include_all/hardware/nfc.h - LeafOS-Project/android_hardware_libhardware - Gitiles

 /*
  * Copyright (C) 2011, 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ANDROID_NFC_HAL_INTERFACE_H
 #define ANDROID_NFC_HAL_INTERFACE_H

 #include <stdint.h>
 #include <strings.h>
 #include <sys/cdefs.h>
 #include <sys/types.h>

 #include <hardware/hardware.h>
 #include "nfc-base.h"

 __BEGIN_DECLS


 /* NFC device HAL for NCI-based NFC controllers.
  *
  * This HAL allows NCI silicon vendors to make use
  * of the core NCI stack in Android for their own silicon.
  *
  * The responibilities of the NCI HAL implementation
  * are as follows:
  *
  * - Implement the transport to the NFC controller
  * - Implement each of the HAL methods specified below as applicable to their silicon
  * - Pass up received NCI messages from the controller to the stack
  *
  * A simplified timeline of NCI HAL method calls:
  * 1) Core NCI stack calls open()
  * 2) Core NCI stack executes CORE_RESET and CORE_INIT through calls to write()
  * 3) Core NCI stack calls core_initialized() to allow HAL to do post-init configuration
  * 4) Core NCI stack calls pre_discover() to allow HAL to prepare for RF discovery
  * 5) Core NCI stack starts discovery through calls to write()
  * 6) Core NCI stack stops discovery through calls to write() (e.g. screen turns off)
  * 7) Core NCI stack calls pre_discover() to prepare for RF discovery (e.g. screen turned back on)
  * 8) Core NCI stack starts discovery through calls to write()
  * ...
  * ...
  * 9) Core NCI stack calls close()
  */
 #define NFC_NCI_HARDWARE_MODULE_ID "nfc_nci"
 #define NFC_NCI_BCM2079X_HARDWARE_MODULE_ID "nfc_nci.bcm2079x"
 #define NFC_NCI_CONTROLLER "nci"

 /*
  *  nfc_nci_module_t should contain module-specific parameters
  */
 typedef struct nfc_nci_module_t {
     /**
      * Common methods of the NFC NCI module.  This *must* be the first member of
      * nfc_nci_module_t as users of this structure will cast a hw_module_t to
      * nfc_nci_module_t pointer in contexts where it's known the hw_module_t references a
      * nfc_nci_module_t.
      */
     struct hw_module_t common;
 } nfc_nci_module_t;

 typedef uint8_t nfc_event_t;
 typedef uint8_t nfc_status_t;

 /*
  * The callback passed in from the NFC stack that the HAL
  * can use to pass events back to the stack.
  */
 typedef void (nfc_stack_callback_t) (nfc_event_t event, nfc_status_t event_status);

 /*
  * The callback passed in from the NFC stack that the HAL
  * can use to pass incomming data to the stack.
  */
 typedef void (nfc_stack_data_callback_t) (uint16_t data_len, uint8_t* p_data);

 /* nfc_nci_device_t starts with a hw_device_t struct,
  * followed by device-specific methods and members.
  *
  * All methods in the NCI HAL are asynchronous.
  */
 typedef struct nfc_nci_device {
     /**
      * Common methods of the NFC NCI device.  This *must* be the first member of
      * nfc_nci_device_t as users of this structure will cast a hw_device_t to
      * nfc_nci_device_t pointer in contexts where it's known the hw_device_t references a
      * nfc_nci_device_t.
      */
     struct hw_device_t common;
     /*
      * (*open)() Opens the NFC controller device and performs initialization.
      * This may include patch download and other vendor-specific initialization.
      *
      * If open completes successfully, the controller should be ready to perform
      * NCI initialization - ie accept CORE_RESET and subsequent commands through
      * the write() call.
      *
      * If open() returns 0, the NCI stack will wait for a HAL_NFC_OPEN_CPLT_EVT
      * before continuing.
      *
      * If open() returns any other value, the NCI stack will stop.
      *
      */
     int (*open)(const struct nfc_nci_device *p_dev, nfc_stack_callback_t *p_cback,
             nfc_stack_data_callback_t *p_data_cback);

     /*
      * (*write)() Performs an NCI write.
      *
      * This method may queue writes and return immediately. The only
      * requirement is that the writes are executed in order.
      */
     int (*write)(const struct nfc_nci_device *p_dev, uint16_t data_len, const uint8_t *p_data);

     /*
      * (*core_initialized)() is called after the CORE_INIT_RSP is received from the NFCC.
      * At this time, the HAL can do any chip-specific configuration.
      *
      * If core_initialized() returns 0, the NCI stack will wait for a HAL_NFC_POST_INIT_CPLT_EVT
      * before continuing.
      *
      * If core_initialized() returns any other value, the NCI stack will continue
      * immediately.
      */
     int (*core_initialized)(const struct nfc_nci_device *p_dev, uint8_t* p_core_init_rsp_params);

