pinctrl-lochnagar.c 37 KB

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  1. // SPDX-License-Identifier: GPL-2.0
  2. /*
  3. * Lochnagar pin and GPIO control
  4. *
  5. * Copyright (c) 2017-2018 Cirrus Logic, Inc. and
  6. * Cirrus Logic International Semiconductor Ltd.
  7. *
  8. * Author: Charles Keepax <ckeepax@opensource.cirrus.com>
  9. */
  10. #include <linux/err.h>
  11. #include <linux/errno.h>
  12. #include <linux/gpio/driver.h>
  13. #include <linux/module.h>
  14. #include <linux/of.h>
  15. #include <linux/platform_device.h>
  16. #include <linux/regmap.h>
  17. #include <linux/string_choices.h>
  18. #include <linux/pinctrl/consumer.h>
  19. #include <linux/pinctrl/pinconf-generic.h>
  20. #include <linux/pinctrl/pinconf.h>
  21. #include <linux/pinctrl/pinctrl.h>
  22. #include <linux/pinctrl/pinmux.h>
  23. #include <linux/mfd/lochnagar.h>
  24. #include <linux/mfd/lochnagar1_regs.h>
  25. #include <linux/mfd/lochnagar2_regs.h>
  26. #include <dt-bindings/pinctrl/lochnagar.h>
  27. #include "../pinctrl-utils.h"
  28. #define LN2_NUM_GPIO_CHANNELS 16
  29. #define LN_CDC_AIF1_STR "codec-aif1"
  30. #define LN_CDC_AIF2_STR "codec-aif2"
  31. #define LN_CDC_AIF3_STR "codec-aif3"
  32. #define LN_DSP_AIF1_STR "dsp-aif1"
  33. #define LN_DSP_AIF2_STR "dsp-aif2"
  34. #define LN_PSIA1_STR "psia1"
  35. #define LN_PSIA2_STR "psia2"
  36. #define LN_GF_AIF1_STR "gf-aif1"
  37. #define LN_GF_AIF2_STR "gf-aif2"
  38. #define LN_GF_AIF3_STR "gf-aif3"
  39. #define LN_GF_AIF4_STR "gf-aif4"
  40. #define LN_SPDIF_AIF_STR "spdif-aif"
  41. #define LN_USB_AIF1_STR "usb-aif1"
  42. #define LN_USB_AIF2_STR "usb-aif2"
  43. #define LN_ADAT_AIF_STR "adat-aif"
  44. #define LN_SOUNDCARD_AIF_STR "soundcard-aif"
  45. #define LN_PIN_GPIO(REV, ID, NAME, REG, SHIFT, INVERT) \
  46. static const struct lochnagar_pin lochnagar##REV##_##ID##_pin = { \
  47. .name = NAME, .type = LN_PTYPE_GPIO, .reg = LOCHNAGAR##REV##_##REG, \
  48. .shift = LOCHNAGAR##REV##_##SHIFT##_SHIFT, .invert = INVERT, \
  49. }
  50. #define LN_PIN_SAIF(REV, ID, NAME) \
  51. static const struct lochnagar_pin lochnagar##REV##_##ID##_pin = \
  52. { .name = NAME, .type = LN_PTYPE_AIF, }
  53. #define LN_PIN_AIF(REV, ID) \
  54. LN_PIN_SAIF(REV, ID##_BCLK, LN_##ID##_STR"-bclk"); \
  55. LN_PIN_SAIF(REV, ID##_LRCLK, LN_##ID##_STR"-lrclk"); \
  56. LN_PIN_SAIF(REV, ID##_RXDAT, LN_##ID##_STR"-rxdat"); \
  57. LN_PIN_SAIF(REV, ID##_TXDAT, LN_##ID##_STR"-txdat")
  58. #define LN1_PIN_GPIO(ID, NAME, REG, SHIFT, INVERT) \
  59. LN_PIN_GPIO(1, ID, NAME, REG, SHIFT, INVERT)
  60. #define LN1_PIN_MUX(ID, NAME) \
  61. static const struct lochnagar_pin lochnagar1_##ID##_pin = \
  62. { .name = NAME, .type = LN_PTYPE_MUX, .reg = LOCHNAGAR1_##ID, }
  63. #define LN1_PIN_AIF(ID) LN_PIN_AIF(1, ID)
  64. #define LN2_PIN_GPIO(ID, NAME, REG, SHIFT, INVERT) \
  65. LN_PIN_GPIO(2, ID, NAME, REG, SHIFT, INVERT)
  66. #define LN2_PIN_MUX(ID, NAME) \
  67. static const struct lochnagar_pin lochnagar2_##ID##_pin = \
  68. { .name = NAME, .type = LN_PTYPE_MUX, .reg = LOCHNAGAR2_GPIO_##ID, }
  69. #define LN2_PIN_AIF(ID) LN_PIN_AIF(2, ID)
  70. #define LN2_PIN_GAI(ID) \
  71. LN2_PIN_MUX(ID##_BCLK, LN_##ID##_STR"-bclk"); \
  72. LN2_PIN_MUX(ID##_LRCLK, LN_##ID##_STR"-lrclk"); \
  73. LN2_PIN_MUX(ID##_RXDAT, LN_##ID##_STR"-rxdat"); \
  74. LN2_PIN_MUX(ID##_TXDAT, LN_##ID##_STR"-txdat")
  75. #define LN_PIN(REV, ID) [LOCHNAGAR##REV##_PIN_##ID] = { \
  76. .number = LOCHNAGAR##REV##_PIN_##ID, \
  77. .name = lochnagar##REV##_##ID##_pin.name, \
  78. .drv_data = (void *)&lochnagar##REV##_##ID##_pin, \
  79. }
  80. #define LN1_PIN(ID) LN_PIN(1, ID)
  81. #define LN2_PIN(ID) LN_PIN(2, ID)
  82. #define LN_PINS(REV, ID) \
  83. LN_PIN(REV, ID##_BCLK), LN_PIN(REV, ID##_LRCLK), \
  84. LN_PIN(REV, ID##_RXDAT), LN_PIN(REV, ID##_TXDAT)
  85. #define LN1_PINS(ID) LN_PINS(1, ID)
  86. #define LN2_PINS(ID) LN_PINS(2, ID)
  87. enum {
  88. LOCHNAGAR1_PIN_GF_GPIO2 = LOCHNAGAR1_PIN_NUM_GPIOS,
  89. LOCHNAGAR1_PIN_GF_GPIO3,
  90. LOCHNAGAR1_PIN_GF_GPIO7,
  91. LOCHNAGAR1_PIN_LED1,
  92. LOCHNAGAR1_PIN_LED2,
  93. LOCHNAGAR1_PIN_CDC_AIF1_BCLK,
  94. LOCHNAGAR1_PIN_CDC_AIF1_LRCLK,
  95. LOCHNAGAR1_PIN_CDC_AIF1_RXDAT,
  96. LOCHNAGAR1_PIN_CDC_AIF1_TXDAT,
  97. LOCHNAGAR1_PIN_CDC_AIF2_BCLK,
  98. LOCHNAGAR1_PIN_CDC_AIF2_LRCLK,
  99. LOCHNAGAR1_PIN_CDC_AIF2_RXDAT,
  100. LOCHNAGAR1_PIN_CDC_AIF2_TXDAT,
  101. LOCHNAGAR1_PIN_CDC_AIF3_BCLK,
  102. LOCHNAGAR1_PIN_CDC_AIF3_LRCLK,
  103. LOCHNAGAR1_PIN_CDC_AIF3_RXDAT,
  104. LOCHNAGAR1_PIN_CDC_AIF3_TXDAT,
  105. LOCHNAGAR1_PIN_DSP_AIF1_BCLK,
  106. LOCHNAGAR1_PIN_DSP_AIF1_LRCLK,
  107. LOCHNAGAR1_PIN_DSP_AIF1_RXDAT,
  108. LOCHNAGAR1_PIN_DSP_AIF1_TXDAT,
  109. LOCHNAGAR1_PIN_DSP_AIF2_BCLK,
  110. LOCHNAGAR1_PIN_DSP_AIF2_LRCLK,
  111. LOCHNAGAR1_PIN_DSP_AIF2_RXDAT,
  112. LOCHNAGAR1_PIN_DSP_AIF2_TXDAT,
  113. LOCHNAGAR1_PIN_PSIA1_BCLK,
  114. LOCHNAGAR1_PIN_PSIA1_LRCLK,
  115. LOCHNAGAR1_PIN_PSIA1_RXDAT,
  116. LOCHNAGAR1_PIN_PSIA1_TXDAT,
  117. LOCHNAGAR1_PIN_PSIA2_BCLK,
  118. LOCHNAGAR1_PIN_PSIA2_LRCLK,
  119. LOCHNAGAR1_PIN_PSIA2_RXDAT,
  120. LOCHNAGAR1_PIN_PSIA2_TXDAT,
  121. LOCHNAGAR1_PIN_SPDIF_AIF_BCLK,
  122. LOCHNAGAR1_PIN_SPDIF_AIF_LRCLK,
