// This file was automatically generated with a tool. // See scripts/api_protobuf/api_protobuf.py #include "api_pb2.h" #include "esphome/core/log.h" #include namespace esphome { namespace api { #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::EntityCategory value) { switch (value) { case enums::ENTITY_CATEGORY_NONE: return "ENTITY_CATEGORY_NONE"; case enums::ENTITY_CATEGORY_CONFIG: return "ENTITY_CATEGORY_CONFIG"; case enums::ENTITY_CATEGORY_DIAGNOSTIC: return "ENTITY_CATEGORY_DIAGNOSTIC"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::LegacyCoverState value) { switch (value) { case enums::LEGACY_COVER_STATE_OPEN: return "LEGACY_COVER_STATE_OPEN"; case enums::LEGACY_COVER_STATE_CLOSED: return "LEGACY_COVER_STATE_CLOSED"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::CoverOperation value) { switch (value) { case enums::COVER_OPERATION_IDLE: return "COVER_OPERATION_IDLE"; case enums::COVER_OPERATION_IS_OPENING: return "COVER_OPERATION_IS_OPENING"; case enums::COVER_OPERATION_IS_CLOSING: return "COVER_OPERATION_IS_CLOSING"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::LegacyCoverCommand value) { switch (value) { case enums::LEGACY_COVER_COMMAND_OPEN: return "LEGACY_COVER_COMMAND_OPEN"; case enums::LEGACY_COVER_COMMAND_CLOSE: return "LEGACY_COVER_COMMAND_CLOSE"; case enums::LEGACY_COVER_COMMAND_STOP: return "LEGACY_COVER_COMMAND_STOP"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::FanSpeed value) { switch (value) { case enums::FAN_SPEED_LOW: return "FAN_SPEED_LOW"; case enums::FAN_SPEED_MEDIUM: return "FAN_SPEED_MEDIUM"; case enums::FAN_SPEED_HIGH: return "FAN_SPEED_HIGH"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::FanDirection value) { switch (value) { case enums::FAN_DIRECTION_FORWARD: return "FAN_DIRECTION_FORWARD"; case enums::FAN_DIRECTION_REVERSE: return "FAN_DIRECTION_REVERSE"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ColorMode value) { switch (value) { case enums::COLOR_MODE_UNKNOWN: return "COLOR_MODE_UNKNOWN"; case enums::COLOR_MODE_ON_OFF: return "COLOR_MODE_ON_OFF"; case enums::COLOR_MODE_BRIGHTNESS: return "COLOR_MODE_BRIGHTNESS"; case enums::COLOR_MODE_WHITE: return "COLOR_MODE_WHITE"; case enums::COLOR_MODE_COLOR_TEMPERATURE: return "COLOR_MODE_COLOR_TEMPERATURE"; case enums::COLOR_MODE_COLD_WARM_WHITE: return "COLOR_MODE_COLD_WARM_WHITE"; case enums::COLOR_MODE_RGB: return "COLOR_MODE_RGB"; case enums::COLOR_MODE_RGB_WHITE: return "COLOR_MODE_RGB_WHITE"; case enums::COLOR_MODE_RGB_COLOR_TEMPERATURE: return "COLOR_MODE_RGB_COLOR_TEMPERATURE"; case enums::COLOR_MODE_RGB_COLD_WARM_WHITE: return "COLOR_MODE_RGB_COLD_WARM_WHITE"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::SensorStateClass value) { switch (value) { case enums::STATE_CLASS_NONE: return "STATE_CLASS_NONE"; case enums::STATE_CLASS_MEASUREMENT: return "STATE_CLASS_MEASUREMENT"; case enums::STATE_CLASS_TOTAL_INCREASING: return "STATE_CLASS_TOTAL_INCREASING"; case enums::STATE_CLASS_TOTAL: return "STATE_CLASS_TOTAL"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::SensorLastResetType value) { switch (value) { case enums::LAST_RESET_NONE: return "LAST_RESET_NONE"; case enums::LAST_RESET_NEVER: return "LAST_RESET_NEVER"; case enums::LAST_RESET_AUTO: return "LAST_RESET_AUTO"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::LogLevel value) { switch (value) { case enums::LOG_LEVEL_NONE: return "LOG_LEVEL_NONE"; case enums::LOG_LEVEL_ERROR: return "LOG_LEVEL_ERROR"; case enums::LOG_LEVEL_WARN: return "LOG_LEVEL_WARN"; case enums::LOG_LEVEL_INFO: return "LOG_LEVEL_INFO"; case enums::LOG_LEVEL_CONFIG: return "LOG_LEVEL_CONFIG"; case enums::LOG_LEVEL_DEBUG: return "LOG_LEVEL_DEBUG"; case enums::LOG_LEVEL_VERBOSE: return "LOG_LEVEL_VERBOSE"; case enums::LOG_LEVEL_VERY_VERBOSE: return "LOG_LEVEL_VERY_VERBOSE"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ServiceArgType value) { switch (value) { case enums::SERVICE_ARG_TYPE_BOOL: return "SERVICE_ARG_TYPE_BOOL"; case enums::SERVICE_ARG_TYPE_INT: return "SERVICE_ARG_TYPE_INT"; case enums::SERVICE_ARG_TYPE_FLOAT: return "SERVICE_ARG_TYPE_FLOAT"; case enums::SERVICE_ARG_TYPE_STRING: return "SERVICE_ARG_TYPE_STRING"; case enums::SERVICE_ARG_TYPE_BOOL_ARRAY: return "SERVICE_ARG_TYPE_BOOL_ARRAY"; case enums::SERVICE_ARG_TYPE_INT_ARRAY: return "SERVICE_ARG_TYPE_INT_ARRAY"; case enums::SERVICE_ARG_TYPE_FLOAT_ARRAY: return "SERVICE_ARG_TYPE_FLOAT_ARRAY"; case enums::SERVICE_ARG_TYPE_STRING_ARRAY: return "SERVICE_ARG_TYPE_STRING_ARRAY"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ClimateMode value) { switch (value) { case enums::CLIMATE_MODE_OFF: return "CLIMATE_MODE_OFF"; case enums::CLIMATE_MODE_HEAT_COOL: return "CLIMATE_MODE_HEAT_COOL"; case enums::CLIMATE_MODE_COOL: return "CLIMATE_MODE_COOL"; case enums::CLIMATE_MODE_HEAT: return "CLIMATE_MODE_HEAT"; case enums::CLIMATE_MODE_FAN_ONLY: return "CLIMATE_MODE_FAN_ONLY"; case enums::CLIMATE_MODE_DRY: return "CLIMATE_MODE_DRY"; case enums::CLIMATE_MODE_AUTO: return "CLIMATE_MODE_AUTO"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ClimateFanMode value) { switch (value) { case enums::CLIMATE_FAN_ON: return "CLIMATE_FAN_ON"; case enums::CLIMATE_FAN_OFF: return "CLIMATE_FAN_OFF"; case enums::CLIMATE_FAN_AUTO: return "CLIMATE_FAN_AUTO"; case enums::CLIMATE_FAN_LOW: return "CLIMATE_FAN_LOW"; case enums::CLIMATE_FAN_MEDIUM: return "CLIMATE_FAN_MEDIUM"; case enums::CLIMATE_FAN_HIGH: return "CLIMATE_FAN_HIGH"; case enums::CLIMATE_FAN_MIDDLE: return "CLIMATE_FAN_MIDDLE"; case enums::CLIMATE_FAN_FOCUS: return "CLIMATE_FAN_FOCUS"; case enums::CLIMATE_FAN_DIFFUSE: return "CLIMATE_FAN_DIFFUSE"; case enums::CLIMATE_FAN_QUIET: return "CLIMATE_FAN_QUIET"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ClimateSwingMode value) { switch (value) { case enums::CLIMATE_SWING_OFF: return "CLIMATE_SWING_OFF"; case enums::CLIMATE_SWING_BOTH: return "CLIMATE_SWING_BOTH"; case enums::CLIMATE_SWING_VERTICAL: return "CLIMATE_SWING_VERTICAL"; case enums::CLIMATE_SWING_HORIZONTAL: return "CLIMATE_SWING_HORIZONTAL"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ClimateAction value) { switch (value) { case enums::CLIMATE_ACTION_OFF: return "CLIMATE_ACTION_OFF"; case enums::CLIMATE_ACTION_COOLING: return "CLIMATE_ACTION_COOLING"; case enums::CLIMATE_ACTION_HEATING: return "CLIMATE_ACTION_HEATING"; case enums::CLIMATE_ACTION_IDLE: return "CLIMATE_ACTION_IDLE"; case enums::CLIMATE_ACTION_DRYING: return "CLIMATE_ACTION_DRYING"; case enums::CLIMATE_ACTION_FAN: return "CLIMATE_ACTION_FAN"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ClimatePreset value) { switch (value) { case enums::CLIMATE_PRESET_NONE: return "CLIMATE_PRESET_NONE"; case enums::CLIMATE_PRESET_HOME: return "CLIMATE_PRESET_HOME"; case enums::CLIMATE_PRESET_AWAY: return "CLIMATE_PRESET_AWAY"; case enums::CLIMATE_PRESET_BOOST: return "CLIMATE_PRESET_BOOST"; case enums::CLIMATE_PRESET_COMFORT: return "CLIMATE_PRESET_COMFORT"; case enums::CLIMATE_PRESET_ECO: return "CLIMATE_PRESET_ECO"; case enums::CLIMATE_PRESET_SLEEP: return "CLIMATE_PRESET_SLEEP"; case enums::CLIMATE_PRESET_ACTIVITY: return "CLIMATE_PRESET_ACTIVITY"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::NumberMode value) { switch (value) { case enums::NUMBER_MODE_AUTO: return "NUMBER_MODE_AUTO"; case enums::NUMBER_MODE_BOX: return "NUMBER_MODE_BOX"; case enums::NUMBER_MODE_SLIDER: return "NUMBER_MODE_SLIDER"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::LockState value) { switch (value) { case enums::LOCK_STATE_NONE: return "LOCK_STATE_NONE"; case enums::LOCK_STATE_LOCKED: return "LOCK_STATE_LOCKED"; case enums::LOCK_STATE_UNLOCKED: return "LOCK_STATE_UNLOCKED"; case enums::LOCK_STATE_JAMMED: return "LOCK_STATE_JAMMED"; case enums::LOCK_STATE_LOCKING: return "LOCK_STATE_LOCKING"; case enums::LOCK_STATE_UNLOCKING: return "LOCK_STATE_UNLOCKING"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::LockCommand value) { switch (value) { case enums::LOCK_UNLOCK: return "LOCK_UNLOCK"; case enums::LOCK_LOCK: return "LOCK_LOCK"; case enums::LOCK_OPEN: return "LOCK_OPEN"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::MediaPlayerState value) { switch (value) { case enums::MEDIA_PLAYER_STATE_NONE: return "MEDIA_PLAYER_STATE_NONE"; case enums::MEDIA_PLAYER_STATE_IDLE: return "MEDIA_PLAYER_STATE_IDLE"; case enums::MEDIA_PLAYER_STATE_PLAYING: return "MEDIA_PLAYER_STATE_PLAYING"; case enums::MEDIA_PLAYER_STATE_PAUSED: return "MEDIA_PLAYER_STATE_PAUSED"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::MediaPlayerCommand value) { switch (value) { case enums::MEDIA_PLAYER_COMMAND_PLAY: return "MEDIA_PLAYER_COMMAND_PLAY"; case enums::MEDIA_PLAYER_COMMAND_PAUSE: return "MEDIA_PLAYER_COMMAND_PAUSE"; case enums::MEDIA_PLAYER_COMMAND_STOP: return "MEDIA_PLAYER_COMMAND_STOP"; case enums::MEDIA_PLAYER_COMMAND_MUTE: return "MEDIA_PLAYER_COMMAND_MUTE"; case enums::MEDIA_PLAYER_COMMAND_UNMUTE: return "MEDIA_PLAYER_COMMAND_UNMUTE"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::BluetoothDeviceRequestType value) { switch (value) { case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT: return "BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_DISCONNECT: return "BLUETOOTH_DEVICE_REQUEST_TYPE_DISCONNECT"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_PAIR: return "BLUETOOTH_DEVICE_REQUEST_TYPE_PAIR"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_UNPAIR: return "BLUETOOTH_DEVICE_REQUEST_TYPE_UNPAIR"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT_V3_WITH_CACHE: return "BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT_V3_WITH_CACHE"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT_V3_WITHOUT_CACHE: return "BLUETOOTH_DEVICE_REQUEST_TYPE_CONNECT_V3_WITHOUT_CACHE"; case enums::BLUETOOTH_DEVICE_REQUEST_TYPE_CLEAR_CACHE: return "BLUETOOTH_DEVICE_REQUEST_TYPE_CLEAR_CACHE"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::VoiceAssistantSubscribeFlag value) { switch (value) { case enums::VOICE_ASSISTANT_SUBSCRIBE_NONE: return "VOICE_ASSISTANT_SUBSCRIBE_NONE"; case enums::VOICE_ASSISTANT_SUBSCRIBE_API_AUDIO: return "VOICE_ASSISTANT_SUBSCRIBE_API_AUDIO"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::VoiceAssistantRequestFlag value) { switch (value) { case enums::VOICE_ASSISTANT_REQUEST_NONE: return "VOICE_ASSISTANT_REQUEST_NONE"; case enums::VOICE_ASSISTANT_REQUEST_USE_VAD: return "VOICE_ASSISTANT_REQUEST_USE_VAD"; case enums::VOICE_ASSISTANT_REQUEST_USE_WAKE_WORD: return "VOICE_ASSISTANT_REQUEST_USE_WAKE_WORD"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::VoiceAssistantEvent value) { switch (value) { case enums::VOICE_ASSISTANT_ERROR: return "VOICE_ASSISTANT_ERROR"; case enums::VOICE_ASSISTANT_RUN_START: return "VOICE_ASSISTANT_RUN_START"; case enums::VOICE_ASSISTANT_RUN_END: return "VOICE_ASSISTANT_RUN_END"; case enums::VOICE_ASSISTANT_STT_START: return "VOICE_ASSISTANT_STT_START"; case enums::VOICE_ASSISTANT_STT_END: return "VOICE_ASSISTANT_STT_END"; case enums::VOICE_ASSISTANT_INTENT_START: return "VOICE_ASSISTANT_INTENT_START"; case enums::VOICE_ASSISTANT_INTENT_END: return "VOICE_ASSISTANT_INTENT_END"; case enums::VOICE_ASSISTANT_TTS_START: return "VOICE_ASSISTANT_TTS_START"; case enums::VOICE_ASSISTANT_TTS_END: return "VOICE_ASSISTANT_TTS_END"; case enums::VOICE_ASSISTANT_WAKE_WORD_START: return "VOICE_ASSISTANT_WAKE_WORD_START"; case enums::VOICE_ASSISTANT_WAKE_WORD_END: return "VOICE_ASSISTANT_WAKE_WORD_END"; case enums::VOICE_ASSISTANT_STT_VAD_START: return "VOICE_ASSISTANT_STT_VAD_START"; case enums::VOICE_ASSISTANT_STT_VAD_END: return "VOICE_ASSISTANT_STT_VAD_END"; case enums::VOICE_ASSISTANT_TTS_STREAM_START: return "VOICE_ASSISTANT_TTS_STREAM_START"; case enums::VOICE_ASSISTANT_TTS_STREAM_END: return "VOICE_ASSISTANT_TTS_STREAM_END"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::AlarmControlPanelState value) { switch (value) { case enums::ALARM_STATE_DISARMED: return "ALARM_STATE_DISARMED"; case enums::ALARM_STATE_ARMED_HOME: return "ALARM_STATE_ARMED_HOME"; case enums::ALARM_STATE_ARMED_AWAY: return "ALARM_STATE_ARMED_AWAY"; case enums::ALARM_STATE_ARMED_NIGHT: return "ALARM_STATE_ARMED_NIGHT"; case enums::ALARM_STATE_ARMED_VACATION: return "ALARM_STATE_ARMED_VACATION"; case enums::ALARM_STATE_ARMED_CUSTOM_BYPASS: return "ALARM_STATE_ARMED_CUSTOM_BYPASS"; case enums::ALARM_STATE_PENDING: return "ALARM_STATE_PENDING"; case enums::ALARM_STATE_ARMING: return "ALARM_STATE_ARMING"; case enums::ALARM_STATE_DISARMING: return "ALARM_STATE_DISARMING"; case enums::ALARM_STATE_TRIGGERED: return "ALARM_STATE_TRIGGERED"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::AlarmControlPanelStateCommand value) { switch (value) { case enums::ALARM_CONTROL_PANEL_DISARM: return "ALARM_CONTROL_PANEL_DISARM"; case enums::ALARM_CONTROL_PANEL_ARM_AWAY: return "ALARM_CONTROL_PANEL_ARM_AWAY"; case enums::ALARM_CONTROL_PANEL_ARM_HOME: return "ALARM_CONTROL_PANEL_ARM_HOME"; case enums::ALARM_CONTROL_PANEL_ARM_NIGHT: return "ALARM_CONTROL_PANEL_ARM_NIGHT"; case enums::ALARM_CONTROL_PANEL_ARM_VACATION: return "ALARM_CONTROL_PANEL_ARM_VACATION"; case enums::ALARM_CONTROL_PANEL_ARM_CUSTOM_BYPASS: return "ALARM_CONTROL_PANEL_ARM_CUSTOM_BYPASS"; case enums::ALARM_CONTROL_PANEL_TRIGGER: return "ALARM_CONTROL_PANEL_TRIGGER"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::TextMode value) { switch (value) { case enums::TEXT_MODE_TEXT: return "TEXT_MODE_TEXT"; case enums::TEXT_MODE_PASSWORD: return "TEXT_MODE_PASSWORD"; default: return "UNKNOWN"; } } #endif #ifdef HAS_PROTO_MESSAGE_DUMP template<> const char *proto_enum_to_string(enums::ValveOperation value) { switch (value) { case enums::VALVE_OPERATION_IDLE: return "VALVE_OPERATION_IDLE"; case enums::VALVE_OPERATION_IS_OPENING: return "VALVE_OPERATION_IS_OPENING"; case enums::VALVE_OPERATION_IS_CLOSING: return "VALVE_OPERATION_IS_CLOSING"; default: return "UNKNOWN"; } } #endif bool HelloRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->api_version_major = value.as_uint32(); return true; } case 3: { this->api_version_minor = value.as_uint32(); return true; } default: return false; } } bool HelloRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->client_info = value.as_string(); return true; } default: return false; } } void HelloRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->client_info); buffer.encode_uint32(2, this->api_version_major); buffer.encode_uint32(3, this->api_version_minor); } #ifdef HAS_PROTO_MESSAGE_DUMP void HelloRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("HelloRequest {\n"); out.append(" client_info: "); out.append("'").append(this->client_info).append("'"); out.append("\n"); out.append(" api_version_major: "); sprintf(buffer, "%" PRIu32, this->api_version_major); out.append(buffer); out.append("\n"); out.append(" api_version_minor: "); sprintf(buffer, "%" PRIu32, this->api_version_minor); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool HelloResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->api_version_major = value.as_uint32(); return true; } case 2: { this->api_version_minor = value.as_uint32(); return true; } default: return false; } } bool HelloResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->server_info = value.as_string(); return true; } case 4: { this->name = value.as_string(); return true; } default: return false; } } void HelloResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint32(1, this->api_version_major); buffer.encode_uint32(2, this->api_version_minor); buffer.encode_string(3, this->server_info); buffer.encode_string(4, this->name); } #ifdef HAS_PROTO_MESSAGE_DUMP void HelloResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("HelloResponse {\n"); out.append(" api_version_major: "); sprintf(buffer, "%" PRIu32, this->api_version_major); out.append(buffer); out.append("\n"); out.append(" api_version_minor: "); sprintf(buffer, "%" PRIu32, this->api_version_minor); out.append(buffer); out.append("\n"); out.append(" server_info: "); out.append("'").append(this->server_info).append("'"); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append("}"); } #endif bool ConnectRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->password = value.as_string(); return true; } default: return false; } } void ConnectRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->password); } #ifdef HAS_PROTO_MESSAGE_DUMP void ConnectRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ConnectRequest {\n"); out.append(" password: "); out.append("'").append(this->password).append("'"); out.append("\n"); out.append("}"); } #endif bool ConnectResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->invalid_password = value.as_bool(); return true; } default: return false; } } void ConnectResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->invalid_password); } #ifdef HAS_PROTO_MESSAGE_DUMP void ConnectResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ConnectResponse {\n"); out.append(" invalid_password: "); out.append(YESNO(this->invalid_password)); out.append("\n"); out.append("}"); } #endif void DisconnectRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void DisconnectRequest::dump_to(std::string &out) const { out.append("DisconnectRequest {}"); } #endif void DisconnectResponse::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void DisconnectResponse::dump_to(std::string &out) const { out.append("DisconnectResponse {}"); } #endif void PingRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void PingRequest::dump_to(std::string &out) const { out.append("PingRequest {}"); } #endif void PingResponse::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void PingResponse::dump_to(std::string &out) const { out.append("PingResponse {}"); } #endif void DeviceInfoRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void DeviceInfoRequest::dump_to(std::string &out) const { out.append("DeviceInfoRequest {}"); } #endif bool DeviceInfoResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->uses_password = value.as_bool(); return true; } case 7: { this->has_deep_sleep = value.as_bool(); return true; } case 10: { this->webserver_port = value.as_uint32(); return true; } case 11: { this->legacy_bluetooth_proxy_version = value.as_uint32(); return true; } case 15: { this->bluetooth_proxy_feature_flags = value.as_uint32(); return true; } case 14: { this->legacy_voice_assistant_version = value.as_uint32(); return true; } case 17: { this->voice_assistant_feature_flags = value.as_uint32(); return true; } default: return false; } } bool DeviceInfoResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->name = value.as_string(); return true; } case 3: { this->mac_address = value.as_string(); return true; } case 4: { this->esphome_version = value.as_string(); return true; } case 5: { this->compilation_time = value.as_string(); return true; } case 6: { this->model = value.as_string(); return true; } case 8: { this->project_name = value.as_string(); return true; } case 9: { this->project_version = value.as_string(); return true; } case 12: { this->manufacturer = value.as_string(); return true; } case 13: { this->friendly_name = value.as_string(); return true; } case 16: { this->suggested_area = value.as_string(); return true; } default: return false; } } void DeviceInfoResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->uses_password); buffer.encode_string(2, this->name); buffer.encode_string(3, this->mac_address); buffer.encode_string(4, this->esphome_version); buffer.encode_string(5, this->compilation_time); buffer.encode_string(6, this->model); buffer.encode_bool(7, this->has_deep_sleep); buffer.encode_string(8, this->project_name); buffer.encode_string(9, this->project_version); buffer.encode_uint32(10, this->webserver_port); buffer.encode_uint32(11, this->legacy_bluetooth_proxy_version); buffer.encode_uint32(15, this->bluetooth_proxy_feature_flags); buffer.encode_string(12, this->manufacturer); buffer.encode_string(13, this->friendly_name); buffer.encode_uint32(14, this->legacy_voice_assistant_version); buffer.encode_uint32(17, this->voice_assistant_feature_flags); buffer.encode_string(16, this->suggested_area); } #ifdef HAS_PROTO_MESSAGE_DUMP void DeviceInfoResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("DeviceInfoResponse {\n"); out.append(" uses_password: "); out.append(YESNO(this->uses_password)); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" mac_address: "); out.append("'").append(this->mac_address).append("'"); out.append("\n"); out.append(" esphome_version: "); out.append("'").append(this->esphome_version).append("'"); out.append("\n"); out.append(" compilation_time: "); out.append("'").append(this->compilation_time).append("'"); out.append("\n"); out.append(" model: "); out.append("'").append(this->model).append("'"); out.append("\n"); out.append(" has_deep_sleep: "); out.append(YESNO(this->has_deep_sleep)); out.append("\n"); out.append(" project_name: "); out.append("'").append(this->project_name).append("'"); out.append("\n"); out.append(" project_version: "); out.append("'").append(this->project_version).append("'"); out.append("\n"); out.append(" webserver_port: "); sprintf(buffer, "%" PRIu32, this->webserver_port); out.append(buffer); out.append("\n"); out.append(" legacy_bluetooth_proxy_version: "); sprintf(buffer, "%" PRIu32, this->legacy_bluetooth_proxy_version); out.append(buffer); out.append("\n"); out.append(" bluetooth_proxy_feature_flags: "); sprintf(buffer, "%" PRIu32, this->bluetooth_proxy_feature_flags); out.append(buffer); out.append("\n"); out.append(" manufacturer: "); out.append("'").append(this->manufacturer).append("'"); out.append("\n"); out.append(" friendly_name: "); out.append("'").append(this->friendly_name).append("'"); out.append("\n"); out.append(" legacy_voice_assistant_version: "); sprintf(buffer, "%" PRIu32, this->legacy_voice_assistant_version); out.append(buffer); out.append("\n"); out.append(" voice_assistant_feature_flags: "); sprintf(buffer, "%" PRIu32, this->voice_assistant_feature_flags); out.append(buffer); out.append("\n"); out.append(" suggested_area: "); out.append("'").append(this->suggested_area).append("'"); out.append("\n"); out.append("}"); } #endif void ListEntitiesRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesRequest::dump_to(std::string &out) const { out.append("ListEntitiesRequest {}"); } #endif void ListEntitiesDoneResponse::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesDoneResponse::dump_to(std::string &out) const { out.append("ListEntitiesDoneResponse {}"); } #endif void SubscribeStatesRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeStatesRequest::dump_to(std::string &out) const { out.append("SubscribeStatesRequest {}"); } #endif bool ListEntitiesBinarySensorResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->is_status_binary_sensor = value.as_bool(); return true; } case 7: { this->disabled_by_default = value.as_bool(); return true; } case 9: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesBinarySensorResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->device_class = value.as_string(); return true; } case 8: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesBinarySensorResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesBinarySensorResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->device_class); buffer.encode_bool(6, this->is_status_binary_sensor); buffer.encode_bool(7, this->disabled_by_default); buffer.encode_string(8, this->icon); buffer.encode_enum(9, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesBinarySensorResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesBinarySensorResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append(" is_status_binary_sensor: "); out.append(YESNO(this->is_status_binary_sensor)); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool BinarySensorStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_bool(); return true; } case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool BinarySensorStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void BinarySensorStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void BinarySensorStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BinarySensorStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesCoverResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 5: { this->assumed_state = value.as_bool(); return true; } case 6: { this->supports_position = value.as_bool(); return true; } case 7: { this->supports_tilt = value.as_bool(); return true; } case 9: { this->disabled_by_default = value.as_bool(); return true; } case 11: { this->entity_category = value.as_enum(); return true; } case 12: { this->supports_stop = value.as_bool(); return true; } default: return false; } } bool ListEntitiesCoverResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 8: { this->device_class = value.as_string(); return true; } case 10: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesCoverResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesCoverResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_bool(5, this->assumed_state); buffer.encode_bool(6, this->supports_position); buffer.encode_bool(7, this->supports_tilt); buffer.encode_string(8, this->device_class); buffer.encode_bool(9, this->disabled_by_default); buffer.encode_string(10, this->icon); buffer.encode_enum(11, this->entity_category); buffer.encode_bool(12, this->supports_stop); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesCoverResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesCoverResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" assumed_state: "); out.append(YESNO(this->assumed_state)); out.append("\n"); out.append(" supports_position: "); out.append(YESNO(this->supports_position)); out.append("\n"); out.append(" supports_tilt: "); out.append(YESNO(this->supports_tilt)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" supports_stop: "); out.append(YESNO(this->supports_stop)); out.append("\n"); out.append("}"); } #endif bool CoverStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->legacy_state = value.as_enum(); return true; } case 5: { this->current_operation = value.as_enum(); return true; } default: return false; } } bool CoverStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->position = value.as_float(); return true; } case 4: { this->tilt = value.as_float(); return true; } default: return false; } } void CoverStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->legacy_state); buffer.encode_float(3, this->position); buffer.encode_float(4, this->tilt); buffer.encode_enum(5, this->current_operation); } #ifdef HAS_PROTO_MESSAGE_DUMP void CoverStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("CoverStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" legacy_state: "); out.append(proto_enum_to_string(this->legacy_state)); out.append("\n"); out.append(" position: "); sprintf(buffer, "%g", this->position); out.append(buffer); out.append("\n"); out.append(" tilt: "); sprintf(buffer, "%g", this->tilt); out.append(buffer); out.append("\n"); out.append(" current_operation: "); out.append(proto_enum_to_string(this->current_operation)); out.append("\n"); out.append("}"); } #endif bool CoverCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_legacy_command = value.as_bool(); return true; } case 3: { this->legacy_command = value.as_enum(); return true; } case 4: { this->has_position = value.as_bool(); return true; } case 6: { this->has_tilt = value.as_bool(); return true; } case 8: { this->stop = value.as_bool(); return true; } default: return false; } } bool CoverCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 5: { this->position = value.as_float(); return true; } case 7: { this->tilt = value.as_float(); return true; } default: return false; } } void CoverCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_legacy_command); buffer.encode_enum(3, this->legacy_command); buffer.encode_bool(4, this->has_position); buffer.encode_float(5, this->position); buffer.encode_bool(6, this->has_tilt); buffer.encode_float(7, this->tilt); buffer.encode_bool(8, this->stop); } #ifdef HAS_PROTO_MESSAGE_DUMP void CoverCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("CoverCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_legacy_command: "); out.append(YESNO(this->has_legacy_command)); out.append("\n"); out.append(" legacy_command: "); out.append(proto_enum_to_string(this->legacy_command)); out.append("\n"); out.append(" has_position: "); out.append(YESNO(this->has_position)); out.append("\n"); out.append(" position: "); sprintf(buffer, "%g", this->position); out.append(buffer); out.append("\n"); out.append(" has_tilt: "); out.append(YESNO(this->has_tilt)); out.append("\n"); out.append(" tilt: "); sprintf(buffer, "%g", this->tilt); out.append(buffer); out.append("\n"); out.append(" stop: "); out.append(YESNO(this->stop)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesFanResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 5: { this->supports_oscillation = value.as_bool(); return true; } case 6: { this->supports_speed = value.as_bool(); return true; } case 7: { this->supports_direction = value.as_bool(); return true; } case 8: { this->supported_speed_count = value.as_int32(); return true; } case 9: { this->disabled_by_default = value.as_bool(); return true; } case 11: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesFanResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 10: { this->icon = value.as_string(); return true; } case 12: { this->supported_preset_modes.push_back(value.as_string()); return true; } default: return false; } } bool ListEntitiesFanResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesFanResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_bool(5, this->supports_oscillation); buffer.encode_bool(6, this->supports_speed); buffer.encode_bool(7, this->supports_direction); buffer.encode_int32(8, this->supported_speed_count); buffer.encode_bool(9, this->disabled_by_default); buffer.encode_string(10, this->icon); buffer.encode_enum(11, this->entity_category); for (auto &it : this->supported_preset_modes) { buffer.encode_string(12, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesFanResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesFanResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" supports_oscillation: "); out.append(YESNO(this->supports_oscillation)); out.append("\n"); out.append(" supports_speed: "); out.append(YESNO(this->supports_speed)); out.append("\n"); out.append(" supports_direction: "); out.append(YESNO(this->supports_direction)); out.append("\n"); out.append(" supported_speed_count: "); sprintf(buffer, "%" PRId32, this->supported_speed_count); out.append(buffer); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); for (const auto &it : this->supported_preset_modes) { out.append(" supported_preset_modes: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append("}"); } #endif bool FanStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_bool(); return true; } case 3: { this->oscillating = value.as_bool(); return true; } case 4: { this->speed = value.as_enum(); return true; } case 5: { this->direction = value.as_enum(); return true; } case 6: { this->speed_level = value.as_int32(); return true; } default: return false; } } bool FanStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 7: { this->preset_mode = value.as_string(); return true; } default: return false; } } bool FanStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void FanStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->state); buffer.encode_bool(3, this->oscillating); buffer.encode_enum(4, this->speed); buffer.encode_enum(5, this->direction); buffer.encode_int32(6, this->speed_level); buffer.encode_string(7, this->preset_mode); } #ifdef HAS_PROTO_MESSAGE_DUMP void FanStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("FanStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append(" oscillating: "); out.append(YESNO(this->oscillating)); out.append("\n"); out.append(" speed: "); out.append(proto_enum_to_string(this->speed)); out.append("\n"); out.append(" direction: "); out.append(proto_enum_to_string(this->direction)); out.append("\n"); out.append(" speed_level: "); sprintf(buffer, "%" PRId32, this->speed_level); out.append(buffer); out.append("\n"); out.append(" preset_mode: "); out.append("'").append(this->preset_mode).append("'"); out.append("\n"); out.append("}"); } #endif bool FanCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_state = value.as_bool(); return true; } case 3: { this->state = value.as_bool(); return true; } case 4: { this->has_speed = value.as_bool(); return true; } case 5: { this->speed = value.as_enum(); return true; } case 6: { this->has_oscillating = value.as_bool(); return true; } case 7: { this->oscillating = value.as_bool(); return true; } case 8: { this->has_direction = value.as_bool(); return true; } case 9: { this->direction = value.as_enum(); return true; } case 10: { this->has_speed_level = value.as_bool(); return true; } case 11: { this->speed_level = value.as_int32(); return true; } case 12: { this->has_preset_mode = value.as_bool(); return true; } default: return false; } } bool FanCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 13: { this->preset_mode = value.as_string(); return true; } default: return false; } } bool FanCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void FanCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_state); buffer.encode_bool(3, this->state); buffer.encode_bool(4, this->has_speed); buffer.encode_enum(5, this->speed); buffer.encode_bool(6, this->has_oscillating); buffer.encode_bool(7, this->oscillating); buffer.encode_bool(8, this->has_direction); buffer.encode_enum(9, this->direction); buffer.encode_bool(10, this->has_speed_level); buffer.encode_int32(11, this->speed_level); buffer.encode_bool(12, this->has_preset_mode); buffer.encode_string(13, this->preset_mode); } #ifdef HAS_PROTO_MESSAGE_DUMP void FanCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("FanCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_state: "); out.append(YESNO(this->has_state)); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append(" has_speed: "); out.append(YESNO(this->has_speed)); out.append("\n"); out.append(" speed: "); out.append(proto_enum_to_string(this->speed)); out.append("\n"); out.append(" has_oscillating: "); out.append(YESNO(this->has_oscillating)); out.append("\n"); out.append(" oscillating: "); out.append(YESNO(this->oscillating)); out.append("\n"); out.append(" has_direction: "); out.append(YESNO(this->has_direction)); out.append("\n"); out.append(" direction: "); out.append(proto_enum_to_string(this->direction)); out.append("\n"); out.append(" has_speed_level: "); out.append(YESNO(this->has_speed_level)); out.append("\n"); out.append(" speed_level: "); sprintf(buffer, "%" PRId32, this->speed_level); out.append(buffer); out.append("\n"); out.append(" has_preset_mode: "); out.append(YESNO(this->has_preset_mode)); out.append("\n"); out.append(" preset_mode: "); out.append("'").append(this->preset_mode).