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/**
* 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 Aleksandar Donchev, aleksander.donchev@partner.bmw.de BMW 2013
*
* \file CAmDatabaseHandlerMap.h
* For further information see http://www.genivi.org/.
*
*/
#ifndef MAPHANDLER_H_
#define MAPHANDLER_H_
#include "IAmDatabaseHandler.h"
#include <stdint.h>
#include <limits.h>
#include <sstream>
#include <iostream>
#include <unordered_map>
namespace am
{
#ifndef AM_MAP_CAPACITY
#define AM_MAP_CAPACITY 0
#endif
//todo: check the enum values before entering & changing in the database.
//todo: change asserts for dynamic boundary checks into failure answers.#
//todo: check autoincrement boundary and set to 16bit limits
//todo: If the sink is part of a gateway, the listconnectionFormats is copied to the gatewayInformation. Check this statement for sinks & sources
//todo: exchange last_insert_row id to be more safe
//todo: create test to ensure uniqueness of names throughout the database
//todo: enforce the uniqueness of names
/**
* This class handles and abstracts the database
*/
class CAmDatabaseHandlerMap : public IAmDatabaseHandler
{
bool mFirstStaticSink; //!< bool for dynamic range handling
bool mFirstStaticSource; //!< bool for dynamic range handling
bool mFirstStaticGateway; //!< bool for dynamic range handling
bool mFirstStaticSinkClass; //!< bool for dynamic range handling
bool mFirstStaticSourceClass; //!< bool for dynamic range handling
bool mFirstStaticCrossfader; //!< bool for dynamic range handling
public:
CAmDatabaseHandlerMap();
virtual ~CAmDatabaseHandlerMap();
am_Error_e enterDomainDB(const am_Domain_s& domainData, am_domainID_t& domainID);
am_Error_e enterMainConnectionDB(const am_MainConnection_s& mainConnectionData, am_mainConnectionID_t& connectionID);
am_Error_e enterSinkDB(const am_Sink_s& sinkData, am_sinkID_t& sinkID);
am_Error_e enterCrossfaderDB(const am_Crossfader_s& crossfaderData, am_crossfaderID_t& crossfaderID);
am_Error_e enterGatewayDB(const am_Gateway_s& gatewayData, am_gatewayID_t& gatewayID);
am_Error_e enterSourceDB(const am_Source_s& sourceData, am_sourceID_t& sourceID);
am_Error_e enterConnectionDB(const am_Connection_s& connection, am_connectionID_t& connectionID);
am_Error_e enterSinkClassDB(const am_SinkClass_s& sinkClass, am_sinkClass_t& sinkClassID);
am_Error_e enterSourceClassDB(am_sourceClass_t& sourceClassID, const am_SourceClass_s& sourceClass);
am_Error_e enterSystemProperties(const std::vector<am_SystemProperty_s>& listSystemProperties);
am_Error_e changeMainConnectionRouteDB(const am_mainConnectionID_t mainconnectionID, const std::vector<am_connectionID_t>& listConnectionID);
am_Error_e changeMainConnectionStateDB(const am_mainConnectionID_t mainconnectionID, const am_ConnectionState_e connectionState);
am_Error_e changeSinkMainVolumeDB(const am_mainVolume_t mainVolume, const am_sinkID_t sinkID);
am_Error_e changeSinkAvailabilityDB(const am_Availability_s& availability, const am_sinkID_t sinkID);
am_Error_e changDomainStateDB(const am_DomainState_e domainState, const am_domainID_t domainID);
am_Error_e changeSinkMuteStateDB(const am_MuteState_e muteState, const am_sinkID_t sinkID);
am_Error_e changeMainSinkSoundPropertyDB(const am_MainSoundProperty_s& soundProperty, const am_sinkID_t sinkID);
am_Error_e changeMainSourceSoundPropertyDB(const am_MainSoundProperty_s& soundProperty, const am_sourceID_t sourceID);
am_Error_e changeSourceSoundPropertyDB(const am_SoundProperty_s& soundProperty, const am_sourceID_t sourceID);
