i2c Data.
60 *
61 * Note:
62 * Notice that the GPIO usage for the i2c clock and i2c Data are
63 * separated. This is to make this code flexible enough when
64 * two separate GPIO pins for the clock and data are located
65 * in two different GPIO register set (worst case).
66 */
67
68 /* i2c Clock GPIO Register usage */
69 static unsigned long sw_i2c_clk_gpio_mux_reg = GPIO_MUX;
70 static unsigned long sw_i2c_clk_gpio_data_reg = GPIO_DATA;
71 static unsigned long sw_i2c_clk_gpio_data_dir_reg = GPIO_DATA_DIRECTION;
72
73 /* i2c Data GPIO Register usage */
74 static unsigned long sw_i2c_data_gpio_mux_reg = GPIO_MUX;
75 static unsigned long sw_i2c_data_gpio_data_reg = GPIO_DATA;
76 static unsigned long sw_i2c_data_gpio_data_dir_reg = GPIO_DATA_DIRECTION;
77
78 /*
79 * This function puts a delay between command
80 */
sw_i2c_wait(void)81 static void sw_i2c_wait(void)
82 {
83 /* find a bug:
84 * peekIO method works well before suspend/resume
85 * but after suspend, peekIO(0x3ce,0x61) & 0x10
86 * always be non-zero,which makes the while loop
87 * never finish.
88 * use non-ultimate for loop below is safe
89 */
90
91 /* Change wait algorithm to use PCI bus clock,
92 * it's more reliable than counter loop ..
93 * write 0x61 to 0x3ce and read from 0x3cf
94 */
95 int i, tmp;
96
97 for (i = 0; i < 600; i++) {
98 tmp = i;
99 tmp += i;
100 }
101 }
102
103 /*
104 * This function set/reset the SCL GPIO pin
105 *
106 * Parameters:
107 * value - Bit value to set to the SCL or SDA (0 = low, 1 = high)
108 *
109 * Notes:
110 * When setting SCL to high, just set the GPIO as input where the pull up
111 * resistor will pull the signal up. Do not use software to pull up the
112 * signal because the i2c will fail when other device try to drive the
113 * signal due to SM50x will drive the signal to always high.
114 */
sw_i2c_scl(unsigned char value)115 static void sw_i2c_scl(unsigned char value)
116 {
117 unsigned long gpio_data;
118 unsigned long gpio_dir;
119
120 gpio_dir = peek32(sw_i2c_clk_gpio_data_dir_reg);
121 if (value) { /* High */
122 /*
123 * Set direction as input. This will automatically
124 * pull the signal up.
125 */
126 gpio_dir &= ~(1 << sw_i2c_clk_gpio);
127 poke32(sw_i2c_clk_gpio_data_dir_reg, gpio_dir);
128 } else { /* Low */
129 /* Set the signal down */
130 gpio_data = peek32(sw_i2c_clk_gpio_data_reg);
131 gpio_data &= ~(1 << sw_i2c_clk_gpio);
132 poke32(sw_i2c_clk_gpio_data_reg, gpio_data);
133
134 /* Set direction as output */
135 gpio_dir |= (1 << sw_i2c_clk_gpio);
136 poke32(sw_i2c_clk_gpio_data_dir_reg, gpio_dir);
137 }
138 }
139
140 /*
141 * This function set/reset the SDA GPIO pin
142 *
143 * Parameters:
144 * value - Bit value to set to the SCL or SDA (0 = low, 1 = high)
145 *
146 * Notes:
147 * When setting SCL to high, just set the GPIO as input where the pull up
148 * resistor will pull the signal up. Do not use software to pull up the
149 * signal because the i2c will fail when other device try to drive the
150 * signal due to SM50x will drive the signal to always high.
151 */
sw_i2c_sda(unsigned char value)152 static void sw_i2c_sda(unsigned char value)
153 {
154 unsigned long gpio_data;
155 unsigned long gpio_dir;
156
157 gpio_dir = peek32(sw_i2c_data_gpio_data_dir_reg);
158 if (value) { /* High */
159 /*
160 * Set direction as input. This will automatically
161 * pull the signal up.
