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protocol_nasa.cpp
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#include <set>
#include "esphome/core/log.h"
#include "esphome/core/util.h"
#include "esphome/core/hal.h"
#include "util.h"
#include "protocol_nasa.h"
#include "debug_mqtt.h"
esphome::samsung_ac::Packet packet_;
namespace esphome
{
namespace samsung_ac
{
struct PacketInfo
{
Packet packet;
int retry_count;
uint32_t last_sent_time;
};
int variable_to_signed(int value)
{
if (value < 65535 /*uint16 max*/)
return value;
return value - (int)65535 /*uint16 max*/ - 1.0;
}
#define LOG_MESSAGE(message_name, temp, source, dest) \
if (debug_log_messages) \
{ \
ESP_LOGW(TAG, "s:%s d:%s " #message_name " %g", source.c_str(), dest.c_str(), static_cast<double>(temp)); \
}
uint16_t crc16(std::vector<uint8_t> &data, int startIndex, int length)
{
uint16_t crc = 0;
for (int index = startIndex; index < startIndex + length; ++index)
{
crc = crc ^ ((uint16_t)((uint8_t)data[index]) << 8);
for (uint8_t i = 0; i < 8; i++)
{
if (crc & 0x8000)
crc = (crc << 1) ^ 0x1021;
else
crc <<= 1;
}
}
return crc;
};
Address Address::get_my_address()
{
Address address;
address.klass = AddressClass::JIGTester;
address.channel = 0xFF;
address.address = 0;
return address;
}
Address Address::parse(const std::string &str)
{
Address address;
char *pEnd;
address.klass = (AddressClass)strtol(str.c_str(), &pEnd, 16);
pEnd++; // .
address.channel = strtol(pEnd, &pEnd, 16);
pEnd++; // .
address.address = strtol(pEnd, &pEnd, 16);
return address;
}
void Address::decode(std::vector<uint8_t> &data, unsigned int index)
{
klass = (AddressClass)data[index];
channel = data[index + 1];
address = data[index + 2];
}
void Address::encode(std::vector<uint8_t> &data)
{
data.push_back((uint8_t)klass);
data.push_back(channel);
data.push_back(address);
}
std::string Address::to_string()
{
char str[9];
sprintf(str, "%02x.%02x.%02x", (uint8_t)klass, (uint8_t)channel, (uint8_t)address);
return std::string(str);
}
void Command::decode(std::vector<uint8_t> &data, unsigned int index)
{
packetInformation = ((int)data[index] & 128) >> 7 == 1;
protocolVersion = (uint8_t)(((int)data[index] & 96) >> 5);
retryCount = (uint8_t)(((int)data[index] & 24) >> 3);
packetType = (PacketType)(((int)data[index + 1] & 240) >> 4);
dataType = (DataType)((int)data[index + 1] & 15);
packetNumber = data[index + 2];
}
void Command::encode(std::vector<uint8_t> &data)
{
data.push_back((uint8_t)((((int)packetInformation ? 1 : 0) << 7) + ((int)protocolVersion << 5) + ((int)retryCount << 3)));
data.push_back((uint8_t)(((int)packetType << 4) + (int)dataType));
data.push_back(packetNumber);
}
std::string Command::to_string()
{
std::string str;
str += "{";
str += "PacketInformation: " + std::to_string(packetInformation) + ";";
str += "ProtocolVersion: " + std::to_string(protocolVersion) + ";";
str += "RetryCount: " + std::to_string(retryCount) + ";";
str += "PacketType: " + std::to_string((int)packetType) + ";";
str += "DataType: " + std::to_string((int)dataType) + ";";
str += "PacketNumber: " + std::to_string(packetNumber);
str += "}";
return str;
}
MessageSet MessageSet::decode(std::vector<uint8_t> &data, unsigned int index, int capacity)
{
MessageSet set = MessageSet((MessageNumber)((uint32_t)data[index] * 256U + (uint32_t)data[index + 1]));
switch (set.type)
{
case Enum:
set.value = (int)data[index + 2];
set.size = 3;
break;
case Variable:
set.value = (int)data[index + 2] << 8 | (int)data[index + 3];
set.size = 4;
break;
case LongVariable:
