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flipperzero-firmware/lib/infrared/encoder_decoder/kaseikyo/infrared_decoder_kaseikyo.c
Samuel Stauffer aa2ecbe80f
infrared: add Kaseikyo IR protocol (#1965) 
* infrared: add Kaseikyo IR protocol

Add Kaseikyo IR protocol support. This protocol is also called the Panasonic protocol and is used by a number of manufacturers including Denon.

The protocol includes a vendor field and a number of fields that are vendor specific. To support the format of address+command used by flipper the vendor+genre1+genre2+id fields are encoded into the address while the data is used for the command.

There are older versions of the protocol that used a reverse bit order that are not supported.

Protocol information:
- https://github.com/Arduino-IRremote/Arduino-IRremote/blob/master/src/ir_Kaseikyo.hpp
- http://www.hifi-remote.com/johnsfine/DecodeIR.html#Kaseikyo
- https://www.denon.com/-/media/files/documentmaster/denonna/avr-x3700h_avc-x3700h_ir_code_v01_04062020.doc

* Format and add unit test to Kaseikyo IR codec.

Co-authored-by: Georgii Surkov <37121527+gsurkov@users.noreply.github.com>
2022-11-07 18:38:04 +04:00

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#include "infrared.h"
#include "infrared_protocol_defs_i.h"
#include <stdbool.h>
#include <stdint.h>
#include <furi.h>
#include "../infrared_i.h"
InfraredMessage* infrared_decoder_kaseikyo_check_ready(void* ctx) {
return infrared_common_decoder_check_ready(ctx);
}
bool infrared_decoder_kaseikyo_interpret(InfraredCommonDecoder* decoder) {
furi_assert(decoder);
bool result = false;
uint16_t vendor_id = ((uint16_t)(decoder->data[1]) << 8) | (uint16_t)decoder->data[0];
uint8_t vendor_parity = decoder->data[2] & 0x0f;
uint8_t genre1 = decoder->data[2] >> 4;
uint8_t genre2 = decoder->data[3] & 0x0f;
uint16_t data = (uint16_t)(decoder->data[3] >> 4) | ((uint16_t)(decoder->data[4] & 0x3f) << 4);
uint8_t id = decoder->data[4] >> 6;
uint8_t parity = decoder->data[5];
uint8_t vendor_parity_check = decoder->data[0] ^ decoder->data[1];
vendor_parity_check = (vendor_parity_check & 0xf) ^ (vendor_parity_check >> 4);
uint8_t parity_check = decoder->data[2] ^ decoder->data[3] ^ decoder->data[4];
if(vendor_parity == vendor_parity_check && parity == parity_check) {
decoder->message.command = (uint32_t)data;
decoder->message.address = ((uint32_t)id << 24) | ((uint32_t)vendor_id << 8) |
((uint32_t)genre1 << 4) | (uint32_t)genre2;
decoder->message.protocol = InfraredProtocolKaseikyo;
decoder->message.repeat = false;
result = true;
}
return result;
}
void* infrared_decoder_kaseikyo_alloc(void) {
return infrared_common_decoder_alloc(&protocol_kaseikyo);
}
InfraredMessage* infrared_decoder_kaseikyo_decode(void* decoder, bool level, uint32_t duration) {
return infrared_common_decode(decoder, level, duration);
}
void infrared_decoder_kaseikyo_free(void* decoder) {
infrared_common_decoder_free(decoder);
}
void infrared_decoder_kaseikyo_reset(void* decoder) {
infrared_common_decoder_reset(decoder);
}
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