drivers/nfc/nfc-nci.h - kernel/msm - Git at Google

 /* Copyright (c) 2013-2014, The Linux Foundation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  */

 #ifndef __NFC_NCI_H
 #define __NFC_NCI_H

 #include <linux/i2c.h>
 #include <linux/types.h>
 #include <linux/version.h>

 #include <linux/semaphore.h>
 #include <linux/completion.h>

 #include <linux/ioctl.h>
 #include <linux/cdev.h>
 #include <linux/miscdevice.h>

 struct nfc_device {
 	struct cdev cdev;
 	struct class *char_class;
 };

 enum ehandler_mode {
 	UNSOLICITED_MODE = 0,
 	SOLICITED_MODE,
 	UNSOLICITED_FTM_RAW_MODE,
 	SOLICITED_FTM_RAW_MODE
 };

 enum ekernel_logging_mode {
 	LEVEL_0 = 0,	/* For Basic Comms, such asNCI TX/TX to NFCC */
 	LEVEL_1,	/* Other Debug e.g. Notifications, ISR hit, etc ..*/
 	LEVEL_2,
 	LEVEL_3,
 	LEVEL_4,
 	LEVEL_5
 };

 struct devicemode {
 	enum ehandler_mode	handle_flavour;
 } tdevicemode;

 #define NFC_DRIVER_NAME		"nfc-nci"
 #define NFC_I2C_DRIVER_NAME		"NCI NFC I2C Interface",

 #define NCI_I2C_SLAVE	(0x2C)
 #define NFC_I2C_BUS	3	/* 6, 10, 4, 5 */
 #define NFC_SET_PWR	_IOW(0xE9, 0x01, unsigned int)
 #define NFCC_MODE	_IOW(0xE9, 0x02, unsigned int)
 #define NFC_KERNEL_LOGGING_MODE		_IOW(0xE9, 0x03, unsigned int)
 #define SET_RX_BLOCK	_IOW(0xE9, 0x04, unsigned int)
 #define SET_EMULATOR_TEST_POINT		_IOW(0xE9, 0x05, unsigned int)
 #define NFCC_VERSION				_IOW(0xE9, 0x08, unsigned int)
 #define NFC_GET_EFUSE				_IOW(0xE9, 0x09, unsigned int)
 #define NFCC_INITIAL_CORE_RESET_NTF		_IOW(0xE9, 0x10, unsigned int)

 #define NFC_MAX_I2C_TRANSFER	(0x0400)
 #define NFC_MSG_MAX_SIZE	(0x21)

 #define NFC_RX_BUFFER_CNT_START		(0x0)

 #define NFC_RX_BUFFER_BLOCK_SIZE	(0x120)	/* Bytes per Block */
 #define NFC_RX_BUFFER_PAGE_SIZE		(0x1000)	/* Page size Bytes */
 #define NFC_RX_BUFFER_PAGES		(0x8)
 #define NFC_RX_ORDER_FREE_PAGES	(0x3)	/* Free 8 Pages */

 /* The total no. of Blocks */
 #define NFC_RX_BUFFER_CNT_LIMIT		(unsigned short)(	\
 						(		\
 						((NFC_RX_BUFFER_PAGE_SIZE) *\
 						(NFC_RX_BUFFER_PAGES))/\
 						(NFC_RX_BUFFER_BLOCK_SIZE)\
 						)		\
 						)		\

 #define PAYLOAD_HEADER_LENGTH		(0x3)
 #define PAYLOAD_LENGTH_MAX		(256)
 #define BYTE				(0x8)
 #define NCI_IDENTIFIER			(0x10)

 /** Power Management Related **/

 #define NFCC_WAKE				(0x01)
 #define NFCC_SLEEP				(0x00)

 #define XTAL_CLOCK				(0X00)
 #define REFERENCE_CLOCK			(0X01)

