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/* The industrial I/O core
*
* Copyright (c) 2008 Jonathan Cameron
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 as published by
* the Free Software Foundation.
*/
#ifndef _INDUSTRIAL_IO_H_
#define _INDUSTRIAL_IO_H_
#include <linux/device.h>
#include <linux/cdev.h>
#include "sysfs.h"
#include "chrdev.h"
/* IIO TODO LIST */
/* Static device specific elements (conversion factors etc)
* should be exported via sysfs
*
* Provide means of adjusting timer accuracy.
* Currently assumes nano seconds.
*/
/* Event interface flags */
#define IIO_BUSY_BIT_POS 1
struct iio_dev;
/**
* iio_get_time_ns() - utility function to get a time stamp for events etc
**/
static inline s64 iio_get_time_ns(void)
{
struct timespec ts;
/*
* calls getnstimeofday.
* If hrtimers then up to ns accurate, if not microsecond.
*/
ktime_get_real_ts(&ts);
return timespec_to_ns(&ts);
}
/**
* iio_add_event_to_list() - Wraps adding to event lists
* @el: the list element of the event to be handled.
* @head: the list associated with the event handler being used.
*
* Does reference counting to allow shared handlers.
**/
void iio_add_event_to_list(struct iio_event_handler_list *el,
struct list_head *head);
/**
* iio_remove_event_from_list() - Wraps removing from event list
* @el: element to be removed
* @head: associate list head for the interrupt handler.
*
* Does reference counting to allow shared handlers.
**/
void iio_remove_event_from_list(struct iio_event_handler_list *el,
struct list_head *head);
/* Device operating modes */
#define INDIO_DIRECT_MODE 0x01
#define INDIO_RING_TRIGGERED 0x02
#define INDIO_RING_HARDWARE_BUFFER 0x08
#define INDIO_ALL_RING_MODES (INDIO_RING_TRIGGERED | INDIO_RING_HARDWARE_BUFFER)
/* Vast majority of this is set by the industrialio subsystem on a
* call to iio_device_register. */
/**
* struct iio_dev - industrial I/O device
* @id: [INTERN] used to identify device internally
* @dev_data: [DRIVER] device specific data
* @modes: [DRIVER] operating modes supported by device
* @currentmode: [DRIVER] current operating mode
* @dev: [DRIVER] device structure, should be assigned a parent
* and owner
* @attrs: [DRIVER] general purpose device attributes
* @driver_module: [DRIVER] module structure used to ensure correct
* ownership of chrdevs etc
* @num_interrupt_lines:[DRIVER] number of physical interrupt lines from device
* @interrupts: [INTERN] interrupt line specific event lists etc
* @event_attrs: [DRIVER] event control attributes
* @event_conf_attrs: [DRIVER] event configuration attributes
* @event_interfaces: [INTERN] event chrdevs associated with interrupt lines
* @ring: [DRIVER] any ring buffer present
* @mlock: [INTERN] lock used to prevent simultaneous device state
* changes
* @scan_el_attrs: [DRIVER] control of scan elements if that scan mode
* control method is used
* @scan_count: [INTERN] the number of elements in the current scan mode
* @scan_mask: [INTERN] bitmask used in masking scan mode elements
* @scan_timestamp: [INTERN] does the scan mode include a timestamp
* @trig: [INTERN] current device trigger (ring buffer modes)
* @pollfunc: [DRIVER] function run on trigger being recieved
**/
struct iio_dev {
int id;
void *dev_data;
int modes;
int currentmode;
struct device dev;
const struct attribute_group *attrs;
struct module *driver_module;
int num_interrupt_lines;
struct iio_interrupt **interrupts;
struct attribute_group *event_attrs;
struct attribute_group *event_conf_attrs;
struct iio_event_interface *event_interfaces;
struct iio_ring_buffer *ring;
struct mutex mlock;
struct attribute_group *scan_el_attrs;
int scan_count;
u16 scan_mask;
bool scan_timestamp;
struct iio_trigger *trig;
struct iio_poll_func *pollfunc;
};
/*
