cregit-Linux how code gets into the kernel

Release 4.11 drivers/pinctrl/pinctrl-lpc18xx.c

Directory: drivers/pinctrl
/*
 * Pinctrl driver for NXP LPC18xx/LPC43xx System Control Unit (SCU)
 *
 * Copyright (C) 2015 Joachim Eastwood <manabian@gmail.com>
 *
 * This file is licensed under the terms of the GNU General Public
 * License version 2. This program is licensed "as is" without any
 * warranty of any kind, whether express or implied.
 */

#include <linux/bitops.h>
#include <linux/clk.h>
#include <linux/io.h>
#include <linux/init.h>
#include <linux/of.h>
#include <linux/of_device.h>
#include <linux/pinctrl/pinctrl.h>
#include <linux/pinctrl/pinmux.h>
#include <linux/pinctrl/pinconf-generic.h>

#include "core.h"
#include "pinctrl-utils.h"

/* LPC18XX SCU analog function registers */

#define LPC18XX_SCU_REG_ENAIO0		0xc88

#define LPC18XX_SCU_REG_ENAIO1		0xc8c

#define LPC18XX_SCU_REG_ENAIO2		0xc90

#define LPC18XX_SCU_REG_ENAIO2_DAC	BIT(0)

/* LPC18XX SCU pin register definitions */

#define LPC18XX_SCU_PIN_MODE_MASK	0x7

#define LPC18XX_SCU_PIN_EPD		BIT(3)

#define LPC18XX_SCU_PIN_EPUN		BIT(4)

#define LPC18XX_SCU_PIN_EHS		BIT(5)

#define LPC18XX_SCU_PIN_EZI		BIT(6)

#define LPC18XX_SCU_PIN_ZIF		BIT(7)

#define LPC18XX_SCU_PIN_EHD_MASK	0x300

#define LPC18XX_SCU_PIN_EHD_POS		8


#define LPC18XX_SCU_USB1_EPD		BIT(2)

#define LPC18XX_SCU_USB1_EPWR		BIT(4)


#define LPC18XX_SCU_I2C0_EFP		BIT(0)

#define LPC18XX_SCU_I2C0_EHD		BIT(2)

#define LPC18XX_SCU_I2C0_EZI		BIT(3)

#define LPC18XX_SCU_I2C0_ZIF		BIT(7)

#define LPC18XX_SCU_I2C0_SCL_SHIFT	0

#define LPC18XX_SCU_I2C0_SDA_SHIFT	8


#define LPC18XX_SCU_FUNC_PER_PIN	8

/* LPC18XX SCU pin interrupt select registers */

#define LPC18XX_SCU_PINTSEL0		0xe00

#define LPC18XX_SCU_PINTSEL1		0xe04

#define LPC18XX_SCU_PINTSEL_VAL_MASK	0xff

#define LPC18XX_SCU_PINTSEL_PORT_SHIFT	5

#define LPC18XX_SCU_IRQ_PER_PINTSEL	4

#define LPC18XX_GPIO_PINS_PER_PORT	32

#define LPC18XX_GPIO_PIN_INT_MAX	8


#define LPC18XX_SCU_PINTSEL_VAL(val, n) \
	((val) << (((n) % LPC18XX_SCU_IRQ_PER_PINTSEL) * 8))

/* LPC18xx pin types */
enum {
	
TYPE_ND,	/* Normal-drive */
	
TYPE_HD,	/* High-drive */
	
TYPE_HS,	/* High-speed */
	
TYPE_I2C0,
	
TYPE_USB1,
};

/* LPC18xx pin functions */
enum {
	
FUNC_R,		/* Reserved */
	
FUNC_ADC,
	
FUNC_ADCTRIG,
	
FUNC_CAN0,
	
FUNC_CAN1,
	
FUNC_CGU_OUT,
	
FUNC_CLKIN,
	
FUNC_CLKOUT,
	
FUNC_CTIN,
	
FUNC_CTOUT,
	
FUNC_DAC,
	
FUNC_EMC,
	
FUNC_EMC_ALT,
	
FUNC_ENET,
	
FUNC_ENET_ALT,
	
FUNC_GPIO,
	
FUNC_I2C0,
	
FUNC_I2C1,
	
FUNC_I2S0_RX_MCLK,
	
FUNC_I2S0_RX_SCK,
	
FUNC_I2S0_RX_SDA,
	
FUNC_I2S0_RX_WS,
	
FUNC_I2S0_TX_MCLK,
	
FUNC_I2S0_TX_SCK,
	
FUNC_I2S0_TX_SDA,
	
FUNC_I2S0_TX_WS,
	
FUNC_I2S1,
	
FUNC_LCD,
	
FUNC_LCD_ALT,
	
FUNC_MCTRL,
	
FUNC_NMI,
	
FUNC_QEI,
	
FUNC_SDMMC,
	
FUNC_SGPIO,
	
FUNC_SPI,
	
FUNC_SPIFI,
	
FUNC_SSP0,
	
FUNC_SSP0_ALT,
	
FUNC_SSP1,
	
FUNC_TIMER0,
	
FUNC_TIMER1,
	
FUNC_TIMER2,
	
FUNC_TIMER3,
	
FUNC_TRACE,
	
FUNC_UART0,
	
FUNC_UART1,
	
FUNC_UART2,
	
FUNC_UART3,
	
FUNC_USB0,
	
FUNC_USB1,
	
FUNC_MAX
};


static const char *const lpc18xx_function_names[] = {
	[FUNC_R]		= "reserved",
	[FUNC_ADC]		= "adc",
	[FUNC_ADCTRIG]		= "adctrig",
	[FUNC_CAN0]		= "can0",
	[FUNC_CAN1]		= "can1",
	[FUNC_CGU_OUT]		= "cgu_out",
	[FUNC_CLKIN]		= "clkin",
	[FUNC_CLKOUT]		= "clkout",
	[FUNC_CTIN]		= "ctin",
	[FUNC_CTOUT]		= "ctout",
	[FUNC_DAC]		= "dac",
	[FUNC_EMC]		= "emc",
	[FUNC_EMC_ALT]		= "emc_alt",
	[FUNC_ENET]		= "enet",
	[FUNC_ENET_ALT]		= "enet_alt",
	[FUNC_GPIO]		= "gpio",
	[FUNC_I2C0]		= "i2c0",
	[FUNC_I2C1]		= "i2c1",
	[FUNC_I2S0_RX_MCLK]	= "i2s0_rx_mclk",
	[FUNC_I2S0_RX_SCK]	= "i2s0_rx_sck",
	[FUNC_I2S0_RX_SDA]	= "i2s0_rx_sda",
	[FUNC_I2S0_RX_WS]	= "i2s0_rx_ws",
	[FUNC_I2S0_TX_MCLK]	= "i2s0_tx_mclk",
	[FUNC_I2S0_TX_SCK]	= "i2s0_tx_sck",
	[FUNC_I2S0_TX_SDA]	= "i2s0_tx_sda",
	[FUNC_I2S0_TX_WS]	= "i2s0_tx_ws",
	[FUNC_I2S1]		= "i2s1",
	[FUNC_LCD]		= "lcd",
	[FUNC_LCD_ALT]		= "lcd_alt",
	[FUNC_MCTRL]		= "mctrl",
	[FUNC_NMI]		= "nmi",
	[FUNC_QEI]		= "qei",
	[FUNC_SDMMC]		= "sdmmc",
	[FUNC_SGPIO]		= "sgpio",
	[FUNC_SPI]		= "spi",
	[FUNC_SPIFI]		= "spifi",
	[FUNC_SSP0]		= "ssp0",
	[FUNC_SSP0_ALT]		= "ssp0_alt",
	[FUNC_SSP1]		= "ssp1",
	[FUNC_TIMER0]		= "timer0",
	[FUNC_TIMER1]		= "timer1",
	[FUNC_TIMER2]		= "timer2",
	[FUNC_TIMER3]		= "timer3",
	[FUNC_TRACE]		= "trace",
	[FUNC_UART0]		= "uart0",
	[FUNC_UART1]		= "uart1",
	[FUNC_UART2]		= "uart2",
	[FUNC_UART3]		= "uart3",
	[FUNC_USB0]		= "usb0",
	[FUNC_USB1]		= "usb1",
};


struct lpc18xx_pmx_func {
	
const char **groups;
	
unsigned ngroups;
};


struct lpc18xx_scu_data {
	
struct pinctrl_dev *pctl;
	
void __iomem *base;
	
struct clk *clk;
	
struct lpc18xx_pmx_func func[FUNC_MAX];
};


struct lpc18xx_pin_caps {
	
unsigned int offset;
	
unsigned char functions[LPC18XX_SCU_FUNC_PER_PIN];
	
unsigned char analog;
	
unsigned char type;
};

