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Decoding often fails on e.g. redrat3 devices. The dev_dbg() helps with debugging when decoding does fail. Cc: Patrick Lerda <patrick9876@free.fr> Signed-off-by: Sean Young <sean@mess.org> Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org>
256 lines
5.4 KiB
C
256 lines
5.4 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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// ir-rcmm-decoder.c - A decoder for the RCMM IR protocol
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//
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// Copyright (C) 2018 by Patrick Lerda <patrick9876@free.fr>
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#include "rc-core-priv.h"
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#include <linux/module.h>
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#define RCMM_UNIT 166667 /* nanosecs */
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#define RCMM_PREFIX_PULSE 416666 /* 166666.666666666*2.5 */
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#define RCMM_PULSE_0 277777 /* 166666.666666666*(1+2/3) */
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#define RCMM_PULSE_1 444444 /* 166666.666666666*(2+2/3) */
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#define RCMM_PULSE_2 611111 /* 166666.666666666*(3+2/3) */
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#define RCMM_PULSE_3 777778 /* 166666.666666666*(4+2/3) */
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enum rcmm_state {
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STATE_INACTIVE,
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STATE_LOW,
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STATE_BUMP,
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STATE_VALUE,
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STATE_FINISHED,
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};
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static bool rcmm_mode(const struct rcmm_dec *data)
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{
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return !((0x000c0000 & data->bits) == 0x000c0000);
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}
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static int rcmm_miscmode(struct rc_dev *dev, struct rcmm_dec *data)
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{
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switch (data->count) {
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case 24:
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if (dev->enabled_protocols & RC_PROTO_BIT_RCMM24) {
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rc_keydown(dev, RC_PROTO_RCMM24, data->bits, 0);
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data->state = STATE_INACTIVE;
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return 0;
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}
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return -1;
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case 12:
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if (dev->enabled_protocols & RC_PROTO_BIT_RCMM12) {
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rc_keydown(dev, RC_PROTO_RCMM12, data->bits, 0);
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data->state = STATE_INACTIVE;
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return 0;
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}
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return -1;
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}
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return -1;
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}
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/**
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* ir_rcmm_decode() - Decode one RCMM pulse or space
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* @dev: the struct rc_dev descriptor of the device
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* @ev: the struct ir_raw_event descriptor of the pulse/space
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*
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* This function returns -EINVAL if the pulse violates the state machine
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*/
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static int ir_rcmm_decode(struct rc_dev *dev, struct ir_raw_event ev)
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{
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struct rcmm_dec *data = &dev->raw->rcmm;
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u32 scancode;
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u8 toggle;
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int value;
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if (!(dev->enabled_protocols & (RC_PROTO_BIT_RCMM32 |
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RC_PROTO_BIT_RCMM24 |
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RC_PROTO_BIT_RCMM12)))
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return 0;
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if (!is_timing_event(ev)) {
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if (ev.reset)
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data->state = STATE_INACTIVE;
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return 0;
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}
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switch (data->state) {
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case STATE_INACTIVE:
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if (!ev.pulse)
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break;
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if (!eq_margin(ev.duration, RCMM_PREFIX_PULSE, RCMM_UNIT))
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break;
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data->state = STATE_LOW;
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data->count = 0;
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data->bits = 0;
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return 0;
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case STATE_LOW:
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if (ev.pulse)
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break;
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if (!eq_margin(ev.duration, RCMM_PULSE_0, RCMM_UNIT))
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break;
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data->state = STATE_BUMP;
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return 0;
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case STATE_BUMP:
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if (!ev.pulse)
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break;
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if (!eq_margin(ev.duration, RCMM_UNIT, RCMM_UNIT / 2))
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break;
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data->state = STATE_VALUE;
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return 0;
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case STATE_VALUE:
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if (ev.pulse)
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break;
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if (eq_margin(ev.duration, RCMM_PULSE_0, RCMM_UNIT / 2))
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value = 0;
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else if (eq_margin(ev.duration, RCMM_PULSE_1, RCMM_UNIT / 2))
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value = 1;
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else if (eq_margin(ev.duration, RCMM_PULSE_2, RCMM_UNIT / 2))
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value = 2;
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else if (eq_margin(ev.duration, RCMM_PULSE_3, RCMM_UNIT / 2))
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value = 3;
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else
