pinctrl-s700.c 52 KB

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  1. // SPDX-License-Identifier: GPL-2.0+
  2. /*
  3. * Actions Semi Owl S700 Pinctrl driver
  4. *
  5. * Copyright (c) 2014 Actions Semi Inc.
  6. * Author: David Liu <liuwei@actions-semi.com>
  7. *
  8. * Author: Pathiban Nallathambi <pn@denx.de>
  9. * Author: Saravanan Sekar <sravanhome@gmail.com>
  10. */
  11. #include <linux/module.h>
  12. #include <linux/of.h>
  13. #include <linux/platform_device.h>
  14. #include <linux/pinctrl/pinconf-generic.h>
  15. #include <linux/pinctrl/pinctrl.h>
  16. #include "pinctrl-owl.h"
  17. /* Pinctrl registers offset */
  18. #define MFCTL0 (0x0040)
  19. #define MFCTL1 (0x0044)
  20. #define MFCTL2 (0x0048)
  21. #define MFCTL3 (0x004C)
  22. #define PAD_PULLCTL0 (0x0060)
  23. #define PAD_PULLCTL1 (0x0064)
  24. #define PAD_PULLCTL2 (0x0068)
  25. #define PAD_ST0 (0x006C)
  26. #define PAD_ST1 (0x0070)
  27. #define PAD_CTL (0x0074)
  28. #define PAD_DRV0 (0x0080)
  29. #define PAD_DRV1 (0x0084)
  30. #define PAD_DRV2 (0x0088)
  31. /*
  32. * Most pins affected by the pinmux can also be GPIOs. Define these first.
  33. * These must match how the GPIO driver names/numbers its pins.
  34. */
  35. #define _GPIOA(offset) (offset)
  36. #define _GPIOB(offset) (32 + (offset))
  37. #define _GPIOC(offset) (64 + (offset))
  38. #define _GPIOD(offset) (96 + (offset))
  39. #define _GPIOE(offset) (128 + (offset))
  40. /* All non-GPIO pins follow */
  41. #define NUM_GPIOS (_GPIOE(7) + 1)
  42. #define _PIN(offset) (NUM_GPIOS + (offset))
  43. /* Ethernet MAC */
  44. #define ETH_TXD0 _GPIOA(14)
  45. #define ETH_TXD1 _GPIOA(15)
  46. #define ETH_TXD2 _GPIOE(4)
  47. #define ETH_TXD3 _GPIOE(5)
  48. #define ETH_TXEN _GPIOA(16)
  49. #define ETH_RXER _GPIOA(17)
  50. #define ETH_CRS_DV _GPIOA(18)
  51. #define ETH_RXD1 _GPIOA(19)
  52. #define ETH_RXD0 _GPIOA(20)
  53. #define ETH_RXD2 _GPIOE(6)
  54. #define ETH_RXD3 _GPIOE(7)
  55. #define ETH_REF_CLK _GPIOA(21)
  56. #define ETH_MDC _GPIOA(22)
  57. #define ETH_MDIO _GPIOA(23)
  58. /* SIRQ */
  59. #define SIRQ0 _GPIOA(24)
  60. #define SIRQ1 _GPIOA(25)
  61. #define SIRQ2 _GPIOA(26)
  62. /* I2S */
  63. #define I2S_D0 _GPIOA(27)
  64. #define I2S_BCLK0 _GPIOA(28)
  65. #define I2S_LRCLK0 _GPIOA(29)
  66. #define I2S_MCLK0 _GPIOA(30)
  67. #define I2S_D1 _GPIOA(31)
  68. #define I2S_BCLK1 _GPIOB(0)
  69. #define I2S_LRCLK1 _GPIOB(1)
  70. #define I2S_MCLK1 _GPIOB(2)
  71. /* PCM1 */
  72. #define PCM1_IN _GPIOD(28)
  73. #define PCM1_CLK _GPIOD(29)
  74. #define PCM1_SYNC _GPIOD(30)
  75. #define PCM1_OUT _GPIOD(31)
  76. /* KEY */
  77. #define KS_IN0 _GPIOB(3)
  78. #define KS_IN1 _GPIOB(4)
  79. #define KS_IN2 _GPIOB(5)
  80. #define KS_IN3 _GPIOB(6)
  81. #define KS_OUT0 _GPIOB(7)
  82. #define KS_OUT1 _GPIOB(8)
  83. #define KS_OUT2 _GPIOB(9)
  84. /* LVDS */
  85. #define LVDS_OEP _GPIOB(10)
  86. #define LVDS_OEN _GPIOB(11)
  87. #define LVDS_ODP _GPIOB(12)
  88. #define LVDS_ODN _GPIOB(13)
  89. #define LVDS_OCP _GPIOB(14)
  90. #define LVDS_OCN _GPIOB(15)
  91. #define LVDS_OBP _GPIOB(16)
  92. #define LVDS_OBN _GPIOB(17)
  93. #define LVDS_OAP _GPIOB(18)
  94. #define LVDS_OAN _GPIOB(19)
  95. #define LVDS_EEP _GPIOB(20)
  96. #define LVDS_EEN _GPIOB(21)
  97. #define LVDS_EDP _GPIOB(22)
  98. #define LVDS_EDN _GPIOB(23)
  99. #define LVDS_ECP _GPIOB(24)
  100. #define LVDS_ECN _GPIOB(25)
  101. #define LVDS_EBP _GPIOB(26)
  102. #define LVDS_EBN _GPIOB(27)
  103. #define LVDS_EAP _GPIOB(28)
  104. #define LVDS_EAN _GPIOB(29)
  105. #define LCD0_D18 _GPIOB(30)
  106. #define LCD0_D2 _GPIOB(31)
  107. /* DSI */
  108. #define DSI_DP3 _GPIOC(0)
  109. #define DSI_DN3 _GPIOC(1)
  110. #define DSI_DP1 _GPIOC(2)
  111. #define DSI_DN1 _GPIOC(3)
  112. #define DSI_CP _GPIOC(4)
  113. #define DSI_CN _GPIOC(5)
  114. #define DSI_DP0 _GPIOC(6)
  115. #define DSI_DN0 _GPIOC(7)
  116. #define DSI_DP2 _GPIOC(8)
  117. #define DSI_DN2 _GPIOC(9)
  118. /* SD */
  119. #define SD0_D0 _GPIOC(10)
  120. #define SD0_D1 _GPIOC(11)
  121. #define SD0_D2 _GPIOC(12)
  122. #define SD0_D3 _GPIOC(13)
  123. #define SD0_D4 _GPIOC(14)
  124. #define SD0_D5 _GPIOC(15)
  125. #define SD0_D6 _GPIOC(16)
  126. #define SD0_D7 _GPIOC(17)
  127. #define SD0_CMD _GPIOC(18)
  128. #define SD0_CLK _GPIOC(19)
  129. #define SD1_CMD _GPIOC(20)
  130. #define SD1_CLK _GPIOC(21)
  131. #define SD1_D0 SD0_D4
  132. #define SD1_D1 SD0_D5
  133. #define SD1_D2 SD0_D6
  134. #define SD1_D3 SD0_D7
  135. /* SPI */
  136. #define SPI0_SS _GPIOC(23)
  137. #define SPI0_MISO _GPIOC(24)
  138. /* UART for console */
  139. #define UART0_RX _GPIOC(26)
  140. #define UART0_TX _GPIOC(27)
  141. /* UART for Bluetooth */
  142. #define UART2_RX _GPIOD(18)
  143. #define UART2_TX _GPIOD(19)
  144. #define UART2_RTSB _GPIOD(20)
  145. #define UART2_CTSB _GPIOD(21)
  146. /* UART for 3G */
  147. #define UART3_RX _GPIOD(22)
  148. #define UART3_TX _GPIOD(23)
  149. #define UART3_RTSB _GPIOD(24)
  150. #define UART3_CTSB _GPIOD(25)
  151. /* I2C */
  152. #define I2C0_SCLK _GPIOC(28)
  153. #define I2C0_SDATA _GPIOC(29)
  154. #define I2C1_SCLK _GPIOE(0)
  155. #define I2C1_SDATA _GPIOE(1)
  156. #define I2C2_SCLK _GPIOE(2)
  157. #define I2C2_SDATA _GPIOE(3)
  158. /* CSI*/
  159. #define CSI_DN0 _PIN(0)
  160. #define CSI_DP0 _PIN(1)
  161. #define CSI_DN1 _PIN(2)
  162. #define CSI_DP1 _PIN(3)
  163. #define CSI_CN _PIN(4)
  164. #define CSI_CP _PIN(5)
  165. #define CSI_DN2 _PIN(6)
  166. #define CSI_DP2 _PIN(7)
  167. #define CSI_DN3 _PIN(8)
  168. #define CSI_DP3 _PIN(9)
  169. /* Sensor */
  170. #define SENSOR0_PCLK _GPIOC(31)
  171. #define SENSOR0_CKOUT _GPIOD(10)
  172. /* NAND (1.8v / 3.3v) */
  173. #define DNAND_D0 _PIN(10)
  174. #define DNAND_D1 _PIN(11)
  175. #define DNAND_D2 _PIN(12)
  176. #define DNAND_D3 _PIN(13)
  177. #define DNAND_D4 _PIN(14)
  178. #define DNAND_D5 _PIN(15)
  179. #define DNAND_D6 _PIN(16)
  180. #define DNAND_D7 _PIN(17)
  181. #define DNAND_WRB _PIN(18)
  182. #define DNAND_RDB _PIN(19)
  183. #define DNAND_RDBN _PIN(20)
  184. #define DNAND_DQS _GPIOA(12)
  185. #define DNAND_DQSN _GPIOA(13)
  186. #define DNAND_RB0 _PIN(21)
  187. #define DNAND_ALE _GPIOD(12)
  188. #define DNAND_CLE _GPIOD(13)
  189. #define DNAND_CEB0 _GPIOD(14)
  190. #define DNAND_CEB1 _GPIOD(15)
  191. #define DNAND_CEB2 _GPIOD(16)
  192. #define DNAND_CEB3 _GPIOD(17)
  193. /* System */
  194. #define PORB _PIN(22)
  195. #define CLKO_25M _PIN(23)
  196. #define BSEL _PIN(24)
  197. #define PKG0 _PIN(25)
  198. #define PKG1 _PIN(26)
  199. #define PKG2 _PIN(27)
  200. #define PKG3 _PIN(28)
  201. #define _FIRSTPAD _GPIOA(0)
  202. #define _LASTPAD PKG3
  203. #define NUM_PADS (_PIN(28) + 1)
  204. /* Pad names for the pinmux subsystem */
  205. static const struct pinctrl_pin_desc s700_pads[] = {
  206. PINCTRL_PIN(ETH_TXD0, "eth_txd0"),
  207. PINCTRL_PIN(ETH_TXD1, "eth_txd1"),
  208. PINCTRL_PIN(ETH_TXD2, "eth_txd2"),
  209. PINCTRL_PIN(ETH_TXD3, "eth_txd3"),
  210. PINCTRL_PIN(ETH_TXEN, "eth_txen"),
  211. PINCTRL_PIN(ETH_RXER, "eth_rxer"),
  212. PINCTRL_PIN(ETH_CRS_DV, "eth_crs_dv"),
  213. PINCTRL_PIN(ETH_RXD1, "eth_rxd1"),
  214. PINCTRL_PIN(ETH_RXD0, "eth_rxd0"),
  215. PINCTRL_PIN(ETH_RXD2, "eth_rxd2"),
  216. PINCTRL_PIN(ETH_RXD3, "eth_rxd3"),
  217. PINCTRL_PIN(ETH_REF_CLK, "eth_ref_clk"),
  218. PINCTRL_PIN(ETH_MDC, "eth_mdc"),
  219. PINCTRL_PIN(ETH_MDIO, "eth_mdio"),
  220. PINCTRL_PIN(SIRQ0, "sirq0"),
  221. PINCTRL_PIN(SIRQ1, "sirq1"),
  222. PINCTRL_PIN(SIRQ2, "sirq2"),
  223. PINCTRL_PIN(I2S_D0, "i2s_d0"),
  224. PINCTRL_PIN(I2S_BCLK0, "i2s_bclk0"),
  225. PINCTRL_PIN(I2S_LRCLK0, "i2s_lrclk0"),
