// SPDX-License-Identifier: (GPL-2.0 OR MIT) /* * Microsemi SoCs pinctrl driver * * Author: * License: Dual MIT/GPL * Copyright (c) 2017 Microsemi Corporation */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core.h" #include "pinconf.h" #include "pinmux.h" #define ocelot_clrsetbits(addr, clear, set) \ writel((readl(addr) & ~(clear)) | (set), (addr)) enum { PINCONF_BIAS, PINCONF_SCHMITT, PINCONF_DRIVE_STRENGTH, }; /* GPIO standard registers */ #define OCELOT_GPIO_OUT_SET 0x0 #define OCELOT_GPIO_OUT_CLR 0x4 #define OCELOT_GPIO_OUT 0x8 #define OCELOT_GPIO_IN 0xc #define OCELOT_GPIO_OE 0x10 #define OCELOT_GPIO_INTR 0x14 #define OCELOT_GPIO_INTR_ENA 0x18 #define OCELOT_GPIO_INTR_IDENT 0x1c #define OCELOT_GPIO_ALT0 0x20 #define OCELOT_GPIO_ALT1 0x24 #define OCELOT_GPIO_SD_MAP 0x28 #define OCELOT_FUNC_PER_PIN 4 enum { FUNC_CAN0_a, FUNC_CAN0_b, FUNC_CAN1, FUNC_CLKMON, FUNC_NONE, FUNC_FC0_a, FUNC_FC0_b, FUNC_FC0_c, FUNC_FC1_a, FUNC_FC1_b, FUNC_FC1_c, FUNC_FC2_a, FUNC_FC2_b, FUNC_FC3_a, FUNC_FC3_b, FUNC_FC3_c, FUNC_FC4_a, FUNC_FC4_b, FUNC_FC4_c, FUNC_FC_SHRD0, FUNC_FC_SHRD1, FUNC_FC_SHRD2, FUNC_FC_SHRD3, FUNC_FC_SHRD4, FUNC_FC_SHRD5, FUNC_FC_SHRD6, FUNC_FC_SHRD7, FUNC_FC_SHRD8, FUNC_FC_SHRD9, FUNC_FC_SHRD10, FUNC_FC_SHRD11, FUNC_FC_SHRD12, FUNC_FC_SHRD13, FUNC_FC_SHRD14, FUNC_FC_SHRD15, FUNC_FC_SHRD16, FUNC_FC_SHRD17, FUNC_FC_SHRD18, FUNC_FC_SHRD19, FUNC_FC_SHRD20, FUNC_GPIO, FUNC_IB_TRG_a, FUNC_IB_TRG_b, FUNC_IB_TRG_c, FUNC_IRQ0, FUNC_IRQ_IN_a, FUNC_IRQ_IN_b, FUNC_IRQ_IN_c, FUNC_IRQ0_IN, FUNC_IRQ_OUT_a, FUNC_IRQ_OUT_b, FUNC_IRQ_OUT_c, FUNC_IRQ0_OUT, FUNC_IRQ1, FUNC_IRQ1_IN, FUNC_IRQ1_OUT, FUNC_EXT_IRQ, FUNC_MIIM, FUNC_MIIM_a, FUNC_MIIM_b, FUNC_MIIM_c, FUNC_MIIM_Sa, FUNC_MIIM_Sb, FUNC_OB_TRG, FUNC_OB_TRG_a, FUNC_OB_TRG_b, FUNC_PHY_LED, FUNC_PCI_WAKE, FUNC_MD, FUNC_PTP0, FUNC_PTP1, FUNC_PTP2, FUNC_PTP3, FUNC_PTPSYNC_0, FUNC_PTPSYNC_1, FUNC_PTPSYNC_2, FUNC_PTPSYNC_3, FUNC_PTPSYNC_4, FUNC_PTPSYNC_5, FUNC_PTPSYNC_6, FUNC_PTPSYNC_7, FUNC_PWM, FUNC_PWM_a, FUNC_PWM_b, FUNC_QSPI1, FUNC_QSPI2, FUNC_R, FUNC_RECO_a, FUNC_RECO_b, FUNC_RECO_CLK, FUNC_SD, FUNC_SFP, FUNC_SFP_SD, FUNC_SG0, FUNC_SG1, FUNC_SG2, FUNC_SGPIO_a, FUNC_SGPIO_b, FUNC_SI, FUNC_SI2, FUNC_TACHO, FUNC_TACHO_a, FUNC_TACHO_b, FUNC_TWI, FUNC_TWI2, FUNC_TWI3, FUNC_TWI_SCL_M, FUNC_TWI_SLC_GATE, FUNC_TWI_SLC_GATE_AD, FUNC_UART, FUNC_UART2, FUNC_UART3, FUNC_USB_H_a, FUNC_USB_H_b, FUNC_USB_H_c, FUNC_USB_S_a, FUNC_USB_S_b, FUNC_USB_S_c, FUNC_PLL_STAT, FUNC_EMMC, FUNC_EMMC_SD, FUNC_REF_CLK, FUNC_RCVRD_CLK, FUNC_MAX }; static const char *const ocelot_function_names[] = { [FUNC_CAN0_a] = "can0_a", [FUNC_CAN0_b] = "can0_b", [FUNC_CAN1] = "can1", [FUNC_CLKMON] = "clkmon", [FUNC_NONE] = "none", [FUNC_FC0_a] = "fc0_a", [FUNC_FC0_b] = "fc0_b", [FUNC_FC0_c] = "fc0_c", [FUNC_FC1_a] = "fc1_a", [FUNC_FC1_b] = "fc1_b", [FUNC_FC1_c] = "fc1_c", [FUNC_FC2_a] = "fc2_a", [FUNC_FC2_b] = "fc2_b", [FUNC_FC3_a] = "fc3_a", [FUNC_FC3_b] = "fc3_b", [FUNC_FC3_c] = "fc3_c", [FUNC_FC4_a] = "fc4_a", [FUNC_FC4_b] = "fc4_b", [FUNC_FC4_c] = "fc4_c", [FUNC_FC_SHRD0] = "fc_shrd0", [FUNC_FC_SHRD1] = "fc_shrd1", [FUNC_FC_SHRD2] = "fc_shrd2", [FUNC_FC_SHRD3] = "fc_shrd3", [FUNC_FC_SHRD4] = "fc_shrd4", [FUNC_FC_SHRD5] = "fc_shrd5", [FUNC_FC_SHRD6] = "fc_shrd6", [FUNC_FC_SHRD7] = "fc_shrd7", [FUNC_FC_SHRD8] = "fc_shrd8", [FUNC_FC_SHRD9] = "fc_shrd9", [FUNC_FC_SHRD10] = "fc_shrd10", [FUNC_FC_SHRD11] = "fc_shrd11", [FUNC_FC_SHRD12] = "fc_shrd12", [FUNC_FC_SHRD13] = "fc_shrd13", [FUNC_FC_SHRD14] = "fc_shrd14", [FUNC_FC_SHRD15] = "fc_shrd15", [FUNC_FC_SHRD16] = "fc_shrd16", [FUNC_FC_SHRD17] = "fc_shrd17", [FUNC_FC_SHRD18] = "fc_shrd18", [FUNC_FC_SHRD19] = "fc_shrd19", [FUNC_FC_SHRD20] = "fc_shrd20", [FUNC_GPIO] = "gpio", [FUNC_IB_TRG_a] = "ib_trig_a", [FUNC_IB_TRG_b] = "ib_trig_b", [FUNC_IB_TRG_c] = "ib_trig_c", [FUNC_IRQ0] = "irq0", [FUNC_IRQ_IN_a] = "irq_in_a", [FUNC_IRQ_IN_b] = "irq_in_b", [FUNC_IRQ_IN_c] = "irq_in_c", [FUNC_IRQ0_IN] = "irq0_in", [FUNC_IRQ_OUT_a] = "irq_out_a", [FUNC_IRQ_OUT_b] = "irq_out_b", [FUNC_IRQ_OUT_c] = "irq_out_c", [FUNC_IRQ0_OUT] = "irq0_out", [FUNC_IRQ1] = "irq1", [FUNC_IRQ1_IN] = "irq1_in", [FUNC_IRQ1_OUT] = "irq1_out", [FUNC_EXT_IRQ] = "ext_irq", [FUNC_MIIM] = "miim", [FUNC_MIIM_a] = "miim_a", [FUNC_MIIM_b] = "miim_b", [FUNC_MIIM_c] = "miim_c", [FUNC_MIIM_Sa] = "miim_slave_a", [FUNC_MIIM_Sb] = "miim_slave_b", [FUNC_PHY_LED] = "phy_led", [FUNC_PCI_WAKE] = "pci_wake", [FUNC_MD] = "md", [FUNC_OB_TRG] = "ob_trig", [FUNC_OB_TRG_a] = "ob_trig_a", [FUNC_OB_TRG_b] = "ob_trig_b", [FUNC_PTP0] = "ptp0", [FUNC_PTP1] = "ptp1", [FUNC_PTP2] = "ptp2", [FUNC_PTP3] = "ptp3", [FUNC_PTPSYNC_0] = "ptpsync_0", [FUNC_PTPSYNC_1] = "ptpsync_1", [FUNC_PTPSYNC_2] = "ptpsync_2", [FUNC_PTPSYNC_3] = "ptpsync_3", [FUNC_PTPSYNC_4] = "ptpsync_4", [FUNC_PTPSYNC_5] = "ptpsync_5", [FUNC_PTPSYNC_6] = "ptpsync_6", [FUNC_PTPSYNC_7] = "ptpsync_7", [FUNC_PWM] = "pwm", [FUNC_PWM_a] = "pwm_a", [FUNC_PWM_b] = "pwm_b", [FUNC_QSPI1] = "qspi1", [FUNC_QSPI2] = "qspi2", [FUNC_R] = "reserved", [FUNC_RECO_a] = "reco_a", [FUNC_RECO_b] = "reco_b", [FUNC_RECO_CLK] = "reco_clk", [FUNC_SD] = "sd", [FUNC_SFP] = "sfp", [FUNC_SFP_SD] = "sfp_sd", [FUNC_SG0] = "sg0", [FUNC_SG1] = "sg1", [FUNC_SG2] = "sg2", [FUNC_SGPIO_a] = "sgpio_a", [FUNC_SGPIO_b] = "sgpio_b", [FUNC_SI] = "si", [FUNC_SI2] = "si2", [FUNC_TACHO] = "tacho", [FUNC_TACHO_a] = "tacho_a", [FUNC_TACHO_b] = "tacho_b", [FUNC_TWI] = "twi", [FUNC_TWI2] = "twi2", [FUNC_TWI3] = "twi3", [FUNC_TWI_SCL_M] = "twi_scl_m", [FUNC_TWI_SLC_GATE] = "twi_slc_gate", [FUNC_TWI_SLC_GATE_AD] = "twi_slc_gate_ad", [FUNC_USB_H_a] = "usb_host_a", [FUNC_USB_H_b] = "usb_host_b", [FUNC_USB_H_c] = "usb_host_c", [FUNC_USB_S_a] = "usb_slave_a", [FUNC_USB_S_b] = "usb_slave_b", [FUNC_USB_S_c] = "usb_slave_c", [FUNC_UART] = "uart", [FUNC_UART2] = "uart2", [FUNC_UART3] = "uart3", [FUNC_PLL_STAT] = "pll_stat", [FUNC_EMMC] = "emmc", [FUNC_EMMC_SD] = "emmc_sd", [FUNC_REF_CLK] = "ref_clk", [FUNC_RCVRD_CLK] = "rcvrd_clk", }; struct ocelot_pmx_func { const char **groups; unsigned int ngroups; }; struct ocelot_pin_caps { unsigned int pin; unsigned char functions[OCELOT_FUNC_PER_PIN]; unsigned char a_functions[OCELOT_FUNC_PER_PIN]; /* Additional functions */ }; struct ocelot_pincfg_data { u8 pd_bit; u8 pu_bit; u8 drive_bits; u8 schmitt_bit; }; struct ocelot_pinctrl { struct device *dev; struct pinctrl_dev *pctl; struct gpio_chip gpio_chip; struct regmap *map; struct regmap *pincfg; struct pinctrl_desc *desc; const struct ocelot_pincfg_data *pincfg_data; struct ocelot_pmx_func func[FUNC_MAX]; u8 stride; struct workqueue_struct *wq; }; struct ocelot_match_data { struct pinctrl_desc desc; struct ocelot_pincfg_data pincfg_data; }; struct ocelot_irq_work { struct work_struct irq_work; struct irq_desc *irq_desc; }; #define LUTON_P(p, f0, f1) \ static struct ocelot_pin_caps luton_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_NONE, \ }, \ } LUTON_P(0, SG0, NONE); LUTON_P(1, SG0, NONE); LUTON_P(2, SG0, NONE); LUTON_P(3, SG0, NONE); LUTON_P(4, TACHO, NONE); LUTON_P(5, TWI, PHY_LED); LUTON_P(6, TWI, PHY_LED); LUTON_P(7, NONE, PHY_LED); LUTON_P(8, EXT_IRQ, PHY_LED); LUTON_P(9, EXT_IRQ, PHY_LED); LUTON_P(10, SFP, PHY_LED); LUTON_P(11, SFP, PHY_LED); LUTON_P(12, SFP, PHY_LED); LUTON_P(13, SFP, PHY_LED); LUTON_P(14, SI, PHY_LED); LUTON_P(15, SI, PHY_LED); LUTON_P(16, SI, PHY_LED); LUTON_P(17, SFP, PHY_LED); LUTON_P(18, SFP, PHY_LED); LUTON_P(19, SFP, PHY_LED); LUTON_P(20, SFP, PHY_LED); LUTON_P(21, SFP, PHY_LED); LUTON_P(22, SFP, PHY_LED); LUTON_P(23, SFP, PHY_LED); LUTON_P(24, SFP, PHY_LED); LUTON_P(25, SFP, PHY_LED); LUTON_P(26, SFP, PHY_LED); LUTON_P(27, SFP, PHY_LED); LUTON_P(28, SFP, PHY_LED); LUTON_P(29, PWM, NONE); LUTON_P(30, UART, NONE); LUTON_P(31, UART, NONE); #define LUTON_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &luton_pin_##n \ } static const struct pinctrl_pin_desc luton_pins[] = { LUTON_PIN(0), LUTON_PIN(1), LUTON_PIN(2), LUTON_PIN(3), LUTON_PIN(4), LUTON_PIN(5), LUTON_PIN(6), LUTON_PIN(7), LUTON_PIN(8), LUTON_PIN(9), LUTON_PIN(10), LUTON_PIN(11), LUTON_PIN(12), LUTON_PIN(13), LUTON_PIN(14), LUTON_PIN(15), LUTON_PIN(16), LUTON_PIN(17), LUTON_PIN(18), LUTON_PIN(19), LUTON_PIN(20), LUTON_PIN(21), LUTON_PIN(22), LUTON_PIN(23), LUTON_PIN(24), LUTON_PIN(25), LUTON_PIN(26), LUTON_PIN(27), LUTON_PIN(28), LUTON_PIN(29), LUTON_PIN(30), LUTON_PIN(31), }; #define SERVAL_P(p, f0, f1, f2) \ static struct ocelot_pin_caps serval_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_##f2, \ }, \ } SERVAL_P(0, SG0, NONE, NONE); SERVAL_P(1, SG0, NONE, NONE); SERVAL_P(2, SG0, NONE, NONE); SERVAL_P(3, SG0, NONE, NONE); SERVAL_P(4, TACHO, NONE, NONE); SERVAL_P(5, PWM, NONE, NONE); SERVAL_P(6, TWI, NONE, NONE); SERVAL_P(7, TWI, NONE, NONE); SERVAL_P(8, SI, NONE, NONE); SERVAL_P(9, SI, MD, NONE); SERVAL_P(10, SI, MD, NONE); SERVAL_P(11, SFP, MD, TWI_SCL_M); SERVAL_P(12, SFP, MD, TWI_SCL_M); SERVAL_P(13, SFP, UART2, TWI_SCL_M); SERVAL_P(14, SFP, UART2, TWI_SCL_M); SERVAL_P(15, SFP, PTP0, TWI_SCL_M); SERVAL_P(16, SFP, PTP0, TWI_SCL_M); SERVAL_P(17, SFP, PCI_WAKE, TWI_SCL_M); SERVAL_P(18, SFP, NONE, TWI_SCL_M); SERVAL_P(19, SFP, NONE, TWI_SCL_M); SERVAL_P(20, SFP, NONE, TWI_SCL_M); SERVAL_P(21, SFP, NONE, TWI_SCL_M); SERVAL_P(22, NONE, NONE, NONE); SERVAL_P(23, NONE, NONE, NONE); SERVAL_P(24, NONE, NONE, NONE); SERVAL_P(25, NONE, NONE, NONE); SERVAL_P(26, UART, NONE, NONE); SERVAL_P(27, UART, NONE, NONE); SERVAL_P(28, IRQ0, NONE, NONE); SERVAL_P(29, IRQ1, NONE, NONE); SERVAL_P(30, PTP0, NONE, NONE); SERVAL_P(31, PTP0, NONE, NONE); #define SERVAL_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &serval_pin_##n \ } static const struct pinctrl_pin_desc serval_pins[] = { SERVAL_PIN(0), SERVAL_PIN(1), SERVAL_PIN(2), SERVAL_PIN(3), SERVAL_PIN(4), SERVAL_PIN(5), SERVAL_PIN(6), SERVAL_PIN(7), SERVAL_PIN(8), SERVAL_PIN(9), SERVAL_PIN(10), SERVAL_PIN(11), SERVAL_PIN(12), SERVAL_PIN(13), SERVAL_PIN(14), SERVAL_PIN(15), SERVAL_PIN(16), SERVAL_PIN(17), SERVAL_PIN(18), SERVAL_PIN(19), SERVAL_PIN(20), SERVAL_PIN(21), SERVAL_PIN(22), SERVAL_PIN(23), SERVAL_PIN(24), SERVAL_PIN(25), SERVAL_PIN(26), SERVAL_PIN(27), SERVAL_PIN(28), SERVAL_PIN(29), SERVAL_PIN(30), SERVAL_PIN(31), }; #define OCELOT_P(p, f0, f1, f2) \ static struct ocelot_pin_caps ocelot_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_##f2, \ }, \ } OCELOT_P(0, SG0, NONE, NONE); OCELOT_P(1, SG0, NONE, NONE); OCELOT_P(2, SG0, NONE, NONE); OCELOT_P(3, SG0, NONE, NONE); OCELOT_P(4, IRQ0_IN, IRQ0_OUT, TWI_SCL_M); OCELOT_P(5, IRQ1_IN, IRQ1_OUT, PCI_WAKE); OCELOT_P(6, UART, TWI_SCL_M, NONE); OCELOT_P(7, UART, TWI_SCL_M, NONE); OCELOT_P(8, SI, TWI_SCL_M, IRQ0_OUT); OCELOT_P(9, SI, TWI_SCL_M, IRQ1_OUT); OCELOT_P(10, PTP2, TWI_SCL_M, SFP); OCELOT_P(11, PTP3, TWI_SCL_M, SFP); OCELOT_P(12, UART2, TWI_SCL_M, SFP); OCELOT_P(13, UART2, TWI_SCL_M, SFP); OCELOT_P(14, MIIM, TWI_SCL_M, SFP); OCELOT_P(15, MIIM, TWI_SCL_M, SFP); OCELOT_P(16, TWI, NONE, SI); OCELOT_P(17, TWI, TWI_SCL_M, SI); OCELOT_P(18, PTP0, TWI_SCL_M, NONE); OCELOT_P(19, PTP1, TWI_SCL_M, NONE); OCELOT_P(20, RECO_CLK, TACHO, TWI_SCL_M); OCELOT_P(21, RECO_CLK, PWM, TWI_SCL_M); #define OCELOT_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &ocelot_pin_##n \ } static const struct pinctrl_pin_desc ocelot_pins[] = { OCELOT_PIN(0), OCELOT_PIN(1), OCELOT_PIN(2), OCELOT_PIN(3), OCELOT_PIN(4), OCELOT_PIN(5), OCELOT_PIN(6), OCELOT_PIN(7), OCELOT_PIN(8), OCELOT_PIN(9), OCELOT_PIN(10), OCELOT_PIN(11), OCELOT_PIN(12), OCELOT_PIN(13), OCELOT_PIN(14), OCELOT_PIN(15), OCELOT_PIN(16), OCELOT_PIN(17), OCELOT_PIN(18), OCELOT_PIN(19), OCELOT_PIN(20), OCELOT_PIN(21), }; #define JAGUAR2_P(p, f0, f1) \ static struct ocelot_pin_caps jaguar2_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_NONE \ }, \ } JAGUAR2_P(0, SG0, NONE); JAGUAR2_P(1, SG0, NONE); JAGUAR2_P(2, SG0, NONE); JAGUAR2_P(3, SG0, NONE); JAGUAR2_P(4, SG1, NONE); JAGUAR2_P(5, SG1, NONE); JAGUAR2_P(6, IRQ0_IN, IRQ0_OUT); JAGUAR2_P(7, IRQ1_IN, IRQ1_OUT); JAGUAR2_P(8, PTP0, NONE); JAGUAR2_P(9, PTP1, NONE); JAGUAR2_P(10, UART, NONE); JAGUAR2_P(11, UART, NONE); JAGUAR2_P(12, SG1, NONE); JAGUAR2_P(13, SG1, NONE); JAGUAR2_P(14, TWI, TWI_SCL_M); JAGUAR2_P(15, TWI, NONE); JAGUAR2_P(16, SI, TWI_SCL_M); JAGUAR2_P(17, SI, TWI_SCL_M); JAGUAR2_P(18, SI, TWI_SCL_M); JAGUAR2_P(19, PCI_WAKE, NONE); JAGUAR2_P(20, IRQ0_OUT, TWI_SCL_M); JAGUAR2_P(21, IRQ1_OUT, TWI_SCL_M); JAGUAR2_P(22, TACHO, NONE); JAGUAR2_P(23, PWM, NONE); JAGUAR2_P(24, UART2, NONE); JAGUAR2_P(25, UART2, SI); JAGUAR2_P(26, PTP2, SI); JAGUAR2_P(27, PTP3, SI); JAGUAR2_P(28, TWI2, SI); JAGUAR2_P(29, TWI2, SI); JAGUAR2_P(30, SG2, SI); JAGUAR2_P(31, SG2, SI); JAGUAR2_P(32, SG2, SI); JAGUAR2_P(33, SG2, SI); JAGUAR2_P(34, NONE, TWI_SCL_M); JAGUAR2_P(35, NONE, TWI_SCL_M); JAGUAR2_P(36, NONE, TWI_SCL_M); JAGUAR2_P(37, NONE, TWI_SCL_M); JAGUAR2_P(38, NONE, TWI_SCL_M); JAGUAR2_P(39, NONE, TWI_SCL_M); JAGUAR2_P(40, NONE, TWI_SCL_M); JAGUAR2_P(41, NONE, TWI_SCL_M); JAGUAR2_P(42, NONE, TWI_SCL_M); JAGUAR2_P(43, NONE, TWI_SCL_M); JAGUAR2_P(44, NONE, SFP); JAGUAR2_P(45, NONE, SFP); JAGUAR2_P(46, NONE, SFP); JAGUAR2_P(47, NONE, SFP); JAGUAR2_P(48, SFP, NONE); JAGUAR2_P(49, SFP, SI); JAGUAR2_P(50, SFP, SI); JAGUAR2_P(51, SFP, SI); JAGUAR2_P(52, SFP, NONE); JAGUAR2_P(53, SFP, NONE); JAGUAR2_P(54, SFP, NONE); JAGUAR2_P(55, SFP, NONE); JAGUAR2_P(56, MIIM, SFP); JAGUAR2_P(57, MIIM, SFP); JAGUAR2_P(58, MIIM, SFP); JAGUAR2_P(59, MIIM, SFP); JAGUAR2_P(60, NONE, NONE); JAGUAR2_P(61, NONE, NONE); JAGUAR2_P(62, NONE, NONE); JAGUAR2_P(63, NONE, NONE); #define