/* Analog pins are required to have both bias and input disabled */

#define LPC18XX_SCU_ANALOG_PIN_CFG	0x10

/* Macros to maniupluate analog member in lpc18xx_pin_caps */

#define LPC18XX_ANALOG_PIN		BIT(7)

#define LPC18XX_ANALOG_ADC(a)		((a >> 5) & 0x3)

#define LPC18XX_ANALOG_BIT_MASK		0x1f

#define ADC0				(LPC18XX_ANALOG_PIN | (0x00 << 5))

#define ADC1				(LPC18XX_ANALOG_PIN | (0x01 << 5))

#define DAC				LPC18XX_ANALOG_PIN


#define LPC_P(port, pin, f0, f1, f2, f3, f4, f5, f6, f7, a, t)	\
static struct lpc18xx_pin_caps lpc18xx_pin_p##port##_##pin = {  \
        .offset = 0x##port * 32 * 4 + pin * 4,                  \
        .functions = {                                          \
                        FUNC_##f0, FUNC_##f1, FUNC_##f2,        \
                        FUNC_##f3, FUNC_##f4, FUNC_##f5,        \
                        FUNC_##f6, FUNC_##f7,                   \
        },                                                      \
        .analog = a,                                            \
        .type = TYPE_##t,                                       \
}


#define LPC_N(pname, off, f0, f1, f2, f3, f4, f5, f6, f7, a, t)	\
static struct lpc18xx_pin_caps lpc18xx_pin_##pname = {          \
        .offset = off,                                          \
        .functions = {                                          \
                        FUNC_##f0, FUNC_##f1, FUNC_##f2,        \
                        FUNC_##f3, FUNC_##f4, FUNC_##f5,        \
                        FUNC_##f6, FUNC_##f7,                   \
        },                                                      \
        .analog = a,                                            \
        .type = TYPE_##t,                                       \
}