 /* LDO Trim Settings */
 #define IPTAT_TRIM			(0x1F)
 #define V1P1_TRIM			(0x0F)
 #define V1P8_TRIM			(0x0F)
 #define VBATT_OK_THRESHOLD		(0x07)

 #define PWR_EN		(0x08)		/* Enable 1.1V LDO Regulator */
 #define LS_EN		(0x04)		/* Enable 1.1V->1.8V Level Shifters */

 /* Write '1' to cause wake event to NFCC. If set NFCC will not go to SLEEP */
 #define NCI_WAKE	(0x02)

 #define NCI_ENA		(0x01)		/* Write '1' to enable PLL */
 #define FREQ_SEL	(0x00)		/* XO Frequency Select */
 #define FREQ_SEL_13	(0x00)		/* XO Frequency Select = 13.56MHz */
 #define FREQ_SEL_19	(0x01)		/* XO Frequency Select = 19.20 MHz */
 #define FREQ_SEL_26	(0x02)		/* XO Frequency Select = 26.00 MHz */
 #define FREQ_SEL_27	(0x03)		/* XO Frequency Select = 27.12 MHz */
 #define FREQ_SEL_37	(0x04)		/* XO Frequency Select = 37.40 MHz */
 #define FREQ_SEL_38	(0x05)		/* XO Frequency Select = 38.40 MHz */
 #define FREQ_SEL_40	(0x06)		/* XO Frequency Select = 40.00 MHz */
 #define FREQ_SEL_48	(0x07)		/* XO Frequency Select = 48.00 MHz */
 #define FREQ_SEL_27	(0x03)		/* XO Frequency Select */


 #define QUALIFY_REFCLK	(0x80)
 #define QUALIFY_OSC	(0x40)
 #define LOCALBIASXTAL	(0x20)
 #define BIAS2X_FORCE	(0x10)
 #define BIAS2X		(0x08)
 #define LBIAS2X	(0x04)
 #define SMALLRF	(0x02)
 #define SMALLRBIAS	(0x01)

 /* Select as appropriate */
 #define CRYSTAL_OSC	((QUALIFY_REFCLK) | (QUALIFY_OSC) |	\
 			(LOCALBIASXTAL) | (BIAS2X_FORCE) |	\
 			(BIAS2X) | (LBIAS2X) | (SMALLRF) | (SMALLRBIAS))

 #define CDACIN		(0x3F)	/* Tuning range for load capacitor at X1*/
 #define CDACOUT		(0x3F)	/* Tuning range for load capacitor at X2*/

 #define RAW(reg, value)		(raw_##reg[1] = value)

 /* Logging macro with threshold control */
 #define PRINTK(LEVEL, THRESHOLD, pString, ...)		(	\
 		if (LEVEL > THRESHOLD) {			\
 			pr_info(pString, ##__VA_ARGS__);		\
 		}						\
 							)

 /* board config */
 struct nfc_platform_data {
 	int (*request_resources) (struct i2c_client *client);
 	void (*free_resources) (void);
 	void (*enable) (int fw);
 	int (*test) (void);
 	void (*disable) (void);
 };
 /*
  * Internal NFCC Hardware states. At present these may not be possible to
  * detect in software as possibly no power when
  * in monitor state! Also, need to detect DISABLE control GPIO from PMIC.
  */
 enum nfcc_hardware_state {
 	NFCC_STATE_MONITOR,	/* VBAT < h/w Critcal Voltage */
 	/* VBAT > H/W Critical Voltage;
 	Lowest Power Mode - DISABLE = 1; only
 	possible when phone is ON */
 	NFCC_STATE_HPD,
 	/* VBAT > H/W Critical Voltage; DISABLE = 0;
 	Only possible when phone is ON */
 	NFCC_STSTE_ULPM,
 	/* VBAT > H/W Critical Voltage; DISABLE = 0;
 	Powered by PMIC & VBAT; 1.8V I/O supply on; VDDPX available, boot is
 	initiated by host over I2C */
 	NFCC_STATE_NORMAL_REGION1,
 	/* VBAT > H/W Critical Voltage; DISABLE = 0;
 	Powered by VBAT; 1.8V I/O supply on; VDDPX available, boot is initiated
 	by host over I2C */
 	NFCC_STATE_NORMAL_REGION2,
 };