set.value = (int)data[index + 2] << 24 | (int)data[index + 3] << 16 | (int)data[index + 4] << 8 | (int)data[index + 5];
set.size = 6;
break;
case Structure:
if (capacity != 1)
{
ESP_LOGE(TAG, "structure messages can only have one message but is %d", capacity);
return set;
}
Buffer buffer;
set.size = data.size() - index - 3; // 3=end bytes
buffer.size = set.size - 2;
for (int i = 0; i < buffer.size; i++)
{
buffer.data[i] = data[i];
}
set.structure = buffer;
break;
default:
ESP_LOGE(TAG, "Unkown type");
}
return set;
};
void MessageSet::encode(std::vector<uint8_t> &data)
{
uint16_t messageNumber = (uint16_t)this->messageNumber;
data.push_back((uint8_t)((messageNumber >> 8) & 0xff));
data.push_back((uint8_t)(messageNumber & 0xff));
switch (type)
{
case Enum:
data.push_back((uint8_t)value);
break;
case Variable:
data.push_back((uint8_t)(value >> 8) & 0xff);
data.push_back((uint8_t)(value & 0xff));
break;
case LongVariable:
data.push_back((uint8_t)(value & 0x000000ff));
data.push_back((uint8_t)((value & 0x0000ff00) >> 8));
data.push_back((uint8_t)((value & 0x00ff0000) >> 16));
data.push_back((uint8_t)((value & 0xff000000) >> 24));
break;
case Structure:
for (int i = 0; i < structure.size; i++)
{
data.push_back(structure.data[i]);
}
break;
default:
ESP_LOGE(TAG, "Unkown type");
}
}
std::string MessageSet::to_string()
{
switch (type)
{
case Enum:
return "Enum " + long_to_hex((uint16_t)messageNumber) + " = " + std::to_string(value);
case Variable:
return "Variable " + long_to_hex((uint16_t)messageNumber) + " = " + std::to_string(value);
case LongVariable:
return "LongVariable " + long_to_hex((uint16_t)messageNumber) + " = " + std::to_string(value);
case Structure:
return "Structure #" + long_to_hex((uint16_t)messageNumber) + " = " + std::to_string(structure.size);
default:
return "Unknown";
}
}
static int _packetCounter = 0;
std::vector<Packet> out;
std::vector<PacketInfo> sent_packets;
/*
class OutgoingPacket
{
public:
OutgoingPacket(uint32_t timeout_seconds, Packet packet)
{
this->timeout_mili = millis() + (timeout_seconds * 1000);
Packet = packet;
}
// std::function<void(float)> Func;
Packet Packet;
bool IsTimedout()
{
return timeout_mili < millis();
};
private:
uint32_t timeout_mili{0}; // millis();
};
*/
Packet Packet::create(Address da, DataType dataType, MessageNumber messageNumber, int value)
{
Packet packet = createa_partial(da, dataType);
MessageSet message(messageNumber);
message.value = value;
packet.messages.push_back(message);
out.push_back(packet);
return packet;
}
Packet Packet::createa_partial(Address da, DataType dataType)
{
Packet packet;
packet.sa = Address::get_my_address();
packet.da = da;
packet.command.packetInformation = true;
packet.command.packetType = PacketType::Normal;
packet.command.dataType = dataType;
packet.command.packetNumber = _packetCounter++;
return packet;
}
DecodeResult Packet::decode(std::vector<uint8_t> &data)
{
if (data[0] != 0x32)
return DecodeResult::InvalidStartByte;
if (data.size() < 16 || data.size() > 1500)
return DecodeResult::UnexpectedSize;
int size = (int)data[1] << 8 | (int)data[2];
if (size + 2 != data.size())
return DecodeResult::SizeDidNotMatch;
if (data[data.size() - 1] != 0x34)
return DecodeResult::InvalidEndByte;
uint16_t crc_actual = crc16(data, 3, size - 4);
uint16_t crc_expected = (int)data[data.size() - 3] << 8 | (int)data[data.size() - 2];
if (crc_expected != crc_actual)
{
ESP_LOGW(TAG, "NASA: invalid crc - got %d but should be %d: %s", crc_actual, crc_expected, bytes_to_hex(data).c_str());
return DecodeResult::CrcError;
}
