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android-kvm / linux / e5d7c1916562f0e856eb3d6f569629fcd535fed2 / . / drivers / pinctrl / pinctrl-keembay.c
blob: b1349ee22799de0e141eb4692de062bd2885be7c [file] [log] [blame]
// SPDX-License-Identifier: GPL-2.0
/* Copyright (C) 2020 Intel Corporation */
#include <linux/bitfield.h>
#include <linux/bitops.h>
#include <linux/gpio/driver.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/pinctrl/pinconf.h>
#include <linux/pinctrl/pinconf-generic.h>
#include <linux/pinctrl/pinctrl.h>
#include <linux/pinctrl/pinmux.h>
#include <linux/platform_device.h>
#include "core.h"
#include "pinmux.h"
/* GPIO data registers' offsets */
#define KEEMBAY_GPIO_DATA_OUT 0x000
#define KEEMBAY_GPIO_DATA_IN 0x020
#define KEEMBAY_GPIO_DATA_IN_RAW 0x040
#define KEEMBAY_GPIO_DATA_HIGH 0x060
#define KEEMBAY_GPIO_DATA_LOW 0x080
/* GPIO Interrupt and mode registers' offsets */
#define KEEMBAY_GPIO_INT_CFG 0x000
#define KEEMBAY_GPIO_MODE 0x070
/* GPIO mode register bit fields */
#define KEEMBAY_GPIO_MODE_PULLUP_MASK GENMASK(13, 12)
#define KEEMBAY_GPIO_MODE_DRIVE_MASK GENMASK(8, 7)
#define KEEMBAY_GPIO_MODE_INV_MASK GENMASK(5, 4)
#define KEEMBAY_GPIO_MODE_SELECT_MASK GENMASK(2, 0)
#define KEEMBAY_GPIO_MODE_DIR_OVR BIT(15)
#define KEEMBAY_GPIO_MODE_REN BIT(11)
#define KEEMBAY_GPIO_MODE_SCHMITT_EN BIT(10)
#define KEEMBAY_GPIO_MODE_SLEW_RATE BIT(9)
#define KEEMBAY_GPIO_IRQ_ENABLE BIT(7)
#define KEEMBAY_GPIO_MODE_DIR BIT(3)
#define KEEMBAY_GPIO_MODE_DEFAULT 0x7
#define KEEMBAY_GPIO_MODE_INV_VAL 0x3
#define KEEMBAY_GPIO_DISABLE 0
#define KEEMBAY_GPIO_PULL_UP 1
#define KEEMBAY_GPIO_PULL_DOWN 2
#define KEEMBAY_GPIO_BUS_HOLD 3
#define KEEMBAY_GPIO_NUM_IRQ 8
#define KEEMBAY_GPIO_MAX_PER_IRQ 4
#define KEEMBAY_GPIO_MAX_PER_REG 32
#define KEEMBAY_GPIO_MIN_STRENGTH 2
#define KEEMBAY_GPIO_MAX_STRENGTH 12
#define KEEMBAY_GPIO_SENSE_LOW (IRQ_TYPE_LEVEL_LOW | IRQ_TYPE_EDGE_FALLING)
/* GPIO reg address calculation */
#define KEEMBAY_GPIO_REG_OFFSET(pin) ((pin) * 4)
/**
* struct keembay_mux_desc - Mux properties of each GPIO pin
* @mode: Pin mode when operating in this function
* @name: Pin function name
*/
struct keembay_mux_desc {
u8 mode;
const char *name;
};
#define KEEMBAY_PIN_DESC(pin_number, pin_name, ...) { \
.number = pin_number, \
.name = pin_name, \
.drv_data = &(struct keembay_mux_desc[]) { \
__VA_ARGS__, { } }, \
} \
#define KEEMBAY_MUX(pin_mode, pin_function) { \
.mode = pin_mode, \
.name = pin_function, \
} \
/**
* struct keembay_gpio_irq - Config of each GPIO Interrupt sources
* @source: Interrupt source number (0 - 7)
* @line: Actual Interrupt line number
* @pins: Array of GPIO pins using this Interrupt line
* @trigger: Interrupt trigger type for this line
* @num_share: Number of pins currently using this Interrupt line
*/
struct keembay_gpio_irq {
unsigned int source;
unsigned int line;
unsigned int pins[KEEMBAY_GPIO_MAX_PER_IRQ];
unsigned int trigger;
unsigned int num_share;
};
/**
* struct keembay_pinctrl - Intel Keembay pinctrl structure
* @pctrl: Pointer to the pin controller device
* @base0: First register base address
* @base1: Second register base address
* @dev: Pointer to the device structure
* @chip: GPIO chip used by this pin controller
* @soc: Pin control configuration data based on SoC
* @lock: Spinlock to protect various gpio config register access
* @ngroups: Number of pin groups available
* @nfuncs: Number of pin functions available
* @npins: Number of GPIO pins available
* @irq: Store Interrupt source
* @max_gpios_level_type: Store max level trigger type
* @max_gpios_edge_type: Store max edge trigger type
*/
struct keembay_pinctrl {
struct pinctrl_dev *pctrl;
void __iomem *base0;
void __iomem *base1;
struct device *dev;
struct gpio_chip chip;
const struct keembay_pin_soc *soc;
raw_spinlock_t lock;
unsigned int ngroups;
unsigned int nfuncs;
unsigned int npins;
struct keembay_gpio_irq irq[KEEMBAY_GPIO_NUM_IRQ];
int max_gpios_level_type;
int max_gpios_edge_type;
};
/**
* struct keembay_pin_soc - Pin control config data based on SoC
* @pins: Pin description structure
*/
struct keembay_pin_soc {
const struct pinctrl_pin_desc *pins;
};
static const struct pinctrl_pin_desc keembay_pins[] = {
KEEMBAY_PIN_DESC(0, "GPIO0",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(1, "GPIO1",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(2, "GPIO2",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(3, "GPIO3",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(4, "GPIO4",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C2_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(5, "GPIO5",
KEEMBAY_MUX(0x0, "I2S0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C2_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(6, "GPIO6",
KEEMBAY_MUX(0x0, "I2S1_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C3_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(7, "GPIO7",
KEEMBAY_MUX(0x0, "I2S1_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "I2C3_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(8, "GPIO8",
KEEMBAY_MUX(0x0, "I2S1_M0"),
KEEMBAY_MUX(0x1, "I2S1_M1"),
KEEMBAY_MUX(0x2, "SLVDS0_M2"),
KEEMBAY_MUX(0x3, "UART0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(9, "GPIO9",
KEEMBAY_MUX(0x0, "I2S1_M0"),