  226. PINCTRL_PIN(I2S_MCLK0, "i2s_mclk0"),
  227. PINCTRL_PIN(I2S_D1, "i2s_d1"),
  228. PINCTRL_PIN(I2S_BCLK1, "i2s_bclk1"),
  229. PINCTRL_PIN(I2S_LRCLK1, "i2s_lrclk1"),
  230. PINCTRL_PIN(I2S_MCLK1, "i2s_mclk1"),
  231. PINCTRL_PIN(PCM1_IN, "pcm1_in"),
  232. PINCTRL_PIN(PCM1_CLK, "pcm1_clk"),
  233. PINCTRL_PIN(PCM1_SYNC, "pcm1_sync"),
  234. PINCTRL_PIN(PCM1_OUT, "pcm1_out"),
  235. PINCTRL_PIN(KS_IN0, "ks_in0"),
  236. PINCTRL_PIN(KS_IN1, "ks_in1"),
  237. PINCTRL_PIN(KS_IN2, "ks_in2"),
  238. PINCTRL_PIN(KS_IN3, "ks_in3"),
  239. PINCTRL_PIN(KS_OUT0, "ks_out0"),
  240. PINCTRL_PIN(KS_OUT1, "ks_out1"),
  241. PINCTRL_PIN(KS_OUT2, "ks_out2"),
  242. PINCTRL_PIN(LVDS_OEP, "lvds_oep"),
  243. PINCTRL_PIN(LVDS_OEN, "lvds_oen"),
  244. PINCTRL_PIN(LVDS_ODP, "lvds_odp"),
  245. PINCTRL_PIN(LVDS_ODN, "lvds_odn"),
  246. PINCTRL_PIN(LVDS_OCP, "lvds_ocp"),
  247. PINCTRL_PIN(LVDS_OCN, "lvds_ocn"),
  248. PINCTRL_PIN(LVDS_OBP, "lvds_obp"),
  249. PINCTRL_PIN(LVDS_OBN, "lvds_obn"),
  250. PINCTRL_PIN(LVDS_OAP, "lvds_oap"),
  251. PINCTRL_PIN(LVDS_OAN, "lvds_oan"),
  252. PINCTRL_PIN(LVDS_EEP, "lvds_eep"),
  253. PINCTRL_PIN(LVDS_EEN, "lvds_een"),
  254. PINCTRL_PIN(LVDS_EDP, "lvds_edp"),
  255. PINCTRL_PIN(LVDS_EDN, "lvds_edn"),
  256. PINCTRL_PIN(LVDS_ECP, "lvds_ecp"),
  257. PINCTRL_PIN(LVDS_ECN, "lvds_ecn"),
  258. PINCTRL_PIN(LVDS_EBP, "lvds_ebp"),
  259. PINCTRL_PIN(LVDS_EBN, "lvds_ebn"),
  260. PINCTRL_PIN(LVDS_EAP, "lvds_eap"),
  261. PINCTRL_PIN(LVDS_EAN, "lvds_ean"),
  262. PINCTRL_PIN(LCD0_D18, "lcd0_d18"),
  263. PINCTRL_PIN(LCD0_D2, "lcd0_d2"),
  264. PINCTRL_PIN(DSI_DP3, "dsi_dp3"),
  265. PINCTRL_PIN(DSI_DN3, "dsi_dn3"),
  266. PINCTRL_PIN(DSI_DP1, "dsi_dp1"),
  267. PINCTRL_PIN(DSI_DN1, "dsi_dn1"),
  268. PINCTRL_PIN(DSI_CP, "dsi_cp"),
  269. PINCTRL_PIN(DSI_CN, "dsi_cn"),
  270. PINCTRL_PIN(DSI_DP0, "dsi_dp0"),
  271. PINCTRL_PIN(DSI_DN0, "dsi_dn0"),
  272. PINCTRL_PIN(DSI_DP2, "dsi_dp2"),
  273. PINCTRL_PIN(DSI_DN2, "dsi_dn2"),
  274. PINCTRL_PIN(SD0_D0, "sd0_d0"),
  275. PINCTRL_PIN(SD0_D1, "sd0_d1"),
  276. PINCTRL_PIN(SD0_D2, "sd0_d2"),
  277. PINCTRL_PIN(SD0_D3, "sd0_d3"),
  278. PINCTRL_PIN(SD1_D0, "sd1_d0"),
  279. PINCTRL_PIN(SD1_D1, "sd1_d1"),
  280. PINCTRL_PIN(SD1_D2, "sd1_d2"),
  281. PINCTRL_PIN(SD1_D3, "sd1_d3"),
  282. PINCTRL_PIN(SD0_CMD, "sd0_cmd"),
  283. PINCTRL_PIN(SD0_CLK, "sd0_clk"),
  284. PINCTRL_PIN(SD1_CMD, "sd1_cmd"),
  285. PINCTRL_PIN(SD1_CLK, "sd1_clk"),
  286. PINCTRL_PIN(SPI0_SS, "spi0_ss"),
  287. PINCTRL_PIN(SPI0_MISO, "spi0_miso"),
  288. PINCTRL_PIN(UART0_RX, "uart0_rx"),
  289. PINCTRL_PIN(UART0_TX, "uart0_tx"),
  290. PINCTRL_PIN(UART2_RX, "uart2_rx"),
  291. PINCTRL_PIN(UART2_TX, "uart2_tx"),
  292. PINCTRL_PIN(UART2_RTSB, "uart2_rtsb"),
  293. PINCTRL_PIN(UART2_CTSB, "uart2_ctsb"),
  294. PINCTRL_PIN(UART3_RX, "uart3_rx"),
  295. PINCTRL_PIN(UART3_TX, "uart3_tx"),
  296. PINCTRL_PIN(UART3_RTSB, "uart3_rtsb"),
  297. PINCTRL_PIN(UART3_CTSB, "uart3_ctsb"),
  298. PINCTRL_PIN(I2C0_SCLK, "i2c0_sclk"),
  299. PINCTRL_PIN(I2C0_SDATA, "i2c0_sdata"),
  300. PINCTRL_PIN(I2C1_SCLK, "i2c1_sclk"),
  301. PINCTRL_PIN(I2C1_SDATA, "i2c1_sdata"),
  302. PINCTRL_PIN(I2C2_SCLK, "i2c2_sclk"),
  303. PINCTRL_PIN(I2C2_SDATA, "i2c2_sdata"),
  304. PINCTRL_PIN(CSI_DN0, "csi_dn0"),
  305. PINCTRL_PIN(CSI_DP0, "csi_dp0"),
  306. PINCTRL_PIN(CSI_DN1, "csi_dn1"),
  307. PINCTRL_PIN(CSI_DP1, "csi_dp1"),
  308. PINCTRL_PIN(CSI_CN, "csi_cn"),
  309. PINCTRL_PIN(CSI_CP, "csi_cp"),
  310. PINCTRL_PIN(CSI_DN2, "csi_dn2"),
  311. PINCTRL_PIN(CSI_DP2, "csi_dp2"),
  312. PINCTRL_PIN(CSI_DN3, "csi_dn3"),
  313. PINCTRL_PIN(CSI_DP3, "csi_dp3"),
  314. PINCTRL_PIN(SENSOR0_PCLK, "sensor0_pclk"),
  315. PINCTRL_PIN(SENSOR0_CKOUT, "sensor0_ckout"),
  316. PINCTRL_PIN(DNAND_D0, "dnand_d0"),
  317. PINCTRL_PIN(DNAND_D1, "dnand_d1"),
  318. PINCTRL_PIN(DNAND_D2, "dnand_d2"),
  319. PINCTRL_PIN(DNAND_D3, "dnand_d3"),
  320. PINCTRL_PIN(DNAND_D4, "dnand_d4"),
  321. PINCTRL_PIN(DNAND_D5, "dnand_d5"),
  322. PINCTRL_PIN(DNAND_D6, "dnand_d6"),
  323. PINCTRL_PIN(DNAND_D7, "dnand_d7"),
  324. PINCTRL_PIN(DNAND_WRB, "dnand_wrb"),
  325. PINCTRL_PIN(DNAND_RDB, "dnand_rdb"),
  326. PINCTRL_PIN(DNAND_RDBN, "dnand_rdbn"),
  327. PINCTRL_PIN(DNAND_DQS, "dnand_dqs"),
  328. PINCTRL_PIN(DNAND_DQSN, "dnand_dqsn"),
  329. PINCTRL_PIN(DNAND_RB0, "dnand_rb0"),
  330. PINCTRL_PIN(DNAND_ALE, "dnand_ale"),
  331. PINCTRL_PIN(DNAND_CLE, "dnand_cle"),
  332. PINCTRL_PIN(DNAND_CEB0, "dnand_ceb0"),
  333. PINCTRL_PIN(DNAND_CEB1, "dnand_ceb1"),
  334. PINCTRL_PIN(DNAND_CEB2, "dnand_ceb2"),
  335. PINCTRL_PIN(DNAND_CEB3, "dnand_ceb3"),
  336. PINCTRL_PIN(PORB, "porb"),
  337. PINCTRL_PIN(CLKO_25M, "clko_25m"),
  338. PINCTRL_PIN(BSEL, "bsel"),
  339. PINCTRL_PIN(PKG0, "pkg0"),
  340. PINCTRL_PIN(PKG1, "pkg1"),
  341. PINCTRL_PIN(PKG2, "pkg2"),
  342. PINCTRL_PIN(PKG3, "pkg3"),
  343. };
  344. enum s700_pinmux_functions {
  345. S700_MUX_NOR,
  346. S700_MUX_ETH_RGMII,
  347. S700_MUX_ETH_SGMII,
  348. S700_MUX_SPI0,
  349. S700_MUX_SPI1,
  350. S700_MUX_SPI2,
  351. S700_MUX_SPI3,
  352. S700_MUX_SENS0,
  353. S700_MUX_SENS1,
  354. S700_MUX_UART0,
  355. S700_MUX_UART1,
  356. S700_MUX_UART2,
  357. S700_MUX_UART3,
  358. S700_MUX_UART4,
  359. S700_MUX_UART5,
  360. S700_MUX_UART6,
  361. S700_MUX_I2S0,
  362. S700_MUX_I2S1,
  363. S700_MUX_PCM1,
  364. S700_MUX_PCM0,
  365. S700_MUX_KS,
  366. S700_MUX_JTAG,
  367. S700_MUX_PWM0,
  368. S700_MUX_PWM1,
  369. S700_MUX_PWM2,
  370. S700_MUX_PWM3,
  371. S700_MUX_PWM4,
  372. S700_MUX_PWM5,
  373. S700_MUX_P0,
  374. S700_MUX_SD0,
  375. S700_MUX_SD1,
  376. S700_MUX_SD2,
  377. S700_MUX_I2C0,
  378. S700_MUX_I2C1,
  379. S700_MUX_I2C2,
  380. S700_MUX_I2C3,
  381. S700_MUX_DSI,
  382. S700_MUX_LVDS,
  383. S700_MUX_USB30,
  384. S700_MUX_CLKO_25M,
  385. S700_MUX_MIPI_CSI,
  386. S700_MUX_NAND,
  387. S700_MUX_SPDIF,
  388. S700_MUX_SIRQ0,
  389. S700_MUX_SIRQ1,
  390. S700_MUX_SIRQ2,
  391. S700_MUX_BT,
  392. S700_MUX_LCD0,
  393. S700_MUX_RESERVED,
  394. };
  395. /* mfp0_31_30 reserved */
  396. /* rgmii_txd23 */
  397. static unsigned int rgmii_txd23_mfp_pads[] = { ETH_TXD2, ETH_TXD3};
  398. static unsigned int rgmii_txd23_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  399. S700_MUX_I2C1,
  400. S700_MUX_UART3 };
  401. /* rgmii_rxd2 */
  402. static unsigned int rgmii_rxd2_mfp_pads[] = { ETH_RXD2 };
  403. static unsigned int rgmii_rxd2_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  404. S700_MUX_PWM0,
  405. S700_MUX_UART3 };
  406. /* rgmii_rxd3 */
  407. static unsigned int rgmii_rxd3_mfp_pads[] = { ETH_RXD3};
  408. static unsigned int rgmii_rxd3_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  409. S700_MUX_PWM2,
  410. S700_MUX_UART3 };
  411. /* lcd0_d18 */
  412. static unsigned int lcd0_d18_mfp_pads[] = { LCD0_D18 };
  413. static unsigned int lcd0_d18_mfp_funcs[] = { S700_MUX_NOR,
  414. S700_MUX_SENS1,
  415. S700_MUX_PWM2,
  416. S700_MUX_PWM4,
  417. S700_MUX_LCD0 };
  418. /* rgmii_txd01 */
  419. static unsigned int rgmii_txd01_mfp_pads[] = { ETH_CRS_DV };
  420. static unsigned int rgmii_txd01_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  421. S700_MUX_RESERVED,
  422. S700_MUX_SPI2,
  423. S700_MUX_UART4,
  424. S700_MUX_PWM4 };
  425. /* rgmii_txd0 */
  426. static unsigned int rgmii_txd0_mfp_pads[] = { ETH_TXD0 };
  427. static unsigned int rgmii_txd0_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  428. S700_MUX_ETH_SGMII,
  429. S700_MUX_SPI2,
  430. S700_MUX_UART6,
  431. S700_MUX_PWM4 };
  432. /* rgmii_txd1 */
  433. static unsigned int rgmii_txd1_mfp_pads[] = { ETH_TXD1 };