unsigned int cursor = 3;
sa.decode(data, cursor);
cursor += sa.size;
da.decode(data, cursor);
cursor += da.size;
command.decode(data, cursor);
cursor += command.size;
int capacity = (int)data[cursor];
cursor++;
messages.clear();
for (int i = 1; i <= capacity; ++i)
{
MessageSet set = MessageSet::decode(data, cursor, capacity);
messages.push_back(set);
cursor += set.size;
}
return DecodeResult::Ok;
};
std::vector<uint8_t> Packet::encode()
{
std::vector<uint8_t> data;
data.push_back(0x32);
data.push_back(0); // size
data.push_back(0); // size
sa.encode(data);
da.encode(data);
command.encode(data);
data.push_back((uint8_t)messages.size());
for (int i = 0; i < messages.size(); i++)
{
messages[i].encode(data);
}
int endPosition = data.size() + 1;
data[1] = (uint8_t)(endPosition >> 8);
data[2] = (uint8_t)(endPosition & (int)0xFF);
uint16_t checksum = crc16(data, 3, endPosition - 4);
data.push_back((uint8_t)((unsigned int)checksum >> 8));
data.push_back((uint8_t)((unsigned int)checksum & (unsigned int)0xFF));
data.push_back(0x34);
/*
for (int i = 0; i < 100; ++i)
data.insert(data.begin(), 0x55); // Preamble
*/
return data;
};
std::string Packet::to_string()
{
std::string str;
str += "#Packet Src:" + sa.to_string() + " Dst:" + da.to_string() + " " + command.to_string() + "\n";
for (int i = 0; i < messages.size(); i++)
{
if (i > 0)
str += "\n";
str += " > " + messages[i].to_string();
}
return str;
}
int fanmode_to_nasa_fanmode(FanMode mode)
{
// This stuff did not exists in XML only in Remcode.dll
switch (mode)
{
case FanMode::Low:
return 1;
case FanMode::Mid:
return 2;
case FanMode::High:
return 3;
case FanMode::Turbo:
return 4;
case FanMode::Auto:
default:
return 0;
}
}
void NasaProtocol::publish_request(MessageTarget *target, const std::string &address, ProtocolRequest &request)
{
Packet packet = Packet::createa_partial(Address::parse(address), DataType::Request);
if (request.mode)
{
request.power = true; // ensure system turns on when mode is set
MessageSet mode(MessageNumber::ENUM_in_operation_mode);
mode.value = (int)request.mode.value();
packet.messages.push_back(mode);
}
if (request.waterheatermode)
{
request.water_heater_power = true; // ensure system turns on when mode is set
MessageSet waterheatermode(MessageNumber::ENUM_in_water_heater_mode);
waterheatermode.value = (int)request.waterheatermode.value();
packet.messages.push_back(waterheatermode);
}
if (request.power)
{
MessageSet power(MessageNumber::ENUM_in_operation_power);
power.value = request.power.value() ? 1 : 0;
packet.messages.push_back(power);
}
if (request.automatic_cleaning)
{
MessageSet automatic_cleaning(MessageNumber::ENUM_in_operation_automatic_cleaning);
automatic_cleaning.value = request.automatic_cleaning.value() ? 1 : 0;
packet.messages.push_back(automatic_cleaning);
}
if (request.water_heater_power)
{
MessageSet waterheaterpower(MessageNumber::ENUM_in_water_heater_power);
waterheaterpower.value = request.water_heater_power.value() ? 1 : 0;
packet.messages.push_back(waterheaterpower);
}
if (request.target_temp)
{
MessageSet targettemp(MessageNumber::VAR_in_temp_target_f);
targettemp.value = request.target_temp.value() * 10.0;
packet.messages.push_back(targettemp);
}
if (request.water_outlet_target)
{
MessageSet wateroutlettarget(MessageNumber::VAR_in_temp_water_outlet_target_f);
wateroutlettarget.value = request.water_outlet_target.value() * 10.0;
packet.messages.push_back(wateroutlettarget);
}
if (request.target_water_temp)
{
MessageSet targetwatertemp(MessageNumber::VAR_in_temp_water_heater_target_f);