  123. LOCHNAGAR1_PIN_SPDIF_AIF_RXDAT,
  124. LOCHNAGAR1_PIN_SPDIF_AIF_TXDAT,
  125. LOCHNAGAR1_PIN_GF_AIF3_BCLK,
  126. LOCHNAGAR1_PIN_GF_AIF3_RXDAT,
  127. LOCHNAGAR1_PIN_GF_AIF3_LRCLK,
  128. LOCHNAGAR1_PIN_GF_AIF3_TXDAT,
  129. LOCHNAGAR1_PIN_GF_AIF4_BCLK,
  130. LOCHNAGAR1_PIN_GF_AIF4_RXDAT,
  131. LOCHNAGAR1_PIN_GF_AIF4_LRCLK,
  132. LOCHNAGAR1_PIN_GF_AIF4_TXDAT,
  133. LOCHNAGAR1_PIN_GF_AIF1_BCLK,
  134. LOCHNAGAR1_PIN_GF_AIF1_RXDAT,
  135. LOCHNAGAR1_PIN_GF_AIF1_LRCLK,
  136. LOCHNAGAR1_PIN_GF_AIF1_TXDAT,
  137. LOCHNAGAR1_PIN_GF_AIF2_BCLK,
  138. LOCHNAGAR1_PIN_GF_AIF2_RXDAT,
  139. LOCHNAGAR1_PIN_GF_AIF2_LRCLK,
  140. LOCHNAGAR1_PIN_GF_AIF2_TXDAT,
  141. LOCHNAGAR2_PIN_SPDIF_AIF_BCLK = LOCHNAGAR2_PIN_NUM_GPIOS,
  142. LOCHNAGAR2_PIN_SPDIF_AIF_LRCLK,
  143. LOCHNAGAR2_PIN_SPDIF_AIF_RXDAT,
  144. LOCHNAGAR2_PIN_SPDIF_AIF_TXDAT,
  145. LOCHNAGAR2_PIN_USB_AIF1_BCLK,
  146. LOCHNAGAR2_PIN_USB_AIF1_LRCLK,
  147. LOCHNAGAR2_PIN_USB_AIF1_RXDAT,
  148. LOCHNAGAR2_PIN_USB_AIF1_TXDAT,
  149. LOCHNAGAR2_PIN_USB_AIF2_BCLK,
  150. LOCHNAGAR2_PIN_USB_AIF2_LRCLK,
  151. LOCHNAGAR2_PIN_USB_AIF2_RXDAT,
  152. LOCHNAGAR2_PIN_USB_AIF2_TXDAT,
  153. LOCHNAGAR2_PIN_ADAT_AIF_BCLK,
  154. LOCHNAGAR2_PIN_ADAT_AIF_LRCLK,
  155. LOCHNAGAR2_PIN_ADAT_AIF_RXDAT,
  156. LOCHNAGAR2_PIN_ADAT_AIF_TXDAT,
  157. LOCHNAGAR2_PIN_SOUNDCARD_AIF_BCLK,
  158. LOCHNAGAR2_PIN_SOUNDCARD_AIF_LRCLK,
  159. LOCHNAGAR2_PIN_SOUNDCARD_AIF_RXDAT,
  160. LOCHNAGAR2_PIN_SOUNDCARD_AIF_TXDAT,
  161. };
  162. enum lochnagar_pin_type {
  163. LN_PTYPE_GPIO,
  164. LN_PTYPE_MUX,
  165. LN_PTYPE_AIF,
  166. LN_PTYPE_COUNT,
  167. };
  168. struct lochnagar_pin {
  169. const char name[20];
  170. enum lochnagar_pin_type type;
  171. unsigned int reg;
  172. int shift;
  173. bool invert;
  174. };
  175. LN1_PIN_GPIO(CDC_RESET, "codec-reset", RST, CDC_RESET, 1);
  176. LN1_PIN_GPIO(DSP_RESET, "dsp-reset", RST, DSP_RESET, 1);
  177. LN1_PIN_GPIO(CDC_CIF1MODE, "codec-cif1mode", I2C_CTRL, CDC_CIF_MODE, 0);
  178. LN1_PIN_MUX(GF_GPIO2, "gf-gpio2");
  179. LN1_PIN_MUX(GF_GPIO3, "gf-gpio3");
  180. LN1_PIN_MUX(GF_GPIO7, "gf-gpio7");
  181. LN1_PIN_MUX(LED1, "led1");
  182. LN1_PIN_MUX(LED2, "led2");
  183. LN1_PIN_AIF(CDC_AIF1);
  184. LN1_PIN_AIF(CDC_AIF2);
  185. LN1_PIN_AIF(CDC_AIF3);
  186. LN1_PIN_AIF(DSP_AIF1);
  187. LN1_PIN_AIF(DSP_AIF2);
  188. LN1_PIN_AIF(PSIA1);
  189. LN1_PIN_AIF(PSIA2);
  190. LN1_PIN_AIF(SPDIF_AIF);
  191. LN1_PIN_AIF(GF_AIF1);
  192. LN1_PIN_AIF(GF_AIF2);
  193. LN1_PIN_AIF(GF_AIF3);
  194. LN1_PIN_AIF(GF_AIF4);
  195. LN2_PIN_GPIO(CDC_RESET, "codec-reset", MINICARD_RESETS, CDC_RESET, 1);
  196. LN2_PIN_GPIO(DSP_RESET, "dsp-reset", MINICARD_RESETS, DSP_RESET, 1);
  197. LN2_PIN_GPIO(CDC_CIF1MODE, "codec-cif1mode", COMMS_CTRL4, CDC_CIF1MODE, 0);
  198. LN2_PIN_GPIO(CDC_LDOENA, "codec-ldoena", POWER_CTRL, PWR_ENA, 0);
  199. LN2_PIN_GPIO(SPDIF_HWMODE, "spdif-hwmode", SPDIF_CTRL, SPDIF_HWMODE, 0);
  200. LN2_PIN_GPIO(SPDIF_RESET, "spdif-reset", SPDIF_CTRL, SPDIF_RESET, 1);
  201. LN2_PIN_MUX(FPGA_GPIO1, "fpga-gpio1");
  202. LN2_PIN_MUX(FPGA_GPIO2, "fpga-gpio2");
  203. LN2_PIN_MUX(FPGA_GPIO3, "fpga-gpio3");
  204. LN2_PIN_MUX(FPGA_GPIO4, "fpga-gpio4");
  205. LN2_PIN_MUX(FPGA_GPIO5, "fpga-gpio5");
  206. LN2_PIN_MUX(FPGA_GPIO6, "fpga-gpio6");
  207. LN2_PIN_MUX(CDC_GPIO1, "codec-gpio1");
  208. LN2_PIN_MUX(CDC_GPIO2, "codec-gpio2");
  209. LN2_PIN_MUX(CDC_GPIO3, "codec-gpio3");
  210. LN2_PIN_MUX(CDC_GPIO4, "codec-gpio4");
  211. LN2_PIN_MUX(CDC_GPIO5, "codec-gpio5");
  212. LN2_PIN_MUX(CDC_GPIO6, "codec-gpio6");
  213. LN2_PIN_MUX(CDC_GPIO7, "codec-gpio7");
  214. LN2_PIN_MUX(CDC_GPIO8, "codec-gpio8");
  215. LN2_PIN_MUX(DSP_GPIO1, "dsp-gpio1");
  216. LN2_PIN_MUX(DSP_GPIO2, "dsp-gpio2");
  217. LN2_PIN_MUX(DSP_GPIO3, "dsp-gpio3");
  218. LN2_PIN_MUX(DSP_GPIO4, "dsp-gpio4");
  219. LN2_PIN_MUX(DSP_GPIO5, "dsp-gpio5");
  220. LN2_PIN_MUX(DSP_GPIO6, "dsp-gpio6");
  221. LN2_PIN_MUX(GF_GPIO2, "gf-gpio2");
  222. LN2_PIN_MUX(GF_GPIO3, "gf-gpio3");
  223. LN2_PIN_MUX(GF_GPIO7, "gf-gpio7");
  224. LN2_PIN_MUX(DSP_UART1_RX, "dsp-uart1-rx");
  225. LN2_PIN_MUX(DSP_UART1_TX, "dsp-uart1-tx");
  226. LN2_PIN_MUX(DSP_UART2_RX, "dsp-uart2-rx");
  227. LN2_PIN_MUX(DSP_UART2_TX, "dsp-uart2-tx");
  228. LN2_PIN_MUX(GF_UART2_RX, "gf-uart2-rx");
  229. LN2_PIN_MUX(GF_UART2_TX, "gf-uart2-tx");
  230. LN2_PIN_MUX(USB_UART_RX, "usb-uart-rx");
  231. LN2_PIN_MUX(CDC_PDMCLK1, "codec-pdmclk1");
  232. LN2_PIN_MUX(CDC_PDMDAT1, "codec-pdmdat1");
  233. LN2_PIN_MUX(CDC_PDMCLK2, "codec-pdmclk2");
  234. LN2_PIN_MUX(CDC_PDMDAT2, "codec-pdmdat2");
  235. LN2_PIN_MUX(CDC_DMICCLK1, "codec-dmicclk1");
  236. LN2_PIN_MUX(CDC_DMICDAT1, "codec-dmicdat1");
  237. LN2_PIN_MUX(CDC_DMICCLK2, "codec-dmicclk2");
  238. LN2_PIN_MUX(CDC_DMICDAT2, "codec-dmicdat2");
  239. LN2_PIN_MUX(CDC_DMICCLK3, "codec-dmicclk3");
  240. LN2_PIN_MUX(CDC_DMICDAT3, "codec-dmicdat3");
  241. LN2_PIN_MUX(CDC_DMICCLK4, "codec-dmicclk4");
  242. LN2_PIN_MUX(CDC_DMICDAT4, "codec-dmicdat4");
  243. LN2_PIN_MUX(DSP_DMICCLK1, "dsp-dmicclk1");
  244. LN2_PIN_MUX(DSP_DMICDAT1, "dsp-dmicdat1");
  245. LN2_PIN_MUX(DSP_DMICCLK2, "dsp-dmicclk2");
  246. LN2_PIN_MUX(DSP_DMICDAT2, "dsp-dmicdat2");