KEEMBAY_MUX(0x1, "I2S1_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "UART0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(10, "GPIO10",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "UART0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(11, "GPIO11",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "SD0_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "UART0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(12, "GPIO12",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "I2S2_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "SPI0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(13, "GPIO13",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "I2S2_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "SPI0_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(14, "GPIO14",
KEEMBAY_MUX(0x0, "UART0_M0"),
KEEMBAY_MUX(0x1, "I2S3_M1"),
KEEMBAY_MUX(0x2, "PWM_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "ETH_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(15, "GPIO15",
KEEMBAY_MUX(0x0, "UART0_M0"),
KEEMBAY_MUX(0x1, "I2S3_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(16, "GPIO16",
KEEMBAY_MUX(0x0, "UART0_M0"),
KEEMBAY_MUX(0x1, "I2S3_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(17, "GPIO17",
KEEMBAY_MUX(0x0, "UART0_M0"),
KEEMBAY_MUX(0x1, "I2S3_M1"),
KEEMBAY_MUX(0x2, "I2S3_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(18, "GPIO18",
KEEMBAY_MUX(0x0, "UART1_M0"),
KEEMBAY_MUX(0x1, "SPI0_M1"),
KEEMBAY_MUX(0x2, "I2S3_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(19, "GPIO19",
KEEMBAY_MUX(0x0, "UART1_M0"),
KEEMBAY_MUX(0x1, "LCD_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "SD1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "LCD_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(20, "GPIO20",
KEEMBAY_MUX(0x0, "UART1_M0"),
KEEMBAY_MUX(0x1, "LCD_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "SPI1_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(21, "GPIO21",
KEEMBAY_MUX(0x0, "UART1_M0"),
KEEMBAY_MUX(0x1, "LCD_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C0_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(22, "GPIO22",
KEEMBAY_MUX(0x0, "I2C0_M0"),
KEEMBAY_MUX(0x1, "UART2_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C0_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(23, "GPIO23",
KEEMBAY_MUX(0x0, "I2C0_M0"),
KEEMBAY_MUX(0x1, "UART2_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C1_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(24, "GPIO24",
KEEMBAY_MUX(0x0, "I2C1_M0"),
KEEMBAY_MUX(0x1, "UART2_M1"),
KEEMBAY_MUX(0x2, "DEBUG_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C1_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(25, "GPIO25",
KEEMBAY_MUX(0x0, "I2C1_M0"),
KEEMBAY_MUX(0x1, "UART2_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C2_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(26, "GPIO26",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2C2_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "DSU_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C2_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(27, "GPIO27",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2C2_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "DSU_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C0_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(28, "GPIO28",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2C3_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C1_M5"),
KEEMBAY_MUX(0x6, "SLVDS0_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(29, "GPIO29",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2C3_M1"),
KEEMBAY_MUX(0x2, "UART0_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I3C2_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(30, "GPIO30",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "I2C4_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(31, "GPIO31",
KEEMBAY_MUX(0x0, "SPI0_M0"),
KEEMBAY_MUX(0x1, "I2S0_M1"),
KEEMBAY_MUX(0x2, "I2C4_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "UART1_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(32, "GPIO32",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "SPI0_M1"),
KEEMBAY_MUX(0x2, "UART1_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "PCIE_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(33, "GPIO33",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "SPI0_M1"),
KEEMBAY_MUX(0x2, "UART1_M2"),
KEEMBAY_MUX(0x3, "PWM_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "PCIE_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(34, "GPIO34",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "SPI0_M1"),
KEEMBAY_MUX(0x2, "I2C0_M2"),
KEEMBAY_MUX(0x3, "UART1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I2S0_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(35, "GPIO35",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "PCIE_M1"),
KEEMBAY_MUX(0x2, "I2C0_M2"),
KEEMBAY_MUX(0x3, "UART1_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I2S0_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(36, "GPIO36",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "I2C1_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I2S0_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(37, "GPIO37",
KEEMBAY_MUX(0x0, "SD0_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "I2C1_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "I2S0_M5"),
KEEMBAY_MUX(0x6, "SLVDS1_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(38, "GPIO38",
KEEMBAY_MUX(0x0, "I3C1_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "UART3_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(39, "GPIO39",