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesLightResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 12: { this->supported_color_modes.push_back(value.as_enum()); return true; } case 5: { this->legacy_supports_brightness = value.as_bool(); return true; } case 6: { this->legacy_supports_rgb = value.as_bool(); return true; } case 7: { this->legacy_supports_white_value = value.as_bool(); return true; } case 8: { this->legacy_supports_color_temperature = value.as_bool(); return true; } case 13: { this->disabled_by_default = value.as_bool(); return true; } case 15: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesLightResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 11: { this->effects.push_back(value.as_string()); return true; } case 14: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesLightResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } case 9: { this->min_mireds = value.as_float(); return true; } case 10: { this->max_mireds = value.as_float(); return true; } default: return false; } } void ListEntitiesLightResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); for (auto &it : this->supported_color_modes) { buffer.encode_enum(12, it, true); } buffer.encode_bool(5, this->legacy_supports_brightness); buffer.encode_bool(6, this->legacy_supports_rgb); buffer.encode_bool(7, this->legacy_supports_white_value); buffer.encode_bool(8, this->legacy_supports_color_temperature); buffer.encode_float(9, this->min_mireds); buffer.encode_float(10, this->max_mireds); for (auto &it : this->effects) { buffer.encode_string(11, it, true); } buffer.encode_bool(13, this->disabled_by_default); buffer.encode_string(14, this->icon); buffer.encode_enum(15, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesLightResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesLightResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); for (const auto &it : this->supported_color_modes) { out.append(" supported_color_modes: "); out.append(proto_enum_to_string(it)); out.append("\n"); } out.append(" legacy_supports_brightness: "); out.append(YESNO(this->legacy_supports_brightness)); out.append("\n"); out.append(" legacy_supports_rgb: "); out.append(YESNO(this->legacy_supports_rgb)); out.append("\n"); out.append(" legacy_supports_white_value: "); out.append(YESNO(this->legacy_supports_white_value)); out.append("\n"); out.append(" legacy_supports_color_temperature: "); out.append(YESNO(this->legacy_supports_color_temperature)); out.append("\n"); out.append(" min_mireds: "); sprintf(buffer, "%g", this->min_mireds); out.append(buffer); out.append("\n"); out.append(" max_mireds: "); sprintf(buffer, "%g", this->max_mireds); out.append(buffer); out.append("\n"); for (const auto &it : this->effects) { out.append(" effects: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool LightStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_bool(); return true; } case 11: { this->color_mode = value.as_enum(); return true; } default: return false; } } bool LightStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 9: { this->effect = value.as_string(); return true; } default: return false; } } bool LightStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->brightness = value.as_float(); return true; } case 10: { this->color_brightness = value.as_float(); return true; } case 4: { this->red = value.as_float(); return true; } case 5: { this->green = value.as_float(); return true; } case 6: { this->blue = value.as_float(); return true; } case 7: { this->white = value.as_float(); return true; } case 8: { this->color_temperature = value.as_float(); return true; } case 12: { this->cold_white = value.as_float(); return true; } case 13: { this->warm_white = value.as_float(); return true; } default: return false; } } void LightStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->state); buffer.encode_float(3, this->brightness); buffer.encode_enum(11, this->color_mode); buffer.encode_float(10, this->color_brightness); buffer.encode_float(4, this->red); buffer.encode_float(5, this->green); buffer.encode_float(6, this->blue); buffer.encode_float(7, this->white); buffer.encode_float(8, this->color_temperature); buffer.encode_float(12, this->cold_white); buffer.encode_float(13, this->warm_white); buffer.encode_string(9, this->effect); } #ifdef HAS_PROTO_MESSAGE_DUMP void LightStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("LightStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append(" brightness: "); sprintf(buffer, "%g", this->brightness); out.append(buffer); out.append("\n"); out.append(" color_mode: "); out.append(proto_enum_to_string(this->color_mode)); out.append("\n"); out.append(" color_brightness: "); sprintf(buffer, "%g", this->color_brightness); out.append(buffer); out.append("\n"); out.append(" red: "); sprintf(buffer, "%g", this->red); out.append(buffer); out.append("\n"); out.append(" green: "); sprintf(buffer, "%g", this->green); out.append(buffer); out.append("\n"); out.append(" blue: "); sprintf(buffer, "%g", this->blue); out.append(buffer); out.append("\n"); out.append(" white: "); sprintf(buffer, "%g", this->white); out.append(buffer); out.append("\n"); out.append(" color_temperature: "); sprintf(buffer, "%g", this->color_temperature); out.append(buffer); out.append("\n"); out.append(" cold_white: "); sprintf(buffer, "%g", this->cold_white); out.append(buffer); out.append("\n"); out.append(" warm_white: "); sprintf(buffer, "%g", this->warm_white); out.append(buffer); out.append("\n"); out.append(" effect: "); out.append("'").append(this->effect).append("'"); out.append("\n"); out.append("}"); } #endif bool LightCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_state = value.as_bool(); return true; } case 3: { this->state = value.as_bool(); return true; } case 4: { this->has_brightness = value.as_bool(); return true; } case 22: { this->has_color_mode = value.as_bool(); return true; } case 23: { this->color_mode = value.as_enum(); return true; } case 20: { this->has_color_brightness = value.as_bool(); return true; } case 6: { this->has_rgb = value.as_bool(); return true; } case 10: { this->has_white = value.as_bool(); return true; } case 12: { this->has_color_temperature = value.as_bool(); return true; } case 24: { this->has_cold_white = value.as_bool(); return true; } case 26: { this->has_warm_white = value.as_bool(); return true; } case 14: { this->has_transition_length = value.as_bool(); return true; } case 15: { this->transition_length = value.as_uint32(); return true; } case 16: { this->has_flash_length = value.as_bool(); return true; } case 17: { this->flash_length = value.as_uint32(); return true; } case 18: { this->has_effect = value.as_bool(); return true; } default: return false; } } bool LightCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 19: { this->effect = value.as_string(); return true; } default: return false; } } bool LightCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 5: { this->brightness = value.as_float(); return true; } case 21: { this->color_brightness = value.as_float(); return true; } case 7: { this->red = value.as_float(); return true; } case 8: { this->green = value.as_float(); return true; } case 9: { this->blue = value.as_float(); return true; } case 11: { this->white = value.as_float(); return true; } case 13: { this->color_temperature = value.as_float(); return true; } case 25: { this->cold_white = value.as_float(); return true; } case 27: { this->warm_white = value.as_float(); return true; } default: return false; } } void LightCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_state); buffer.encode_bool(3, this->state); buffer.encode_bool(4, this->has_brightness); buffer.encode_float(5, this->brightness); buffer.encode_bool(22, this->has_color_mode); buffer.encode_enum(23, this->color_mode); buffer.encode_bool(20, this->has_color_brightness); buffer.encode_float(21, this->color_brightness); buffer.encode_bool(6, this->has_rgb); buffer.encode_float(7, this->red); buffer.encode_float(8, this->green); buffer.encode_float(9, this->blue); buffer.encode_bool(10, this->has_white); buffer.encode_float(11, this->white); buffer.encode_bool(12, this->has_color_temperature); buffer.encode_float(13, this->color_temperature); buffer.encode_bool(24, this->has_cold_white); buffer.encode_float(25, this->cold_white); buffer.encode_bool(26, this->has_warm_white); buffer.encode_float(27, this->warm_white); buffer.encode_bool(14, this->has_transition_length); buffer.encode_uint32(15, this->transition_length); buffer.encode_bool(16, this->has_flash_length); buffer.encode_uint32(17, this->flash_length); buffer.encode_bool(18, this->has_effect); buffer.encode_string(19, this->effect); } #ifdef HAS_PROTO_MESSAGE_DUMP void LightCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("LightCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_state: "); out.append(YESNO(this->has_state)); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append(" has_brightness: "); out.append(YESNO(this->has_brightness)); out.append("\n"); out.append(" brightness: "); sprintf(buffer, "%g", this->brightness); out.append(buffer); out.append("\n"); out.append(" has_color_mode: "); out.append(YESNO(this->has_color_mode)); out.append("\n"); out.append(" color_mode: "); out.append(proto_enum_to_string(this->color_mode)); out.append("\n"); out.append(" has_color_brightness: "); out.append(YESNO(this->has_color_brightness)); out.append("\n"); out.append(" color_brightness: "); sprintf(buffer, "%g", this->color_brightness); out.append(buffer); out.append("\n"); out.append(" has_rgb: "); out.append(YESNO(this->has_rgb)); out.append("\n"); out.append(" red: "); sprintf(buffer, "%g", this->red); out.append(buffer); out.append("\n"); out.append(" green: "); sprintf(buffer, "%g", this->green); out.append(buffer); out.append("\n"); out.append(" blue: "); sprintf(buffer, "%g", this->blue); out.append(buffer); out.append("\n"); out.append(" has_white: "); out.append(YESNO(this->has_white)); out.append("\n"); out.append(" white: "); sprintf(buffer, "%g", this->white); out.append(buffer); out.append("\n"); out.append(" has_color_temperature: "); out.append(YESNO(this->has_color_temperature)); out.append("\n"); out.append(" color_temperature: "); sprintf(buffer, "%g", this->color_temperature); out.append(buffer); out.append("\n"); out.append(" has_cold_white: "); out.append(YESNO(this->has_cold_white)); out.append("\n"); out.append(" cold_white: "); sprintf(buffer, "%g", this->cold_white); out.append(buffer); out.append("\n"); out.append(" has_warm_white: "); out.append(YESNO(this->has_warm_white)); out.append("\n"); out.append(" warm_white: "); sprintf(buffer, "%g", this->warm_white); out.append(buffer); out.append("\n"); out.append(" has_transition_length: "); out.append(YESNO(this->has_transition_length)); out.append("\n"); out.append(" transition_length: "); sprintf(buffer, "%" PRIu32, this->transition_length); out.append(buffer); out.append("\n"); out.append(" has_flash_length: "); out.append(YESNO(this->has_flash_length)); out.append("\n"); out.append(" flash_length: "); sprintf(buffer, "%" PRIu32, this->flash_length); out.append(buffer); out.append("\n"); out.append(" has_effect: "); out.append(YESNO(this->has_effect)); out.append("\n"); out.append(" effect: "); out.append("'").append(this->effect).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesSensorResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 7: { this->accuracy_decimals = value.as_int32(); return true; } case 8: { this->force_update = value.as_bool(); return true; } case 10: { this->state_class = value.as_enum(); return true; } case 11: { this->legacy_last_reset_type = value.as_enum(); return true; } case 12: { this->disabled_by_default = value.as_bool(); return true; } case 13: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesSensorResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 6: { this->unit_of_measurement = value.as_string(); return true; } case 9: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesSensorResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesSensorResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_string(6, this->unit_of_measurement); buffer.encode_int32(7, this->accuracy_decimals); buffer.encode_bool(8, this->force_update); buffer.encode_string(9, this->device_class); buffer.encode_enum(10, this->state_class); buffer.encode_enum(11, this->legacy_last_reset_type); buffer.encode_bool(12, this->disabled_by_default); buffer.encode_enum(13, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesSensorResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesSensorResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" unit_of_measurement: "); out.append("'").append(this->unit_of_measurement).append("'"); out.append("\n"); out.append(" accuracy_decimals: "); sprintf(buffer, "%" PRId32, this->accuracy_decimals); out.append(buffer); out.append("\n"); out.append(" force_update: "); out.append(YESNO(this->force_update)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append(" state_class: "); out.append(proto_enum_to_string(this->state_class)); out.append("\n"); out.append(" legacy_last_reset_type: "); out.append(proto_enum_to_string(this->legacy_last_reset_type)); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool SensorStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool SensorStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 2: { this->state = value.as_float(); return true; } default: return false; } } void SensorStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_float(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void SensorStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SensorStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); sprintf(buffer, "%g", this->state); out.append(buffer); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesSwitchResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->assumed_state = value.as_bool(); return true; } case 7: { this->disabled_by_default = value.as_bool(); return true; } case 8: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesSwitchResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 9: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesSwitchResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesSwitchResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->assumed_state); buffer.encode_bool(7, this->disabled_by_default); buffer.encode_enum(8, this->entity_category); buffer.encode_string(9, this->device_class); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesSwitchResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesSwitchResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" assumed_state: "); out.append(YESNO(this->assumed_state)); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append("}"); } #endif bool SwitchStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_bool(); return true; } default: return false; } } bool SwitchStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void SwitchStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void SwitchStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SwitchStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append("}"); } #endif bool SwitchCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_bool(); return true; } default: return false; } } bool SwitchCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void SwitchCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void SwitchCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SwitchCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(YESNO(this->state)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesTextSensorResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesTextSensorResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 8: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesTextSensorResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesTextSensorResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_string(8, this->device_class); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesTextSensorResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesTextSensorResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append("}"); } #endif bool TextSensorStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool TextSensorStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->state = value.as_string(); return true; } default: return false; } } bool TextSensorStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void TextSensorStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void TextSensorStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("TextSensorStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool SubscribeLogsRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->level = value.as_enum(); return true; } case 2: { this->dump_config = value.as_bool(); return true; } default: return false; } } void SubscribeLogsRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_enum(1, this->level); buffer.encode_bool(2, this->dump_config); } #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeLogsRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SubscribeLogsRequest {\n"); out.append(" level: "); out.append(proto_enum_to_string(this->level)); out.append("\n"); out.append(" dump_config: "); out.append(YESNO(this->dump_config)); out.append("\n"); out.append("}"); } #endif bool SubscribeLogsResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->level = value.as_enum(); return true; } case 4: { this->send_failed = value.as_bool(); return true; } default: return false; } } bool SubscribeLogsResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->message = value.as_string(); return true; } default: return false; } } void SubscribeLogsResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_enum(1, this->level); buffer.encode_string(3, this->message); buffer.encode_bool(4, this->send_failed); } #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeLogsResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SubscribeLogsResponse {\n"); out.append(" level: "); out.append(proto_enum_to_string(this->level)); out.append("\n"); out.append(" message: "); out.append("'").append(this->message).append("'"); out.append("\n"); out.append(" send_failed: "); out.append(YESNO(this->send_failed)); out.append("\n"); out.append("}"); } #endif void SubscribeHomeassistantServicesRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeHomeassistantServicesRequest::dump_to(std::string &out) const { out.append("SubscribeHomeassistantServicesRequest {}"); } #endif bool HomeassistantServiceMap::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->key = value.as_string(); return true; } case 2: { this->value = value.as_string(); return true; } default: return false; } } void HomeassistantServiceMap::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->key); buffer.encode_string(2, this->value); } #ifdef HAS_PROTO_MESSAGE_DUMP void HomeassistantServiceMap::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("HomeassistantServiceMap {\n"); out.append(" key: "); out.append("'").append(this->key).append("'"); out.append("\n"); out.append(" value: "); out.append("'").append(this->value).append("'"); out.append("\n"); out.append("}"); } #endif bool HomeassistantServiceResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 5: { this->is_event = value.as_bool(); return true; } default: return false; } } bool HomeassistantServiceResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->service = value.as_string(); return true; } case 2: { this->data.push_back(value.as_message()); return true; } case 3: { this->data_template.push_back(value.as_message()); return true; } case 4: { this->variables.push_back(value.as_message()); return true; } default: return false; } } void HomeassistantServiceResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->service); for (auto &it : this->data) { buffer.encode_message(2, it, true); } for (auto &it : this->data_template) { buffer.encode_message(3, it, true); } for (auto &it : this->variables) { buffer.encode_message(4, it, true); } buffer.encode_bool(5, this->is_event); } #ifdef HAS_PROTO_MESSAGE_DUMP void HomeassistantServiceResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("HomeassistantServiceResponse {\n"); out.append(" service: "); out.append("'").append(this->service).append("'"); out.append("\n"); for (const auto &it : this->data) { out.append(" data: "); it.dump_to(out); out.append("\n"); } for (const auto &it : this->data_template) { out.append(" data_template: "); it.dump_to(out); out.append("\n"); } for (const auto &it : this->variables) { out.append(" variables: "); it.dump_to(out); out.append("\n"); } out.append(" is_event: "); out.append(YESNO(this->is_event)); out.append("\n"); out.append("}"); } #endif void SubscribeHomeAssistantStatesRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeHomeAssistantStatesRequest::dump_to(std::string &out) const { out.append("SubscribeHomeAssistantStatesRequest {}"); } #endif bool SubscribeHomeAssistantStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->entity_id = value.as_string(); return true; } case 2: { this->attribute = value.as_string(); return true; } default: return false; } } void SubscribeHomeAssistantStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->entity_id); buffer.encode_string(2, this->attribute); } #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeHomeAssistantStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SubscribeHomeAssistantStateResponse {\n"); out.append(" entity_id: "); out.append("'").append(this->entity_id).append("'"); out.append("\n"); out.append(" attribute: "); out.append("'").append(this->attribute).append("'"); out.append("\n"); out.append("}"); } #endif bool HomeAssistantStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->entity_id = value.as_string(); return true; } case 2: { this->state = value.as_string(); return true; } case 3: { this->attribute = value.as_string(); return true; } default: return false; } } void HomeAssistantStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->entity_id); buffer.encode_string(2, this->state); buffer.encode_string(3, this->attribute); } #ifdef HAS_PROTO_MESSAGE_DUMP void HomeAssistantStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("HomeAssistantStateResponse {\n"); out.append(" entity_id: "); out.append("'").append(this->entity_id).append("'"); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append(" attribute: "); out.append("'").append(this->attribute).append("'"); out.append("\n"); out.append("}"); } #endif void GetTimeRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void GetTimeRequest::dump_to(std::string &out) const { out.append("GetTimeRequest {}"); } #endif bool GetTimeResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->epoch_seconds = value.as_fixed32(); return true; } default: return false; } } void GetTimeResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->epoch_seconds); } #ifdef HAS_PROTO_MESSAGE_DUMP void GetTimeResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("GetTimeResponse {\n"); out.append(" epoch_seconds: "); sprintf(buffer, "%" PRIu32, this->epoch_seconds); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesServicesArgument::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->type = value.as_enum(); return true; } default: return false; } } bool ListEntitiesServicesArgument::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->name = value.as_string(); return true; } default: return false; } } void ListEntitiesServicesArgument::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->name); buffer.encode_enum(2, this->type); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesServicesArgument::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesServicesArgument {\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" type: "); out.append(proto_enum_to_string(this->type)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesServicesResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->name = value.as_string(); return true; } case 3: { this->args.push_back(value.as_message()); return true; } default: return false; } } bool ListEntitiesServicesResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesServicesResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->name); buffer.encode_fixed32(2, this->key); for (auto &it : this->args) { buffer.encode_message(3, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesServicesResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesServicesResponse {\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); for (const auto &it : this->args) { out.append(" args: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool ExecuteServiceArgument::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->bool_ = value.as_bool(); return true; } case 2: { this->legacy_int = value.as_int32(); return true; } case 5: { this->int_ = value.as_sint32(); return true; } case 6: { this->bool_array.push_back(value.as_bool()); return true; } case 7: { this->int_array.push_back(value.as_sint32()); return true; } default: return false; } } bool ExecuteServiceArgument::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 4: { this->string_ = value.as_string(); return true; } case 9: { this->string_array.push_back(value.as_string()); return true; } default: return false; } } bool ExecuteServiceArgument::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 3: { this->float_ = value.as_float(); return true; } case 8: { this->float_array.push_back(value.as_float()); return true; } default: return false; } } void ExecuteServiceArgument::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->bool_); buffer.encode_int32(2, this->legacy_int); buffer.encode_float(3, this->float_); buffer.encode_string(4, this->string_); buffer.encode_sint32(5, this->int_); for (auto it : this->bool_array) { buffer.encode_bool(6, it, true); } for (auto &it : this->int_array) { buffer.encode_sint32(7, it, true); } for (auto &it : this->float_array) { buffer.encode_float(8, it, true); } for (auto &it : this->string_array) { buffer.encode_string(9, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void ExecuteServiceArgument::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ExecuteServiceArgument {\n"); out.append(" bool_: "); out.append(YESNO(this->bool_)); out.append("\n"); out.append(" legacy_int: "); sprintf(buffer, "%" PRId32, this->legacy_int); out.append(buffer); out.append("\n"); out.append(" float_: "); sprintf(buffer, "%g", this->float_); out.append(buffer); out.append("\n"); out.append(" string_: "); out.append("'").append(this->string_).append("'"); out.append("\n"); out.append(" int_: "); sprintf(buffer, "%" PRId32, this->int_); out.append(buffer); out.append("\n"); for (const auto it : this->bool_array) { out.append(" bool_array: "); out.append(YESNO(it)); out.append("\n"); } for (const auto &it : this->int_array) { out.append(" int_array: "); sprintf(buffer, "%" PRId32, it); out.append(buffer); out.append("\n"); } for (const auto &it : this->float_array) { out.append(" float_array: "); sprintf(buffer, "%g", it); out.append(buffer); out.append("\n"); } for (const auto &it : this->string_array) { out.append(" string_array: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append("}"); } #endif bool ExecuteServiceRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->args.push_back(value.as_message()); return true; } default: return false; } } bool ExecuteServiceRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void ExecuteServiceRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); for (auto &it : this->args) { buffer.encode_message(2, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void ExecuteServiceRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ExecuteServiceRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); for (const auto &it : this->args) { out.append(" args: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool ListEntitiesCameraResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 5: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesCameraResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 6: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesCameraResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesCameraResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_bool(5, this->disabled_by_default); buffer.encode_string(6, this->icon); buffer.encode_enum(7, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesCameraResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesCameraResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool CameraImageResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->done = value.as_bool(); return true; } default: return false; } } bool CameraImageResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->data = value.as_string(); return true; } default: return false; } } bool CameraImageResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void CameraImageResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->data); buffer.encode_bool(3, this->done); } #ifdef HAS_PROTO_MESSAGE_DUMP void CameraImageResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("CameraImageResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append(" done: "); out.append(YESNO(this->done)); out.append("\n"); out.append("}"); } #endif bool CameraImageRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->single = value.as_bool(); return true; } case 2: { this->stream = value.as_bool(); return true; } default: return false; } } void CameraImageRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->single); buffer.encode_bool(2, this->stream); } #ifdef HAS_PROTO_MESSAGE_DUMP void CameraImageRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("CameraImageRequest {\n"); out.append(" single: "); out.append(YESNO(this->single)); out.append("\n"); out.append(" stream: "); out.append(YESNO(this->stream)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesClimateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 5: { this->supports_current_temperature = value.as_bool(); return true; } case 6: { this->supports_two_point_target_temperature = value.as_bool(); return true; } case 7: { this->supported_modes.push_back(value.as_enum()); return true; } case 11: { this->legacy_supports_away = value.as_bool(); return true; } case 12: { this->supports_action = value.as_bool(); return true; } case 13: { this->supported_fan_modes.push_back(value.as_enum()); return true; } case 14: { this->supported_swing_modes.push_back(value.as_enum()); return true; } case 16: { this->supported_presets.push_back(value.as_enum()); return true; } case 18: { this->disabled_by_default = value.as_bool(); return true; } case 20: { this->entity_category = value.as_enum(); return true; } case 22: { this->supports_current_humidity = value.as_bool(); return true; } case 23: { this->supports_target_humidity = value.as_bool(); return true; } default: return false; } } bool ListEntitiesClimateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 15: { this->supported_custom_fan_modes.push_back(value.as_string()); return true; } case 17: { this->supported_custom_presets.push_back(value.as_string()); return true; } case 19: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesClimateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } case 8: { this->visual_min_temperature = value.as_float(); return true; } case 9: { this->visual_max_temperature = value.as_float(); return true; } case 10: { this->visual_target_temperature_step = value.as_float(); return true; } case 21: { this->visual_current_temperature_step = value.as_float(); return true; } case 24: { this->visual_min_humidity = value.as_float(); return true; } case 25: { this->visual_max_humidity = value.as_float(); return true; } default: return false; } } void ListEntitiesClimateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_bool(5, this->supports_current_temperature); buffer.encode_bool(6, this->supports_two_point_target_temperature); for (auto &it : this->supported_modes) { buffer.encode_enum(7, it, true); } buffer.encode_float(8, this->visual_min_temperature); buffer.encode_float(9, this->visual_max_temperature); buffer.encode_float(10, this->visual_target_temperature_step); buffer.encode_bool(11, this->legacy_supports_away); buffer.encode_bool(12, this->supports_action); for (auto &it : this->supported_fan_modes) { buffer.encode_enum(13, it, true); } for (auto &it : this->supported_swing_modes) { buffer.encode_enum(14, it, true); } for (auto &it : this->supported_custom_fan_modes) { buffer.encode_string(15, it, true); } for (auto &it : this->supported_presets) { buffer.encode_enum(16, it, true); } for (auto &it : this->supported_custom_presets) { buffer.encode_string(17, it, true); } buffer.encode_bool(18, this->disabled_by_default); buffer.encode_string(19, this->icon); buffer.encode_enum(20, this->entity_category); buffer.encode_float(21, this->visual_current_temperature_step); buffer.encode_bool(22, this->supports_current_humidity); buffer.encode_bool(23, this->supports_target_humidity); buffer.encode_float(24, this->visual_min_humidity); buffer.encode_float(25, this->visual_max_humidity); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesClimateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesClimateResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" supports_current_temperature: "); out.append(YESNO(this->supports_current_temperature)); out.append("\n"); out.append(" supports_two_point_target_temperature: "); out.append(YESNO(this->supports_two_point_target_temperature)); out.append("\n"); for (const auto &it : this->supported_modes) { out.append(" supported_modes: "); out.append(proto_enum_to_string(it)); out.append("\n"); } out.append(" visual_min_temperature: "); sprintf(buffer, "%g", this->visual_min_temperature); out.append(buffer); out.append("\n"); out.append(" visual_max_temperature: "); sprintf(buffer, "%g", this->visual_max_temperature); out.append(buffer); out.append("\n"); out.append(" visual_target_temperature_step: "); sprintf(buffer, "%g", this->visual_target_temperature_step); out.append(buffer); out.append("\n"); out.append(" legacy_supports_away: "); out.append(YESNO(this->legacy_supports_away)); out.append("\n"); out.append(" supports_action: "); out.append(YESNO(this->supports_action)); out.append("\n"); for (const auto &it : this->supported_fan_modes) { out.append(" supported_fan_modes: "); out.append(proto_enum_to_string(it)); out.append("\n"); } for (const auto &it : this->supported_swing_modes) { out.append(" supported_swing_modes: "); out.append(proto_enum_to_string(it)); out.append("\n"); } for (const auto &it : this->supported_custom_fan_modes) { out.append(" supported_custom_fan_modes: "); out.append("'").append(it).append("'"); out.append("\n"); } for (const auto &it : this->supported_presets) { out.append(" supported_presets: "); out.append(proto_enum_to_string(it)); out.append("\n"); } for (const auto &it : this->supported_custom_presets) { out.append(" supported_custom_presets: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" visual_current_temperature_step: "); sprintf(buffer, "%g", this->visual_current_temperature_step); out.append(buffer); out.append("\n"); out.append(" supports_current_humidity: "); out.append(YESNO(this->supports_current_humidity)); out.append("\n"); out.append(" supports_target_humidity: "); out.append(YESNO(this->supports_target_humidity)); out.append("\n"); out.append(" visual_min_humidity: "); sprintf(buffer, "%g", this->visual_min_humidity); out.append(buffer); out.append("\n"); out.append(" visual_max_humidity: "); sprintf(buffer, "%g", this->visual_max_humidity); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ClimateStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->mode = value.as_enum(); return true; } case 7: { this->unused_legacy_away = value.as_bool(); return true; } case 8: { this->action = value.as_enum(); return true; } case 9: { this->fan_mode = value.as_enum(); return true; } case 10: { this->swing_mode = value.as_enum(); return true; } case 12: { this->preset = value.as_enum(); return true; } default: return false; } } bool ClimateStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 11: { this->custom_fan_mode = value.as_string(); return true; } case 13: { this->custom_preset = value.as_string(); return true; } default: return false; } } bool ClimateStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->current_temperature = value.as_float(); return true; } case 4: { this->target_temperature = value.as_float(); return true; } case 5: { this->target_temperature_low = value.as_float(); return true; } case 6: { this->target_temperature_high = value.as_float(); return true; } case 14: { this->current_humidity = value.as_float(); return true; } case 15: { this->target_humidity = value.as_float(); return true; } default: return false; } } void ClimateStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->mode); buffer.encode_float(3, this->current_temperature); buffer.encode_float(4, this->target_temperature); buffer.encode_float(5, this->target_temperature_low); buffer.encode_float(6, this->target_temperature_high); buffer.encode_bool(7, this->unused_legacy_away); buffer.encode_enum(8, this->action); buffer.encode_enum(9, this->fan_mode); buffer.encode_enum(10, this->swing_mode); buffer.encode_string(11, this->custom_fan_mode); buffer.encode_enum(12, this->preset); buffer.encode_string(13, this->custom_preset); buffer.encode_float(14, this->current_humidity); buffer.encode_float(15, this->target_humidity); } #ifdef HAS_PROTO_MESSAGE_DUMP void ClimateStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ClimateStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" mode: "); out.append(proto_enum_to_string(this->mode)); out.append("\n"); out.append(" current_temperature: "); sprintf(buffer, "%g", this->current_temperature); out.append(buffer); out.append("\n"); out.append(" target_temperature: "); sprintf(buffer, "%g", this->target_temperature); out.append(buffer); out.append("\n"); out.append(" target_temperature_low: "); sprintf(buffer, "%g", this->target_temperature_low); out.append(buffer); out.append("\n"); out.append(" target_temperature_high: "); sprintf(buffer, "%g", this->target_temperature_high); out.append(buffer); out.append("\n"); out.append(" unused_legacy_away: "); out.append(YESNO(this->unused_legacy_away)); out.append("\n"); out.append(" action: "); out.append(proto_enum_to_string(this->action)); out.append("\n"); out.append(" fan_mode: "); out.append(proto_enum_to_string(this->fan_mode)); out.append("\n"); out.append(" swing_mode: "); out.append(proto_enum_to_string(this->swing_mode)); out.append("\n"); out.append(" custom_fan_mode: "); out.append("'").append(this->custom_fan_mode).append("'"); out.append("\n"); out.append(" preset: "); out.append(proto_enum_to_string(this->preset)); out.append("\n"); out.append(" custom_preset: "); out.append("'").append(this->custom_preset).append("'"); out.append("\n"); out.append(" current_humidity: "); sprintf(buffer, "%g", this->current_humidity); out.append(buffer); out.append("\n"); out.append(" target_humidity: "); sprintf(buffer, "%g", this->target_humidity); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ClimateCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_mode = value.as_bool(); return true; } case 3: { this->mode = value.as_enum(); return true; } case 4: { this->has_target_temperature = value.as_bool(); return true; } case 6: { this->has_target_temperature_low = value.as_bool(); return true; } case 8: { this->has_target_temperature_high = value.as_bool(); return true; } case 10: { this->unused_has_legacy_away = value.as_bool(); return true; } case 11: { this->unused_legacy_away = value.as_bool(); return true; } case 12: { this->has_fan_mode = value.as_bool(); return true; } case 13: { this->fan_mode = value.as_enum(); return true; } case 14: { this->has_swing_mode = value.as_bool(); return true; } case 15: { this->swing_mode = value.as_enum(); return true; } case 16: { this->has_custom_fan_mode = value.as_bool(); return true; } case 18: { this->has_preset = value.as_bool(); return true; } case 19: { this->preset = value.as_enum(); return true; } case 20: { this->has_custom_preset = value.as_bool(); return true; } case 22: { this->has_target_humidity = value.as_bool(); return true; } default: return false; } } bool ClimateCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 17: { this->custom_fan_mode = value.as_string(); return true; } case 21: { this->custom_preset = value.as_string(); return true; } default: return false; } } bool ClimateCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 5: { this->target_temperature = value.as_float(); return true; } case 7: { this->target_temperature_low = value.as_float(); return true; } case 9: { this->target_temperature_high = value.as_float(); return true; } case 23: { this->target_humidity = value.as_float(); return true; } default: return false; } } void ClimateCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_mode); buffer.encode_enum(3, this->mode); buffer.encode_bool(4, this->has_target_temperature); buffer.encode_float(5, this->target_temperature); buffer.encode_bool(6, this->has_target_temperature_low); buffer.encode_float(7, this->target_temperature_low); buffer.encode_bool(8, this->has_target_temperature_high); buffer.encode_float(9, this->target_temperature_high); buffer.encode_bool(10, this->unused_has_legacy_away); buffer.encode_bool(11, this->unused_legacy_away); buffer.encode_bool(12, this->has_fan_mode); buffer.encode_enum(13, this->fan_mode); buffer.encode_bool(14, this->has_swing_mode); buffer.encode_enum(15, this->swing_mode); buffer.encode_bool(16, this->has_custom_fan_mode); buffer.encode_string(17, this->custom_fan_mode); buffer.encode_bool(18, this->has_preset); buffer.encode_enum(19, this->preset); buffer.encode_bool(20, this->has_custom_preset); buffer.encode_string(21, this->custom_preset); buffer.encode_bool(22, this->has_target_humidity); buffer.encode_float(23, this->target_humidity); } #ifdef HAS_PROTO_MESSAGE_DUMP void ClimateCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ClimateCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_mode: "); out.append(YESNO(this->has_mode)); out.append("\n"); out.append(" mode: "); out.append(proto_enum_to_string(this->mode)); out.append("\n"); out.append(" has_target_temperature: "); out.append(YESNO(this->has_target_temperature)); out.append("\n"); out.append(" target_temperature: "); sprintf(buffer, "%g", this->target_temperature); out.append(buffer); out.append("\n"); out.append(" has_target_temperature_low: "); out.append(YESNO(this->has_target_temperature_low)); out.append("\n"); out.append(" target_temperature_low: "); sprintf(buffer, "%g", this->target_temperature_low); out.append(buffer); out.append("\n"); out.append(" has_target_temperature_high: "); out.append(YESNO(this->has_target_temperature_high)); out.append("\n"); out.append(" target_temperature_high: "); sprintf(buffer, "%g", this->target_temperature_high); out.append(buffer); out.append("\n"); out.append(" unused_has_legacy_away: "); out.append(YESNO(this->unused_has_legacy_away)); out.append("\n"); out.append(" unused_legacy_away: "); out.append(YESNO(this->unused_legacy_away)); out.append("\n"); out.append(" has_fan_mode: "); out.append(YESNO(this->has_fan_mode)); out.append("\n"); out.append(" fan_mode: "); out.append(proto_enum_to_string(this->fan_mode)); out.append("\n"); out.append(" has_swing_mode: "); out.append(YESNO(this->has_swing_mode)); out.append("\n"); out.append(" swing_mode: "); out.append(proto_enum_to_string(this->swing_mode)); out.append("\n"); out.append(" has_custom_fan_mode: "); out.append(YESNO(this->has_custom_fan_mode)); out.append("\n"); out.append(" custom_fan_mode: "); out.append("'").append(this->custom_fan_mode).append("'"); out.append("\n"); out.append(" has_preset: "); out.append(YESNO(this->has_preset)); out.append("\n"); out.append(" preset: "); out.append(proto_enum_to_string(this->preset)); out.append("\n"); out.append(" has_custom_preset: "); out.append(YESNO(this->has_custom_preset)); out.append("\n"); out.append(" custom_preset: "); out.append("'").append(this->custom_preset).append("'"); out.append("\n"); out.append(" has_target_humidity: "); out.append(YESNO(this->has_target_humidity)); out.append("\n"); out.append(" target_humidity: "); sprintf(buffer, "%g", this->target_humidity); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesNumberResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 9: { this->disabled_by_default = value.as_bool(); return true; } case 10: { this->entity_category = value.as_enum(); return true; } case 12: { this->mode = value.as_enum(); return true; } default: return false; } } bool ListEntitiesNumberResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 11: { this->unit_of_measurement = value.as_string(); return true; } case 13: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesNumberResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } case 6: { this->min_value = value.as_float(); return true; } case 7: { this->max_value = value.as_float(); return true; } case 8: { this->step = value.as_float(); return true; } default: return false; } } void ListEntitiesNumberResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_float(6, this->min_value); buffer.encode_float(7, this->max_value); buffer.encode_float(8, this->step); buffer.encode_bool(9, this->disabled_by_default); buffer.encode_enum(10, this->entity_category); buffer.encode_string(11, this->unit_of_measurement); buffer.encode_enum(12, this->mode); buffer.encode_string(13, this->device_class); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesNumberResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesNumberResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" min_value: "); sprintf(buffer, "%g", this->min_value); out.append(buffer); out.append("\n"); out.append(" max_value: "); sprintf(buffer, "%g", this->max_value); out.append(buffer); out.append("\n"); out.append(" step: "); sprintf(buffer, "%g", this->step); out.append(buffer); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" unit_of_measurement: "); out.append("'").append(this->unit_of_measurement).append("'"); out.append("\n"); out.append(" mode: "); out.append(proto_enum_to_string(this->mode)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append("}"); } #endif bool NumberStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool NumberStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 2: { this->state = value.as_float(); return true; } default: return false; } } void NumberStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_float(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void NumberStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("NumberStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); sprintf(buffer, "%g", this->state); out.append(buffer); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool NumberCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 2: { this->state = value.as_float(); return true; } default: return false; } } void NumberCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_float(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void NumberCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("NumberCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); sprintf(buffer, "%g", this->state); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesSelectResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 7: { this->disabled_by_default = value.as_bool(); return true; } case 8: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesSelectResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 6: { this->options.push_back(value.as_string()); return true; } default: return false; } } bool ListEntitiesSelectResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesSelectResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); for (auto &it : this->options) { buffer.encode_string(6, it, true); } buffer.encode_bool(7, this->disabled_by_default); buffer.encode_enum(8, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesSelectResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesSelectResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); for (const auto &it : this->options) { out.append(" options: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool SelectStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool SelectStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->state = value.as_string(); return true; } default: return false; } } bool SelectStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void SelectStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void SelectStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SelectStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool SelectCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->state = value.as_string(); return true; } default: return false; } } bool SelectCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void SelectCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void SelectCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SelectCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesLockResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } case 8: { this->assumed_state = value.as_bool(); return true; } case 9: { this->supports_open = value.as_bool(); return true; } case 10: { this->requires_code = value.as_bool(); return true; } default: return false; } } bool ListEntitiesLockResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 11: { this->code_format = value.as_string(); return true; } default: return false; } } bool ListEntitiesLockResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesLockResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_bool(8, this->assumed_state); buffer.encode_bool(9, this->supports_open); buffer.encode_bool(10, this->requires_code); buffer.encode_string(11, this->code_format); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesLockResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesLockResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" assumed_state: "); out.append(YESNO(this->assumed_state)); out.append("\n"); out.append(" supports_open: "); out.append(YESNO(this->supports_open)); out.append("\n"); out.append(" requires_code: "); out.append(YESNO(this->requires_code)); out.append("\n"); out.append(" code_format: "); out.append("'").append(this->code_format).append("'"); out.append("\n"); out.append("}"); } #endif bool LockStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_enum(); return true; } default: return false; } } bool LockStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void LockStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void LockStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("LockStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(proto_enum_to_string(this->state)); out.append("\n"); out.append("}"); } #endif bool LockCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->command = value.as_enum(); return true; } case 3: { this->has_code = value.as_bool(); return true; } default: return false; } } bool LockCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 4: { this->code = value.as_string(); return true; } default: return false; } } bool LockCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void LockCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->command); buffer.encode_bool(3, this->has_code); buffer.encode_string(4, this->code); } #ifdef HAS_PROTO_MESSAGE_DUMP void LockCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("LockCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" command: "); out.append(proto_enum_to_string(this->command)); out.append("\n"); out.append(" has_code: "); out.append(YESNO(this->has_code)); out.append("\n"); out.append(" code: "); out.append("'").append(this->code).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesButtonResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesButtonResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 8: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesButtonResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesButtonResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_string(8, this->device_class); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesButtonResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesButtonResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append("}"); } #endif bool ButtonCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void ButtonCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); } #ifdef HAS_PROTO_MESSAGE_DUMP void ButtonCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ButtonCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesMediaPlayerResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } case 8: { this->supports_pause = value.as_bool(); return true; } default: return false; } } bool ListEntitiesMediaPlayerResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesMediaPlayerResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesMediaPlayerResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_bool(8, this->supports_pause); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesMediaPlayerResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesMediaPlayerResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" supports_pause: "); out.append(YESNO(this->supports_pause)); out.append("\n"); out.append("}"); } #endif bool MediaPlayerStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_enum(); return true; } case 4: { this->muted = value.as_bool(); return true; } default: return false; } } bool MediaPlayerStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->volume = value.as_float(); return true; } default: return false; } } void MediaPlayerStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->state); buffer.encode_float(3, this->volume); buffer.encode_bool(4, this->muted); } #ifdef HAS_PROTO_MESSAGE_DUMP void MediaPlayerStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("MediaPlayerStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(proto_enum_to_string(this->state)); out.append("\n"); out.append(" volume: "); sprintf(buffer, "%g", this->volume); out.append(buffer); out.append("\n"); out.append(" muted: "); out.append(YESNO(this->muted)); out.append("\n"); out.append("}"); } #endif bool MediaPlayerCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_command = value.as_bool(); return true; } case 3: { this->command = value.as_enum(); return true; } case 4: { this->has_volume = value.as_bool(); return true; } case 6: { this->has_media_url = value.as_bool(); return true; } default: return false; } } bool MediaPlayerCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 7: { this->media_url = value.as_string(); return true; } default: return false; } } bool MediaPlayerCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 5: { this->volume = value.as_float(); return true; } default: return false; } } void MediaPlayerCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_command); buffer.encode_enum(3, this->command); buffer.encode_bool(4, this->has_volume); buffer.encode_float(5, this->volume); buffer.encode_bool(6, this->has_media_url); buffer.encode_string(7, this->media_url); } #ifdef HAS_PROTO_MESSAGE_DUMP void MediaPlayerCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("MediaPlayerCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_command: "); out.append(YESNO(this->has_command)); out.append("\n"); out.append(" command: "); out.append(proto_enum_to_string(this->command)); out.append("\n"); out.append(" has_volume: "); out.append(YESNO(this->has_volume)); out.append("\n"); out.append(" volume: "); sprintf(buffer, "%g", this->volume); out.append(buffer); out.append("\n"); out.append(" has_media_url: "); out.append(YESNO(this->has_media_url)); out.append("\n"); out.append(" media_url: "); out.append("'").append(this->media_url).append("'"); out.append("\n"); out.append("}"); } #endif bool SubscribeBluetoothLEAdvertisementsRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->flags = value.as_uint32(); return true; } default: return false; } } void SubscribeBluetoothLEAdvertisementsRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint32(1, this->flags); } #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeBluetoothLEAdvertisementsRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SubscribeBluetoothLEAdvertisementsRequest {\n"); out.append(" flags: "); sprintf(buffer, "%" PRIu32, this->flags); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothServiceData::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->legacy_data.push_back(value.as_uint32()); return true; } default: return false; } } bool BluetoothServiceData::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->uuid = value.as_string(); return true; } case 3: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothServiceData::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->uuid); for (auto &it : this->legacy_data) { buffer.encode_uint32(2, it, true); } buffer.encode_string(3, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothServiceData::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothServiceData {\n"); out.append(" uuid: "); out.append("'").append(this->uuid).append("'"); out.append("\n"); for (const auto &it : this->legacy_data) { out.append(" legacy_data: "); sprintf(buffer, "%" PRIu32, it); out.append(buffer); out.append("\n"); } out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif bool BluetoothLEAdvertisementResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 3: { this->rssi = value.as_sint32(); return true; } case 7: { this->address_type = value.as_uint32(); return true; } default: return false; } } bool BluetoothLEAdvertisementResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->name = value.as_string(); return true; } case 4: { this->service_uuids.push_back(value.as_string()); return true; } case 5: { this->service_data.push_back(value.as_message()); return true; } case 6: { this->manufacturer_data.push_back(value.as_message()); return true; } default: return false; } } void BluetoothLEAdvertisementResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_string(2, this->name); buffer.encode_sint32(3, this->rssi); for (auto &it : this->service_uuids) { buffer.encode_string(4, it, true); } for (auto &it : this->service_data) { buffer.encode_message(5, it, true); } for (auto &it : this->manufacturer_data) { buffer.encode_message(6, it, true); } buffer.encode_uint32(7, this->address_type); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothLEAdvertisementResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothLEAdvertisementResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" rssi: "); sprintf(buffer, "%" PRId32, this->rssi); out.append(buffer); out.append("\n"); for (const auto &it : this->service_uuids) { out.append(" service_uuids: "); out.append("'").append(it).append("'"); out.append("\n"); } for (const auto &it : this->service_data) { out.append(" service_data: "); it.dump_to(out); out.append("\n"); } for (const auto &it : this->manufacturer_data) { out.append(" manufacturer_data: "); it.dump_to(out); out.append("\n"); } out.append(" address_type: "); sprintf(buffer, "%" PRIu32, this->address_type); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothLERawAdvertisement::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->rssi = value.as_sint32(); return true; } case 3: { this->address_type = value.as_uint32(); return true; } default: return false; } } bool BluetoothLERawAdvertisement::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 4: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothLERawAdvertisement::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_sint32(2, this->rssi); buffer.encode_uint32(3, this->address_type); buffer.encode_string(4, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothLERawAdvertisement::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothLERawAdvertisement {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" rssi: "); sprintf(buffer, "%" PRId32, this->rssi); out.append(buffer); out.append("\n"); out.append(" address_type: "); sprintf(buffer, "%" PRIu32, this->address_type); out.append(buffer); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif bool BluetoothLERawAdvertisementsResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->advertisements.push_back(value.as_message()); return true; } default: return false; } } void BluetoothLERawAdvertisementsResponse::encode(ProtoWriteBuffer buffer) const { for (auto &it : this->advertisements) { buffer.encode_message(1, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothLERawAdvertisementsResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothLERawAdvertisementsResponse {\n"); for (const auto &it : this->advertisements) { out.append(" advertisements: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool BluetoothDeviceRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->request_type = value.as_enum(); return true; } case 3: { this->has_address_type = value.as_bool(); return true; } case 4: { this->address_type = value.as_uint32(); return true; } default: return false; } } void BluetoothDeviceRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_enum(2, this->request_type); buffer.encode_bool(3, this->has_address_type); buffer.encode_uint32(4, this->address_type); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothDeviceRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothDeviceRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" request_type: "); out.append(proto_enum_to_string(this->request_type)); out.append("\n"); out.append(" has_address_type: "); out.append(YESNO(this->has_address_type)); out.append("\n"); out.append(" address_type: "); sprintf(buffer, "%" PRIu32, this->address_type); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothDeviceConnectionResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->connected = value.as_bool(); return true; } case 3: { this->mtu = value.as_uint32(); return true; } case 4: { this->error = value.as_int32(); return true; } default: return false; } } void BluetoothDeviceConnectionResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_bool(2, this->connected); buffer.encode_uint32(3, this->mtu); buffer.encode_int32(4, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothDeviceConnectionResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothDeviceConnectionResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" connected: "); out.append(YESNO(this->connected)); out.append("\n"); out.append(" mtu: "); sprintf(buffer, "%" PRIu32, this->mtu); out.append(buffer); out.append("\n"); out.append(" error: "); sprintf(buffer, "%" PRId32, this->error); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTGetServicesRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } default: return false; } } void BluetoothGATTGetServicesRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTGetServicesRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTGetServicesRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTDescriptor::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->uuid.push_back(value.as_uint64()); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } void BluetoothGATTDescriptor::encode(ProtoWriteBuffer buffer) const { for (auto &it : this->uuid) { buffer.encode_uint64(1, it, true); } buffer.encode_uint32(2, this->handle); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTDescriptor::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTDescriptor {\n"); for (const auto &it : this->uuid) { out.append(" uuid: "); sprintf(buffer, "%llu", it); out.append(buffer); out.append("\n"); } out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTCharacteristic::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->uuid.push_back(value.as_uint64()); return true; } case 2: { this->handle = value.as_uint32(); return true; } case 3: { this->properties = value.as_uint32(); return true; } default: return false; } } bool BluetoothGATTCharacteristic::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 4: { this->descriptors.push_back(value.as_message()); return true; } default: return false; } } void BluetoothGATTCharacteristic::encode(ProtoWriteBuffer buffer) const { for (auto &it : this->uuid) { buffer.encode_uint64(1, it, true); } buffer.encode_uint32(2, this->handle); buffer.encode_uint32(3, this->properties); for (auto &it : this->descriptors) { buffer.encode_message(4, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTCharacteristic::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTCharacteristic {\n"); for (const auto &it : this->uuid) { out.append(" uuid: "); sprintf(buffer, "%llu", it); out.append(buffer); out.append("\n"); } out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" properties: "); sprintf(buffer, "%" PRIu32, this->properties); out.append(buffer); out.append("\n"); for (const auto &it : this->descriptors) { out.append(" descriptors: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool BluetoothGATTService::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->uuid.push_back(value.as_uint64()); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } bool BluetoothGATTService::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->characteristics.push_back(value.as_message()); return true; } default: return false; } } void BluetoothGATTService::encode(ProtoWriteBuffer buffer) const { for (auto &it : this->uuid) { buffer.encode_uint64(1, it, true); } buffer.encode_uint32(2, this->handle); for (auto &it : this->characteristics) { buffer.encode_message(3, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTService::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTService {\n"); for (const auto &it : this->uuid) { out.append(" uuid: "); sprintf(buffer, "%llu", it); out.append(buffer); out.append("\n"); } out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); for (const auto &it : this->characteristics) { out.append(" characteristics: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool BluetoothGATTGetServicesResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } default: return false; } } bool BluetoothGATTGetServicesResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->services.push_back(value.as_message()); return true; } default: return false; } } void BluetoothGATTGetServicesResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); for (auto &it : this->services) { buffer.encode_message(2, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTGetServicesResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTGetServicesResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); for (const auto &it : this->services) { out.append(" services: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool BluetoothGATTGetServicesDoneResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } default: return false; } } void BluetoothGATTGetServicesDoneResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTGetServicesDoneResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTGetServicesDoneResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTReadRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } void BluetoothGATTReadRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTReadRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTReadRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTReadResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } bool BluetoothGATTReadResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothGATTReadResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_string(3, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTReadResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTReadResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTWriteRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } case 3: { this->response = value.as_bool(); return true; } default: return false; } } bool BluetoothGATTWriteRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 4: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothGATTWriteRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_bool(3, this->response); buffer.encode_string(4, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTWriteRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTWriteRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" response: "); out.append(YESNO(this->response)); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTReadDescriptorRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } void BluetoothGATTReadDescriptorRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTReadDescriptorRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTReadDescriptorRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTWriteDescriptorRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } bool BluetoothGATTWriteDescriptorRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothGATTWriteDescriptorRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_string(3, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTWriteDescriptorRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTWriteDescriptorRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTNotifyRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } case 3: { this->enable = value.as_bool(); return true; } default: return false; } } void BluetoothGATTNotifyRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_bool(3, this->enable); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTNotifyRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTNotifyRequest {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" enable: "); out.append(YESNO(this->enable)); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTNotifyDataResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } bool BluetoothGATTNotifyDataResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->data = value.as_string(); return true; } default: return false; } } void BluetoothGATTNotifyDataResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_string(3, this->data); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTNotifyDataResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTNotifyDataResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append("}"); } #endif void SubscribeBluetoothConnectionsFreeRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeBluetoothConnectionsFreeRequest::dump_to(std::string &out) const { out.append("SubscribeBluetoothConnectionsFreeRequest {}"); } #endif bool BluetoothConnectionsFreeResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->free = value.as_uint32(); return true; } case 2: { this->limit = value.as_uint32(); return true; } default: return false; } } void BluetoothConnectionsFreeResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint32(1, this->free); buffer.encode_uint32(2, this->limit); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothConnectionsFreeResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothConnectionsFreeResponse {\n"); out.append(" free: "); sprintf(buffer, "%" PRIu32, this->free); out.append(buffer); out.append("\n"); out.append(" limit: "); sprintf(buffer, "%" PRIu32, this->limit); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTErrorResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } case 3: { this->error = value.as_int32(); return true; } default: return false; } } void BluetoothGATTErrorResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); buffer.encode_int32(3, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTErrorResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTErrorResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append(" error: "); sprintf(buffer, "%" PRId32, this->error); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTWriteResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } void BluetoothGATTWriteResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTWriteResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTWriteResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothGATTNotifyResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->handle = value.as_uint32(); return true; } default: return false; } } void BluetoothGATTNotifyResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_uint32(2, this->handle); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothGATTNotifyResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothGATTNotifyResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" handle: "); sprintf(buffer, "%" PRIu32, this->handle); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothDevicePairingResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->paired = value.as_bool(); return true; } case 3: { this->error = value.as_int32(); return true; } default: return false; } } void BluetoothDevicePairingResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_bool(2, this->paired); buffer.encode_int32(3, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothDevicePairingResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothDevicePairingResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" paired: "); out.append(YESNO(this->paired)); out.append("\n"); out.append(" error: "); sprintf(buffer, "%" PRId32, this->error); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool BluetoothDeviceUnpairingResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->success = value.as_bool(); return true; } case 3: { this->error = value.as_int32(); return true; } default: return false; } } void BluetoothDeviceUnpairingResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_bool(2, this->success); buffer.encode_int32(3, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothDeviceUnpairingResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothDeviceUnpairingResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" success: "); out.append(YESNO(this->success)); out.append("\n"); out.append(" error: "); sprintf(buffer, "%" PRId32, this->error); out.append(buffer); out.append("\n"); out.append("}"); } #endif void UnsubscribeBluetoothLEAdvertisementsRequest::encode(ProtoWriteBuffer buffer) const {} #ifdef HAS_PROTO_MESSAGE_DUMP void UnsubscribeBluetoothLEAdvertisementsRequest::dump_to(std::string &out) const { out.append("UnsubscribeBluetoothLEAdvertisementsRequest {}"); } #endif bool BluetoothDeviceClearCacheResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->address = value.as_uint64(); return true; } case 2: { this->success = value.as_bool(); return true; } case 3: { this->error = value.as_int32(); return true; } default: return false; } } void BluetoothDeviceClearCacheResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint64(1, this->address); buffer.encode_bool(2, this->success); buffer.encode_int32(3, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void BluetoothDeviceClearCacheResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("BluetoothDeviceClearCacheResponse {\n"); out.append(" address: "); sprintf(buffer, "%llu", this->address); out.append(buffer); out.append("\n"); out.append(" success: "); out.append(YESNO(this->success)); out.append("\n"); out.append(" error: "); sprintf(buffer, "%" PRId32, this->error); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool SubscribeVoiceAssistantRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->subscribe = value.as_bool(); return true; } case 2: { this->flags = value.as_uint32(); return true; } default: return false; } } void SubscribeVoiceAssistantRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->subscribe); buffer.encode_uint32(2, this->flags); } #ifdef HAS_PROTO_MESSAGE_DUMP void SubscribeVoiceAssistantRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("SubscribeVoiceAssistantRequest {\n"); out.append(" subscribe: "); out.append(YESNO(this->subscribe)); out.append("\n"); out.append(" flags: "); sprintf(buffer, "%" PRIu32, this->flags); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool VoiceAssistantAudioSettings::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->noise_suppression_level = value.as_uint32(); return true; } case 2: { this->auto_gain = value.as_uint32(); return true; } default: return false; } } bool VoiceAssistantAudioSettings::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 3: { this->volume_multiplier = value.as_float(); return true; } default: return false; } } void VoiceAssistantAudioSettings::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint32(1, this->noise_suppression_level); buffer.encode_uint32(2, this->auto_gain); buffer.encode_float(3, this->volume_multiplier); } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantAudioSettings::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantAudioSettings {\n"); out.append(" noise_suppression_level: "); sprintf(buffer, "%" PRIu32, this->noise_suppression_level); out.append(buffer); out.append("\n"); out.append(" auto_gain: "); sprintf(buffer, "%" PRIu32, this->auto_gain); out.append(buffer); out.append("\n"); out.append(" volume_multiplier: "); sprintf(buffer, "%g", this->volume_multiplier); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool VoiceAssistantRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->start = value.as_bool(); return true; } case 3: { this->flags = value.as_uint32(); return true; } default: return false; } } bool VoiceAssistantRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->conversation_id = value.as_string(); return true; } case 4: { this->audio_settings = value.as_message(); return true; } case 5: { this->wake_word_phrase = value.as_string(); return true; } default: return false; } } void VoiceAssistantRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_bool(1, this->start); buffer.encode_string(2, this->conversation_id); buffer.encode_uint32(3, this->flags); buffer.encode_message(4, this->audio_settings); buffer.encode_string(5, this->wake_word_phrase); } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantRequest {\n"); out.append(" start: "); out.append(YESNO(this->start)); out.append("\n"); out.append(" conversation_id: "); out.append("'").append(this->conversation_id).append("'"); out.append("\n"); out.append(" flags: "); sprintf(buffer, "%" PRIu32, this->flags); out.append(buffer); out.append("\n"); out.append(" audio_settings: "); this->audio_settings.dump_to(out); out.append("\n"); out.append(" wake_word_phrase: "); out.append("'").append(this->wake_word_phrase).append("'"); out.append("\n"); out.append("}"); } #endif bool VoiceAssistantResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->port = value.as_uint32(); return true; } case 2: { this->error = value.as_bool(); return true; } default: return false; } } void VoiceAssistantResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_uint32(1, this->port); buffer.encode_bool(2, this->error); } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantResponse {\n"); out.append(" port: "); sprintf(buffer, "%" PRIu32, this->port); out.append(buffer); out.append("\n"); out.append(" error: "); out.append(YESNO(this->error)); out.append("\n"); out.append("}"); } #endif bool VoiceAssistantEventData::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->name = value.as_string(); return true; } case 2: { this->value = value.as_string(); return true; } default: return false; } } void VoiceAssistantEventData::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->name); buffer.encode_string(2, this->value); } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantEventData::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantEventData {\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" value: "); out.append("'").append(this->value).append("'"); out.append("\n"); out.append("}"); } #endif bool VoiceAssistantEventResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 1: { this->event_type = value.as_enum(); return true; } default: return false; } } bool VoiceAssistantEventResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->data.push_back(value.as_message()); return true; } default: return false; } } void VoiceAssistantEventResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_enum(1, this->event_type); for (auto &it : this->data) { buffer.encode_message(2, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantEventResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantEventResponse {\n"); out.append(" event_type: "); out.append(proto_enum_to_string(this->event_type)); out.append("\n"); for (const auto &it : this->data) { out.append(" data: "); it.dump_to(out); out.append("\n"); } out.append("}"); } #endif bool VoiceAssistantAudio::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->end = value.as_bool(); return true; } default: return false; } } bool VoiceAssistantAudio::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->data = value.as_string(); return true; } default: return false; } } void VoiceAssistantAudio::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->data); buffer.encode_bool(2, this->end); } #ifdef HAS_PROTO_MESSAGE_DUMP void VoiceAssistantAudio::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("VoiceAssistantAudio {\n"); out.append(" data: "); out.append("'").append(this->data).append("'"); out.append("\n"); out.append(" end: "); out.append(YESNO(this->end)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesAlarmControlPanelResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } case 8: { this->supported_features = value.as_uint32(); return true; } case 9: { this->requires_code = value.as_bool(); return true; } case 10: { this->requires_code_to_arm = value.as_bool(); return true; } default: return false; } } bool ListEntitiesAlarmControlPanelResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesAlarmControlPanelResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesAlarmControlPanelResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_uint32(8, this->supported_features); buffer.encode_bool(9, this->requires_code); buffer.encode_bool(10, this->requires_code_to_arm); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesAlarmControlPanelResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesAlarmControlPanelResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" supported_features: "); sprintf(buffer, "%" PRIu32, this->supported_features); out.append(buffer); out.append("\n"); out.append(" requires_code: "); out.append(YESNO(this->requires_code)); out.append("\n"); out.append(" requires_code_to_arm: "); out.append(YESNO(this->requires_code_to_arm)); out.append("\n"); out.append("}"); } #endif bool AlarmControlPanelStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->state = value.as_enum(); return true; } default: return false; } } bool AlarmControlPanelStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void AlarmControlPanelStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void AlarmControlPanelStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("AlarmControlPanelStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append(proto_enum_to_string(this->state)); out.append("\n"); out.append("}"); } #endif bool AlarmControlPanelCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->command = value.as_enum(); return true; } default: return false; } } bool AlarmControlPanelCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 3: { this->code = value.as_string(); return true; } default: return false; } } bool AlarmControlPanelCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void AlarmControlPanelCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_enum(2, this->command); buffer.encode_string(3, this->code); } #ifdef HAS_PROTO_MESSAGE_DUMP void AlarmControlPanelCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("AlarmControlPanelCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" command: "); out.append(proto_enum_to_string(this->command)); out.append("\n"); out.append(" code: "); out.append("'").append(this->code).