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value = -1;
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if (value == -1) {
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if (!rcmm_miscmode(dev, data))
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return 0;
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break;
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}
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data->bits <<= 2;
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data->bits |= value;
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data->count += 2;
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if (data->count < 32)
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data->state = STATE_BUMP;
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else
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data->state = STATE_FINISHED;
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return 0;
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case STATE_FINISHED:
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if (!ev.pulse)
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break;
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if (!eq_margin(ev.duration, RCMM_UNIT, RCMM_UNIT / 2))
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break;
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if (rcmm_mode(data)) {
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toggle = !!(0x8000 & data->bits);
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scancode = data->bits & ~0x8000;
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} else {
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toggle = 0;
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scancode = data->bits;
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}
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if (dev->enabled_protocols & RC_PROTO_BIT_RCMM32) {
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rc_keydown(dev, RC_PROTO_RCMM32, scancode, toggle);
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data->state = STATE_INACTIVE;
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return 0;
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}
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break;
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}
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dev_dbg(&dev->dev, "RC-MM decode failed at count %d state %d (%uus %s)\n",
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data->count, data->state, TO_US(ev.duration), TO_STR(ev.pulse));
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data->state = STATE_INACTIVE;
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return -EINVAL;
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}
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static const int rcmmspace[] = {
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RCMM_PULSE_0,
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RCMM_PULSE_1,
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RCMM_PULSE_2,
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RCMM_PULSE_3,
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};
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static int ir_rcmm_rawencoder(struct ir_raw_event **ev, unsigned int max,
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unsigned int n, u32 data)
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{
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int i;
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int ret;
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ret = ir_raw_gen_pulse_space(ev, &max, RCMM_PREFIX_PULSE, RCMM_PULSE_0);
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if (ret)
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return ret;
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for (i = n - 2; i >= 0; i -= 2) {
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const unsigned int space = rcmmspace[(data >> i) & 3];
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ret = ir_raw_gen_pulse_space(ev, &max, RCMM_UNIT, space);
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if (ret)
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return ret;
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}
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return ir_raw_gen_pulse_space(ev, &max, RCMM_UNIT, RCMM_PULSE_3 * 2);
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}
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static int ir_rcmm_encode(enum rc_proto protocol, u32 scancode,
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struct ir_raw_event *events, unsigned int max)
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{
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struct ir_raw_event *e = events;
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int ret;
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switch (protocol) {
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case RC_PROTO_RCMM32:
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ret = ir_rcmm_rawencoder(&e, max, 32, scancode);
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break;
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case RC_PROTO_RCMM24:
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ret = ir_rcmm_rawencoder(&e, max, 24, scancode);
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break;
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case RC_PROTO_RCMM12:
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ret = ir_rcmm_rawencoder(&e, max, 12, scancode);
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break;
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default:
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ret = -EINVAL;
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}
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if (ret < 0)
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return ret;
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return e - events;
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}
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static struct ir_raw_handler rcmm_handler = {
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.protocols = RC_PROTO_BIT_RCMM32 |
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RC_PROTO_BIT_RCMM24 |
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RC_PROTO_BIT_RCMM12,
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.decode = ir_rcmm_decode,
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.encode = ir_rcmm_encode,
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.carrier = 36000,
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.min_timeout = RCMM_PULSE_3 + RCMM_UNIT,
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};
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static int __init ir_rcmm_decode_init(void)
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{
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ir_raw_handler_register(&rcmm_handler);
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pr_info("IR RCMM protocol handler initialized\n");
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return 0;
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}
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static void __exit ir_rcmm_decode_exit(void)
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{
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ir_raw_handler_unregister(&rcmm_handler);
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}
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module_init(ir_rcmm_decode_init);
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module_exit(ir_rcmm_decode_exit);
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MODULE_LICENSE("GPL");
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MODULE_AUTHOR("Patrick Lerda");
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MODULE_DESCRIPTION("RCMM IR protocol decoder");
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