targetwatertemp.value = request.target_water_temp.value() * 10.0;
packet.messages.push_back(targetwatertemp);
}
if (request.fan_mode)
{
MessageSet fanmode(MessageNumber::ENUM_in_fan_mode);
fanmode.value = fanmode_to_nasa_fanmode(request.fan_mode.value());
packet.messages.push_back(fanmode);
}
if (request.alt_mode)
{
MessageSet altmode(MessageNumber::ENUM_in_alt_mode);
altmode.value = request.alt_mode.value();
packet.messages.push_back(altmode);
}
if (request.swing_mode)
{
MessageSet hl_swing(MessageNumber::ENUM_in_louver_hl_swing);
hl_swing.value = static_cast<uint8_t>(request.swing_mode.value()) & 1;
packet.messages.push_back(hl_swing);
MessageSet lr_swing(MessageNumber::ENUM_in_louver_lr_swing);
lr_swing.value = (static_cast<uint8_t>(request.swing_mode.value()) >> 1) & 1;
packet.messages.push_back(lr_swing);
}
if (packet.messages.size() == 0)
return;
ESP_LOGW(TAG, "publish packet %s", packet.to_string().c_str());
out.push_back(packet);
auto data = packet.encode();
target->publish_data(data);
sent_packets.push_back({packet, 0, millis()});
}
Mode operation_mode_to_mode(int value)
{
switch (value)
{
case 0:
return Mode::Auto;
case 1:
return Mode::Cool;
case 2:
return Mode::Dry;
case 3:
return Mode::Fan;
case 4:
return Mode::Heat;
// case 21: Cool Storage
// case 24: Hot Water
default:
return Mode::Unknown;
}
}
WaterHeaterMode water_heater_mode_to_waterheatermode(int value)
{
switch (value)
{
case 0:
return WaterHeaterMode::Eco;
case 1:
return WaterHeaterMode::Standard;
case 2:
return WaterHeaterMode::Power;
case 3:
return WaterHeaterMode::Force;
default:
return WaterHeaterMode::Unknown;
}
}
FanMode fan_mode_real_to_fanmode(int value)
{
switch (value)
{
case 1: // Low
return FanMode::Low;
case 2: // Mid
return FanMode::Mid;
case 3: // High
return FanMode::High;
case 4: // Turbo
return FanMode::Turbo;
case 10: // AutoLow
case 11: // AutoMid
case 12: // AutoHigh
case 13: // UL - Windfree?
case 14: // LL - Auto?
case 15: // HH
return FanMode::Auto;
case 254:
return FanMode::Off;
case 16: // Speed
case 17: // NaturalLow
case 18: // NaturalMid
case 19: // NaturalHigh
default:
return FanMode::Unknown;
}
}
void process_messageset(std::string source, std::string dest, MessageSet &message, MessageTarget *target)
{
if (debug_mqtt_connected())
{
static const std::string topic_prefix = "samsung_ac/nasa/";
std::string topic_suffix;
std::string payload;
if (static_cast<int>(message.messageNumber) != 0)
{
topic_suffix = long_to_hex((uint16_t)message.messageNumber);
payload = std::to_string(message.value);
}
else
{
topic_suffix.clear();
payload.clear();
}
switch (message.type)
{
case MessageSetType::Enum:
debug_mqtt_publish(topic_prefix + "enum/" + topic_suffix, payload);
break;
case MessageSetType::Variable:
debug_mqtt_publish(topic_prefix + "var/" + topic_suffix, payload);
break;
case MessageSetType::LongVariable:
debug_mqtt_publish(topic_prefix + "var_long/" + topic_suffix, payload);
break;
default:
break;
}
}
target->set_custom_sensor(source, (uint16_t)message.messageNumber, (float)message.value);
switch (message.messageNumber)
{
case MessageNumber::VAR_in_temp_room_f: // unit = 'Celsius' from XML
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_in_temp_room_f, temp, source, dest);
target->set_room_temperature(source, temp);
break;
}
case MessageNumber::VAR_in_temp_target_f: // unit = 'Celsius' from XML
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_in_temp_target_f, temp, source, dest);
target->set_target_temperature(source, temp);
break;
}
case MessageNumber::VAR_in_temp_water_outlet_target_f: // unit = 'Celsius' from XML
