/* * This file was generated by the CommonAPI Generators. * Used org.genivi.commonapi.core 2.1.5.201312121915. * Used org.franca.core 0.8.11.201401091023. * * This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. * If a copy of the MPL was not distributed with this file, You can obtain one at * http://mozilla.org/MPL/2.0/. */ /** * This class implements everything from Audiomanager -> RoutingAdapter * @author Christian Mueller */ #include "RoutingControlDBusProxy.h" namespace org { namespace genivi { namespace am { std::shared_ptr createRoutingControlDBusProxy( const std::shared_ptr& factory, const std::string& commonApiAddress, const std::string& interfaceName, const std::string& busName, const std::string& objectPath, const std::shared_ptr& dbusProxyConnection) { return std::make_shared(factory, commonApiAddress, interfaceName, busName, objectPath, dbusProxyConnection); } __attribute__((constructor)) void registerRoutingControlDBusProxy(void) { CommonAPI::DBus::DBusFactory::registerProxyFactoryMethod(RoutingControl::getInterfaceId(), &createRoutingControlDBusProxy); } RoutingControlDBusProxy::RoutingControlDBusProxy( const std::shared_ptr& factory, const std::string& commonApiAddress, const std::string& interfaceName, const std::string& busName, const std::string& objectPath, const std::shared_ptr& dbusProxyconnection): CommonAPI::DBus::DBusProxy(factory, commonApiAddress, interfaceName, busName, objectPath, dbusProxyconnection) { } /** * aborts an asynchronous action. (at)return E_OK on success, E_UNKNOWN on error, * E_NON_EXISTENT if handle was not found */ void RoutingControlDBusProxy::asyncAbort(const am_Handle_s& handle, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncAbort", "(iq)", handle, callStatus ); } std::future RoutingControlDBusProxy::asyncAbortAsync(const am_Handle_s& handle, AsyncAbortAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncAbort", "(iq)", handle, std::move(callback)); } /** * connects a source to a sink (at)return E_OK on success, E_UNKNOWN on error, * E_WRONG_FORMAT in case am_CustomConnectionFormat_t does not match */ void RoutingControlDBusProxy::asyncConnect(const am_Handle_s& handle, const am_connectionID_t& connectionID, const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_CustomConnectionFormat_t& connectionFormat, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncConnect", "(iq)qqqq", handle, connectionID, sourceID, sinkID, connectionFormat, callStatus ); } std::future RoutingControlDBusProxy::asyncConnectAsync(const am_Handle_s& handle, const am_connectionID_t& connectionID, const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_CustomConnectionFormat_t& connectionFormat, AsyncConnectAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncConnect", "(iq)qqqq", handle, connectionID, sourceID, sinkID, connectionFormat, std::move(callback)); } /** * disconnect a connection with given connectionID (at)return E_OK on success, * E_UNKNOWN on error, E_NON_EXISTENT if connection was not found */ void RoutingControlDBusProxy::asyncDisconnect(const am_Handle_s& handle, const am_connectionID_t& connectionID, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncDisconnect", "(iq)q", handle, connectionID, callStatus ); } std::future RoutingControlDBusProxy::asyncDisconnectAsync(const am_Handle_s& handle, const am_connectionID_t& connectionID, AsyncDisconnectAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncDisconnect", "(iq)q", handle, connectionID, std::move(callback)); } /** * this method is used to set the volume of a sink. This function is used to drive * ramps, to mute or unmute or directly set the value. The difference is made * through the ramptype. (at)return E_OK on success, E_UNKNOWN on error, * E_OUT_OF_RANGE if new volume is out of range */ void RoutingControlDBusProxy::asyncSetSinkVolume(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_volume_t& volume, const am_CustomRampType_t& ramp, const am_time_t& time, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSinkVolume", "(iq)qnqn", handle, sinkID, volume, ramp, time, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSinkVolumeAsync(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_volume_t& volume, const am_CustomRampType_t& ramp, const am_time_t& time, AsyncSetSinkVolumeAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSinkVolume", "(iq)qnqn", handle, sinkID, volume, ramp, time, std::move(callback)); } /** * sets