/* Pinmuxing table taken from data sheet */
/*    Pin    FUNC0  FUNC1  FUNC2  FUNC3   FUNC4   FUNC5   FUNC6    FUNC7 ANALOG TYPE */
LPC_P(0,0,   GPIO,  SSP1,  ENET,  SGPIO,      R,      R, I2S0_TX_WS,I2S1,     0, ND);
LPC_P(0,1,   GPIO,  SSP1,ENET_ALT,SGPIO,      R,      R,   ENET,    I2S1,     0, ND);
LPC_P(1,0,   GPIO,  CTIN,   EMC,      R,      R,   SSP0,  SGPIO,       R,     0, ND);
LPC_P(1,1,   GPIO, CTOUT,   EMC,  SGPIO,      R,   SSP0,      R,       R,     0, ND);
LPC_P(1,2,   GPIO, CTOUT,   EMC,  SGPIO,      R,   SSP0,      R,       R,     0, ND);
LPC_P(1,3,   GPIO, CTOUT, SGPIO,    EMC,   USB0,   SSP1,      R,   SDMMC,     0, ND);
LPC_P(1,4,   GPIO, CTOUT, SGPIO,    EMC,   USB0,   SSP1,      R,   SDMMC,     0, ND);
LPC_P(1,5,   GPIO, CTOUT,     R,    EMC,   USB0,   SSP1,  SGPIO,   SDMMC,     0, ND);
LPC_P(1,6,   GPIO,  CTIN,     R,    EMC,      R,      R,  SGPIO,   SDMMC,     0, ND);
LPC_P(1,7,   GPIO, UART1, CTOUT,    EMC,   USB0,      R,      R,       R,     0, ND);
LPC_P(1,8,   GPIO, UART1, CTOUT,    EMC,      R,      R,      R,   SDMMC,     0, ND);
LPC_P(1,9,   GPIO, UART1, CTOUT,    EMC,      R,      R,      R,   SDMMC,     0, ND);
LPC_P(1,10,  GPIO, UART1, CTOUT,    EMC,      R,      R,      R,   SDMMC,     0, ND);
LPC_P(1,11,  GPIO, UART1, CTOUT,    EMC,      R,      R,      R,   SDMMC,     0, ND);
LPC_P(1,12,  GPIO, UART1,     R,    EMC, TIMER0,      R,  SGPIO,   SDMMC,     0, ND);
LPC_P(1,13,  GPIO, UART1,     R,    EMC, TIMER0,      R,  SGPIO,   SDMMC,     0, ND);
LPC_P(1,14,  GPIO, UART1,     R,    EMC, TIMER0,      R,  SGPIO,       R,     0, ND);
LPC_P(1,15,  GPIO, UART2, SGPIO,   ENET, TIMER0,      R,      R,       R,     0, ND);
LPC_P(1,16,  GPIO, UART2, SGPIO,ENET_ALT,TIMER0,      R,      R,    ENET,     0, ND);
LPC_P(1,17,  GPIO, UART2,     R,   ENET, TIMER0,   CAN1,  SGPIO,       R,     0, HD);
LPC_P(1,18,  GPIO, UART2,     R,   ENET, TIMER0,   CAN1,  SGPIO,       R,     0, ND);
LPC_P(1,19,  ENET,  SSP1,     R,      R, CLKOUT,      R, I2S0_RX_MCLK,I2S1,   0, ND);
LPC_P(1,20,  GPIO,  SSP1,     R,   ENET, TIMER0,      R,  SGPIO,       R,     0, ND);
LPC_P(2,0,  SGPIO, UART0,   EMC,   USB0,   GPIO,      R, TIMER3,    ENET,     0, ND);
LPC_P(2,1,  SGPIO, UART0,   EMC,   USB0,   GPIO,      R, TIMER3,       R,     0, ND);
LPC_P(2,2,  SGPIO, UART0,   EMC,   USB0,   GPIO,   CTIN, TIMER3,       R,     0, ND);
LPC_P(2,3,  SGPIO,  I2C1, UART3,   CTIN,   GPIO,      R, TIMER3,    USB0,     0, HD);
LPC_P(2,4,  SGPIO,  I2C1, UART3,   CTIN,   GPIO,      R, TIMER3,    USB0,     0, HD);
LPC_P(2,5,  SGPIO,  CTIN,  USB1, ADCTRIG,  GPIO,      R, TIMER3,    USB0,     0, HD);
LPC_P(2,6,  SGPIO, UART0,   EMC,   USB0,   GPIO,   CTIN, TIMER3,       R,     0, ND);
LPC_P(2,7,   GPIO, CTOUT, UART3,    EMC,      R,      R, TIMER3,       R,     0, ND);
LPC_P(2,8,  SGPIO, CTOUT, UART3,    EMC,   GPIO,      R,      R,       R,     0, ND);
LPC_P(2,9,   GPIO, CTOUT, UART3,    EMC,      R,      R,      R,       R,     0, ND);
LPC_P(2,10,  GPIO, CTOUT, UART2,    EMC,      R,      R,      R,       R,     0, ND);
LPC_P(2,11,  GPIO, CTOUT, UART2,    EMC,      R,      R,      R,       R,     0, ND);
LPC_P(2,12,  GPIO, CTOUT,     R,    EMC,      R,      R,      R,   UART2,     0, ND);
LPC_P(2,13,  GPIO,  CTIN,     R,    EMC,      R,      R,      R,   UART2,     0, ND);
LPC_P(3,0,  I2S0_RX_SCK, I2S0_RX_MCLK, I2S0_TX_SCK, I2S0_TX_MCLK,SSP0,R,R,R,  0, ND);
LPC_P(3,1,  I2S0_TX_WS, I2S0_RX_WS,CAN0,USB1,GPIO,    R,    LCD,       R,     0, ND);
LPC_P(3,2,  I2S0_TX_SDA, I2S0_RX_SDA,CAN0,USB1,GPIO,  R,    LCD,      R,      0, ND);
LPC_P(3,3,      R,   SPI,  SSP0,  SPIFI, CGU_OUT,R, I2S0_TX_MCLK,  I2S1,      0, HS);
LPC_P(3,4,   GPIO,     R,     R,  SPIFI,  UART1, I2S0_TX_WS, I2S1,  LCD,      0, ND);
LPC_P(3,5,   GPIO,     R,     R,  SPIFI,  UART1, I2S0_TX_SDA,I2S1,  LCD,      0, ND);
LPC_P(3,6,   GPIO,   SPI,  SSP0,  SPIFI,      R,  SSP0_ALT,   R,      R,      0, ND);
LPC_P(3,7,      R,   SPI,  SSP0,  SPIFI,   GPIO,  SSP0_ALT,   R,      R,      0, ND);
LPC_P(3,8,      R,   SPI,  SSP0,  SPIFI,   GPIO,  SSP0_ALT,   R,      R,      0, ND);
LPC_P(4,0,   GPIO, MCTRL,   NMI,      R,      R,    LCD,  UART3,      R,      0, ND);
LPC_P(4,1,   GPIO, CTOUT,   LCD,      R,      R, LCD_ALT, UART3,   ENET, ADC0|1, ND);
LPC_P(4,2,   GPIO, CTOUT,   LCD,      R,      R, LCD_ALT, UART3,  SGPIO,      0, ND);
LPC_P(4,3,   GPIO, CTOUT,   LCD,      R,      R, LCD_ALT, UART3,  SGPIO, ADC0|0, ND);
LPC_P(4,4,   GPIO, CTOUT,   LCD,      R,      R, LCD_ALT, UART3,  SGPIO,    DAC, ND);
LPC_P(4,5,   GPIO, CTOUT,   LCD,      R,      R,      R,      R,  SGPIO,      0, ND);
LPC_P(4,6,   GPIO, CTOUT,   LCD,      R,      R,      R,      R,  SGPIO,      0, ND);
LPC_P(4,7,    LCD, CLKIN,     R,      R,      R,      R,   I2S1,I2S0_TX_SCK,  0, ND);
LPC_P(4,8,      R,  CTIN,   LCD,      R,   GPIO, LCD_ALT,  CAN1,  SGPIO,      0, ND);
LPC_P(4,9,      R,  CTIN,   LCD,      R,   GPIO, LCD_ALT,  CAN1,  SGPIO,      0, ND);
LPC_P(4,10,     R,  CTIN,   LCD,      R,   GPIO, LCD_ALT,     R,  SGPIO,      0, ND);
LPC_P(5,0,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,1,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,2,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,3,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,4,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,5,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,6,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(5,7,   GPIO, MCTRL,   EMC,      R,  UART1, TIMER1,      R,      R,      0, ND);
LPC_P(6,0,      R, I2S0_RX_MCLK,R,    R, I2S0_RX_SCK, R,      R,      R,      0, ND);
LPC_P(6,1,   GPIO,   EMC, UART0, I2S0_RX_WS,  R, TIMER2,      R,      R,      0, ND);
LPC_P(6,2,   GPIO,   EMC, UART0, I2S0_RX_SDA, R, TIMER2,      R,      R,      0, ND);
LPC_P(6,3,   GPIO,  USB0, SGPIO,    EMC,      R, TIMER2,      R,      R,      0, ND);
LPC_P(6,4,   GPIO,  CTIN, UART0,    EMC,      R,      R,      R,      R,      0, ND);
LPC_P(6,5,   GPIO, CTOUT, UART0,    EMC,      R,      R,      R,      R,      0, ND);
LPC_P(6,6,   GPIO,   EMC, SGPIO,   USB0,      R, TIMER2,      R,      R,      0, ND);
LPC_P(6,7,      R,   EMC, SGPIO,   USB0,   GPIO, TIMER2,      R,      R,      0, ND);
LPC_P(6,8,      R,   EMC, SGPIO,   USB0,   GPIO, TIMER2,      R,      R,      0, ND);
LPC_P(6,9,   GPIO,     R,     R,    EMC,      R, TIMER2,      R,      R,      0, ND);
LPC_P(6,10,  GPIO, MCTRL,     R,    EMC,      R,      R,      R,      R,      0, ND);
LPC_P(6,11,  GPIO,     R,     R,    EMC,      R, TIMER2,      R,      R,      0, ND);
LPC_P(6,12,  GPIO, CTOUT,     R,    EMC,      R,      R,      R,      R,      0, ND);
LPC_P(7,0,   GPIO, CTOUT,     R,    LCD,      R,      R,      R,  SGPIO,      0, ND);
LPC_P(7,1,   GPIO, CTOUT,I2S0_TX_WS,LCD,LCD_ALT,      R,  UART2,  SGPIO,      0, ND);
LPC_P(7,2,   GPIO, CTIN,I2S0_TX_SDA,LCD,LCD_ALT,      R,  UART2,  SGPIO,      0, ND);
LPC_P(7,3,   GPIO, CTIN,      R,    LCD,LCD_ALT,      R,      R,      R,      0, ND);
LPC_P(7,4,   GPIO, CTOUT,     R,    LCD,LCD_ALT,  TRACE,      R,      R, ADC0|4, ND);
LPC_P(7,5,   GPIO, CTOUT,     R,    LCD,LCD_ALT,  TRACE,      R,      R, ADC0|3, ND);
LPC_P(7,6,   GPIO, CTOUT,     R,    LCD,      R,  TRACE,      R,      R,      0, ND);
LPC_P(7,7,   GPIO, CTOUT,     R,    LCD,      R,  TRACE,   ENET,  SGPIO, ADC1|6, ND);
LPC_P(8,0,   GPIO,  USB0,     R,  MCTRL,  SGPIO,      R,      R, TIMER0,      0, HD);
LPC_P(8,1,   GPIO,  USB0,     R,  MCTRL,  SGPIO,      R,      R, TIMER0,      0, HD);
LPC_P(8,2,   GPIO,  USB0,     R,  MCTRL,  SGPIO,      R,      R, TIMER0,      0, HD);
LPC_P(8,3,   GPIO,  USB1,     R,    LCD, LCD_ALT,     R,      R, TIMER0,      0, ND);
LPC_P(8,4,   GPIO,  USB1,     R,    LCD, LCD_ALT,     R,      R, TIMER0,      0, ND);
LPC_P(8,5,   GPIO,  USB1,     R,    LCD, LCD_ALT,     R,      R, TIMER0,      0, ND);
LPC_P(8,6,   GPIO,  USB1,     R,    LCD, LCD_ALT,     R,      R, TIMER0,      0, ND);
LPC_P(8,7,   GPIO,  USB1,     R,    LCD, LCD_ALT,     R,      R, TIMER0,      0, ND);
LPC_P(8,8,      R,  USB1,     R,      R,      R,      R,CGU_OUT,   I2S1,      0, ND);
LPC_P(9,0,   GPIO, MCTRL,     R,      R,      R,   ENET,  SGPIO,   SSP0,      0, ND);
LPC_P(9,1,   GPIO, MCTRL,     R,      R, I2S0_TX_WS,ENET, SGPIO,   SSP0,      0, ND);
LPC_P(9,2,   GPIO, MCTRL,     R,      R, I2S0_TX_SDA,ENET,SGPIO,   SSP0,      0, ND);
LPC_P(9,3,   GPIO, MCTRL,  USB1,      R,      R,   ENET,  SGPIO,  UART3,      0, ND);
LPC_P(9,4,      R, MCTRL,  USB1,      R,   GPIO,   ENET,  SGPIO,  UART3,      0, ND);
LPC_P(9,5,      R, MCTRL,  USB1,      R,   GPIO,   ENET,  SGPIO,  UART0,      0, ND);
LPC_P(9,6,   GPIO, MCTRL,  USB1,      R,      R,   ENET,  SGPIO,  UART0,      0, ND);
LPC_P(a,0,      R,     R,     R,      R,      R,   I2S1, CGU_OUT,     R,      0, ND);
LPC_P(a,1,   GPIO,   QEI,     R,  UART2,      R,      R,      R,      R,      0, HD);
LPC_P(a,2,   GPIO,   QEI,     R,  UART2,      R,      R,      R,      R,      0, HD);
LPC_P(a,3,   GPIO,   QEI,     R,      R,      R,      R,      R,      R,      0, HD);
LPC_P(a,4,      R, CTOUT,     R,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(b,0,      R, CTOUT,   LCD,      R,   GPIO,      R,      R,      R,      0, ND);
LPC_P(b,1,      R,  USB1,   LCD,      R,   GPIO,  CTOUT,      R,      R,      0, ND);
LPC_P(b,2,      R,  USB1,   LCD,      R,   GPIO,  CTOUT,      R,      R,      0, ND);
LPC_P(b,3,      R,  USB1,   LCD,      R,   GPIO,  CTOUT,      R,      R,      0, ND);
LPC_P(b,4,      R,  USB1,   LCD,      R,   GPIO,   CTIN,      R,      R,      0, ND);
LPC_P(b,5,      R,  USB1,   LCD,      R,   GPIO,   CTIN, LCD_ALT,     R,      0, ND);
LPC_P(b,6,      R,  USB1,   LCD,      R,   GPIO,   CTIN, LCD_ALT,     R, ADC0|6, ND);
LPC_P(c,0,      R,  USB1,     R,   ENET,    LCD,      R,      R,  SDMMC, ADC1|1, ND);
LPC_P(c,1,   USB1,     R, UART1,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,2,   USB1,     R, UART1,   ENET,   GPIO,      R,      R,  SDMMC,      0, ND);
LPC_P(c,3,   USB1,     R, UART1,   ENET,   GPIO,      R,      R,  SDMMC, ADC1|0, ND);
LPC_P(c,4,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,5,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,6,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,7,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,8,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,9,      R,  USB1,     R,   ENET,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,10,     R,  USB1, UART1,      R,   GPIO,      R, TIMER3,  SDMMC,      0, ND);
LPC_P(c,11,     R,  USB1, UART1,      R,   GPIO,      R,      R,  SDMMC,      0, ND);
LPC_P(c,12,     R,     R, UART1,      R,   GPIO,  SGPIO, I2S0_TX_SDA,SDMMC,   0, ND);
LPC_P(c,13,     R,     R, UART1,      R,   GPIO,  SGPIO, I2S0_TX_WS, SDMMC,   0, ND);
LPC_P(c,14,     R,     R, UART1,      R,   GPIO,  SGPIO,   ENET,  SDMMC,      0, ND);
LPC_P(d,0,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,1,      R,     R,   EMC,      R,   GPIO,  SDMMC,      R,  SGPIO,      0, ND);
LPC_P(d,2,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,3,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,4,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,5,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,6,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,7,      R,  CTIN,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,8,      R,  CTIN,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,9,      R, CTOUT,   EMC,      R,   GPIO,      R,      R,  SGPIO,      0, ND);
LPC_P(d,10,     R,  CTIN,   EMC,      R,   GPIO,      R,      R,      R,      0, ND);
LPC_P(d,11,     R,     R,   EMC,      R,   GPIO,   USB1,  CTOUT,      R,      0, ND);
LPC_P(d,12,     R,     R,   EMC,      R,   GPIO,      R,  CTOUT,      R,      0, ND);
LPC_P(d,13,     R,  CTIN,   EMC,      R,   GPIO,      R,  CTOUT,      R,      0, ND);
LPC_P(d,14,     R,     R,   EMC,      R,   GPIO,      R,  CTOUT,      R,      0, ND);
LPC_P(d,15,     R,     R,   EMC,      R,   GPIO,  SDMMC,  CTOUT,      R,      0, ND);
LPC_P(d,16,     R,     R,   EMC,      R,   GPIO,  SDMMC,  CTOUT,      R,      0, ND);
LPC_P(e,0,      R,     R,     R,    EMC,   GPIO,   CAN1,      R,      R,      0, ND);
LPC_P(e,1,      R,     R,     R,    EMC,   GPIO,   CAN1,      R,      R,      0, ND);
LPC_P(e,2,ADCTRIG,  CAN0,     R,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,3,      R,  CAN0,ADCTRIG,   EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,4,      R,   NMI,     R,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,5,      R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,6,      R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,7,      R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,8,      R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,9,      R,  CTIN, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,10,     R,  CTIN, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,11,     R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,12,     R, CTOUT, UART1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,13,     R, CTOUT,  I2C1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,14,     R,     R,     R,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(e,15,     R, CTOUT,  I2C1,    EMC,   GPIO,      R,      R,      R,      0, ND);
LPC_P(f,0,   SSP0, CLKIN,     R,      R,      R,      R,      R,   I2S1,      0, ND);
LPC_P(f,1,      R,     R,  SSP0,      R,   GPIO,      R,  SGPIO,      R,      0, ND);
LPC_P(f,2,      R, UART3,  SSP0,      R,   GPIO,      R,  SGPIO,      R,      0, ND);
LPC_P(f,3,      R, UART3,  SSP0,      R,   GPIO,      R,  SGPIO,      R,      0, ND);
LPC_P(f,4,   SSP1, CLKIN, TRACE,      R,      R, R, I2S0_TX_MCLK,I2S0_RX_SCK, 0, ND);
LPC_P(f,5,      R, UART3,  SSP1,  TRACE,   GPIO,      R,  SGPIO,      R, ADC1|4, ND);
LPC_P(f,6,      R, UART3,  SSP1,  TRACE,   GPIO,      R,  SGPIO,   I2S1, ADC1|3, ND);
LPC_P(f,7,      R, UART3,  SSP1,  TRACE,   GPIO,      R,  SGPIO,   I2S1, ADC1|7, ND);
LPC_P(f,8,      R, UART0,  CTIN,  TRACE,   GPIO,      R,  SGPIO,      R, ADC0|2, ND);
LPC_P(f,9,      R, UART0, CTOUT,      R,   GPIO,      R,  SGPIO,      R, ADC1|2, ND);
LPC_P(f,10,     R, UART0,     R,      R,   GPIO,      R,  SDMMC,      R, ADC0|5, ND);
LPC_P(f,11,     R, UART0,     R,      R,   GPIO,      R,  SDMMC,      R, ADC1|5, ND);