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_in_temp_water_outlet_target_f, temp, source, dest);
target->set_water_outlet_target(source, temp);
break;
}
case MessageNumber::VAR_in_temp_water_heater_target_f: // unit = 'Celsius' from XML
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_in_temp_water_heater_target_f, temp, source, dest);
target->set_target_water_temperature(source, temp);
break;
}
case MessageNumber::ENUM_in_state_humidity_percent:
{
LOG_MESSAGE(ENUM_in_state_humidity_percent, (double)message.value, source, dest);
break;
}
case MessageNumber::ENUM_in_operation_power:
{
LOG_MESSAGE(ENUM_in_operation_power, (double)message.value, source, dest);
target->set_power(source, message.value != 0);
break;
}
case MessageNumber::ENUM_in_operation_automatic_cleaning:
{
LOG_MESSAGE(ENUM_in_operation_automatic_cleaning, (double)message.value, source, dest);
target->set_automatic_cleaning(source, message.value != 0);
break;
}
case MessageNumber::ENUM_in_water_heater_power:
{
LOG_MESSAGE(ENUM_in_water_heater_power, (double)message.value, source, dest);
target->set_water_heater_power(source, message.value != 0);
break;
}
case MessageNumber::ENUM_in_operation_mode:
{
LOG_MESSAGE(ENUM_in_operation_mode, (double)message.value, source, dest);
target->set_mode(source, operation_mode_to_mode(message.value));
break;
}
case MessageNumber::ENUM_in_water_heater_mode:
{
LOG_MESSAGE(ENUM_in_water_heater_mode, (double)message.value, source, dest);
target->set_water_heater_mode(source, water_heater_mode_to_waterheatermode(message.value));
return;
}
case MessageNumber::ENUM_in_fan_mode:
{
LOG_MESSAGE(ENUM_in_fan_mode, (double)message.value, source, dest);
FanMode mode = FanMode::Unknown;
if (message.value == 0)
mode = FanMode::Auto;
else if (message.value == 1)
mode = FanMode::Low;
else if (message.value == 2)
mode = FanMode::Mid;
else if (message.value == 3)
mode = FanMode::High;
else if (message.value == 4)
mode = FanMode::Turbo;
target->set_fanmode(source, mode);
break;
}
case MessageNumber::ENUM_in_fan_mode_real:
{
LOG_MESSAGE(ENUM_in_fan_mode_real, (double)message.value, source, dest);
break;
}
case MessageNumber::ENUM_in_alt_mode:
{
LOG_MESSAGE(ENUM_in_alt_mode, (double)message.value, source, dest);
target->set_altmode(source, message.value);
break;
}
case MessageNumber::ENUM_in_louver_hl_swing:
{
LOG_MESSAGE(ENUM_in_louver_hl_swing, (double)message.value, source, dest);
target->set_swing_vertical(source, message.value == 1);
break;
}
case MessageNumber::ENUM_in_louver_lr_swing:
{
LOG_MESSAGE(ENUM_in_louver_lr_swing, (double)message.value, source, dest);
target->set_swing_horizontal(source, message.value == 1);
break;
}
case MessageNumber::VAR_in_temp_water_tank_f:
{
LOG_MESSAGE(VAR_in_temp_water_tank_f, (double)message.value, source, dest);
break;
}
case MessageNumber::VAR_out_sensor_airout:
{
double temp = (double)((int16_t)message.value) / (double)10;
LOG_MESSAGE(VAR_out_sensor_airout, temp, source, dest);
target->set_outdoor_temperature(source, temp);
break;
}
case MessageNumber::VAR_in_temp_eva_in_f:
{
double temp = ((int16_t)message.value) / 10.0;
LOG_MESSAGE(VAR_in_temp_eva_in_f, temp, source, dest);
target->set_indoor_eva_in_temperature(source, temp);
break;
}
case MessageNumber::VAR_in_temp_eva_out_f:
{
double temp = ((int16_t)message.value) / 10.0;
LOG_MESSAGE(VAR_in_temp_eva_out_f, temp, source, dest);
target->set_indoor_eva_out_temperature(source, temp);
break;
}
case MessageNumber::VAR_out_error_code:
{
int code = static_cast<int>(message.value);