162 */
163 gpio_dir &= ~(1 << sw_i2c_data_gpio);
164 poke32(sw_i2c_data_gpio_data_dir_reg, gpio_dir);
165 } else { /* Low */
166 /* Set the signal down */
167 gpio_data = peek32(sw_i2c_data_gpio_data_reg);
168 gpio_data &= ~(1 << sw_i2c_data_gpio);
169 poke32(sw_i2c_data_gpio_data_reg, gpio_data);
170
171 /* Set direction as output */
172 gpio_dir |= (1 << sw_i2c_data_gpio);
173 poke32(sw_i2c_data_gpio_data_dir_reg, gpio_dir);
174 }
175 }
176
177 /*
178 * This function read the data from the SDA GPIO pin
179 *
180 * Return Value:
181 * The SDA data bit sent by the Slave
182 */
sw_i2c_read_sda(void)183 static unsigned char sw_i2c_read_sda(void)
184 {
185 unsigned long gpio_dir;
186 unsigned long gpio_data;
187 unsigned long dir_mask = 1 << sw_i2c_data_gpio;
188
189 /* Make sure that the direction is input (High) */
190 gpio_dir = peek32(sw_i2c_data_gpio_data_dir_reg);
191 if ((gpio_dir & dir_mask) != ~dir_mask) {
192 gpio_dir &= ~(1 << sw_i2c_data_gpio);
193 poke32(sw_i2c_data_gpio_data_dir_reg, gpio_dir);
194 }
195
196 /* Now read the SDA line */
197 gpio_data = peek32(sw_i2c_data_gpio_data_reg);
198 if (gpio_data & (1 << sw_i2c_data_gpio))
199 return 1;
200 else
201 return 0;
202 }
203
204 /*
205 * This function sends ACK signal
206 */
sw_i2c_ack(void)207 static void sw_i2c_ack(void)
208 {
209 return; /* Single byte read is ok without it. */
210 }
211
212 /*
213 * This function sends the start command to the slave device
214 */
sw_i2c_start(void)215 static void sw_i2c_start(void)
216 {
217 /* Start I2C */
218 sw_i2c_sda(1);
219 sw_i2c_scl(1);
220 sw_i2c_sda(0);
221 }
222
223 /*
224 * This function sends the stop command to the slave device
225 */
sw_i2c_stop(void)226 static void sw_i2c_stop(void)
227 {
228 /* Stop the I2C */
229 sw_i2c_scl(1);
230 sw_i2c_sda(0);
231 sw_i2c_sda(1);
232 }
233
234 /*
235 * This function writes one byte to the slave device
236 *
237 * Parameters:
238 * data - Data to be write to the slave device
239 *
240 * Return Value:
241 * 0 - Success
242 * -1 - Fail to write byte
243 */
sw_i2c_write_byte(unsigned char data)244 static long sw_i2c_write_byte(unsigned char data)
245 {
246 unsigned char value = data;
247 int i;
248
249 /* Sending the data bit by bit */
250 for (i = 0; i < 8; i++) {
251 /* Set SCL to low */
252 sw_i2c_scl(0);
253
254 /* Send data bit */
255 if ((value & 0x80) != 0)
256 sw_i2c_sda(1);
257 else
258 sw_i2c_sda(0);
259
260 sw_i2c_wait();
261
262 /* Toggle clk line to one */
263 sw_i2c_scl(1);
264 sw_i2c_wait();
265
266 /* Shift byte to be sent */
267 value = value << 1;
268 }
269
270 /* Set the SCL Low and SDA High (prepare to get input) */
271 sw_i2c_scl(0);
272 sw_i2c_sda(1);
273
274 /* Set the SCL High for ack */
275 sw_i2c_wait();
276 sw_i2c_scl(1);
277 sw_i2c_wait();
278
279 /* Read SDA, until SDA==0 */
280 for (i = 0; i < 0xff; i++) {
281 if (!sw_i2c_read_sda())
282 break;
283
284 sw_i2c_scl(0);