/*    Pin      Offset FUNC0  FUNC1  FUNC2  FUNC3  FUNC4    FUNC5   FUNC6      FUNC7 ANALOG TYPE */
LPC_N(clk0,     0xc00, EMC, CLKOUT,   R,     R,  SDMMC,   EMC_ALT,  SSP1,      ENET,  0, HS);
LPC_N(clk1,     0xc04, EMC, CLKOUT,   R,     R,      R,   CGU_OUT,   R,        I2S1,  0, HS);
LPC_N(clk2,     0xc08, EMC, CLKOUT,   R,     R,  SDMMC,   EMC_ALT,I2S0_TX_MCLK,I2S1,  0, HS);
LPC_N(clk3,     0xc0c, EMC, CLKOUT,   R,     R,      R,   CGU_OUT,   R,        I2S1,  0, HS);
LPC_N(usb1_dm,  0xc80, R,      R,     R,     R,      R,      R,      R,          R,   0, USB1);
LPC_N(usb1_dp,  0xc80, R,      R,     R,     R,      R,      R,      R,          R,   0, USB1);
LPC_N(i2c0_scl, 0xc84, R,      R,     R,     R,      R,      R,      R,          R,   0, I2C0);
LPC_N(i2c0_sda, 0xc84, R,      R,     R,     R,      R,      R,      R,          R,   0, I2C0);


#define LPC18XX_PIN_P(port, pin) {                       \
        .number = 0x##port * 32 + pin,                  \
        .name = "p"#port"_"#pin,                        \
        .drv_data = &lpc18xx_pin_p##port##_##pin        \
}

/* Pin numbers for special pins */
enum {
	
PIN_CLK0 = 600,
	
PIN_CLK1,
	
PIN_CLK2,
	
PIN_CLK3,
	
PIN_USB1_DM,
	
PIN_USB1_DP,
	
PIN_I2C0_SCL,
	
PIN_I2C0_SDA,
};