 /* We assume here that VBATT > h/w Critical Voltage */
 enum nfcc_state {
 	/* Assume In ULPM state, ready for initialisation, cannot detect for
 	Monitor or HPD states */
 	NFCC_STATE_COLD,
 	/* (VDDPX==1) && (Following I2C initialisation). In Region 1 or Region2
 	state WAKE */
 	NFCC_STATE_NORMAL_WAKE,
 	/* (VDDPX==1) && (Following I2C initialisation). In Region 1 or Region2
 	state SLEEP */
 	NFCC_STATE_NORMAL_SLEEP,
 };


 enum nfcc_irq {
 	NFCC_NO_INT,
 	NFCC_INT,
 };

 enum nfcc_initial_core_reset_ntf {
 	TIMEDOUT_INITIAL_CORE_RESET_NTF = 0, /* 0*/
 	ARRIVED_INITIAL_CORE_RESET_NTF, /* 1 */
 	DEFAULT_INITIAL_CORE_RESET_NTF, /*2*/
 };

 struct nfc_info {
 	struct	miscdevice			miscdev;
 	struct	i2c_client			*i2c_dev;
 	struct	regulator_bulk_data		regs[3];
 	enum	nfcc_state			state;
 	wait_queue_head_t			read_wait;
 	loff_t					read_offset;
 	struct	mutex				read_mutex;
 	struct	mutex				mutex;
 	u8					*buf;
 	size_t					buflen;
 	spinlock_t				irq_enabled_lock;
 	unsigned int				count_irq;
 	enum	nfcc_irq			read_irq;
 };


 struct nfc_i2c_platform_data {
 	unsigned int	nfc_irq_gpio;
 	unsigned int	nfc_clk_en_gpio;
 	unsigned int	dis_gpio;
 	unsigned int	irq_gpio;
 	unsigned int	ven_gpio;
 	unsigned int	firm_gpio;
 	unsigned int	reg;
 };
 #endif
	/* Copyright (c) 2013-2014, The Linux Foundation. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*/

	#ifndef __NFC_NCI_H
	#define __NFC_NCI_H

	#include <linux/i2c.h>
	#include <linux/types.h>
	#include <linux/version.h>

	#include <linux/semaphore.h>
	#include <linux/completion.h>

	#include <linux/ioctl.h>
	#include <linux/cdev.h>
	#include <linux/miscdevice.h>

	struct nfc_device {
	struct cdev cdev;
	struct class *char_class;
	};

	enum ehandler_mode {
	UNSOLICITED_MODE = 0,
	SOLICITED_MODE,
	UNSOLICITED_FTM_RAW_MODE,
	SOLICITED_FTM_RAW_MODE
	};

	enum ekernel_logging_mode {
	LEVEL_0 = 0, /* For Basic Comms, such asNCI TX/TX to NFCC */
	LEVEL_1, /* Other Debug e.g. Notifications, ISR hit, etc ..*/
	LEVEL_2,
	LEVEL_3,
	LEVEL_4,
	LEVEL_5
	};

	struct devicemode {
	enum ehandler_mode handle_flavour;
	} tdevicemode;

	#define NFC_DRIVER_NAME "nfc-nci"
	#define NFC_I2C_DRIVER_NAME "NCI NFC I2C Interface",