KEEMBAY_MUX(0x0, "I3C1_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "UART3_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(40, "GPIO40",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "UART3_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(41, "GPIO41",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI3_M1"),
KEEMBAY_MUX(0x2, "SPI3_M2"),
KEEMBAY_MUX(0x3, "DEBUG_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(42, "GPIO42",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI3_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "CAM_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C4_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(43, "GPIO43",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI3_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2C4_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(44, "GPIO44",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(45, "GPIO45",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "CPR_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(46, "GPIO46",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(47, "GPIO47",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SD1_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(48, "GPIO48",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "UART2_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(49, "GPIO49",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "UART2_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(50, "GPIO50",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "UART2_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(51, "GPIO51",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "UART2_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(52, "GPIO52",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(53, "GPIO53",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(54, "GPIO54",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(55, "GPIO55",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(56, "GPIO56",
KEEMBAY_MUX(0x0, "ETH_M0"),
KEEMBAY_MUX(0x1, "SPI2_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I2S2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(57, "GPIO57",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "I2S1_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(58, "GPIO58",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(59, "GPIO59",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(60, "GPIO60",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "I3C1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(61, "GPIO61",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SD0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(62, "GPIO62",
KEEMBAY_MUX(0x0, "SPI1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(63, "GPIO63",
KEEMBAY_MUX(0x0, "I2S1_M0"),
KEEMBAY_MUX(0x1, "SPI1_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(64, "GPIO64",
KEEMBAY_MUX(0x0, "I2S2_M0"),
KEEMBAY_MUX(0x1, "SPI1_M1"),
KEEMBAY_MUX(0x2, "ETH_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "UART1_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(65, "GPIO65",
KEEMBAY_MUX(0x0, "I3C0_M0"),
KEEMBAY_MUX(0x1, "SPI1_M1"),
KEEMBAY_MUX(0x2, "SD1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SPI0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(66, "GPIO66",
KEEMBAY_MUX(0x0, "I3C0_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "I2C0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SPI0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "CAM_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(67, "GPIO67",
KEEMBAY_MUX(0x0, "I3C1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "I2C0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SPI0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2S3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(68, "GPIO68",
KEEMBAY_MUX(0x0, "I3C1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "I2C1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SPI0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2S3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(69, "GPIO69",
KEEMBAY_MUX(0x0, "I3C2_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "I2C1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SPI0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2S3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(70, "GPIO70",
KEEMBAY_MUX(0x0, "I3C2_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SPI0_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2S3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(71, "GPIO71",
KEEMBAY_MUX(0x0, "I3C0_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "I2S3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(72, "GPIO72",
KEEMBAY_MUX(0x0, "I3C1_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(73, "GPIO73",
KEEMBAY_MUX(0x0, "I3C2_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(74, "GPIO74",
KEEMBAY_MUX(0x0, "I3C0_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(75, "GPIO75",
KEEMBAY_MUX(0x0, "I3C0_M0"),
KEEMBAY_MUX(0x1, "ETH_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "SD0_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART2_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(76, "GPIO76",
KEEMBAY_MUX(0x0, "I2C2_M0"),
KEEMBAY_MUX(0x1, "I3C0_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "ETH_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(77, "GPIO77",