  434. static unsigned int rgmii_txd1_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  435. S700_MUX_ETH_SGMII,
  436. S700_MUX_SPI2,
  437. S700_MUX_UART6,
  438. S700_MUX_PWM5 };
  439. /* rgmii_txen */
  440. static unsigned int rgmii_txen_mfp_pads[] = { ETH_TXEN };
  441. static unsigned int rgmii_txen_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  442. S700_MUX_UART2,
  443. S700_MUX_SPI3,
  444. S700_MUX_PWM0 };
  445. /* rgmii_rxen */
  446. static unsigned int rgmii_rxen_mfp_pads[] = { ETH_RXER };
  447. static unsigned int rgmii_rxen_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  448. S700_MUX_UART2,
  449. S700_MUX_SPI3,
  450. S700_MUX_PWM1 };
  451. /* mfp0_12_11 reserved */
  452. /* rgmii_rxd1*/
  453. static unsigned int rgmii_rxd1_mfp_pads[] = { ETH_RXD1 };
  454. static unsigned int rgmii_rxd1_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  455. S700_MUX_UART2,
  456. S700_MUX_SPI3,
  457. S700_MUX_PWM2,
  458. S700_MUX_UART5,
  459. S700_MUX_ETH_SGMII };
  460. /* rgmii_rxd0 */
  461. static unsigned int rgmii_rxd0_mfp_pads[] = { ETH_RXD0 };
  462. static unsigned int rgmii_rxd0_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  463. S700_MUX_UART2,
  464. S700_MUX_SPI3,
  465. S700_MUX_PWM3,
  466. S700_MUX_UART5,
  467. S700_MUX_ETH_SGMII };
  468. /* rgmii_ref_clk */
  469. static unsigned int rgmii_ref_clk_mfp_pads[] = { ETH_REF_CLK };
  470. static unsigned int rgmii_ref_clk_mfp_funcs[] = { S700_MUX_ETH_RGMII,
  471. S700_MUX_UART4,
  472. S700_MUX_SPI2,
  473. S700_MUX_RESERVED,
  474. S700_MUX_ETH_SGMII };
  475. /* i2s_d0 */
  476. static unsigned int i2s_d0_mfp_pads[] = { I2S_D0 };
  477. static unsigned int i2s_d0_mfp_funcs[] = { S700_MUX_I2S0,
  478. S700_MUX_NOR };
  479. /* i2s_pcm1 */
  480. static unsigned int i2s_pcm1_mfp_pads[] = { I2S_LRCLK0,
  481. I2S_MCLK0 };
  482. static unsigned int i2s_pcm1_mfp_funcs[] = { S700_MUX_I2S0,
  483. S700_MUX_NOR,
  484. S700_MUX_PCM1,
  485. S700_MUX_BT };
  486. /* i2s0_pcm0 */
  487. static unsigned int i2s0_pcm0_mfp_pads[] = { I2S_BCLK0 };
  488. static unsigned int i2s0_pcm0_mfp_funcs[] = { S700_MUX_I2S0,
  489. S700_MUX_NOR,
  490. S700_MUX_PCM0,
  491. S700_MUX_BT };
  492. /* i2s1_pcm0 */
  493. static unsigned int i2s1_pcm0_mfp_pads[] = { I2S_BCLK1,
  494. I2S_LRCLK1,
  495. I2S_MCLK1 };
  496. static unsigned int i2s1_pcm0_mfp_funcs[] = { S700_MUX_I2S1,
  497. S700_MUX_NOR,
  498. S700_MUX_PCM0,
  499. S700_MUX_BT };
  500. /* i2s_d1 */
  501. static unsigned int i2s_d1_mfp_pads[] = { I2S_D1 };
  502. static unsigned int i2s_d1_mfp_funcs[] = { S700_MUX_I2S1,
  503. S700_MUX_NOR };
  504. /* ks_in2 */
  505. static unsigned int ks_in2_mfp_pads[] = { KS_IN2 };
  506. static unsigned int ks_in2_mfp_funcs[] = { S700_MUX_KS,
  507. S700_MUX_JTAG,
  508. S700_MUX_NOR,
  509. S700_MUX_BT,
  510. S700_MUX_PWM0,
  511. S700_MUX_SENS1,
  512. S700_MUX_PWM0,
  513. S700_MUX_P0 };
  514. /* ks_in1 */
  515. static unsigned int ks_in1_mfp_pads[] = { KS_IN1 };
  516. static unsigned int ks_in1_mfp_funcs[] = { S700_MUX_KS,
  517. S700_MUX_JTAG,
  518. S700_MUX_NOR,
  519. S700_MUX_BT,
  520. S700_MUX_PWM5,
  521. S700_MUX_SENS1,
  522. S700_MUX_PWM1,
  523. S700_MUX_USB30 };
  524. /* ks_in0 */
  525. static unsigned int ks_in0_mfp_pads[] = { KS_IN0 };
  526. static unsigned int ks_in0_mfp_funcs[] = { S700_MUX_KS,
  527. S700_MUX_JTAG,
  528. S700_MUX_NOR,
  529. S700_MUX_BT,
  530. S700_MUX_PWM4,
  531. S700_MUX_SENS1,
  532. S700_MUX_PWM4,
  533. S700_MUX_P0 };
  534. /* ks_in3 */
  535. static unsigned int ks_in3_mfp_pads[] = { KS_IN3 };
  536. static unsigned int ks_in3_mfp_funcs[] = { S700_MUX_KS,
  537. S700_MUX_JTAG,
  538. S700_MUX_NOR,
  539. S700_MUX_PWM1,
  540. S700_MUX_BT,
  541. S700_MUX_SENS1 };
  542. /* ks_out0 */
  543. static unsigned int ks_out0_mfp_pads[] = { KS_OUT0 };
  544. static unsigned int ks_out0_mfp_funcs[] = { S700_MUX_KS,
  545. S700_MUX_UART5,
  546. S700_MUX_NOR,
  547. S700_MUX_PWM2,
  548. S700_MUX_BT,
  549. S700_MUX_SENS1,
  550. S700_MUX_SD0,
  551. S700_MUX_UART4 };
  552. /* ks_out1 */
  553. static unsigned int ks_out1_mfp_pads[] = { KS_OUT1 };
  554. static unsigned int ks_out1_mfp_funcs[] = { S700_MUX_KS,
  555. S700_MUX_JTAG,
  556. S700_MUX_NOR,
  557. S700_MUX_PWM3,
  558. S700_MUX_BT,
  559. S700_MUX_SENS1,
  560. S700_MUX_SD0,
  561. S700_MUX_UART4 };
  562. /* ks_out2 */
  563. static unsigned int ks_out2_mfp_pads[] = { KS_OUT2 };
  564. static unsigned int ks_out2_mfp_funcs[] = { S700_MUX_SD0,
  565. S700_MUX_KS,
  566. S700_MUX_NOR,
  567. S700_MUX_PWM2,
  568. S700_MUX_UART5,
  569. S700_MUX_SENS1,
  570. S700_MUX_BT };
  571. /* lvds_o_pn */
  572. static unsigned int lvds_o_pn_mfp_pads[] = { LVDS_OEP,
  573. LVDS_OEN,
  574. LVDS_ODP,
  575. LVDS_ODN,
  576. LVDS_OCP,
  577. LVDS_OCN,
  578. LVDS_OBP,
  579. LVDS_OBN,
  580. LVDS_OAP,
  581. LVDS_OAN };
  582. static unsigned int lvds_o_pn_mfp_funcs[] = { S700_MUX_LVDS,
  583. S700_MUX_BT,
  584. S700_MUX_LCD0 };
  585. /* dsi_dn0 */
  586. static unsigned int dsi_dn0_mfp_pads[] = { DSI_DN0 };
  587. static unsigned int dsi_dn0_mfp_funcs[] = { S700_MUX_DSI,
  588. S700_MUX_UART2,
  589. S700_MUX_SPI0 };
  590. /* dsi_dp2 */
  591. static unsigned int dsi_dp2_mfp_pads[] = { DSI_DP2 };
  592. static unsigned int dsi_dp2_mfp_funcs[] = { S700_MUX_DSI,
  593. S700_MUX_UART2,
  594. S700_MUX_SPI0,
  595. S700_MUX_SD1 };
  596. /* lcd0_d2 */
  597. static unsigned int lcd0_d2_mfp_pads[] = { LCD0_D2 };
  598. static unsigned int lcd0_d2_mfp_funcs[] = { S700_MUX_NOR,
  599. S700_MUX_SD0,
  600. S700_MUX_RESERVED,
  601. S700_MUX_PWM3,
  602. S700_MUX_LCD0 };
  603. /* dsi_dp3 */
  604. static unsigned int dsi_dp3_mfp_pads[] = { DSI_DP3 };
  605. static unsigned int dsi_dp3_mfp_funcs[] = { S700_MUX_DSI,
  606. S700_MUX_SD0,
  607. S700_MUX_SD1,
  608. S700_MUX_LCD0 };
  609. /* dsi_dn3 */
  610. static unsigned int dsi_dn3_mfp_pads[] = { DSI_DN3 };
  611. static unsigned int dsi_dn3_mfp_funcs[] = { S700_MUX_DSI,
  612. S700_MUX_SD0,
  613. S700_MUX_SD1,
  614. S700_MUX_LCD0 };
  615. /* dsi_dp0 */
  616. static unsigned int dsi_dp0_mfp_pads[] = { DSI_DP0 };
  617. static unsigned int dsi_dp0_mfp_funcs[] = { S700_MUX_DSI,
  618. S700_MUX_RESERVED,
  619. S700_MUX_SD0,
  620. S700_MUX_UART2,
  621. S700_MUX_SPI0 };
  622. /* lvds_ee_pn */
  623. static unsigned int lvds_ee_pn_mfp_pads[] = { LVDS_EEP,
  624. LVDS_EEN };
  625. static unsigned int lvds_ee_pn_mfp_funcs[] = { S700_MUX_LVDS,
  626. S700_MUX_NOR,
  627. S700_MUX_BT,
  628. S700_MUX_LCD0 };
  629. /* uart2_rx_tx */
  630. static unsigned int uart2_rx_tx_mfp_pads[] = { UART2_RX,
  631. UART2_TX };
  632. static unsigned int uart2_rx_tx_mfp_funcs[] = { S700_MUX_UART2,
  633. S700_MUX_NOR,
  634. S700_MUX_SPI0,
  635. S700_MUX_PCM0 };
  636. /* spi0_i2c_pcm */
  637. static unsigned int spi0_i2c_pcm_mfp_pads[] = { SPI0_SS,
  638. SPI0_MISO };
  639. static unsigned int spi0_i2c_pcm_mfp_funcs[] = { S700_MUX_SPI0,
  640. S700_MUX_NOR,
  641. S700_MUX_I2S1,
  642. S700_MUX_PCM1,
  643. S700_MUX_PCM0,
  644. S700_MUX_I2C2 };
  645. /* mfp2_31 reserved */
  646. /* dsi_dnp1_cp_d2 */
  647. static unsigned int dsi_dnp1_cp_d2_mfp_pads[] = { DSI_DP1,
  648. DSI_CP,
  649. DSI_CN };
  650. static unsigned int dsi_dnp1_cp_d2_mfp_funcs[] = { S700_MUX_DSI,
  651. S700_MUX_LCD0,
  652. S700_MUX_RESERVED };
  653. /* dsi_dnp1_cp_d17 */
  654. static unsigned int dsi_dnp1_cp_d17_mfp_pads[] = { DSI_DP1,
  655. DSI_CP,
  656. DSI_CN };
  657. static unsigned int dsi_dnp1_cp_d17_mfp_funcs[] = { S700_MUX_DSI,
  658. S700_MUX_RESERVED,
  659. S700_MUX_LCD0 };
  660. /* lvds_e_pn */
  661. static unsigned int lvds_e_pn_mfp_pads[] = { LVDS_EDP,
  662. LVDS_EDN,
  663. LVDS_ECP,
