1 // SPDX-License-Identifier: GPL-2.0
2 /* Copyright (C) 2020 Intel Corporation */
3
4 #include <linux/bitfield.h>
5 #include <linux/bitops.h>
6 #include <linux/gpio/driver.h>
7 #include <linux/interrupt.h>
8 #include <linux/io.h>
9 #include <linux/module.h>
10
11 #include <linux/pinctrl/pinconf.h>
12 #include <linux/pinctrl/pinconf-generic.h>
13 #include <linux/pinctrl/pinctrl.h>
14 #include <linux/pinctrl/pinmux.h>
15
16 #include <linux/platform_device.h>
17
18 #include "core.h"
19 #include "pinmux.h"
20
21 /* GPIO data registers' offsets */
22 #define KEEMBAY_GPIO_DATA_OUT 0x000
23 #define KEEMBAY_GPIO_DATA_IN 0x020
24 #define KEEMBAY_GPIO_DATA_IN_RAW 0x040
25 #define KEEMBAY_GPIO_DATA_HIGH 0x060
26 #define KEEMBAY_GPIO_DATA_LOW 0x080
27
28 /* GPIO Interrupt and mode registers' offsets */
29 #define KEEMBAY_GPIO_INT_CFG 0x000
30 #define KEEMBAY_GPIO_MODE 0x070
31
32 /* GPIO mode register bit fields */
33 #define KEEMBAY_GPIO_MODE_PULLUP_MASK GENMASK(13, 12)
34 #define KEEMBAY_GPIO_MODE_DRIVE_MASK GENMASK(8, 7)
35 #define KEEMBAY_GPIO_MODE_INV_MASK GENMASK(5, 4)
36 #define KEEMBAY_GPIO_MODE_SELECT_MASK GENMASK(2, 0)
37 #define KEEMBAY_GPIO_MODE_DIR_OVR BIT(15)
38 #define KEEMBAY_GPIO_MODE_REN BIT(11)
39 #define KEEMBAY_GPIO_MODE_SCHMITT_EN BIT(10)
40 #define KEEMBAY_GPIO_MODE_SLEW_RATE BIT(9)
41 #define KEEMBAY_GPIO_IRQ_ENABLE BIT(7)
42 #define KEEMBAY_GPIO_MODE_DIR BIT(3)
43 #define KEEMBAY_GPIO_MODE_DEFAULT 0x7
44 #define KEEMBAY_GPIO_MODE_INV_VAL 0x3
45
46 #define KEEMBAY_GPIO_DISABLE 0
47 #define KEEMBAY_GPIO_PULL_UP 1
48 #define KEEMBAY_GPIO_PULL_DOWN 2
49 #define KEEMBAY_GPIO_BUS_HOLD 3
50 #define KEEMBAY_GPIO_NUM_IRQ 8
51 #define KEEMBAY_GPIO_MAX_PER_IRQ 4
52 #define KEEMBAY_GPIO_MAX_PER_REG 32
53 #define KEEMBAY_GPIO_MIN_STRENGTH 2
54 #define KEEMBAY_GPIO_MAX_STRENGTH 12
55 #define KEEMBAY_GPIO_SENSE_LOW (IRQ_TYPE_LEVEL_LOW | IRQ_TYPE_EDGE_FALLING)
56
57 /* GPIO reg address calculation */
58 #define KEEMBAY_GPIO_REG_OFFSET(pin) ((pin) * 4)
59
60 /**
61 * struct keembay_mux_desc - Mux properties of each GPIO pin
62 * @mode: Pin mode when operating in this function
63 * @name: Pin function name
64 */
65 struct keembay_mux_desc {
66 u8 mode;
67 const char *name;
68 };
69
70 #define KEEMBAY_PIN_DESC(pin_number, pin_name, ...) { \
71 .number = pin_number, \
72 .name = pin_name, \
73 .drv_data = &(struct keembay_mux_desc[]) { \
74 __VA_ARGS__, { } }, \
75 } \
76
77 #define KEEMBAY_MUX(pin_mode, pin_function) { \
78 .mode = pin_mode, \
79 .name = pin_function, \
80 } \
81
82 /**
83 * struct keembay_gpio_irq - Config of each GPIO Interrupt sources
84 * @source: Interrupt source number (0 - 7)
85 * @line: Actual Interrupt line number
86 * @pins: Array of GPIO pins using this Interrupt line
87 * @trigger: Interrupt trigger type for this line
88 * @num_share: Number of pins currently using this Interrupt line
89 */
90 struct keembay_gpio_irq {
91 unsigned int source;
92 unsigned int line;
93 unsigned int pins[KEEMBAY_GPIO_MAX_PER_IRQ];
94 unsigned int trigger;
95 unsigned int num_share;
96 };
97
98 /**
99 * struct keembay_pinctrl - Intel Keembay pinctrl structure
100 * @pctrl: Pointer to the pin controller device
101 * @base0: First register base address
102 * @base1: Second register base address
103 * @dev: Pointer to the device structure
104 * @chip: GPIO chip used by this pin controller
105 * @soc: Pin control configuration data based on SoC
106 * @lock: Spinlock to protect various gpio config register access
107 * @ngroups: Number of pin groups available
108 * @nfuncs: Number of pin functions available
109 * @npins: Number of GPIO pins available
110 * @irq: Store Interrupt source
111 * @max_gpios_level_type: Store max level trigger type
112 * @max_gpios_edge_type: Store max edge trigger type
113 */
114 struct keembay_pinctrl {
115 struct pinctrl_dev *pctrl;
116 void __iomem *base0;
117 void __iomem *base1;
118 struct device *dev;
119 struct gpio_chip chip;
120 const struct keembay_pin_soc *soc;
121 raw_spinlock_t lock;
122 unsigned int ngroups;
123 unsigned int nfuncs;
124 unsigned int npins;
125 struct keembay_gpio_irq irq[KEEMBAY_GPIO_NUM_IRQ];
126 int max_gpios_level_type;
127 int max_gpios_edge_type;
128 };
129
130 /**
131 * struct keembay_pin_soc - Pin control config data based on SoC
132 * @pins: Pin description structure
133 */
134 struct keembay_pin_soc {
135 const struct pinctrl_pin_desc *pins;
136 };
137
138 static const struct pinctrl_pin_desc keembay_pins[] = {
139 KEEMBAY_PIN_DESC(0, "GPIO0",
140 KEEMBAY_MUX(0x0, "I2S0_M0"),
141 KEEMBAY_MUX(0x1, "SD0_M1"),
142 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
143 KEEMBAY_MUX(0x3, "I2C0_M3"),
144 KEEMBAY_MUX(0x4, "CAM_M4"),
145 KEEMBAY_MUX(0x5, "ETH_M5"),
146 KEEMBAY_MUX(0x6, "LCD_M6"),
147 KEEMBAY_MUX(0x7, "GPIO_M7")),
148 KEEMBAY_PIN_DESC(1, "GPIO1",
149 KEEMBAY_MUX(0x0, "I2S0_M0"),
150 KEEMBAY_MUX(0x1, "SD0_M1"),
151 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
152 KEEMBAY_MUX(0x3, "I2C0_M3"),
153 KEEMBAY_MUX(0x4, "CAM_M4"),
154 KEEMBAY_MUX(0x5, "ETH_M5"),
155 KEEMBAY_MUX(0x6, "LCD_M6"),
156 KEEMBAY_MUX(0x7, "GPIO_M7")),
157 KEEMBAY_PIN_DESC(2, "GPIO2",
158 KEEMBAY_MUX(0x0, "I2S0_M0"),
159 KEEMBAY_MUX(0x1, "I2S0_M1"),
160 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
161 KEEMBAY_MUX(0x3, "I2C1_M3"),
162 KEEMBAY_MUX(0x4, "CAM_M4"),
163 KEEMBAY_MUX(0x5, "ETH_M5"),
164 KEEMBAY_MUX(0x6, "LCD_M6"),
165 KEEMBAY_MUX(0x7, "GPIO_M7")),
166 KEEMBAY_PIN_DESC(3, "GPIO3",
167 KEEMBAY_MUX(0x0, "I2S0_M0"),
168 KEEMBAY_MUX(0x1, "I2S0_M1"),
169 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
170 KEEMBAY_MUX(0x3, "I2C1_M3"),
171 KEEMBAY_MUX(0x4, "CAM_M4"),
172 KEEMBAY_MUX(0x5, "ETH_M5"),
173 KEEMBAY_MUX(0x6, "LCD_M6"),
174 KEEMBAY_MUX(0x7, "GPIO_M7")),
175 KEEMBAY_PIN_DESC(4, "GPIO4",
176 KEEMBAY_MUX(0x0, "I2S0_M0"),
177 KEEMBAY_MUX(0x1, "I2S0_M1"),
178 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
179 KEEMBAY_MUX(0x3, "I2C2_M3"),
180 KEEMBAY_MUX(0x4, "CAM_M4"),
181 KEEMBAY_MUX(0x5, "ETH_M5"),
182 KEEMBAY_MUX(0x6, "LCD_M6"),
183 KEEMBAY_MUX(0x7, "GPIO_M7")),
184 KEEMBAY_PIN_DESC(5, "GPIO5",
185 KEEMBAY_MUX(0x0, "I2S0_M0"),
186 KEEMBAY_MUX(0x1, "I2S0_M1"),
187 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
188 KEEMBAY_MUX(0x3, "I2C2_M3"),
189 KEEMBAY_MUX(0x4, "CAM_M4"),
190 KEEMBAY_MUX(0x5, "ETH_M5"),
191 KEEMBAY_MUX(0x6, "LCD_M6"),
192 KEEMBAY_MUX(0x7, "GPIO_M7")),
193 KEEMBAY_PIN_DESC(6, "GPIO6",
194 KEEMBAY_MUX(0x0, "I2S1_M0"),
195 KEEMBAY_MUX(0x1, "SD0_M1"),
196 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
197 KEEMBAY_MUX(0x3, "I2C3_M3"),
198 KEEMBAY_MUX(0x4, "CAM_M4"),
199 KEEMBAY_MUX(0x5, "ETH_M5"),
200 KEEMBAY_MUX(0x6, "LCD_M6"),
201 KEEMBAY_MUX(0x7, "GPIO_M7")),
202 KEEMBAY_PIN_DESC(7, "GPIO7",
203 KEEMBAY_MUX(0x0, "I2S1_M0"),
204 KEEMBAY_MUX(0x1, "SD0_M1"),
205 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
206 KEEMBAY_MUX(0x3, "I2C3_M3"),
207 KEEMBAY_MUX(0x4, "CAM_M4"),
208 KEEMBAY_MUX(0x5, "ETH_M5"),
209 KEEMBAY_MUX(0x6, "LCD_M6"),
210 KEEMBAY_MUX(0x7, "GPIO_M7")),
211 KEEMBAY_PIN_DESC(8, "GPIO8",
212 KEEMBAY_MUX(0x0, "I2S1_M0"),
213 KEEMBAY_MUX(0x1, "I2S1_M1"),
214 KEEMBAY_MUX(0x2, "SLVDS0_M2"),
215 KEEMBAY_MUX(0x3, "UART0_M3"),
216 KEEMBAY_MUX(0x4, "CAM_M4"),
217 KEEMBAY_MUX(0x5, "ETH_M5"),