#define LPC18XX_PIN(pname, n) {                               \
        .number = n,                                    \
        .name = #pname,                                 \
        .drv_data = &lpc18xx_pin_##pname                \
}


static const struct pinctrl_pin_desc lpc18xx_pins[] = {
	LPC18XX_PIN_P(0,0),
	LPC18XX_PIN_P(0,1),
	LPC18XX_PIN_P(1,0),
	LPC18XX_PIN_P(1,1),
	LPC18XX_PIN_P(1,2),
	LPC18XX_PIN_P(1,3),
	LPC18XX_PIN_P(1,4),
	LPC18XX_PIN_P(1,5),
	LPC18XX_PIN_P(1,6),
	LPC18XX_PIN_P(1,7),
	LPC18XX_PIN_P(1,8),
	LPC18XX_PIN_P(1,9),
	LPC18XX_PIN_P(1,10),
	LPC18XX_PIN_P(1,11),
	LPC18XX_PIN_P(1,12),
	LPC18XX_PIN_P(1,13),
	LPC18XX_PIN_P(1,14),
	LPC18XX_PIN_P(1,15),
	LPC18XX_PIN_P(1,16),
	LPC18XX_PIN_P(1,17),
	LPC18XX_PIN_P(1,18),
	LPC18XX_PIN_P(1,19),
	LPC18XX_PIN_P(1,20),
	LPC18XX_PIN_P(2,0),
	LPC18XX_PIN_P(2,1),
	LPC18XX_PIN_P(2,2),
	LPC18XX_PIN_P(2,3),
	LPC18XX_PIN_P(2,4),
	LPC18XX_PIN_P(2,5),
	LPC18XX_PIN_P(2,6),
	LPC18XX_PIN_P(2,7),
	LPC18XX_PIN_P(2,8),
	LPC18XX_PIN_P(2,9),
	LPC18XX_PIN_P(2,10),
	LPC18XX_PIN_P(2,11),
	LPC18XX_PIN_P(2,12),
	LPC18XX_PIN_P(2,13),
	LPC18XX_PIN_P(3,0),
	LPC18XX_PIN_P(3,1),
	LPC18XX_PIN_P(3,2),
	LPC18XX_PIN_P(3,3),
	LPC18XX_PIN_P(3,4),
	LPC18XX_PIN_P(3,5),
	LPC18XX_PIN_P(3,6),
	LPC18XX_PIN_P(3,7),
	LPC18XX_PIN_P(3,8),
	LPC18XX_PIN_P(4,0),
	LPC18XX_PIN_P(4,1),
	LPC18XX_PIN_P(4,2),
	LPC18XX_PIN_P(4,3),
	LPC18XX_PIN_P(4,4),
	LPC18XX_PIN_P(4,5),
	LPC18XX_PIN_P(4,6),
	LPC18XX_PIN_P(4,7),
	LPC18XX_PIN_P(4,8),
	LPC18XX_PIN_P(4,9),
	LPC18XX_PIN_P(4,10),
	LPC18XX_PIN_P(5,0),
	LPC18XX_PIN_P(5,1),
	LPC18XX_PIN_P(5,2),
	LPC18XX_PIN_P(5,3),
	LPC18XX_PIN_P(5,4),
	LPC18XX_PIN_P(5,5),
	LPC18XX_PIN_P(5,6),
	LPC18XX_PIN_P(5,7),
	LPC18XX_PIN_P(6,0),
	LPC18XX_PIN_P(6,1),
	LPC18XX_PIN_P(6,2),
	LPC18XX_PIN_P(6,3),
	LPC18XX_PIN_P(6,4),
	LPC18XX_PIN_P(6,5),
	LPC18XX_PIN_P(6,6),
	LPC18XX_PIN_P(6,7),
	LPC18XX_PIN_P(6,8),
	LPC18XX_PIN_P(6,9),
	LPC18XX_PIN_P(6,10),
	LPC18XX_PIN_P(6,11),
	LPC18XX_PIN_P(6,12),
	LPC18XX_PIN_P(7,0),
	LPC18XX_PIN_P(7,1),
	LPC18XX_PIN_P(7,2),
	LPC18XX_PIN_P(7,3),
	LPC18XX_PIN_P(7,4),
	LPC18XX_PIN_P(7,5),
	LPC18XX_PIN_P(7,6),
	LPC18XX_PIN_P(7,7),
	LPC18XX_PIN_P(8,0),
	LPC18XX_PIN_P(8,1),
	LPC18XX_PIN_P(8,2),
	LPC18XX_PIN_P(8,3),
	LPC18XX_PIN_P(8,4),
	LPC18XX_PIN_P(8,5),
	LPC18XX_PIN_P(8,6),
	LPC18XX_PIN_P(8,7),
	LPC18XX_PIN_P(8,8),
	LPC18XX_PIN_P(9,0),
	LPC18XX_PIN_P(9,1),
	LPC18XX_PIN_P(9,2),
	LPC18XX_PIN_P(9,3),
	LPC18XX_PIN_P(9,4),
	LPC18XX_PIN_P(9,5),
	LPC18XX_PIN_P(9,6),
	LPC18XX_PIN_P(a,0),
	LPC18XX_PIN_P(a,1),
	LPC18XX_PIN_P(a,2),
	LPC18XX_PIN_P(a,3),
	LPC18XX_PIN_P(a,4),
	LPC18XX_PIN_P(b,0),
	LPC18XX_PIN_P(b,1),
	LPC18XX_PIN_P(b,2),
	LPC18XX_PIN_P(b,3),
	LPC18XX_PIN_P(b,4),
	LPC18XX_PIN_P(b,5),
	LPC18XX_PIN_P(b,6),
	LPC18XX_PIN_P(c,0),
	LPC18XX_PIN_P(c,1),
	LPC18XX_PIN_P(c,2),
	LPC18XX_PIN_P(c,3),
	LPC18XX_PIN_P(c,4),
	LPC18XX_PIN_P(c,5),
	LPC18XX_PIN_P(c,6),
	LPC18XX_PIN_P(c,7),
	LPC18XX_PIN_P(c,8),
	LPC18XX_PIN_P(c,9),
	LPC18XX_PIN_P(c,10),
	LPC18XX_PIN_P(c,11),
	LPC18XX_PIN_P(c,12),
	LPC18XX_PIN_P(c,13),
	LPC18XX_PIN_P(c,14),
	LPC18XX_PIN_P(d,0),
	LPC18XX_PIN_P(d,1),
	LPC18XX_PIN_P(d,2),
	LPC18XX_PIN_P(d,3),
	LPC18XX_PIN_P(d,4),
	LPC18XX_PIN_P(d,5),
	LPC18XX_PIN_P(d,6),
	LPC18XX_PIN_P(d,7),
	LPC18XX_PIN_P(d,8),
	LPC18XX_PIN_P(d,9),
	LPC18XX_PIN_P(d,10),
	LPC18XX_PIN_P(d,11),
	LPC18XX_PIN_P(d,12),
	LPC18XX_PIN_P(d,13),
	LPC18XX_PIN_P(d,14),
	LPC18XX_PIN_P(d,15),
	LPC18XX_PIN_P(d,16),
	LPC18XX_PIN_P(e,0),
	LPC18XX_PIN_P(e,1),
	LPC18XX_PIN_P(e,2),
	LPC18XX_PIN_P(e,3),
	LPC18XX_PIN_P(e,4),
	LPC18XX_PIN_P(e,5),
	LPC18XX_PIN_P(e,6),
	LPC18XX_PIN_P(e,7),
	LPC18XX_PIN_P(e,8),
	LPC18XX_PIN_P(e,9),
	LPC18XX_PIN_P(e,10),
	LPC18XX_PIN_P(e,11),
	LPC18XX_PIN_P(e,12),
	LPC18XX_PIN_P(e,13),
	LPC18XX_PIN_P(e,14),
	LPC18XX_PIN_P(e,15),
	LPC18XX_PIN_P(f,0),
	LPC18XX_PIN_P(f,1),
	LPC18XX_PIN_P(f,2),
	LPC18XX_PIN_P(f,3),
	LPC18XX_PIN_P(f,4),
	LPC18XX_PIN_P(f,5),
	LPC18XX_PIN_P(f,6),
	LPC18XX_PIN_P(f,7),
	LPC18XX_PIN_P(f,8),
	LPC18XX_PIN_P(f,9),
	LPC18XX_PIN_P(f,10),
	LPC18XX_PIN_P(f,11),