	#define NCI_I2C_SLAVE (0x2C)
	#define NFC_I2C_BUS 3 /* 6, 10, 4, 5 */
	#define NFC_SET_PWR _IOW(0xE9, 0x01, unsigned int)
	#define NFCC_MODE _IOW(0xE9, 0x02, unsigned int)
	#define NFC_KERNEL_LOGGING_MODE _IOW(0xE9, 0x03, unsigned int)
	#define SET_RX_BLOCK _IOW(0xE9, 0x04, unsigned int)
	#define SET_EMULATOR_TEST_POINT _IOW(0xE9, 0x05, unsigned int)
	#define NFCC_VERSION _IOW(0xE9, 0x08, unsigned int)
	#define NFC_GET_EFUSE _IOW(0xE9, 0x09, unsigned int)
	#define NFCC_INITIAL_CORE_RESET_NTF _IOW(0xE9, 0x10, unsigned int)

	#define NFC_MAX_I2C_TRANSFER (0x0400)
	#define NFC_MSG_MAX_SIZE (0x21)

	#define NFC_RX_BUFFER_CNT_START (0x0)

	#define NFC_RX_BUFFER_BLOCK_SIZE (0x120) /* Bytes per Block */
	#define NFC_RX_BUFFER_PAGE_SIZE (0x1000) /* Page size Bytes */
	#define NFC_RX_BUFFER_PAGES (0x8)
	#define NFC_RX_ORDER_FREE_PAGES (0x3) /* Free 8 Pages */

	/* The total no. of Blocks */
	#define NFC_RX_BUFFER_CNT_LIMIT (unsigned short)( \
	( \
	((NFC_RX_BUFFER_PAGE_SIZE) *\
	(NFC_RX_BUFFER_PAGES))/\
	(NFC_RX_BUFFER_BLOCK_SIZE)\
	) \
	) \

	#define PAYLOAD_HEADER_LENGTH (0x3)
	#define PAYLOAD_LENGTH_MAX (256)
	#define BYTE (0x8)
	#define NCI_IDENTIFIER (0x10)

	/ Power Management Related /

	#define NFCC_WAKE (0x01)
	#define NFCC_SLEEP (0x00)

	#define XTAL_CLOCK (0X00)
	#define REFERENCE_CLOCK (0X01)

	/* LDO Trim Settings */
	#define IPTAT_TRIM (0x1F)
	#define V1P1_TRIM (0x0F)
	#define V1P8_TRIM (0x0F)
	#define VBATT_OK_THRESHOLD (0x07)

	#define PWR_EN (0x08) /* Enable 1.1V LDO Regulator */
	#define LS_EN (0x04) /* Enable 1.1V->1.8V Level Shifters */

	/* Write '1' to cause wake event to NFCC. If set NFCC will not go to SLEEP */
	#define NCI_WAKE (0x02)

	#define NCI_ENA (0x01) /* Write '1' to enable PLL */
	#define FREQ_SEL (0x00) /* XO Frequency Select */
	#define FREQ_SEL_13 (0x00) /* XO Frequency Select = 13.56MHz */
	#define FREQ_SEL_19 (0x01) /* XO Frequency Select = 19.20 MHz */
	#define FREQ_SEL_26 (0x02) /* XO Frequency Select = 26.00 MHz */
	#define FREQ_SEL_27 (0x03) /* XO Frequency Select = 27.12 MHz */
	#define FREQ_SEL_37 (0x04) /* XO Frequency Select = 37.40 MHz */
	#define FREQ_SEL_38 (0x05) /* XO Frequency Select = 38.40 MHz */
	#define FREQ_SEL_40 (0x06) /* XO Frequency Select = 40.00 MHz */
	#define FREQ_SEL_48 (0x07) /* XO Frequency Select = 48.00 MHz */
	#define FREQ_SEL_27 (0x03) /* XO Frequency Select */


	#define QUALIFY_REFCLK (0x80)
	#define QUALIFY_OSC (0x40)
	#define LOCALBIASXTAL (0x20)
	#define BIAS2X_FORCE (0x10)
	#define BIAS2X (0x08)
	#define LBIAS2X (0x04)
	#define SMALLRF (0x02)
	#define SMALLRBIAS (0x01)