218 KEEMBAY_MUX(0x6, "LCD_M6"),
219 KEEMBAY_MUX(0x7, "GPIO_M7")),
220 KEEMBAY_PIN_DESC(9, "GPIO9",
221 KEEMBAY_MUX(0x0, "I2S1_M0"),
222 KEEMBAY_MUX(0x1, "I2S1_M1"),
223 KEEMBAY_MUX(0x2, "PWM_M2"),
224 KEEMBAY_MUX(0x3, "UART0_M3"),
225 KEEMBAY_MUX(0x4, "CAM_M4"),
226 KEEMBAY_MUX(0x5, "ETH_M5"),
227 KEEMBAY_MUX(0x6, "LCD_M6"),
228 KEEMBAY_MUX(0x7, "GPIO_M7")),
229 KEEMBAY_PIN_DESC(10, "GPIO10",
230 KEEMBAY_MUX(0x0, "I2S2_M0"),
231 KEEMBAY_MUX(0x1, "SD0_M1"),
232 KEEMBAY_MUX(0x2, "PWM_M2"),
233 KEEMBAY_MUX(0x3, "UART0_M3"),
234 KEEMBAY_MUX(0x4, "CAM_M4"),
235 KEEMBAY_MUX(0x5, "ETH_M5"),
236 KEEMBAY_MUX(0x6, "LCD_M6"),
237 KEEMBAY_MUX(0x7, "GPIO_M7")),
238 KEEMBAY_PIN_DESC(11, "GPIO11",
239 KEEMBAY_MUX(0x0, "I2S2_M0"),
240 KEEMBAY_MUX(0x1, "SD0_M1"),
241 KEEMBAY_MUX(0x2, "PWM_M2"),
242 KEEMBAY_MUX(0x3, "UART0_M3"),
243 KEEMBAY_MUX(0x4, "CAM_M4"),
244 KEEMBAY_MUX(0x5, "ETH_M5"),
245 KEEMBAY_MUX(0x6, "LCD_M6"),
246 KEEMBAY_MUX(0x7, "GPIO_M7")),
247 KEEMBAY_PIN_DESC(12, "GPIO12",
248 KEEMBAY_MUX(0x0, "I2S2_M0"),
249 KEEMBAY_MUX(0x1, "I2S2_M1"),
250 KEEMBAY_MUX(0x2, "PWM_M2"),
251 KEEMBAY_MUX(0x3, "SPI0_M3"),
252 KEEMBAY_MUX(0x4, "CAM_M4"),
253 KEEMBAY_MUX(0x5, "ETH_M5"),
254 KEEMBAY_MUX(0x6, "LCD_M6"),
255 KEEMBAY_MUX(0x7, "GPIO_M7")),
256 KEEMBAY_PIN_DESC(13, "GPIO13",
257 KEEMBAY_MUX(0x0, "I2S2_M0"),
258 KEEMBAY_MUX(0x1, "I2S2_M1"),
259 KEEMBAY_MUX(0x2, "PWM_M2"),
260 KEEMBAY_MUX(0x3, "SPI0_M3"),
261 KEEMBAY_MUX(0x4, "CAM_M4"),
262 KEEMBAY_MUX(0x5, "ETH_M5"),
263 KEEMBAY_MUX(0x6, "LCD_M6"),
264 KEEMBAY_MUX(0x7, "GPIO_M7")),
265 KEEMBAY_PIN_DESC(14, "GPIO14",
266 KEEMBAY_MUX(0x0, "UART0_M0"),
267 KEEMBAY_MUX(0x1, "I2S3_M1"),
268 KEEMBAY_MUX(0x2, "PWM_M2"),
269 KEEMBAY_MUX(0x3, "SD1_M3"),
270 KEEMBAY_MUX(0x4, "CAM_M4"),
271 KEEMBAY_MUX(0x5, "ETH_M5"),
272 KEEMBAY_MUX(0x6, "LCD_M6"),
273 KEEMBAY_MUX(0x7, "GPIO_M7")),
274 KEEMBAY_PIN_DESC(15, "GPIO15",
275 KEEMBAY_MUX(0x0, "UART0_M0"),
276 KEEMBAY_MUX(0x1, "I2S3_M1"),
277 KEEMBAY_MUX(0x2, "UART0_M2"),
278 KEEMBAY_MUX(0x3, "SD1_M3"),
279 KEEMBAY_MUX(0x4, "CAM_M4"),
280 KEEMBAY_MUX(0x5, "SPI1_M5"),
281 KEEMBAY_MUX(0x6, "LCD_M6"),
282 KEEMBAY_MUX(0x7, "GPIO_M7")),
283 KEEMBAY_PIN_DESC(16, "GPIO16",
284 KEEMBAY_MUX(0x0, "UART0_M0"),
285 KEEMBAY_MUX(0x1, "I2S3_M1"),
286 KEEMBAY_MUX(0x2, "UART0_M2"),
287 KEEMBAY_MUX(0x3, "SD1_M3"),
288 KEEMBAY_MUX(0x4, "CAM_M4"),
289 KEEMBAY_MUX(0x5, "SPI1_M5"),
290 KEEMBAY_MUX(0x6, "LCD_M6"),
291 KEEMBAY_MUX(0x7, "GPIO_M7")),
292 KEEMBAY_PIN_DESC(17, "GPIO17",
293 KEEMBAY_MUX(0x0, "UART0_M0"),
294 KEEMBAY_MUX(0x1, "I2S3_M1"),
295 KEEMBAY_MUX(0x2, "I2S3_M2"),
296 KEEMBAY_MUX(0x3, "SD1_M3"),
297 KEEMBAY_MUX(0x4, "CAM_M4"),
298 KEEMBAY_MUX(0x5, "SPI1_M5"),
299 KEEMBAY_MUX(0x6, "LCD_M6"),
300 KEEMBAY_MUX(0x7, "GPIO_M7")),
301 KEEMBAY_PIN_DESC(18, "GPIO18",
302 KEEMBAY_MUX(0x0, "UART1_M0"),
303 KEEMBAY_MUX(0x1, "SPI0_M1"),
304 KEEMBAY_MUX(0x2, "I2S3_M2"),
305 KEEMBAY_MUX(0x3, "SD1_M3"),
306 KEEMBAY_MUX(0x4, "CAM_M4"),
307 KEEMBAY_MUX(0x5, "SPI1_M5"),
308 KEEMBAY_MUX(0x6, "LCD_M6"),
309 KEEMBAY_MUX(0x7, "GPIO_M7")),
310 KEEMBAY_PIN_DESC(19, "GPIO19",
311 KEEMBAY_MUX(0x0, "UART1_M0"),
312 KEEMBAY_MUX(0x1, "LCD_M1"),
313 KEEMBAY_MUX(0x2, "DEBUG_M2"),
314 KEEMBAY_MUX(0x3, "SD1_M3"),
315 KEEMBAY_MUX(0x4, "CAM_M4"),
316 KEEMBAY_MUX(0x5, "SPI1_M5"),
317 KEEMBAY_MUX(0x6, "LCD_M6"),
318 KEEMBAY_MUX(0x7, "GPIO_M7")),
319 KEEMBAY_PIN_DESC(20, "GPIO20",
320 KEEMBAY_MUX(0x0, "UART1_M0"),
321 KEEMBAY_MUX(0x1, "LCD_M1"),
322 KEEMBAY_MUX(0x2, "DEBUG_M2"),
323 KEEMBAY_MUX(0x3, "CPR_M3"),
324 KEEMBAY_MUX(0x4, "CAM_M4"),
325 KEEMBAY_MUX(0x5, "SPI1_M5"),
326 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
327 KEEMBAY_MUX(0x7, "GPIO_M7")),
328 KEEMBAY_PIN_DESC(21, "GPIO21",
329 KEEMBAY_MUX(0x0, "UART1_M0"),
330 KEEMBAY_MUX(0x1, "LCD_M1"),
331 KEEMBAY_MUX(0x2, "DEBUG_M2"),
332 KEEMBAY_MUX(0x3, "CPR_M3"),
333 KEEMBAY_MUX(0x4, "CAM_M4"),
334 KEEMBAY_MUX(0x5, "I3C0_M5"),
335 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
336 KEEMBAY_MUX(0x7, "GPIO_M7")),
337 KEEMBAY_PIN_DESC(22, "GPIO22",
338 KEEMBAY_MUX(0x0, "I2C0_M0"),
339 KEEMBAY_MUX(0x1, "UART2_M1"),
340 KEEMBAY_MUX(0x2, "DEBUG_M2"),
341 KEEMBAY_MUX(0x3, "CPR_M3"),
342 KEEMBAY_MUX(0x4, "CAM_M4"),
343 KEEMBAY_MUX(0x5, "I3C0_M5"),
344 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
345 KEEMBAY_MUX(0x7, "GPIO_M7")),
346 KEEMBAY_PIN_DESC(23, "GPIO23",
347 KEEMBAY_MUX(0x0, "I2C0_M0"),
348 KEEMBAY_MUX(0x1, "UART2_M1"),
349 KEEMBAY_MUX(0x2, "DEBUG_M2"),
350 KEEMBAY_MUX(0x3, "CPR_M3"),
351 KEEMBAY_MUX(0x4, "CAM_M4"),
352 KEEMBAY_MUX(0x5, "I3C1_M5"),
353 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
354 KEEMBAY_MUX(0x7, "GPIO_M7")),
355 KEEMBAY_PIN_DESC(24, "GPIO24",
356 KEEMBAY_MUX(0x0, "I2C1_M0"),
357 KEEMBAY_MUX(0x1, "UART2_M1"),
358 KEEMBAY_MUX(0x2, "DEBUG_M2"),
359 KEEMBAY_MUX(0x3, "CPR_M3"),
360 KEEMBAY_MUX(0x4, "CAM_M4"),
361 KEEMBAY_MUX(0x5, "I3C1_M5"),
362 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
363 KEEMBAY_MUX(0x7, "GPIO_M7")),
364 KEEMBAY_PIN_DESC(25, "GPIO25",
365 KEEMBAY_MUX(0x0, "I2C1_M0"),
366 KEEMBAY_MUX(0x1, "UART2_M1"),
367 KEEMBAY_MUX(0x2, "SPI0_M2"),
368 KEEMBAY_MUX(0x3, "CPR_M3"),
369 KEEMBAY_MUX(0x4, "CAM_M4"),
370 KEEMBAY_MUX(0x5, "I3C2_M5"),
371 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
372 KEEMBAY_MUX(0x7, "GPIO_M7")),
373 KEEMBAY_PIN_DESC(26, "GPIO26",
374 KEEMBAY_MUX(0x0, "SPI0_M0"),
375 KEEMBAY_MUX(0x1, "I2C2_M1"),
376 KEEMBAY_MUX(0x2, "UART0_M2"),
377 KEEMBAY_MUX(0x3, "DSU_M3"),
378 KEEMBAY_MUX(0x4, "CAM_M4"),
379 KEEMBAY_MUX(0x5, "I3C2_M5"),
380 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
381 KEEMBAY_MUX(0x7, "GPIO_M7")),
382 KEEMBAY_PIN_DESC(27, "GPIO27",
383 KEEMBAY_MUX(0x0, "SPI0_M0"),
384 KEEMBAY_MUX(0x1, "I2C2_M1"),
385 KEEMBAY_MUX(0x2, "UART0_M2"),
386 KEEMBAY_MUX(0x3, "DSU_M3"),
387 KEEMBAY_MUX(0x4, "CAM_M4"),
388 KEEMBAY_MUX(0x5, "I3C0_M5"),
389 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
390 KEEMBAY_MUX(0x7, "GPIO_M7")),
391 KEEMBAY_PIN_DESC(28, "GPIO28",
392 KEEMBAY_MUX(0x0, "SPI0_M0"),
393 KEEMBAY_MUX(0x1, "I2C3_M1"),
394 KEEMBAY_MUX(0x2, "UART0_M2"),
395 KEEMBAY_MUX(0x3, "PWM_M3"),
396 KEEMBAY_MUX(0x4, "CAM_M4"),
397 KEEMBAY_MUX(0x5, "I3C1_M5"),
398 KEEMBAY_MUX(0x6, "SLVDS0_M6"),
399 KEEMBAY_MUX(0x7, "GPIO_M7")),
400 KEEMBAY_PIN_DESC(29, "GPIO29",
401 KEEMBAY_MUX(0x0, "SPI0_M0"),
402 KEEMBAY_MUX(0x1, "I2C3_M1"),
403 KEEMBAY_MUX(0x2, "UART0_M2"),
404 KEEMBAY_MUX(0x3, "PWM_M3"),
405 KEEMBAY_MUX(0x4, "CAM_M4"),
406 KEEMBAY_MUX(0x5, "I3C2_M5"),
407 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
408 KEEMBAY_MUX(0x7, "GPIO_M7")),
409 KEEMBAY_PIN_DESC(30, "GPIO30",
410 KEEMBAY_MUX(0x0, "SPI0_M0"),
411 KEEMBAY_MUX(0x1, "I2S0_M1"),
412 KEEMBAY_MUX(0x2, "I2C4_M2"),
413 KEEMBAY_MUX(0x3, "PWM_M3"),
414 KEEMBAY_MUX(0x4, "CAM_M4"),
415 KEEMBAY_MUX(0x5, "LCD_M5"),
416 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
417 KEEMBAY_MUX(0x7, "GPIO_M7")),
418 KEEMBAY_PIN_DESC(31, "GPIO31",
419 KEEMBAY_MUX(0x0, "SPI0_M0"),
420 KEEMBAY_MUX(0x1, "I2S0_M1"),
421 KEEMBAY_MUX(0x2, "I2C4_M2"),
422 KEEMBAY_MUX(0x3, "PWM_M3"),
423 KEEMBAY_MUX(0x4, "CAM_M4"),
424 KEEMBAY_MUX(0x5, "UART1_M5"),
425 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
426 KEEMBAY_MUX(0x7, "GPIO_M7")),
427 KEEMBAY_PIN_DESC(32, "GPIO32",
