unleashed-firmware/lib/infrared/encoder_decoder/infrared.h
MMX 14fc960246
Infrared: RCA protocol support (#2823)
* RCA protocol support
* Add unit test

Co-authored-by: あく <alleteam@gmail.com>
2023-07-11 12:39:07 +04:00

217 lines
7.1 KiB
C

#pragma once
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
#define INFRARED_COMMON_CARRIER_FREQUENCY ((uint32_t)38000)
#define INFRARED_COMMON_DUTY_CYCLE ((float)0.33)
/* if we want to see split raw signals during bruteforce,
* we have to have RX raw timing delay less than TX */
#define INFRARED_RAW_RX_TIMING_DELAY_US 150000
#define INFRARED_RAW_TX_TIMING_DELAY_US 180000
typedef struct InfraredDecoderHandler InfraredDecoderHandler;
typedef struct InfraredEncoderHandler InfraredEncoderHandler;
typedef enum {
InfraredProtocolUnknown = -1,
InfraredProtocolNEC = 0,
InfraredProtocolNECext,
InfraredProtocolNEC42,
InfraredProtocolNEC42ext,
InfraredProtocolSamsung32,
InfraredProtocolRC6,
InfraredProtocolRC5,
InfraredProtocolRC5X,
InfraredProtocolSIRC,
InfraredProtocolSIRC15,
InfraredProtocolSIRC20,
InfraredProtocolKaseikyo,
InfraredProtocolRCA,
InfraredProtocolMAX,
} InfraredProtocol;
typedef struct {
InfraredProtocol protocol;
uint32_t address;
uint32_t command;
bool repeat;
} InfraredMessage;
typedef enum {
InfraredStatusError,
InfraredStatusOk,
InfraredStatusDone,
InfraredStatusReady,
} InfraredStatus;
/**
* Initialize decoder.
*
* \return returns pointer to INFRARED decoder handler if success, otherwise - error.
*/
InfraredDecoderHandler* infrared_alloc_decoder(void);
/**
* Provide to decoder next timing.
*
* \param[in] handler - handler to INFRARED decoders. Should be acquired with \c infrared_alloc_decoder().
* \param[in] level - high(true) or low(false) level of input signal to analyze.
* it should alternate every call, otherwise it is an error case,
* and decoder resets its state and start decoding from the start.
* \param[in] duration - duration of steady high/low input signal.
* \return if message is ready, returns pointer to decoded message, returns NULL.
* Note: ownership of returned ptr belongs to handler. So pointer is valid
* up to next infrared_free_decoder(), infrared_reset_decoder(),
* infrared_decode(), infrared_check_decoder_ready() calls.
*/
const InfraredMessage*
infrared_decode(InfraredDecoderHandler* handler, bool level, uint32_t duration);
/**
* Check whether decoder is ready.
* Functionality is quite similar to infrared_decode(), but with no timing providing.
* Some protocols (e.g. Sony SIRC) has variable payload length, which means we
* can't recognize end of message right after receiving last bit. That's why
* application should call to infrared_check_decoder_ready() after some timeout to
* retrieve decoded message, if so.
*
* \param[in] handler - handler to INFRARED decoders. Should be acquired with \c infrared_alloc_decoder().
* \return if message is ready, returns pointer to decoded message, returns NULL.
* Note: ownership of returned ptr belongs to handler. So pointer is valid
* up to next infrared_free_decoder(), infrared_reset_decoder(),
* infrared_decode(), infrared_check_decoder_ready() calls.
*/
const InfraredMessage* infrared_check_decoder_ready(InfraredDecoderHandler* handler);
/**
* Deinitialize decoder and free allocated memory.
*
* \param[in] handler - handler to INFRARED decoders. Should be acquired with \c infrared_alloc_decoder().
*/
void infrared_free_decoder(InfraredDecoderHandler* handler);
/**
* Reset INFRARED decoder.
*
* \param[in] handler - handler to INFRARED decoders. Should be acquired with \c infrared_alloc_decoder().
*/
void infrared_reset_decoder(InfraredDecoderHandler* handler);
/**
* Get protocol name by protocol enum.
*
* \param[in] protocol - protocol identifier.
* \return string to protocol name.
*/
const char* infrared_get_protocol_name(InfraredProtocol protocol);
/**
* Get protocol enum by protocol name.
*
* \param[in] protocol_name - string to protocol name.
* \return protocol identifier.
*/
InfraredProtocol infrared_get_protocol_by_name(const char* protocol_name);
/**
* Get address length by protocol enum.
*
* \param[in] protocol - protocol identifier.
* \return length of address in bits.
*/
uint8_t infrared_get_protocol_address_length(InfraredProtocol protocol);
/**
* Get command length by protocol enum.
*
* \param[in] protocol - protocol identifier.
* \return length of command in bits.
*/
uint8_t infrared_get_protocol_command_length(InfraredProtocol protocol);
/**
* Checks whether protocol valid.
*
* \param[in] protocol - protocol identifier.
* \return true if protocol is valid, false otherwise.
*/
bool infrared_is_protocol_valid(InfraredProtocol protocol);
/**
* Allocate INFRARED encoder.
*
* \return encoder handler.
*/
InfraredEncoderHandler* infrared_alloc_encoder(void);
/**
* Free encoder handler previously allocated with \c infrared_alloc_encoder().
*
* \param[in] handler - handler to INFRARED encoder. Should be acquired with \c infrared_alloc_encoder().
*/
void infrared_free_encoder(InfraredEncoderHandler* handler);
/**
* Encode previously set INFRARED message.
* Usage:
* 1) alloc with \c infrared_alloc_encoder()
* 2) set message to encode with \c infrared_reset_encoder()
* 3) call for \c infrared_encode() to continuously get one at a time timings.
* 4) when \c infrared_encode() returns InfraredStatusDone, it means new message is fully encoded.
* 5) to encode additional timings, just continue calling \c infrared_encode().
*
* \param[in] handler - handler to INFRARED encoder. Should be acquired with \c infrared_alloc_encoder().
* \param[out] duration - encoded timing.
* \param[out] level - encoded level.
*
* \return status of encode operation.
*/
InfraredStatus infrared_encode(InfraredEncoderHandler* handler, uint32_t* duration, bool* level);
/**
* Reset INFRARED encoder and set new message to encode. If it's not called after receiveing
* InfraredStatusDone in \c infrared_encode(), encoder will encode repeat messages
* till the end of time.
*
* \param[in] handler - handler to INFRARED encoder. Should be acquired with \c infrared_alloc_encoder().
* \param[in] message - message to encode.
*/
void infrared_reset_encoder(InfraredEncoderHandler* handler, const InfraredMessage* message);
/**
* Get PWM frequency value for selected protocol
*
* \param[in] protocol - protocol to get from PWM frequency
*
* \return frequency
*/
uint32_t infrared_get_protocol_frequency(InfraredProtocol protocol);
/**
* Get PWM duty cycle value for selected protocol
*
* \param[in] protocol - protocol to get from PWM duty cycle
*
* \return duty cycle
*/
float infrared_get_protocol_duty_cycle(InfraredProtocol protocol);
/**
* Get the minimum count of signal repeats for the selected protocol
*
* \param[in] protocol - protocol to get the repeat count from
*
* \return repeat count
*/
size_t infrared_get_protocol_min_repeat_count(InfraredProtocol protocol);
#ifdef __cplusplus
}
#endif