am_Error_e changeSinkSoundPropertyDB(const am_SoundProperty_s& soundProperty, const am_sinkID_t sinkID);
am_Error_e changeSourceAvailabilityDB(const am_Availability_s& availability, const am_sourceID_t sourceID);
am_Error_e changeSystemPropertyDB(const am_SystemProperty_s& property);
am_Error_e changeDelayMainConnection(const am_timeSync_t & delay, const am_mainConnectionID_t & connectionID);
am_Error_e changeSinkClassInfoDB(const am_SinkClass_s& sinkClass);
am_Error_e changeSourceClassInfoDB(const am_SourceClass_s& sourceClass);
am_Error_e changeConnectionTimingInformation(const am_connectionID_t connectionID, const am_timeSync_t delay);
am_Error_e changeConnectionFinal(const am_connectionID_t connectionID);
am_Error_e changeSourceState(const am_sourceID_t sourceID, const am_SourceState_e sourceState);
am_Error_e changeSinkVolume(const am_sinkID_t sinkID, const am_volume_t volume);
am_Error_e changeSourceVolume(const am_sourceID_t sourceID, const am_volume_t volume);
am_Error_e changeCrossFaderHotSink(const am_crossfaderID_t crossfaderID, const am_HotSink_e hotsink);
am_Error_e removeMainConnectionDB(const am_mainConnectionID_t mainConnectionID);
am_Error_e removeSinkDB(const am_sinkID_t sinkID);
am_Error_e removeSourceDB(const am_sourceID_t sourceID);
am_Error_e removeGatewayDB(const am_gatewayID_t gatewayID);
am_Error_e removeCrossfaderDB(const am_crossfaderID_t crossfaderID);
am_Error_e removeDomainDB(const am_domainID_t domainID);
am_Error_e removeSinkClassDB(const am_sinkClass_t sinkClassID);
am_Error_e removeSourceClassDB(const am_sourceClass_t sourceClassID);
am_Error_e removeConnection(const am_connectionID_t connectionID);
am_Error_e getSourceClassInfoDB(const am_sourceID_t sourceID, am_SourceClass_s& classInfo) const;
am_Error_e getSinkClassInfoDB(const am_sinkID_t sinkID, am_SinkClass_s& sinkClass) const;
am_Error_e getGatewayInfoDB(const am_gatewayID_t gatewayID, am_Gateway_s& gatewayData) const;
am_Error_e getSinkInfoDB(const am_sinkID_t sinkID, am_Sink_s& sinkData) const;
am_Error_e getSourceInfoDB(const am_sourceID_t sourceID, am_Source_s& sourceData) const;
am_Error_e getCrossfaderInfoDB(const am_crossfaderID_t crossfaderID, am_Crossfader_s& crossfaderData) const;
am_Error_e getMainConnectionInfoDB(const am_mainConnectionID_t mainConnectionID, am_MainConnection_s& mainConnectionData) const;
am_Error_e getSinkVolume(const am_sinkID_t sinkID, am_volume_t& volume) const;
am_Error_e getSourceVolume(const am_sourceID_t sourceID, am_volume_t& volume) const;
am_Error_e getSinkSoundPropertyValue(const am_sinkID_t sinkID, const am_SoundPropertyType_e propertyType, int16_t& value) const;
am_Error_e getSourceSoundPropertyValue(const am_sourceID_t sourceID, const am_SoundPropertyType_e propertyType, int16_t& value) const;
am_Error_e getListSinksOfDomain(const am_domainID_t domainID, std::vector<am_sinkID_t>& listSinkID) const;
am_Error_e getListSourcesOfDomain(const am_domainID_t domainID, std::vector<am_sourceID_t>& listSourceID) const;
am_Error_e getListCrossfadersOfDomain(const am_domainID_t domainID, std::vector<am_crossfaderID_t>& listGatewaysID) const;
am_Error_e getListGatewaysOfDomain(const am_domainID_t domainID, std::vector<am_gatewayID_t>& listGatewaysID) const;
am_Error_e getListMainConnections(std::vector<am_MainConnection_s>& listMainConnections) const;
am_Error_e getListDomains(std::vector<am_Domain_s>& listDomains) const;
am_Error_e getListConnections(std::vector<am_Connection_s>& listConnections) const;