KEEMBAY_MUX(0x0, "PCIE_M0"),
KEEMBAY_MUX(0x1, "I3C1_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I3C2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(78, "GPIO78",
KEEMBAY_MUX(0x0, "PCIE_M0"),
KEEMBAY_MUX(0x1, "I3C2_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I3C2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
KEEMBAY_PIN_DESC(79, "GPIO79",
KEEMBAY_MUX(0x0, "PCIE_M0"),
KEEMBAY_MUX(0x1, "I2C2_M1"),
KEEMBAY_MUX(0x2, "SLVDS1_M2"),
KEEMBAY_MUX(0x3, "TPIU_M3"),
KEEMBAY_MUX(0x4, "I3C2_M4"),
KEEMBAY_MUX(0x5, "LCD_M5"),
KEEMBAY_MUX(0x6, "UART3_M6"),
KEEMBAY_MUX(0x7, "GPIO_M7")),
};
static inline u32 keembay_read_reg(void __iomem *base, unsigned int pin)
{
return readl(base + KEEMBAY_GPIO_REG_OFFSET(pin));
}
static inline u32 keembay_read_gpio_reg(void __iomem *base, unsigned int pin)
{
return keembay_read_reg(base, pin / KEEMBAY_GPIO_MAX_PER_REG);
}
static inline u32 keembay_read_pin(void __iomem *base, unsigned int pin)
{
u32 val = keembay_read_gpio_reg(base, pin);
return !!(val & BIT(pin % KEEMBAY_GPIO_MAX_PER_REG));
}
static inline void keembay_write_reg(u32 val, void __iomem *base, unsigned int pin)
{
writel(val, base + KEEMBAY_GPIO_REG_OFFSET(pin));
}
static inline void keembay_write_gpio_reg(u32 val, void __iomem *base, unsigned int pin)
{
keembay_write_reg(val, base, pin / KEEMBAY_GPIO_MAX_PER_REG);
}
static void keembay_gpio_invert(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
/*
* This IP doesn't support the falling edge and low level interrupt
* trigger. Invert API is used to mimic the falling edge and low
* level support
*/
val |= FIELD_PREP(KEEMBAY_GPIO_MODE_INV_MASK, KEEMBAY_GPIO_MODE_INV_VAL);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
}
static void keembay_gpio_restore_default(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val &= FIELD_PREP(KEEMBAY_GPIO_MODE_INV_MASK, 0);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
}
static int keembay_request_gpio(struct pinctrl_dev *pctldev,
struct pinctrl_gpio_range *range, unsigned int pin)
{
struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
unsigned int val;
if (pin >= kpc->npins)
return -EINVAL;
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val = FIELD_GET(KEEMBAY_GPIO_MODE_SELECT_MASK, val);
/* As per Pin Mux Map, Modes 0 to 6 are for peripherals */
if (val != KEEMBAY_GPIO_MODE_DEFAULT)
return -EBUSY;
return 0;
}
static int keembay_set_mux(struct pinctrl_dev *pctldev, unsigned int fun_sel,
unsigned int grp_sel)
{
struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
struct function_desc *func;
struct group_desc *grp;
unsigned int val;
u8 pin_mode;
int pin;
grp = pinctrl_generic_get_group(pctldev, grp_sel);
if (!grp)
return -EINVAL;
func = pinmux_generic_get_function(pctldev, fun_sel);
if (!func)
return -EINVAL;
/* Change modes for pins in the selected group */
pin = *grp->grp.pins;
pin_mode = *(u8 *)(func->data);
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val = u32_replace_bits(val, pin_mode, KEEMBAY_GPIO_MODE_SELECT_MASK);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static u32 keembay_pinconf_get_pull(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return FIELD_GET(KEEMBAY_GPIO_MODE_PULLUP_MASK, val);
}
static int keembay_pinconf_set_pull(struct keembay_pinctrl *kpc, unsigned int pin,
unsigned int pull)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val = u32_replace_bits(val, pull, KEEMBAY_GPIO_MODE_PULLUP_MASK);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static int keembay_pinconf_get_drive(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val = FIELD_GET(KEEMBAY_GPIO_MODE_DRIVE_MASK, val) * 4;
if (val)
return val;
return KEEMBAY_GPIO_MIN_STRENGTH;
}
static int keembay_pinconf_set_drive(struct keembay_pinctrl *kpc, unsigned int pin,
unsigned int drive)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
unsigned int strength = clamp_val(drive, KEEMBAY_GPIO_MIN_STRENGTH,
KEEMBAY_GPIO_MAX_STRENGTH) / 4;
val = u32_replace_bits(val, strength, KEEMBAY_GPIO_MODE_DRIVE_MASK);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static int keembay_pinconf_get_slew_rate(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return !!(val & KEEMBAY_GPIO_MODE_SLEW_RATE);
}
static int keembay_pinconf_set_slew_rate(struct keembay_pinctrl *kpc, unsigned int pin,
unsigned int slew_rate)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
if (slew_rate)
val |= KEEMBAY_GPIO_MODE_SLEW_RATE;
else
val &= ~KEEMBAY_GPIO_MODE_SLEW_RATE;
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static int keembay_pinconf_get_schmitt(struct keembay_pinctrl *kpc, unsigned int pin)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return !!(val & KEEMBAY_GPIO_MODE_SCHMITT_EN);
}
static int keembay_pinconf_set_schmitt(struct keembay_pinctrl *kpc, unsigned int pin,
unsigned int schmitt_en)
{
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
if (schmitt_en)
val |= KEEMBAY_GPIO_MODE_SCHMITT_EN;
else
val &= ~KEEMBAY_GPIO_MODE_SCHMITT_EN;
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static int keembay_pinconf_get(struct pinctrl_dev *pctldev, unsigned int pin,
unsigned long *cfg)
{
struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
unsigned int param = pinconf_to_config_param(*cfg);
unsigned int val;
if (pin >= kpc->npins)
return -EINVAL;
switch (param) {
case PIN_CONFIG_BIAS_DISABLE:
if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_DISABLE)