the volume of a source. This method is used to set the volume of a sink. * This function is used to drive ramps, to mute or unmute or directly set the * value. The difference is made through the ramptype. (at)return E_OK on * success, E_UNKNOWN on error, E_OUT_OF_RANGE if volume is out of * range. triggers the acknowledge ackSourceVolumeChange */ void RoutingControlDBusProxy::asyncSetSourceVolume(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_volume_t& volume, const am_CustomRampType_t& ramp, const am_time_t& time, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSourceVolume", "(iq)qnqn", handle, sourceID, volume, ramp, time, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSourceVolumeAsync(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_volume_t& volume, const am_CustomRampType_t& ramp, const am_time_t& time, AsyncSetSourceVolumeAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSourceVolume", "(iq)qnqn", handle, sourceID, volume, ramp, time, std::move(callback)); } /** * This function is used to set the source state of a particular * source. (at)return E_OK on success, E_UNKNOWN on error */ void RoutingControlDBusProxy::asyncSetSourceState(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SourceState_e& state, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSourceState", "(iq)qi", handle, sourceID, state, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSourceStateAsync(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SourceState_e& state, AsyncSetSourceStateAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSourceState", "(iq)qi", handle, sourceID, state, std::move(callback)); } /** * this function sets the sinksoundproperty. (at)return E_OK on success, * E_UNKNOWN on error, E_OUT_OF_RANGE in case the propery value is out of range */ void RoutingControlDBusProxy::asyncSetSinkSoundProperties(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_SoundProperty_L& listSoundProperties, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSinkSoundProperties", "(iq)qa(qn)", handle, sinkID, listSoundProperties, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSinkSoundPropertiesAsync(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_SoundProperty_L& listSoundProperties, AsyncSetSinkSoundPropertiesAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSinkSoundProperties", "(iq)qa(qn)", handle, sinkID, listSoundProperties, std::move(callback)); } /** * this function sets the sinksoundproperty. (at)return E_OK on success, * E_UNKNOWN on error, E_OUT_OF_RANGE in case the propery value is out of range */ void RoutingControlDBusProxy::asyncSetSinkSoundProperty(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_SoundProperty_s& soundProperty, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSinkSoundProperty", "(iq)q(qn)", handle, sinkID, soundProperty, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSinkSoundPropertyAsync(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_SoundProperty_s& soundProperty, AsyncSetSinkSoundPropertyAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSinkSoundProperty", "(iq)q(qn)", handle, sinkID, soundProperty, std::move(callback)); } /** * this function sets the sourcesoundproperty. (at)return E_OK on success, * E_UNKNOWN on error, E_OUT_OF_RANGE in case the propery value is out of range */ void RoutingControlDBusProxy::asyncSetSourceSoundProperties(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SoundProperty_L& listSoundProperties, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSourceSoundProperties", "(iq)qa(qn)", handle, sourceID, listSoundProperties, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSourceSoundPropertiesAsync(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SoundProperty_L& listSoundProperties, AsyncSetSourceSoundPropertiesAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSourceSoundProperties", "(iq)qa(qn)", handle, sourceID, listSoundProperties, std::move(callback)); } /** * this function sets the sourcesoundproperty. (at)return E_OK on success, * E_UNKNOWN on error, E_OUT_OF_RANGE in case the propery value is out of range */ void