am_Error_e getListSinks(std::vector<am_Sink_s>& listSinks) const;
am_Error_e getListSources(std::vector<am_Source_s>& lisSources) const;
am_Error_e getListSourceClasses(std::vector<am_SourceClass_s>& listSourceClasses) const;
am_Error_e getListCrossfaders(std::vector<am_Crossfader_s>& listCrossfaders) const;
am_Error_e getListGateways(std::vector<am_Gateway_s>& listGateways) const;
am_Error_e getListSinkClasses(std::vector<am_SinkClass_s>& listSinkClasses) const;
am_Error_e getListVisibleMainConnections(std::vector<am_MainConnectionType_s>& listConnections) const;
am_Error_e getListMainSinks(std::vector<am_SinkType_s>& listMainSinks) const;
am_Error_e getListMainSources(std::vector<am_SourceType_s>& listMainSources) const;
am_Error_e getListMainSinkSoundProperties(const am_sinkID_t sinkID, std::vector<am_MainSoundProperty_s>& listSoundProperties) const;
am_Error_e getListMainSourceSoundProperties(const am_sourceID_t sourceID, std::vector<am_MainSoundProperty_s>& listSourceProperties) const;
am_Error_e getListSystemProperties(std::vector<am_SystemProperty_s>& listSystemProperties) const;
am_Error_e getListSinkConnectionFormats(const am_sinkID_t sinkID, std::vector<am_ConnectionFormat_e> & listConnectionFormats) const;
am_Error_e getListSourceConnectionFormats(const am_sourceID_t sourceID, std::vector<am_ConnectionFormat_e> & listConnectionFormats) const;
am_Error_e getListGatewayConnectionFormats(const am_gatewayID_t gatewayID, std::vector<bool> & listConnectionFormat) const;
am_Error_e getTimingInformation(const am_mainConnectionID_t mainConnectionID, am_timeSync_t& delay) const;
am_Error_e getDomainOfSource(const am_sourceID_t sourceID, am_domainID_t& domainID) const;
am_Error_e getDomainOfSink(const am_sinkID_t sinkID, am_domainID_t& domainID) const;
am_Error_e getSoureState(const am_sourceID_t sourceID, am_SourceState_e& sourceState) const;
am_Error_e getDomainState(const am_domainID_t domainID, am_DomainState_e& state) const;
am_Error_e getRoutingTree(bool onlyfree, CAmRoutingTree& tree, std::vector<CAmRoutingTreeItem*>& flatTree);
am_Error_e peekDomain(const std::string& name, am_domainID_t& domainID);
am_Error_e peekSink(const std::string& name, am_sinkID_t& sinkID);
am_Error_e peekSource(const std::string& name, am_sourceID_t& sourceID);
am_Error_e peekSinkClassID(const std::string& name, am_sinkClass_t& sinkClassID);
am_Error_e peekSourceClassID(const std::string& name, am_sourceClass_t& sourceClassID);
am_Error_e changeSourceDB(const am_sourceID_t sourceID, const am_sourceClass_t sourceClassID, const std::vector<am_SoundProperty_s>& listSoundProperties, const std::vector<am_ConnectionFormat_e>& listConnectionFormats, const std::vector<am_MainSoundProperty_s>& listMainSoundProperties);
am_Error_e changeSinkDB(const am_sinkID_t sinkID, const am_sinkClass_t sinkClassID, const std::vector<am_SoundProperty_s>& listSoundProperties, const std::vector<am_ConnectionFormat_e>& listConnectionFormats, const std::vector<am_MainSoundProperty_s>& listMainSoundProperties);
am_Error_e getListMainSinkNotificationConfigurations(const am_sinkID_t sinkID, std::vector<am_NotificationConfiguration_s>& listMainNotificationConfigurations);
am_Error_e getListMainSourceNotificationConfigurations(const am_sourceID_t sourceID, std::vector<am_NotificationConfiguration_s>& listMainNotificationConfigurations);
am_Error_e changeMainSinkNotificationConfigurationDB(const am_sinkID_t sinkID, const am_NotificationConfiguration_s mainNotificationConfiguration);