return -EINVAL;
break;
case PIN_CONFIG_BIAS_PULL_UP:
if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_PULL_UP)
return -EINVAL;
break;
case PIN_CONFIG_BIAS_PULL_DOWN:
if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_PULL_DOWN)
return -EINVAL;
break;
case PIN_CONFIG_BIAS_BUS_HOLD:
if (keembay_pinconf_get_pull(kpc, pin) != KEEMBAY_GPIO_BUS_HOLD)
return -EINVAL;
break;
case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
if (!keembay_pinconf_get_schmitt(kpc, pin))
return -EINVAL;
break;
case PIN_CONFIG_SLEW_RATE:
val = keembay_pinconf_get_slew_rate(kpc, pin);
*cfg = pinconf_to_config_packed(param, val);
break;
case PIN_CONFIG_DRIVE_STRENGTH:
val = keembay_pinconf_get_drive(kpc, pin);
*cfg = pinconf_to_config_packed(param, val);
break;
default:
return -ENOTSUPP;
}
return 0;
}
static int keembay_pinconf_set(struct pinctrl_dev *pctldev, unsigned int pin,
unsigned long *cfg, unsigned int num_configs)
{
struct keembay_pinctrl *kpc = pinctrl_dev_get_drvdata(pctldev);
enum pin_config_param param;
unsigned int arg, i;
int ret = 0;
if (pin >= kpc->npins)
return -EINVAL;
for (i = 0; i < num_configs; i++) {
param = pinconf_to_config_param(cfg[i]);
arg = pinconf_to_config_argument(cfg[i]);
switch (param) {
case PIN_CONFIG_BIAS_DISABLE:
ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_DISABLE);
break;
case PIN_CONFIG_BIAS_PULL_UP:
ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_PULL_UP);
break;
case PIN_CONFIG_BIAS_PULL_DOWN:
ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_PULL_DOWN);
break;
case PIN_CONFIG_BIAS_BUS_HOLD:
ret = keembay_pinconf_set_pull(kpc, pin, KEEMBAY_GPIO_BUS_HOLD);
break;
case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
ret = keembay_pinconf_set_schmitt(kpc, pin, arg);
break;
case PIN_CONFIG_SLEW_RATE:
ret = keembay_pinconf_set_slew_rate(kpc, pin, arg);
break;
case PIN_CONFIG_DRIVE_STRENGTH:
ret = keembay_pinconf_set_drive(kpc, pin, arg);
break;
default:
return -ENOTSUPP;
}
if (ret)
return ret;
}
return ret;
}
static const struct pinctrl_ops keembay_pctlops = {
.get_groups_count = pinctrl_generic_get_group_count,
.get_group_name = pinctrl_generic_get_group_name,
.get_group_pins = pinctrl_generic_get_group_pins,
.dt_node_to_map = pinconf_generic_dt_node_to_map_all,
.dt_free_map = pinconf_generic_dt_free_map,
};
static const struct pinmux_ops keembay_pmxops = {
.get_functions_count = pinmux_generic_get_function_count,
.get_function_name = pinmux_generic_get_function_name,
.get_function_groups = pinmux_generic_get_function_groups,
.gpio_request_enable = keembay_request_gpio,
.set_mux = keembay_set_mux,
};
static const struct pinconf_ops keembay_confops = {
.is_generic = true,
.pin_config_get = keembay_pinconf_get,
.pin_config_set = keembay_pinconf_set,
};
static struct pinctrl_desc keembay_pinctrl_desc = {
.name = "keembay-pinmux",
.pctlops = &keembay_pctlops,
.pmxops = &keembay_pmxops,
.confops = &keembay_confops,
.owner = THIS_MODULE,
};
static int keembay_gpio_get(struct gpio_chip *gc, unsigned int pin)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int val, offset;
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
offset = (val & KEEMBAY_GPIO_MODE_DIR) ? KEEMBAY_GPIO_DATA_IN : KEEMBAY_GPIO_DATA_OUT;
return keembay_read_pin(kpc->base0 + offset, pin);
}
static void keembay_gpio_set(struct gpio_chip *gc, unsigned int pin, int val)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int reg_val;
reg_val = keembay_read_gpio_reg(kpc->base0 + KEEMBAY_GPIO_DATA_OUT, pin);
if (val)
keembay_write_gpio_reg(reg_val | BIT(pin % KEEMBAY_GPIO_MAX_PER_REG),
kpc->base0 + KEEMBAY_GPIO_DATA_HIGH, pin);
else
keembay_write_gpio_reg(~reg_val | BIT(pin % KEEMBAY_GPIO_MAX_PER_REG),
kpc->base0 + KEEMBAY_GPIO_DATA_LOW, pin);
}
static int keembay_gpio_get_direction(struct gpio_chip *gc, unsigned int pin)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return !!(val & KEEMBAY_GPIO_MODE_DIR);
}
static int keembay_gpio_set_direction_in(struct gpio_chip *gc, unsigned int pin)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int val;
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val |= KEEMBAY_GPIO_MODE_DIR;
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
return 0;
}
static int keembay_gpio_set_direction_out(struct gpio_chip *gc,
unsigned int pin, int value)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int val;
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_MODE, pin);
val &= ~KEEMBAY_GPIO_MODE_DIR;
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_MODE, pin);
keembay_gpio_set(gc, pin, value);
return 0;
}
static void keembay_gpio_irq_handler(struct irq_desc *desc)
{
struct gpio_chip *gc = irq_desc_get_handler_data(desc);
unsigned int kmb_irq = irq_desc_get_irq(desc);
unsigned long reg, clump = 0, bit = 0;
struct irq_chip *parent_chip;
struct keembay_pinctrl *kpc;
unsigned int src, pin, val;
/* Identify GPIO interrupt number from GIC interrupt number */
for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
if (kmb_irq == gc->irq.parents[src])
break;
}
if (src == KEEMBAY_GPIO_NUM_IRQ)
return;
parent_chip = irq_desc_get_chip(desc);
kpc = gpiochip_get_data(gc);
chained_irq_enter(parent_chip, desc);
reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
/*
* Each Interrupt line can be shared by up to 4 GPIO pins. Enable bit
* and input values were checked to identify the source of the
* Interrupt. The checked enable bit positions are 7, 15, 23 and 31.
