/* * Marvell Dove pinctrl driver based on mvebu pinctrl core * * Author: Sebastian Hesselbarth <sebastian.hesselbarth@gmail.com> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. */ #include <linux/err.h> #include <linux/init.h> #include <linux/io.h> #include <linux/module.h> #include <linux/bitops.h> #include <linux/platform_device.h> #include <linux/clk.h> #include <linux/of.h> #include <linux/of_device.h> #include <linux/pinctrl/pinctrl.h> #include "pinctrl-mvebu.h" #define DOVE_SB_REGS_VIRT_BASE IOMEM(0xfde00000) #define DOVE_MPP_VIRT_BASE (DOVE_SB_REGS_VIRT_BASE + 0xd0200) #define DOVE_PMU_MPP_GENERAL_CTRL (DOVE_MPP_VIRT_BASE + 0x10) #define DOVE_AU0_AC97_SEL BIT(16) #define DOVE_GLOBAL_CONFIG_1 (DOVE_SB_REGS_VIRT_BASE + 0xe802C) #define DOVE_TWSI_ENABLE_OPTION1 BIT(7) #define DOVE_GLOBAL_CONFIG_2 (DOVE_SB_REGS_VIRT_BASE + 0xe8030) #define DOVE_TWSI_ENABLE_OPTION2 BIT(20) #define DOVE_TWSI_ENABLE_OPTION3 BIT(21) #define DOVE_TWSI_OPTION3_GPIO BIT(22) #define DOVE_SSP_CTRL_STATUS_1 (DOVE_SB_REGS_VIRT_BASE + 0xe8034) #define DOVE_SSP_ON_AU1 BIT(0) #define DOVE_MPP_GENERAL_VIRT_BASE (DOVE_SB_REGS_VIRT_BASE + 0xe803c) #define DOVE_AU1_SPDIFO_GPIO_EN BIT(1) #define DOVE_NAND_GPIO_EN BIT(0) #define DOVE_GPIO_LO_VIRT_BASE (DOVE_SB_REGS_VIRT_BASE + 0xd0400) #define DOVE_MPP_CTRL4_VIRT_BASE (DOVE_GPIO_LO_VIRT_BASE + 0x40) #define DOVE_SPI_GPIO_SEL BIT(5) #define DOVE_UART1_GPIO_SEL BIT(4) #define DOVE_AU1_GPIO_SEL BIT(3) #define DOVE_CAM_GPIO_SEL BIT(2) #define DOVE_SD1_GPIO_SEL BIT(1) #define DOVE_SD0_GPIO_SEL BIT(0) #define MPPS_PER_REG 8 #define MPP_BITS 4 #define MPP_MASK 0xf #define CONFIG_PMU BIT(4) static int dove_pmu_mpp_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned off = (ctrl->pid / MPPS_PER_REG) * MPP_BITS; unsigned shift = (ctrl->pid % MPPS_PER_REG) * MPP_BITS; unsigned long pmu = readl(DOVE_PMU_MPP_GENERAL_CTRL); unsigned long mpp = readl(DOVE_MPP_VIRT_BASE + off); if (pmu & (1 << ctrl->pid)) *config = CONFIG_PMU; else *config = (mpp >> shift) & MPP_MASK; return 0; } static int dove_pmu_mpp_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned off = (ctrl->pid / MPPS_PER_REG) * MPP_BITS; unsigned shift = (ctrl->pid % MPPS_PER_REG) * MPP_BITS; unsigned long pmu = readl(DOVE_PMU_MPP_GENERAL_CTRL); unsigned long mpp = readl(DOVE_MPP_VIRT_BASE + off); if (config == CONFIG_PMU) writel(pmu | (1 << ctrl->pid), DOVE_PMU_MPP_GENERAL_CTRL); else { writel(pmu & ~(1 << ctrl->pid), DOVE_PMU_MPP_GENERAL_CTRL); mpp &= ~(MPP_MASK << shift); mpp |= config << shift; writel(mpp, DOVE_MPP_VIRT_BASE + off); } return 0; } static int dove_mpp4_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned long mpp4 = readl(DOVE_MPP_CTRL4_VIRT_BASE); unsigned long mask; switch (ctrl->pid) { case 24: /* mpp_camera */ mask = DOVE_CAM_GPIO_SEL; break; case 40: /* mpp_sdio0 */ mask = DOVE_SD0_GPIO_SEL; break; case 46: /* mpp_sdio1 */ mask = DOVE_SD1_GPIO_SEL; break; case 58: /* mpp_spi0 */ mask = DOVE_SPI_GPIO_SEL; break; case 62: /* mpp_uart1 */ mask = DOVE_UART1_GPIO_SEL; break; default: return -EINVAL; } *config = ((mpp4 & mask) != 0); return 0; } static int dove_mpp4_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned long mpp4 = readl(DOVE_MPP_CTRL4_VIRT_BASE); unsigned long mask; switch (ctrl->pid) { case 24: /* mpp_camera */ mask = DOVE_CAM_GPIO_SEL; break; case 40: /* mpp_sdio0 */ mask = DOVE_SD0_GPIO_SEL; break; case 46: /* mpp_sdio1 */ mask = DOVE_SD1_GPIO_SEL; break; case 58: /* mpp_spi0 */ mask = DOVE_SPI_GPIO_SEL; break; case 62: /* mpp_uart1 */ mask = DOVE_UART1_GPIO_SEL; break; default: return -EINVAL; } mpp4 &= ~mask; if (config) mpp4 |= mask; writel(mpp4, DOVE_MPP_CTRL4_VIRT_BASE); return 0; } static int dove_nand_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned long gmpp = readl(DOVE_MPP_GENERAL_VIRT_BASE); *config = ((gmpp & DOVE_NAND_GPIO_EN) != 0); return 0; } static int dove_nand_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned long gmpp = readl(DOVE_MPP_GENERAL_VIRT_BASE); gmpp &= ~DOVE_NAND_GPIO_EN; if (config) gmpp |= DOVE_NAND_GPIO_EN; writel(gmpp, DOVE_MPP_GENERAL_VIRT_BASE); return 0; } static int dove_audio0_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned long pmu = readl(DOVE_PMU_MPP_GENERAL_CTRL); *config = ((pmu & DOVE_AU0_AC97_SEL) != 0); return 0; } static int dove_audio0_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned long pmu = readl(DOVE_PMU_MPP_GENERAL_CTRL); pmu &= ~DOVE_AU0_AC97_SEL; if (config) pmu |= DOVE_AU0_AC97_SEL; writel(pmu, DOVE_PMU_MPP_GENERAL_CTRL); return 0; } static int dove_audio1_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned long mpp4 = readl(DOVE_MPP_CTRL4_VIRT_BASE); unsigned long sspc1 = readl(DOVE_SSP_CTRL_STATUS_1); unsigned long gmpp = readl(DOVE_MPP_GENERAL_VIRT_BASE); unsigned long gcfg2 = readl(DOVE_GLOBAL_CONFIG_2); *config = 0; if (mpp4 & DOVE_AU1_GPIO_SEL) *config |= BIT(3); if (sspc1 & DOVE_SSP_ON_AU1) *config |= BIT(2); if (gmpp & DOVE_AU1_SPDIFO_GPIO_EN) *config |= BIT(1); if (gcfg2 & DOVE_TWSI_OPTION3_GPIO) *config |= BIT(0); /* SSP/TWSI only if I2S1 not set*/ if ((*config & BIT(3)) == 0) *config &= ~(BIT(2) | BIT(0)); /* TWSI only if SPDIFO not set*/ if ((*config & BIT(1)) == 0) *config &= ~BIT(0); return 0; } static int dove_audio1_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned long mpp4 = readl(DOVE_MPP_CTRL4_VIRT_BASE); unsigned long sspc1 = readl(DOVE_SSP_CTRL_STATUS_1); unsigned long gmpp = readl(DOVE_MPP_GENERAL_VIRT_BASE); unsigned long gcfg2 = readl(DOVE_GLOBAL_CONFIG_2); /* * clear all audio1 related bits before configure */ gcfg2 &= ~DOVE_TWSI_OPTION3_GPIO; gmpp &= ~DOVE_AU1_SPDIFO_GPIO_EN; sspc1 &= ~DOVE_SSP_ON_AU1; mpp4 &= ~DOVE_AU1_GPIO_SEL; if (config & BIT(0)) gcfg2 |= DOVE_TWSI_OPTION3_GPIO; if (config & BIT(1)) gmpp |= DOVE_AU1_SPDIFO_GPIO_EN; if (config & BIT(2)) sspc1 |= DOVE_SSP_ON_AU1; if (config & BIT(3)) mpp4 |= DOVE_AU1_GPIO_SEL; writel(mpp4, DOVE_MPP_CTRL4_VIRT_BASE); writel(sspc1, DOVE_SSP_CTRL_STATUS_1); writel(gmpp, DOVE_MPP_GENERAL_VIRT_BASE); writel(gcfg2, DOVE_GLOBAL_CONFIG_2); return 0; } /* mpp[52:57] gpio pins depend heavily on current config; * gpio_req does not try to mux in gpio capabilities to not * break other functions. If you require all mpps as gpio * enforce gpio setting by pinctrl mapping. */ static int dove_audio1_ctrl_gpio_req(struct mvebu_mpp_ctrl *ctrl, u8 pid) { unsigned long config; dove_audio1_ctrl_get(ctrl, &config); switch (config) { case 0x02: /* i2s1 : gpio[56:57] */ case 0x0e: /* ssp : gpio[56:57] */ if (pid >= 56) return 0; return -ENOTSUPP; case 0x08: /* spdifo : gpio[52:55] */ case 0x0b: /* twsi : gpio[52:55] */ if (pid <= 55) return 0; return -ENOTSUPP; case 0x0a: /* all gpio */ return 0; /* 0x00 : i2s1/spdifo : no gpio */ /* 0x0c : ssp/spdifo : no gpio */ /* 0x0f : ssp/twsi : no gpio */ } return -ENOTSUPP; } /* mpp[52:57] has gpio pins capable of in and out */ static int dove_audio1_ctrl_gpio_dir(struct mvebu_mpp_ctrl *ctrl, u8 pid, bool input) { if (pid < 52 || pid > 57) return -ENOTSUPP; return 0; } static int dove_twsi_ctrl_get(struct mvebu_mpp_ctrl *ctrl, unsigned long *config) { unsigned long gcfg1 = readl(DOVE_GLOBAL_CONFIG_1); unsigned long gcfg2 = readl(DOVE_GLOBAL_CONFIG_2); *config = 0; if (gcfg1 & DOVE_TWSI_ENABLE_OPTION1) *config = 1; else if (gcfg2 & DOVE_TWSI_ENABLE_OPTION2) *config = 2; else if (gcfg2 & DOVE_TWSI_ENABLE_OPTION3) *config = 3; return 0; } static int dove_twsi_ctrl_set(struct mvebu_mpp_ctrl *ctrl, unsigned long config) { unsigned long gcfg1 = readl(DOVE_GLOBAL_CONFIG_1); unsigned long gcfg2 = readl(DOVE_GLOBAL_CONFIG_2); gcfg1 &= ~DOVE_TWSI_ENABLE_OPTION1; gcfg2 &= ~(DOVE_TWSI_ENABLE_OPTION2 | DOVE_TWSI_ENABLE_OPTION2); switch (config) { case 1: gcfg1 |= DOVE_TWSI_ENABLE_OPTION1; break; case 2: gcfg2 |= DOVE_TWSI_ENABLE_OPTION2; break; case 3: gcfg2 |= DOVE_TWSI_ENABLE_OPTION3; break; } writel(gcfg1, DOVE_GLOBAL_CONFIG_1); writel(gcfg2, DOVE_GLOBAL_CONFIG_2); return 0; } static struct mvebu_mpp_ctrl dove_mpp_controls[] = { MPP_FUNC_CTRL(0, 0, "mpp0", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(1, 1, "mpp1", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(2, 2, "mpp2", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(3, 3, "mpp3", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(4, 4, "mpp4", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(5, 5, "mpp5", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(6, 6, "mpp6", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(7, 7, "mpp7", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(8, 8, "mpp8", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(9, 