  664. LVDS_ECN,
  665. LVDS_EBP,
  666. LVDS_EBN,
  667. LVDS_EAP,
  668. LVDS_EAN };
  669. static unsigned int lvds_e_pn_mfp_funcs[] = { S700_MUX_LVDS,
  670. S700_MUX_NOR,
  671. S700_MUX_LCD0 };
  672. /* dsi_dn2 */
  673. static unsigned int dsi_dn2_mfp_pads[] = { DSI_DN2 };
  674. static unsigned int dsi_dn2_mfp_funcs[] = { S700_MUX_DSI,
  675. S700_MUX_RESERVED,
  676. S700_MUX_SD1,
  677. S700_MUX_UART2,
  678. S700_MUX_SPI0 };
  679. /* uart2_rtsb */
  680. static unsigned int uart2_rtsb_mfp_pads[] = { UART2_RTSB };
  681. static unsigned int uart2_rtsb_mfp_funcs[] = { S700_MUX_UART2,
  682. S700_MUX_UART0 };
  683. /* uart2_ctsb */
  684. static unsigned int uart2_ctsb_mfp_pads[] = { UART2_CTSB };
  685. static unsigned int uart2_ctsb_mfp_funcs[] = { S700_MUX_UART2,
  686. S700_MUX_UART0 };
  687. /* uart3_rtsb */
  688. static unsigned int uart3_rtsb_mfp_pads[] = { UART3_RTSB };
  689. static unsigned int uart3_rtsb_mfp_funcs[] = { S700_MUX_UART3,
  690. S700_MUX_UART5 };
  691. /* uart3_ctsb */
  692. static unsigned int uart3_ctsb_mfp_pads[] = { UART3_CTSB };
  693. static unsigned int uart3_ctsb_mfp_funcs[] = { S700_MUX_UART3,
  694. S700_MUX_UART5 };
  695. /* sd0_d0 */
  696. static unsigned int sd0_d0_mfp_pads[] = { SD0_D0 };
  697. static unsigned int sd0_d0_mfp_funcs[] = { S700_MUX_SD0,
  698. S700_MUX_NOR,
  699. S700_MUX_RESERVED,
  700. S700_MUX_JTAG,
  701. S700_MUX_UART2,
  702. S700_MUX_UART5 };
  703. /* sd0_d1 */
  704. static unsigned int sd0_d1_mfp_pads[] = { SD0_D1 };
  705. static unsigned int sd0_d1_mfp_funcs[] = { S700_MUX_SD0,
  706. S700_MUX_NOR,
  707. S700_MUX_RESERVED,
  708. S700_MUX_RESERVED,
  709. S700_MUX_UART2,
  710. S700_MUX_UART5 };
  711. /* sd0_d2_d3 */
  712. static unsigned int sd0_d2_d3_mfp_pads[] = { SD0_D2,
  713. SD0_D3 };
  714. static unsigned int sd0_d2_d3_mfp_funcs[] = { S700_MUX_SD0,
  715. S700_MUX_NOR,
  716. S700_MUX_RESERVED,
  717. S700_MUX_JTAG,
  718. S700_MUX_UART2,
  719. S700_MUX_UART1 };
  720. /* sd1_d0_d3 */
  721. static unsigned int sd1_d0_d3_mfp_pads[] = { SD1_D0,
  722. SD1_D1,
  723. SD1_D2,
  724. SD1_D3 };
  725. static unsigned int sd1_d0_d3_mfp_funcs[] = { S700_MUX_SD0,
  726. S700_MUX_NOR,
  727. S700_MUX_RESERVED,
  728. S700_MUX_SD1 };
  729. /* sd0_cmd */
  730. static unsigned int sd0_cmd_mfp_pads[] = { SD0_CMD };
  731. static unsigned int sd0_cmd_mfp_funcs[] = { S700_MUX_SD0,
  732. S700_MUX_NOR,
  733. S700_MUX_RESERVED,
  734. S700_MUX_JTAG };
  735. /* sd0_clk */
  736. static unsigned int sd0_clk_mfp_pads[] = { SD0_CLK };
  737. static unsigned int sd0_clk_mfp_funcs[] = { S700_MUX_SD0,
  738. S700_MUX_RESERVED,
  739. S700_MUX_JTAG };
  740. /* sd1_cmd */
  741. static unsigned int sd1_cmd_mfp_pads[] = { SD1_CMD };
  742. static unsigned int sd1_cmd_mfp_funcs[] = { S700_MUX_SD1,
  743. S700_MUX_NOR };
  744. /* uart0_rx */
  745. static unsigned int uart0_rx_mfp_pads[] = { UART0_RX };
  746. static unsigned int uart0_rx_mfp_funcs[] = { S700_MUX_UART0,
  747. S700_MUX_UART2,
  748. S700_MUX_SPI1,
  749. S700_MUX_I2C0,
  750. S700_MUX_PCM1,
  751. S700_MUX_I2S1 };
  752. /* dnand_data_wr1 reserved */
  753. /* clko_25m */
  754. static unsigned int clko_25m_mfp_pads[] = { CLKO_25M };
  755. static unsigned int clko_25m_mfp_funcs[] = { S700_MUX_RESERVED,
  756. S700_MUX_CLKO_25M };
  757. /* csi_cn_cp */
  758. static unsigned int csi_cn_cp_mfp_pads[] = { CSI_CN,
  759. CSI_CP };
  760. static unsigned int csi_cn_cp_mfp_funcs[] = { S700_MUX_MIPI_CSI,
  761. S700_MUX_SENS0 };
  762. /* dnand_acle_ce07_24 reserved */
  763. /* sens0_ckout */
  764. static unsigned int sens0_ckout_mfp_pads[] = { SENSOR0_CKOUT };
  765. static unsigned int sens0_ckout_mfp_funcs[] = { S700_MUX_SENS0,
  766. S700_MUX_NOR,
  767. S700_MUX_SENS1,
  768. S700_MUX_PWM1 };
  769. /* uart0_tx */
  770. static unsigned int uart0_tx_mfp_pads[] = { UART0_TX };
  771. static unsigned int uart0_tx_mfp_funcs[] = { S700_MUX_UART0,
  772. S700_MUX_UART2,
  773. S700_MUX_SPI1,
  774. S700_MUX_I2C0,
  775. S700_MUX_SPDIF,
  776. S700_MUX_PCM1,
  777. S700_MUX_I2S1 };
  778. /* i2c0_mfp */
  779. static unsigned int i2c0_mfp_pads[] = { I2C0_SCLK,
  780. I2C0_SDATA };
  781. static unsigned int i2c0_mfp_funcs[] = { S700_MUX_I2C0,
  782. S700_MUX_UART2,
  783. S700_MUX_I2C1,
  784. S700_MUX_UART1,
  785. S700_MUX_SPI1 };
  786. /* csi_dn_dp */
  787. static unsigned int csi_dn_dp_mfp_pads[] = { CSI_DN0,
  788. CSI_DN1,
  789. CSI_DN2,
  790. CSI_DN3,
  791. CSI_DP0,
  792. CSI_DP1,
  793. CSI_DP2,
  794. CSI_DP3 };
  795. static unsigned int csi_dn_dp_mfp_funcs[] = { S700_MUX_MIPI_CSI,
  796. S700_MUX_SENS0 };
  797. /* sen0_pclk */
  798. static unsigned int sen0_pclk_mfp_pads[] = { SENSOR0_PCLK };
  799. static unsigned int sen0_pclk_mfp_funcs[] = { S700_MUX_SENS0,
  800. S700_MUX_NOR,
  801. S700_MUX_PWM0 };
  802. /* pcm1_in */
  803. static unsigned int pcm1_in_mfp_pads[] = { PCM1_IN };
  804. static unsigned int pcm1_in_mfp_funcs[] = { S700_MUX_PCM1,
  805. S700_MUX_SENS1,
  806. S700_MUX_BT,
  807. S700_MUX_PWM4 };
  808. /* pcm1_clk */
  809. static unsigned int pcm1_clk_mfp_pads[] = { PCM1_CLK };
  810. static unsigned int pcm1_clk_mfp_funcs[] = { S700_MUX_PCM1,
  811. S700_MUX_SENS1,
  812. S700_MUX_BT,
  813. S700_MUX_PWM5 };
  814. /* pcm1_sync */
  815. static unsigned int pcm1_sync_mfp_pads[] = { PCM1_SYNC };
  816. static unsigned int pcm1_sync_mfp_funcs[] = { S700_MUX_PCM1,
  817. S700_MUX_SENS1,
  818. S700_MUX_BT,
  819. S700_MUX_I2C3 };
  820. /* pcm1_out */
  821. static unsigned int pcm1_out_mfp_pads[] = { PCM1_OUT };
  822. static unsigned int pcm1_out_mfp_funcs[] = { S700_MUX_PCM1,
  823. S700_MUX_SENS1,
  824. S700_MUX_BT,
  825. S700_MUX_I2C3 };
  826. /* dnand_data_wr */
  827. static unsigned int dnand_data_wr_mfp_pads[] = { DNAND_D0,
  828. DNAND_D1,
  829. DNAND_D2,
  830. DNAND_D3,
  831. DNAND_D4,
  832. DNAND_D5,
  833. DNAND_D6,
  834. DNAND_D7,
  835. DNAND_RDB,
  836. DNAND_RDBN };
  837. static unsigned int dnand_data_wr_mfp_funcs[] = { S700_MUX_NAND,
  838. S700_MUX_SD2 };
  839. /* dnand_acle_ce0 */
  840. static unsigned int dnand_acle_ce0_mfp_pads[] = { DNAND_ALE,
  841. DNAND_CLE,
  842. DNAND_CEB0,
  843. DNAND_CEB1 };
  844. static unsigned int dnand_acle_ce0_mfp_funcs[] = { S700_MUX_NAND,
  845. S700_MUX_SPI2 };
  846. /* nand_ceb2 */
  847. static unsigned int nand_ceb2_mfp_pads[] = { DNAND_CEB2 };
  848. static unsigned int nand_ceb2_mfp_funcs[] = { S700_MUX_NAND,
  849. S700_MUX_PWM5 };
  850. /* nand_ceb3 */
  851. static unsigned int nand_ceb3_mfp_pads[] = { DNAND_CEB3 };
  852. static unsigned int nand_ceb3_mfp_funcs[] = { S700_MUX_NAND,
  853. S700_MUX_PWM4 };
  854. /*****End MFP group data****************************/
  855. /*****PADDRV group data****************************/
  856. /*PAD_DRV0*/
  857. static unsigned int sirq_drv_pads[] = { SIRQ0,
  858. SIRQ1,
  859. SIRQ2 };
  860. static unsigned int rgmii_txd23_drv_pads[] = { ETH_TXD2,
  861. ETH_TXD3 };
  862. static unsigned int rgmii_rxd23_drv_pads[] = { ETH_RXD2,
  863. ETH_RXD3 };
  864. static unsigned int rgmii_txd01_txen_drv_pads[] = { ETH_TXD0,
  865. ETH_TXD1,
  866. ETH_TXEN };
  867. static unsigned int rgmii_rxer_drv_pads[] = { ETH_RXER };
  868. static unsigned int rgmii_crs_drv_pads[] = { ETH_CRS_DV };
  869. static unsigned int rgmii_rxd10_drv_pads[] = { ETH_RXD0,
  870. ETH_RXD1 };
  871. static unsigned int rgmii_ref_clk_drv_pads[] = { ETH_REF_CLK };
  872. static unsigned int smi_mdc_mdio_drv_pads[] = { ETH_MDC,
  873. ETH_MDIO };
  874. static unsigned int i2s_d0_drv_pads[] = { I2S_D0 };
  875. static unsigned int i2s_bclk0_drv_pads[] = { I2S_BCLK0 };