JAGUAR2_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &jaguar2_pin_##n \ } static const struct pinctrl_pin_desc jaguar2_pins[] = { JAGUAR2_PIN(0), JAGUAR2_PIN(1), JAGUAR2_PIN(2), JAGUAR2_PIN(3), JAGUAR2_PIN(4), JAGUAR2_PIN(5), JAGUAR2_PIN(6), JAGUAR2_PIN(7), JAGUAR2_PIN(8), JAGUAR2_PIN(9), JAGUAR2_PIN(10), JAGUAR2_PIN(11), JAGUAR2_PIN(12), JAGUAR2_PIN(13), JAGUAR2_PIN(14), JAGUAR2_PIN(15), JAGUAR2_PIN(16), JAGUAR2_PIN(17), JAGUAR2_PIN(18), JAGUAR2_PIN(19), JAGUAR2_PIN(20), JAGUAR2_PIN(21), JAGUAR2_PIN(22), JAGUAR2_PIN(23), JAGUAR2_PIN(24), JAGUAR2_PIN(25), JAGUAR2_PIN(26), JAGUAR2_PIN(27), JAGUAR2_PIN(28), JAGUAR2_PIN(29), JAGUAR2_PIN(30), JAGUAR2_PIN(31), JAGUAR2_PIN(32), JAGUAR2_PIN(33), JAGUAR2_PIN(34), JAGUAR2_PIN(35), JAGUAR2_PIN(36), JAGUAR2_PIN(37), JAGUAR2_PIN(38), JAGUAR2_PIN(39), JAGUAR2_PIN(40), JAGUAR2_PIN(41), JAGUAR2_PIN(42), JAGUAR2_PIN(43), JAGUAR2_PIN(44), JAGUAR2_PIN(45), JAGUAR2_PIN(46), JAGUAR2_PIN(47), JAGUAR2_PIN(48), JAGUAR2_PIN(49), JAGUAR2_PIN(50), JAGUAR2_PIN(51), JAGUAR2_PIN(52), JAGUAR2_PIN(53), JAGUAR2_PIN(54), JAGUAR2_PIN(55), JAGUAR2_PIN(56), JAGUAR2_PIN(57), JAGUAR2_PIN(58), JAGUAR2_PIN(59), JAGUAR2_PIN(60), JAGUAR2_PIN(61), JAGUAR2_PIN(62), JAGUAR2_PIN(63), }; #define SERVALT_P(p, f0, f1, f2) \ static struct ocelot_pin_caps servalt_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_##f2 \ }, \ } SERVALT_P(0, SG0, NONE, NONE); SERVALT_P(1, SG0, NONE, NONE); SERVALT_P(2, SG0, NONE, NONE); SERVALT_P(3, SG0, NONE, NONE); SERVALT_P(4, IRQ0_IN, IRQ0_OUT, TWI_SCL_M); SERVALT_P(5, IRQ1_IN, IRQ1_OUT, TWI_SCL_M); SERVALT_P(6, UART, NONE, NONE); SERVALT_P(7, UART, NONE, NONE); SERVALT_P(8, SI, SFP, TWI_SCL_M); SERVALT_P(9, PCI_WAKE, SFP, SI); SERVALT_P(10, PTP0, SFP, TWI_SCL_M); SERVALT_P(11, PTP1, SFP, TWI_SCL_M); SERVALT_P(12, REF_CLK, SFP, TWI_SCL_M); SERVALT_P(13, REF_CLK, SFP, TWI_SCL_M); SERVALT_P(14, REF_CLK, IRQ0_OUT, SI); SERVALT_P(15, REF_CLK, IRQ1_OUT, SI); SERVALT_P(16, TACHO, SFP, SI); SERVALT_P(17, PWM, NONE, TWI_SCL_M); SERVALT_P(18, PTP2, SFP, SI); SERVALT_P(19, PTP3, SFP, SI); SERVALT_P(20, UART2, SFP, SI); SERVALT_P(21, UART2, NONE, NONE); SERVALT_P(22, MIIM, SFP, TWI2); SERVALT_P(23, MIIM, SFP, TWI2); SERVALT_P(24, TWI, NONE, NONE); SERVALT_P(25, TWI, SFP, TWI_SCL_M); SERVALT_P(26, TWI_SCL_M, SFP, SI); SERVALT_P(27, TWI_SCL_M, SFP, SI); SERVALT_P(28, TWI_SCL_M, SFP, SI); SERVALT_P(29, TWI_SCL_M, NONE, NONE); SERVALT_P(30, TWI_SCL_M, NONE, NONE); SERVALT_P(31, TWI_SCL_M, NONE, NONE); SERVALT_P(32, TWI_SCL_M, NONE, NONE); SERVALT_P(33, RCVRD_CLK, NONE, NONE); SERVALT_P(34, RCVRD_CLK, NONE, NONE); SERVALT_P(35, RCVRD_CLK, NONE, NONE); SERVALT_P(36, RCVRD_CLK, NONE, NONE); #define SERVALT_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &servalt_pin_##n \ } static const struct pinctrl_pin_desc servalt_pins[] = { SERVALT_PIN(0), SERVALT_PIN(1), SERVALT_PIN(2), SERVALT_PIN(3), SERVALT_PIN(4), SERVALT_PIN(5), SERVALT_PIN(6), SERVALT_PIN(7), SERVALT_PIN(8), SERVALT_PIN(9), SERVALT_PIN(10), SERVALT_PIN(11), SERVALT_PIN(12), SERVALT_PIN(13), SERVALT_PIN(14), SERVALT_PIN(15), SERVALT_PIN(16), SERVALT_PIN(17), SERVALT_PIN(18), SERVALT_PIN(19), SERVALT_PIN(20), SERVALT_PIN(21), SERVALT_PIN(22), SERVALT_PIN(23), SERVALT_PIN(24), SERVALT_PIN(25), SERVALT_PIN(26), SERVALT_PIN(27), SERVALT_PIN(28), SERVALT_PIN(29), SERVALT_PIN(30), SERVALT_PIN(31), SERVALT_PIN(32), SERVALT_PIN(33), SERVALT_PIN(34), SERVALT_PIN(35), SERVALT_PIN(36), }; #define SPARX5_P(p, f0, f1, f2) \ static struct ocelot_pin_caps sparx5_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_GPIO, FUNC_##f0, FUNC_##f1, FUNC_##f2 \ }, \ } SPARX5_P(0, SG0, PLL_STAT, NONE); SPARX5_P(1, SG0, NONE, NONE); SPARX5_P(2, SG0, NONE, NONE); SPARX5_P(3, SG0, NONE, NONE); SPARX5_P(4, SG1, NONE, NONE); SPARX5_P(5, SG1, NONE, NONE); SPARX5_P(6, IRQ0_IN, IRQ0_OUT, SFP); SPARX5_P(7, IRQ1_IN, IRQ1_OUT, SFP); SPARX5_P(8, PTP0, NONE, SFP); SPARX5_P(9, PTP1, SFP, TWI_SCL_M); SPARX5_P(10, UART, NONE, NONE); SPARX5_P(11, UART, NONE, NONE); SPARX5_P(12, SG1, NONE, NONE); SPARX5_P(13, SG1, NONE, NONE); SPARX5_P(14, TWI, TWI_SCL_M, NONE); SPARX5_P(15, TWI, NONE, NONE); SPARX5_P(16, SI, TWI_SCL_M, SFP); SPARX5_P(17, SI, TWI_SCL_M, SFP); SPARX5_P(18, SI, TWI_SCL_M, SFP); SPARX5_P(19, PCI_WAKE, TWI_SCL_M, SFP); SPARX5_P(20, IRQ0_OUT, TWI_SCL_M, SFP); SPARX5_P(21, IRQ1_OUT, TACHO, SFP); SPARX5_P(22, TACHO, IRQ0_OUT, TWI_SCL_M); SPARX5_P(23, PWM, UART3, TWI_SCL_M); SPARX5_P(24, PTP2, UART3, TWI_SCL_M); SPARX5_P(25, PTP3, SI, TWI_SCL_M); SPARX5_P(26, UART2, SI, TWI_SCL_M); SPARX5_P(27, UART2, SI, TWI_SCL_M); SPARX5_P(28, TWI2, SI, SFP); SPARX5_P(29, TWI2, SI, SFP); SPARX5_P(30, SG2, SI, PWM); SPARX5_P(31, SG2, SI, TWI_SCL_M); SPARX5_P(32, SG2, SI, TWI_SCL_M); SPARX5_P(33, SG2, SI, SFP); SPARX5_P(34, NONE, TWI_SCL_M, EMMC); SPARX5_P(35, SFP, TWI_SCL_M, EMMC); SPARX5_P(36, SFP, TWI_SCL_M, EMMC); SPARX5_P(37, SFP, NONE, EMMC); SPARX5_P(38, NONE, TWI_SCL_M, EMMC); SPARX5_P(39, SI2, TWI_SCL_M, EMMC); SPARX5_P(40, SI2, TWI_SCL_M, EMMC); SPARX5_P(41, SI2, TWI_SCL_M, EMMC); SPARX5_P(42, SI2, TWI_SCL_M, EMMC); SPARX5_P(43, SI2, TWI_SCL_M, EMMC); SPARX5_P(44, SI, SFP, EMMC); SPARX5_P(45, SI, SFP, EMMC); SPARX5_P(46, NONE, SFP, EMMC); SPARX5_P(47, NONE, SFP, EMMC); SPARX5_P(48, TWI3, SI, SFP); SPARX5_P(49, TWI3, NONE, SFP); SPARX5_P(50, SFP, NONE, TWI_SCL_M); SPARX5_P(51, SFP, SI, TWI_SCL_M); SPARX5_P(52, SFP, MIIM, TWI_SCL_M); SPARX5_P(53, SFP, MIIM, TWI_SCL_M); SPARX5_P(54, SFP, PTP2, TWI_SCL_M); SPARX5_P(55, SFP, PTP3, PCI_WAKE); SPARX5_P(56, MIIM, SFP, TWI_SCL_M); SPARX5_P(57, MIIM, SFP, TWI_SCL_M); SPARX5_P(58, MIIM, SFP, TWI_SCL_M); SPARX5_P(59, MIIM, SFP, NONE); SPARX5_P(60, RECO_CLK, NONE, NONE); SPARX5_P(61, RECO_CLK, NONE, NONE); SPARX5_P(62, RECO_CLK, PLL_STAT, NONE); SPARX5_P(63, RECO_CLK, NONE, NONE); #define SPARX5_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &sparx5_pin_##n \ } static const struct pinctrl_pin_desc sparx5_pins[] = { SPARX5_PIN(0), SPARX5_PIN(1), SPARX5_PIN(2), SPARX5_PIN(3), SPARX5_PIN(4), SPARX5_PIN(5), SPARX5_PIN(6), SPARX5_PIN(7), SPARX5_PIN(8), SPARX5_PIN(9), SPARX5_PIN(10), SPARX5_PIN(11), SPARX5_PIN(12), SPARX5_PIN(13), SPARX5_PIN(14), SPARX5_PIN(15), SPARX5_PIN(16), SPARX5_PIN(17), SPARX5_PIN(18), SPARX5_PIN(19), SPARX5_PIN(20), SPARX5_PIN(21), SPARX5_PIN(22), SPARX5_PIN(23), SPARX5_PIN(24), SPARX5_PIN(25), SPARX5_PIN(26), SPARX5_PIN(27), SPARX5_PIN(28), SPARX5_PIN(29), SPARX5_PIN(30), SPARX5_PIN(31), SPARX5_PIN(32), SPARX5_PIN(33), SPARX5_PIN(34), SPARX5_PIN(35), SPARX5_PIN(36), SPARX5_PIN(37), SPARX5_PIN(38), SPARX5_PIN(39), SPARX5_PIN(40), SPARX5_PIN(41), SPARX5_PIN(42), SPARX5_PIN(43), SPARX5_PIN(44), SPARX5_PIN(45), SPARX5_PIN(46), SPARX5_PIN(47), SPARX5_PIN(48), SPARX5_PIN(49), SPARX5_PIN(50), SPARX5_PIN(51), SPARX5_PIN(52), SPARX5_PIN(53), SPARX5_PIN(54), SPARX5_PIN(55), SPARX5_PIN(56), SPARX5_PIN(57), SPARX5_PIN(58), SPARX5_PIN(59), SPARX5_PIN(60), SPARX5_PIN(61), SPARX5_PIN(62), SPARX5_PIN(63), }; #define LAN966X_P(p, f0, f1, f2, f3, f4, f5, f6, f7) \ static struct ocelot_pin_caps lan966x_pin_##p = { \ .pin = p, \ .functions = { \ FUNC_##f0, FUNC_##f1, FUNC_##f2, \ FUNC_##f3 \ }, \ .a_functions = { \ FUNC_##f4, FUNC_##f5, FUNC_##f6, \ FUNC_##f7 \ }, \ } /* Pinmuxing table taken from data sheet */ /* Pin FUNC0 FUNC1 FUNC2 FUNC3 FUNC4 FUNC5 FUNC6 FUNC7 */ LAN966X_P(0, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(1, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(2, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(3, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(4, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(5, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(6, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(7, GPIO, NONE, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(8, GPIO, FC0_a, USB_H_b, NONE, USB_S_b, NONE, NONE, R); LAN966X_P(9, GPIO, FC0_a, USB_H_b, NONE, NONE, NONE, NONE, R); LAN966X_P(10, GPIO, FC0_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(11, GPIO, FC1_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(12, GPIO, FC1_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(13, GPIO, FC1_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(14, GPIO, FC2_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(15, GPIO, FC2_a, NONE, NONE, NONE, NONE, NONE, R); LAN966X_P(16, GPIO, FC2_a, IB_TRG_a, NONE, OB_TRG_a, IRQ_IN_c, IRQ_OUT_c, R); LAN966X_P(17, GPIO, FC3_a, IB_TRG_a, NONE, OB_TRG_a, IRQ_IN_c, IRQ_OUT_c, R); LAN966X_P(18, GPIO, FC3_a, IB_TRG_a, NONE, OB_TRG_a, IRQ_IN_c, IRQ_OUT_c, R); LAN966X_P(19, GPIO, FC3_a, IB_TRG_a, NONE, OB_TRG_a, IRQ_IN_c, IRQ_OUT_c, R); LAN966X_P(20, GPIO, FC4_a, IB_TRG_a, NONE, OB_TRG_a, IRQ_IN_c, NONE, R); LAN966X_P(21, GPIO, FC4_a, NONE, NONE, OB_TRG_a, NONE, NONE, R); LAN966X_P(22, GPIO, FC4_a, NONE, NONE, OB_TRG_a, NONE, NONE, R); LAN966X_P(23, GPIO, NONE, NONE, NONE, OB_TRG_a, NONE, NONE, R); LAN966X_P(24, GPIO, FC0_b, IB_TRG_a, USB_H_c, OB_TRG_a, IRQ_IN_c, TACHO_a, R); LAN966X_P(25, GPIO, FC0_b, IB_TRG_a, USB_H_c, OB_TRG_a, IRQ_OUT_c, SFP_SD, R); LAN966X_P(26, GPIO, FC0_b, IB_TRG_a, USB_S_c, OB_TRG_a, CAN0_a, SFP_SD, R); LAN966X_P(27, GPIO, NONE, NONE, NONE, OB_TRG_a, CAN0_a, PWM_a, R); LAN966X_P(28, GPIO, MIIM_a, NONE, NONE, OB_TRG_a, IRQ_OUT_c, SFP_SD, R); LAN966X_P(29, GPIO, MIIM_a, NONE, NONE, OB_TRG_a, NONE, NONE, R); LAN966X_P(30, GPIO, FC3_c, CAN1, CLKMON, OB_TRG, RECO_b, NONE, R); LAN966X_P(31, GPIO, FC3_c, CAN1, CLKMON, OB_TRG, RECO_b, NONE, R); LAN966X_P(32, GPIO, FC3_c, NONE, SGPIO_a, NONE, MIIM_Sa, NONE, R); LAN966X_P(33, GPIO, FC1_b, NONE, SGPIO_a, NONE, MIIM_Sa, MIIM_b, R); LAN966X_P(34, GPIO, FC1_b, NONE, SGPIO_a, NONE, MIIM_Sa, MIIM_b, R); LAN966X_P(35, GPIO, FC1_b, PTPSYNC_0, SGPIO_a, CAN0_b, NONE, NONE, R); LAN966X_P(36, GPIO, NONE, PTPSYNC_1, NONE, CAN0_b, NONE, NONE, R); LAN966X_P(37, GPIO, FC_SHRD0, PTPSYNC_2, TWI_SLC_GATE_AD, NONE, NONE, NONE, R); LAN966X_P(38, GPIO, NONE, PTPSYNC_3, NONE, NONE, NONE, NONE, R); LAN966X_P(39, GPIO, NONE, PTPSYNC_4, NONE, NONE, NONE, NONE, R); LAN966X_P(40, GPIO, FC_SHRD1, PTPSYNC_5, NONE, NONE, NONE, NONE, R); LAN966X_P(41, GPIO, FC_SHRD2, PTPSYNC_6, TWI_SLC_GATE_AD, NONE, NONE, NONE, R); LAN966X_P(42, GPIO, FC_SHRD3, PTPSYNC_7, TWI_SLC_GATE_AD, NONE, NONE, NONE, R); LAN966X_P(43, GPIO, FC2_b, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, RECO_a, IRQ_IN_a, R); LAN966X_P(44, GPIO, FC2_b, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, RECO_a, IRQ_IN_a, R); LAN966X_P(45, GPIO, FC2_b, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, NONE, IRQ_IN_a, R); LAN966X_P(46, GPIO, FC1_c, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, FC_SHRD4, IRQ_IN_a, R); LAN966X_P(47, GPIO, FC1_c, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, FC_SHRD5, IRQ_IN_a, R); LAN966X_P(48, GPIO, FC1_c, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, FC_SHRD6, IRQ_IN_a, R); LAN966X_P(49, GPIO, FC_SHRD7, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, TWI_SLC_GATE, IRQ_IN_a, R); LAN966X_P(50, GPIO, FC_SHRD16, OB_TRG_b, IB_TRG_b, IRQ_OUT_a, TWI_SLC_GATE, NONE, R); LAN966X_P(51, GPIO, FC3_b, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, PWM_b, IRQ_IN_b, R); LAN966X_P(52, GPIO, FC3_b, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, TACHO_b, IRQ_IN_b, R); LAN966X_P(53, GPIO, FC3_b, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, NONE, IRQ_IN_b, R); LAN966X_P(54, GPIO, FC_SHRD8, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, TWI_SLC_GATE, IRQ_IN_b, R); LAN966X_P(55, GPIO, FC_SHRD9, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, TWI_SLC_GATE, IRQ_IN_b, R); LAN966X_P(56, GPIO, FC4_b, OB_TRG_b, IB_TRG_c, IRQ_OUT_b, FC_SHRD10, IRQ_IN_b, R); LAN966X_P(57, GPIO, FC4_b, TWI_SLC_GATE, IB_TRG_c, IRQ_OUT_b, FC_SHRD11, IRQ_IN_b, R); LAN966X_P(58, GPIO, FC4_b, TWI_SLC_GATE, IB_TRG_c, IRQ_OUT_b, FC_SHRD12, IRQ_IN_b, R); LAN966X_P(59, GPIO, QSPI1, MIIM_c, NONE, NONE, MIIM_Sb, NONE, R); LAN966X_P(60, GPIO, QSPI1, MIIM_c, NONE, NONE, MIIM_Sb, NONE, R); LAN966X_P(61, GPIO, QSPI1, NONE, SGPIO_b, FC0_c, MIIM_Sb, NONE, R); LAN966X_P(62, GPIO, QSPI1, FC_SHRD13, SGPIO_b, FC0_c, TWI_SLC_GATE, SFP_SD, R); LAN966X_P(63, GPIO, QSPI1, FC_SHRD14, SGPIO_b, FC0_c, TWI_SLC_GATE, SFP_SD, R); LAN966X_P(64, GPIO, QSPI1, FC4_c, SGPIO_b, FC_SHRD15, TWI_SLC_GATE, SFP_SD, R); LAN966X_P(65, GPIO, USB_H_a, FC4_c, NONE, IRQ_OUT_c, TWI_SLC_GATE_AD, NONE, R); LAN966X_P(66, GPIO, USB_H_a, FC4_c, USB_S_a, IRQ_OUT_c, IRQ_IN_c, NONE, R); LAN966X_P(67, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(68, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(69, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(70, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(71, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(72, GPIO, EMMC_SD, NONE, QSPI2, NONE, NONE, NONE, R); LAN966X_P(73, GPIO, EMMC, NONE, NONE, SD, NONE, NONE, R); LAN966X_P(74, GPIO, EMMC, NONE, FC_SHRD17, SD, TWI_SLC_GATE, NONE, R); LAN966X_P(75, GPIO, EMMC, NONE, FC_SHRD18, SD, TWI_SLC_GATE, NONE, R); LAN966X_P(76, GPIO, EMMC, NONE, FC_SHRD19, SD, TWI_SLC_GATE, NONE, R); LAN966X_P(77, GPIO, EMMC_SD, NONE, FC_SHRD20, NONE, TWI_SLC_GATE, NONE, R); #define