// Copyright 2022 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include #include using chip::EndpointId; using chip::DeviceLayer::DeviceControlServer; using namespace chip::app::Clusters; namespace esp_matter { namespace cluster { namespace access_control { namespace event { event_t *create_access_control_entry_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, AccessControl::Events::AccessControlEntryChanged::Id); } event_t *create_access_control_extension_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, AccessControl::Events::AccessControlExtensionChanged::Id); } event_t *create_fabric_restriction_review_update(cluster_t *cluster) { return esp_matter::event::create(cluster, AccessControl::Events::FabricRestrictionReviewUpdate::Id); } } // namespace event } // namespace access_control namespace bridged_device_basic_information { namespace event { event_t *create_active_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, BridgedDeviceBasicInformation::Events::ActiveChanged::Id); } } // namespace event } // namespace bridged_device_basic_information namespace actions { namespace event { event_t *create_state_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, Actions::Events::StateChanged::Id); } event_t *create_action_failed(cluster_t *cluster) { return esp_matter::event::create(cluster, Actions::Events::ActionFailed::Id); } esp_err_t send_state_changed(EndpointId endpoint, uint16_t action_id, uint32_t invoke_id, uint8_t action_state) { /* Not implemented */ return ESP_OK; } esp_err_t send_action_failed(EndpointId endpoint, uint16_t action_id, uint32_t invoke_id, uint8_t action_state, uint8_t error) { /* Not implemented */ return ESP_OK; } } // namespace event } // namespace actions namespace basic_information { namespace event { event_t *create_start_up(cluster_t *cluster) { return esp_matter::event::create(cluster, BasicInformation::Events::StartUp::Id); } event_t *create_shut_down(cluster_t *cluster) { return esp_matter::event::create(cluster, BasicInformation::Events::ShutDown::Id); } event_t *create_leave(cluster_t *cluster) { return esp_matter::event::create(cluster, BasicInformation::Events::Leave::Id); } event_t *create_reachable_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, BasicInformation::Events::ReachableChanged::Id); } } // namespace event } // namespace basic_information namespace ota_requestor { namespace event { event_t *create_state_transition(cluster_t *cluster) { return esp_matter::event::create(cluster, OtaSoftwareUpdateRequestor::Events::StateTransition::Id); } event_t *create_version_applied(cluster_t *cluster) { return esp_matter::event::create(cluster, OtaSoftwareUpdateRequestor::Events::VersionApplied::Id); } event_t *create_download_error(cluster_t *cluster) { return esp_matter::event::create(cluster, OtaSoftwareUpdateRequestor::Events::DownloadError::Id); } } // namespace event } // namespace ota_requestor namespace general_diagnostics { namespace event { event_t *create_hardware_fault_change(cluster_t *cluster) { return esp_matter::event::create(cluster, GeneralDiagnostics::Events::HardwareFaultChange::Id); } event_t *create_radio_fault_change(cluster_t *cluster) { return esp_matter::event::create(cluster, GeneralDiagnostics::Events::RadioFaultChange::Id); } event_t *create_network_fault_change(cluster_t *cluster) { return esp_matter::event::create(cluster, GeneralDiagnostics::Events::NetworkFaultChange::Id); } event_t *create_boot_reason(cluster_t *cluster) { return esp_matter::event::create(cluster, GeneralDiagnostics::Events::BootReason::Id); } } // namespace event } // namespace general_diagnostics namespace wifi_network_diagnostics { namespace event { event_t *create_disconnection(cluster_t *cluster) { return esp_matter::event::create(cluster, WiFiNetworkDiagnostics::Events::Disconnection::Id); } event_t *create_association_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, WiFiNetworkDiagnostics::Events::AssociationFailure::Id); } event_t *create_connection_status(cluster_t *cluster) { return esp_matter::event::create(cluster, WiFiNetworkDiagnostics::Events::ConnectionStatus::Id); } } // namespace event } // namespace wifi_network_diagnostics namespace thread_network_diagnostics { namespace event { event_t *create_connection_status(cluster_t *cluster) { return esp_matter::event::create(cluster, ThreadNetworkDiagnostics::Events::ConnectionStatus::Id); } event_t *create_network_fault_change(cluster_t *cluster) { return esp_matter::event::create(cluster, ThreadNetworkDiagnostics::Events::NetworkFaultChange::Id); } } // namespace