  876. static unsigned int i2s3_drv_pads[] = { I2S_LRCLK0,
  877. I2S_MCLK0,
  878. I2S_D1 };
  879. static unsigned int i2s13_drv_pads[] = { I2S_BCLK1,
  880. I2S_LRCLK1,
  881. I2S_MCLK1 };
  882. static unsigned int pcm1_drv_pads[] = { PCM1_IN,
  883. PCM1_CLK,
  884. PCM1_SYNC,
  885. PCM1_OUT };
  886. static unsigned int ks_in_drv_pads[] = { KS_IN0,
  887. KS_IN1,
  888. KS_IN2,
  889. KS_IN3 };
  890. /*PAD_DRV1*/
  891. static unsigned int ks_out_drv_pads[] = { KS_OUT0,
  892. KS_OUT1,
  893. KS_OUT2 };
  894. static unsigned int lvds_all_drv_pads[] = { LVDS_OEP,
  895. LVDS_OEN,
  896. LVDS_ODP,
  897. LVDS_ODN,
  898. LVDS_OCP,
  899. LVDS_OCN,
  900. LVDS_OBP,
  901. LVDS_OBN,
  902. LVDS_OAP,
  903. LVDS_OAN,
  904. LVDS_EEP,
  905. LVDS_EEN,
  906. LVDS_EDP,
  907. LVDS_EDN,
  908. LVDS_ECP,
  909. LVDS_ECN,
  910. LVDS_EBP,
  911. LVDS_EBN,
  912. LVDS_EAP,
  913. LVDS_EAN };
  914. static unsigned int lcd_d18_d2_drv_pads[] = { LCD0_D18,
  915. LCD0_D2 };
  916. static unsigned int dsi_all_drv_pads[] = { DSI_DP0,
  917. DSI_DN0,
  918. DSI_DP2,
  919. DSI_DN2,
  920. DSI_DP3,
  921. DSI_DN3,
  922. DSI_DP1,
  923. DSI_DN1,
  924. DSI_CP,
  925. DSI_CN };
  926. static unsigned int sd0_d0_d3_drv_pads[] = { SD0_D0,
  927. SD0_D1,
  928. SD0_D2,
  929. SD0_D3 };
  930. static unsigned int sd0_cmd_drv_pads[] = { SD0_CMD };
  931. static unsigned int sd0_clk_drv_pads[] = { SD0_CLK };
  932. static unsigned int spi0_all_drv_pads[] = { SPI0_SS,
  933. SPI0_MISO };
  934. /*PAD_DRV2*/
  935. static unsigned int uart0_rx_drv_pads[] = { UART0_RX };
  936. static unsigned int uart0_tx_drv_pads[] = { UART0_TX };
  937. static unsigned int uart2_all_drv_pads[] = { UART2_RX,
  938. UART2_TX,
  939. UART2_RTSB,
  940. UART2_CTSB };
  941. static unsigned int i2c0_all_drv_pads[] = { I2C0_SCLK,
  942. I2C0_SDATA };
  943. static unsigned int i2c12_all_drv_pads[] = { I2C1_SCLK,
  944. I2C1_SDATA,
  945. I2C2_SCLK,
  946. I2C2_SDATA };
  947. static unsigned int sens0_pclk_drv_pads[] = { SENSOR0_PCLK };
  948. static unsigned int sens0_ckout_drv_pads[] = { SENSOR0_CKOUT };
  949. static unsigned int uart3_all_drv_pads[] = { UART3_RX,
  950. UART3_TX,
  951. UART3_RTSB,
  952. UART3_CTSB };
  953. /* all pinctrl groups of S700 board */
  954. static const struct owl_pingroup s700_groups[] = {
  955. MUX_PG(rgmii_txd23_mfp, 0, 28, 2),
  956. MUX_PG(rgmii_rxd2_mfp, 0, 26, 2),
  957. MUX_PG(rgmii_rxd3_mfp, 0, 26, 2),
  958. MUX_PG(lcd0_d18_mfp, 0, 23, 3),
  959. MUX_PG(rgmii_txd01_mfp, 0, 20, 3),
  960. MUX_PG(rgmii_txd0_mfp, 0, 16, 3),
  961. MUX_PG(rgmii_txd1_mfp, 0, 16, 3),
  962. MUX_PG(rgmii_txen_mfp, 0, 13, 3),
  963. MUX_PG(rgmii_rxen_mfp, 0, 13, 3),
  964. MUX_PG(rgmii_rxd1_mfp, 0, 8, 3),
  965. MUX_PG(rgmii_rxd0_mfp, 0, 8, 3),
  966. MUX_PG(rgmii_ref_clk_mfp, 0, 6, 2),
  967. MUX_PG(i2s_d0_mfp, 0, 5, 1),
  968. MUX_PG(i2s_pcm1_mfp, 0, 3, 2),
  969. MUX_PG(i2s0_pcm0_mfp, 0, 1, 2),
  970. MUX_PG(i2s1_pcm0_mfp, 0, 1, 2),
  971. MUX_PG(i2s_d1_mfp, 0, 0, 1),
  972. MUX_PG(ks_in2_mfp, 1, 29, 3),
  973. MUX_PG(ks_in1_mfp, 1, 29, 3),
  974. MUX_PG(ks_in0_mfp, 1, 29, 3),
  975. MUX_PG(ks_in3_mfp, 1, 26, 3),
  976. MUX_PG(ks_out0_mfp, 1, 26, 3),
  977. MUX_PG(ks_out1_mfp, 1, 26, 3),
  978. MUX_PG(ks_out2_mfp, 1, 23, 3),
  979. MUX_PG(lvds_o_pn_mfp, 1, 21, 2),
  980. MUX_PG(dsi_dn0_mfp, 1, 19, 2),
  981. MUX_PG(dsi_dp2_mfp, 1, 17, 2),
  982. MUX_PG(lcd0_d2_mfp, 1, 14, 3),
  983. MUX_PG(dsi_dp3_mfp, 1, 12, 2),
  984. MUX_PG(dsi_dn3_mfp, 1, 10, 2),
  985. MUX_PG(dsi_dp0_mfp, 1, 7, 3),
  986. MUX_PG(lvds_ee_pn_mfp, 1, 5, 2),
  987. MUX_PG(uart2_rx_tx_mfp, 1, 3, 2),
  988. MUX_PG(spi0_i2c_pcm_mfp, 1, 0, 3),
  989. MUX_PG(dsi_dnp1_cp_d2_mfp, 2, 29, 2),
  990. MUX_PG(dsi_dnp1_cp_d17_mfp, 2, 29, 2),
  991. MUX_PG(lvds_e_pn_mfp, 2, 27, 2),
  992. MUX_PG(dsi_dn2_mfp, 2, 24, 3),
  993. MUX_PG(uart2_rtsb_mfp, 2, 23, 1),
  994. MUX_PG(uart2_ctsb_mfp, 2, 22, 1),
  995. MUX_PG(uart3_rtsb_mfp, 2, 21, 1),
  996. MUX_PG(uart3_ctsb_mfp, 2, 20, 1),
  997. MUX_PG(sd0_d0_mfp, 2, 17, 3),
  998. MUX_PG(sd0_d1_mfp, 2, 14, 3),
  999. MUX_PG(sd0_d2_d3_mfp, 2, 11, 3),
  1000. MUX_PG(sd1_d0_d3_mfp, 2, 9, 2),
  1001. MUX_PG(sd0_cmd_mfp, 2, 7, 2),
  1002. MUX_PG(sd0_clk_mfp, 2, 5, 2),
  1003. MUX_PG(sd1_cmd_mfp, 2, 3, 2),
  1004. MUX_PG(uart0_rx_mfp, 2, 0, 3),
  1005. MUX_PG(clko_25m_mfp, 3, 30, 1),
  1006. MUX_PG(csi_cn_cp_mfp, 3, 28, 2),
  1007. MUX_PG(sens0_ckout_mfp, 3, 22, 2),
  1008. MUX_PG(uart0_tx_mfp, 3, 19, 3),
  1009. MUX_PG(i2c0_mfp, 3, 16, 3),
  1010. MUX_PG(csi_dn_dp_mfp, 3, 14, 2),
  1011. MUX_PG(sen0_pclk_mfp, 3, 12, 2),
  1012. MUX_PG(pcm1_in_mfp, 3, 10, 2),
  1013. MUX_PG(pcm1_clk_mfp, 3, 8, 2),
  1014. MUX_PG(pcm1_sync_mfp, 3, 6, 2),
  1015. MUX_PG(pcm1_out_mfp, 3, 4, 2),
  1016. MUX_PG(dnand_data_wr_mfp, 3, 3, 1),
  1017. MUX_PG(dnand_acle_ce0_mfp, 3, 2, 1),
  1018. MUX_PG(nand_ceb2_mfp, 3, 0, 2),
  1019. MUX_PG(nand_ceb3_mfp, 3, 0, 2),
  1020. DRV_PG(sirq_drv, 0, 28, 2),
  1021. DRV_PG(rgmii_txd23_drv, 0, 26, 2),
  1022. DRV_PG(rgmii_rxd23_drv, 0, 24, 2),
  1023. DRV_PG(rgmii_txd01_txen_drv, 0, 22, 2),
  1024. DRV_PG(rgmii_rxer_drv, 0, 20, 2),
  1025. DRV_PG(rgmii_crs_drv, 0, 18, 2),
  1026. DRV_PG(rgmii_rxd10_drv, 0, 16, 2),
  1027. DRV_PG(rgmii_ref_clk_drv, 0, 14, 2),
  1028. DRV_PG(smi_mdc_mdio_drv, 0, 12, 2),
  1029. DRV_PG(i2s_d0_drv, 0, 10, 2),
  1030. DRV_PG(i2s_bclk0_drv, 0, 8, 2),
  1031. DRV_PG(i2s3_drv, 0, 6, 2),
  1032. DRV_PG(i2s13_drv, 0, 4, 2),
  1033. DRV_PG(pcm1_drv, 0, 2, 2),
  1034. DRV_PG(ks_in_drv, 0, 0, 2),
  1035. DRV_PG(ks_out_drv, 1, 30, 2),
  1036. DRV_PG(lvds_all_drv, 1, 28, 2),
  1037. DRV_PG(lcd_d18_d2_drv, 1, 26, 2),
  1038. DRV_PG(dsi_all_drv, 1, 24, 2),
  1039. DRV_PG(sd0_d0_d3_drv, 1, 22, 2),
  1040. DRV_PG(sd0_cmd_drv, 1, 18, 2),
  1041. DRV_PG(sd0_clk_drv, 1, 16, 2),
  1042. DRV_PG(spi0_all_drv, 1, 10, 2),
  1043. DRV_PG(uart0_rx_drv, 2, 30, 2),
  1044. DRV_PG(uart0_tx_drv, 2, 28, 2),
  1045. DRV_PG(uart2_all_drv, 2, 26, 2),
  1046. DRV_PG(i2c0_all_drv, 2, 23, 2),
  1047. DRV_PG(i2c12_all_drv, 2, 21, 2),
  1048. DRV_PG(sens0_pclk_drv, 2, 18, 2),
  1049. DRV_PG(sens0_ckout_drv, 2, 12, 2),
  1050. DRV_PG(uart3_all_drv, 2, 2, 2),
  1051. };
  1052. static const char * const nor_groups[] = {
  1053. "lcd0_d18_mfp",
  1054. "i2s_d0_mfp",
  1055. "i2s0_pcm0_mfp",
  1056. "i2s1_pcm0_mfp",
  1057. "i2s_d1_mfp",
  1058. "ks_in2_mfp",
  1059. "ks_in1_mfp",
  1060. "ks_in0_mfp",
  1061. "ks_in3_mfp",
  1062. "ks_out0_mfp",
  1063. "ks_out1_mfp",
  1064. "ks_out2_mfp",
  1065. "lcd0_d2_mfp",
  1066. "lvds_ee_pn_mfp",
  1067. "uart2_rx_tx_mfp",
  1068. "spi0_i2c_pcm_mfp",
  1069. "lvds_e_pn_mfp",
  1070. "sd0_d0_mfp",
  1071. "sd0_d1_mfp",
  1072. "sd0_d2_d3_mfp",
  1073. "sd1_d0_d3_mfp",
  1074. "sd0_cmd_mfp",
  1075. "sd1_cmd_mfp",
  1076. "sens0_ckout_mfp",
  1077. "sen0_pclk_mfp",
  1078. };
  1079. static const char * const eth_rmii_groups[] = {
  1080. "rgmii_txd23_mfp",
  1081. "rgmii_rxd2_mfp",
  1082. "rgmii_rxd3_mfp",
  1083. "rgmii_txd01_mfp",
  1084. "rgmii_txd0_mfp",
  1085. "rgmii_txd1_mfp",
  1086. "rgmii_txen_mfp",
  1087. "rgmii_rxen_mfp",
  1088. "rgmii_rxd1_mfp",
  1089. "rgmii_rxd0_mfp",
  1090. "rgmii_ref_clk_mfp",
  1091. "eth_smi_dummy",
  1092. };
  1093. static const char * const eth_smii_groups[] = {
  1094. "rgmii_txd0_mfp",
  1095. "rgmii_txd1_mfp",
  1096. "rgmii_rxd0_mfp",
  1097. "rgmii_rxd1_mfp",
  1098. "rgmii_ref_clk_mfp",
  1099. "eth_smi_dummy",
  1100. };
  1101. static const char * const spi0_groups[] = {
  1102. "dsi_dn0_mfp",
  1103. "dsi_dp2_mfp",
  1104. "dsi_dp0_mfp",
  1105. "uart2_rx_tx_mfp",
  1106. "spi0_i2c_pcm_mfp",
  1107. "dsi_dn2_mfp",
  1108. };
  1109. static const char * const spi1_groups[] = {