  247. LN2_PIN_MUX(I2C2_SCL, "i2c2-scl");
  248. LN2_PIN_MUX(I2C2_SDA, "i2c2-sda");
  249. LN2_PIN_MUX(I2C3_SCL, "i2c3-scl");
  250. LN2_PIN_MUX(I2C3_SDA, "i2c3-sda");
  251. LN2_PIN_MUX(I2C4_SCL, "i2c4-scl");
  252. LN2_PIN_MUX(I2C4_SDA, "i2c4-sda");
  253. LN2_PIN_MUX(DSP_STANDBY, "dsp-standby");
  254. LN2_PIN_MUX(CDC_MCLK1, "codec-mclk1");
  255. LN2_PIN_MUX(CDC_MCLK2, "codec-mclk2");
  256. LN2_PIN_MUX(DSP_CLKIN, "dsp-clkin");
  257. LN2_PIN_MUX(PSIA1_MCLK, "psia1-mclk");
  258. LN2_PIN_MUX(PSIA2_MCLK, "psia2-mclk");
  259. LN2_PIN_MUX(GF_GPIO1, "gf-gpio1");
  260. LN2_PIN_MUX(GF_GPIO5, "gf-gpio5");
  261. LN2_PIN_MUX(DSP_GPIO20, "dsp-gpio20");
  262. LN2_PIN_GAI(CDC_AIF1);
  263. LN2_PIN_GAI(CDC_AIF2);
  264. LN2_PIN_GAI(CDC_AIF3);
  265. LN2_PIN_GAI(DSP_AIF1);
  266. LN2_PIN_GAI(DSP_AIF2);
  267. LN2_PIN_GAI(PSIA1);
  268. LN2_PIN_GAI(PSIA2);
  269. LN2_PIN_GAI(GF_AIF1);
  270. LN2_PIN_GAI(GF_AIF2);
  271. LN2_PIN_GAI(GF_AIF3);
  272. LN2_PIN_GAI(GF_AIF4);
  273. LN2_PIN_AIF(SPDIF_AIF);
  274. LN2_PIN_AIF(USB_AIF1);
  275. LN2_PIN_AIF(USB_AIF2);
  276. LN2_PIN_AIF(ADAT_AIF);
  277. LN2_PIN_AIF(SOUNDCARD_AIF);
  278. static const struct pinctrl_pin_desc lochnagar1_pins[] = {
  279. LN1_PIN(CDC_RESET), LN1_PIN(DSP_RESET), LN1_PIN(CDC_CIF1MODE),
  280. LN1_PIN(GF_GPIO2), LN1_PIN(GF_GPIO3), LN1_PIN(GF_GPIO7),
  281. LN1_PIN(LED1), LN1_PIN(LED2),
  282. LN1_PINS(CDC_AIF1), LN1_PINS(CDC_AIF2), LN1_PINS(CDC_AIF3),
  283. LN1_PINS(DSP_AIF1), LN1_PINS(DSP_AIF2),
  284. LN1_PINS(PSIA1), LN1_PINS(PSIA2),
  285. LN1_PINS(SPDIF_AIF),
  286. LN1_PINS(GF_AIF1), LN1_PINS(GF_AIF2),
  287. LN1_PINS(GF_AIF3), LN1_PINS(GF_AIF4),
  288. };
  289. static const struct pinctrl_pin_desc lochnagar2_pins[] = {
  290. LN2_PIN(CDC_RESET), LN2_PIN(DSP_RESET), LN2_PIN(CDC_CIF1MODE),
  291. LN2_PIN(CDC_LDOENA),
  292. LN2_PIN(SPDIF_HWMODE), LN2_PIN(SPDIF_RESET),
  293. LN2_PIN(FPGA_GPIO1), LN2_PIN(FPGA_GPIO2), LN2_PIN(FPGA_GPIO3),
  294. LN2_PIN(FPGA_GPIO4), LN2_PIN(FPGA_GPIO5), LN2_PIN(FPGA_GPIO6),
  295. LN2_PIN(CDC_GPIO1), LN2_PIN(CDC_GPIO2), LN2_PIN(CDC_GPIO3),
  296. LN2_PIN(CDC_GPIO4), LN2_PIN(CDC_GPIO5), LN2_PIN(CDC_GPIO6),
  297. LN2_PIN(CDC_GPIO7), LN2_PIN(CDC_GPIO8),
  298. LN2_PIN(DSP_GPIO1), LN2_PIN(DSP_GPIO2), LN2_PIN(DSP_GPIO3),
  299. LN2_PIN(DSP_GPIO4), LN2_PIN(DSP_GPIO5), LN2_PIN(DSP_GPIO6),
  300. LN2_PIN(DSP_GPIO20),
  301. LN2_PIN(GF_GPIO1), LN2_PIN(GF_GPIO2), LN2_PIN(GF_GPIO3),
  302. LN2_PIN(GF_GPIO5), LN2_PIN(GF_GPIO7),
  303. LN2_PINS(CDC_AIF1), LN2_PINS(CDC_AIF2), LN2_PINS(CDC_AIF3),
  304. LN2_PINS(DSP_AIF1), LN2_PINS(DSP_AIF2),
  305. LN2_PINS(PSIA1), LN2_PINS(PSIA2),
  306. LN2_PINS(GF_AIF1), LN2_PINS(GF_AIF2),
  307. LN2_PINS(GF_AIF3), LN2_PINS(GF_AIF4),
  308. LN2_PIN(DSP_UART1_RX), LN2_PIN(DSP_UART1_TX),
  309. LN2_PIN(DSP_UART2_RX), LN2_PIN(DSP_UART2_TX),
  310. LN2_PIN(GF_UART2_RX), LN2_PIN(GF_UART2_TX),
  311. LN2_PIN(USB_UART_RX),
  312. LN2_PIN(CDC_PDMCLK1), LN2_PIN(CDC_PDMDAT1),
  313. LN2_PIN(CDC_PDMCLK2), LN2_PIN(CDC_PDMDAT2),
  314. LN2_PIN(CDC_DMICCLK1), LN2_PIN(CDC_DMICDAT1),
  315. LN2_PIN(CDC_DMICCLK2), LN2_PIN(CDC_DMICDAT2),
  316. LN2_PIN(CDC_DMICCLK3), LN2_PIN(CDC_DMICDAT3),
  317. LN2_PIN(CDC_DMICCLK4), LN2_PIN(CDC_DMICDAT4),
  318. LN2_PIN(DSP_DMICCLK1), LN2_PIN(DSP_DMICDAT1),
  319. LN2_PIN(DSP_DMICCLK2), LN2_PIN(DSP_DMICDAT2),
  320. LN2_PIN(I2C2_SCL), LN2_PIN(I2C2_SDA),
  321. LN2_PIN(I2C3_SCL), LN2_PIN(I2C3_SDA),
  322. LN2_PIN(I2C4_SCL), LN2_PIN(I2C4_SDA),
  323. LN2_PIN(DSP_STANDBY),
  324. LN2_PIN(CDC_MCLK1), LN2_PIN(CDC_MCLK2),
  325. LN2_PIN(DSP_CLKIN),
  326. LN2_PIN(PSIA1_MCLK), LN2_PIN(PSIA2_MCLK),
  327. LN2_PINS(SPDIF_AIF),
  328. LN2_PINS(USB_AIF1), LN2_PINS(USB_AIF2),
  329. LN2_PINS(ADAT_AIF),
  330. LN2_PINS(SOUNDCARD_AIF),
  331. };
  332. #define LN_AIF_PINS(REV, ID) \
  333. LOCHNAGAR##REV##_PIN_##ID##_BCLK, \
  334. LOCHNAGAR##REV##_PIN_##ID##_LRCLK, \
  335. LOCHNAGAR##REV##_PIN_##ID##_TXDAT, \
  336. LOCHNAGAR##REV##_PIN_##ID##_RXDAT,
  337. #define LN1_AIF(ID, CTRL) \
  338. static const struct lochnagar_aif lochnagar1_##ID##_aif = { \
  339. .name = LN_##ID##_STR, \
  340. .pins = { LN_AIF_PINS(1, ID) }, \
  341. .src_reg = LOCHNAGAR1_##ID##_SEL, \
  342. .src_mask = LOCHNAGAR1_SRC_MASK, \
  343. .ctrl_reg = LOCHNAGAR1_##CTRL, \
  344. .ena_mask = LOCHNAGAR1_##ID##_ENA_MASK, \
  345. .master_mask = LOCHNAGAR1_##ID##_LRCLK_DIR_MASK | \
  346. LOCHNAGAR1_##ID##_BCLK_DIR_MASK, \
  347. }
  348. #define LN2_AIF(ID) \
  349. static const struct lochnagar_aif lochnagar2_##ID##_aif = { \
  350. .name = LN_##ID##_STR, \
  351. .pins = { LN_AIF_PINS(2, ID) }, \
  352. .src_reg = LOCHNAGAR2_##ID##_CTRL, \
  353. .src_mask = LOCHNAGAR2_AIF_SRC_MASK, \
  354. .ctrl_reg = LOCHNAGAR2_##ID##_CTRL, \
  355. .ena_mask = LOCHNAGAR2_AIF_ENA_MASK, \
  356. .master_mask = LOCHNAGAR2_AIF_LRCLK_DIR_MASK | \
  357. LOCHNAGAR2_AIF_BCLK_DIR_MASK, \
  358. }
  359. struct lochnagar_aif {
  360. const char name[16];
  361. unsigned int pins[4];
  362. u16 src_reg;
  363. u16 src_mask;
  364. u16 ctrl_reg;
  365. u16 ena_mask;
  366. u16 master_mask;
  367. };
  368. LN1_AIF(CDC_AIF1, CDC_AIF_CTRL1);
  369. LN1_AIF(CDC_AIF2, CDC_AIF_CTRL1);
  370. LN1_AIF(CDC_AIF3, CDC_AIF_CTRL2);
  371. LN1_AIF(DSP_AIF1, DSP_AIF);