     /*
      * (*pre_discover)() Is called every time before starting RF discovery.
      * It is a good place to do vendor-specific configuration that must be
      * performed every time RF discovery is about to be started.
      *
      * If pre_discover() returns 0, the NCI stack will wait for a HAL_NFC_PRE_DISCOVER_CPLT_EVT
      * before continuing.
      *
      * If pre_discover() returns any other value, the NCI stack will start
      * RF discovery immediately.
      */
     int (*pre_discover)(const struct nfc_nci_device *p_dev);

     /*
      * (*close)() Closed the NFC controller. Should free all resources.
      */
     int (*close)(const struct nfc_nci_device *p_dev);

     /*
      * (*control_granted)() Grant HAL the exclusive control to send NCI commands.
      * Called in response to HAL_REQUEST_CONTROL_EVT.
      * Must only be called when there are no NCI commands pending.
      * HAL_RELEASE_CONTROL_EVT will notify when HAL no longer needs exclusive control.
      */
     int (*control_granted)(const struct nfc_nci_device *p_dev);

     /*
      * (*power_cycle)() Restart controller by power cyle;
      * HAL_OPEN_CPLT_EVT will notify when operation is complete.
      */
     int (*power_cycle)(const struct nfc_nci_device *p_dev);
 } nfc_nci_device_t;

 /*
  * Convenience methods that the NFC stack can use to open
  * and close an NCI device
  */
 static inline int nfc_nci_open(const struct hw_module_t* module,
         nfc_nci_device_t** dev) {
     return module->methods->open(module, NFC_NCI_CONTROLLER,
         (struct hw_device_t**) dev);
 }

 static inline int nfc_nci_close(nfc_nci_device_t* dev) {
     return dev->common.close(&dev->common);
 }
 /*
  * End NFC NCI HAL
  */

 /*
  * This is a limited NFC HAL for NXP PN544-based devices.
  * This HAL as Android is moving to
  * an NCI-based NFC stack.
  *
  * All NCI-based NFC controllers should use the NFC-NCI
  * HAL instead.
  * Begin PN544 specific HAL
  */
 #define NFC_HARDWARE_MODULE_ID "nfc"

 #define NFC_PN544_CONTROLLER "pn544"

 typedef struct nfc_module_t {
     /**
      * Common methods of the NFC NXP PN544 module.  This *must* be the first member of
      * nfc_module_t as users of this structure will cast a hw_module_t to
      * nfc_module_t pointer in contexts where it's known the hw_module_t references a
      * nfc_module_t.
      */
     struct hw_module_t common;
 } nfc_module_t;

 /*
  * PN544 linktypes.
  * UART
  * I2C
  * USB (uses UART DAL)
  */
 typedef enum {
     PN544_LINK_TYPE_UART,
     PN544_LINK_TYPE_I2C,
     PN544_LINK_TYPE_USB,
     PN544_LINK_TYPE_INVALID,
 } nfc_pn544_linktype;

 typedef struct {
     /**
      * Common methods of the NFC NXP PN544 device.  This *must* be the first member of
      * nfc_pn544_device_t as users of this structure will cast a hw_device_t to
      * nfc_pn544_device_t pointer in contexts where it's known the hw_device_t references a
      * nfc_pn544_device_t.
      */
     struct hw_device_t common;

     /* The number of EEPROM registers to write */
     uint32_t num_eeprom_settings;

     /* The actual EEPROM settings
      * For PN544, each EEPROM setting is a 4-byte entry,
      * of the format [0x00, addr_msb, addr_lsb, value].
      */
     uint8_t* eeprom_settings;

     /* The link type to which the PN544 is connected */
     nfc_pn544_linktype linktype;

     /* The device node to which the PN544 is connected */
     const char* device_node;

     /* On Crespo we had an I2C issue that would cause us to sometimes read
      * the I2C slave address (0x57) over the bus. libnfc contains
      * a hack to ignore this byte and try to read the length byte
      * again.
      * Set to 0 to disable the workaround, 1 to enable it.
      */
     uint8_t enable_i2c_workaround;
     /* I2C slave address. Multiple I2C addresses are
      * possible for PN544 module. Configure address according to
      * board design.
      */
     uint8_t i2c_device_address;
 } nfc_pn544_device_t;

 static inline int nfc_pn544_open(const struct hw_module_t* module,
         nfc_pn544_device_t** dev) {
     return module->methods->open(module, NFC_PN544_CONTROLLER,
         (struct hw_device_t**) dev);
 }

 static inline int nfc_pn544_close(nfc_pn544_device_t* dev) {
     return dev->common.close(&dev->common);
 }
 /*
  * End PN544 specific HAL
  */