  1110. "uart0_rx_mfp",
  1111. "uart0_tx_mfp",
  1112. "i2c0_mfp",
  1113. };
  1114. static const char * const spi2_groups[] = {
  1115. "rgmii_txd01_mfp",
  1116. "rgmii_txd0_mfp",
  1117. "rgmii_txd1_mfp",
  1118. "rgmii_ref_clk_mfp",
  1119. "dnand_acle_ce0_mfp",
  1120. };
  1121. static const char * const spi3_groups[] = {
  1122. "rgmii_txen_mfp",
  1123. "rgmii_rxen_mfp",
  1124. "rgmii_rxd1_mfp",
  1125. "rgmii_rxd0_mfp",
  1126. };
  1127. static const char * const sens0_groups[] = {
  1128. "csi_cn_cp_mfp",
  1129. "sens0_ckout_mfp",
  1130. "csi_dn_dp_mfp",
  1131. "sen0_pclk_mfp",
  1132. };
  1133. static const char * const sens1_groups[] = {
  1134. "lcd0_d18_mfp",
  1135. "ks_in2_mfp",
  1136. "ks_in1_mfp",
  1137. "ks_in0_mfp",
  1138. "ks_in3_mfp",
  1139. "ks_out0_mfp",
  1140. "ks_out1_mfp",
  1141. "ks_out2_mfp",
  1142. "sens0_ckout_mfp",
  1143. "pcm1_in_mfp",
  1144. "pcm1_clk_mfp",
  1145. "pcm1_sync_mfp",
  1146. "pcm1_out_mfp",
  1147. };
  1148. static const char * const uart0_groups[] = {
  1149. "uart2_rtsb_mfp",
  1150. "uart2_ctsb_mfp",
  1151. "uart0_rx_mfp",
  1152. "uart0_tx_mfp",
  1153. };
  1154. static const char * const uart1_groups[] = {
  1155. "sd0_d2_d3_mfp",
  1156. "i2c0_mfp",
  1157. };
  1158. static const char * const uart2_groups[] = {
  1159. "rgmii_txen_mfp",
  1160. "rgmii_rxen_mfp",
  1161. "rgmii_rxd1_mfp",
  1162. "rgmii_rxd0_mfp",
  1163. "dsi_dn0_mfp",
  1164. "dsi_dp2_mfp",
  1165. "dsi_dp0_mfp",
  1166. "uart2_rx_tx_mfp",
  1167. "dsi_dn2_mfp",
  1168. "uart2_rtsb_mfp",
  1169. "uart2_ctsb_mfp",
  1170. "sd0_d0_mfp",
  1171. "sd0_d1_mfp",
  1172. "sd0_d2_d3_mfp",
  1173. "uart0_rx_mfp",
  1174. "uart0_tx_mfp",
  1175. "i2c0_mfp",
  1176. "uart2_dummy"
  1177. };
  1178. static const char * const uart3_groups[] = {
  1179. "rgmii_txd23_mfp",
  1180. "rgmii_rxd2_mfp",
  1181. "rgmii_rxd3_mfp",
  1182. "uart3_rtsb_mfp",
  1183. "uart3_ctsb_mfp",
  1184. "uart3_dummy"
  1185. };
  1186. static const char * const uart4_groups[] = {
  1187. "rgmii_txd01_mfp",
  1188. "rgmii_ref_clk_mfp",
  1189. "ks_out0_mfp",
  1190. "ks_out1_mfp",
  1191. };
  1192. static const char * const uart5_groups[] = {
  1193. "rgmii_rxd1_mfp",
  1194. "rgmii_rxd0_mfp",
  1195. "ks_out0_mfp",
  1196. "ks_out2_mfp",
  1197. "uart3_rtsb_mfp",
  1198. "uart3_ctsb_mfp",
  1199. "sd0_d0_mfp",
  1200. "sd0_d1_mfp",
  1201. };
  1202. static const char * const uart6_groups[] = {
  1203. "rgmii_txd0_mfp",
  1204. "rgmii_txd1_mfp",
  1205. };
  1206. static const char * const i2s0_groups[] = {
  1207. "i2s_d0_mfp",
  1208. "i2s_pcm1_mfp",
  1209. "i2s0_pcm0_mfp",
  1210. };
  1211. static const char * const i2s1_groups[] = {
  1212. "i2s1_pcm0_mfp",
  1213. "i2s_d1_mfp",
  1214. "i2s1_dummy",
  1215. "spi0_i2c_pcm_mfp",
  1216. "uart0_rx_mfp",
  1217. "uart0_tx_mfp",
  1218. };
  1219. static const char * const pcm1_groups[] = {
  1220. "i2s_pcm1_mfp",
  1221. "spi0_i2c_pcm_mfp",
  1222. "uart0_rx_mfp",
  1223. "uart0_tx_mfp",
  1224. "pcm1_in_mfp",
  1225. "pcm1_clk_mfp",
  1226. "pcm1_sync_mfp",
  1227. "pcm1_out_mfp",
  1228. };
  1229. static const char * const pcm0_groups[] = {
  1230. "i2s0_pcm0_mfp",
  1231. "i2s1_pcm0_mfp",
  1232. "uart2_rx_tx_mfp",
  1233. "spi0_i2c_pcm_mfp",
  1234. };
  1235. static const char * const ks_groups[] = {
  1236. "ks_in2_mfp",
  1237. "ks_in1_mfp",
  1238. "ks_in0_mfp",
  1239. "ks_in3_mfp",
  1240. "ks_out0_mfp",
  1241. "ks_out1_mfp",
  1242. "ks_out2_mfp",
  1243. };
  1244. static const char * const jtag_groups[] = {
  1245. "ks_in2_mfp",
  1246. "ks_in1_mfp",
  1247. "ks_in0_mfp",
  1248. "ks_in3_mfp",
  1249. "ks_out1_mfp",
  1250. "sd0_d0_mfp",
  1251. "sd0_d2_d3_mfp",
  1252. "sd0_cmd_mfp",
  1253. "sd0_clk_mfp",
  1254. };
  1255. static const char * const pwm0_groups[] = {
  1256. "rgmii_rxd2_mfp",
  1257. "rgmii_txen_mfp",
  1258. "ks_in2_mfp",
  1259. "sen0_pclk_mfp",
  1260. };
  1261. static const char * const pwm1_groups[] = {
  1262. "rgmii_rxen_mfp",
  1263. "ks_in1_mfp",
  1264. "ks_in3_mfp",
  1265. "sens0_ckout_mfp",
  1266. };
  1267. static const char * const pwm2_groups[] = {
  1268. "lcd0_d18_mfp",
  1269. "rgmii_rxd3_mfp",
  1270. "rgmii_rxd1_mfp",
  1271. "ks_out0_mfp",
  1272. "ks_out2_mfp",
  1273. };
  1274. static const char * const pwm3_groups[] = {
  1275. "rgmii_rxd0_mfp",
  1276. "ks_out1_mfp",
  1277. "lcd0_d2_mfp",
  1278. };
  1279. static const char * const pwm4_groups[] = {
  1280. "lcd0_d18_mfp",
  1281. "rgmii_txd01_mfp",
  1282. "rgmii_txd0_mfp",
  1283. "ks_in0_mfp",
  1284. "pcm1_in_mfp",
  1285. "nand_ceb3_mfp",
  1286. };
  1287. static const char * const pwm5_groups[] = {
  1288. "rgmii_txd1_mfp",
  1289. "ks_in1_mfp",
  1290. "pcm1_clk_mfp",
  1291. "nand_ceb2_mfp",
  1292. };
  1293. static const char * const p0_groups[] = {
  1294. "ks_in2_mfp",
  1295. "ks_in0_mfp",
  1296. };
  1297. static const char * const sd0_groups[] = {
  1298. "ks_out0_mfp",
  1299. "ks_out1_mfp",
  1300. "ks_out2_mfp",
  1301. "lcd0_d2_mfp",
  1302. "dsi_dp3_mfp",
  1303. "dsi_dp0_mfp",
  1304. "sd0_d0_mfp",
  1305. "sd0_d1_mfp",
  1306. "sd0_d2_d3_mfp",
  1307. "sd1_d0_d3_mfp",
  1308. "sd0_cmd_mfp",
  1309. "sd0_clk_mfp",
  1310. };
  1311. static const char * const sd1_groups[] = {
  1312. "dsi_dp2_mfp",
  1313. "mfp1_16_14_mfp",
  1314. "lcd0_d2_mfp",
  1315. "mfp1_16_14_d17_mfp",
  1316. "dsi_dp3_mfp",
  1317. "dsi_dn3_mfp",
  1318. "dsi_dnp1_cp_d2_mfp",
  1319. "dsi_dnp1_cp_d17_mfp",
  1320. "dsi_dn2_mfp",
  1321. "sd1_d0_d3_mfp",
  1322. "sd1_cmd_mfp",
  1323. "sd1_dummy",
  1324. };
  1325. static const char * const sd2_groups[] = {
  1326. "dnand_data_wr_mfp",
  1327. };
  1328. static const char * const i2c0_groups[] = {
  1329. "uart0_rx_mfp",
  1330. "uart0_tx_mfp",
  1331. "i2c0_mfp",
  1332. };
  1333. static const char * const i2c1_groups[] = {
  1334. "i2c0_mfp",
  1335. "i2c1_dummy"
  1336. };
  1337. static const char * const i2c2_groups[] = {
  1338. "i2c2_dummy"
  1339. };
  1340. static const char * const i2c3_groups[] = {
  1341. "uart2_rx_tx_mfp",
  1342. "pcm1_sync_mfp",
  1343. "pcm1_out_mfp",
  1344. };
  1345. static const char * const lvds_groups[] = {
  1346. "lvds_o_pn_mfp",
  1347. "lvds_ee_pn_mfp",
  1348. "lvds_e_pn_mfp",
  1349. };
  1350. static const char * const bt_groups[] = {
  1351. "i2s_pcm1_mfp",
  1352. "i2s0_pcm0_mfp",
  1353. "i2s1_pcm0_mfp",
  1354. "ks_in2_mfp",
  1355. "ks_in1_mfp",
  1356. "ks_in0_mfp",
  1357. "ks_in3_mfp",
  1358. "ks_out0_mfp",
  1359. "ks_out1_mfp",
  1360. "ks_out2_mfp",
  1361. "lvds_o_pn_mfp",
  1362. "lvds_ee_pn_mfp",
  1363. "pcm1_in_mfp",
  1364. "pcm1_clk_mfp",
  1365. "pcm1_sync_mfp",
  1366. "pcm1_out_mfp",
  1367. };
  1368. static const char * const lcd0_groups[] = {
  1369. "lcd0_d18_mfp",
  1370. "lcd0_d2_mfp",
  1371. "mfp1_16_14_d17_mfp",
  1372. "lvds_o_pn_mfp",
  1373. "dsi_dp3_mfp",
  1374. "dsi_dn3_mfp",
  1375. "lvds_ee_pn_mfp",
  1376. "dsi_dnp1_cp_d2_mfp",
  1377. "dsi_dnp1_cp_d17_mfp",
  1378. "lvds_e_pn_mfp",
  1379. };
  1380. static const char * const usb30_groups[] = {
  1381. "ks_in1_mfp",
  1382. };
  1383. static const char * const clko_25m_groups[] = {
  1384. "clko_25m_mfp",
  1385. };
  1386. static const char * const mipi_csi_groups[] = {
  1387. "csi_cn_cp_mfp",
  1388. "csi_dn_dp_mfp",
  1389. };
  1390. static const char * const dsi_groups[] = {
  1391. "dsi_dn0_mfp",
  1392. "dsi_dp2_mfp",
  1393. "dsi_dp3_mfp",
  1394. "dsi_dn3_mfp",
  1395. "dsi_dp0_mfp",
  1396. "dsi_dnp1_cp_d2_mfp",
  1397. "dsi_dnp1_cp_d17_mfp",
  1398. "dsi_dn2_mfp",
  1399. "dsi_dummy",
  1400. };
  1401. static const char * const nand_groups[] = {
  1402. "dnand_data_wr_mfp",