	LPC18XX_PIN(clk0, PIN_CLK0),
	LPC18XX_PIN(clk1, PIN_CLK1),
	LPC18XX_PIN(clk2, PIN_CLK2),
	LPC18XX_PIN(clk3, PIN_CLK3),
	LPC18XX_PIN(usb1_dm,  PIN_USB1_DM),
	LPC18XX_PIN(usb1_dp,  PIN_USB1_DP),
	LPC18XX_PIN(i2c0_scl, PIN_I2C0_SCL),
	LPC18XX_PIN(i2c0_sda, PIN_I2C0_SDA),
};

/**
 * enum lpc18xx_pin_config_param - possible pin configuration parameters
 * @PIN_CONFIG_GPIO_PIN_INT: route gpio to the gpio pin interrupt
 *      controller.
 */

enum lpc18xx_pin_config_param {
	
PIN_CONFIG_GPIO_PIN_INT = PIN_CONFIG_END + 1,
};


static const struct pinconf_generic_params lpc18xx_params[] = {
	{"nxp,gpio-pin-interrupt", PIN_CONFIG_GPIO_PIN_INT, 0},
};

#ifdef CONFIG_DEBUG_FS

static const struct pin_config_item lpc18xx_conf_items[ARRAY_SIZE(lpc18xx_params)] = {
	PCONFDUMP(PIN_CONFIG_GPIO_PIN_INT, "gpio pin int", NULL, true),
};
#endif


static int lpc18xx_pconf_get_usb1(enum pin_config_param param, int *arg, u32 reg) { switch (param) { case PIN_CONFIG_LOW_POWER_MODE: if (reg & LPC18XX_SCU_USB1_EPWR) *arg = 0; else *arg = 1; break; case PIN_CONFIG_BIAS_DISABLE: if (reg & LPC18XX_SCU_USB1_EPD) return -EINVAL; break; case PIN_CONFIG_BIAS_PULL_DOWN: if (reg & LPC18XX_SCU_USB1_EPD) *arg = 1; else return -EINVAL; break; default: return -ENOTSUPP; } return 0; }

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static int lpc18xx_pconf_get_i2c0(enum pin_config_param param, int *arg, u32 reg, unsigned pin) { u8 shift; if (pin == PIN_I2C0_SCL) shift = LPC18XX_SCU_I2C0_SCL_SHIFT; else shift = LPC18XX_SCU_I2C0_SDA_SHIFT; switch (param) { case PIN_CONFIG_INPUT_ENABLE: if (reg & (LPC18XX_SCU_I2C0_EZI << shift)) *arg = 1; else return -EINVAL; break; case PIN_CONFIG_SLEW_RATE: if (reg & (LPC18XX_SCU_I2C0_EHD << shift)) *arg = 1; else *arg = 0; break; case PIN_CONFIG_INPUT_SCHMITT: if (reg & (LPC18XX_SCU_I2C0_EFP << shift)) *arg = 3; else *arg = 50; break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (reg & (LPC18XX_SCU_I2C0_ZIF << shift)) return -EINVAL; else *arg = 1; break; default: return -ENOTSUPP; } return 0; }

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static int lpc18xx_pin_to_gpio(struct pinctrl_dev *pctldev, unsigned pin) { struct pinctrl_gpio_range *range; range = pinctrl_find_gpio_range_from_pin_nolock(pctldev, pin); if (!range) return -EINVAL; return pin - range->pin_base + range->base; }

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static int lpc18xx_get_pintsel(void __iomem *addr, u32 val, int *arg) { u32 reg_val; int i; reg_val = readl(addr); for (i = 0; i < LPC18XX_SCU_IRQ_PER_PINTSEL; i++) { if ((reg_val & LPC18XX_SCU_PINTSEL_VAL_MASK) == val) return 0; reg_val >>= BITS_PER_BYTE; *arg += 1; } return -EINVAL; }

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static u32 lpc18xx_gpio_to_pintsel_val(int gpio) { unsigned int gpio_port, gpio_pin; gpio_port = gpio / LPC18XX_GPIO_PINS_PER_PORT; gpio_pin = gpio % LPC18XX_GPIO_PINS_PER_PORT; return gpio_pin | (gpio_port << LPC18XX_SCU_PINTSEL_PORT_SHIFT); }

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static int lpc18xx_pconf_get_gpio_pin_int(struct pinctrl_dev *pctldev, int *arg, unsigned pin) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); int gpio, ret; u32 val; gpio = lpc18xx_pin_to_gpio(pctldev, pin); if (gpio < 0) return -ENOTSUPP; val = lpc18xx_gpio_to_pintsel_val(gpio); /* * Check if this pin has been enabled as a interrupt in any of the two * PINTSEL registers. *arg indicates which interrupt number (0-7). */ *arg = 0; ret = lpc18xx_get_pintsel(scu->base + LPC18XX_SCU_PINTSEL0, val, arg); if (ret == 0) return ret; return lpc18xx_get_pintsel(scu->base + LPC18XX_SCU_PINTSEL1, val, arg); }

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static int lpc18xx_pconf_get_pin(struct pinctrl_dev *pctldev, unsigned param, int *arg, u32 reg, unsigned pin, struct lpc18xx_pin_caps *pin_cap) { switch (param) { case PIN_CONFIG_BIAS_DISABLE: if ((!(reg & LPC18XX_SCU_PIN_EPD)) && (reg & LPC18XX_SCU_PIN_EPUN)) ; else return -EINVAL; break; case PIN_CONFIG_BIAS_PULL_UP: if (reg & LPC18XX_SCU_PIN_EPUN) return -EINVAL; else *arg = 1; break; case PIN_CONFIG_BIAS_PULL_DOWN: if (reg & LPC18XX_SCU_PIN_EPD) *arg = 1; else return -EINVAL; break; case PIN_CONFIG_INPUT_ENABLE: if (reg & LPC18XX_SCU_PIN_EZI) *arg = 1; else return -EINVAL; break; case PIN_CONFIG_SLEW_RATE: if (pin_cap->type == TYPE_HD) return -ENOTSUPP; if (reg & LPC18XX_SCU_PIN_EHS) *arg = 1; else *arg = 0; break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (reg & LPC18XX_SCU_PIN_ZIF) return -EINVAL; else *arg = 1; break; case PIN_CONFIG_DRIVE_STRENGTH: if (pin_cap->type != TYPE_HD) return -ENOTSUPP; *arg = (reg & LPC18XX_SCU_PIN_EHD_MASK) >> LPC18XX_SCU_PIN_EHD_POS; switch (*arg) { case 3: *arg += 5; case 2: *arg += 5; case 1: *arg += 3; case 0: *arg += 4; } break; case PIN_CONFIG_GPIO_PIN_INT: return lpc18xx_pconf_get_gpio_pin_int(pctldev, arg, pin); default: return -ENOTSUPP; } return 0; }

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static struct lpc18xx_pin_caps *lpc18xx_get_pin_caps(unsigned pin) { int i; for (i = 0; i < ARRAY_SIZE(lpc18xx_pins); i++) { if (lpc18xx_pins[i].number == pin) return lpc18xx_pins[i].drv_data; } return NULL; }

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static int lpc18xx_pconf_get(struct pinctrl_dev *pctldev, unsigned pin, unsigned long *config) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); enum pin_config_param param = pinconf_to_config_param(*config); struct lpc18xx_pin_caps *pin_cap; int ret, arg = 0; u32 reg; pin_cap = lpc18xx_get_pin_caps(pin); if (!pin_cap) return -EINVAL; reg = readl(scu->base + pin_cap->offset); if (pin_cap->type == TYPE_I2C0) ret = lpc18xx_pconf_get_i2c0(param, &arg, reg, pin); else if (pin_cap->type == TYPE_USB1) ret = lpc18xx_pconf_get_usb1(param, &arg, reg); else ret = lpc18xx_pconf_get_pin(pctldev, param, &arg, reg, pin, pin_cap); if (ret < 0) return ret; *config = pinconf_to_config_packed(param, (u16)arg); return 0; }