* These are mainly provided to allow for a change of implementation if a device
* has a large number of scan elements
*/
#define IIO_MAX_SCAN_LENGTH 15
static inline int iio_scan_mask_query(struct iio_dev *dev_info, int bit)
{
if (bit > IIO_MAX_SCAN_LENGTH)
return -EINVAL;
else
return !!(dev_info->scan_mask & (1 << bit));
};
static inline int iio_scan_mask_set(struct iio_dev *dev_info, int bit)
{
if (bit > IIO_MAX_SCAN_LENGTH)
return -EINVAL;
dev_info->scan_mask |= (1 << bit);
dev_info->scan_count++;
return 0;
};
static inline int iio_scan_mask_clear(struct iio_dev *dev_info, int bit)
{
if (bit > IIO_MAX_SCAN_LENGTH)
return -EINVAL;
dev_info->scan_mask &= ~(1 << bit);
dev_info->scan_count--;
return 0;
};
/**
* iio_scan_mask_count_to_right() - how many scan elements occur before here
* @dev_info: the iio_device whose scan mode we are querying
* @bit: which number scan element is this
**/
static inline int iio_scan_mask_count_to_right(struct iio_dev *dev_info,
int bit)
{
int count = 0;
int mask = (1 << bit);
if (bit > IIO_MAX_SCAN_LENGTH)
return -EINVAL;
while (mask) {
mask >>= 1;
if (mask & dev_info->scan_mask)
count++;
}
return count;
}
/**
* iio_device_register() - register a device with the IIO subsystem
* @dev_info: Device structure filled by the device driver
**/
int iio_device_register(struct iio_dev *dev_info);
/**
* iio_device_unregister() - unregister a device from the IIO subsystem
* @dev_info: Device structure representing the device.
**/
void iio_device_unregister(struct iio_dev *dev_info);
/**
* struct iio_interrupt - wrapper used to allow easy handling of multiple
* physical interrupt lines
* @dev_info: the iio device for which the is an interrupt line
* @line_number: associated line number
* @id: idr allocated unique id number
* @irq: associate interrupt number
* @ev_list: event handler list for associated events
* @ev_list_lock: ensure only one access to list at a time
**/
struct iio_interrupt {
struct iio_dev *dev_info;
int line_number;
int id;
int irq;
struct list_head ev_list;
spinlock_t ev_list_lock;
};
#define to_iio_interrupt(i) container_of(i, struct iio_interrupt, ev_list)
/**
* iio_register_interrupt_line() - Tell IIO about interrupt lines
*
* @irq: Typically provided via platform data
* @dev_info: IIO device info structure for device
* @line_number: Which interrupt line of the device is this?
* @type: Interrupt type (e.g. edge triggered etc)
* @name: Identifying name.
**/
int iio_register_interrupt_line(unsigned int irq,
struct iio_dev *dev_info,
int line_number,
unsigned long type,
const char *name);
void iio_unregister_interrupt_line(struct iio_dev *dev_info,
int line_number);
/**
* iio_push_event() - try to add event to the list for userspace reading
* @dev_info: IIO device structure
* @ev_line: Which event line (hardware interrupt)
* @ev_code: What event
* @timestamp: When the event occured
**/
int iio_push_event(struct iio_dev *dev_info,
int ev_line,
int ev_code,
s64 timestamp);
/**
* struct iio_work_cont - container for when singleton handler case matters
* @ws: [DEVICE]work_struct when not only possible event
* @ws_nocheck: [DEVICE]work_struct when only possible event
* @address: [DEVICE]associated register address
* @mask: [DEVICE]associated mask for identifying event source
* @st: [DEVICE]device specific state information
**/
struct iio_work_cont {
struct work_struct ws;
struct work_struct ws_nocheck;
int address;
int mask;
void *st;
};
#define to_iio_work_cont_check(_ws) \
container_of(_ws, struct iio_work_cont, ws)
#define to_iio_work_cont_no_check(_ws) \
container_of(_ws, struct iio_work_cont, ws_nocheck)
/**
* iio_init_work_cont() - intiialize the elements of a work container
* @cont: the work container
* @_checkfunc: function called when there are multiple possible int sources