  1403. "dnand_acle_ce0_mfp",
  1404. "nand_ceb2_mfp",
  1405. "nand_ceb3_mfp",
  1406. "nand_dummy",
  1407. };
  1408. static const char * const spdif_groups[] = {
  1409. "uart0_tx_mfp",
  1410. };
  1411. static const char * const sirq0_groups[] = {
  1412. "sirq0_dummy",
  1413. };
  1414. static const char * const sirq1_groups[] = {
  1415. "sirq1_dummy",
  1416. };
  1417. static const char * const sirq2_groups[] = {
  1418. "sirq2_dummy",
  1419. };
  1420. static const struct owl_pinmux_func s700_functions[] = {
  1421. [S700_MUX_NOR] = FUNCTION(nor),
  1422. [S700_MUX_ETH_RGMII] = FUNCTION(eth_rmii),
  1423. [S700_MUX_ETH_SGMII] = FUNCTION(eth_smii),
  1424. [S700_MUX_SPI0] = FUNCTION(spi0),
  1425. [S700_MUX_SPI1] = FUNCTION(spi1),
  1426. [S700_MUX_SPI2] = FUNCTION(spi2),
  1427. [S700_MUX_SPI3] = FUNCTION(spi3),
  1428. [S700_MUX_SENS0] = FUNCTION(sens0),
  1429. [S700_MUX_SENS1] = FUNCTION(sens1),
  1430. [S700_MUX_UART0] = FUNCTION(uart0),
  1431. [S700_MUX_UART1] = FUNCTION(uart1),
  1432. [S700_MUX_UART2] = FUNCTION(uart2),
  1433. [S700_MUX_UART3] = FUNCTION(uart3),
  1434. [S700_MUX_UART4] = FUNCTION(uart4),
  1435. [S700_MUX_UART5] = FUNCTION(uart5),
  1436. [S700_MUX_UART6] = FUNCTION(uart6),
  1437. [S700_MUX_I2S0] = FUNCTION(i2s0),
  1438. [S700_MUX_I2S1] = FUNCTION(i2s1),
  1439. [S700_MUX_PCM1] = FUNCTION(pcm1),
  1440. [S700_MUX_PCM0] = FUNCTION(pcm0),
  1441. [S700_MUX_KS] = FUNCTION(ks),
  1442. [S700_MUX_JTAG] = FUNCTION(jtag),
  1443. [S700_MUX_PWM0] = FUNCTION(pwm0),
  1444. [S700_MUX_PWM1] = FUNCTION(pwm1),
  1445. [S700_MUX_PWM2] = FUNCTION(pwm2),
  1446. [S700_MUX_PWM3] = FUNCTION(pwm3),
  1447. [S700_MUX_PWM4] = FUNCTION(pwm4),
  1448. [S700_MUX_PWM5] = FUNCTION(pwm5),
  1449. [S700_MUX_P0] = FUNCTION(p0),
  1450. [S700_MUX_SD0] = FUNCTION(sd0),
  1451. [S700_MUX_SD1] = FUNCTION(sd1),
  1452. [S700_MUX_SD2] = FUNCTION(sd2),
  1453. [S700_MUX_I2C0] = FUNCTION(i2c0),
  1454. [S700_MUX_I2C1] = FUNCTION(i2c1),
  1455. [S700_MUX_I2C2] = FUNCTION(i2c2),
  1456. [S700_MUX_I2C3] = FUNCTION(i2c3),
  1457. [S700_MUX_DSI] = FUNCTION(dsi),
  1458. [S700_MUX_LVDS] = FUNCTION(lvds),
  1459. [S700_MUX_USB30] = FUNCTION(usb30),
  1460. [S700_MUX_CLKO_25M] = FUNCTION(clko_25m),
  1461. [S700_MUX_MIPI_CSI] = FUNCTION(mipi_csi),
  1462. [S700_MUX_NAND] = FUNCTION(nand),
  1463. [S700_MUX_SPDIF] = FUNCTION(spdif),
  1464. [S700_MUX_SIRQ0] = FUNCTION(sirq0),
  1465. [S700_MUX_SIRQ1] = FUNCTION(sirq1),
  1466. [S700_MUX_SIRQ2] = FUNCTION(sirq2),
  1467. [S700_MUX_BT] = FUNCTION(bt),
  1468. [S700_MUX_LCD0] = FUNCTION(lcd0),
  1469. };
  1470. /* PAD_ST0 */
  1471. static PAD_ST_CONF(UART2_TX, 0, 31, 1);
  1472. static PAD_ST_CONF(I2C0_SDATA, 0, 30, 1);
  1473. static PAD_ST_CONF(UART0_RX, 0, 29, 1);
  1474. static PAD_ST_CONF(I2S_MCLK1, 0, 23, 1);
  1475. static PAD_ST_CONF(ETH_REF_CLK, 0, 22, 1);
  1476. static PAD_ST_CONF(ETH_TXEN, 0, 21, 1);
  1477. static PAD_ST_CONF(ETH_TXD0, 0, 20, 1);
  1478. static PAD_ST_CONF(I2S_LRCLK1, 0, 19, 1);
  1479. static PAD_ST_CONF(DSI_DP0, 0, 16, 1);
  1480. static PAD_ST_CONF(DSI_DN0, 0, 15, 1);
  1481. static PAD_ST_CONF(UART0_TX, 0, 14, 1);
  1482. static PAD_ST_CONF(SD0_CLK, 0, 12, 1);
  1483. static PAD_ST_CONF(KS_IN0, 0, 11, 1);
  1484. static PAD_ST_CONF(SENSOR0_PCLK, 0, 9, 1);
  1485. static PAD_ST_CONF(I2C0_SCLK, 0, 7, 1);
  1486. static PAD_ST_CONF(KS_OUT0, 0, 6, 1);
  1487. static PAD_ST_CONF(KS_OUT1, 0, 5, 1);
  1488. static PAD_ST_CONF(KS_OUT2, 0, 4, 1);
  1489. static PAD_ST_CONF(ETH_TXD3, 0, 3, 1);
  1490. static PAD_ST_CONF(ETH_TXD2, 0, 2, 1);
  1491. /* PAD_ST1 */
  1492. static PAD_ST_CONF(DSI_DP2, 1, 31, 1);
  1493. static PAD_ST_CONF(DSI_DN2, 1, 30, 1);
  1494. static PAD_ST_CONF(I2S_LRCLK0, 1, 29, 1);
  1495. static PAD_ST_CONF(UART3_CTSB, 1, 27, 1);
  1496. static PAD_ST_CONF(UART3_RTSB, 1, 26, 1);
  1497. static PAD_ST_CONF(UART3_RX, 1, 25, 1);
  1498. static PAD_ST_CONF(UART2_RTSB, 1, 24, 1);
  1499. static PAD_ST_CONF(UART2_CTSB, 1, 23, 1);
  1500. static PAD_ST_CONF(UART2_RX, 1, 22, 1);
  1501. static PAD_ST_CONF(ETH_RXD0, 1, 21, 1);
  1502. static PAD_ST_CONF(ETH_RXD1, 1, 20, 1);
  1503. static PAD_ST_CONF(ETH_CRS_DV, 1, 19, 1);
  1504. static PAD_ST_CONF(ETH_RXER, 1, 18, 1);
  1505. static PAD_ST_CONF(ETH_TXD1, 1, 17, 1);
  1506. static PAD_ST_CONF(LVDS_OAP, 1, 12, 1);
  1507. static PAD_ST_CONF(PCM1_CLK, 1, 11, 1);
  1508. static PAD_ST_CONF(PCM1_IN, 1, 10, 1);
  1509. static PAD_ST_CONF(PCM1_SYNC, 1, 9, 1);
  1510. static PAD_ST_CONF(I2C1_SCLK, 1, 8, 1);
  1511. static PAD_ST_CONF(I2C1_SDATA, 1, 7, 1);
  1512. static PAD_ST_CONF(I2C2_SCLK, 1, 6, 1);
  1513. static PAD_ST_CONF(I2C2_SDATA, 1, 5, 1);
  1514. static PAD_ST_CONF(SPI0_MISO, 1, 3, 1);
  1515. static PAD_ST_CONF(SPI0_SS, 1, 2, 1);
  1516. static PAD_ST_CONF(I2S_BCLK0, 1, 1, 1);
  1517. static PAD_ST_CONF(I2S_MCLK0, 1, 0, 1);
  1518. /* PAD_PULLCTL0 */
  1519. static PAD_PULLCTL_CONF(PCM1_SYNC, 0, 30, 1);
  1520. static PAD_PULLCTL_CONF(PCM1_OUT, 0, 29, 1);
  1521. static PAD_PULLCTL_CONF(KS_OUT2, 0, 28, 1);
  1522. static PAD_PULLCTL_CONF(LCD0_D2, 0, 27, 1);
  1523. static PAD_PULLCTL_CONF(DSI_DN3, 0, 26, 1);
  1524. static PAD_PULLCTL_CONF(ETH_RXER, 0, 16, 1);
  1525. static PAD_PULLCTL_CONF(SIRQ0, 0, 14, 2);
  1526. static PAD_PULLCTL_CONF(SIRQ1, 0, 12, 2);
  1527. static PAD_PULLCTL_CONF(SIRQ2, 0, 10, 2);
  1528. static PAD_PULLCTL_CONF(I2C0_SDATA, 0, 9, 1);
  1529. static PAD_PULLCTL_CONF(I2C0_SCLK, 0, 8, 1);
  1530. static PAD_PULLCTL_CONF(KS_IN0, 0, 7, 1);
  1531. static PAD_PULLCTL_CONF(KS_IN1, 0, 6, 1);
  1532. static PAD_PULLCTL_CONF(KS_IN2, 0, 5, 1);
  1533. static PAD_PULLCTL_CONF(KS_IN3, 0, 4, 1);
  1534. static PAD_PULLCTL_CONF(KS_OUT0, 0, 2, 1);
  1535. static PAD_PULLCTL_CONF(KS_OUT1, 0, 1, 1);
  1536. static PAD_PULLCTL_CONF(DSI_DP1, 0, 0, 1);
  1537. /* PAD_PULLCTL1 */
  1538. static PAD_PULLCTL_CONF(SD0_D0, 1, 17, 1);
  1539. static PAD_PULLCTL_CONF(SD0_D1, 1, 16, 1);
  1540. static PAD_PULLCTL_CONF(SD0_D2, 1, 15, 1);
  1541. static PAD_PULLCTL_CONF(SD0_D3, 1, 14, 1);
  1542. static PAD_PULLCTL_CONF(SD0_CMD, 1, 13, 1);
  1543. static PAD_PULLCTL_CONF(SD0_CLK, 1, 12, 1);
  1544. static PAD_PULLCTL_CONF(UART0_RX, 1, 2, 1);
  1545. static PAD_PULLCTL_CONF(UART0_TX, 1, 1, 1);
  1546. static PAD_PULLCTL_CONF(CLKO_25M, 1, 0, 1);
  1547. /* PAD_PULLCTL2 */
  1548. static PAD_PULLCTL_CONF(ETH_TXD2, 2, 18, 1);
  1549. static PAD_PULLCTL_CONF(ETH_TXD3, 2, 17, 1);
  1550. static PAD_PULLCTL_CONF(SPI0_SS, 2, 16, 1);
  1551. static PAD_PULLCTL_CONF(SPI0_MISO, 2, 15, 1);
  1552. static PAD_PULLCTL_CONF(I2C1_SDATA, 2, 10, 1);
  1553. static PAD_PULLCTL_CONF(I2C1_SCLK, 2, 9, 1);
  1554. static PAD_PULLCTL_CONF(I2C2_SDATA, 2, 8, 1);
  1555. static PAD_PULLCTL_CONF(I2C2_SCLK, 2, 7, 1);
  1556. /* Pad info table for the pinmux subsystem */
  1557. static const struct owl_padinfo s700_padinfo[NUM_PADS] = {
  1558. [ETH_TXD0] = PAD_INFO_ST(ETH_TXD0),
  1559. [ETH_TXD1] = PAD_INFO_ST(ETH_TXD1),
  1560. [ETH_TXEN] = PAD_INFO_ST(ETH_TXEN),
  1561. [ETH_RXER] = PAD_INFO_PULLCTL_ST(ETH_RXER),
  1562. [ETH_CRS_DV] = PAD_INFO_ST(ETH_CRS_DV),
  1563. [ETH_RXD1] = PAD_INFO_ST(ETH_RXD1),
  1564. [ETH_RXD0] = PAD_INFO_ST(ETH_RXD0),
  1565. [ETH_REF_CLK] = PAD_INFO_ST(ETH_REF_CLK),
  1566. [ETH_MDC] = PAD_INFO(ETH_MDC),
  1567. [ETH_MDIO] = PAD_INFO(ETH_MDIO),
  1568. [SIRQ0] = PAD_INFO_PULLCTL(SIRQ0),
  1569. [SIRQ1] = PAD_INFO_PULLCTL(SIRQ1),
  1570. [SIRQ2] = PAD_INFO_PULLCTL(SIRQ2),
  1571. [I2S_D0] = PAD_INFO(I2S_D0),
  1572. [I2S_BCLK0] = PAD_INFO_ST(I2S_BCLK0),
  1573. [I2S_LRCLK0] = PAD_INFO_ST(I2S_LRCLK0),
  1574. [I2S_MCLK0] = PAD_INFO_ST(I2S_MCLK0),
  1575. [I2S_D1] = PAD_INFO(I2S_D1),