  372. LN1_AIF(DSP_AIF2, DSP_AIF);
  373. LN1_AIF(PSIA1, PSIA_AIF);
  374. LN1_AIF(PSIA2, PSIA_AIF);
  375. LN1_AIF(GF_AIF1, GF_AIF1);
  376. LN1_AIF(GF_AIF2, GF_AIF2);
  377. LN1_AIF(GF_AIF3, GF_AIF1);
  378. LN1_AIF(GF_AIF4, GF_AIF2);
  379. LN1_AIF(SPDIF_AIF, EXT_AIF_CTRL);
  380. LN2_AIF(CDC_AIF1);
  381. LN2_AIF(CDC_AIF2);
  382. LN2_AIF(CDC_AIF3);
  383. LN2_AIF(DSP_AIF1);
  384. LN2_AIF(DSP_AIF2);
  385. LN2_AIF(PSIA1);
  386. LN2_AIF(PSIA2);
  387. LN2_AIF(GF_AIF1);
  388. LN2_AIF(GF_AIF2);
  389. LN2_AIF(GF_AIF3);
  390. LN2_AIF(GF_AIF4);
  391. LN2_AIF(SPDIF_AIF);
  392. LN2_AIF(USB_AIF1);
  393. LN2_AIF(USB_AIF2);
  394. LN2_AIF(ADAT_AIF);
  395. LN2_AIF(SOUNDCARD_AIF);
  396. #define LN2_OP_AIF 0x00
  397. #define LN2_OP_GPIO 0xFE
  398. #define LN_FUNC(NAME, TYPE, OP) \
  399. { .name = NAME, .type = LN_FTYPE_##TYPE, .op = OP }
  400. #define LN_FUNC_PIN(REV, ID, OP) \
  401. LN_FUNC(lochnagar##REV##_##ID##_pin.name, PIN, OP)
  402. #define LN1_FUNC_PIN(ID, OP) LN_FUNC_PIN(1, ID, OP)
  403. #define LN2_FUNC_PIN(ID, OP) LN_FUNC_PIN(2, ID, OP)
  404. #define LN_FUNC_AIF(REV, ID, OP) \
  405. LN_FUNC(lochnagar##REV##_##ID##_aif.name, AIF, OP)
  406. #define LN1_FUNC_AIF(ID, OP) LN_FUNC_AIF(1, ID, OP)
  407. #define LN2_FUNC_AIF(ID, OP) LN_FUNC_AIF(2, ID, OP)
  408. #define LN2_FUNC_GAI(ID, OP, BOP, LROP, RXOP, TXOP) \
  409. LN2_FUNC_AIF(ID, OP), \
  410. LN_FUNC(lochnagar2_##ID##_BCLK_pin.name, PIN, BOP), \
  411. LN_FUNC(lochnagar2_##ID##_LRCLK_pin.name, PIN, LROP), \
  412. LN_FUNC(lochnagar2_##ID##_RXDAT_pin.name, PIN, RXOP), \
  413. LN_FUNC(lochnagar2_##ID##_TXDAT_pin.name, PIN, TXOP)
  414. enum lochnagar_func_type {
  415. LN_FTYPE_PIN,
  416. LN_FTYPE_AIF,
  417. LN_FTYPE_COUNT,
  418. };
  419. struct lochnagar_func {
  420. const char * const name;
  421. enum lochnagar_func_type type;
  422. u8 op;
  423. };
  424. static const struct lochnagar_func lochnagar1_funcs[] = {
  425. LN_FUNC("dsp-gpio1", PIN, 0x01),
  426. LN_FUNC("dsp-gpio2", PIN, 0x02),
  427. LN_FUNC("dsp-gpio3", PIN, 0x03),
  428. LN_FUNC("codec-gpio1", PIN, 0x04),
  429. LN_FUNC("codec-gpio2", PIN, 0x05),
  430. LN_FUNC("codec-gpio3", PIN, 0x06),
  431. LN_FUNC("codec-gpio4", PIN, 0x07),
  432. LN_FUNC("codec-gpio5", PIN, 0x08),
  433. LN_FUNC("codec-gpio6", PIN, 0x09),
  434. LN_FUNC("codec-gpio7", PIN, 0x0A),
  435. LN_FUNC("codec-gpio8", PIN, 0x0B),
  436. LN1_FUNC_PIN(GF_GPIO2, 0x0C),
  437. LN1_FUNC_PIN(GF_GPIO3, 0x0D),
  438. LN1_FUNC_PIN(GF_GPIO7, 0x0E),
  439. LN1_FUNC_AIF(SPDIF_AIF, 0x01),
  440. LN1_FUNC_AIF(PSIA1, 0x02),
  441. LN1_FUNC_AIF(PSIA2, 0x03),
  442. LN1_FUNC_AIF(CDC_AIF1, 0x04),
  443. LN1_FUNC_AIF(CDC_AIF2, 0x05),
  444. LN1_FUNC_AIF(CDC_AIF3, 0x06),
  445. LN1_FUNC_AIF(DSP_AIF1, 0x07),
  446. LN1_FUNC_AIF(DSP_AIF2, 0x08),
  447. LN1_FUNC_AIF(GF_AIF3, 0x09),
  448. LN1_FUNC_AIF(GF_AIF4, 0x0A),
  449. LN1_FUNC_AIF(GF_AIF1, 0x0B),
  450. LN1_FUNC_AIF(GF_AIF2, 0x0C),
  451. };
  452. static const struct lochnagar_func lochnagar2_funcs[] = {
  453. LN_FUNC("aif", PIN, LN2_OP_AIF),
  454. LN2_FUNC_PIN(FPGA_GPIO1, 0x01),
  455. LN2_FUNC_PIN(FPGA_GPIO2, 0x02),
  456. LN2_FUNC_PIN(FPGA_GPIO3, 0x03),
  457. LN2_FUNC_PIN(FPGA_GPIO4, 0x04),
  458. LN2_FUNC_PIN(FPGA_GPIO5, 0x05),
  459. LN2_FUNC_PIN(FPGA_GPIO6, 0x06),
  460. LN2_FUNC_PIN(CDC_GPIO1, 0x07),
  461. LN2_FUNC_PIN(CDC_GPIO2, 0x08),
  462. LN2_FUNC_PIN(CDC_GPIO3, 0x09),
  463. LN2_FUNC_PIN(CDC_GPIO4, 0x0A),
  464. LN2_FUNC_PIN(CDC_GPIO5, 0x0B),
  465. LN2_FUNC_PIN(CDC_GPIO6, 0x0C),
  466. LN2_FUNC_PIN(CDC_GPIO7, 0x0D),
  467. LN2_FUNC_PIN(CDC_GPIO8, 0x0E),
  468. LN2_FUNC_PIN(DSP_GPIO1, 0x0F),
  469. LN2_FUNC_PIN(DSP_GPIO2, 0x10),
  470. LN2_FUNC_PIN(DSP_GPIO3, 0x11),
  471. LN2_FUNC_PIN(DSP_GPIO4, 0x12),
  472. LN2_FUNC_PIN(DSP_GPIO5, 0x13),
  473. LN2_FUNC_PIN(DSP_GPIO6, 0x14),
  474. LN2_FUNC_PIN(GF_GPIO2, 0x15),
  475. LN2_FUNC_PIN(GF_GPIO3, 0x16),
  476. LN2_FUNC_PIN(GF_GPIO7, 0x17),
  477. LN2_FUNC_PIN(GF_GPIO1, 0x18),
  478. LN2_FUNC_PIN(GF_GPIO5, 0x19),
  479. LN2_FUNC_PIN(DSP_GPIO20, 0x1A),
  480. LN_FUNC("codec-clkout", PIN, 0x20),
  481. LN_FUNC("dsp-clkout", PIN, 0x21),
  482. LN_FUNC("pmic-32k", PIN, 0x22),
  483. LN_FUNC("spdif-clkout", PIN, 0x23),
  484. LN_FUNC("clk-12m288", PIN, 0x24),
  485. LN_FUNC("clk-11m2986", PIN, 0x25),
  486. LN_FUNC("clk-24m576", PIN, 0x26),
  487. LN_FUNC("clk-22m5792", PIN, 0x27),
  488. LN_FUNC("xmos-mclk", PIN, 0x29),
  489. LN_FUNC("gf-clkout1", PIN, 0x2A),
  490. LN_FUNC("gf-mclk1", PIN, 0x2B),
  491. LN_FUNC("gf-mclk3", PIN, 0x2C),
  492. LN_FUNC("gf-mclk2", PIN, 0x2D),
  493. LN_FUNC("gf-clkout2", PIN, 0x2E),
  494. LN2_FUNC_PIN(CDC_MCLK1, 0x2F),
  495. LN2_FUNC_PIN(CDC_MCLK2, 0x30),
  496. LN2_FUNC_PIN(DSP_CLKIN, 0x31),
  497. LN2_FUNC_PIN(PSIA1_MCLK, 0x32),
  498. LN2_FUNC_PIN(PSIA2_MCLK, 0x33),
  499. LN_FUNC("spdif-mclk", PIN, 0x34),
  500. LN_FUNC("codec-irq", PIN, 0x42),
  501. LN2_FUNC_PIN(CDC_RESET, 0x43),
  502. LN2_FUNC_PIN(DSP_RESET, 0x44),
  503. LN_FUNC("dsp-irq", PIN, 0x45),
  504. LN2_FUNC_PIN(DSP_STANDBY, 0x46),
  505. LN2_FUNC_PIN(CDC_PDMCLK1, 0x90),
  506. LN2_FUNC_PIN(CDC_PDMDAT1, 0x91),
  507. LN2_FUNC_PIN(CDC_PDMCLK2, 0x92),
  508. LN2_FUNC_PIN(CDC_PDMDAT2, 0x93),
