/** * Copyright (C) 2012, BMW AG * * This file is part of GENIVI Project AudioManager. * * Contributions are licensed to the GENIVI Alliance under one or more * Contribution License Agreements. * * \copyright * 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/. * * * \author Christian Mueller, christian.ei.mueller@bmw.de BMW 2011,2012 * * \file * For further information see http://www.genivi.org/. * * THIS CODE HAS BEEN GENERATED BY ENTERPRISE ARCHITECT GENIVI MODEL. PLEASE CHANGE ONLY IN ENTERPRISE ARCHITECT AND GENERATE AGAIN */ #if !defined(EA_B9BE9751_825D_44b9_86F1_C2F02E5FA3ED__INCLUDED_) #define EA_B9BE9751_825D_44b9_86F1_C2F02E5FA3ED__INCLUDED_ #include #include #include "audiomanagertypes.h" namespace am { class IAmControlReceive; } #include "IAmControlReceive.h" #define ControlSendVersion "1.0" namespace am { /** * This interface is presented by the AudioManager controller. * All the hooks represent system events that need to be handled. The callback * functions are used to handle for example answers to function calls on the * AudioManagerCoreInterface. * There are two rules that have to be kept in mind when implementing against this * interface:\n * \warning * 1. CALLS TO THIS INTERFACE ARE NOT THREAD SAFE !!!! \n * 2. YOU MAY NOT CALL THE CALLING INTERFACE DURING AN SYNCHRONOUS OR ASYNCHRONOUS * CALL THAT EXPECTS A RETURN VALUE.\n * \details * Violation these rules may lead to unexpected behavior! Nevertheless you can * implement thread safe by using the deferred-call pattern described on the wiki * which also helps to implement calls that are forbidden.\n * For more information, please check CAmSerializer * @author Christian Mueller * @created 07-Mar-2012 6:06:18 PM */ class IAmControlSend { public: IAmControlSend() { } virtual ~IAmControlSend() { } /** * This function returns the version of the interface * returns E_OK, E_UNKOWN if version is unknown. * * @param version */ virtual void getInterfaceVersion(std::string& version) const =0; /** * Starts up the controller. * * @param controlreceiveinterface This is a pointer to the * ControlReceiveInterface so that the controller knows to whom to communicate. */ virtual am_Error_e startupController(IAmControlReceive* controlreceiveinterface) =0; /** * this message is used tell the controller that it should get ready. This message * must be acknowledged via confirmControllerReady. */ virtual void setControllerReady() =0; /** * this message tells the controller that he should prepare everything for the * power to be switched off. This message must be acknowledged via * confirmControllerRundown. */ virtual void setControllerRundown() =0; /** * is called when a connection request comes in via the command interface * @return E_OK on success, E_NOT_POSSIBLE on error, E_ALREADY_EXISTENT if already * exists * * @param sourceID * @param sinkID * @param mainConnectionID */ virtual am_Error_e hookUserConnectionRequest(const am_sourceID_t sourceID, const am_sinkID_t sinkID, am_mainConnectionID_t& mainConnectionID) =0; /** * is called when a disconnection request comes in via the command interface * @return E_OK on success, E_NOT_POSSIBLE on error, E_NON_EXISTENT if connection * does not exists * * @param connectionID */ virtual am_Error_e hookUserDisconnectionRequest(const am_mainConnectionID_t connectionID) =0; /** * sets a user MainSinkSoundProperty * @return E_OK on success, E_OUT_OF_RANGE if out of range, E_UNKNOWN on error * * @param sinkID * @param soundProperty */ virtual am_Error_e hookUserSetMainSinkSoundProperty(const am_sinkID_t sinkID, const am_MainSoundProperty_s& soundProperty) =0; /** * sets a user MainSourceSoundProperty * @return E_OK on success, E_OUT_OF_RANGE if out of range, E_UNKNOWN on error * * @param sourceID * @param soundProperty */ virtual am_Error_e hookUserSetMainSourceSoundProperty(const am_sourceID_t sourceID, const am_MainSoundProperty_s& soundProperty) =0; /** * sets a user SystemProperty * @return E_OK on success, E_OUT_OF_RANGE if out of range, E_UNKNOWN on error * * @param property */ virtual am_Error_e hookUserSetSystemProperty(const am_SystemProperty_s& property) =0; /** * sets a user volume * @return E_OK on success, E_OUT_OF_RANGE if out of range, E_UNKNOWN on error * * @param SinkID * @param newVolume */ virtual am_Error_e hookUserVolumeChange(const am_sinkID_t SinkID, const am_mainVolume_t newVolume) =0; /** * sets a