428 KEEMBAY_MUX(0x0, "SD0_M0"),
429 KEEMBAY_MUX(0x1, "SPI0_M1"),
430 KEEMBAY_MUX(0x2, "UART1_M2"),
431 KEEMBAY_MUX(0x3, "PWM_M3"),
432 KEEMBAY_MUX(0x4, "CAM_M4"),
433 KEEMBAY_MUX(0x5, "PCIE_M5"),
434 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
435 KEEMBAY_MUX(0x7, "GPIO_M7")),
436 KEEMBAY_PIN_DESC(33, "GPIO33",
437 KEEMBAY_MUX(0x0, "SD0_M0"),
438 KEEMBAY_MUX(0x1, "SPI0_M1"),
439 KEEMBAY_MUX(0x2, "UART1_M2"),
440 KEEMBAY_MUX(0x3, "PWM_M3"),
441 KEEMBAY_MUX(0x4, "CAM_M4"),
442 KEEMBAY_MUX(0x5, "PCIE_M5"),
443 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
444 KEEMBAY_MUX(0x7, "GPIO_M7")),
445 KEEMBAY_PIN_DESC(34, "GPIO34",
446 KEEMBAY_MUX(0x0, "SD0_M0"),
447 KEEMBAY_MUX(0x1, "SPI0_M1"),
448 KEEMBAY_MUX(0x2, "I2C0_M2"),
449 KEEMBAY_MUX(0x3, "UART1_M3"),
450 KEEMBAY_MUX(0x4, "CAM_M4"),
451 KEEMBAY_MUX(0x5, "I2S0_M5"),
452 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
453 KEEMBAY_MUX(0x7, "GPIO_M7")),
454 KEEMBAY_PIN_DESC(35, "GPIO35",
455 KEEMBAY_MUX(0x0, "SD0_M0"),
456 KEEMBAY_MUX(0x1, "PCIE_M1"),
457 KEEMBAY_MUX(0x2, "I2C0_M2"),
458 KEEMBAY_MUX(0x3, "UART1_M3"),
459 KEEMBAY_MUX(0x4, "CAM_M4"),
460 KEEMBAY_MUX(0x5, "I2S0_M5"),
461 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
462 KEEMBAY_MUX(0x7, "GPIO_M7")),
463 KEEMBAY_PIN_DESC(36, "GPIO36",
464 KEEMBAY_MUX(0x0, "SD0_M0"),
465 KEEMBAY_MUX(0x1, "SPI3_M1"),
466 KEEMBAY_MUX(0x2, "I2C1_M2"),
467 KEEMBAY_MUX(0x3, "DEBUG_M3"),
468 KEEMBAY_MUX(0x4, "CAM_M4"),
469 KEEMBAY_MUX(0x5, "I2S0_M5"),
470 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
471 KEEMBAY_MUX(0x7, "GPIO_M7")),
472 KEEMBAY_PIN_DESC(37, "GPIO37",
473 KEEMBAY_MUX(0x0, "SD0_M0"),
474 KEEMBAY_MUX(0x1, "SPI3_M1"),
475 KEEMBAY_MUX(0x2, "I2C1_M2"),
476 KEEMBAY_MUX(0x3, "DEBUG_M3"),
477 KEEMBAY_MUX(0x4, "CAM_M4"),
478 KEEMBAY_MUX(0x5, "I2S0_M5"),
479 KEEMBAY_MUX(0x6, "SLVDS1_M6"),
480 KEEMBAY_MUX(0x7, "GPIO_M7")),
481 KEEMBAY_PIN_DESC(38, "GPIO38",
482 KEEMBAY_MUX(0x0, "I3C1_M0"),
483 KEEMBAY_MUX(0x1, "SPI3_M1"),
484 KEEMBAY_MUX(0x2, "UART3_M2"),
485 KEEMBAY_MUX(0x3, "DEBUG_M3"),
486 KEEMBAY_MUX(0x4, "CAM_M4"),
487 KEEMBAY_MUX(0x5, "LCD_M5"),
488 KEEMBAY_MUX(0x6, "I2C2_M6"),
489 KEEMBAY_MUX(0x7, "GPIO_M7")),
490 KEEMBAY_PIN_DESC(39, "GPIO39",
491 KEEMBAY_MUX(0x0, "I3C1_M0"),
492 KEEMBAY_MUX(0x1, "SPI3_M1"),
493 KEEMBAY_MUX(0x2, "UART3_M2"),
494 KEEMBAY_MUX(0x3, "DEBUG_M3"),
495 KEEMBAY_MUX(0x4, "CAM_M4"),
496 KEEMBAY_MUX(0x5, "LCD_M5"),
497 KEEMBAY_MUX(0x6, "I2C2_M6"),
498 KEEMBAY_MUX(0x7, "GPIO_M7")),
499 KEEMBAY_PIN_DESC(40, "GPIO40",
500 KEEMBAY_MUX(0x0, "I2S2_M0"),
501 KEEMBAY_MUX(0x1, "SPI3_M1"),
502 KEEMBAY_MUX(0x2, "UART3_M2"),
503 KEEMBAY_MUX(0x3, "DEBUG_M3"),
504 KEEMBAY_MUX(0x4, "CAM_M4"),
505 KEEMBAY_MUX(0x5, "LCD_M5"),
506 KEEMBAY_MUX(0x6, "I2C3_M6"),
507 KEEMBAY_MUX(0x7, "GPIO_M7")),
508 KEEMBAY_PIN_DESC(41, "GPIO41",
509 KEEMBAY_MUX(0x0, "ETH_M0"),
510 KEEMBAY_MUX(0x1, "SPI3_M1"),
511 KEEMBAY_MUX(0x2, "SPI3_M2"),
512 KEEMBAY_MUX(0x3, "DEBUG_M3"),
513 KEEMBAY_MUX(0x4, "CAM_M4"),
514 KEEMBAY_MUX(0x5, "LCD_M5"),
515 KEEMBAY_MUX(0x6, "I2C3_M6"),
516 KEEMBAY_MUX(0x7, "GPIO_M7")),
517 KEEMBAY_PIN_DESC(42, "GPIO42",
518 KEEMBAY_MUX(0x0, "ETH_M0"),
519 KEEMBAY_MUX(0x1, "SD1_M1"),
520 KEEMBAY_MUX(0x2, "SPI3_M2"),
521 KEEMBAY_MUX(0x3, "CPR_M3"),
522 KEEMBAY_MUX(0x4, "CAM_M4"),
523 KEEMBAY_MUX(0x5, "LCD_M5"),
524 KEEMBAY_MUX(0x6, "I2C4_M6"),
525 KEEMBAY_MUX(0x7, "GPIO_M7")),
526 KEEMBAY_PIN_DESC(43, "GPIO43",
527 KEEMBAY_MUX(0x0, "ETH_M0"),
528 KEEMBAY_MUX(0x1, "SD1_M1"),
529 KEEMBAY_MUX(0x2, "SPI3_M2"),
530 KEEMBAY_MUX(0x3, "CPR_M3"),
531 KEEMBAY_MUX(0x4, "I2S0_M4"),
532 KEEMBAY_MUX(0x5, "LCD_M5"),
533 KEEMBAY_MUX(0x6, "I2C4_M6"),
534 KEEMBAY_MUX(0x7, "GPIO_M7")),
535 KEEMBAY_PIN_DESC(44, "GPIO44",
536 KEEMBAY_MUX(0x0, "ETH_M0"),
537 KEEMBAY_MUX(0x1, "SD1_M1"),
538 KEEMBAY_MUX(0x2, "SPI0_M2"),
539 KEEMBAY_MUX(0x3, "CPR_M3"),
540 KEEMBAY_MUX(0x4, "I2S0_M4"),
541 KEEMBAY_MUX(0x5, "LCD_M5"),
542 KEEMBAY_MUX(0x6, "CAM_M6"),
543 KEEMBAY_MUX(0x7, "GPIO_M7")),
544 KEEMBAY_PIN_DESC(45, "GPIO45",
545 KEEMBAY_MUX(0x0, "ETH_M0"),
546 KEEMBAY_MUX(0x1, "SD1_M1"),
547 KEEMBAY_MUX(0x2, "SPI0_M2"),
548 KEEMBAY_MUX(0x3, "CPR_M3"),
549 KEEMBAY_MUX(0x4, "I2S0_M4"),
550 KEEMBAY_MUX(0x5, "LCD_M5"),
551 KEEMBAY_MUX(0x6, "CAM_M6"),
552 KEEMBAY_MUX(0x7, "GPIO_M7")),
553 KEEMBAY_PIN_DESC(46, "GPIO46",
554 KEEMBAY_MUX(0x0, "ETH_M0"),
555 KEEMBAY_MUX(0x1, "SD1_M1"),
556 KEEMBAY_MUX(0x2, "SPI0_M2"),
557 KEEMBAY_MUX(0x3, "TPIU_M3"),
558 KEEMBAY_MUX(0x4, "I2S0_M4"),
559 KEEMBAY_MUX(0x5, "LCD_M5"),
560 KEEMBAY_MUX(0x6, "CAM_M6"),
561 KEEMBAY_MUX(0x7, "GPIO_M7")),
562 KEEMBAY_PIN_DESC(47, "GPIO47",
563 KEEMBAY_MUX(0x0, "ETH_M0"),
564 KEEMBAY_MUX(0x1, "SD1_M1"),
565 KEEMBAY_MUX(0x2, "SPI0_M2"),
566 KEEMBAY_MUX(0x3, "TPIU_M3"),
567 KEEMBAY_MUX(0x4, "I2S0_M4"),
568 KEEMBAY_MUX(0x5, "LCD_M5"),
569 KEEMBAY_MUX(0x6, "CAM_M6"),
570 KEEMBAY_MUX(0x7, "GPIO_M7")),
571 KEEMBAY_PIN_DESC(48, "GPIO48",
572 KEEMBAY_MUX(0x0, "ETH_M0"),
573 KEEMBAY_MUX(0x1, "SPI2_M1"),
574 KEEMBAY_MUX(0x2, "UART2_M2"),
575 KEEMBAY_MUX(0x3, "TPIU_M3"),
576 KEEMBAY_MUX(0x4, "I2S0_M4"),
577 KEEMBAY_MUX(0x5, "LCD_M5"),
578 KEEMBAY_MUX(0x6, "CAM_M6"),
579 KEEMBAY_MUX(0x7, "GPIO_M7")),
580 KEEMBAY_PIN_DESC(49, "GPIO49",
581 KEEMBAY_MUX(0x0, "ETH_M0"),
582 KEEMBAY_MUX(0x1, "SPI2_M1"),
583 KEEMBAY_MUX(0x2, "UART2_M2"),
584 KEEMBAY_MUX(0x3, "TPIU_M3"),
585 KEEMBAY_MUX(0x4, "I2S1_M4"),
586 KEEMBAY_MUX(0x5, "LCD_M5"),
587 KEEMBAY_MUX(0x6, "CAM_M6"),
588 KEEMBAY_MUX(0x7, "GPIO_M7")),
589 KEEMBAY_PIN_DESC(50, "GPIO50",
590 KEEMBAY_MUX(0x0, "ETH_M0"),
591 KEEMBAY_MUX(0x1, "SPI2_M1"),
592 KEEMBAY_MUX(0x2, "UART2_M2"),
593 KEEMBAY_MUX(0x3, "TPIU_M3"),
594 KEEMBAY_MUX(0x4, "I2S1_M4"),
595 KEEMBAY_MUX(0x5, "LCD_M5"),
596 KEEMBAY_MUX(0x6, "CAM_M6"),
597 KEEMBAY_MUX(0x7, "GPIO_M7")),
598 KEEMBAY_PIN_DESC(51, "GPIO51",
599 KEEMBAY_MUX(0x0, "ETH_M0"),
600 KEEMBAY_MUX(0x1, "SPI2_M1"),
601 KEEMBAY_MUX(0x2, "UART2_M2"),
602 KEEMBAY_MUX(0x3, "TPIU_M3"),
603 KEEMBAY_MUX(0x4, "I2S1_M4"),
604 KEEMBAY_MUX(0x5, "LCD_M5"),
605 KEEMBAY_MUX(0x6, "CAM_M6"),
606 KEEMBAY_MUX(0x7, "GPIO_M7")),
607 KEEMBAY_PIN_DESC(52, "GPIO52",
608 KEEMBAY_MUX(0x0, "ETH_M0"),
609 KEEMBAY_MUX(0x1, "SPI2_M1"),
610 KEEMBAY_MUX(0x2, "SD0_M2"),
611 KEEMBAY_MUX(0x3, "TPIU_M3"),
612 KEEMBAY_MUX(0x4, "I2S1_M4"),
613 KEEMBAY_MUX(0x5, "LCD_M5"),
614 KEEMBAY_MUX(0x6, "CAM_M6"),
615 KEEMBAY_MUX(0x7, "GPIO_M7")),
616 KEEMBAY_PIN_DESC(53, "GPIO53",
617 KEEMBAY_MUX(0x0, "ETH_M0"),
618 KEEMBAY_MUX(0x1, "SPI2_M1"),
619 KEEMBAY_MUX(0x2, "SD0_M2"),
620 KEEMBAY_MUX(0x3, "TPIU_M3"),
621 KEEMBAY_MUX(0x4, "I2S2_M4"),
622 KEEMBAY_MUX(0x5, "LCD_M5"),
623 KEEMBAY_MUX(0x6, "CAM_M6"),
624 KEEMBAY_MUX(0x7, "GPIO_M7")),
625 KEEMBAY_PIN_DESC(54, "GPIO54",
626 KEEMBAY_MUX(0x0, "ETH_M0"),
627 KEEMBAY_MUX(0x1, "SPI2_M1"),
628 KEEMBAY_MUX(0x2, "SD0_M2"),
629 KEEMBAY_MUX(0x3, "TPIU_M3"),
630 KEEMBAY_MUX(0x4, "I2S2_M4"),
631 KEEMBAY_MUX(0x5, "LCD_M5"),
632 KEEMBAY_MUX(0x6, "CAM_M6"),
633 KEEMBAY_MUX(0x7, "GPIO_M7")),
634 KEEMBAY_PIN_DESC(55, "GPIO55",
635 KEEMBAY_MUX(0x0, "ETH_M0"),
636 KEEMBAY_MUX(0x1, "SPI2_M1"),
637 KEEMBAY_MUX(0x2, "SD1_M2"),
638 KEEMBAY_MUX(0x3, "TPIU_M3"),
639 KEEMBAY_MUX(0x4, "I2S2_M4"),
640 KEEMBAY_MUX(0x5, "LCD_M5"),
641 KEEMBAY_MUX(0x6, "CAM_M6"),
642 KEEMBAY_MUX(0x7, "GPIO_M7")),