 __END_DECLS

 #endif // ANDROID_NFC_HAL_INTERFACE_H
	/*
	* Copyright (C) 2011, 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ANDROID_NFC_HAL_INTERFACE_H
	#define ANDROID_NFC_HAL_INTERFACE_H

	#include <stdint.h>
	#include <strings.h>
	#include <sys/cdefs.h>
	#include <sys/types.h>

	#include <hardware/hardware.h>
	#include "nfc-base.h"

	__BEGIN_DECLS


	/* NFC device HAL for NCI-based NFC controllers.
	*
	* This HAL allows NCI silicon vendors to make use
	* of the core NCI stack in Android for their own silicon.
	*
	* The responibilities of the NCI HAL implementation
	* are as follows:
	*
	* - Implement the transport to the NFC controller
	* - Implement each of the HAL methods specified below as applicable to their silicon
	* - Pass up received NCI messages from the controller to the stack
	*
	* A simplified timeline of NCI HAL method calls:
	* 1) Core NCI stack calls open()
	* 2) Core NCI stack executes CORE_RESET and CORE_INIT through calls to write()
	* 3) Core NCI stack calls core_initialized() to allow HAL to do post-init configuration
	* 4) Core NCI stack calls pre_discover() to allow HAL to prepare for RF discovery
	* 5) Core NCI stack starts discovery through calls to write()
	* 6) Core NCI stack stops discovery through calls to write() (e.g. screen turns off)
	* 7) Core NCI stack calls pre_discover() to prepare for RF discovery (e.g. screen turned back on)
	* 8) Core NCI stack starts discovery through calls to write()
	* ...
	* ...
	* 9) Core NCI stack calls close()
	*/
	#define NFC_NCI_HARDWARE_MODULE_ID "nfc_nci"
	#define NFC_NCI_BCM2079X_HARDWARE_MODULE_ID "nfc_nci.bcm2079x"
	#define NFC_NCI_CONTROLLER "nci"

	/*
	* nfc_nci_module_t should contain module-specific parameters
	*/
	typedef struct nfc_nci_module_t {
	/**
	* Common methods of the NFC NCI module. This must be the first member of
	* nfc_nci_module_t as users of this structure will cast a hw_module_t to
	* nfc_nci_module_t pointer in contexts where it's known the hw_module_t references a
	* nfc_nci_module_t.
	*/
	struct hw_module_t common;
	} nfc_nci_module_t;

	typedef uint8_t nfc_event_t;
	typedef uint8_t nfc_status_t;

	/*
	* The callback passed in from the NFC stack that the HAL
	* can use to pass events back to the stack.
	*/
	typedef void (nfc_stack_callback_t) (nfc_event_t event, nfc_status_t event_status);

	/*
	* The callback passed in from the NFC stack that the HAL
	* can use to pass incomming data to the stack.
	*/
	typedef void (nfc_stack_data_callback_t) (uint16_t data_len, uint8_t* p_data);

	/* nfc_nci_device_t starts with a hw_device_t struct,
	* followed by device-specific methods and members.
	*
	* All methods in the NCI HAL are asynchronous.
	*/
	typedef struct nfc_nci_device {
	/**
	* Common methods of the NFC NCI device. This must be the first member of
	* nfc_nci_device_t as users of this structure will cast a hw_device_t to
	* nfc_nci_device_t pointer in contexts where it's known the hw_device_t references a
	* nfc_nci_device_t.
	*/
	struct hw_device_t common;
	/*
	* (*open)() Opens the NFC controller device and performs initialization.
	* This may include patch download and other vendor-specific initialization.
	*
	* If open completes successfully, the controller should be ready to perform
	* NCI initialization - ie accept CORE_RESET and subsequent commands through
	* the write() call.
	*
	* If open() returns 0, the NCI stack will wait for a HAL_NFC_OPEN_CPLT_EVT
	* before continuing.
	*
	* If open() returns any other value, the NCI stack will stop.
	*
	*/
	int (open)(const struct nfc_nci_device p_dev, nfc_stack_callback_t *p_cback,
	nfc_stack_data_callback_t *p_data_cback);

	/*
	* (*write)() Performs an NCI write.
	*
	* This method may queue writes and return immediately. The only
	* requirement is that the writes are executed in order.
	*/
	int (write)(const struct nfc_nci_device p_dev, uint16_t data_len, const uint8_t *p_data);

	/*
	* (*core_initialized)() is called after the CORE_INIT_RSP is received from the NFCC.
	* At this time, the HAL can do any chip-specific configuration.
	*
	* If core_initialized() returns 0, the NCI stack will wait for a HAL_NFC_POST_INIT_CPLT_EVT
	* before continuing.
	*
	* If core_initialized() returns any other value, the NCI stack will continue
	* immediately.
	*/
	int (core_initialized)(const struct nfc_nci_device p_dev, uint8_t* p_core_init_rsp_params);