if (debug_log_messages)
{
ESP_LOGW(TAG, "s:%s d:%s VAR_out_error_code %d", source.c_str(), dest.c_str(), code);
}
target->set_error_code(source, code);
break;
}
case MessageNumber::LVAR_OUT_CONTROL_WATTMETER_1W_1MIN_SUM:
{
double value = static_cast<double>(message.value);
LOG_MESSAGE(LVAR_OUT_CONTROL_WATTMETER_1W_1MIN_SUM, value, source, dest);
target->set_outdoor_instantaneous_power(source, value);
break;
}
case MessageNumber::LVAR_OUT_CONTROL_WATTMETER_ALL_UNIT_ACCUM:
{
double value = static_cast<double>(message.value);
LOG_MESSAGE(LVAR_OUT_CONTROL_WATTMETER_ALL_UNIT_ACCUM, value, source, dest);
target->set_outdoor_cumulative_energy(source, value);
break;
}
case MessageNumber::VAR_OUT_SENSOR_CT1:
{
double value = static_cast<double>(message.value);
LOG_MESSAGE(VAR_OUT_SENSOR_CT1, value, source, dest);
target->set_outdoor_current(source, value);
break;
}
case MessageNumber::LVAR_NM_OUT_SENSOR_VOLTAGE:
{
double value = static_cast<double>(message.value);
LOG_MESSAGE(LVAR_NM_OUT_SENSOR_VOLTAGE, value, source, dest);
target->set_outdoor_voltage(source, value);
break;
}
default:
{
double value = 0;
switch ((uint16_t)message.messageNumber)
{
case 0x4260:
value = (double)message.value / 10.0;
LOG_MESSAGE(VAR_IN_FSV_3021, value, source, dest);
break;
case 0x4261:
value = (double)message.value / 10.0;
LOG_MESSAGE(VAR_IN_FSV_3022, value, source, dest);
break;
case 0x4262:
value = (double)message.value / 10.0;
LOG_MESSAGE(VAR_IN_FSV_3023, value, source, dest);
break;
case 0x8411:
value = (double)message.value;
LOG_MESSAGE(NASA_OUTDOOR_CONTROL_WATTMETER_1UNIT, value, source, dest);
break;
case 0x8427:
value = (double)message.value;
LOG_MESSAGE(total_produced_energy, value, source, dest);
break;
case 0x8426:
value = (double)message.value;
LOG_MESSAGE(actual_produced_energy, value, source, dest);
break;
case 0x8415:
value = (double)message.value;
LOG_MESSAGE(NASA_OUTDOOR_CONTROL_WATTMETER_TOTAL_SUM, value, source, dest);
break;
case 0x8416:
value = (double)message.value;
LOG_MESSAGE(NASA_OUTDOOR_CONTROL_WATTMETER_TOTAL_SUM_ACCUM, value, source, dest);
break;
default:
if (debug_log_undefined_messages)
{
ESP_LOGW(TAG, "Undefined s:%s d:%s %s", source.c_str(), dest.c_str(), message.to_string().c_str());
}
break;
}
break;
}
}
}
DecodeResult try_decode_nasa_packet(std::vector<uint8_t> data)
{
return packet_.decode(data);
}
void process_nasa_packet(MessageTarget *target)
{
const auto source = packet_.sa.to_string();
const auto dest = packet_.da.to_string();
target->register_address(source);
if (debug_log_undefined_messages)
{
ESP_LOGW(TAG, "MSG: %s", packet_.to_string().c_str());
}
if (packet_.command.dataType == DataType::Ack)
{
bool ack_found = false;
for (auto it = sent_packets.begin(); it != sent_packets.end(); ++it)
{
if (it->packet.command.packetNumber == packet_.command.packetNumber)
{
ESP_LOGW(TAG, "found Ack for packet number %d", it->packet.command.packetNumber);
sent_packets.erase(it);
ack_found = true;
break;
}
}
if (!ack_found)
{
ESP_LOGW(TAG, "Ack not found for packet number %d", packet_.command.packetNumber);
}
ESP_LOGW(TAG, "Ack %s sent_packets size: %d", packet_.to_string().c_str(), sent_packets.size());
return;
}
if (packet_.command.dataType == DataType::Request)
{
ESP_LOGW(TAG, "Request %s", packet_.to_string().c_str());
return;
}
if (packet_.command.dataType == DataType::Response)
{
ESP_LOGW(TAG, "Response %s", packet_.to_string().c_str());
return;
}
if (packet_.command.dataType == DataType::Write)
{
ESP_LOGW(TAG, "Write %s", packet_.to_string().c_str());