  509. LN2_FUNC_PIN(CDC_DMICCLK1, 0xA0),
  510. LN2_FUNC_PIN(CDC_DMICDAT1, 0xA1),
  511. LN2_FUNC_PIN(CDC_DMICCLK2, 0xA2),
  512. LN2_FUNC_PIN(CDC_DMICDAT2, 0xA3),
  513. LN2_FUNC_PIN(CDC_DMICCLK3, 0xA4),
  514. LN2_FUNC_PIN(CDC_DMICDAT3, 0xA5),
  515. LN2_FUNC_PIN(CDC_DMICCLK4, 0xA6),
  516. LN2_FUNC_PIN(CDC_DMICDAT4, 0xA7),
  517. LN2_FUNC_PIN(DSP_DMICCLK1, 0xA8),
  518. LN2_FUNC_PIN(DSP_DMICDAT1, 0xA9),
  519. LN2_FUNC_PIN(DSP_DMICCLK2, 0xAA),
  520. LN2_FUNC_PIN(DSP_DMICDAT2, 0xAB),
  521. LN2_FUNC_PIN(DSP_UART1_RX, 0xC0),
  522. LN2_FUNC_PIN(DSP_UART1_TX, 0xC1),
  523. LN2_FUNC_PIN(DSP_UART2_RX, 0xC2),
  524. LN2_FUNC_PIN(DSP_UART2_TX, 0xC3),
  525. LN2_FUNC_PIN(GF_UART2_RX, 0xC4),
  526. LN2_FUNC_PIN(GF_UART2_TX, 0xC5),
  527. LN2_FUNC_PIN(USB_UART_RX, 0xC6),
  528. LN_FUNC("usb-uart-tx", PIN, 0xC7),
  529. LN2_FUNC_PIN(I2C2_SCL, 0xE0),
  530. LN2_FUNC_PIN(I2C2_SDA, 0xE1),
  531. LN2_FUNC_PIN(I2C3_SCL, 0xE2),
  532. LN2_FUNC_PIN(I2C3_SDA, 0xE3),
  533. LN2_FUNC_PIN(I2C4_SCL, 0xE4),
  534. LN2_FUNC_PIN(I2C4_SDA, 0xE5),
  535. LN2_FUNC_AIF(SPDIF_AIF, 0x01),
  536. LN2_FUNC_GAI(PSIA1, 0x02, 0x50, 0x51, 0x52, 0x53),
  537. LN2_FUNC_GAI(PSIA2, 0x03, 0x54, 0x55, 0x56, 0x57),
  538. LN2_FUNC_GAI(CDC_AIF1, 0x04, 0x59, 0x5B, 0x5A, 0x58),
  539. LN2_FUNC_GAI(CDC_AIF2, 0x05, 0x5D, 0x5F, 0x5E, 0x5C),
  540. LN2_FUNC_GAI(CDC_AIF3, 0x06, 0x61, 0x62, 0x63, 0x60),
  541. LN2_FUNC_GAI(DSP_AIF1, 0x07, 0x65, 0x67, 0x66, 0x64),
  542. LN2_FUNC_GAI(DSP_AIF2, 0x08, 0x69, 0x6B, 0x6A, 0x68),
  543. LN2_FUNC_GAI(GF_AIF3, 0x09, 0x6D, 0x6F, 0x6C, 0x6E),
  544. LN2_FUNC_GAI(GF_AIF4, 0x0A, 0x71, 0x73, 0x70, 0x72),
  545. LN2_FUNC_GAI(GF_AIF1, 0x0B, 0x75, 0x77, 0x74, 0x76),
  546. LN2_FUNC_GAI(GF_AIF2, 0x0C, 0x79, 0x7B, 0x78, 0x7A),
  547. LN2_FUNC_AIF(USB_AIF1, 0x0D),
  548. LN2_FUNC_AIF(USB_AIF2, 0x0E),
  549. LN2_FUNC_AIF(ADAT_AIF, 0x0F),
  550. LN2_FUNC_AIF(SOUNDCARD_AIF, 0x10),
  551. };
  552. #define LN_GROUP_PIN(REV, ID) { \
  553. .name = lochnagar##REV##_##ID##_pin.name, \
  554. .type = LN_FTYPE_PIN, \
  555. .pins = &lochnagar##REV##_pins[LOCHNAGAR##REV##_PIN_##ID].number, \
  556. .npins = 1, \
  557. .priv = &lochnagar##REV##_pins[LOCHNAGAR##REV##_PIN_##ID], \
  558. }
  559. #define LN_GROUP_AIF(REV, ID) { \
  560. .name = lochnagar##REV##_##ID##_aif.name, \
  561. .type = LN_FTYPE_AIF, \
  562. .pins = lochnagar##REV##_##ID##_aif.pins, \
  563. .npins = ARRAY_SIZE(lochnagar##REV##_##ID##_aif.pins), \
  564. .priv = &lochnagar##REV##_##ID##_aif, \
  565. }
  566. #define LN1_GROUP_PIN(ID) LN_GROUP_PIN(1, ID)
  567. #define LN2_GROUP_PIN(ID) LN_GROUP_PIN(2, ID)
  568. #define LN1_GROUP_AIF(ID) LN_GROUP_AIF(1, ID)
  569. #define LN2_GROUP_AIF(ID) LN_GROUP_AIF(2, ID)
  570. #define LN2_GROUP_GAI(ID) \
  571. LN2_GROUP_AIF(ID), \
  572. LN2_GROUP_PIN(ID##_BCLK), LN2_GROUP_PIN(ID##_LRCLK), \
  573. LN2_GROUP_PIN(ID##_RXDAT), LN2_GROUP_PIN(ID##_TXDAT)
  574. struct lochnagar_group {
  575. const char * const name;
  576. enum lochnagar_func_type type;
  577. const unsigned int *pins;
  578. unsigned int npins;
  579. const void *priv;
  580. };
  581. static const struct lochnagar_group lochnagar1_groups[] = {
  582. LN1_GROUP_PIN(GF_GPIO2), LN1_GROUP_PIN(GF_GPIO3),
  583. LN1_GROUP_PIN(GF_GPIO7),
  584. LN1_GROUP_PIN(LED1), LN1_GROUP_PIN(LED2),
  585. LN1_GROUP_AIF(CDC_AIF1), LN1_GROUP_AIF(CDC_AIF2),
  586. LN1_GROUP_AIF(CDC_AIF3),
  587. LN1_GROUP_AIF(DSP_AIF1), LN1_GROUP_AIF(DSP_AIF2),
  588. LN1_GROUP_AIF(PSIA1), LN1_GROUP_AIF(PSIA2),
  589. LN1_GROUP_AIF(GF_AIF1), LN1_GROUP_AIF(GF_AIF2),
  590. LN1_GROUP_AIF(GF_AIF3), LN1_GROUP_AIF(GF_AIF4),
  591. LN1_GROUP_AIF(SPDIF_AIF),
  592. };
  593. static const struct lochnagar_group lochnagar2_groups[] = {
  594. LN2_GROUP_PIN(FPGA_GPIO1), LN2_GROUP_PIN(FPGA_GPIO2),
  595. LN2_GROUP_PIN(FPGA_GPIO3), LN2_GROUP_PIN(FPGA_GPIO4),
  596. LN2_GROUP_PIN(FPGA_GPIO5), LN2_GROUP_PIN(FPGA_GPIO6),
  597. LN2_GROUP_PIN(CDC_GPIO1), LN2_GROUP_PIN(CDC_GPIO2),
  598. LN2_GROUP_PIN(CDC_GPIO3), LN2_GROUP_PIN(CDC_GPIO4),
  599. LN2_GROUP_PIN(CDC_GPIO5), LN2_GROUP_PIN(CDC_GPIO6),
  600. LN2_GROUP_PIN(CDC_GPIO7), LN2_GROUP_PIN(CDC_GPIO8),
  601. LN2_GROUP_PIN(DSP_GPIO1), LN2_GROUP_PIN(DSP_GPIO2),
  602. LN2_GROUP_PIN(DSP_GPIO3), LN2_GROUP_PIN(DSP_GPIO4),
  603. LN2_GROUP_PIN(DSP_GPIO5), LN2_GROUP_PIN(DSP_GPIO6),
  604. LN2_GROUP_PIN(DSP_GPIO20),
  605. LN2_GROUP_PIN(GF_GPIO1),
  606. LN2_GROUP_PIN(GF_GPIO2), LN2_GROUP_PIN(GF_GPIO5),
  607. LN2_GROUP_PIN(GF_GPIO3), LN2_GROUP_PIN(GF_GPIO7),
  608. LN2_GROUP_PIN(DSP_UART1_RX), LN2_GROUP_PIN(DSP_UART1_TX),
  609. LN2_GROUP_PIN(DSP_UART2_RX), LN2_GROUP_PIN(DSP_UART2_TX),
  610. LN2_GROUP_PIN(GF_UART2_RX), LN2_GROUP_PIN(GF_UART2_TX),
  611. LN2_GROUP_PIN(USB_UART_RX),
  612. LN2_GROUP_PIN(CDC_PDMCLK1), LN2_GROUP_PIN(CDC_PDMDAT1),
  613. LN2_GROUP_PIN(CDC_PDMCLK2), LN2_GROUP_PIN(CDC_PDMDAT2),
  614. LN2_GROUP_PIN(CDC_DMICCLK1), LN2_GROUP_PIN(CDC_DMICDAT1),
  615. LN2_GROUP_PIN(CDC_DMICCLK2), LN2_GROUP_PIN(CDC_DMICDAT2),
  616. LN2_GROUP_PIN(CDC_DMICCLK3), LN2_GROUP_PIN(CDC_DMICDAT3),
  617. LN2_GROUP_PIN(CDC_DMICCLK4), LN2_GROUP_PIN(CDC_DMICDAT4),
  618. LN2_GROUP_PIN(DSP_DMICCLK1), LN2_GROUP_PIN(DSP_DMICDAT1),
  619. LN2_GROUP_PIN(DSP_DMICCLK2), LN2_GROUP_PIN(DSP_DMICDAT2),