*/
for_each_set_clump8(bit, clump, &reg, BITS_PER_TYPE(typeof(reg))) {
pin = clump & ~KEEMBAY_GPIO_IRQ_ENABLE;
val = keembay_read_pin(kpc->base0 + KEEMBAY_GPIO_DATA_IN, pin);
kmb_irq = irq_linear_revmap(gc->irq.domain, pin);
/* Checks if the interrupt is enabled */
if (val && (clump & KEEMBAY_GPIO_IRQ_ENABLE))
generic_handle_irq(kmb_irq);
}
chained_irq_exit(parent_chip, desc);
}
static void keembay_gpio_clear_irq(struct irq_data *data, unsigned long pos,
u32 src, irq_hw_number_t pin)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned long trig = irqd_get_trigger_type(data);
struct keembay_gpio_irq *irq = &kpc->irq[src];
unsigned long val;
/* Check if the value of pos/KEEMBAY_GPIO_NUM_IRQ is in valid range. */
if ((pos / KEEMBAY_GPIO_NUM_IRQ) >= KEEMBAY_GPIO_MAX_PER_IRQ)
return;
/* Retains val register as it handles other interrupts as well. */
val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
bitmap_set_value8(&val, 0, pos);
keembay_write_reg(val, kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
irq->num_share--;
irq->pins[pos / KEEMBAY_GPIO_NUM_IRQ] = 0;
if (trig & IRQ_TYPE_LEVEL_MASK)
keembay_gpio_restore_default(kpc, pin);
if (irq->trigger == IRQ_TYPE_LEVEL_HIGH)
kpc->max_gpios_level_type++;
else if (irq->trigger == IRQ_TYPE_EDGE_RISING)
kpc->max_gpios_edge_type++;
}
static int keembay_find_free_slot(struct keembay_pinctrl *kpc, unsigned int src)
{
unsigned long val = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
return bitmap_find_free_region(&val, KEEMBAY_GPIO_MAX_PER_REG, 3) / KEEMBAY_GPIO_NUM_IRQ;
}
static int keembay_find_free_src(struct keembay_pinctrl *kpc, unsigned int trig)
{
int src, type = 0;
if (trig & IRQ_TYPE_LEVEL_MASK)
type = IRQ_TYPE_LEVEL_HIGH;
else if (trig & IRQ_TYPE_EDGE_BOTH)
type = IRQ_TYPE_EDGE_RISING;
for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
if (kpc->irq[src].trigger != type)
continue;
if (!keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src) ||
kpc->irq[src].num_share < KEEMBAY_GPIO_MAX_PER_IRQ)
return src;
}
return -EBUSY;
}
static void keembay_gpio_set_irq(struct keembay_pinctrl *kpc, int src,
int slot, irq_hw_number_t pin)
{
unsigned long val = pin | KEEMBAY_GPIO_IRQ_ENABLE;
struct keembay_gpio_irq *irq = &kpc->irq[src];
unsigned long flags, reg;
raw_spin_lock_irqsave(&kpc->lock, flags);
reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
bitmap_set_value8(&reg, val, slot * 8);
keembay_write_reg(reg, kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
raw_spin_unlock_irqrestore(&kpc->lock, flags);
if (irq->trigger == IRQ_TYPE_LEVEL_HIGH)
kpc->max_gpios_level_type--;
else if (irq->trigger == IRQ_TYPE_EDGE_RISING)
kpc->max_gpios_edge_type--;
irq->source = src;
irq->pins[slot] = pin;
irq->num_share++;
}
static void keembay_gpio_irq_enable(struct irq_data *data)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
unsigned int trig = irqd_get_trigger_type(data);
irq_hw_number_t pin = irqd_to_hwirq(data);
int src, slot;
/* Check which Interrupt source and slot is available */
src = keembay_find_free_src(kpc, trig);
slot = keembay_find_free_slot(kpc, src);
if (src < 0 || slot < 0)
return;
if (trig & KEEMBAY_GPIO_SENSE_LOW)
keembay_gpio_invert(kpc, pin);
keembay_gpio_set_irq(kpc, src, slot, pin);
}
static void keembay_gpio_irq_ack(struct irq_data *data)
{
/*
* The keembay_gpio_irq_ack function is needed to handle_edge_irq.
* IRQ ack is not possible from the SOC perspective. The IP by itself
* is used for handling interrupts which do not come in short-time and
* not used as protocol or communication interrupts. All the interrupts
* are threaded IRQ interrupts. But this function is expected to be
* present as the gpio IP is registered with irq framework. Otherwise
* handle_edge_irq() fails.