am_Error_e changeMainSourceNotificationConfigurationDB(const am_sourceID_t sourceID, const am_NotificationConfiguration_s mainNotificationConfiguration);
am_Error_e changeGatewayDB(const am_gatewayID_t gatewayID, const std::vector<am_ConnectionFormat_e>& listSourceConnectionFormats, const std::vector<am_ConnectionFormat_e>& listSinkConnectionFormats, const std::vector<bool>& convertionMatrix);
am_Error_e changeSinkNotificationConfigurationDB(const am_sinkID_t sinkID,const am_NotificationConfiguration_s notificationConfiguration);
am_Error_e changeSourceNotificationConfigurationDB(const am_sourceID_t sourceID,const am_NotificationConfiguration_s notificationConfiguration);
bool existMainConnection(const am_mainConnectionID_t mainConnectionID) const;
bool existcrossFader(const am_crossfaderID_t crossfaderID) const;
bool existConnection(const am_Connection_s & connection) const;
bool existConnectionID(const am_connectionID_t connectionID) const;
bool existSource(const am_sourceID_t sourceID) const;
bool existSourceNameOrID(const am_sourceID_t sourceID, const std::string& name) const;
bool existSourceName(const std::string& name) const;
bool existSink(const am_sinkID_t sinkID) const;
bool existSinkNameOrID(const am_sinkID_t sinkID, const std::string& name) const;
bool existSinkName(const std::string& name) const;
bool existDomain(const am_domainID_t domainID) const;
bool existGateway(const am_gatewayID_t gatewayID) const;
bool existSinkClass(const am_sinkClass_t sinkClassID) const;
bool existSourceClass(const am_sourceClass_t sourceClassID) const;
void registerObserver(CAmDatabaseObserver *iObserver);
bool sourceVisible(const am_sourceID_t sourceID) const;
bool sinkVisible(const am_sinkID_t sinkID) const;
void dump( std::ostream & output ) const;
/**
* The following structures extend the base structures with the field 'reserved'.
*/
#define AM_TYPEDEF_SUBCLASS_BEGIN(Subclass, Class) \
typedef struct Subclass : public Class\
{\
Subclass & operator=(const Subclass & anObject) \
{\
if (this != &anObject)\
{\
Class::operator=(anObject);\
}\
return *this;\
};\
Subclass & operator=(const Class & anObject)\
{\
if (this != &anObject)\
Class::operator=(anObject);\
return *this;\
};\
void getDescription (std::string & outString) const;\
#define AM_TYPEDEF_SUBCLASS_RESERVED_FLAG_BEGIN(Subclass, Class) \
typedef struct Subclass : public Class\
{\
bool reserved;\
Subclass():Class(), reserved(false)\
{};\
Subclass & operator=(const Subclass & anObject)\
{\
if (this != &anObject)\
{\
Class::operator=(anObject);\
reserved = anObject.reserved;\
}\
return *this;\
};\
Subclass & operator=(const Class & anObject)\
{\
if (this != &anObject)\
Class::operator=(anObject);\
return *this;\
};\
void getDescription (std::string & outString) const;\
#define AM_TYPEDEF_SUBCLASS_END(Typedef) } Typedef; \
AM_TYPEDEF_SUBCLASS_RESERVED_FLAG_BEGIN(am_Domain_Database_s,am_Domain_s)
AM_TYPEDEF_SUBCLASS_END(CAmDomain)
AM_TYPEDEF_SUBCLASS_RESERVED_FLAG_BEGIN(am_Sink_Database_s,am_Sink_s)
void getSinkType(am_SinkType_s & sinkType) const;\
AM_TYPEDEF_SUBCLASS_END(CAmSink)
AM_TYPEDEF_SUBCLASS_RESERVED_FLAG_BEGIN(am_Source_Database_s,am_Source_s)
void getSourceType(am_SourceType_s & sourceType) const;\
AM_TYPEDEF_SUBCLASS_END(CAmSource)
AM_TYPEDEF_SUBCLASS_RESERVED_FLAG_BEGIN(am_Connection_Database_s,am_Connection_s)
AM_TYPEDEF_SUBCLASS_END(CAmConnection)
/**
* The following structures extend the base structures with print capabilities.