  620. LN2_GROUP_PIN(I2C2_SCL), LN2_GROUP_PIN(I2C2_SDA),
  621. LN2_GROUP_PIN(I2C3_SCL), LN2_GROUP_PIN(I2C3_SDA),
  622. LN2_GROUP_PIN(I2C4_SCL), LN2_GROUP_PIN(I2C4_SDA),
  623. LN2_GROUP_PIN(DSP_STANDBY),
  624. LN2_GROUP_PIN(CDC_MCLK1), LN2_GROUP_PIN(CDC_MCLK2),
  625. LN2_GROUP_PIN(DSP_CLKIN),
  626. LN2_GROUP_PIN(PSIA1_MCLK), LN2_GROUP_PIN(PSIA2_MCLK),
  627. LN2_GROUP_GAI(CDC_AIF1), LN2_GROUP_GAI(CDC_AIF2),
  628. LN2_GROUP_GAI(CDC_AIF3),
  629. LN2_GROUP_GAI(DSP_AIF1), LN2_GROUP_GAI(DSP_AIF2),
  630. LN2_GROUP_GAI(PSIA1), LN2_GROUP_GAI(PSIA2),
  631. LN2_GROUP_GAI(GF_AIF1), LN2_GROUP_GAI(GF_AIF2),
  632. LN2_GROUP_GAI(GF_AIF3), LN2_GROUP_GAI(GF_AIF4),
  633. LN2_GROUP_AIF(SPDIF_AIF),
  634. LN2_GROUP_AIF(USB_AIF1), LN2_GROUP_AIF(USB_AIF2),
  635. LN2_GROUP_AIF(ADAT_AIF),
  636. LN2_GROUP_AIF(SOUNDCARD_AIF),
  637. };
  638. struct lochnagar_func_groups {
  639. const char **groups;
  640. unsigned int ngroups;
  641. };
  642. struct lochnagar_pin_priv {
  643. struct lochnagar *lochnagar;
  644. struct device *dev;
  645. const struct lochnagar_func *funcs;
  646. unsigned int nfuncs;
  647. const struct pinctrl_pin_desc *pins;
  648. unsigned int npins;
  649. const struct lochnagar_group *groups;
  650. unsigned int ngroups;
  651. struct lochnagar_func_groups func_groups[LN_FTYPE_COUNT];
  652. struct gpio_chip gpio_chip;
  653. };
  654. static int lochnagar_get_groups_count(struct pinctrl_dev *pctldev)
  655. {
  656. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  657. return priv->ngroups;
  658. }
  659. static const char *lochnagar_get_group_name(struct pinctrl_dev *pctldev,
  660. unsigned int group_idx)
  661. {
  662. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  663. return priv->groups[group_idx].name;
  664. }
  665. static int lochnagar_get_group_pins(struct pinctrl_dev *pctldev,
  666. unsigned int group_idx,
  667. const unsigned int **pins,
  668. unsigned int *num_pins)
  669. {
  670. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  671. *pins = priv->groups[group_idx].pins;
  672. *num_pins = priv->groups[group_idx].npins;
  673. return 0;
  674. }
  675. static const struct pinctrl_ops lochnagar_pin_group_ops = {
  676. .get_groups_count = lochnagar_get_groups_count,
  677. .get_group_name = lochnagar_get_group_name,
  678. .get_group_pins = lochnagar_get_group_pins,
  679. .dt_node_to_map = pinconf_generic_dt_node_to_map_all,
  680. .dt_free_map = pinctrl_utils_free_map,
  681. };
  682. static int lochnagar_get_funcs_count(struct pinctrl_dev *pctldev)
  683. {
  684. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  685. return priv->nfuncs;
  686. }
  687. static const char *lochnagar_get_func_name(struct pinctrl_dev *pctldev,
  688. unsigned int func_idx)
  689. {
  690. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  691. return priv->funcs[func_idx].name;
  692. }
  693. static int lochnagar_get_func_groups(struct pinctrl_dev *pctldev,
  694. unsigned int func_idx,
  695. const char * const **groups,
  696. unsigned int * const num_groups)
  697. {
  698. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  699. int func_type;
  700. func_type = priv->funcs[func_idx].type;
  701. *groups = priv->func_groups[func_type].groups;
  702. *num_groups = priv->func_groups[func_type].ngroups;
  703. return 0;
  704. }
  705. static int lochnagar2_get_gpio_chan(struct lochnagar_pin_priv *priv,
  706. unsigned int op)
  707. {
  708. struct regmap *regmap = priv->lochnagar->regmap;
  709. unsigned int val;
  710. int free = -1;
  711. int i, ret;
  712. for (i = 0; i < LN2_NUM_GPIO_CHANNELS; i++) {
  713. ret = regmap_read(regmap, LOCHNAGAR2_GPIO_CHANNEL1 + i, &val);
  714. if (ret)
  715. return ret;
  716. val &= LOCHNAGAR2_GPIO_CHANNEL_SRC_MASK;
  717. if (val == op)
  718. return i + 1;
  719. if (free < 0 && !val)
  720. free = i;
  721. }
  722. if (free >= 0) {
  723. ret = regmap_update_bits(regmap,
  724. LOCHNAGAR2_GPIO_CHANNEL1 + free,
  725. LOCHNAGAR2_GPIO_CHANNEL_SRC_MASK, op);
  726. if (ret)
  727. return ret;
  728. free++;
  729. dev_dbg(priv->dev, "Set channel %d to 0x%x\n", free, op);
  730. return free;
  731. }
  732. return -ENOSPC;
  733. }
  734. static int lochnagar_pin_set_mux(struct lochnagar_pin_priv *priv,
  735. const struct lochnagar_pin *pin,
  736. unsigned int op)
  737. {
  738. int ret;
  739. switch (priv->lochnagar->type) {
  740. case LOCHNAGAR1:
  741. break;
  742. default:
  743. ret = lochnagar2_get_gpio_chan(priv, op);
  744. if (ret < 0) {
  745. dev_err(priv->dev, "Failed to get channel for %s: %d\n",
  746. pin->name, ret);
  747. return ret;
  748. }
  749. op = ret;
  750. break;
  751. }
  752. dev_dbg(priv->dev, "Set pin %s to 0x%x\n", pin->name, op);
  753. ret = regmap_write(priv->lochnagar->regmap, pin->reg, op);
  754. if (ret)
  755. dev_err(priv->dev, "Failed to set %s mux: %d\n",
  756. pin->name, ret);
  757. return 0;
  758. }
  759. static int lochnagar_aif_set_mux(struct lochnagar_pin_priv *priv,
  760. const struct lochnagar_group *group,
  761. unsigned int op)
  762. {
  763. struct regmap *regmap = priv->lochnagar->regmap;
  764. const struct lochnagar_aif *aif = group->priv;
  765. const struct lochnagar_pin *pin;