*/
}
static void keembay_gpio_irq_disable(struct irq_data *data)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
irq_hw_number_t pin = irqd_to_hwirq(data);
unsigned long reg, clump = 0, pos = 0;
unsigned int src;
for (src = 0; src < KEEMBAY_GPIO_NUM_IRQ; src++) {
reg = keembay_read_reg(kpc->base1 + KEEMBAY_GPIO_INT_CFG, src);
for_each_set_clump8(pos, clump, &reg, BITS_PER_TYPE(typeof(reg))) {
if ((clump & ~KEEMBAY_GPIO_IRQ_ENABLE) == pin) {
keembay_gpio_clear_irq(data, pos, src, pin);
return;
}
}
}
}
static int keembay_gpio_irq_set_type(struct irq_data *data, unsigned int type)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(data);
struct keembay_pinctrl *kpc = gpiochip_get_data(gc);
/* Change EDGE_BOTH as EDGE_RISING in order to claim the IRQ for power button */
if (!kpc->max_gpios_edge_type && (type & IRQ_TYPE_EDGE_BOTH))
type = IRQ_TYPE_EDGE_RISING;
if (!kpc->max_gpios_level_type && (type & IRQ_TYPE_LEVEL_MASK))
type = IRQ_TYPE_NONE;
if (type & IRQ_TYPE_EDGE_BOTH)
irq_set_handler_locked(data, handle_edge_irq);
else if (type & IRQ_TYPE_LEVEL_MASK)
irq_set_handler_locked(data, handle_level_irq);
else
return -EINVAL;
return 0;
}
static int keembay_gpio_add_pin_ranges(struct gpio_chip *chip)
{
struct keembay_pinctrl *kpc = gpiochip_get_data(chip);
int ret;
ret = gpiochip_add_pin_range(chip, dev_name(kpc->dev), 0, 0, chip->ngpio);
if (ret)
dev_err_probe(kpc->dev, ret, "failed to add GPIO pin range\n");
return ret;
}
static struct irq_chip keembay_gpio_irqchip = {
.name = "keembay-gpio",
.irq_enable = keembay_gpio_irq_enable,
.irq_disable = keembay_gpio_irq_disable,
.irq_set_type = keembay_gpio_irq_set_type,
.irq_ack = keembay_gpio_irq_ack,
};
static int keembay_gpiochip_probe(struct keembay_pinctrl *kpc,
struct platform_device *pdev)
{
unsigned int i, level_line = 0, edge_line = 0;
struct gpio_chip *gc = &kpc->chip;
struct gpio_irq_chip *girq;
/* Setup GPIO IRQ chip */
girq = &kpc->chip.irq;
girq->chip = &keembay_gpio_irqchip;
girq->parent_handler = keembay_gpio_irq_handler;
girq->num_parents = KEEMBAY_GPIO_NUM_IRQ;
girq->parents = devm_kcalloc(kpc->dev, girq->num_parents,
sizeof(*girq->parents), GFP_KERNEL);
if (!girq->parents)
return -ENOMEM;
/* Setup GPIO chip */
gc->label = dev_name(kpc->dev);
gc->parent = kpc->dev;
gc->request = gpiochip_generic_request;
gc->free = gpiochip_generic_free;
gc->get_direction = keembay_gpio_get_direction;
gc->direction_input = keembay_gpio_set_direction_in;
gc->direction_output = keembay_gpio_set_direction_out;
gc->get = keembay_gpio_get;
gc->set = keembay_gpio_set;
gc->set_config = gpiochip_generic_config;
gc->base = -1;
gc->ngpio = kpc->npins;
gc->add_pin_ranges = keembay_gpio_add_pin_ranges;
for (i = 0; i < KEEMBAY_GPIO_NUM_IRQ; i++) {
struct keembay_gpio_irq *kmb_irq = &kpc->irq[i];
int irq;
irq = platform_get_irq_optional(pdev, i);
if (irq <= 0)
continue;
girq->parents[i] = irq;
kmb_irq->line = girq->parents[i];
kmb_irq->source = i;
kmb_irq->trigger = irq_get_trigger_type(girq->parents[i]);
kmb_irq->num_share = 0;
if (kmb_irq->trigger == IRQ_TYPE_LEVEL_HIGH)
level_line++;
else
edge_line++;
}
kpc->max_gpios_level_type = level_line * KEEMBAY_GPIO_MAX_PER_IRQ;
kpc->max_gpios_edge_type = edge_line * KEEMBAY_GPIO_MAX_PER_IRQ;
girq->default_type = IRQ_TYPE_NONE;
girq->handler = handle_bad_irq;
return devm_gpiochip_add_data(kpc->dev, gc, kpc);
}
static int keembay_build_groups(struct keembay_pinctrl *kpc)
{
struct pingroup *grp;
unsigned int i;
kpc->ngroups = kpc->npins;
grp = devm_kcalloc(kpc->dev, kpc->ngroups, sizeof(*grp), GFP_KERNEL);
if (!grp)
return -ENOMEM;
/* Each pin is categorised as one group */
for (i = 0; i < kpc->ngroups; i++) {
const struct pinctrl_pin_desc *pdesc = keembay_pins + i;
struct pingroup *kmb_grp = grp + i;
kmb_grp->name = pdesc->name;
kmb_grp->pins = (int *)&pdesc->number;
pinctrl_generic_add_group(kpc->pctrl, kmb_grp->name,
kmb_grp->pins, 1, NULL);
}
return 0;
}
static int keembay_pinctrl_reg(struct keembay_pinctrl *kpc, struct device *dev)
{
int ret;