LAN966X_PIN(n) { \ .number = n, \ .name = "GPIO_"#n, \ .drv_data = &lan966x_pin_##n \ } static const struct pinctrl_pin_desc lan966x_pins[] = { LAN966X_PIN(0), LAN966X_PIN(1), LAN966X_PIN(2), LAN966X_PIN(3), LAN966X_PIN(4), LAN966X_PIN(5), LAN966X_PIN(6), LAN966X_PIN(7), LAN966X_PIN(8), LAN966X_PIN(9), LAN966X_PIN(10), LAN966X_PIN(11), LAN966X_PIN(12), LAN966X_PIN(13), LAN966X_PIN(14), LAN966X_PIN(15), LAN966X_PIN(16), LAN966X_PIN(17), LAN966X_PIN(18), LAN966X_PIN(19), LAN966X_PIN(20), LAN966X_PIN(21), LAN966X_PIN(22), LAN966X_PIN(23), LAN966X_PIN(24), LAN966X_PIN(25), LAN966X_PIN(26), LAN966X_PIN(27), LAN966X_PIN(28), LAN966X_PIN(29), LAN966X_PIN(30), LAN966X_PIN(31), LAN966X_PIN(32), LAN966X_PIN(33), LAN966X_PIN(34), LAN966X_PIN(35), LAN966X_PIN(36), LAN966X_PIN(37), LAN966X_PIN(38), LAN966X_PIN(39), LAN966X_PIN(40), LAN966X_PIN(41), LAN966X_PIN(42), LAN966X_PIN(43), LAN966X_PIN(44), LAN966X_PIN(45), LAN966X_PIN(46), LAN966X_PIN(47), LAN966X_PIN(48), LAN966X_PIN(49), LAN966X_PIN(50), LAN966X_PIN(51), LAN966X_PIN(52), LAN966X_PIN(53), LAN966X_PIN(54), LAN966X_PIN(55), LAN966X_PIN(56), LAN966X_PIN(57), LAN966X_PIN(58), LAN966X_PIN(59), LAN966X_PIN(60), LAN966X_PIN(61), LAN966X_PIN(62), LAN966X_PIN(63), LAN966X_PIN(64), LAN966X_PIN(65), LAN966X_PIN(66), LAN966X_PIN(67), LAN966X_PIN(68), LAN966X_PIN(69), LAN966X_PIN(70), LAN966X_PIN(71), LAN966X_PIN(72), LAN966X_PIN(73), LAN966X_PIN(74), LAN966X_PIN(75), LAN966X_PIN(76), LAN966X_PIN(77), }; static int ocelot_get_functions_count(struct pinctrl_dev *pctldev) { return ARRAY_SIZE(ocelot_function_names); } static const char *ocelot_get_function_name(struct pinctrl_dev *pctldev, unsigned int function) { return ocelot_function_names[function]; } static int ocelot_get_function_groups(struct pinctrl_dev *pctldev, unsigned int function, const char *const **groups, unsigned *const num_groups) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); *groups = info->func[function].groups; *num_groups = info->func[function].ngroups; return 0; } static int ocelot_pin_function_idx(struct ocelot_pinctrl *info, unsigned int pin, unsigned int function) { struct ocelot_pin_caps *p = info->desc->pins[pin].drv_data; int i; for (i = 0; i < OCELOT_FUNC_PER_PIN; i++) { if (function == p->functions[i]) return i; if (function == p->a_functions[i]) return i + OCELOT_FUNC_PER_PIN; } return -1; } #define REG_ALT(msb, info, p) (OCELOT_GPIO_ALT0 * (info)->stride + 4 * ((msb) + ((info)->stride * ((p) / 32)))) static int ocelot_pinmux_set_mux(struct pinctrl_dev *pctldev, unsigned int selector, unsigned int group) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); struct ocelot_pin_caps *pin = info->desc->pins[group].drv_data; unsigned int p = pin->pin % 32; int f; f = ocelot_pin_function_idx(info, group, selector); if (f < 0) return -EINVAL; /* * f is encoded on two bits. * bit 0 of f goes in BIT(pin) of ALT[0], bit 1 of f goes in BIT(pin) of * ALT[1] * This is racy because both registers can't be updated at the same time * but it doesn't matter much for now. * Note: ALT0/ALT1 are organized specially for 64 gpio targets */ regmap_update_bits(info->map, REG_ALT(0, info, pin->pin), BIT(p), f << p); regmap_update_bits(info->map, REG_ALT(1, info, pin->pin), BIT(p), (f >> 1) << p); return 0; } static int lan966x_pinmux_set_mux(struct pinctrl_dev *pctldev, unsigned int selector, unsigned int group) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); struct ocelot_pin_caps *pin = info->desc->pins[group].drv_data; unsigned int p = pin->pin % 32; int f; f = ocelot_pin_function_idx(info, group, selector); if (f < 0) return -EINVAL; /* * f is encoded on three bits. * bit 0 of f goes in BIT(pin) of ALT[0], bit 1 of f goes in BIT(pin) of * ALT[1], bit 2 of f goes in BIT(pin) of ALT[2] * This is racy because three registers can't be updated at the same time * but it doesn't matter much for now. * Note: ALT0/ALT1/ALT2 are organized specially for 78 gpio targets */ regmap_update_bits(info->map, REG_ALT(0, info, pin->pin), BIT(p), f << p); regmap_update_bits(info->map, REG_ALT(1, info, pin->pin), BIT(p), (f >> 1) << p); regmap_update_bits(info->map, REG_ALT(2, info, pin->pin), BIT(p), (f >> 2) << p); return 0; } #define REG(r, info, p) ((r) * (info)->stride + (4 * ((p) / 32))) static int ocelot_gpio_set_direction(struct pinctrl_dev *pctldev, struct pinctrl_gpio_range *range, unsigned int pin, bool input) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); unsigned int p = pin % 32; regmap_update_bits(info->map, REG(OCELOT_GPIO_OE, info, pin), BIT(p), input ? 0 : BIT(p)); return 0; } static int ocelot_gpio_request_enable(struct pinctrl_dev *pctldev, struct pinctrl_gpio_range *range, unsigned int offset) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); unsigned int p = offset % 32; regmap_update_bits(info->map, REG_ALT(0, info, offset), BIT(p), 0); regmap_update_bits(info->map, REG_ALT(1, info, offset), BIT(p), 0); return 0; } static int lan966x_gpio_request_enable(struct pinctrl_dev *pctldev, struct pinctrl_gpio_range *range, unsigned int offset) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); unsigned int p = offset % 32; regmap_update_bits(info->map, REG_ALT(0, info, offset), BIT(p), 0); regmap_update_bits(info->map, REG_ALT(1, info, offset), BIT(p), 0); regmap_update_bits(info->map, REG_ALT(2, info, offset), BIT(p), 0); return 0; } static const struct pinmux_ops ocelot_pmx_ops = { .get_functions_count = ocelot_get_functions_count, .get_function_name = ocelot_get_function_name, .get_function_groups = ocelot_get_function_groups, .set_mux = ocelot_pinmux_set_mux, .gpio_set_direction = ocelot_gpio_set_direction, .gpio_request_enable = ocelot_gpio_request_enable, }; static const struct pinmux_ops lan966x_pmx_ops = { .get_functions_count = ocelot_get_functions_count, .get_function_name = ocelot_get_function_name, .get_function_groups = ocelot_get_function_groups, .set_mux = lan966x_pinmux_set_mux, .gpio_set_direction = ocelot_gpio_set_direction, .gpio_request_enable = lan966x_gpio_request_enable, }; static int ocelot_pctl_get_groups_count(struct pinctrl_dev *pctldev) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); return info->desc->npins; } static const char *ocelot_pctl_get_group_name(struct pinctrl_dev *pctldev, unsigned int group) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); return info->desc->pins[group].name; } static int ocelot_pctl_get_group_pins(struct pinctrl_dev *pctldev, unsigned int group, const unsigned int **pins, unsigned int *num_pins) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); *pins = &info->desc->pins[group].number; *num_pins = 1; return 0; } static int ocelot_hw_get_value(struct ocelot_pinctrl *info, unsigned int pin, unsigned int reg, int *val) { int ret = -EOPNOTSUPP; if (info->pincfg) { const struct ocelot_pincfg_data *opd = info->pincfg_data; u32 regcfg; ret = regmap_read(info->pincfg, pin * regmap_get_reg_stride(info->pincfg), ®cfg); if (ret) return ret; ret = 0; switch (reg) { case PINCONF_BIAS: *val = regcfg & (opd->pd_bit | opd->pu_bit); break; case PINCONF_SCHMITT: *val = regcfg & opd->schmitt_bit; break; case PINCONF_DRIVE_STRENGTH: *val = regcfg & opd->drive_bits; break; default: ret = -EOPNOTSUPP; break; } } return ret; } static int ocelot_pincfg_clrsetbits(struct ocelot_pinctrl *info, u32 regaddr, u32 clrbits, u32 setbits) { u32 val; int ret; ret = regmap_read(info->pincfg, regaddr * regmap_get_reg_stride(info->pincfg), &val); if (ret) return ret; val &= ~clrbits; val |= setbits; ret = regmap_write(info->pincfg, regaddr * regmap_get_reg_stride(info->pincfg), val); return ret; } static int ocelot_hw_set_value(struct ocelot_pinctrl *info, unsigned int pin, unsigned int reg, int val) { int ret = -EOPNOTSUPP; if (info->pincfg) { const struct ocelot_pincfg_data *opd = info->pincfg_data; switch (reg) { case PINCONF_BIAS: ret = ocelot_pincfg_clrsetbits(info, pin, opd->pd_bit | opd->pu_bit, val); break; case PINCONF_SCHMITT: ret = ocelot_pincfg_clrsetbits(info, pin, opd->schmitt_bit, val); break; case PINCONF_DRIVE_STRENGTH: if (val <= 3) ret = ocelot_pincfg_clrsetbits(info, pin, opd->drive_bits, val); else ret = -EINVAL; break; default: ret = -EOPNOTSUPP; break; } } return ret; } static int ocelot_pinconf_get(struct pinctrl_dev *pctldev, unsigned int pin, unsigned long *config) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); u32 param = pinconf_to_config_param(*config); int val, err; switch (param) { case PIN_CONFIG_BIAS_DISABLE: case PIN_CONFIG_BIAS_PULL_UP: case PIN_CONFIG_BIAS_PULL_DOWN: err = ocelot_hw_get_value(info, pin, PINCONF_BIAS, &val); if (err) return err; if (param == PIN_CONFIG_BIAS_DISABLE) val = (val == 0); else if (param == PIN_CONFIG_BIAS_PULL_DOWN) val = !!(val & info->pincfg_data->pd_bit); else /* PIN_CONFIG_BIAS_PULL_UP */ val = !!(val & info->pincfg_data->pu_bit); break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (!info->pincfg_data->schmitt_bit) return -EOPNOTSUPP; err = ocelot_hw_get_value(info, pin, PINCONF_SCHMITT, &val); if (err) return err; val = !!(val & info->pincfg_data->schmitt_bit); break; case PIN_CONFIG_DRIVE_STRENGTH: err = ocelot_hw_get_value(info, pin, PINCONF_DRIVE_STRENGTH, &val); if (err) return err; break; case PIN_CONFIG_OUTPUT: err = regmap_read(info->map, REG(OCELOT_GPIO_OUT, info, pin), &val); if (err) return err; val = !!(val & BIT(pin % 32)); break; case PIN_CONFIG_INPUT_ENABLE: case PIN_CONFIG_OUTPUT_ENABLE: err = regmap_read(info->map, REG(OCELOT_GPIO_OE, info, pin), &val); if (err) return err; val = val & BIT(pin % 32); if (param == PIN_CONFIG_OUTPUT_ENABLE) val = !!val; else val = !val; break; default: return -EOPNOTSUPP; } *config = pinconf_to_config_packed(param, val); return 0; } static int ocelot_pinconf_set(struct pinctrl_dev *pctldev, unsigned int pin, unsigned long *configs, unsigned int num_configs) { struct ocelot_pinctrl *info = pinctrl_dev_get_drvdata(pctldev); const struct ocelot_pincfg_data *opd = info->pincfg_data; u32 param, arg, p; int cfg, err = 0; for (cfg = 0; cfg < num_configs; cfg++) { param = pinconf_to_config_param(configs[cfg]); arg = pinconf_to_config_argument(configs[cfg]); switch (param) { case PIN_CONFIG_BIAS_DISABLE: case PIN_CONFIG_BIAS_PULL_UP: case PIN_CONFIG_BIAS_PULL_DOWN: arg = (param == PIN_CONFIG_BIAS_DISABLE) ? 0 : (param == PIN_CONFIG_BIAS_PULL_UP) ? opd->pu_bit : opd->pd_bit; err = ocelot_hw_set_value(info, pin, PINCONF_BIAS, arg); if (err) goto err; break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (!opd->schmitt_bit) return -EOPNOTSUPP; arg = arg ? opd->schmitt_bit : 0; err = ocelot_hw_set_value(info, pin, PINCONF_SCHMITT, arg); if (err) goto err; break; case PIN_CONFIG_DRIVE_STRENGTH: err = ocelot_hw_set_value(info, pin, PINCONF_DRIVE_STRENGTH, arg); if (err) goto err; break; case PIN_CONFIG_OUTPUT_ENABLE: case PIN_CONFIG_INPUT_ENABLE: case PIN_CONFIG_OUTPUT: p = pin % 32; if (arg) regmap_write(info->map, REG(OCELOT_GPIO_OUT_SET, info, pin), BIT(p)); else regmap_write(info->map, REG(OCELOT_GPIO_OUT_CLR, info, pin), BIT(p)); regmap_update_bits(info->map, REG(OCELOT_GPIO_OE, info, pin), BIT(p), param == PIN_CONFIG_INPUT_ENABLE ? 