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Joachim Eastwood170100.00%3100.00%
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static int lpc18xx_pconf_set_usb1(struct pinctrl_dev *pctldev, enum pin_config_param param, u32 param_val, u32 *reg) { switch (param) { case PIN_CONFIG_LOW_POWER_MODE: if (param_val) *reg &= ~LPC18XX_SCU_USB1_EPWR; else *reg |= LPC18XX_SCU_USB1_EPWR; break; case PIN_CONFIG_BIAS_DISABLE: *reg &= ~LPC18XX_SCU_USB1_EPD; break; case PIN_CONFIG_BIAS_PULL_DOWN: *reg |= LPC18XX_SCU_USB1_EPD; break; default: dev_err(pctldev->dev, "Property not supported\n"); return -ENOTSUPP; } return 0; }

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Joachim Eastwood8398.81%266.67%
Mika Westerberg11.19%133.33%
Total84100.00%3100.00%


static int lpc18xx_pconf_set_i2c0(struct pinctrl_dev *pctldev, enum pin_config_param param, u32 param_val, u32 *reg, unsigned pin) { u8 shift; if (pin == PIN_I2C0_SCL) shift = LPC18XX_SCU_I2C0_SCL_SHIFT; else shift = LPC18XX_SCU_I2C0_SDA_SHIFT; switch (param) { case PIN_CONFIG_INPUT_ENABLE: if (param_val) *reg |= (LPC18XX_SCU_I2C0_EZI << shift); else *reg &= ~(LPC18XX_SCU_I2C0_EZI << shift); break; case PIN_CONFIG_SLEW_RATE: if (param_val) *reg |= (LPC18XX_SCU_I2C0_EHD << shift); else *reg &= ~(LPC18XX_SCU_I2C0_EHD << shift); break; case PIN_CONFIG_INPUT_SCHMITT: if (param_val == 3) *reg |= (LPC18XX_SCU_I2C0_EFP << shift); else if (param_val == 50) *reg &= ~(LPC18XX_SCU_I2C0_EFP << shift); else return -ENOTSUPP; break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (param_val) *reg &= ~(LPC18XX_SCU_I2C0_ZIF << shift); else *reg |= (LPC18XX_SCU_I2C0_ZIF << shift); break; default: dev_err(pctldev->dev, "Property not supported\n"); return -ENOTSUPP; } return 0; }

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Joachim Eastwood19099.48%266.67%
Mika Westerberg10.52%133.33%
Total191100.00%3100.00%


static int lpc18xx_pconf_set_gpio_pin_int(struct pinctrl_dev *pctldev, u32 param_val, unsigned pin) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); u32 val, reg_val, reg_offset = LPC18XX_SCU_PINTSEL0; int gpio; if (param_val >= LPC18XX_GPIO_PIN_INT_MAX) return -EINVAL; gpio = lpc18xx_pin_to_gpio(pctldev, pin); if (gpio < 0) return -ENOTSUPP; val = lpc18xx_gpio_to_pintsel_val(gpio); reg_offset += (param_val / LPC18XX_SCU_IRQ_PER_PINTSEL) * sizeof(u32); reg_val = readl(scu->base + reg_offset); reg_val &= ~LPC18XX_SCU_PINTSEL_VAL(LPC18XX_SCU_PINTSEL_VAL_MASK, param_val); reg_val |= LPC18XX_SCU_PINTSEL_VAL(val, param_val); writel(reg_val, scu->base + reg_offset); return 0; }

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Joachim Eastwood13199.24%150.00%
Mika Westerberg10.76%150.00%
Total132100.00%2100.00%


static int lpc18xx_pconf_set_pin(struct pinctrl_dev *pctldev, unsigned param, u32 param_val, u32 *reg, unsigned pin, struct lpc18xx_pin_caps *pin_cap) { switch (param) { case PIN_CONFIG_BIAS_DISABLE: *reg &= ~LPC18XX_SCU_PIN_EPD; *reg |= LPC18XX_SCU_PIN_EPUN; break; case PIN_CONFIG_BIAS_PULL_UP: *reg &= ~LPC18XX_SCU_PIN_EPUN; break; case PIN_CONFIG_BIAS_PULL_DOWN: *reg |= LPC18XX_SCU_PIN_EPD; break; case PIN_CONFIG_INPUT_ENABLE: if (param_val) *reg |= LPC18XX_SCU_PIN_EZI; else *reg &= ~LPC18XX_SCU_PIN_EZI; break; case PIN_CONFIG_SLEW_RATE: if (pin_cap->type == TYPE_HD) { dev_err(pctldev->dev, "Slew rate unsupported on high-drive pins\n"); return -ENOTSUPP; } if (param_val == 0) *reg &= ~LPC18XX_SCU_PIN_EHS; else *reg |= LPC18XX_SCU_PIN_EHS; break; case PIN_CONFIG_INPUT_SCHMITT_ENABLE: if (param_val) *reg &= ~LPC18XX_SCU_PIN_ZIF; else *reg |= LPC18XX_SCU_PIN_ZIF; break; case PIN_CONFIG_DRIVE_STRENGTH: if (pin_cap->type != TYPE_HD) { dev_err(pctldev->dev, "Drive strength available only on high-drive pins\n"); return -ENOTSUPP; } *reg &= ~LPC18XX_SCU_PIN_EHD_MASK; switch (param_val) { case 20: param_val -= 5; case 14: param_val -= 5; case 8: param_val -= 3; case 4: param_val -= 4; break; default: dev_err(pctldev->dev, "Drive strength %u unsupported\n", param_val); return -ENOTSUPP; } *reg |= param_val << LPC18XX_SCU_PIN_EHD_POS; break; case PIN_CONFIG_GPIO_PIN_INT: return lpc18xx_pconf_set_gpio_pin_int(pctldev, param_val, pin); default: dev_err(pctldev->dev, "Property not supported\n"); return -ENOTSUPP; } return 0; }

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Joachim Eastwood27499.64%375.00%
Mika Westerberg10.36%125.00%
Total275100.00%4100.00%


static int lpc18xx_pconf_set(struct pinctrl_dev *pctldev, unsigned pin, unsigned long *configs, unsigned num_configs) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); struct lpc18xx_pin_caps *pin_cap; enum pin_config_param param; u32 param_val; u32 reg; int ret; int i; pin_cap = lpc18xx_get_pin_caps(pin); if (!pin_cap) return -EINVAL; reg = readl(scu->base + pin_cap->offset); for (i = 0; i < num_configs; i++) { param = pinconf_to_config_param(configs[i]); param_val = pinconf_to_config_argument(configs[i]); if (pin_cap->type == TYPE_I2C0) ret = lpc18xx_pconf_set_i2c0(pctldev, param, param_val, &reg, pin); else if (pin_cap->type == TYPE_USB1) ret = lpc18xx_pconf_set_usb1(pctldev, param, param_val, &reg); else ret = lpc18xx_pconf_set_pin(pctldev, param, param_val, &reg, pin, pin_cap); if (ret) return ret; } writel(reg, scu->base + pin_cap->offset); return 0; }

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Joachim Eastwood20599.51%375.00%
Mika Westerberg10.49%125.00%
Total206100.00%4100.00%

static const struct pinconf_ops lpc18xx_pconf_ops = { .is_generic = true, .pin_config_get = lpc18xx_pconf_get, .pin_config_set = lpc18xx_pconf_set, };
static int lpc18xx_pmx_get_funcs_count(struct pinctrl_dev *pctldev) { return ARRAY_SIZE(lpc18xx_function_names); }

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static const char *lpc18xx_pmx_get_func_name(struct pinctrl_dev *pctldev, unsigned function) { return lpc18xx_function_names[function]; }

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Joachim Eastwood22100.00%1100.00%
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static int lpc18xx_pmx_get_func_groups(struct pinctrl_dev *pctldev, unsigned function, const char *const **groups, unsigned *const num_groups) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); *groups = scu->func[function].groups; *num_groups = scu->func[function].ngroups; return 0; }

