drivers/media/rc/rc-core-priv.h at v5.6

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kernel / drivers / media / rc / rc-core-priv.h
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  1/* SPDX-License-Identifier: GPL-2.0 */
  2/*
  3 * Remote Controller core raw events header
  4 *
  5 * Copyright (C) 2010 by Mauro Carvalho Chehab
  6 */
  7
  8#ifndef _RC_CORE_PRIV
  9#define _RC_CORE_PRIV
 10
 11#define	RC_DEV_MAX		256
 12/* Define the max number of pulse/space transitions to buffer */
 13#define	MAX_IR_EVENT_SIZE	512
 14
 15#include <linux/slab.h>
 16#include <uapi/linux/bpf.h>
 17#include <media/rc-core.h>
 18
 19/**
 20 * rc_open - Opens a RC device
 21 *
 22 * @rdev: pointer to struct rc_dev.
 23 */
 24int rc_open(struct rc_dev *rdev);
 25
 26/**
 27 * rc_close - Closes a RC device
 28 *
 29 * @rdev: pointer to struct rc_dev.
 30 */
 31void rc_close(struct rc_dev *rdev);
 32
 33struct ir_raw_handler {
 34	struct list_head list;
 35
 36	u64 protocols; /* which are handled by this handler */
 37	int (*decode)(struct rc_dev *dev, struct ir_raw_event event);
 38	int (*encode)(enum rc_proto protocol, u32 scancode,
 39		      struct ir_raw_event *events, unsigned int max);
 40	u32 carrier;
 41	u32 min_timeout;
 42
 43	/* These two should only be used by the mce kbd decoder */
 44	int (*raw_register)(struct rc_dev *dev);
 45	int (*raw_unregister)(struct rc_dev *dev);
 46};
 47
 48struct ir_raw_event_ctrl {
 49	struct list_head		list;		/* to keep track of raw clients */
 50	struct task_struct		*thread;
 51	/* fifo for the pulse/space durations */
 52	DECLARE_KFIFO(kfifo, struct ir_raw_event, MAX_IR_EVENT_SIZE);
 53	ktime_t				last_event;	/* when last event occurred */
 54	struct rc_dev			*dev;		/* pointer to the parent rc_dev */
 55	/* handle delayed ir_raw_event_store_edge processing */
 56	spinlock_t			edge_spinlock;
 57	struct timer_list		edge_handle;
 58
 59	/* raw decoder state follows */
 60	struct ir_raw_event prev_ev;
 61	struct ir_raw_event this_ev;
 62
 63#ifdef CONFIG_BPF_LIRC_MODE2
 64	u32				bpf_sample;
 65	struct bpf_prog_array __rcu	*progs;
 66#endif
 67	struct nec_dec {
 68		int state;
 69		unsigned count;
 70		u32 bits;
 71		bool is_nec_x;
 72		bool necx_repeat;
 73	} nec;
 74	struct rc5_dec {
 75		int state;
 76		u32 bits;
 77		unsigned count;
 78		bool is_rc5x;
 79	} rc5;
 80	struct rc6_dec {
 81		int state;
 82		u8 header;
 83		u32 body;
 84		bool toggle;
 85		unsigned count;
 86		unsigned wanted_bits;
 87	} rc6;
 88	struct sony_dec {
 89		int state;
 90		u32 bits;
 91		unsigned count;
 92	} sony;
 93	struct jvc_dec {
 94		int state;
 95		u16 bits;
 96		u16 old_bits;
 97		unsigned count;
 98		bool first;
 99		bool toggle;
100	} jvc;
101	struct sanyo_dec {
102		int state;
103		unsigned count;
104		u64 bits;
105	} sanyo;
106	struct sharp_dec {
107		int state;
108		unsigned count;
109		u32 bits;
110		unsigned int pulse_len;
111	} sharp;
112	struct mce_kbd_dec {
113		/* locks key up timer */
114		spinlock_t keylock;
115		struct timer_list rx_timeout;
116		int state;
117		u8 header;
118		u32 body;
119		unsigned count;