643 KEEMBAY_PIN_DESC(56, "GPIO56",
644 KEEMBAY_MUX(0x0, "ETH_M0"),
645 KEEMBAY_MUX(0x1, "SPI2_M1"),
646 KEEMBAY_MUX(0x2, "SD1_M2"),
647 KEEMBAY_MUX(0x3, "TPIU_M3"),
648 KEEMBAY_MUX(0x4, "I2S2_M4"),
649 KEEMBAY_MUX(0x5, "LCD_M5"),
650 KEEMBAY_MUX(0x6, "CAM_M6"),
651 KEEMBAY_MUX(0x7, "GPIO_M7")),
652 KEEMBAY_PIN_DESC(57, "GPIO57",
653 KEEMBAY_MUX(0x0, "SPI1_M0"),
654 KEEMBAY_MUX(0x1, "I2S1_M1"),
655 KEEMBAY_MUX(0x2, "SD1_M2"),
656 KEEMBAY_MUX(0x3, "TPIU_M3"),
657 KEEMBAY_MUX(0x4, "UART0_M4"),
658 KEEMBAY_MUX(0x5, "LCD_M5"),
659 KEEMBAY_MUX(0x6, "CAM_M6"),
660 KEEMBAY_MUX(0x7, "GPIO_M7")),
661 KEEMBAY_PIN_DESC(58, "GPIO58",
662 KEEMBAY_MUX(0x0, "SPI1_M0"),
663 KEEMBAY_MUX(0x1, "ETH_M1"),
664 KEEMBAY_MUX(0x2, "SD0_M2"),
665 KEEMBAY_MUX(0x3, "TPIU_M3"),
666 KEEMBAY_MUX(0x4, "UART0_M4"),
667 KEEMBAY_MUX(0x5, "LCD_M5"),
668 KEEMBAY_MUX(0x6, "CAM_M6"),
669 KEEMBAY_MUX(0x7, "GPIO_M7")),
670 KEEMBAY_PIN_DESC(59, "GPIO59",
671 KEEMBAY_MUX(0x0, "SPI1_M0"),
672 KEEMBAY_MUX(0x1, "ETH_M1"),
673 KEEMBAY_MUX(0x2, "SD0_M2"),
674 KEEMBAY_MUX(0x3, "TPIU_M3"),
675 KEEMBAY_MUX(0x4, "UART0_M4"),
676 KEEMBAY_MUX(0x5, "LCD_M5"),
677 KEEMBAY_MUX(0x6, "CAM_M6"),
678 KEEMBAY_MUX(0x7, "GPIO_M7")),
679 KEEMBAY_PIN_DESC(60, "GPIO60",
680 KEEMBAY_MUX(0x0, "SPI1_M0"),
681 KEEMBAY_MUX(0x1, "ETH_M1"),
682 KEEMBAY_MUX(0x2, "I3C1_M2"),
683 KEEMBAY_MUX(0x3, "TPIU_M3"),
684 KEEMBAY_MUX(0x4, "UART0_M4"),
685 KEEMBAY_MUX(0x5, "LCD_M5"),
686 KEEMBAY_MUX(0x6, "CAM_M6"),
687 KEEMBAY_MUX(0x7, "GPIO_M7")),
688 KEEMBAY_PIN_DESC(61, "GPIO61",
689 KEEMBAY_MUX(0x0, "SPI1_M0"),
690 KEEMBAY_MUX(0x1, "ETH_M1"),
691 KEEMBAY_MUX(0x2, "SD0_M2"),
692 KEEMBAY_MUX(0x3, "TPIU_M3"),
693 KEEMBAY_MUX(0x4, "UART1_M4"),
694 KEEMBAY_MUX(0x5, "LCD_M5"),
695 KEEMBAY_MUX(0x6, "CAM_M6"),
696 KEEMBAY_MUX(0x7, "GPIO_M7")),
697 KEEMBAY_PIN_DESC(62, "GPIO62",
698 KEEMBAY_MUX(0x0, "SPI1_M0"),
699 KEEMBAY_MUX(0x1, "ETH_M1"),
700 KEEMBAY_MUX(0x2, "SD1_M2"),
701 KEEMBAY_MUX(0x3, "TPIU_M3"),
702 KEEMBAY_MUX(0x4, "UART1_M4"),
703 KEEMBAY_MUX(0x5, "LCD_M5"),
704 KEEMBAY_MUX(0x6, "CAM_M6"),
705 KEEMBAY_MUX(0x7, "GPIO_M7")),
706 KEEMBAY_PIN_DESC(63, "GPIO63",
707 KEEMBAY_MUX(0x0, "I2S1_M0"),
708 KEEMBAY_MUX(0x1, "SPI1_M1"),
709 KEEMBAY_MUX(0x2, "SD1_M2"),
710 KEEMBAY_MUX(0x3, "TPIU_M3"),
711 KEEMBAY_MUX(0x4, "UART1_M4"),
712 KEEMBAY_MUX(0x5, "LCD_M5"),
713 KEEMBAY_MUX(0x6, "CAM_M6"),
714 KEEMBAY_MUX(0x7, "GPIO_M7")),
715 KEEMBAY_PIN_DESC(64, "GPIO64",
716 KEEMBAY_MUX(0x0, "I2S2_M0"),
717 KEEMBAY_MUX(0x1, "SPI1_M1"),
718 KEEMBAY_MUX(0x2, "ETH_M2"),
719 KEEMBAY_MUX(0x3, "TPIU_M3"),
720 KEEMBAY_MUX(0x4, "UART1_M4"),
721 KEEMBAY_MUX(0x5, "LCD_M5"),
722 KEEMBAY_MUX(0x6, "CAM_M6"),
723 KEEMBAY_MUX(0x7, "GPIO_M7")),
724 KEEMBAY_PIN_DESC(65, "GPIO65",
725 KEEMBAY_MUX(0x0, "I3C0_M0"),
726 KEEMBAY_MUX(0x1, "SPI1_M1"),
727 KEEMBAY_MUX(0x2, "SD1_M2"),
728 KEEMBAY_MUX(0x3, "TPIU_M3"),
729 KEEMBAY_MUX(0x4, "SPI0_M4"),
730 KEEMBAY_MUX(0x5, "LCD_M5"),
731 KEEMBAY_MUX(0x6, "CAM_M6"),
732 KEEMBAY_MUX(0x7, "GPIO_M7")),
733 KEEMBAY_PIN_DESC(66, "GPIO66",
734 KEEMBAY_MUX(0x0, "I3C0_M0"),
735 KEEMBAY_MUX(0x1, "ETH_M1"),
736 KEEMBAY_MUX(0x2, "I2C0_M2"),
737 KEEMBAY_MUX(0x3, "TPIU_M3"),
738 KEEMBAY_MUX(0x4, "SPI0_M4"),
739 KEEMBAY_MUX(0x5, "LCD_M5"),
740 KEEMBAY_MUX(0x6, "CAM_M6"),
741 KEEMBAY_MUX(0x7, "GPIO_M7")),
742 KEEMBAY_PIN_DESC(67, "GPIO67",
743 KEEMBAY_MUX(0x0, "I3C1_M0"),
744 KEEMBAY_MUX(0x1, "ETH_M1"),
745 KEEMBAY_MUX(0x2, "I2C0_M2"),
746 KEEMBAY_MUX(0x3, "TPIU_M3"),
747 KEEMBAY_MUX(0x4, "SPI0_M4"),
748 KEEMBAY_MUX(0x5, "LCD_M5"),
749 KEEMBAY_MUX(0x6, "I2S3_M6"),
750 KEEMBAY_MUX(0x7, "GPIO_M7")),
751 KEEMBAY_PIN_DESC(68, "GPIO68",
752 KEEMBAY_MUX(0x0, "I3C1_M0"),
753 KEEMBAY_MUX(0x1, "ETH_M1"),
754 KEEMBAY_MUX(0x2, "I2C1_M2"),
755 KEEMBAY_MUX(0x3, "TPIU_M3"),
756 KEEMBAY_MUX(0x4, "SPI0_M4"),
757 KEEMBAY_MUX(0x5, "LCD_M5"),
758 KEEMBAY_MUX(0x6, "I2S3_M6"),
759 KEEMBAY_MUX(0x7, "GPIO_M7")),
760 KEEMBAY_PIN_DESC(69, "GPIO69",
761 KEEMBAY_MUX(0x0, "I3C2_M0"),
762 KEEMBAY_MUX(0x1, "ETH_M1"),
763 KEEMBAY_MUX(0x2, "I2C1_M2"),
764 KEEMBAY_MUX(0x3, "TPIU_M3"),
765 KEEMBAY_MUX(0x4, "SPI0_M4"),
766 KEEMBAY_MUX(0x5, "LCD_M5"),
767 KEEMBAY_MUX(0x6, "I2S3_M6"),
768 KEEMBAY_MUX(0x7, "GPIO_M7")),
769 KEEMBAY_PIN_DESC(70, "GPIO70",
770 KEEMBAY_MUX(0x0, "I3C2_M0"),
771 KEEMBAY_MUX(0x1, "ETH_M1"),
772 KEEMBAY_MUX(0x2, "SPI0_M2"),
773 KEEMBAY_MUX(0x3, "TPIU_M3"),
774 KEEMBAY_MUX(0x4, "SD0_M4"),
775 KEEMBAY_MUX(0x5, "LCD_M5"),
776 KEEMBAY_MUX(0x6, "I2S3_M6"),
777 KEEMBAY_MUX(0x7, "GPIO_M7")),
778 KEEMBAY_PIN_DESC(71, "GPIO71",
779 KEEMBAY_MUX(0x0, "I3C0_M0"),
780 KEEMBAY_MUX(0x1, "ETH_M1"),
781 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
782 KEEMBAY_MUX(0x3, "TPIU_M3"),
783 KEEMBAY_MUX(0x4, "SD0_M4"),
784 KEEMBAY_MUX(0x5, "LCD_M5"),
785 KEEMBAY_MUX(0x6, "I2S3_M6"),
786 KEEMBAY_MUX(0x7, "GPIO_M7")),
787 KEEMBAY_PIN_DESC(72, "GPIO72",
788 KEEMBAY_MUX(0x0, "I3C1_M0"),
789 KEEMBAY_MUX(0x1, "ETH_M1"),
790 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
791 KEEMBAY_MUX(0x3, "TPIU_M3"),
792 KEEMBAY_MUX(0x4, "SD0_M4"),
793 KEEMBAY_MUX(0x5, "LCD_M5"),
794 KEEMBAY_MUX(0x6, "UART2_M6"),
795 KEEMBAY_MUX(0x7, "GPIO_M7")),
796 KEEMBAY_PIN_DESC(73, "GPIO73",
797 KEEMBAY_MUX(0x0, "I3C2_M0"),
798 KEEMBAY_MUX(0x1, "ETH_M1"),
799 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
800 KEEMBAY_MUX(0x3, "TPIU_M3"),
801 KEEMBAY_MUX(0x4, "SD0_M4"),
802 KEEMBAY_MUX(0x5, "LCD_M5"),
803 KEEMBAY_MUX(0x6, "UART2_M6"),
804 KEEMBAY_MUX(0x7, "GPIO_M7")),
805 KEEMBAY_PIN_DESC(74, "GPIO74",
806 KEEMBAY_MUX(0x0, "I3C0_M0"),
807 KEEMBAY_MUX(0x1, "ETH_M1"),
808 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
809 KEEMBAY_MUX(0x3, "TPIU_M3"),
810 KEEMBAY_MUX(0x4, "SD0_M4"),
811 KEEMBAY_MUX(0x5, "LCD_M5"),
812 KEEMBAY_MUX(0x6, "UART2_M6"),
813 KEEMBAY_MUX(0x7, "GPIO_M7")),
814 KEEMBAY_PIN_DESC(75, "GPIO75",
815 KEEMBAY_MUX(0x0, "I3C0_M0"),
816 KEEMBAY_MUX(0x1, "ETH_M1"),
817 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
818 KEEMBAY_MUX(0x3, "TPIU_M3"),
819 KEEMBAY_MUX(0x4, "SD0_M4"),
820 KEEMBAY_MUX(0x5, "LCD_M5"),
821 KEEMBAY_MUX(0x6, "UART2_M6"),
822 KEEMBAY_MUX(0x7, "GPIO_M7")),
823 KEEMBAY_PIN_DESC(76, "GPIO76",
824 KEEMBAY_MUX(0x0, "I2C2_M0"),
825 KEEMBAY_MUX(0x1, "I3C0_M1"),
826 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
827 KEEMBAY_MUX(0x3, "TPIU_M3"),
828 KEEMBAY_MUX(0x4, "ETH_M4"),
829 KEEMBAY_MUX(0x5, "LCD_M5"),
830 KEEMBAY_MUX(0x6, "UART3_M6"),
831 KEEMBAY_MUX(0x7, "GPIO_M7")),
832 KEEMBAY_PIN_DESC(77, "GPIO77",
833 KEEMBAY_MUX(0x0, "PCIE_M0"),
834 KEEMBAY_MUX(0x1, "I3C1_M1"),
835 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
836 KEEMBAY_MUX(0x3, "TPIU_M3"),
837 KEEMBAY_MUX(0x4, "I3C2_M4"),
838 KEEMBAY_MUX(0x5, "LCD_M5"),
839 KEEMBAY_MUX(0x6, "UART3_M6"),
840 KEEMBAY_MUX(0x7, "GPIO_M7")),
841 KEEMBAY_PIN_DESC(78, "GPIO78",
842 KEEMBAY_MUX(0x0, "PCIE_M0"),
843 KEEMBAY_MUX(0x1, "I3C2_M1"),
844 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
845 KEEMBAY_MUX(0x3, "TPIU_M3"),
846 KEEMBAY_MUX(0x4, "I3C2_M4"),
847 KEEMBAY_MUX(0x5, "LCD_M5"),
848 KEEMBAY_MUX(0x6, "UART3_M6"),
849 KEEMBAY_MUX(0x7, "GPIO_M7")),
850 KEEMBAY_PIN_DESC(79, "GPIO79",
851 KEEMBAY_MUX(0x0, "PCIE_M0"),
852 KEEMBAY_MUX(0x1, "I2C2_M1"),
853 KEEMBAY_MUX(0x2, "SLVDS1_M2"),
854 KEEMBAY_MUX(0x3, "TPIU_M3"),
855 KEEMBAY_MUX(0x4, "I3C2_M4"),