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Joachim Eastwood64100.00%2100.00%
Total64100.00%2100.00%


static int lpc18xx_pmx_set(struct pinctrl_dev *pctldev, unsigned function, unsigned group) { struct lpc18xx_scu_data *scu = pinctrl_dev_get_drvdata(pctldev); struct lpc18xx_pin_caps *pin = lpc18xx_pins[group].drv_data; int func; u32 reg; /* Dedicated USB1 and I2C0 pins doesn't support muxing */ if (pin->type == TYPE_USB1) { if (function == FUNC_USB1) return 0; goto fail; } if (pin->type == TYPE_I2C0) { if (function == FUNC_I2C0) return 0; goto fail; } if (function == FUNC_ADC && (pin->analog & LPC18XX_ANALOG_PIN)) { u32 offset; writel(LPC18XX_SCU_ANALOG_PIN_CFG, scu->base + pin->offset); if (LPC18XX_ANALOG_ADC(pin->analog) == 0) offset = LPC18XX_SCU_REG_ENAIO0; else offset = LPC18XX_SCU_REG_ENAIO1; reg = readl(scu->base + offset); reg |= pin->analog & LPC18XX_ANALOG_BIT_MASK; writel(reg, scu->base + offset); return 0; } if (function == FUNC_DAC && (pin->analog & LPC18XX_ANALOG_PIN)) { writel(LPC18XX_SCU_ANALOG_PIN_CFG, scu->base + pin->offset); reg = readl(scu->base + LPC18XX_SCU_REG_ENAIO2); reg |= LPC18XX_SCU_REG_ENAIO2_DAC; writel(reg, scu->base + LPC18XX_SCU_REG_ENAIO2); return 0; } for (func = 0; func < LPC18XX_SCU_FUNC_PER_PIN; func++) { if (function == pin->functions[func]) break; } if (func >= LPC18XX_SCU_FUNC_PER_PIN) goto fail; reg = readl(scu->base + pin->offset); reg &= ~LPC18XX_SCU_PIN_MODE_MASK; writel(reg | func, scu->base + pin->offset); return 0; fail: dev_err(pctldev->dev, "Pin %s can't be %s\n", lpc18xx_pins[group].name, lpc18xx_function_names[function]); return -EINVAL; }

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Joachim Eastwood332100.00%1100.00%
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static const struct pinmux_ops lpc18xx_pmx_ops = { .get_functions_count = lpc18xx_pmx_get_funcs_count, .get_function_name = lpc18xx_pmx_get_func_name, .get_function_groups = lpc18xx_pmx_get_func_groups, .set_mux = lpc18xx_pmx_set, };
static int lpc18xx_pctl_get_groups_count(struct pinctrl_dev *pctldev) { return ARRAY_SIZE(lpc18xx_pins); }

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Joachim Eastwood17100.00%1100.00%
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static const char *lpc18xx_pctl_get_group_name(struct pinctrl_dev *pctldev, unsigned group) { return lpc18xx_pins[group].name; }

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Joachim Eastwood24100.00%1100.00%
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static int lpc18xx_pctl_get_group_pins(struct pinctrl_dev *pctldev, unsigned group, const unsigned **pins, unsigned *num_pins) { *pins = &lpc18xx_pins[group].number; *num_pins = 1; return 0; }

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Joachim Eastwood43100.00%1100.00%
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static const struct pinctrl_ops lpc18xx_pctl_ops = { .get_groups_count = lpc18xx_pctl_get_groups_count, .get_group_name = lpc18xx_pctl_get_group_name, .get_group_pins = lpc18xx_pctl_get_group_pins, .dt_node_to_map = pinconf_generic_dt_node_to_map_pin, .dt_free_map = pinctrl_utils_free_map, }; static struct pinctrl_desc lpc18xx_scu_desc = { .name = "lpc18xx/43xx-scu", .pins = lpc18xx_pins, .npins = ARRAY_SIZE(lpc18xx_pins), .pctlops = &lpc18xx_pctl_ops, .pmxops = &lpc18xx_pmx_ops, .confops = &lpc18xx_pconf_ops, .num_custom_params = ARRAY_SIZE(lpc18xx_params), .custom_params = lpc18xx_params, #ifdef CONFIG_DEBUG_FS .custom_conf_items = lpc18xx_conf_items, #endif .owner = THIS_MODULE, };
static bool lpc18xx_valid_pin_function(unsigned pin, unsigned function) { struct lpc18xx_pin_caps *p = lpc18xx_pins[pin].drv_data; int i; if (function == FUNC_DAC && p->analog == DAC) return true; if (function == FUNC_ADC && p->analog) return true; if (function == FUNC_I2C0 && p->type == TYPE_I2C0) return true; if (function == FUNC_USB1 && p->type == TYPE_USB1) return true; for (i = 0; i < LPC18XX_SCU_FUNC_PER_PIN; i++) { if (function == p->functions[i]) return true; } return false; }

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Joachim Eastwood117100.00%1100.00%
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static int lpc18xx_create_group_func_map(struct device *dev, struct lpc18xx_scu_data *scu) { u16 pins[ARRAY_SIZE(lpc18xx_pins)]; int func, ngroups, i; for (func = 0; func < FUNC_MAX; func++) { for (ngroups = 0, i = 0; i < ARRAY_SIZE(lpc18xx_pins); i++) { if (lpc18xx_valid_pin_function(i, func)) pins[ngroups++] = i; } scu->func[func].ngroups = ngroups; scu->func[func].groups = devm_kzalloc(dev, ngroups * sizeof(char *), GFP_KERNEL); if (!scu->func[func].groups) return -ENOMEM; for (i = 0; i < ngroups; i++) scu->func[func].groups[i] = lpc18xx_pins[pins[i]].name; } return 0; }

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Joachim Eastwood17197.71%150.00%
Colin Ian King42.29%150.00%
Total175100.00%2100.00%


static int lpc18xx_scu_probe(struct platform_device *pdev) { struct lpc18xx_scu_data *scu; struct resource *res; int ret; scu = devm_kzalloc(&pdev->dev, sizeof(*scu), GFP_KERNEL); if (!scu) return -ENOMEM; res = platform_get_resource(pdev, IORESOURCE_MEM, 0); scu->base = devm_ioremap_resource(&pdev->dev, res); if (IS_ERR(scu->base)) return PTR_ERR(scu->base); scu->clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(scu->clk)) { dev_err(&pdev->dev, "Input clock not found.\n"); return PTR_ERR(scu->clk); } ret = lpc18xx_create_group_func_map(&pdev->dev, scu); if (ret) { dev_err(&pdev->dev, "Unable to create group func map.\n"); return ret; } ret = clk_prepare_enable(scu->clk); if (ret) { dev_err(&pdev->dev, "Unable to enable clock.\n"); return ret; } platform_set_drvdata(pdev, scu); scu->pctl = devm_pinctrl_register(&pdev->dev, &lpc18xx_scu_desc, scu); if (IS_ERR(scu->pctl)) { dev_err(&pdev->dev, "Could not register pinctrl driver\n"); clk_disable_unprepare(scu->clk); return PTR_ERR(scu->pctl); } return 0; }

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Joachim Eastwood24594.96%250.00%
Masahiro Yamada93.49%125.00%
Laxman Dewangan41.55%125.00%
Total258100.00%4100.00%

static const struct of_device_id lpc18xx_scu_match[] = { { .compatible = "nxp,lpc1850-scu" }, {}, }; static struct platform_driver lpc18xx_scu_driver = { .probe = lpc18xx_scu_probe, .driver = { .name = "lpc18xx-scu", .of_match_table = lpc18xx_scu_match, .suppress_bind_attrs = true, }, }; builtin_platform_driver(lpc18xx_scu_driver);

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Joachim Eastwood1020099.71%650.00%
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Paul Gortmaker70.07%18.33%
Mika Westerberg50.05%18.33%
Colin Ian King40.04%18.33%
Laxman Dewangan40.04%18.33%
Irina Tirdea10.01%18.33%
Total10230100.00%12100.00%
Directory: drivers/pinctrl
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