120		unsigned wanted_bits;
121	} mce_kbd;
122	struct xmp_dec {
123		int state;
124		unsigned count;
125		u32 durations[16];
126	} xmp;
127	struct imon_dec {
128		int state;
129		int count;
130		int last_chk;
131		unsigned int bits;
132		bool stick_keyboard;
133	} imon;
134	struct rcmm_dec {
135		int state;
136		unsigned int count;
137		u32 bits;
138	} rcmm;
139};
140
141/* Mutex for locking raw IR processing and handler change */
142extern struct mutex ir_raw_handler_lock;
143
144/* macros for IR decoders */
145static inline bool geq_margin(unsigned d1, unsigned d2, unsigned margin)
146{
147	return d1 > (d2 - margin);
148}
149
150static inline bool eq_margin(unsigned d1, unsigned d2, unsigned margin)
151{
152	return ((d1 > (d2 - margin)) && (d1 < (d2 + margin)));
153}
154
155static inline bool is_transition(struct ir_raw_event *x, struct ir_raw_event *y)
156{
157	return x->pulse != y->pulse;
158}
159
160static inline void decrease_duration(struct ir_raw_event *ev, unsigned duration)
161{
162	if (duration > ev->duration)
163		ev->duration = 0;
164	else
165		ev->duration -= duration;
166}
167
168/* Returns true if event is normal pulse/space event */
169static inline bool is_timing_event(struct ir_raw_event ev)
170{
171	return !ev.carrier_report && !ev.reset;
172}
173
174#define TO_US(duration)			DIV_ROUND_CLOSEST((duration), 1000)
175#define TO_STR(is_pulse)		((is_pulse) ? "pulse" : "space")
176
177/* functions for IR encoders */
178bool rc_validate_scancode(enum rc_proto proto, u32 scancode);
179
180static inline void init_ir_raw_event_duration(struct ir_raw_event *ev,
181					      unsigned int pulse,
182					      u32 duration)
183{
184	*ev = (struct ir_raw_event) {
185		.duration = duration,
186		.pulse = pulse
187	};
188}
189
190/**
191 * struct ir_raw_timings_manchester - Manchester coding timings
192 * @leader_pulse:	duration of leader pulse (if any) 0 if continuing
193 *			existing signal
194 * @leader_space:	duration of leader space (if any)
195 * @clock:		duration of each pulse/space in ns
196 * @invert:		if set clock logic is inverted
197 *			(0 = space + pulse, 1 = pulse + space)
198 * @trailer_space:	duration of trailer space in ns
199 */
200struct ir_raw_timings_manchester {
201	unsigned int leader_pulse;
202	unsigned int leader_space;
203	unsigned int clock;
204	unsigned int invert:1;
205	unsigned int trailer_space;
206};
207
208int ir_raw_gen_manchester(struct ir_raw_event **ev, unsigned int max,
209			  const struct ir_raw_timings_manchester *timings,
210			  unsigned int n, u64 data);
211
212/**
213 * ir_raw_gen_pulse_space() - generate pulse and space raw events.
214 * @ev:			Pointer to pointer to next free raw event.
215 *			Will be incremented for each raw event written.
216 * @max:		Pointer to number of raw events available in buffer.
217 *			Will be decremented for each raw event written.
218 * @pulse_width:	Width of pulse in ns.
219 * @space_width:	Width of space in ns.
220 *
221 * Returns:	0 on success.
222 *		-ENOBUFS if there isn't enough buffer space to write both raw
223 *		events. In this case @max events will have been written.