keembay_pinctrl_desc.pins = keembay_pins;
ret = of_property_read_u32(dev->of_node, "ngpios", &kpc->npins);
if (ret < 0)
return ret;
keembay_pinctrl_desc.npins = kpc->npins;
kpc->pctrl = devm_pinctrl_register(kpc->dev, &keembay_pinctrl_desc, kpc);
return PTR_ERR_OR_ZERO(kpc->pctrl);
}
static int keembay_add_functions(struct keembay_pinctrl *kpc,
struct function_desc *functions)
{
unsigned int i;
/* Assign the groups for each function */
for (i = 0; i < kpc->nfuncs; i++) {
struct function_desc *func = &functions[i];
const char **group_names;
unsigned int grp_idx = 0;
int j;
group_names = devm_kcalloc(kpc->dev, func->num_group_names,
sizeof(*group_names), GFP_KERNEL);
if (!group_names)
return -ENOMEM;
for (j = 0; j < kpc->npins; j++) {
const struct pinctrl_pin_desc *pdesc = &keembay_pins[j];
struct keembay_mux_desc *mux;
for (mux = pdesc->drv_data; mux->name; mux++) {
if (!strcmp(mux->name, func->name))
group_names[grp_idx++] = pdesc->name;
}
}
func->group_names = group_names;
}
/* Add all functions */
for (i = 0; i < kpc->nfuncs; i++) {
pinmux_generic_add_function(kpc->pctrl,
functions[i].name,
functions[i].group_names,
functions[i].num_group_names,
functions[i].data);
}
return 0;
}
static int keembay_build_functions(struct keembay_pinctrl *kpc)
{
struct function_desc *keembay_funcs, *new_funcs;
int i;
/*
* Allocate maximum possible number of functions. Assume every pin
* being part of 8 (hw maximum) globally unique muxes.
*/
kpc->nfuncs = 0;
keembay_funcs = kcalloc(kpc->npins * 8, sizeof(*keembay_funcs), GFP_KERNEL);
if (!keembay_funcs)
return -ENOMEM;
/* Setup 1 function for each unique mux */
for (i = 0; i < kpc->npins; i++) {
const struct pinctrl_pin_desc *pdesc = keembay_pins + i;
struct keembay_mux_desc *mux;
for (mux = pdesc->drv_data; mux->name; mux++) {
struct function_desc *fdesc;
/* Check if we already have function for this mux */
for (fdesc = keembay_funcs; fdesc->name; fdesc++) {
if (!strcmp(mux->name, fdesc->name)) {
fdesc->num_group_names++;
break;
}
}
/* Setup new function for this mux we didn't see before */
if (!fdesc->name) {
fdesc->name = mux->name;
fdesc->num_group_names = 1;
fdesc->data = &mux->mode;
kpc->nfuncs++;
}
}
}
/* Reallocate memory based on actual number of functions */
new_funcs = krealloc(keembay_funcs, kpc->nfuncs * sizeof(*new_funcs), GFP_KERNEL);
if (!new_funcs) {
kfree(keembay_funcs);
return -ENOMEM;
}
return keembay_add_functions(kpc, new_funcs);
}
static const struct keembay_pin_soc keembay_data = {
.pins = keembay_pins,
};
static const struct of_device_id keembay_pinctrl_match[] = {
{ .compatible = "intel,keembay-pinctrl", .data = &keembay_data },
{ }
};
MODULE_DEVICE_TABLE(of, keembay_pinctrl_match);
static int keembay_pinctrl_probe(struct platform_device *pdev)
{
struct device *dev = &pdev->dev;
struct keembay_pinctrl *kpc;
int ret;
kpc = devm_kzalloc(dev, sizeof(*kpc), GFP_KERNEL);
if (!kpc)
return -ENOMEM;
kpc->dev = dev;
kpc->soc = device_get_match_data(dev);
kpc->base0 = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(kpc->base0))
return PTR_ERR(kpc->base0);
kpc->base1 = devm_platform_ioremap_resource(pdev, 1);
if (IS_ERR(kpc->base1))
return PTR_ERR(kpc->base1);
raw_spin_lock_init(&kpc->lock);
ret = keembay_pinctrl_reg(kpc, dev);
if (ret)
return ret;
ret = keembay_build_groups(kpc);
if (ret)
return ret;
ret = keembay_build_functions(kpc);
if (ret)
return ret;
ret = keembay_gpiochip_probe(kpc, pdev);
if (ret)
return ret;
platform_set_drvdata(pdev, kpc);
return 0;
}
static struct platform_driver keembay_pinctrl_driver = {
.probe = keembay_pinctrl_probe,
.driver = {
.name = "keembay-pinctrl",
.of_match_table = keembay_pinctrl_match,
},
};
module_platform_driver(keembay_pinctrl_driver);
MODULE_AUTHOR("Muhammad Husaini Zulkifli <muhammad.husaini.zulkifli@intel.com>");
MODULE_AUTHOR("Vijayakannan Ayyathurai <vijayakannan.ayyathurai@intel.com>");
MODULE_AUTHOR("Lakshmi Sowjanya D <lakshmi.sowjanya.d@intel.com>");
MODULE_DESCRIPTION("Intel Keem Bay SoC pinctrl/GPIO driver");
MODULE_LICENSE("GPL");