0 : BIT(p)); break; default: err = -EOPNOTSUPP; } } err: return err; } static const struct pinconf_ops ocelot_confops = { .is_generic = true, .pin_config_get = ocelot_pinconf_get, .pin_config_set = ocelot_pinconf_set, .pin_config_config_dbg_show = pinconf_generic_dump_config, }; static const struct pinctrl_ops ocelot_pctl_ops = { .get_groups_count = ocelot_pctl_get_groups_count, .get_group_name = ocelot_pctl_get_group_name, .get_group_pins = ocelot_pctl_get_group_pins, .dt_node_to_map = pinconf_generic_dt_node_to_map_pin, .dt_free_map = pinconf_generic_dt_free_map, }; static struct ocelot_match_data luton_desc = { .desc = { .name = "luton-pinctrl", .pins = luton_pins, .npins = ARRAY_SIZE(luton_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .owner = THIS_MODULE, }, }; static struct ocelot_match_data serval_desc = { .desc = { .name = "serval-pinctrl", .pins = serval_pins, .npins = ARRAY_SIZE(serval_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .owner = THIS_MODULE, }, }; static struct ocelot_match_data ocelot_desc = { .desc = { .name = "ocelot-pinctrl", .pins = ocelot_pins, .npins = ARRAY_SIZE(ocelot_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .owner = THIS_MODULE, }, }; static struct ocelot_match_data jaguar2_desc = { .desc = { .name = "jaguar2-pinctrl", .pins = jaguar2_pins, .npins = ARRAY_SIZE(jaguar2_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .owner = THIS_MODULE, }, }; static struct ocelot_match_data servalt_desc = { .desc = { .name = "servalt-pinctrl", .pins = servalt_pins, .npins = ARRAY_SIZE(servalt_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .owner = THIS_MODULE, }, }; static struct ocelot_match_data sparx5_desc = { .desc = { .name = "sparx5-pinctrl", .pins = sparx5_pins, .npins = ARRAY_SIZE(sparx5_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &ocelot_pmx_ops, .confops = &ocelot_confops, .owner = THIS_MODULE, }, .pincfg_data = { .pd_bit = BIT(4), .pu_bit = BIT(3), .drive_bits = GENMASK(1, 0), .schmitt_bit = BIT(2), }, }; static struct ocelot_match_data lan966x_desc = { .desc = { .name = "lan966x-pinctrl", .pins = lan966x_pins, .npins = ARRAY_SIZE(lan966x_pins), .pctlops = &ocelot_pctl_ops, .pmxops = &lan966x_pmx_ops, .confops = &ocelot_confops, .owner = THIS_MODULE, }, .pincfg_data = { .pd_bit = BIT(3), .pu_bit = BIT(2), .drive_bits = GENMASK(1, 0), }, }; static int ocelot_create_group_func_map(struct device *dev, struct ocelot_pinctrl *info) { int f, npins, i; u8 *pins = kcalloc(info->desc->npins, sizeof(u8), GFP_KERNEL); if (!pins) return -ENOMEM; for (f = 0; f < FUNC_MAX; f++) { for (npins = 0, i = 0; i < info->desc->npins; i++) { if (ocelot_pin_function_idx(info, i, f) >= 0) pins[npins++] = i; } if (!npins) continue; info->func[f].ngroups = npins; info->func[f].groups = devm_kcalloc(dev, npins, sizeof(char *), GFP_KERNEL); if (!info->func[f].groups) { kfree(pins); return -ENOMEM; } for (i = 0; i < npins; i++) info->func[f].groups[i] = info->desc->pins[pins[i]].name; } kfree(pins); return 0; } static int ocelot_pinctrl_register(struct platform_device *pdev, struct ocelot_pinctrl *info) { int ret; ret = ocelot_create_group_func_map(&pdev->dev, info); if (ret) { dev_err(&pdev->dev, "Unable to create group func map.\n"); return ret; } info->pctl = devm_pinctrl_register(&pdev->dev, info->desc, info); if (IS_ERR(info->pctl)) { dev_err(&pdev->dev, "Failed to register pinctrl\n"); return PTR_ERR(info->pctl); } return 0; } static int ocelot_gpio_get(struct gpio_chip *chip, unsigned int offset) { struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int val; regmap_read(info->map, REG(OCELOT_GPIO_IN, info, offset), &val); return !!(val & BIT(offset % 32)); } static void ocelot_gpio_set(struct gpio_chip *chip, unsigned int offset, int value) { struct ocelot_pinctrl *info = gpiochip_get_data(chip); if (value) regmap_write(info->map, REG(OCELOT_GPIO_OUT_SET, info, offset), BIT(offset % 32)); else regmap_write(info->map, REG(OCELOT_GPIO_OUT_CLR, info, offset), BIT(offset % 32)); } static int ocelot_gpio_get_direction(struct gpio_chip *chip, unsigned int offset) { struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int val; regmap_read(info->map, REG(OCELOT_GPIO_OE, info, offset), &val); if (val & BIT(offset % 32)) return GPIO_LINE_DIRECTION_OUT; return GPIO_LINE_DIRECTION_IN; } static int ocelot_gpio_direction_output(struct gpio_chip *chip, unsigned int offset, int value) { struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int pin = BIT(offset % 32); if (value) regmap_write(info->map, REG(OCELOT_GPIO_OUT_SET, info, offset), pin); else regmap_write(info->map, REG(OCELOT_GPIO_OUT_CLR, info, offset), pin); return pinctrl_gpio_direction_output(chip, offset); } static const struct gpio_chip ocelot_gpiolib_chip = { .request = gpiochip_generic_request, .free = gpiochip_generic_free, .set = ocelot_gpio_set, .get = ocelot_gpio_get, .get_direction = ocelot_gpio_get_direction, .direction_input = pinctrl_gpio_direction_input, .direction_output = ocelot_gpio_direction_output, .owner = THIS_MODULE, }; static void ocelot_irq_mask(struct irq_data *data) { struct gpio_chip *chip = irq_data_get_irq_chip_data(data); struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int gpio = irqd_to_hwirq(data); regmap_update_bits(info->map, REG(OCELOT_GPIO_INTR_ENA, info, gpio), BIT(gpio % 32), 0); gpiochip_disable_irq(chip, gpio); } static void ocelot_irq_work(struct work_struct *work) { struct ocelot_irq_work *w = container_of(work, struct ocelot_irq_work, irq_work); struct irq_chip *parent_chip = irq_desc_get_chip(w->irq_desc); struct gpio_chip *chip = irq_desc_get_chip_data(w->irq_desc); struct irq_data *data = irq_desc_get_irq_data(w->irq_desc); unsigned int gpio = irqd_to_hwirq(data); local_irq_disable(); chained_irq_enter(parent_chip, w->irq_desc); generic_handle_domain_irq(chip->irq.domain, gpio); chained_irq_exit(parent_chip, w->irq_desc); local_irq_enable(); kfree(w); } static void ocelot_irq_unmask_level(struct irq_data *data) { struct gpio_chip *chip = irq_data_get_irq_chip_data(data); struct ocelot_pinctrl *info = gpiochip_get_data(chip); struct irq_desc *desc = irq_data_to_desc(data); unsigned int gpio = irqd_to_hwirq(data); unsigned int bit = BIT(gpio % 32); bool ack = false, active = false; u8 trigger_level; int val; trigger_level = irqd_get_trigger_type(data); /* Check if the interrupt line is still active. */ regmap_read(info->map, REG(OCELOT_GPIO_IN, info, gpio), &val); if ((!(val & bit) && trigger_level == IRQ_TYPE_LEVEL_LOW) || (val & bit && trigger_level == IRQ_TYPE_LEVEL_HIGH)) active = true; /* * Check if the interrupt controller has seen any changes in the * interrupt line. */ regmap_read(info->map, REG(OCELOT_GPIO_INTR, info, gpio), &val); if (val & bit) ack = true; /* Try to clear any rising edges */ if (!active && ack) regmap_write_bits(info->map, REG(OCELOT_GPIO_INTR, info, gpio), bit, bit); /* Enable the interrupt now */ gpiochip_enable_irq(chip, gpio); regmap_update_bits(info->map, REG(OCELOT_GPIO_INTR_ENA, info, gpio), bit, bit); /* * In case the interrupt line is still active then it means that * there happen another interrupt while the line was active. * So we missed that one, so we need to kick the interrupt again * handler. */ regmap_read(info->map, REG(OCELOT_GPIO_IN, info, gpio), &val); if ((!