  766. int i, ret;
  767. ret = regmap_update_bits(regmap, aif->src_reg, aif->src_mask, op);
  768. if (ret) {
  769. dev_err(priv->dev, "Failed to set %s source: %d\n",
  770. group->name, ret);
  771. return ret;
  772. }
  773. ret = regmap_update_bits(regmap, aif->ctrl_reg,
  774. aif->ena_mask, aif->ena_mask);
  775. if (ret) {
  776. dev_err(priv->dev, "Failed to set %s enable: %d\n",
  777. group->name, ret);
  778. return ret;
  779. }
  780. for (i = 0; i < group->npins; i++) {
  781. pin = priv->pins[group->pins[i]].drv_data;
  782. if (pin->type != LN_PTYPE_MUX)
  783. continue;
  784. dev_dbg(priv->dev, "Set pin %s to AIF\n", pin->name);
  785. ret = regmap_update_bits(regmap, pin->reg,
  786. LOCHNAGAR2_GPIO_SRC_MASK,
  787. LN2_OP_AIF);
  788. if (ret) {
  789. dev_err(priv->dev, "Failed to set %s to AIF: %d\n",
  790. pin->name, ret);
  791. return ret;
  792. }
  793. }
  794. return 0;
  795. }
  796. static int lochnagar_set_mux(struct pinctrl_dev *pctldev,
  797. unsigned int func_idx, unsigned int group_idx)
  798. {
  799. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  800. const struct lochnagar_func *func = &priv->funcs[func_idx];
  801. const struct lochnagar_group *group = &priv->groups[group_idx];
  802. const struct lochnagar_pin *pin;
  803. switch (func->type) {
  804. case LN_FTYPE_AIF:
  805. dev_dbg(priv->dev, "Set group %s to %s\n",
  806. group->name, func->name);
  807. return lochnagar_aif_set_mux(priv, group, func->op);
  808. case LN_FTYPE_PIN:
  809. pin = priv->pins[*group->pins].drv_data;
  810. dev_dbg(priv->dev, "Set pin %s to %s\n", pin->name, func->name);
  811. return lochnagar_pin_set_mux(priv, pin, func->op);
  812. default:
  813. return -EINVAL;
  814. }
  815. }
  816. static int lochnagar_gpio_request(struct pinctrl_dev *pctldev,
  817. struct pinctrl_gpio_range *range,
  818. unsigned int offset)
  819. {
  820. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  821. struct lochnagar *lochnagar = priv->lochnagar;
  822. const struct lochnagar_pin *pin = priv->pins[offset].drv_data;
  823. int ret;
  824. dev_dbg(priv->dev, "Requesting GPIO %s\n", pin->name);
  825. if (lochnagar->type == LOCHNAGAR1 || pin->type != LN_PTYPE_MUX)
  826. return 0;
  827. ret = lochnagar2_get_gpio_chan(priv, LN2_OP_GPIO);
  828. if (ret < 0) {
  829. dev_err(priv->dev, "Failed to get low channel: %d\n", ret);
  830. return ret;
  831. }
  832. ret = lochnagar2_get_gpio_chan(priv, LN2_OP_GPIO | 0x1);
  833. if (ret < 0) {
  834. dev_err(priv->dev, "Failed to get high channel: %d\n", ret);
  835. return ret;
  836. }
  837. return 0;
  838. }
  839. static int lochnagar_gpio_set_direction(struct pinctrl_dev *pctldev,
  840. struct pinctrl_gpio_range *range,
  841. unsigned int offset,
  842. bool input)
  843. {
  844. /* The GPIOs only support output */
  845. if (input)
  846. return -EINVAL;
  847. return 0;
  848. }
  849. static const struct pinmux_ops lochnagar_pin_mux_ops = {
  850. .get_functions_count = lochnagar_get_funcs_count,
  851. .get_function_name = lochnagar_get_func_name,
  852. .get_function_groups = lochnagar_get_func_groups,
  853. .set_mux = lochnagar_set_mux,
  854. .gpio_request_enable = lochnagar_gpio_request,
  855. .gpio_set_direction = lochnagar_gpio_set_direction,
  856. .strict = true,
  857. };
  858. static int lochnagar_aif_set_master(struct lochnagar_pin_priv *priv,
  859. unsigned int group_idx, bool master)
  860. {
  861. struct regmap *regmap = priv->lochnagar->regmap;
  862. const struct lochnagar_group *group = &priv->groups[group_idx];
  863. const struct lochnagar_aif *aif = group->priv;
  864. unsigned int val = 0;
  865. int ret;
  866. if (group->type != LN_FTYPE_AIF)
  867. return -EINVAL;
  868. if (!master)
  869. val = aif->master_mask;
  870. dev_dbg(priv->dev, "Set AIF %s to %s\n",
  871. group->name, master ? "master" : "slave");
  872. ret = regmap_update_bits(regmap, aif->ctrl_reg, aif->master_mask, val);
  873. if (ret) {
  874. dev_err(priv->dev, "Failed to set %s mode: %d\n",
  875. group->name, ret);
  876. return ret;
  877. }
  878. return 0;
  879. }
  880. static int lochnagar_conf_group_set(struct pinctrl_dev *pctldev,
  881. unsigned int group_idx,
  882. unsigned long *configs,
  883. unsigned int num_configs)
  884. {
  885. struct lochnagar_pin_priv *priv = pinctrl_dev_get_drvdata(pctldev);
  886. int i, ret;
  887. for (i = 0; i < num_configs; i++) {
  888. unsigned int param = pinconf_to_config_param(*configs);
  889. switch (param) {
  890. case PIN_CONFIG_OUTPUT_ENABLE:
  891. ret = lochnagar_aif_set_master(priv, group_idx, true);
  892. if (ret)
  893. return ret;
  894. break;
  895. case PIN_CONFIG_INPUT_ENABLE:
  896. ret = lochnagar_aif_set_master(priv, group_idx, false);
  897. if (ret)
  898. return ret;
  899. break;
  900. default:
  901. return -ENOTSUPP;
  902. }
  903. configs++;
  904. }
  905. return 0;
  906. }
  907. static const struct pinconf_ops lochnagar_pin_conf_ops = {
  908. .pin_config_group_set = lochnagar_conf_group_set,
  909. };
  910. static const struct pinctrl_desc lochnagar_pin_desc = {
  911. .name = "lochnagar-pinctrl",
  912. .owner = THIS_MODULE,