* @_nocheckfunc: function for when there is only one int source
* @_add: driver dependant, typically a register address
* @_mask: driver dependant, typically a bit mask for a register
* @_st: driver dependant, typically pointer to a device state structure
**/
static inline void
iio_init_work_cont(struct iio_work_cont *cont,
void (*_checkfunc)(struct work_struct *),
void (*_nocheckfunc)(struct work_struct *),
int _add, int _mask, void *_st)
{
INIT_WORK(&(cont)->ws, _checkfunc);
INIT_WORK(&(cont)->ws_nocheck, _nocheckfunc);
cont->address = _add;
cont->mask = _mask;
cont->st = _st;
}
/**
* __iio_push_event() tries to add an event to the list associated with a chrdev
* @ev_int: the event interface to which we are pushing the event
* @ev_code: the outgoing event code
* @timestamp: timestamp of the event
* @shared_pointer_p: the shared event pointer
**/
int __iio_push_event(struct iio_event_interface *ev_int,
int ev_code,
s64 timestamp,
struct iio_shared_ev_pointer*
shared_pointer_p);
/**
* __iio_change_event() change an event code in case of event escallation
* @ev: the evnet to be changed
* @ev_code: new event code
* @timestamp: new timestamp
**/
void __iio_change_event(struct iio_detected_event_list *ev,
int ev_code,
s64 timestamp);
/**
* iio_setup_ev_int() Configure an event interface (chrdev)
* @name: name used for resulting sysfs directory etc.
* @ev_int: interface we are configuring
* @owner: module that is responsible for registering this ev_int
* @dev: device whose ev_int this is
**/
int iio_setup_ev_int(struct iio_event_interface *ev_int,
const char *name,
struct module *owner,
struct device *dev);
void iio_free_ev_int(struct iio_event_interface *ev_int);
/**
* iio_allocate_chrdev() - Allocate a chrdev
* @handler: struct that contains relevant file handling for chrdev
* @dev_info: iio_dev for which chrdev is being created
**/
int iio_allocate_chrdev(struct iio_handler *handler, struct iio_dev *dev_info);
void iio_deallocate_chrdev(struct iio_handler *handler);
/* Used to distinguish between bipolar and unipolar scan elemenents.
* Whilst this may seem obvious, we may well want to change the representation
* in the future!*/
#define IIO_SIGNED(a) -(a)
#define IIO_UNSIGNED(a) (a)
extern dev_t iio_devt;
extern struct class iio_class;
/**
* iio_put_device() - reference counted deallocated of struct device
* @dev: the iio_device containing the device
**/
static inline void iio_put_device(struct iio_dev *dev)
{
if (dev)
put_device(&dev->dev);
};
/**
* to_iio_dev() - get iio_dev for which we have have the struct device
* @d: the struct device
**/
static inline struct iio_dev *to_iio_dev(struct device *d)
{
return container_of(d, struct iio_dev, dev);
};
/**
* iio_dev_get_devdata() - helper function gets device specific data
* @d: the iio_dev associated with the device
**/
static inline void *iio_dev_get_devdata(struct iio_dev *d)
{
return d->dev_data;
}
/**
* iio_allocate_device() - allocate an iio_dev from a driver
**/
struct iio_dev *iio_allocate_device(void);
/**
* iio_free_device() - free an iio_dev from a driver
**/
void iio_free_device(struct iio_dev *dev);
/**
* iio_put() - internal module reference count reduce
**/
void iio_put(void);
/**
* iio_get() - internal module reference count increase
**/
void iio_get(void);
/* Ring buffer related */
int iio_device_get_chrdev_minor(void);
void iio_device_free_chrdev_minor(int val);
/**
* iio_ring_enabled() helper function to test if any form of ring enabled
**/
static inline bool iio_ring_enabled(struct iio_dev *dev_info)
{
return dev_info->currentmode
& (INDIO_RING_TRIGGERED
| INDIO_RING_HARDWARE_BUFFER);
};
struct idr;
int iio_get_new_idr_val(struct idr *this_idr);
void iio_free_idr_val(struct idr *this_idr, int id);
#endif /* _INDUSTRIAL_IO_H_ */