(val & bit) && trigger_level == IRQ_TYPE_LEVEL_LOW) || (val & bit && trigger_level == IRQ_TYPE_LEVEL_HIGH)) active = true; if (active) { struct ocelot_irq_work *work; work = kmalloc(sizeof(*work), GFP_ATOMIC); if (!work) return; work->irq_desc = desc; INIT_WORK(&work->irq_work, ocelot_irq_work); queue_work(info->wq, &work->irq_work); } } static void ocelot_irq_unmask(struct irq_data *data) { struct gpio_chip *chip = irq_data_get_irq_chip_data(data); struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int gpio = irqd_to_hwirq(data); gpiochip_enable_irq(chip, gpio); regmap_update_bits(info->map, REG(OCELOT_GPIO_INTR_ENA, info, gpio), BIT(gpio % 32), BIT(gpio % 32)); } static void ocelot_irq_ack(struct irq_data *data) { struct gpio_chip *chip = irq_data_get_irq_chip_data(data); struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int gpio = irqd_to_hwirq(data); regmap_write_bits(info->map, REG(OCELOT_GPIO_INTR, info, gpio), BIT(gpio % 32), BIT(gpio % 32)); } static int ocelot_irq_set_type(struct irq_data *data, unsigned int type); static struct irq_chip ocelot_level_irqchip = { .name = "gpio", .irq_mask = ocelot_irq_mask, .irq_ack = ocelot_irq_ack, .irq_unmask = ocelot_irq_unmask_level, .flags = IRQCHIP_IMMUTABLE, .irq_set_type = ocelot_irq_set_type, GPIOCHIP_IRQ_RESOURCE_HELPERS }; static struct irq_chip ocelot_irqchip = { .name = "gpio", .irq_mask = ocelot_irq_mask, .irq_ack = ocelot_irq_ack, .irq_unmask = ocelot_irq_unmask, .irq_set_type = ocelot_irq_set_type, .flags = IRQCHIP_IMMUTABLE, GPIOCHIP_IRQ_RESOURCE_HELPERS }; static int ocelot_irq_set_type(struct irq_data *data, unsigned int type) { if (type & (IRQ_TYPE_LEVEL_HIGH | IRQ_TYPE_LEVEL_LOW)) irq_set_chip_handler_name_locked(data, &ocelot_level_irqchip, handle_level_irq, NULL); if (type & IRQ_TYPE_EDGE_BOTH) irq_set_chip_handler_name_locked(data, &ocelot_irqchip, handle_edge_irq, NULL); return 0; } static void ocelot_irq_handler(struct irq_desc *desc) { struct irq_chip *parent_chip = irq_desc_get_chip(desc); struct gpio_chip *chip = irq_desc_get_handler_data(desc); struct ocelot_pinctrl *info = gpiochip_get_data(chip); unsigned int id_reg = OCELOT_GPIO_INTR_IDENT * info->stride; unsigned int reg = 0, irq, i; unsigned long irqs; chained_irq_enter(parent_chip, desc); for (i = 0; i < info->stride; i++) { regmap_read(info->map, id_reg + 4 * i, ®); if (!reg) continue; irqs = reg; for_each_set_bit(irq, &irqs, min(32U, info->desc->npins - 32 * i)) generic_handle_domain_irq(chip->irq.domain, irq + 32 * i); } chained_irq_exit(parent_chip, desc); } static int ocelot_gpiochip_register(struct platform_device *pdev, struct ocelot_pinctrl *info) { struct gpio_chip *gc; struct gpio_irq_chip *girq; int irq; info->gpio_chip = ocelot_gpiolib_chip; gc = &info->gpio_chip; gc->ngpio = info->desc->npins; gc->parent = &pdev->dev; gc->base = -1; gc->label = "ocelot-gpio"; irq = platform_get_irq_optional(pdev, 0); if (irq > 0) { girq = &gc->irq; gpio_irq_chip_set_chip(girq, &ocelot_irqchip); girq->parent_handler = ocelot_irq_handler; girq->num_parents = 1; girq->parents = devm_kcalloc(&pdev->dev, 1, sizeof(*girq->parents), GFP_KERNEL); if (!girq->parents) return -ENOMEM; girq->parents[0] = irq; girq->default_type = IRQ_TYPE_NONE; girq->handler = handle_edge_irq; } return devm_gpiochip_add_data(&pdev->dev, gc, info); } static const struct of_device_id ocelot_pinctrl_of_match[] = { { .compatible = "mscc,luton-pinctrl", .data = &luton_desc }, { .compatible = "mscc,serval-pinctrl", .data = &serval_desc }, { .compatible = "mscc,ocelot-pinctrl", .data = &ocelot_desc }, { .compatible = "mscc,jaguar2-pinctrl", .data = &jaguar2_desc }, { .compatible = "mscc,servalt-pinctrl", .data = &servalt_desc }, { .compatible = "microchip,sparx5-pinctrl", .data = &sparx5_desc }, { .compatible = "microchip,lan966x-pinctrl", .data = &lan966x_desc }, {}, }; MODULE_DEVICE_TABLE(of, ocelot_pinctrl_of_match); static struct regmap *ocelot_pinctrl_create_pincfg(struct platform_device *pdev, const struct ocelot_pinctrl *info) { void __iomem *base; const struct regmap_config regmap_config = { .reg_bits = 32, .val_bits = 32, .reg_stride = 4, .max_register = info->desc->npins * 4, .name = "pincfg", }; base = devm_platform_ioremap_resource(pdev, 1); if (IS_ERR(base)) { dev_dbg(&pdev->dev, "Failed to ioremap config registers (no extended pinconf)\n"); return NULL; } return devm_regmap_init_mmio(&pdev->dev, base, ®map_config); } static void ocelot_destroy_workqueue(void *data) { destroy_workqueue(data); } static int ocelot_pinctrl_probe(struct platform_device *pdev) { const struct ocelot_match_data *data; struct device *dev = &pdev->dev; struct ocelot_pinctrl *info; struct reset_control *reset; struct regmap *pincfg; int ret; struct regmap_config regmap_config = { .reg_bits = 32, .val_bits = 32, .reg_stride = 4, }; info = devm_kzalloc(dev, sizeof(*info), GFP_KERNEL); if (!info) return -ENOMEM; data = device_get_match_data(dev); if (!data) return -EINVAL; info->desc = devm_kmemdup(dev, &data->desc, sizeof(*info->desc), GFP_KERNEL); if (!info->desc) return -ENOMEM; info->wq = alloc_ordered_workqueue("ocelot_ordered", 0); if (!info->wq) return -ENOMEM; ret = devm_add_action_or_reset(dev, ocelot_destroy_workqueue, info->wq); if (ret) return ret; info->pincfg_data = &data->pincfg_data; reset = devm_reset_control_get_optional_shared(dev, "switch"); if (IS_ERR(reset)) return dev_err_probe(dev, PTR_ERR(reset), "Failed to get reset\n"); reset_control_reset(reset); info->stride = 1 + (info->desc->npins - 1) / 32; regmap_config.max_register = OCELOT_GPIO_SD_MAP * info->stride + 15 * 4; info->map = ocelot_regmap_from_resource(pdev, 0, ®map_config); if (IS_ERR(info->map)) return dev_err_probe(dev, PTR_ERR(info->map), "Failed to create regmap\n"); dev_set_drvdata(dev, info); info->dev = dev; /* Pinconf registers */ if (info->desc->confops) { pincfg = ocelot_pinctrl_create_pincfg(pdev, info); if (IS_ERR(pincfg)) dev_dbg(dev, "Failed to create pincfg regmap\n"); else info->pincfg = pincfg; } ret = ocelot_pinctrl_register(pdev, info); if (ret) return ret; ret = ocelot_gpiochip_register(pdev, info); if (ret) return ret; dev_info(dev, "driver registered\n"); return 0; } static struct platform_driver ocelot_pinctrl_driver = { .driver = { .name = "pinctrl-ocelot", .of_match_table = of_match_ptr(ocelot_pinctrl_of_match), .suppress_bind_attrs = true, }, .probe = ocelot_pinctrl_probe, }; module_platform_driver(ocelot_pinctrl_driver); MODULE_DESCRIPTION("Ocelot Chip Pinctrl Driver"); MODULE_LICENSE("Dual MIT/GPL");