  913. .pctlops = &lochnagar_pin_group_ops,
  914. .pmxops = &lochnagar_pin_mux_ops,
  915. .confops = &lochnagar_pin_conf_ops,
  916. };
  917. static int lochnagar_gpio_set(struct gpio_chip *chip,
  918. unsigned int offset, int value)
  919. {
  920. struct lochnagar_pin_priv *priv = gpiochip_get_data(chip);
  921. struct lochnagar *lochnagar = priv->lochnagar;
  922. const struct lochnagar_pin *pin = priv->pins[offset].drv_data;
  923. value = !!value;
  924. dev_dbg(priv->dev, "Set GPIO %s to %s\n",
  925. pin->name, str_high_low(value));
  926. switch (pin->type) {
  927. case LN_PTYPE_MUX:
  928. value |= LN2_OP_GPIO;
  929. return lochnagar_pin_set_mux(priv, pin, value);
  930. break;
  931. case LN_PTYPE_GPIO:
  932. if (pin->invert)
  933. value = !value;
  934. return regmap_update_bits(lochnagar->regmap, pin->reg,
  935. BIT(pin->shift),
  936. value << pin->shift);
  937. break;
  938. default:
  939. break;
  940. }
  941. return -EINVAL;
  942. }
  943. static int lochnagar_gpio_direction_out(struct gpio_chip *chip,
  944. unsigned int offset, int value)
  945. {
  946. int ret;
  947. ret = lochnagar_gpio_set(chip, offset, value);
  948. if (ret)
  949. return ret;
  950. return pinctrl_gpio_direction_output(chip, offset);
  951. }
  952. static int lochnagar_fill_func_groups(struct lochnagar_pin_priv *priv)
  953. {
  954. struct lochnagar_func_groups *funcs;
  955. int i;
  956. for (i = 0; i < priv->ngroups; i++)
  957. priv->func_groups[priv->groups[i].type].ngroups++;
  958. for (i = 0; i < LN_FTYPE_COUNT; i++) {
  959. funcs = &priv->func_groups[i];
  960. if (!funcs->ngroups)
  961. continue;
  962. funcs->groups = devm_kcalloc(priv->dev, funcs->ngroups,
  963. sizeof(*funcs->groups),
  964. GFP_KERNEL);
  965. if (!funcs->groups)
  966. return -ENOMEM;
  967. funcs->ngroups = 0;
  968. }
  969. for (i = 0; i < priv->ngroups; i++) {
  970. funcs = &priv->func_groups[priv->groups[i].type];
  971. funcs->groups[funcs->ngroups++] = priv->groups[i].name;
  972. }
  973. return 0;
  974. }
  975. static int lochnagar_pin_probe(struct platform_device *pdev)
  976. {
  977. struct lochnagar *lochnagar = dev_get_drvdata(pdev->dev.parent);
  978. struct lochnagar_pin_priv *priv;
  979. struct pinctrl_desc *desc;
  980. struct pinctrl_dev *pctl;
  981. struct device *dev = &pdev->dev;
  982. int ret;
  983. priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL);
  984. if (!priv)
  985. return -ENOMEM;
  986. priv->dev = dev;
  987. priv->lochnagar = lochnagar;
  988. desc = devm_kzalloc(dev, sizeof(*desc), GFP_KERNEL);
  989. if (!desc)
  990. return -ENOMEM;
  991. *desc = lochnagar_pin_desc;
  992. priv->gpio_chip.label = dev_name(dev);
  993. priv->gpio_chip.request = gpiochip_generic_request;
  994. priv->gpio_chip.free = gpiochip_generic_free;
  995. priv->gpio_chip.direction_output = lochnagar_gpio_direction_out;
  996. priv->gpio_chip.set = lochnagar_gpio_set;
  997. priv->gpio_chip.can_sleep = true;
  998. priv->gpio_chip.parent = dev;
  999. priv->gpio_chip.base = -1;
  1000. switch (lochnagar->type) {
  1001. case LOCHNAGAR1:
  1002. priv->funcs = lochnagar1_funcs;
  1003. priv->nfuncs = ARRAY_SIZE(lochnagar1_funcs);
  1004. priv->pins = lochnagar1_pins;
  1005. priv->npins = ARRAY_SIZE(lochnagar1_pins);
  1006. priv->groups = lochnagar1_groups;
  1007. priv->ngroups = ARRAY_SIZE(lochnagar1_groups);
  1008. priv->gpio_chip.ngpio = LOCHNAGAR1_PIN_NUM_GPIOS;
  1009. break;
  1010. case LOCHNAGAR2:
  1011. priv->funcs = lochnagar2_funcs;
  1012. priv->nfuncs = ARRAY_SIZE(lochnagar2_funcs);
  1013. priv->pins = lochnagar2_pins;
  1014. priv->npins = ARRAY_SIZE(lochnagar2_pins);
  1015. priv->groups = lochnagar2_groups;
  1016. priv->ngroups = ARRAY_SIZE(lochnagar2_groups);
  1017. priv->gpio_chip.ngpio = LOCHNAGAR2_PIN_NUM_GPIOS;
  1018. break;
  1019. default:
  1020. dev_err(dev, "Unknown Lochnagar type: %d\n", lochnagar->type);
  1021. return -EINVAL;
  1022. }
  1023. ret = lochnagar_fill_func_groups(priv);
  1024. if (ret < 0)
  1025. return ret;
  1026. desc->pins = priv->pins;
  1027. desc->npins = priv->npins;
  1028. pctl = devm_pinctrl_register(dev, desc, priv);
  1029. if (IS_ERR(pctl)) {
  1030. ret = PTR_ERR(pctl);
  1031. dev_err(priv->dev, "Failed to register pinctrl: %d\n", ret);
  1032. return ret;
  1033. }
  1034. ret = devm_gpiochip_add_data(dev, &priv->gpio_chip, priv);
  1035. if (ret < 0) {
  1036. dev_err(&pdev->dev, "Failed to register gpiochip: %d\n", ret);
  1037. return ret;
  1038. }
  1039. return 0;
  1040. }
  1041. static const struct of_device_id lochnagar_of_match[] = {
  1042. { .compatible = "cirrus,lochnagar-pinctrl" },
  1043. {}
  1044. };
  1045. MODULE_DEVICE_TABLE(of, lochnagar_of_match);
  1046. static struct platform_driver lochnagar_pin_driver = {
  1047. .driver = {
  1048. .name = "lochnagar-pinctrl",
  1049. .of_match_table = of_match_ptr(lochnagar_of_match),
  1050. },
  1051. .probe = lochnagar_pin_probe,
  1052. };
  1053. module_platform_driver(lochnagar_pin_driver);
  1054. MODULE_AUTHOR("Charles Keepax <ckeepax@opensource.cirrus.com>");
  1055. MODULE_DESCRIPTION("Pinctrl driver for Cirrus Logic Lochnagar Board");
  1056. MODULE_LICENSE("GPL v2");