user volume as increment * @return E_OK on success, E_OUT_OF_RANGE if out of range, E_UNKNOWN on error * * @param SinkID * @param increment the steps */ virtual am_Error_e hookUserVolumeStep(const am_sinkID_t SinkID, const int16_t increment) =0; /** * sets the mute state of a sink * @return E_OK on success, E_UNKNOWN on error * * @param sinkID * @param muteState true=muted */ virtual am_Error_e hookUserSetSinkMuteState(const am_sinkID_t sinkID, const am_MuteState_e muteState) =0; /** * is called when a routing adaptor registers its domain * @return E_OK on success, E_UNKNOWN on error, E_ALREADY_EXISTENT if already * exists * * @param domainData ID is omitted here since it has not been created yet * @param domainID */ virtual am_Error_e hookSystemRegisterDomain(const am_Domain_s& domainData, am_domainID_t& domainID) =0; /** * is called when a routing adaptor wants to derigister a domain * @return E_OK on success, E_UNKNOWN on error, E_NON_EXISTENT if not found * * @param domainID */ virtual am_Error_e hookSystemDeregisterDomain(const am_domainID_t domainID) =0; /** * is called when a domain registered all the elements * * @param domainID */ virtual void hookSystemDomainRegistrationComplete(const am_domainID_t domainID) =0; /** * is called when a routing adaptor registers a sink * @return E_OK on success, E_UNKNOWN on error, E_ALREADY_EXISTENT if already * exists * * @param sinkData Id is omitted here, since it has not been created yet * @param sinkID */ virtual am_Error_e hookSystemRegisterSink(const am_Sink_s& sinkData, am_sinkID_t& sinkID) =0; /** * is called when a routing adaptor deregisters a sink * @return E_OK on success, E_UNKNOWN on error, E_NON_EXISTENT if not found * * @param sinkID */ virtual am_Error_e hookSystemDeregisterSink(const am_sinkID_t sinkID) =0; /** * is called when a routing adaptor registers a source * @return E_OK on success, E_UNKNOWN on error, E_ALREADY_EXISTENT if already * exists * * @param sourceData ID is omitted here since it is not yet created * @param sourceID */ virtual am_Error_e hookSystemRegisterSource(const am_Source_s& sourceData, am_sourceID_t& sourceID) =0; /** * is called when a routing adaptor deregisters a source * @return E_OK on success, E_UNKNOWN on error, E_NON_EXISTENT if not found * * @param sourceID */ virtual am_Error_e hookSystemDeregisterSource(const am_sourceID_t sourceID) =0; /** * is called when a routing adaptor registers a gateway * @return E_OK on success, E_UNKNOWN on error, E_ALREADY_EXISTENT if already * exists * * @param gatewayData gatewayID is not set here since it is not created at this * point of time * @param gatewayID */ virtual am_Error_e hookSystemRegisterGateway(const am_Gateway_s& gatewayData, am_gatewayID_t& gatewayID) =0; /** * is called when a routing adaptor deregisters a gateway * @return E_OK on success, E_UNKNOWN on error, E_NON_EXISTENT if not found * * @param gatewayID */ virtual am_Error_e hookSystemDeregisterGateway(const am_gatewayID_t gatewayID) =0; /** * is called when a routing adaptor registers a crossfader * @return E_OK on success, E_UNKNOWN on error, E_ALREADY_EXISTENT if already * exists * * @param crossfaderData gatewayID is not set here since it is not created at * this point of time * @param crossfaderID */ virtual am_Error_e hookSystemRegisterCrossfader(const am_Crossfader_s& crossfaderData, am_crossfaderID_t& crossfaderID) =0; /** * is called when a routing adaptor deregisters a crossfader * @return E_OK on success, E_UNKNOWN on error, E_NON_EXISTENT if not found * * @param crossfaderID */ virtual am_Error_e hookSystemDeregisterCrossfader(const am_crossfaderID_t crossfaderID) =0; /** * volumeticks. therse are used to indicate volumechanges during a ramp * * @param handle * @param sinkID * @param volume */ virtual void hookSystemSinkVolumeTick(const am_Handle_s handle, const am_sinkID_t sinkID, const am_volume_t volume) =0; /** * volumeticks. therse are used to indicate volumechanges during a ramp * * @param handle * @param sourceID * @param volume */ virtual void hookSystemSourceVolumeTick(const am_Handle_s handle, const am_sourceID_t sourceID, const am_volume_t volume) =0; /** * is called when an low level interrupt changed its state * * @param sourceID * @param interruptState */ virtual void hookSystemInterruptStateChange(const am_sourceID_t sourceID, const am_InterruptState_e interruptState) =0; /** * id