856 KEEMBAY_MUX(0x5, "LCD_M5"),
857 KEEMBAY_MUX(0x6, "UART3_M6"),
858 KEEMBAY_MUX(0x7, "GPIO_M7")),
859 };
860
keembay_read_reg(void __iomem * base,unsigned int pin)861 static inline u32 keembay_read_reg(void __iomem *base, unsigned int pin)
862 {
863 return readl(base + KEEMBAY_GPIO_REG_OFFSET(pin));
864 }
865
keembay_read_gpio_reg(void __iomem * base,unsigned int pin)866 static inline u32 keembay_read_gpio_reg(void __iomem *base, unsigned int pin)
867 {
868 return keembay_read_reg(base, pin / KEEMBAY_GPIO_MAX_PER_REG);
869 }
870
keembay_read_pin(void __iomem * base,unsigned int pin)871 static inline u32 keembay_read_pin(void __iomem *base, unsigned int pin)
872 {
873 u32 val = keembay_read_gpio_reg(base, pin);
874
875 return !!(val & BIT(pin % KEEMBAY_GPIO_MAX_PER_REG));
876 }
877
keembay_write_reg(u32 val,void __iomem * base,unsigned int pin)878 static inline void keembay_write_reg(u32 val, void __iomem *base, unsigned int pin)
879 {
880 writel(val, base + KEEMBAY_GPIO_REG_OFFSET(pin));
881 }
882
keembay_write_gpio_reg(u32 val,void __iomem * base,unsigned int pin)883 static inline void keembay_write_gpio_reg(u32 val, void __iomem *base, unsigned int pin)
884 {
885 keembay_write_reg(val, base, pin / KEEMBAY_GPIO_MAX_PER_REG);
886 }
887
keembay_gpio_invert(struct keembay_pinctrl * kpc,unsigned int pin)888 static void keembay_gpio_invert(struct keembay_pinctrl *kpc, unsigned int pin)
889 {
890 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
891
892 /*
893 * This IP doesn't support the falling edge and low level interrupt
894 * trigger. Invert API is used to mimic the falling edge and low
895 * level support
896 */
897
898 val |= FIELD_PREP(KEEMBAY_GPIO_MODE_INV_MASK, KEEMBAY_GPIO_MODE_INV_VAL);
899 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
900 }
901
keembay_gpio_restore_default(struct keembay_pinctrl * kpc,unsigned int pin)902 static void keembay_gpio_restore_default(struct keembay_pinctrl *kpc, unsigned int pin)
903 {
904 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
905
906 val &= FIELD_PREP(KEEMBAY_GPIO_MODE_INV_MASK, 0);
907 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
908 }
909
keembay_request_gpio(struct pinctrl_dev * pctldev,struct pinctrl_gpio_range * range,unsigned int pin)910 static int keembay_request_gpio(struct pinctrl_dev *pctldev,
911 struct pinctrl_gpio_range *range, unsigned int pin)
912 {
913 struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
914 unsigned int val;
915
916 if (pin >= kpc->npins)
917 return -EINVAL;
918
919 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
920 val = FIELD_GET(KEEMBAY_GPIO_MODE_SELECT_MASK, val);
921
922 /* As per Pin Mux Map, Modes 0 to 6 are for peripherals */
923 if (val != KEEMBAY_GPIO_MODE_DEFAULT)
924 return -EBUSY;
925
926 return 0;
927 }
928
keembay_set_mux(struct pinctrl_dev * pctldev,unsigned int fun_sel,unsigned int grp_sel)929 static int keembay_set_mux(struct pinctrl_dev *pctldev, unsigned int fun_sel,
930 unsigned int grp_sel)
931 {
932 struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
933 struct function_desc *func;
934 struct group_desc *grp;
935 unsigned int val;
936 u8 pin_mode;
937 int pin;
938
939 grp = pinctrl_generic_get_group(pctldev, grp_sel);
940 if (!grp)
941 return -EINVAL;
942
943 func = pinmux_generic_get_function(pctldev, fun_sel);
944 if (!func)
945 return -EINVAL;
946
947 /* Change modes for pins in the selected group */
948 pin = *grp->pins;
949 pin_mode = *(u8 *)(func->data);
950
951 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
952 val = u32_replace_bits(val, pin_mode, KEEMBAY_GPIO_MODE_SELECT_MASK);
953 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
954
955 return 0;
956 }
957
keembay_pinconf_get_pull(struct keembay_pinctrl * kpc,unsigned int pin)958 static u32 keembay_pinconf_get_pull(struct keembay_pinctrl *kpc, unsigned int pin)
959 {
960 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
961
962 return FIELD_GET(KEEMBAY_GPIO_MODE_PULLUP_MASK, val);
963 }
964
keembay_pinconf_set_pull(struct keembay_pinctrl * kpc,unsigned int pin,unsigned int pull)965 static int keembay_pinconf_set_pull(struct keembay_pinctrl *kpc, unsigned int pin,
966 unsigned int pull)
967 {
968 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
969
970 val = u32_replace_bits(val, pull, KEEMBAY_GPIO_MODE_PULLUP_MASK);
971 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
972
973 return 0;
974 }
975
keembay_pinconf_get_drive(struct keembay_pinctrl * kpc,unsigned int pin)976 static int keembay_pinconf_get_drive(struct keembay_pinctrl *kpc, unsigned int pin)
977 {
978 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
979
980 val = FIELD_GET(KEEMBAY_GPIO_MODE_DRIVE_MASK, val) * 4;
981 if (val)
982 return val;
983
984 return KEEMBAY_GPIO_MIN_STRENGTH;
985 }
986
keembay_pinconf_set_drive(struct keembay_pinctrl * kpc,unsigned int pin,unsigned int drive)987 static int keembay_pinconf_set_drive(struct keembay_pinctrl *kpc, unsigned int pin,
988 unsigned int drive)
989 {
990 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
991 unsigned int strength = clamp_val(drive, KEEMBAY_GPIO_MIN_STRENGTH,
992 KEEMBAY_GPIO_MAX_STRENGTH) / 4;
993
994 val = u32_replace_bits(val, strength, KEEMBAY_GPIO_MODE_DRIVE_MASK);
995 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
996
997 return 0;
998 }
999
keembay_pinconf_get_slew_rate(struct keembay_pinctrl * kpc,unsigned int pin)1000 static int keembay_pinconf_get_slew_rate(struct keembay_pinctrl *kpc, unsigned int pin)
1001 {
1002 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1003
1004 return !!(val & KEEMBAY_GPIO_MODE_SLEW_RATE);
1005 }
1006
keembay_pinconf_set_slew_rate(struct keembay_pinctrl * kpc,unsigned int pin,unsigned int slew_rate)1007 static int keembay_pinconf_set_slew_rate(struct keembay_pinctrl *kpc, unsigned int pin,
1008 unsigned int slew_rate)
1009 {
1010 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1011
1012 if (slew_rate)
1013 val |= KEEMBAY_GPIO_MODE_SLEW_RATE;
1014 else
1015 val &= ~KEEMBAY_GPIO_MODE_SLEW_RATE;
1016
1017 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1018
1019 return 0;
1020 }
1021
keembay_pinconf_get_schmitt(struct keembay_pinctrl * kpc,unsigned int pin)1022 static int keembay_pinconf_get_schmitt(struct keembay_pinctrl *kpc, unsigned int pin)
1023 {
1024 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1025
1026 return !!(val & KEEMBAY_GPIO_MODE_SCHMITT_EN);
1027 }
1028
keembay_pinconf_set_schmitt(struct keembay_pinctrl * kpc,unsigned int pin,unsigned int schmitt_en)1029 static int keembay_pinconf_set_schmitt(struct keembay_pinctrl *kpc, unsigned int pin,
1030 unsigned int schmitt_en)
1031 {
1032 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1033
1034 if (schmitt_en)
1035 val |= KEEMBAY_GPIO_MODE_SCHMITT_EN;
1036 else
1037 val &= ~KEEMBAY_GPIO_MODE_SCHMITT_EN;
1038
1039 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1040
1041 return 0;
1042 }
1043
keembay_pinconf_get(struct pinctrl_dev * pctldev,unsigned int pin,unsigned long * cfg)1044 static int keembay_pinconf_get(struct pinctrl_dev *pctldev, unsigned int pin,
1045 unsigned long *cfg)
1046 {
1047 struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
1048 unsigned int param = pinconf_to_config_param(*cfg);