event } // namespace thread_network_diagnostics namespace software_diagnostics { namespace event { event_t *create_software_fault(cluster_t *cluster) { return esp_matter::event::create(cluster, SoftwareDiagnostics::Events::SoftwareFault::Id); } } // namespace event } // namespace software_diagnostics namespace time_synchronization { namespace event { event_t *create_dst_table_empty(cluster_t *cluster) { return esp_matter::event::create(cluster, TimeSynchronization::Events::DSTTableEmpty::Id); } event_t *create_dst_status(cluster_t *cluster) { return esp_matter::event::create(cluster, TimeSynchronization::Events::DSTStatus::Id); } event_t *create_time_zone_status(cluster_t *cluster) { return esp_matter::event::create(cluster, TimeSynchronization::Events::TimeZoneStatus::Id); } event_t *create_time_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, TimeSynchronization::Events::TimeFailure::Id); } event_t *create_missing_trusted_time_source(cluster_t *cluster) { return esp_matter::event::create(cluster, TimeSynchronization::Events::MissingTrustedTimeSource::Id); } } // namespace event } // namespace time_synchronization namespace bridged_device_basic_information { namespace event { event_t *create_start_up(cluster_t *cluster) { return esp_matter::event::create(cluster, BridgedDeviceBasicInformation::Events::StartUp::Id); } event_t *create_shut_down(cluster_t *cluster) { return esp_matter::event::create(cluster, BridgedDeviceBasicInformation::Events::ShutDown::Id); } event_t *create_leave(cluster_t *cluster) { return esp_matter::event::create(cluster, BridgedDeviceBasicInformation::Events::Leave::Id); } event_t *create_reachable_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, BridgedDeviceBasicInformation::Events::ReachableChanged::Id); } } // namespace event } // namespace bridged_device_basic_information namespace smoke_co_alarm { namespace event { event_t *create_smoke_alarm(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::SmokeAlarm::Id); } event_t *create_co_alarm(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::COAlarm::Id); } event_t *create_low_battery(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::LowBattery::Id); } event_t *create_hardware_fault(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::HardwareFault::Id); } event_t *create_end_of_service(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::EndOfService::Id); } event_t *create_self_test_complete(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::SelfTestComplete::Id); } event_t *create_alarm_muted(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::AlarmMuted::Id); } event_t *create_mute_ended(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::MuteEnded::Id); } event_t *create_interconnect_smoke_alarm(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::InterconnectSmokeAlarm::Id); } event_t *create_interconnect_co_alarm(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::InterconnectCOAlarm::Id); } event_t *create_all_clear(cluster_t *cluster) { return esp_matter::event::create(cluster, SmokeCoAlarm::Events::AllClear::Id); } } // namespace event } // namespace smoke_co_alarm namespace door_lock { namespace event { event_t *create_door_lock_alarm(cluster_t *cluster) { return esp_matter::event::create(cluster, DoorLock::Events::DoorLockAlarm::Id); } event_t *create_door_state_change(cluster_t *cluster) { return esp_matter::event::create(cluster, DoorLock::Events::DoorStateChange::Id); } event_t *create_lock_operation(cluster_t *cluster) { return esp_matter::event::create(cluster, DoorLock::Events::LockOperation::Id); } event_t *create_lock_operation_error(cluster_t *cluster) { return esp_matter::event::create(cluster, DoorLock::Events::LockOperationError::Id); } event_t *create_lock_user_change(cluster_t *cluster) { return esp_matter::event::create(cluster, DoorLock::Events::LockUserChange::Id); } esp_err_t send_door_lock_alarm() { /* Not implemented */ return ESP_OK; } esp_err_t send_door_state_change() { /* Not implemented */ return ESP_OK; } esp_err_t send_lock_operation() { /* Not implemented */ return ESP_OK; } esp_err_t send_lock_operation_error() { /* Not implemented */ return ESP_OK; } esp_err_t send_lock_user_change() { /* Not implemented */ return ESP_OK; } } // namespace event } // namespace door_lock namespace switch_cluster { namespace event { event_t *create_switch_latched(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::SwitchLatched::Id); } event_t *create_initial_press(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::InitialPress::Id); } event_t *create_long_press(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::LongPress::Id); } event_t *create_short_release(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::ShortRelease::Id); } event_t *create_long_release(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::LongRelease::Id); } event_t *create_multi_press_ongoing(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::MultiPressOngoing::Id); } event_t *create_multi_press_complete(cluster_t *cluster) { return esp_matter::event::create(cluster, Switch::Events::MultiPressComplete::Id); } esp_err_t send_switch_latched(EndpointId endpoint, uint8_t new_position) { SwitchServer::Instance().OnSwitchLatch(endpoint, new_position); return ESP_OK; } esp_err_t send_initial_press(EndpointId endpoint, uint8_t new_position) { SwitchServer::Instance().OnInitialPress(endpoint, new_position); return ESP_OK; } esp_err_t send_long_press(EndpointId endpoint, uint8_t new_position) { SwitchServer::Instance().OnLongPress(endpoint, new_position); return ESP_OK; } esp_err_t send_short_release(EndpointId endpoint, uint8_t previous_position) { SwitchServer::Instance().OnShortRelease(endpoint, previous_position); return ESP_OK; } esp_err_t send_long_release(EndpointId endpoint, uint8_t previous_position) { SwitchServer::Instance().OnLongRelease(endpoint, previous_position); return ESP_OK; } esp_err_t send_multi_press_ongoing(EndpointId endpoint, uint8_t new_position, uint8_t count) { SwitchServer::Instance().OnMultiPressOngoing(endpoint, new_position, count); return ESP_OK; } esp_err_t send_multi_press_complete(EndpointId endpoint, uint8_t new_position, uint8_t count) { SwitchServer::Instance().OnMultiPressComplete(endpoint, new_position, count); return ESP_OK; } } // namespace event } // namespace switch_cluster namespace boolean_state { namespace event { event_t *create_state_change(cluster_t *cluster) { return esp_matter::event::create(cluster, BooleanState::Events::StateChange::Id); } } // namespace event } // namespace boolean_state namespace boolean_state_configuration { namespace event { event_t *create_alarms_state_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, BooleanStateConfiguration::Events::AlarmsStateChanged::Id); } event_t *create_sensor_fault(cluster_t *cluster) { return esp_matter::event::create(cluster, BooleanStateConfiguration::Events::SensorFault::Id); } } // namespace event } // namespace boolean_state_configuration namespace operational_state { namespace event { event_t *create_operational_error(cluster_t *cluster) { return esp_matter::event::create(cluster, OperationalState::Events::OperationalError::Id); } event_t *create_operation_completion(cluster_t *cluster) { return esp_matter::event::create(cluster, OperationalState::Events::OperationCompletion::Id); } } // namespace event } // namespace operational_state namespace pump_configuration_and_control { namespace event { event_t *create_supply_voltage_low(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::SupplyVoltageLow::Id); } event_t *create_supply_voltage_high(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::SupplyVoltageHigh::Id); } event_t *create_power_missing_phase(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::PowerMissingPhase::Id); } event_t *create_system_pressure_low(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::SystemPressureLow::Id); } event_t *create_system_pressure_high(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::SystemPressureHigh::Id); } event_t *create_dry_running(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::DryRunning::Id); } event_t *create_motor_temperature_high(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::MotorTemperatureHigh::Id); } event_t *create_pump_motor_fatal_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::PumpMotorFatalFailure::Id); } event_t *create_electronic_temperature_high(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::ElectronicTemperatureHigh::Id); } event_t *create_pump_blocked(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::PumpBlocked::Id); } event_t *create_sensor_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::SensorFailure::Id); } event_t *create_electronic_non_fatal_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::ElectronicNonFatalFailure::Id); } event_t *create_electronic_fatal_failure(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::ElectronicFatalFailure::Id); } event_t *create_general_fault(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::GeneralFault::Id); } event_t *create_leakage(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::Leakage::Id); } event_t *create_air_detection(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::AirDetection::Id); } event_t *create_turbine_operation(cluster_t *cluster) { return esp_matter::event::create(cluster, PumpConfigurationAndControl::Events::TurbineOperation::Id); } esp_err_t *send_supply_voltage_low() { /* Not implemented */ return ESP_OK; } esp_err_t send_supply_voltage_high() { /* Not implemented */ return ESP_OK; } esp_err_t send_power_missing_phase() { /* Not implemented */ return ESP_OK; } esp_err_t send_system_pressure_low() { /* Not implemented */ return ESP_OK; } esp_err_t send_system_pressure_high() { /* Not implemented */ return ESP_OK; } esp_err_t send_dry_running() { /* Not implemented */ return ESP_OK; } esp_err_t send_motor_temperature_high() { /* Not implemented */ return ESP_OK; } esp_err_t send_pump_motor_fatal_failure() { /* Not implemented */ return ESP_OK; } esp_err_t send_electronic_temperature_high() { /* Not implemented */ return ESP_OK; } esp_err_t send_pump_blocked() { /* Not implemented */ return ESP_OK; } esp_err_t send_sensor_failure() { /* Not implemented */ return ESP_OK; } esp_err_t send_electronic_non_fatal_failure() { /* Not implemented */ return ESP_OK; } esp_err_t send_electronic_fatal_failure() { /* Not implemented */ return ESP_OK; } esp_err_t send_general_fault() { /* Not implemented */ return ESP_OK; } esp_err_t send_leakage() { /* Not implemented */ return ESP_OK; } esp_err_t send_air_detection() { /* Not implemented */ return ESP_OK; } esp_err_t send_turbine_operation() { /* Not implemented */ return ESP_OK; } } // namespace event } // namespace pump_configuration_and_control namespace electrical_power_measurement { namespace event { event_t *create_measurement_period_ranges(cluster_t *cluster) { return esp_matter::event::create(cluster, ElectricalPowerMeasurement::Events::MeasurementPeriodRanges::Id); } } // namespace event } // namespace electrical_power_measurement namespace electrical_energy_measurement { namespace event { event_t *create_cumulative_energy_measured(cluster_t *cluster) { return esp_matter::event::create(cluster, ElectricalEnergyMeasurement::Events::CumulativeEnergyMeasured::Id); } event_t *create_periodic_energy_measured(cluster_t *cluster) { return esp_matter::event::create(cluster, ElectricalEnergyMeasurement::Events::PeriodicEnergyMeasured::Id); } } // namespace event } // namespace electrical_energy_measurement namespace valve_configuration_and_control { namespace event { event_t *create_valve_state_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, ValveConfigurationAndControl::Events::ValveStateChanged::Id); } event_t *create_valve_fault(cluster_t *cluster) { return esp_matter::event::create(cluster, ValveConfigurationAndControl::Events::ValveFault::Id); } } // namespace event } // namespace valve_configuration_and_control namespace device_energy_management { namespace event { event_t *create_power_adjust_start(cluster_t *cluster) { return esp_matter::event::create(cluster, DeviceEnergyManagement::Events::PowerAdjustStart::Id); } event_t *create_power_adjust_end(cluster_t *cluster) { return esp_matter::event::create(cluster, DeviceEnergyManagement::Events::PowerAdjustEnd::Id); } event_t *create_paused(cluster_t *cluster) { return esp_matter::event::create(cluster, DeviceEnergyManagement::Events::Paused::Id); } event_t *create_resumed(cluster_t *cluster) { return esp_matter::event::create(cluster, DeviceEnergyManagement::Events::Resumed::Id); } } // namespace event } // namespace device_energy_management namespace water_heater_management { namespace event { event_t *create_boost_started(cluster_t *cluster) { return esp_matter::event::create(cluster, WaterHeaterManagement::Events::BoostStarted::Id); } event_t *create_boost_ended(cluster_t *cluster) { return esp_matter::event::create(cluster, WaterHeaterManagement::Events::BoostEnded::Id); } } // namespace event } // namespace water_heater_management namespace commissioner_control { namespace event { event_t *create_commissioning_request_result(cluster_t *cluster) { return esp_matter::event::create(cluster, CommissionerControl::Events::CommissioningRequestResult::Id); } } // namespace event } // namespace commissioner_control namespace occupancy_sensing { namespace event { event_t *create_occupancy_changed(cluster_t *cluster) { return esp_matter::event::create(cluster, OccupancySensing::Events::OccupancyChanged::Id); } } // namespace event } // namespace occupancy_sensing } // namespace cluster } // namespace esp_matter