9, "mpp9", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(10, 10, "mpp10", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(11, 11, "mpp11", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(12, 12, "mpp12", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(13, 13, "mpp13", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(14, 14, "mpp14", dove_pmu_mpp_ctrl), MPP_FUNC_CTRL(15, 15, "mpp15", dove_pmu_mpp_ctrl), MPP_REG_CTRL(16, 23), MPP_FUNC_CTRL(24, 39, "mpp_camera", dove_mpp4_ctrl), MPP_FUNC_CTRL(40, 45, "mpp_sdio0", dove_mpp4_ctrl), MPP_FUNC_CTRL(46, 51, "mpp_sdio1", dove_mpp4_ctrl), MPP_FUNC_GPIO_CTRL(52, 57, "mpp_audio1", dove_audio1_ctrl), MPP_FUNC_CTRL(58, 61, "mpp_spi0", dove_mpp4_ctrl), MPP_FUNC_CTRL(62, 63, "mpp_uart1", dove_mpp4_ctrl), MPP_FUNC_CTRL(64, 71, "mpp_nand", dove_nand_ctrl), MPP_FUNC_CTRL(72, 72, "audio0", dove_audio0_ctrl), MPP_FUNC_CTRL(73, 73, "twsi", dove_twsi_ctrl), }; static struct mvebu_mpp_mode dove_mpp_modes[] = { MPP_MODE(0, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart2", "rts"), MPP_FUNCTION(0x03, "sdio0", "cd"), MPP_FUNCTION(0x0f, "lcd0", "pwm"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(1, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart2", "cts"), MPP_FUNCTION(0x03, "sdio0", "wp"), MPP_FUNCTION(0x0f, "lcd1", "pwm"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(2, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "sata", "prsnt"), MPP_FUNCTION(0x02, "uart2", "txd"), MPP_FUNCTION(0x03, "sdio0", "buspwr"), MPP_FUNCTION(0x04, "uart1", "rts"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(3, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "sata", "act"), MPP_FUNCTION(0x02, "uart2", "rxd"), MPP_FUNCTION(0x03, "sdio0", "ledctrl"), MPP_FUNCTION(0x04, "uart1", "cts"), MPP_FUNCTION(0x0f, "lcd-spi", "cs1"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(4, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "rts"), MPP_FUNCTION(0x03, "sdio1", "cd"), MPP_FUNCTION(0x04, "spi1", "miso"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(5, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "cts"), MPP_FUNCTION(0x03, "sdio1", "wp"), MPP_FUNCTION(0x04, "spi1", "cs"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(6, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "txd"), MPP_FUNCTION(0x03, "sdio1", "buspwr"), MPP_FUNCTION(0x04, "spi1", "mosi"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(7, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "rxd"), MPP_FUNCTION(0x03, "sdio1", "ledctrl"), MPP_FUNCTION(0x04, "spi1", "sck"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(8, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "watchdog", "rstout"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(9, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x05, "pex1", "clkreq"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(10, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x05, "ssp", "sclk"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(11, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "sata", "prsnt"), MPP_FUNCTION(0x02, "sata-1", "act"), MPP_FUNCTION(0x03, "sdio0", "ledctrl"), MPP_FUNCTION(0x04, "sdio1", "ledctrl"), MPP_FUNCTION(0x05, "pex0", "clkreq"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(12, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "sata", "act"), MPP_FUNCTION(0x02, "uart2", "rts"), MPP_FUNCTION(0x03, "audio0", "extclk"), MPP_FUNCTION(0x04, "sdio1", "cd"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(13, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart2", "cts"), MPP_FUNCTION(0x03, "audio1", "extclk"), MPP_FUNCTION(0x04, "sdio1", "wp"), MPP_FUNCTION(0x05, "ssp", "extclk"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(14, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart2", "txd"), MPP_FUNCTION(0x04, "sdio1", "buspwr"), MPP_FUNCTION(0x05, "ssp", "rxd"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(15, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart2", "rxd"), MPP_FUNCTION(0x04, "sdio1", "ledctrl"), MPP_FUNCTION(0x05, "ssp", "sfrm"), MPP_FUNCTION(0x10, "pmu", NULL)), MPP_MODE(16, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "rts"), MPP_FUNCTION(0x03, "sdio0", "cd"), MPP_FUNCTION(0x04, "lcd-spi", "cs1"), MPP_FUNCTION(0x05, "ac97", "sdi1")), MPP_MODE(17, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "ac97-1", "sysclko"), MPP_FUNCTION(0x02, "uart3", "cts"), MPP_FUNCTION(0x03, "sdio0", "wp"), MPP_FUNCTION(0x04, "twsi", "sda"), MPP_FUNCTION(0x05, "ac97", "sdi2")), MPP_MODE(18, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "txd"), MPP_FUNCTION(0x03, "sdio0", "buspwr"), MPP_FUNCTION(0x04, "lcd0", "pwm"), MPP_FUNCTION(0x05, "ac97", "sdi3")), MPP_MODE(19, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "uart3", "rxd"), MPP_FUNCTION(0x03, "sdio0", "ledctrl"), MPP_FUNCTION(0x04, "twsi", "sck")), MPP_MODE(20, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "ac97", "sysclko"), MPP_FUNCTION(0x02, "lcd-spi", "miso"), MPP_FUNCTION(0x03, "sdio1", "cd"), MPP_FUNCTION(0x05, "sdio0", "cd"), MPP_FUNCTION(0x06, "spi1", "miso")), MPP_MODE(21, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "uart1", "rts"), MPP_FUNCTION(0x02, "lcd-spi", "cs0"), MPP_FUNCTION(0x03, "sdio1", "wp"), MPP_FUNCTION(0x04, "ssp", "sfrm"), MPP_FUNCTION(0x05, "sdio0", "wp"), MPP_FUNCTION(0x06, "spi1", "cs")), MPP_MODE(22, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x01, "uart1", "cts"), MPP_FUNCTION(0x02, "lcd-spi", "mosi"), MPP_FUNCTION(0x03, "sdio1", "buspwr"), MPP_FUNCTION(0x04, "ssp", "txd"), MPP_FUNCTION(0x05, "sdio0", "buspwr"), MPP_FUNCTION(0x06, "spi1", "mosi")), MPP_MODE(23, MPP_FUNCTION(0x00, "gpio", NULL), MPP_FUNCTION(0x02, "lcd-spi", "sck"), MPP_FUNCTION(0x03, "sdio1", "ledctrl"), MPP_FUNCTION(0x04, "ssp", "sclk"), MPP_FUNCTION(0x05, "sdio0", "ledctrl"), MPP_FUNCTION(0x06, "spi1", "sck")), MPP_MODE(24, MPP_FUNCTION(0x00, "camera", NULL), MPP_FUNCTION(0x01, "gpio", NULL)), MPP_MODE(40, MPP_FUNCTION(0x00, "sdio0", NULL), MPP_FUNCTION(0x01, "gpio", NULL)), MPP_MODE(46, MPP_FUNCTION(0x00, "sdio1", NULL), MPP_FUNCTION(0x01, "gpio", NULL)), MPP_MODE(52, MPP_FUNCTION(0x00, "i2s1/spdifo", NULL), MPP_FUNCTION(0x02, "i2s1", NULL), MPP_FUNCTION(0x08, "spdifo", NULL), MPP_FUNCTION(0x0a, "gpio", NULL), MPP_FUNCTION(0x0b, "twsi", NULL), MPP_FUNCTION(0x0c, "ssp/spdifo", NULL), MPP_FUNCTION(0x0e, "ssp", NULL), MPP_FUNCTION(0x0f, "ssp/twsi", NULL)), MPP_MODE(58, MPP_FUNCTION(0x00, "spi0", NULL), MPP_FUNCTION(0x01, "gpio", NULL)), MPP_MODE(62, MPP_FUNCTION(0x00, "uart1", NULL), MPP_FUNCTION(0x01, "gpio", NULL)), MPP_MODE(64, MPP_FUNCTION(0x00, "nand", NULL), MPP_FUNCTION(0x01, "gpo", NULL)), MPP_MODE(72, MPP_FUNCTION(0x00, "i2s", NULL), MPP_FUNCTION(0x01, "ac97", NULL)), MPP_MODE(73, MPP_FUNCTION(0x00, "twsi-none", NULL), MPP_FUNCTION(0x01, "twsi-opt1", NULL), MPP_FUNCTION(0x02, "twsi-opt2", NULL), MPP_FUNCTION(0x03, "twsi-opt3", NULL)), }; static struct pinctrl_gpio_range dove_mpp_gpio_ranges[] = { MPP_GPIO_RANGE(0, 0, 0, 32), MPP_GPIO_RANGE(1, 32, 32, 32), MPP_GPIO_RANGE(2, 64, 64, 8), }; static struct mvebu_pinctrl_soc_info dove_pinctrl_info = { .controls = dove_mpp_controls, .ncontrols = ARRAY_SIZE(dove_mpp_controls), .modes = dove_mpp_modes, .nmodes = ARRAY_SIZE(dove_mpp_modes), .gpioranges = dove_mpp_gpio_ranges, .ngpioranges = ARRAY_SIZE(dove_mpp_gpio_ranges), .variant = 0, }; static struct clk *clk; static struct of_device_id dove_pinctrl_of_match[] = { { .compatible = "marvell,dove-pinctrl", .data = &dove_pinctrl_info }, { } }; static int dove_pinctrl_probe(struct platform_device *pdev) { const struct of_device_id *match = of_match_device(dove_pinctrl_of_match, &pdev->dev); pdev->dev.platform_data = (void *)match->data; /* * General MPP Configuration Register is part of pdma registers. * grab clk to make sure it is ticking. */ clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(clk)) { dev_err(&pdev->dev, "Unable to get pdma clock"); return PTR_RET(clk); } clk_prepare_enable(clk); return mvebu_pinctrl_probe(pdev); } static int dove_pinctrl_remove(struct platform_device *pdev) { int ret; ret = mvebu_pinctrl_remove(pdev); if (!IS_ERR(clk)) clk_disable_unprepare(clk); return ret; } static struct platform_driver dove_pinctrl_driver = { .driver = { .name = "dove-pinctrl", .owner = THIS_MODULE, .of_match_table = of_match_ptr(dove_pinctrl_of_match), }, .probe = dove_pinctrl_probe, .remove = dove_pinctrl_remove, }; module_platform_driver(dove_pinctrl_driver); MODULE_AUTHOR("Sebastian Hesselbarth <sebastian.hesselbarth@gmail.com>"); MODULE_DESCRIPTION("Marvell Dove pinctrl driver"); MODULE_LICENSE("GPL v2");