  1576. [I2S_BCLK1] = PAD_INFO(I2S_BCLK1),
  1577. [I2S_LRCLK1] = PAD_INFO_ST(I2S_LRCLK1),
  1578. [I2S_MCLK1] = PAD_INFO_ST(I2S_MCLK1),
  1579. [KS_IN0] = PAD_INFO_PULLCTL_ST(KS_IN0),
  1580. [KS_IN1] = PAD_INFO_PULLCTL(KS_IN1),
  1581. [KS_IN2] = PAD_INFO_PULLCTL(KS_IN2),
  1582. [KS_IN3] = PAD_INFO_PULLCTL(KS_IN3),
  1583. [KS_OUT0] = PAD_INFO_PULLCTL_ST(KS_OUT0),
  1584. [KS_OUT1] = PAD_INFO_PULLCTL_ST(KS_OUT1),
  1585. [KS_OUT2] = PAD_INFO_PULLCTL_ST(KS_OUT2),
  1586. [LVDS_OEP] = PAD_INFO(LVDS_OEP),
  1587. [LVDS_OEN] = PAD_INFO(LVDS_OEN),
  1588. [LVDS_ODP] = PAD_INFO(LVDS_ODP),
  1589. [LVDS_ODN] = PAD_INFO(LVDS_ODN),
  1590. [LVDS_OCP] = PAD_INFO(LVDS_OCP),
  1591. [LVDS_OCN] = PAD_INFO(LVDS_OCN),
  1592. [LVDS_OBP] = PAD_INFO(LVDS_OBP),
  1593. [LVDS_OBN] = PAD_INFO(LVDS_OBN),
  1594. [LVDS_OAP] = PAD_INFO_ST(LVDS_OAP),
  1595. [LVDS_OAN] = PAD_INFO(LVDS_OAN),
  1596. [LVDS_EEP] = PAD_INFO(LVDS_EEP),
  1597. [LVDS_EEN] = PAD_INFO(LVDS_EEN),
  1598. [LVDS_EDP] = PAD_INFO(LVDS_EDP),
  1599. [LVDS_EDN] = PAD_INFO(LVDS_EDN),
  1600. [LVDS_ECP] = PAD_INFO(LVDS_ECP),
  1601. [LVDS_ECN] = PAD_INFO(LVDS_ECN),
  1602. [LVDS_EBP] = PAD_INFO(LVDS_EBP),
  1603. [LVDS_EBN] = PAD_INFO(LVDS_EBN),
  1604. [LVDS_EAP] = PAD_INFO(LVDS_EAP),
  1605. [LVDS_EAN] = PAD_INFO(LVDS_EAN),
  1606. [LCD0_D18] = PAD_INFO(LCD0_D18),
  1607. [LCD0_D2] = PAD_INFO_PULLCTL(LCD0_D2),
  1608. [DSI_DP3] = PAD_INFO(DSI_DP3),
  1609. [DSI_DN3] = PAD_INFO_PULLCTL(DSI_DN3),
  1610. [DSI_DP1] = PAD_INFO_PULLCTL(DSI_DP1),
  1611. [DSI_DN1] = PAD_INFO(DSI_DN1),
  1612. [DSI_DP0] = PAD_INFO_ST(DSI_DP0),
  1613. [DSI_DN0] = PAD_INFO_ST(DSI_DN0),
  1614. [DSI_DP2] = PAD_INFO_ST(DSI_DP2),
  1615. [DSI_DN2] = PAD_INFO_ST(DSI_DN2),
  1616. [SD0_D0] = PAD_INFO_PULLCTL(SD0_D0),
  1617. [SD0_D1] = PAD_INFO_PULLCTL(SD0_D1),
  1618. [SD0_D2] = PAD_INFO_PULLCTL(SD0_D2),
  1619. [SD0_D3] = PAD_INFO_PULLCTL(SD0_D3),
  1620. [SD0_CMD] = PAD_INFO_PULLCTL(SD0_CMD),
  1621. [SD0_CLK] = PAD_INFO_PULLCTL_ST(SD0_CLK),
  1622. [SD1_CLK] = PAD_INFO(SD1_CLK),
  1623. [SPI0_SS] = PAD_INFO_PULLCTL_ST(SPI0_SS),
  1624. [SPI0_MISO] = PAD_INFO_PULLCTL_ST(SPI0_MISO),
  1625. [UART0_RX] = PAD_INFO_PULLCTL_ST(UART0_RX),
  1626. [UART0_TX] = PAD_INFO_PULLCTL_ST(UART0_TX),
  1627. [I2C0_SCLK] = PAD_INFO_PULLCTL_ST(I2C0_SCLK),
  1628. [I2C0_SDATA] = PAD_INFO_PULLCTL_ST(I2C0_SDATA),
  1629. [SENSOR0_PCLK] = PAD_INFO_ST(SENSOR0_PCLK),
  1630. [SENSOR0_CKOUT] = PAD_INFO(SENSOR0_CKOUT),
  1631. [DNAND_ALE] = PAD_INFO(DNAND_ALE),
  1632. [DNAND_CLE] = PAD_INFO(DNAND_CLE),
  1633. [DNAND_CEB0] = PAD_INFO(DNAND_CEB0),
  1634. [DNAND_CEB1] = PAD_INFO(DNAND_CEB1),
  1635. [DNAND_CEB2] = PAD_INFO(DNAND_CEB2),
  1636. [DNAND_CEB3] = PAD_INFO(DNAND_CEB3),
  1637. [UART2_RX] = PAD_INFO_ST(UART2_RX),
  1638. [UART2_TX] = PAD_INFO_ST(UART2_TX),
  1639. [UART2_RTSB] = PAD_INFO_ST(UART2_RTSB),
  1640. [UART2_CTSB] = PAD_INFO_ST(UART2_CTSB),
  1641. [UART3_RX] = PAD_INFO_ST(UART3_RX),
  1642. [UART3_TX] = PAD_INFO(UART3_TX),
  1643. [UART3_RTSB] = PAD_INFO_ST(UART3_RTSB),
  1644. [UART3_CTSB] = PAD_INFO_ST(UART3_CTSB),
  1645. [PCM1_IN] = PAD_INFO_ST(PCM1_IN),
  1646. [PCM1_CLK] = PAD_INFO_ST(PCM1_CLK),
  1647. [PCM1_SYNC] = PAD_INFO_PULLCTL_ST(PCM1_SYNC),
  1648. [PCM1_OUT] = PAD_INFO_PULLCTL(PCM1_OUT),
  1649. [I2C1_SCLK] = PAD_INFO_PULLCTL_ST(I2C1_SCLK),
  1650. [I2C1_SDATA] = PAD_INFO_PULLCTL_ST(I2C1_SDATA),
  1651. [I2C2_SCLK] = PAD_INFO_PULLCTL_ST(I2C2_SCLK),
  1652. [I2C2_SDATA] = PAD_INFO_PULLCTL_ST(I2C2_SDATA),
  1653. [CSI_DN0] = PAD_INFO(CSI_DN0),
  1654. [CSI_DP0] = PAD_INFO(CSI_DP0),
  1655. [CSI_DN1] = PAD_INFO(CSI_DN1),
  1656. [CSI_DP1] = PAD_INFO(CSI_DP1),
  1657. [CSI_CN] = PAD_INFO(CSI_CN),
  1658. [CSI_CP] = PAD_INFO(CSI_CP),
  1659. [CSI_DN2] = PAD_INFO(CSI_DN2),
  1660. [CSI_DP2] = PAD_INFO(CSI_DP2),
  1661. [CSI_DN3] = PAD_INFO(CSI_DN3),
  1662. [CSI_DP3] = PAD_INFO(CSI_DP3),
  1663. [DNAND_WRB] = PAD_INFO(DNAND_WRB),
  1664. [DNAND_RDB] = PAD_INFO(DNAND_RDB),
  1665. [DNAND_RB0] = PAD_INFO(DNAND_RB0),
  1666. [PORB] = PAD_INFO(PORB),
  1667. [CLKO_25M] = PAD_INFO_PULLCTL(CLKO_25M),
  1668. [BSEL] = PAD_INFO(BSEL),
  1669. [PKG0] = PAD_INFO(PKG0),
  1670. [PKG1] = PAD_INFO(PKG1),
  1671. [PKG2] = PAD_INFO(PKG2),
  1672. [PKG3] = PAD_INFO(PKG3),
  1673. [ETH_TXD2] = PAD_INFO_PULLCTL_ST(ETH_TXD2),
  1674. [ETH_TXD3] = PAD_INFO_PULLCTL_ST(ETH_TXD3),
  1675. };
  1676. static const struct owl_gpio_port s700_gpio_ports[] = {
  1677. OWL_GPIO_PORT(A, 0x0000, 32, 0x0, 0x4, 0x8, 0x204, 0x208, 0x20C, 0x230, 0),
  1678. OWL_GPIO_PORT(B, 0x000C, 32, 0x0, 0x4, 0x8, 0x204, 0x210, 0x214, 0x238, 1),
  1679. OWL_GPIO_PORT(C, 0x0018, 32, 0x0, 0x4, 0x8, 0x204, 0x218, 0x21C, 0x240, 2),
  1680. OWL_GPIO_PORT(D, 0x0024, 32, 0x0, 0x4, 0x8, 0x204, 0x220, 0x224, 0x248, 3),
  1681. /* 0x24C (INTC_GPIOD_TYPE1) used to tweak the driver to handle generic */
  1682. OWL_GPIO_PORT(E, 0x0030, 8, 0x0, 0x4, 0x8, 0x204, 0x228, 0x22C, 0x24C, 4),
  1683. };
  1684. enum s700_pinconf_pull {
  1685. OWL_PINCONF_PULL_DOWN,
  1686. OWL_PINCONF_PULL_UP,
  1687. };
  1688. static int s700_pad_pinconf_arg2val(const struct owl_padinfo *info,
  1689. unsigned int param,
  1690. u32 *arg)
  1691. {
  1692. switch (param) {
  1693. case PIN_CONFIG_BIAS_PULL_DOWN:
  1694. *arg = OWL_PINCONF_PULL_DOWN;
  1695. break;
  1696. case PIN_CONFIG_BIAS_PULL_UP:
  1697. *arg = OWL_PINCONF_PULL_UP;
  1698. break;
  1699. case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
  1700. *arg = (*arg >= 1 ? 1 : 0);
  1701. break;
  1702. default:
  1703. return -ENOTSUPP;
  1704. }
  1705. return 0;
  1706. }
  1707. static int s700_pad_pinconf_val2arg(const struct owl_padinfo *padinfo,
  1708. unsigned int param,
  1709. u32 *arg)
  1710. {
  1711. switch (param) {
  1712. case PIN_CONFIG_BIAS_PULL_DOWN:
  1713. *arg = *arg == OWL_PINCONF_PULL_DOWN;
  1714. break;
  1715. case PIN_CONFIG_BIAS_PULL_UP:
  1716. *arg = *arg == OWL_PINCONF_PULL_UP;
  1717. break;
  1718. case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
  1719. *arg = *arg == 1;
  1720. break;
  1721. default:
  1722. return -ENOTSUPP;
  1723. }
  1724. return 0;
  1725. }
  1726. static struct owl_pinctrl_soc_data s700_pinctrl_data = {
  1727. .padinfo = s700_padinfo,
  1728. .pins = (const struct pinctrl_pin_desc *)s700_pads,
  1729. .npins = ARRAY_SIZE(s700_pads),
  1730. .functions = s700_functions,
  1731. .nfunctions = ARRAY_SIZE(s700_functions),
  1732. .groups = s700_groups,
  1733. .ngroups = ARRAY_SIZE(s700_groups),
  1734. .ngpios = NUM_GPIOS,
  1735. .ports = s700_gpio_ports,
  1736. .nports = ARRAY_SIZE(s700_gpio_ports),
  1737. .padctl_arg2val = s700_pad_pinconf_arg2val,
  1738. .padctl_val2arg = s700_pad_pinconf_val2arg,
  1739. };
  1740. static int s700_pinctrl_probe(struct platform_device *pdev)
  1741. {
  1742. return owl_pinctrl_probe(pdev, &s700_pinctrl_data);
  1743. }
  1744. static const struct of_device_id s700_pinctrl_of_match[] = {
  1745. { .compatible = "actions,s700-pinctrl", },
  1746. {}
  1747. };
  1748. static struct platform_driver s700_pinctrl_driver = {
  1749. .probe = s700_pinctrl_probe,
  1750. .driver = {
  1751. .name = "pinctrl-s700",
  1752. .of_match_table = of_match_ptr(s700_pinctrl_of_match),
  1753. },
  1754. };
  1755. static int __init s700_pinctrl_init(void)
  1756. {
  1757. return platform_driver_register(&s700_pinctrl_driver);
  1758. }
  1759. arch_initcall(s700_pinctrl_init);
  1760. static void __exit s700_pinctrl_exit(void)
  1761. {
  1762. platform_driver_unregister(&s700_pinctrl_driver);
  1763. }
  1764. module_exit(s700_pinctrl_exit);
  1765. MODULE_AUTHOR("Actions Semi Inc.");
  1766. MODULE_DESCRIPTION("Actions Semi S700 Soc Pinctrl Driver");