	/*
	* (*pre_discover)() Is called every time before starting RF discovery.
	* It is a good place to do vendor-specific configuration that must be
	* performed every time RF discovery is about to be started.
	*
	* If pre_discover() returns 0, the NCI stack will wait for a HAL_NFC_PRE_DISCOVER_CPLT_EVT
	* before continuing.
	*
	* If pre_discover() returns any other value, the NCI stack will start
	* RF discovery immediately.
	*/
	int (pre_discover)(const struct nfc_nci_device p_dev);

	/*
	* (*close)() Closed the NFC controller. Should free all resources.
	*/
	int (close)(const struct nfc_nci_device p_dev);

	/*
	* (*control_granted)() Grant HAL the exclusive control to send NCI commands.
	* Called in response to HAL_REQUEST_CONTROL_EVT.
	* Must only be called when there are no NCI commands pending.
	* HAL_RELEASE_CONTROL_EVT will notify when HAL no longer needs exclusive control.
	*/
	int (control_granted)(const struct nfc_nci_device p_dev);

	/*
	* (*power_cycle)() Restart controller by power cyle;
	* HAL_OPEN_CPLT_EVT will notify when operation is complete.
	*/
	int (power_cycle)(const struct nfc_nci_device p_dev);
	} nfc_nci_device_t;

	/*
	* Convenience methods that the NFC stack can use to open
	* and close an NCI device
	*/
	static inline int nfc_nci_open(const struct hw_module_t* module,
	nfc_nci_device_t** dev) {
	return module->methods->open(module, NFC_NCI_CONTROLLER,
	(struct hw_device_t**) dev);
	}

	static inline int nfc_nci_close(nfc_nci_device_t* dev) {
	return dev->common.close(&dev->common);
	}
	/*
	* End NFC NCI HAL
	*/

	/*
	* This is a limited NFC HAL for NXP PN544-based devices.
	* This HAL as Android is moving to
	* an NCI-based NFC stack.
	*
	* All NCI-based NFC controllers should use the NFC-NCI
	* HAL instead.
	* Begin PN544 specific HAL
	*/
	#define NFC_HARDWARE_MODULE_ID "nfc"

	#define NFC_PN544_CONTROLLER "pn544"

	typedef struct nfc_module_t {
	/**
	* Common methods of the NFC NXP PN544 module. This must be the first member of
	* nfc_module_t as users of this structure will cast a hw_module_t to
	* nfc_module_t pointer in contexts where it's known the hw_module_t references a
	* nfc_module_t.
	*/
	struct hw_module_t common;
	} nfc_module_t;

	/*
	* PN544 linktypes.
	* UART
	* I2C
	* USB (uses UART DAL)
	*/
	typedef enum {
	PN544_LINK_TYPE_UART,
	PN544_LINK_TYPE_I2C,
	PN544_LINK_TYPE_USB,
	PN544_LINK_TYPE_INVALID,
	} nfc_pn544_linktype;

	typedef struct {
	/**
	* Common methods of the NFC NXP PN544 device. This must be the first member of
	* nfc_pn544_device_t as users of this structure will cast a hw_device_t to
	* nfc_pn544_device_t pointer in contexts where it's known the hw_device_t references a
	* nfc_pn544_device_t.
	*/
	struct hw_device_t common;

	/* The number of EEPROM registers to write */
	uint32_t num_eeprom_settings;

	/* The actual EEPROM settings
	* For PN544, each EEPROM setting is a 4-byte entry,
	* of the format [0x00, addr_msb, addr_lsb, value].
	*/
	uint8_t* eeprom_settings;

	/* The link type to which the PN544 is connected */
	nfc_pn544_linktype linktype;

	/* The device node to which the PN544 is connected */
	const char* device_node;

	/* On Crespo we had an I2C issue that would cause us to sometimes read
	* the I2C slave address (0x57) over the bus. libnfc contains
	* a hack to ignore this byte and try to read the length byte
	* again.
	* Set to 0 to disable the workaround, 1 to enable it.
	*/
	uint8_t enable_i2c_workaround;
	/* I2C slave address. Multiple I2C addresses are
	* possible for PN544 module. Configure address according to
	* board design.
	*/
	uint8_t i2c_device_address;
	} nfc_pn544_device_t;

	static inline int nfc_pn544_open(const struct hw_module_t* module,
	nfc_pn544_device_t** dev) {
	return module->methods->open(module, NFC_PN544_CONTROLLER,
	(struct hw_device_t**) dev);
	}

	static inline int nfc_pn544_close(nfc_pn544_device_t* dev) {
	return dev->common.close(&dev->common);
	}
	/*
	* End PN544 specific HAL
	*/

	__END_DECLS

	#endif // ANDROID_NFC_HAL_INTERFACE_H