1049 unsigned int val;
1050
1051 if (pin >= kpc->npins)
1052 return -EINVAL;
1053
1054 switch (param) {
1055 case PIN_CONFIG_BIAS_DISABLE:
1056 if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_DISABLE)
1057 return -EINVAL;
1058 break;
1059
1060 case PIN_CONFIG_BIAS_PULL_UP:
1061 if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_PULL_UP)
1062 return -EINVAL;
1063 break;
1064
1065 case PIN_CONFIG_BIAS_PULL_DOWN:
1066 if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_PULL_DOWN)
1067 return -EINVAL;
1068 break;
1069
1070 case PIN_CONFIG_BIAS_BUS_HOLD:
1071 if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_BUS_HOLD)
1072 return -EINVAL;
1073 break;
1074
1075 case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
1076 if (!keembay_pinconf_get_schmitt(kpc, pin))
1077 return -EINVAL;
1078 break;
1079
1080 case PIN_CONFIG_SLEW_RATE:
1081 val = keembay_pinconf_get_slew_rate(kpc, pin);
1082 *cfg = pinconf_to_config_packed(param, val);
1083 break;
1084
1085 case PIN_CONFIG_DRIVE_STRENGTH:
1086 val = keembay_pinconf_get_drive(kpc, pin);
1087 *cfg = pinconf_to_config_packed(param, val);
1088 break;
1089
1090 default:
1091 return -ENOTSUPP;
1092 }
1093
1094 return 0;
1095 }
1096
keembay_pinconf_set(struct pinctrl_dev * pctldev,unsigned int pin,unsigned long * cfg,unsigned int num_configs)1097 static int keembay_pinconf_set(struct pinctrl_dev *pctldev, unsigned int pin,
1098 unsigned long *cfg, unsigned int num_configs)
1099 {
1100 struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
1101 enum pin_config_param param;
1102 unsigned int arg, i;
1103 int ret = 0;
1104
1105 if (pin >= kpc->npins)
1106 return -EINVAL;
1107
1108 for (i = 0; i < num_configs; i++) {
1109 param = pinconf_to_config_param(cfg[i]);
1110 arg = pinconf_to_config_argument(cfg[i]);
1111
1112 switch (param) {
1113 case PIN_CONFIG_BIAS_DISABLE:
1114 ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_DISABLE);
1115 break;
1116
1117 case PIN_CONFIG_BIAS_PULL_UP:
1118 ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_PULL_UP);
1119 break;
1120
1121 case PIN_CONFIG_BIAS_PULL_DOWN:
1122 ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_PULL_DOWN);
1123 break;
1124
1125 case PIN_CONFIG_BIAS_BUS_HOLD:
1126 ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_BUS_HOLD);
1127 break;
1128
1129 case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
1130 ret = keembay_pinconf_set_schmitt(kpc, pin, arg);
1131 break;
1132
1133 case PIN_CONFIG_SLEW_RATE:
1134 ret = keembay_pinconf_set_slew_rate(kpc, pin, arg);
1135 break;
1136
1137 case PIN_CONFIG_DRIVE_STRENGTH:
1138 ret = keembay_pinconf_set_drive(kpc, pin, arg);
1139 break;
1140
1141 default:
1142 return -ENOTSUPP;
1143 }
1144 if (ret)
1145 return ret;
1146 }
1147 return ret;
1148 }
1149
1150 static const struct pinctrl_ops keembay_pctlops = {
1151 .get_groups_count = pinctrl_generic_get_group_count,
1152 .get_group_name = pinctrl_generic_get_group_name,
1153 .get_group_pins = pinctrl_generic_get_group_pins,
1154 .dt_node_to_map = pinconf_generic_dt_node_to_map_all,
1155 .dt_free_map = pinconf_generic_dt_free_map,
1156 };
1157
1158 static const struct pinmux_ops keembay_pmxops = {
1159 .get_functions_count = pinmux_generic_get_function_count,
1160 .get_function_name = pinmux_generic_get_function_name,
1161 .get_function_groups = pinmux_generic_get_function_groups,
1162 .gpio_request_enable = keembay_request_gpio,
1163 .set_mux = keembay_set_mux,
1164 };
1165
1166 static const struct pinconf_ops keembay_confops = {
1167 .is_generic = true,
1168 .pin_config_get = keembay_pinconf_get,
1169 .pin_config_set = keembay_pinconf_set,
1170 };
1171
1172 static struct pinctrl_desc keembay_pinctrl_desc = {
1173 .name = "keembay-pinmux",
1174 .pctlops = &keembay_pctlops,
1175 .pmxops = &keembay_pmxops,
1176 .confops = &keembay_confops,
1177 .owner = THIS_MODULE,
1178 };
1179
keembay_gpio_get(struct gpio_chip * gc,unsigned int pin)1180 static int keembay_gpio_get(struct gpio_chip *gc, unsigned int pin)
1181 {
1182 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1183 unsigned int val, offset;
1184
1185 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1186 offset = (val & KEEMBAY_GPIO_MODE_DIR) ? KEEMBAY_GPIO_DATA_IN : KEEMBAY_GPIO_DATA_OUT;
1187
1188 return keembay_read_pin(kpc->base0 + offset, pin);
1189 }
1190
keembay_gpio_set(struct gpio_chip * gc,unsigned int pin,int val)1191 static void keembay_gpio_set(struct gpio_chip *gc, unsigned int pin, int val)
1192 {
1193 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1194 unsigned int reg_val;
1195
1196 reg_val = keembay_read_gpio_reg(kpc->base0 + KEEMBAY_GPIO_DATA_OUT, pin);
1197 if (val)
1198 keembay_write_gpio_reg(reg_val | BIT(pin % KEEMBAY_GPIO_MAX_PER_REG),
1199 kpc->base0 + KEEMBAY_GPIO_DATA_HIGH, pin);
1200 else
1201 keembay_write_gpio_reg(~reg_val | BIT(pin % KEEMBAY_GPIO_MAX_PER_REG),
1202 kpc->base0 + KEEMBAY_GPIO_DATA_LOW, pin);
1203 }
1204
keembay_gpio_get_direction(struct gpio_chip * gc,unsigned int pin)1205 static int keembay_gpio_get_direction(struct gpio_chip *gc, unsigned int pin)
1206 {
1207 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1208 unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1209
1210 return !!(val & KEEMBAY_GPIO_MODE_DIR);
1211 }
1212
keembay_gpio_set_direction_in(struct gpio_chip * gc,unsigned int pin)1213 static int keembay_gpio_set_direction_in(struct gpio_chip *gc, unsigned int pin)
1214 {
1215 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1216 unsigned int val;
1217
1218 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1219 val |= KEEMBAY_GPIO_MODE_DIR;
1220 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1221
1222 return 0;
1223 }
1224
keembay_gpio_set_direction_out(struct gpio_chip * gc,unsigned int pin,int value)1225 static int keembay_gpio_set_direction_out(struct gpio_chip *gc,
1226 unsigned int pin, int value)
1227 {
1228 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1229 unsigned int val;
1230
1231 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1232 val &= ~KEEMBAY_GPIO_MODE_DIR;
1233 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
1234 keembay_gpio_set(gc, pin, value);
1235
1236 return 0;
1237 }
1238
keembay_gpio_irq_handler(struct irq_desc * desc)1239 static void keembay_gpio_irq_handler(struct irq_desc *desc)
1240 {
1241 struct gpio_chip *gc = irq_desc_get_handler_data(desc);
1242 unsigned int kmb_irq = irq_desc_get_irq(desc);
1243 unsigned long reg, clump = 0, bit = 0;
1244 struct irq_chip *parent_chip;
1245 struct keembay_pinctrl *kpc;
1246 unsigned int src, pin, val;
1247
1248 /* Identify GPIO interrupt number from GIC interrupt number */
1249 for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
1250 if (kmb_irq == gc->irq.parents[src])
1251 break;
1252 }
1253
1254 if (src == KEEMBAY_GPIO_NUM_IRQ)
1255 return;
1256
1257 parent_chip = irq_desc_get_chip(desc);
1258 kpc = gpiochip_get_data(gc);
1259
1260 chained_irq_enter(parent_chip, desc);
1261 reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1262
1263 /*
1264 * Each Interrupt line can be shared by up to 4 GPIO pins. Enable bit
1265 * and input values were checked to identify the source of the
1266 * Interrupt. The checked enable bit positions are 7, 15, 23 and 31.