RoutingControlDBusProxy::asyncSetSourceSoundProperty(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SoundProperty_s& soundProperty, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSourceSoundProperty", "(iq)q(qn)", handle, sourceID, soundProperty, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSourceSoundPropertyAsync(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_SoundProperty_s& soundProperty, AsyncSetSourceSoundPropertyAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSourceSoundProperty", "(iq)q(qn)", handle, sourceID, soundProperty, std::move(callback)); } /** * this function triggers crossfading. (at)return E_OK on success, E_UNKNOWN on * error */ void RoutingControlDBusProxy::asyncCrossFade(const am_Handle_s& handle, const am_crossfaderID_t& crossfaderID, const am_HotSink_e& hotSink, const am_CustomRampType_t& rampType, const am_time_t& time, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncCrossFade", "(iq)qiqn", handle, crossfaderID, hotSink, rampType, time, callStatus ); } std::future RoutingControlDBusProxy::asyncCrossFadeAsync(const am_Handle_s& handle, const am_crossfaderID_t& crossfaderID, const am_HotSink_e& hotSink, const am_CustomRampType_t& rampType, const am_time_t& time, AsyncCrossFadeAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncCrossFade", "(iq)qiqn", handle, crossfaderID, hotSink, rampType, time, std::move(callback)); } /** * this function is used for early and late audio functions to set the domain * state (at)return E_OK on success, E_UNKNOWN on error */ void RoutingControlDBusProxy::setDomainState(const am_domainID_t& domainID, const am_DomainState_e& domainState, CommonAPI::CallStatus& callStatus, am_Error_e& error) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments >::callMethodWithReply( *this, "setDomainState", "qi", domainID, domainState, callStatus , error); } std::future RoutingControlDBusProxy::setDomainStateAsync(const am_domainID_t& domainID, const am_DomainState_e& domainState, SetDomainStateAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments >::callMethodAsync( *this, "setDomainState", "qi", domainID, domainState, std::move(callback)); } void RoutingControlDBusProxy::asyncSetVolumes(const am_Handle_s& handle, const am_Volumes_L& volumes, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetVolumes", "(iq)a(i(yv)nqn)", handle, volumes, callStatus ); } std::future RoutingControlDBusProxy::asyncSetVolumesAsync(const am_Handle_s& handle, const am_Volumes_L& volumes, AsyncSetVolumesAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetVolumes", "(iq)a(i(yv)nqn)", handle, volumes, std::move(callback)); } void RoutingControlDBusProxy::asyncSetSinkNotificationConfiguration(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_NotificationConfiguration_s& notificationConfiguration, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSinkNotificationConfiguration", "(iq)q(qin)", handle, sinkID, notificationConfiguration, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSinkNotificationConfigurationAsync(const am_Handle_s& handle, const am_sinkID_t& sinkID, const am_NotificationConfiguration_s& notificationConfiguration, AsyncSetSinkNotificationConfigurationAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSinkNotificationConfiguration", "(iq)q(qin)", handle, sinkID, notificationConfiguration, std::move(callback)); } void RoutingControlDBusProxy::asyncSetSourceNotificationConfiguration(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_NotificationConfiguration_s& notificationConfiguration, CommonAPI::CallStatus& callStatus) { CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodWithReply( *this, "asyncSetSourceNotificationConfiguration", "(iq)q(qin)", handle, sourceID, notificationConfiguration, callStatus ); } std::future RoutingControlDBusProxy::asyncSetSourceNotificationConfigurationAsync(const am_Handle_s& handle, const am_sourceID_t& sourceID, const am_NotificationConfiguration_s& notificationConfiguration, AsyncSetSourceNotificationConfigurationAsyncCallback callback) { return CommonAPI::DBus::DBusProxyHelper, CommonAPI::DBus::DBusSerializableArguments<> >::callMethodAsync( *this, "asyncSetSourceNotificationConfiguration", "(iq)q(qin)", handle, sourceID, notificationConfiguration, std::move(callback)); } void RoutingControlDBusProxy::getOwnVersion(uint16_t& ownVersionMajor, uint16_t& ownVersionMinor) const { ownVersionMajor = 1; ownVersionMinor = 0; } } // namespace am } // namespace genivi } // namespace org