called when a sink changed its availability * * @param sinkID * @param availability */ virtual void hookSystemSinkAvailablityStateChange(const am_sinkID_t sinkID, const am_Availability_s& availability) =0; /** * id called when a source changed its availability * * @param sourceID * @param availability */ virtual void hookSystemSourceAvailablityStateChange(const am_sourceID_t sourceID, const am_Availability_s& availability) =0; /** * id called when domainstate was changed * * @param domainID * @param state */ virtual void hookSystemDomainStateChange(const am_domainID_t domainID, const am_DomainState_e state) =0; /** * when early data was received * * @param data */ virtual void hookSystemReceiveEarlyData(const std::vector& data) =0; /** * this hook provides information about speed changes. * The quantization and sampling rate of the speed can be adjusted at compile time * of the AudioManagerDaemon. * * @param speed */ virtual void hookSystemSpeedChange(const am_speed_t speed) =0; /** * this hook is fired whenever the timing information of a mainconnection has * changed. * * @param mainConnectionID * @param time */ virtual void hookSystemTimingInformationChanged(const am_mainConnectionID_t mainConnectionID, const am_timeSync_t time) =0; /** * ack for connect * * @param handle * @param errorID */ virtual void cbAckConnect(const am_Handle_s handle, const am_Error_e errorID) =0; /** * ack for disconnect * * @param handle * @param errorID */ virtual void cbAckDisconnect(const am_Handle_s handle, const am_Error_e errorID) =0; /** * ack for crossfading * * @param handle * @param hostsink * @param error */ virtual void cbAckCrossFade(const am_Handle_s handle, const am_HotSink_e hostsink, const am_Error_e error) =0; /** * ack for sink volume changes * * @param handle * @param volume * @param error */ virtual void cbAckSetSinkVolumeChange(const am_Handle_s handle, const am_volume_t volume, const am_Error_e error) =0; /** * ack for source volume changes * * @param handle the handle that is connected to the volume change * @param voulme the volume after the action ended (the desired volume if * everything went right, the actual one in case of abortion) * @param error */ virtual void cbAckSetSourceVolumeChange(const am_Handle_s handle, const am_volume_t voulme, const am_Error_e error) =0; /** * ack for setting of source states * * @param handle * @param error */ virtual void cbAckSetSourceState(const am_Handle_s handle, const am_Error_e error) =0; /** * ack for setting of sourcesoundproperties * * @param handle * @param error */ virtual void cbAckSetSourceSoundProperties(const am_Handle_s handle, const am_Error_e error) =0; /** * ack for setting of sourcesoundproperties * * @param handle * @param error */ virtual void cbAckSetSourceSoundProperty(const am_Handle_s handle, const am_Error_e error) =0; /** * ack for setting of sinksoundproperties * * @param handle * @param error */ virtual void cbAckSetSinkSoundProperties(const am_Handle_s handle, const am_Error_e error) =0; /** * ack for setting of sinksoundproperties * * @param handle * @param error */ virtual void cbAckSetSinkSoundProperty(const am_Handle_s handle, const am_Error_e error) =0; /** * This function is used by the routing algorithm to retrieve a priorized list of * connectionFormats from the Controller. * @return E_OK in case of successfull priorisation. * * @param sourceID sourceID of source that shall be connected * @param sinkID sinkID of sink that shall be connected * @param listRoute This route is the one the priorized connectionFormats is * for. * @param listPossibleConnectionFormats list of possible connectionformats * @param listPrioConnectionFormats the list return with prioos from the * controller. Best choice on first position. */ virtual am_Error_e getConnectionFormatChoice(const am_sourceID_t sourceID, const am_sinkID_t sinkID, const am_Route_s listRoute, const std::vector listPossibleConnectionFormats, std::vector& listPrioConnectionFormats) =0; /** * confirms the setCommandReady call */ virtual void confirmCommandReady() =0; /** * confirms the setRoutingReady call */ virtual void confirmRoutingReady() =0; /** * confirms the setCommandRundown call */ virtual void confirmCommandRundown() =0; /** * confirms the setRoutingRundown command */ virtual void confirmRoutingRundown() =0; }; } #endif // !defined(EA_B9BE9751_825D_44b9_86F1_C2F02E5FA3ED__INCLUDED_)