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesTextResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } case 8: { this->min_length = value.as_uint32(); return true; } case 9: { this->max_length = value.as_uint32(); return true; } case 11: { this->mode = value.as_enum(); return true; } default: return false; } } bool ListEntitiesTextResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 10: { this->pattern = value.as_string(); return true; } default: return false; } } bool ListEntitiesTextResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesTextResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_uint32(8, this->min_length); buffer.encode_uint32(9, this->max_length); buffer.encode_string(10, this->pattern); buffer.encode_enum(11, this->mode); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesTextResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesTextResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" min_length: "); sprintf(buffer, "%" PRIu32, this->min_length); out.append(buffer); out.append("\n"); out.append(" max_length: "); sprintf(buffer, "%" PRIu32, this->max_length); out.append(buffer); out.append("\n"); out.append(" pattern: "); out.append("'").append(this->pattern).append("'"); out.append("\n"); out.append(" mode: "); out.append(proto_enum_to_string(this->mode)); out.append("\n"); out.append("}"); } #endif bool TextStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool TextStateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->state = value.as_string(); return true; } default: return false; } } bool TextStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void TextStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->state); buffer.encode_bool(3, this->missing_state); } #ifdef HAS_PROTO_MESSAGE_DUMP void TextStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("TextStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append("}"); } #endif bool TextCommandRequest::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->state = value.as_string(); return true; } default: return false; } } bool TextCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void TextCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->state); } #ifdef HAS_PROTO_MESSAGE_DUMP void TextCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("TextCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" state: "); out.append("'").append(this->state).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesDateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesDateResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesDateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesDateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesDateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesDateResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool DateStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->missing_state = value.as_bool(); return true; } case 3: { this->year = value.as_uint32(); return true; } case 4: { this->month = value.as_uint32(); return true; } case 5: { this->day = value.as_uint32(); return true; } default: return false; } } bool DateStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void DateStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->missing_state); buffer.encode_uint32(3, this->year); buffer.encode_uint32(4, this->month); buffer.encode_uint32(5, this->day); } #ifdef HAS_PROTO_MESSAGE_DUMP void DateStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("DateStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append(" year: "); sprintf(buffer, "%" PRIu32, this->year); out.append(buffer); out.append("\n"); out.append(" month: "); sprintf(buffer, "%" PRIu32, this->month); out.append(buffer); out.append("\n"); out.append(" day: "); sprintf(buffer, "%" PRIu32, this->day); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool DateCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->year = value.as_uint32(); return true; } case 3: { this->month = value.as_uint32(); return true; } case 4: { this->day = value.as_uint32(); return true; } default: return false; } } bool DateCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void DateCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_uint32(2, this->year); buffer.encode_uint32(3, this->month); buffer.encode_uint32(4, this->day); } #ifdef HAS_PROTO_MESSAGE_DUMP void DateCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("DateCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" year: "); sprintf(buffer, "%" PRIu32, this->year); out.append(buffer); out.append("\n"); out.append(" month: "); sprintf(buffer, "%" PRIu32, this->month); out.append(buffer); out.append("\n"); out.append(" day: "); sprintf(buffer, "%" PRIu32, this->day); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesTimeResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesTimeResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesTimeResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesTimeResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesTimeResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesTimeResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool TimeStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->missing_state = value.as_bool(); return true; } case 3: { this->hour = value.as_uint32(); return true; } case 4: { this->minute = value.as_uint32(); return true; } case 5: { this->second = value.as_uint32(); return true; } default: return false; } } bool TimeStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void TimeStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->missing_state); buffer.encode_uint32(3, this->hour); buffer.encode_uint32(4, this->minute); buffer.encode_uint32(5, this->second); } #ifdef HAS_PROTO_MESSAGE_DUMP void TimeStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("TimeStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append(" hour: "); sprintf(buffer, "%" PRIu32, this->hour); out.append(buffer); out.append("\n"); out.append(" minute: "); sprintf(buffer, "%" PRIu32, this->minute); out.append(buffer); out.append("\n"); out.append(" second: "); sprintf(buffer, "%" PRIu32, this->second); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool TimeCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->hour = value.as_uint32(); return true; } case 3: { this->minute = value.as_uint32(); return true; } case 4: { this->second = value.as_uint32(); return true; } default: return false; } } bool TimeCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void TimeCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_uint32(2, this->hour); buffer.encode_uint32(3, this->minute); buffer.encode_uint32(4, this->second); } #ifdef HAS_PROTO_MESSAGE_DUMP void TimeCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("TimeCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" hour: "); sprintf(buffer, "%" PRIu32, this->hour); out.append(buffer); out.append("\n"); out.append(" minute: "); sprintf(buffer, "%" PRIu32, this->minute); out.append(buffer); out.append("\n"); out.append(" second: "); sprintf(buffer, "%" PRIu32, this->second); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool ListEntitiesEventResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesEventResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 8: { this->device_class = value.as_string(); return true; } case 9: { this->event_types.push_back(value.as_string()); return true; } default: return false; } } bool ListEntitiesEventResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesEventResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_string(8, this->device_class); for (auto &it : this->event_types) { buffer.encode_string(9, it, true); } } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesEventResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesEventResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); for (const auto &it : this->event_types) { out.append(" event_types: "); out.append("'").append(it).append("'"); out.append("\n"); } out.append("}"); } #endif bool EventResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 2: { this->event_type = value.as_string(); return true; } default: return false; } } bool EventResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } default: return false; } } void EventResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_string(2, this->event_type); } #ifdef HAS_PROTO_MESSAGE_DUMP void EventResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("EventResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" event_type: "); out.append("'").append(this->event_type).append("'"); out.append("\n"); out.append("}"); } #endif bool ListEntitiesValveResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } case 9: { this->assumed_state = value.as_bool(); return true; } case 10: { this->supports_position = value.as_bool(); return true; } case 11: { this->supports_stop = value.as_bool(); return true; } default: return false; } } bool ListEntitiesValveResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } case 8: { this->device_class = value.as_string(); return true; } default: return false; } } bool ListEntitiesValveResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesValveResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); buffer.encode_string(8, this->device_class); buffer.encode_bool(9, this->assumed_state); buffer.encode_bool(10, this->supports_position); buffer.encode_bool(11, this->supports_stop); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesValveResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesValveResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append(" device_class: "); out.append("'").append(this->device_class).append("'"); out.append("\n"); out.append(" assumed_state: "); out.append(YESNO(this->assumed_state)); out.append("\n"); out.append(" supports_position: "); out.append(YESNO(this->supports_position)); out.append("\n"); out.append(" supports_stop: "); out.append(YESNO(this->supports_stop)); out.append("\n"); out.append("}"); } #endif bool ValveStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 3: { this->current_operation = value.as_enum(); return true; } default: return false; } } bool ValveStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 2: { this->position = value.as_float(); return true; } default: return false; } } void ValveStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_float(2, this->position); buffer.encode_enum(3, this->current_operation); } #ifdef HAS_PROTO_MESSAGE_DUMP void ValveStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ValveStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" position: "); sprintf(buffer, "%g", this->position); out.append(buffer); out.append("\n"); out.append(" current_operation: "); out.append(proto_enum_to_string(this->current_operation)); out.append("\n"); out.append("}"); } #endif bool ValveCommandRequest::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->has_position = value.as_bool(); return true; } case 4: { this->stop = value.as_bool(); return true; } default: return false; } } bool ValveCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->position = value.as_float(); return true; } default: return false; } } void ValveCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->has_position); buffer.encode_float(3, this->position); buffer.encode_bool(4, this->stop); } #ifdef HAS_PROTO_MESSAGE_DUMP void ValveCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ValveCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" has_position: "); out.append(YESNO(this->has_position)); out.append("\n"); out.append(" position: "); sprintf(buffer, "%g", this->position); out.append(buffer); out.append("\n"); out.append(" stop: "); out.append(YESNO(this->stop)); out.append("\n"); out.append("}"); } #endif bool ListEntitiesDateTimeResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 6: { this->disabled_by_default = value.as_bool(); return true; } case 7: { this->entity_category = value.as_enum(); return true; } default: return false; } } bool ListEntitiesDateTimeResponse::decode_length(uint32_t field_id, ProtoLengthDelimited value) { switch (field_id) { case 1: { this->object_id = value.as_string(); return true; } case 3: { this->name = value.as_string(); return true; } case 4: { this->unique_id = value.as_string(); return true; } case 5: { this->icon = value.as_string(); return true; } default: return false; } } bool ListEntitiesDateTimeResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 2: { this->key = value.as_fixed32(); return true; } default: return false; } } void ListEntitiesDateTimeResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_string(1, this->object_id); buffer.encode_fixed32(2, this->key); buffer.encode_string(3, this->name); buffer.encode_string(4, this->unique_id); buffer.encode_string(5, this->icon); buffer.encode_bool(6, this->disabled_by_default); buffer.encode_enum(7, this->entity_category); } #ifdef HAS_PROTO_MESSAGE_DUMP void ListEntitiesDateTimeResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("ListEntitiesDateTimeResponse {\n"); out.append(" object_id: "); out.append("'").append(this->object_id).append("'"); out.append("\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" name: "); out.append("'").append(this->name).append("'"); out.append("\n"); out.append(" unique_id: "); out.append("'").append(this->unique_id).append("'"); out.append("\n"); out.append(" icon: "); out.append("'").append(this->icon).append("'"); out.append("\n"); out.append(" disabled_by_default: "); out.append(YESNO(this->disabled_by_default)); out.append("\n"); out.append(" entity_category: "); out.append(proto_enum_to_string(this->entity_category)); out.append("\n"); out.append("}"); } #endif bool DateTimeStateResponse::decode_varint(uint32_t field_id, ProtoVarInt value) { switch (field_id) { case 2: { this->missing_state = value.as_bool(); return true; } default: return false; } } bool DateTimeStateResponse::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 3: { this->epoch_seconds = value.as_fixed32(); return true; } default: return false; } } void DateTimeStateResponse::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_bool(2, this->missing_state); buffer.encode_fixed32(3, this->epoch_seconds); } #ifdef HAS_PROTO_MESSAGE_DUMP void DateTimeStateResponse::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("DateTimeStateResponse {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" missing_state: "); out.append(YESNO(this->missing_state)); out.append("\n"); out.append(" epoch_seconds: "); sprintf(buffer, "%" PRIu32, this->epoch_seconds); out.append(buffer); out.append("\n"); out.append("}"); } #endif bool DateTimeCommandRequest::decode_32bit(uint32_t field_id, Proto32Bit value) { switch (field_id) { case 1: { this->key = value.as_fixed32(); return true; } case 2: { this->epoch_seconds = value.as_fixed32(); return true; } default: return false; } } void DateTimeCommandRequest::encode(ProtoWriteBuffer buffer) const { buffer.encode_fixed32(1, this->key); buffer.encode_fixed32(2, this->epoch_seconds); } #ifdef HAS_PROTO_MESSAGE_DUMP void DateTimeCommandRequest::dump_to(std::string &out) const { __attribute__((unused)) char buffer[64]; out.append("DateTimeCommandRequest {\n"); out.append(" key: "); sprintf(buffer, "%" PRIu32, this->key); out.append(buffer); out.append("\n"); out.append(" epoch_seconds: "); sprintf(buffer, "%" PRIu32, this->epoch_seconds); out.append(buffer); out.append("\n"); out.append("}"); } #endif } // namespace api } // namespace esphome