1267 */
1268 for_each_set_clump8(bit, clump, ®, BITS_PER_TYPE(typeof(reg))) {
1269 pin = clump & ~KEEMBAY_GPIO_IRQ_ENABLE;
1270 val = keembay_read_pin(kpc->base0 + KEEMBAY_GPIO_DATA_IN, pin);
1271 kmb_irq = irq_linear_revmap(gc->irq.domain, pin);
1272
1273 /* Checks if the interrupt is enabled */
1274 if (val && (clump & KEEMBAY_GPIO_IRQ_ENABLE))
1275 generic_handle_irq(kmb_irq);
1276 }
1277 chained_irq_exit(parent_chip, desc);
1278 }
1279
keembay_gpio_clear_irq(struct irq_data * data,unsigned long pos,u32 src,irq_hw_number_t pin)1280 static void keembay_gpio_clear_irq(struct irq_data *data, unsigned long pos,
1281 u32 src, irq_hw_number_t pin)
1282 {
1283 struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
1284 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1285 unsigned long trig = irqd_get_trigger_type(data);
1286 struct keembay_gpio_irq *irq = &kpc->irq[src];
1287 unsigned long val;
1288
1289 /* Check if the value of pos/KEEMBAY_GPIO_NUM_IRQ is in valid range. */
1290 if ((pos / KEEMBAY_GPIO_NUM_IRQ) >= KEEMBAY_GPIO_MAX_PER_IRQ)
1291 return;
1292
1293 /* Retains val register as it handles other interrupts as well. */
1294 val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1295
1296 bitmap_set_value8(&val, 0, pos);
1297 keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1298
1299 irq->num_share--;
1300 irq->pins[pos / KEEMBAY_GPIO_NUM_IRQ] = 0;
1301
1302 if (trig & IRQ_TYPE_LEVEL_MASK)
1303 keembay_gpio_restore_default(kpc, pin);
1304
1305 if (irq->trigger == IRQ_TYPE_LEVEL_HIGH)
1306 kpc->max_gpios_level_type++;
1307 else if (irq->trigger == IRQ_TYPE_EDGE_RISING)
1308 kpc->max_gpios_edge_type++;
1309 }
1310
keembay_find_free_slot(struct keembay_pinctrl * kpc,unsigned int src)1311 static int keembay_find_free_slot(struct keembay_pinctrl *kpc, unsigned int src)
1312 {
1313 unsigned long val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1314
1315 return bitmap_find_free_region(&val, KEEMBAY_GPIO_MAX_PER_REG, 3) / KEEMBAY_GPIO_NUM_IRQ;
1316 }
1317
keembay_find_free_src(struct keembay_pinctrl * kpc,unsigned int trig)1318 static int keembay_find_free_src(struct keembay_pinctrl *kpc, unsigned int trig)
1319 {
1320 int src, type = 0;
1321
1322 if (trig & IRQ_TYPE_LEVEL_MASK)
1323 type = IRQ_TYPE_LEVEL_HIGH;
1324 else if (trig & IRQ_TYPE_EDGE_BOTH)
1325 type = IRQ_TYPE_EDGE_RISING;
1326
1327 for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
1328 if (kpc->irq[src].trigger != type)
1329 continue;
1330
1331 if (!keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src) ||
1332 kpc->irq[src].num_share < KEEMBAY_GPIO_MAX_PER_IRQ)
1333 return src;
1334 }
1335
1336 return -EBUSY;
1337 }
1338
keembay_gpio_set_irq(struct keembay_pinctrl * kpc,int src,int slot,irq_hw_number_t pin)1339 static void keembay_gpio_set_irq(struct keembay_pinctrl *kpc, int src,
1340 int slot, irq_hw_number_t pin)
1341 {
1342 unsigned long val = pin | KEEMBAY_GPIO_IRQ_ENABLE;
1343 struct keembay_gpio_irq *irq = &kpc->irq[src];
1344 unsigned long flags, reg;
1345
1346 raw_spin_lock_irqsave(&kpc->lock, flags);
1347 reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1348 bitmap_set_value8(®, val, slot * 8);
1349 keembay_write_reg(reg, kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1350 raw_spin_unlock_irqrestore(&kpc->lock, flags);
1351
1352 if (irq->trigger == IRQ_TYPE_LEVEL_HIGH)
1353 kpc->max_gpios_level_type--;
1354 else if (irq->trigger == IRQ_TYPE_EDGE_RISING)
1355 kpc->max_gpios_edge_type--;
1356
1357 irq->source = src;
1358 irq->pins[slot] = pin;
1359 irq->num_share++;
1360 }
1361
keembay_gpio_irq_enable(struct irq_data * data)1362 static void keembay_gpio_irq_enable(struct irq_data *data)
1363 {
1364 struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
1365 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1366 unsigned int trig = irqd_get_trigger_type(data);
1367 irq_hw_number_t pin = irqd_to_hwirq(data);
1368 int src, slot;
1369
1370 /* Check which Interrupt source and slot is available */
1371 src = keembay_find_free_src(kpc, trig);
1372 slot = keembay_find_free_slot(kpc, src);
1373
1374 if (src < 0 || slot < 0)
1375 return;
1376
1377 if (trig & KEEMBAY_GPIO_SENSE_LOW)
1378 keembay_gpio_invert(kpc, pin);
1379
1380 keembay_gpio_set_irq(kpc, src, slot, pin);
1381 }
1382
keembay_gpio_irq_ack(struct irq_data * data)1383 static void keembay_gpio_irq_ack(struct irq_data *data)
1384 {
1385 /*
1386 * The keembay_gpio_irq_ack function is needed to handle_edge_irq.
1387 * IRQ ack is not possible from the SOC perspective. The IP by itself
1388 * is used for handling interrupts which do not come in short-time and
1389 * not used as protocol or communication interrupts. All the interrupts
1390 * are threaded IRQ interrupts. But this function is expected to be
1391 * present as the gpio IP is registered with irq framework. Otherwise
1392 * handle_edge_irq() fails.