224 */
225static inline int ir_raw_gen_pulse_space(struct ir_raw_event **ev,
226					 unsigned int *max,
227					 unsigned int pulse_width,
228					 unsigned int space_width)
229{
230	if (!*max)
231		return -ENOBUFS;
232	init_ir_raw_event_duration((*ev)++, 1, pulse_width);
233	if (!--*max)
234		return -ENOBUFS;
235	init_ir_raw_event_duration((*ev)++, 0, space_width);
236	--*max;
237	return 0;
238}
239
240/**
241 * struct ir_raw_timings_pd - pulse-distance modulation timings
242 * @header_pulse:	duration of header pulse in ns (0 for none)
243 * @header_space:	duration of header space in ns
244 * @bit_pulse:		duration of bit pulse in ns
245 * @bit_space:		duration of bit space (for logic 0 and 1) in ns
246 * @trailer_pulse:	duration of trailer pulse in ns
247 * @trailer_space:	duration of trailer space in ns
248 * @msb_first:		1 if most significant bit is sent first
249 */
250struct ir_raw_timings_pd {
251	unsigned int header_pulse;
252	unsigned int header_space;
253	unsigned int bit_pulse;
254	unsigned int bit_space[2];
255	unsigned int trailer_pulse;
256	unsigned int trailer_space;
257	unsigned int msb_first:1;
258};
259
260int ir_raw_gen_pd(struct ir_raw_event **ev, unsigned int max,
261		  const struct ir_raw_timings_pd *timings,
262		  unsigned int n, u64 data);
263
264/**
265 * struct ir_raw_timings_pl - pulse-length modulation timings
266 * @header_pulse:	duration of header pulse in ns (0 for none)
267 * @bit_space:		duration of bit space in ns
268 * @bit_pulse:		duration of bit pulse (for logic 0 and 1) in ns
269 * @trailer_space:	duration of trailer space in ns
270 * @msb_first:		1 if most significant bit is sent first
271 */
272struct ir_raw_timings_pl {
273	unsigned int header_pulse;
274	unsigned int bit_space;
275	unsigned int bit_pulse[2];
276	unsigned int trailer_space;
277	unsigned int msb_first:1;
278};
279
280int ir_raw_gen_pl(struct ir_raw_event **ev, unsigned int max,
281		  const struct ir_raw_timings_pl *timings,
282		  unsigned int n, u64 data);
283
284/*
285 * Routines from rc-raw.c to be used internally and by decoders
286 */
287u64 ir_raw_get_allowed_protocols(void);
288int ir_raw_event_prepare(struct rc_dev *dev);
289int ir_raw_event_register(struct rc_dev *dev);
290void ir_raw_event_free(struct rc_dev *dev);
291void ir_raw_event_unregister(struct rc_dev *dev);
292int ir_raw_handler_register(struct ir_raw_handler *ir_raw_handler);
293void ir_raw_handler_unregister(struct ir_raw_handler *ir_raw_handler);
294void ir_raw_load_modules(u64 *protocols);
295void ir_raw_init(void);
296
297/*
298 * lirc interface
299 */
300#ifdef CONFIG_LIRC
301int lirc_dev_init(void);
302void lirc_dev_exit(void);
303void ir_lirc_raw_event(struct rc_dev *dev, struct ir_raw_event ev);
304void ir_lirc_scancode_event(struct rc_dev *dev, struct lirc_scancode *lsc);
305int ir_lirc_register(struct rc_dev *dev);
306void ir_lirc_unregister(struct rc_dev *dev);
307struct rc_dev *rc_dev_get_from_fd(int fd);
308#else
309static inline int lirc_dev_init(void) { return 0; }
310static inline void lirc_dev_exit(void) {}
311static inline void ir_lirc_raw_event(struct rc_dev *dev,
312				     struct ir_raw_event ev) { }
313static inline void ir_lirc_scancode_event(struct rc_dev *dev,
314					  struct lirc_scancode *lsc) { }
315static inline int ir_lirc_register(struct rc_dev *dev) { return 0; }
316static inline void ir_lirc_unregister(struct rc_dev *dev) { }
317#endif
318
319/*
320 * bpf interface
321 */
322#ifdef CONFIG_BPF_LIRC_MODE2
323void lirc_bpf_free(struct rc_dev *dev);
324void lirc_bpf_run(struct rc_dev *dev, u32 sample);
325#else
326static inline void lirc_bpf_free(struct rc_dev *dev) { }
327static inline void lirc_bpf_run(struct rc_dev *dev, u32 sample) { }
328#endif
329
330#endif /* _RC_CORE_PRIV */
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