285 sw_i2c_wait();
286 sw_i2c_scl(1);
287 sw_i2c_wait();
288 }
289
290 /* Set the SCL Low and SDA High */
291 sw_i2c_scl(0);
292 sw_i2c_sda(1);
293
294 if (i < 0xff)
295 return 0;
296 else
297 return -1;
298 }
299
300 /*
301 * This function reads one byte from the slave device
302 *
303 * Parameters:
304 * ack - Flag to indicate either to send the acknowledge
305 * message to the slave device or not
306 *
307 * Return Value:
308 * One byte data read from the Slave device
309 */
sw_i2c_read_byte(unsigned char ack)310 static unsigned char sw_i2c_read_byte(unsigned char ack)
311 {
312 int i;
313 unsigned char data = 0;
314
315 for (i = 7; i >= 0; i--) {
316 /* Set the SCL to Low and SDA to High (Input) */
317 sw_i2c_scl(0);
318 sw_i2c_sda(1);
319 sw_i2c_wait();
320
321 /* Set the SCL High */
322 sw_i2c_scl(1);
323 sw_i2c_wait();
324
325 /* Read data bits from SDA */
326 data |= (sw_i2c_read_sda() << i);
327 }
328
329 if (ack)
330 sw_i2c_ack();
331
332 /* Set the SCL Low and SDA High */
333 sw_i2c_scl(0);
334 sw_i2c_sda(1);
335
336 return data;
337 }
338
339 /*
340 * This function initializes GPIO port for SW I2C communication.
341 *
342 * Parameters:
343 * clk_gpio - The GPIO pin to be used as i2c SCL
344 * data_gpio - The GPIO pin to be used as i2c SDA
345 *
346 * Return Value:
347 * -1 - Fail to initialize the i2c
348 * 0 - Success
349 */
sm750le_i2c_init(unsigned char clk_gpio,unsigned char data_gpio)350 static long sm750le_i2c_init(unsigned char clk_gpio, unsigned char data_gpio)
351 {
352 int i;
353
354 /* Initialize the GPIO pin for the i2c Clock Register */
355 sw_i2c_clk_gpio_data_reg = GPIO_DATA_SM750LE;
356 sw_i2c_clk_gpio_data_dir_reg = GPIO_DATA_DIRECTION_SM750LE;
357
358 /* Initialize the Clock GPIO Offset */
359 sw_i2c_clk_gpio = clk_gpio;
360
361 /* Initialize the GPIO pin for the i2c Data Register */
362 sw_i2c_data_gpio_data_reg = GPIO_DATA_SM750LE;
363 sw_i2c_data_gpio_data_dir_reg = GPIO_DATA_DIRECTION_SM750LE;
364
365 /* Initialize the Data GPIO Offset */
366 sw_i2c_data_gpio = data_gpio;
367
368 /* Note that SM750LE don't have GPIO MUX and power is always on */
369
370 /* Clear the i2c lines. */
371 for (i = 0; i < 9; i++)
372 sw_i2c_stop();
373
374 return 0;
375 }
376
377 /*
378 * This function initializes the i2c attributes and bus
379 *
380 * Parameters:
381 * clk_gpio - The GPIO pin to be used as i2c SCL
382 * data_gpio - The GPIO pin to be used as i2c SDA
383 *
384 * Return Value:
385 * -1 - Fail to initialize the i2c
386 * 0 - Success
387 */
sm750_sw_i2c_init(unsigned char clk_gpio,unsigned char data_gpio)388 long sm750_sw_i2c_init(unsigned char clk_gpio, unsigned char data_gpio)
389 {
390 int i;
391
392 /*
393 * Return 0 if the GPIO pins to be used is out of range. The
394 * range is only from [0..63]
395 */
396 if ((clk_gpio > 31) || (data_gpio > 31))
397 return -1;
398
399 if (sm750_get_chip_type() == SM750LE)