	/* Select as appropriate */
	#define CRYSTAL_OSC ((QUALIFY_REFCLK) \| (QUALIFY_OSC) \| \
	(LOCALBIASXTAL) \| (BIAS2X_FORCE) \| \
	(BIAS2X) \| (LBIAS2X) \| (SMALLRF) \| (SMALLRBIAS))

	#define CDACIN (0x3F) /* Tuning range for load capacitor at X1*/
	#define CDACOUT (0x3F) /* Tuning range for load capacitor at X2*/

	#define RAW(reg, value) (raw_##reg[1] = value)

	/* Logging macro with threshold control */
	#define PRINTK(LEVEL, THRESHOLD, pString, ...) ( \
	if (LEVEL > THRESHOLD) { \
	pr_info(pString, ##__VA_ARGS__); \
	} \
	)

	/* board config */
	struct nfc_platform_data {
	int (request_resources) (struct i2c_client client);
	void (*free_resources) (void);
	void (*enable) (int fw);
	int (*test) (void);
	void (*disable) (void);
	};
	/*
	* Internal NFCC Hardware states. At present these may not be possible to
	* detect in software as possibly no power when
	* in monitor state! Also, need to detect DISABLE control GPIO from PMIC.
	*/
	enum nfcc_hardware_state {
	NFCC_STATE_MONITOR, /* VBAT < h/w Critcal Voltage */
	/* VBAT > H/W Critical Voltage;
	Lowest Power Mode - DISABLE = 1; only
	possible when phone is ON */
	NFCC_STATE_HPD,
	/* VBAT > H/W Critical Voltage; DISABLE = 0;
	Only possible when phone is ON */
	NFCC_STSTE_ULPM,
	/* VBAT > H/W Critical Voltage; DISABLE = 0;
	Powered by PMIC & VBAT; 1.8V I/O supply on; VDDPX available, boot is
	initiated by host over I2C */
	NFCC_STATE_NORMAL_REGION1,
	/* VBAT > H/W Critical Voltage; DISABLE = 0;
	Powered by VBAT; 1.8V I/O supply on; VDDPX available, boot is initiated
	by host over I2C */
	NFCC_STATE_NORMAL_REGION2,
	};

	/* We assume here that VBATT > h/w Critical Voltage */
	enum nfcc_state {
	/* Assume In ULPM state, ready for initialisation, cannot detect for
	Monitor or HPD states */
	NFCC_STATE_COLD,
	/* (VDDPX==1) && (Following I2C initialisation). In Region 1 or Region2
	state WAKE */
	NFCC_STATE_NORMAL_WAKE,
	/* (VDDPX==1) && (Following I2C initialisation). In Region 1 or Region2
	state SLEEP */
	NFCC_STATE_NORMAL_SLEEP,
	};


	enum nfcc_irq {
	NFCC_NO_INT,
	NFCC_INT,
	};

	enum nfcc_initial_core_reset_ntf {
	TIMEDOUT_INITIAL_CORE_RESET_NTF = 0, /* 0*/
	ARRIVED_INITIAL_CORE_RESET_NTF, /* 1 */
	DEFAULT_INITIAL_CORE_RESET_NTF, /2/
	};

	struct nfc_info {
	struct miscdevice miscdev;
	struct i2c_client *i2c_dev;
	struct regulator_bulk_data regs[3];
	enum nfcc_state state;
	wait_queue_head_t read_wait;
	loff_t read_offset;
	struct mutex read_mutex;
	struct mutex mutex;
	u8 *buf;
	size_t buflen;
	spinlock_t irq_enabled_lock;
	unsigned int count_irq;
	enum nfcc_irq read_irq;
	};


	struct nfc_i2c_platform_data {
	unsigned int nfc_irq_gpio;
	unsigned int nfc_clk_en_gpio;
	unsigned int dis_gpio;
	unsigned int irq_gpio;
	unsigned int ven_gpio;
	unsigned int firm_gpio;
	unsigned int reg;
	};
	#endif