1393 */
1394 }
1395
keembay_gpio_irq_disable(struct irq_data * data)1396 static void keembay_gpio_irq_disable(struct irq_data *data)
1397 {
1398 struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
1399 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1400 irq_hw_number_t pin = irqd_to_hwirq(data);
1401 unsigned long reg, clump = 0, pos = 0;
1402 unsigned int src;
1403
1404 for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
1405 reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
1406 for_each_set_clump8(pos, clump, ®, BITS_PER_TYPE(typeof(reg))) {
1407 if ((clump & ~KEEMBAY_GPIO_IRQ_ENABLE) == pin) {
1408 keembay_gpio_clear_irq(data, pos, src, pin);
1409 return;
1410 }
1411 }
1412 }
1413 }
1414
keembay_gpio_irq_set_type(struct irq_data * data,unsigned int type)1415 static int keembay_gpio_irq_set_type(struct irq_data *data, unsigned int type)
1416 {
1417 struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
1418 struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
1419
1420 /* Change EDGE_BOTH as EDGE_RISING in order to claim the IRQ for power button */
1421 if (!kpc->max_gpios_edge_type && (type & IRQ_TYPE_EDGE_BOTH))
1422 type = IRQ_TYPE_EDGE_RISING;
1423
1424 if (!kpc->max_gpios_level_type && (type & IRQ_TYPE_LEVEL_MASK))
1425 type = IRQ_TYPE_NONE;
1426
1427 if (type & IRQ_TYPE_EDGE_BOTH)
1428 irq_set_handler_locked(data, handle_edge_irq);
1429 else if (type & IRQ_TYPE_LEVEL_MASK)
1430 irq_set_handler_locked(data, handle_level_irq);
1431 else
1432 return -EINVAL;
1433
1434 return 0;
1435 }
1436
keembay_gpio_add_pin_ranges(struct gpio_chip * chip)1437 static int keembay_gpio_add_pin_ranges(struct gpio_chip *chip)
1438 {
1439 struct keembay_pinctrl *kpc = gpiochip_get_data(chip);
1440 int ret;
1441
1442 ret = gpiochip_add_pin_range(chip, dev_name(kpc->dev), 0, 0, chip->ngpio);
1443 if (ret)
1444 dev_err_probe(kpc->dev, ret, "failed to add GPIO pin range\n");
1445 return ret;
1446 }
1447
1448 static struct irq_chip keembay_gpio_irqchip = {
1449 .name = "keembay-gpio",
1450 .irq_enable = keembay_gpio_irq_enable,
1451 .irq_disable = keembay_gpio_irq_disable,
1452 .irq_set_type = keembay_gpio_irq_set_type,
1453 .irq_ack = keembay_gpio_irq_ack,
1454 };
1455
keembay_gpiochip_probe(struct keembay_pinctrl * kpc,struct platform_device * pdev)1456 static int keembay_gpiochip_probe(struct keembay_pinctrl *kpc,
1457 struct platform_device *pdev)
1458 {
1459 unsigned int i, level_line = 0, edge_line = 0;
1460 struct gpio_chip *gc = &kpc->chip;
1461 struct gpio_irq_chip *girq;
1462
1463 /* Setup GPIO IRQ chip */
1464 girq = &kpc->chip.irq;
1465 girq->chip = &keembay_gpio_irqchip;
1466 girq->parent_handler = keembay_gpio_irq_handler;
1467 girq->num_parents = KEEMBAY_GPIO_NUM_IRQ;
1468 girq->parents = devm_kcalloc(kpc->dev, girq->num_parents,
1469 sizeof(*girq->parents), GFP_KERNEL);
1470
1471 if (!girq->parents)
1472 return -ENOMEM;
1473
1474 /* Setup GPIO chip */
1475 gc->label = dev_name(kpc->dev);
1476 gc->parent = kpc->dev;
1477 gc->request = gpiochip_generic_request;
1478 gc->free = gpiochip_generic_free;
1479 gc->get_direction = keembay_gpio_get_direction;
1480 gc->direction_input = keembay_gpio_set_direction_in;
1481 gc->direction_output = keembay_gpio_set_direction_out;
1482 gc->get = keembay_gpio_get;
1483 gc->set = keembay_gpio_set;
1484 gc->set_config = gpiochip_generic_config;
1485 gc->base = -1;
1486 gc->ngpio = kpc->npins;
1487 gc->add_pin_ranges = keembay_gpio_add_pin_ranges;
1488
1489 for (i = 0; i < KEEMBAY_GPIO_NUM_IRQ; i++) {
1490 struct keembay_gpio_irq *kmb_irq = &kpc->irq[i];
1491 int irq;
1492
1493 irq = platform_get_irq_optional(pdev, i);
1494 if (irq <= 0)
1495 continue;
1496
1497 girq->parents[i] = irq;
1498 kmb_irq->line = girq->parents[i];
1499 kmb_irq->source = i;
1500 kmb_irq->trigger = irq_get_trigger_type(girq->parents[i]);
1501 kmb_irq->num_share = 0;
1502
1503 if (kmb_irq->trigger == IRQ_TYPE_LEVEL_HIGH)
1504 level_line++;
1505 else
1506 edge_line++;
1507 }
1508
1509 kpc->max_gpios_level_type = level_line * KEEMBAY_GPIO_MAX_PER_IRQ;
1510 kpc->max_gpios_edge_type = edge_line * KEEMBAY_GPIO_MAX_PER_IRQ;
1511
1512 girq->default_type = IRQ_TYPE_NONE;
1513 girq->handler = handle_bad_irq;
1514
1515 return devm_gpiochip_add_data(kpc->dev, gc, kpc);
1516 }
1517
keembay_build_groups(struct keembay_pinctrl * kpc)1518 static int keembay_build_groups(struct keembay_pinctrl *kpc)
1519 {
1520 struct group_desc *grp;
1521 unsigned int i;
1522
1523 kpc->ngroups = kpc->npins;
1524 grp = devm_kcalloc(kpc->dev, kpc->ngroups, sizeof(*grp), GFP_KERNEL);
1525 if (!grp)
1526 return -ENOMEM;
1527
1528 /* Each pin is categorised as one group */
1529 for (i = 0; i < kpc->ngroups; i++) {
1530 const struct pinctrl_pin_desc *pdesc = keembay_pins + i;
1531 struct group_desc *kmb_grp = grp + i;
1532
1533 kmb_grp->name = pdesc->name;
1534 kmb_grp->pins = (int *)&pdesc->number;
1535 pinctrl_generic_add_group(kpc->pctrl, kmb_grp->name,
1536 kmb_grp->pins, 1, NULL);
1537 }
1538
1539 return 0;
1540 }
1541
keembay_pinctrl_reg(struct keembay_pinctrl * kpc,struct device * dev)1542 static int keembay_pinctrl_reg(struct keembay_pinctrl *kpc, struct device *dev)
1543 {
1544 int ret;
1545
1546 keembay_pinctrl_desc.pins = keembay_pins;
1547 ret = of_property_read_u32(dev->of_node, "ngpios", &kpc->npins);
1548 if (ret < 0)
1549 return ret;
1550 keembay_pinctrl_desc.npins = kpc->npins;
1551
1552 kpc->pctrl = devm_pinctrl_register(kpc->dev, &keembay_pinctrl_desc, kpc);
1553
1554 return PTR_ERR_OR_ZERO(kpc->pctrl);
1555 }
1556
keembay_add_functions(struct keembay_pinctrl * kpc,struct function_desc * functions)1557 static int keembay_add_functions(struct keembay_pinctrl *kpc,
1558 struct function_desc *functions)
1559 {
1560 unsigned int i;
1561
1562 /* Assign the groups for each function */
1563 for (i = 0; i < kpc->nfuncs; i++) {
1564 struct function_desc *func = &functions[i];
1565 const char **group_names;
1566 unsigned int grp_idx = 0;
1567 int j;
1568
1569 group_names = devm_kcalloc(kpc->dev, func->num_group_names,
1570 sizeof(*group_names), GFP_KERNEL);
1571 if (!group_names)
1572 return -ENOMEM;
1573
1574 for (j = 0; j < kpc->npins; j++) {
1575 const struct pinctrl_pin_desc *pdesc = &keembay_pins[j];
1576 struct keembay_mux_desc *mux;
1577
1578 for (mux = pdesc->drv_data; mux->name; mux++) {
1579 if (!strcmp(mux->name, func->name))
1580 group_names[grp_idx++] = pdesc->name;
1581 }
1582 }
1583
1584 func->group_names = group_names;
1585 }
1586
1587 /* Add all functions */
1588 for (i = 0; i < kpc->nfuncs; i++) {
1589 pinmux_generic_add_function(kpc->pctrl,
1590 functions[i].name,
1591 functions[i].group_names,
1592 functions[i].num_group_names,
1593 functions[i].data);
1594 }
1595
1596 return 0;
1597 }
1598
keembay_build_functions(struct keembay_pinctrl * kpc)1599 static int keembay_build_functions(struct keembay_pinctrl *kpc)
1600 {
1601 struct function_desc *keembay_funcs, *new_funcs;
1602 int i;
1603
1604 /*
1605 * Allocate maximum possible number of functions. Assume every pin
1606 * being part of 8 (hw maximum) globally unique muxes.
1607 */
1608 kpc->nfuncs = 0;
1609 keembay_funcs = kcalloc(kpc->npins * 8, sizeof(*keembay_funcs), GFP_KERNEL);
1610 if (!keembay_funcs)
1611 return -ENOMEM;
1612
1613 /* Setup 1 function for each unique mux */
1614 for (i = 0; i < kpc->npins; i++) {
1615 const struct pinctrl_pin_desc *pdesc = keembay_pins + i;
1616 struct keembay_mux_desc *mux;
1617
1618 for (mux = pdesc->drv_data; mux->name; mux++) {
1619 struct function_desc *fdesc;
1620
1621 /* Check if we already have function for this mux */
1622 for (fdesc = keembay_funcs; fdesc->name; fdesc++) {
1623 if (!strcmp(mux->name, fdesc->name)) {
1624 fdesc->num_group_names++;
1625 break;
1626 }
1627 }
1628
1629 /* Setup new function for this mux we didn't see before */
1630 if (!fdesc->name) {
1631 fdesc->name = mux->name;
1632 fdesc->num_group_names = 1;
1633 fdesc->data = &mux->mode;
1634 kpc->nfuncs++;
1635 }
1636 }
1637 }
1638
1639 /* Reallocate memory based on actual number of functions */
1640 new_funcs = krealloc(keembay_funcs, kpc->nfuncs * sizeof(*new_funcs), GFP_KERNEL);
1641 if (!new_funcs) {
1642 kfree(keembay_funcs);
1643 return -ENOMEM;
1644 }
1645
1646 return keembay_add_functions(kpc, new_funcs);
1647 }
1648
1649 static const struct keembay_pin_soc keembay_data = {
1650 .pins = keembay_pins,
1651 };
1652
1653 static const struct of_device_id keembay_pinctrl_match[] = {
1654 { .compatible = "intel,keembay-pinctrl", .data = &keembay_data },
1655 { }
1656 };
1657 MODULE_DEVICE_TABLE(of, keembay_pinctrl_match);
1658
keembay_pinctrl_probe(struct platform_device * pdev)1659 static int keembay_pinctrl_probe(struct platform_device *pdev)
1660 {
1661 struct device *dev = &pdev->dev;
1662 struct keembay_pinctrl *kpc;
1663 int ret;
1664
1665 kpc = devm_kzalloc(dev, sizeof(*kpc), GFP_KERNEL);
1666 if (!kpc)
1667 return -ENOMEM;
1668
1669 kpc->dev = dev;
1670 kpc->soc = device_get_match_data(dev);
1671
1672 kpc->base0 = devm_platform_ioremap_resource(pdev, 0);
1673 if (IS_ERR(kpc->base0))
1674 return PTR_ERR(kpc->base0);
1675
1676 kpc->base1 = devm_platform_ioremap_resource(pdev, 1);
1677 if (IS_ERR(kpc->base1))
1678 return PTR_ERR(kpc->base1);
1679
1680 raw_spin_lock_init(&kpc->lock);
1681
1682 ret = keembay_pinctrl_reg(kpc, dev);
1683 if (ret)
1684 return ret;
1685
1686 ret = keembay_build_groups(kpc);
1687 if (ret)
1688 return ret;
1689
1690 ret = keembay_build_functions(kpc);
1691 if (ret)
1692 return ret;
1693
1694 ret = keembay_gpiochip_probe(kpc, pdev);
1695 if (ret)
1696 return ret;
1697
1698 platform_set_drvdata(pdev, kpc);
1699
1700 return 0;
1701 }
1702
1703 static struct platform_driver keembay_pinctrl_driver = {
1704 .probe = keembay_pinctrl_probe,
1705 .driver = {
1706 .name = "keembay-pinctrl",
1707 .of_match_table = keembay_pinctrl_match,
1708 },
1709 };
1710 module_platform_driver(keembay_pinctrl_driver);
1711
1712 MODULE_AUTHOR("Muhammad Husaini Zulkifli <muhammad.husaini.zulkifli@intel.com>");
1713 MODULE_AUTHOR("Vijayakannan Ayyathurai <vijayakannan.ayyathurai@intel.com>");
1714 MODULE_AUTHOR("Lakshmi Sowjanya D <lakshmi.sowjanya.d@intel.com>");
1715 MODULE_DESCRIPTION("Intel Keem Bay SoC pinctrl/GPIO driver");
1716 MODULE_LICENSE("GPL");
1717