return;
}
if (packet_.command.dataType == DataType::Nack)
{
ESP_LOGW(TAG, "Nack %s", packet_.to_string().c_str());
return;
}
if (packet_.command.dataType == DataType::Read)
{
ESP_LOGW(TAG, "Read %s", packet_.to_string().c_str());
return;
}
if (packet_.command.dataType != DataType::Notification)
return;
for (auto &message : packet_.messages)
{
process_messageset(source, dest, message, target);
}
uint32_t now = millis();
for (auto &info : sent_packets)
{
if (now - info.last_sent_time > 1000 && info.retry_count < 3)
{
info.retry_count++;
info.last_sent_time = now;
auto data = info.packet.encode();
target->publish_data(data);
ESP_LOGW(TAG, "Resending packet %d number of attempts: %d", info.packet.command.packetNumber, info.retry_count);
}
else if (info.retry_count >= 3)
{
ESP_LOGW(TAG, "Packet %d failed after 3 attempts.", info.packet.command.packetNumber);
}
}
}
void process_messageset_debug(std::string source, std::string dest, MessageSet &message, MessageTarget *target)
{
if (source == "20.00.00" || source == "20.00.01" || source == "20.00.02" || source == "20.00.03")
return;
switch ((uint16_t)message.messageNumber)
{
case 0x4003:
LOG_MESSAGE(ENUM_IN_OPERATION_VENT_POWER, message.value, source, dest);
break;
case 0x4004:
LOG_MESSAGE(ENUM_IN_OPERATION_VENT_MODE, message.value, source, dest);
break;
case 0x4011:
LOG_MESSAGE(ENUM_IN_LOUVER_HL_SWING, message.value, source, dest);
break;
case 0x4012:
LOG_MESSAGE(ENUM_in_louver_hl_part_swing, message.value, source, dest);
break;
case 0x4060:
LOG_MESSAGE(ENUM_IN_ALTERNATIVE_MODE, message.value, source, dest);
break;
case 0x406E:
LOG_MESSAGE(ENUM_IN_QUIET_MODE, message.value, source, dest);
break;
case 0x4119:
LOG_MESSAGE(ENUM_IN_OPERATION_POWER_ZONE1, message.value, source, dest);
break;
case 0x411E:
LOG_MESSAGE(ENUM_IN_OPERATION_POWER_ZONE2, message.value, source, dest);
break;
case 0x4002: // ENUM_in_operation_mode_real
// Todo Map
LOG_MESSAGE(ENUM_in_operation_mode_real, message.value, source, dest);
break;
case 0x4008: // ENUM_in_fan_vent_mode
LOG_MESSAGE(ENUM_in_fan_vent_mode, message.value, source, dest);
// fan_vent_mode_to_fanmode();
break;
case 0x4211: // VAR_in_capacity_request unit = 'kW'
{
double temp = (double)message.value / (double)8.6;
LOG_MESSAGE(VAR_in_capacity_request, temp, source, dest);
break;
}
case 0x8001: // ENUM_out_operation_odu_mode
// Todo Map
LOG_MESSAGE(ENUM_out_operation_odu_mode, message.value, source, dest);
break;
case 0x8003: // ENUM_out_operation_heatcool
//['Undefined', 'Cool', 'Heat', 'CoolMain', 'HeatMain'];
// Todo Map
LOG_MESSAGE(ENUM_out_operation_heatcool, message.value, source, dest);
break;
case 0x801a: // ENUM_out_load_4way
LOG_MESSAGE(ENUM_out_load_4way, message.value, source, dest);
break;
case 0x8261: // VAR_OUT_SENSOR_PIPEIN3 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEIN3, temp, source, dest);
break;
}
case 0x8262: // VAR_OUT_SENSOR_PIPEIN4 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEIN4, temp, source, dest);
break;
}
case 0x8263: // VAR_OUT_SENSOR_PIPEIN5 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEIN5, temp, source, dest);
break;
}
case 0x8264: // VAR_OUT_SENSOR_PIPEOUT1 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEOUT1, temp, source, dest);
break;
}
case 0x8265: // VAR_OUT_SENSOR_PIPEOUT2 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEOUT2, temp, source, dest);
break;
}
case 0x8266: // VAR_OUT_SENSOR_PIPEOUT3 unit = 'Celsius'
{
double temp = (double)message.value / (double)10;
LOG_MESSAGE(VAR_OUT_SENSOR_PIPEOUT3, temp, source, dest);