400 return sm750le_i2c_init(clk_gpio, data_gpio);
401
402 /* Initialize the GPIO pin for the i2c Clock Register */
403 sw_i2c_clk_gpio_mux_reg = GPIO_MUX;
404 sw_i2c_clk_gpio_data_reg = GPIO_DATA;
405 sw_i2c_clk_gpio_data_dir_reg = GPIO_DATA_DIRECTION;
406
407 /* Initialize the Clock GPIO Offset */
408 sw_i2c_clk_gpio = clk_gpio;
409
410 /* Initialize the GPIO pin for the i2c Data Register */
411 sw_i2c_data_gpio_mux_reg = GPIO_MUX;
412 sw_i2c_data_gpio_data_reg = GPIO_DATA;
413 sw_i2c_data_gpio_data_dir_reg = GPIO_DATA_DIRECTION;
414
415 /* Initialize the Data GPIO Offset */
416 sw_i2c_data_gpio = data_gpio;
417
418 /* Enable the GPIO pins for the i2c Clock and Data (GPIO MUX) */
419 poke32(sw_i2c_clk_gpio_mux_reg,
420 peek32(sw_i2c_clk_gpio_mux_reg) & ~(1 << sw_i2c_clk_gpio));
421 poke32(sw_i2c_data_gpio_mux_reg,
422 peek32(sw_i2c_data_gpio_mux_reg) & ~(1 << sw_i2c_data_gpio));
423
424 /* Enable GPIO power */
425 sm750_enable_gpio(1);
426
427 /* Clear the i2c lines. */
428 for (i = 0; i < 9; i++)
429 sw_i2c_stop();
430
431 return 0;
432 }
433
434 /*
435 * This function reads the slave device's register
436 *
437 * Parameters:
438 * addr - i2c Slave device address which register
439 * to be read from
440 * reg - Slave device's register to be read
441 *
442 * Return Value:
443 * Register value
444 */
sm750_sw_i2c_read_reg(unsigned char addr,unsigned char reg)445 unsigned char sm750_sw_i2c_read_reg(unsigned char addr, unsigned char reg)
446 {
447 unsigned char data;
448
449 /* Send the Start signal */
450 sw_i2c_start();
451
452 /* Send the device address */
453 sw_i2c_write_byte(addr);
454
455 /* Send the register index */
456 sw_i2c_write_byte(reg);
457
458 /* Get the bus again and get the data from the device read address */
459 sw_i2c_start();
460 sw_i2c_write_byte(addr + 1);
461 data = sw_i2c_read_byte(1);
462
463 /* Stop swI2C and release the bus */
464 sw_i2c_stop();
465
466 return data;
467 }
468
469 /*
470 * This function writes a value to the slave device's register
471 *
472 * Parameters:
473 * addr - i2c Slave device address which register
474 * to be written
475 * reg - Slave device's register to be written
476 * data - Data to be written to the register
477 *
478 * Result:
479 * 0 - Success
480 * -1 - Fail
481 */
sm750_sw_i2c_write_reg(unsigned char addr,unsigned char reg,unsigned char data)482 long sm750_sw_i2c_write_reg(unsigned char addr,
483 unsigned char reg,
484 unsigned char data)
485 {
486 long ret = 0;
487
488 /* Send the Start signal */
489 sw_i2c_start();
490
491 /* Send the device address and read the data. All should return success
492 * in order for the writing processed to be successful
493 */
494 if ((sw_i2c_write_byte(addr) != 0) ||
495 (sw_i2c_write_byte(reg) != 0) ||
496 (sw_i2c_write_byte(data) != 0)) {
497 ret = -1;
498 }
499
500 /* Stop i2c and release the bus */
501 sw_i2c_stop();
502
503 return ret;
504 }
505