*/
AM_TYPEDEF_SUBCLASS_BEGIN(am_MainConnection_Database_s, am_MainConnection_s)
void getMainConnectionType(am_MainConnectionType_s & connectionType) const;\
AM_TYPEDEF_SUBCLASS_END(CAmMainConnection)
AM_TYPEDEF_SUBCLASS_BEGIN(am_SourceClass_Database_s, am_SourceClass_s)
AM_TYPEDEF_SUBCLASS_END(CAmSourceClass)
AM_TYPEDEF_SUBCLASS_BEGIN(am_SinkClass_Database_s, am_SinkClass_s)
AM_TYPEDEF_SUBCLASS_END(CAmSinkClass)
AM_TYPEDEF_SUBCLASS_BEGIN(am_Gateway_Database_s, am_Gateway_s)
AM_TYPEDEF_SUBCLASS_END(CAmGateway)
AM_TYPEDEF_SUBCLASS_BEGIN(am_Crossfader_Database_s, am_Crossfader_s)
AM_TYPEDEF_SUBCLASS_END(CAmCrossfader)
private:
typedef std::unordered_map<am_domainID_t, CAmDomain> CAmMapDomain;
typedef std::unordered_map<am_sourceClass_t, CAmSourceClass> CAmMapSourceClass;
typedef std::unordered_map<am_sinkClass_t, CAmSinkClass> CAmMapSinkClass;
typedef std::unordered_map<am_sinkID_t, CAmSink> CAmMapSink;
typedef std::unordered_map<am_sourceID_t, CAmSource> CAmMapSource;
typedef std::unordered_map<am_gatewayID_t, CAmGateway> CAmMapGateway;
typedef std::unordered_map<am_crossfaderID_t, CAmCrossfader> CAmMapCrossfader;
typedef std::unordered_map<am_connectionID_t, CAmConnection> CAmMapConnection;
typedef std::unordered_map<am_mainConnectionID_t, CAmMainConnection> CAmMapMainConnection;
typedef std::vector<am_SystemProperty_s> CAmVectorSystemProperties;
/**
* The following structure groups the map objects needed for the implementation.
* Every map object is coupled with an identifier, which hold the current value.
* DYNAMIC_ID_BOUNDARY is used as initial value everywhere a dynamic id is considered .
* The ID's can be increased through the method increaseID(...), which follows the AudioManager logic.
* For more information about the static and dynamic IDs, please see the documentation.
*/
typedef struct CAmMappedData
{
int16_t mCurrentDomainID; //!< domain ID
int16_t mCurrentSourceClassesID; //!< source classes ID
int16_t mCurrentSinkClassesID; //!< sink classes ID
int16_t mCurrentSinkID; //!< sink ID
int16_t mCurrentSourceID; //!< source ID
int16_t mCurrentGatewayID; //!< gateway ID
int16_t mCurrentCrossfaderID; //!< crossfader ID
int16_t mCurrentConnectionID; //!< connection ID
int16_t mCurrentMainConnectionID; //!< mainconnection ID
int16_t mDefaultIDLimit; //!< Upper limit for all IDs, default is SHRT_MAX
CAmVectorSystemProperties mSystemProperties; //!< vector with system properties
CAmMapDomain mDomainMap; //!< map for domain structures
CAmMapSourceClass mSourceClassesMap; //!< map for source classes structures
CAmMapSinkClass mSinkClassesMap; //!< map for sink classes structures
CAmMapSink mSinkMap; //!< map for sink structures
CAmMapSource mSourceMap; //!< map for source structures
CAmMapGateway mGatewayMap; //!< map for gateway structures
CAmMapCrossfader mCrossfaderMap; //!< map for crossfader structures
CAmMapConnection mConnectionMap; //!< map for connection structures
CAmMapMainConnection mMainConnectionMap; //!< map for main connection structures
CAmMappedData(): //For Domain, MainConnections, Connections we don't have static IDs.
mCurrentDomainID(1), mCurrentSourceClassesID(DYNAMIC_ID_BOUNDARY), mCurrentSinkClassesID(DYNAMIC_ID_BOUNDARY),
mCurrentSinkID(DYNAMIC_ID_BOUNDARY), mCurrentSourceID(DYNAMIC_ID_BOUNDARY), mCurrentGatewayID(DYNAMIC_ID_BOUNDARY),
mCurrentCrossfaderID(DYNAMIC_ID_BOUNDARY), mCurrentConnectionID(1), mCurrentMainConnectionID(1),
mDefaultIDLimit(SHRT_MAX),
mSystemProperties(),
mDomainMap(),mSourceClassesMap(), mSinkClassesMap(), mSinkMap(AM_MAP_CAPACITY), mSourceMap(AM_MAP_CAPACITY),
mGatewayMap(), mCrossfaderMap(), mConnectionMap(), mMainConnectionMap()
{};
/**
* \brief Increases a given map ID.
*
* A common method implementing the logic for static and dynamic IDs.
*
* @param resultID Pointer to an output variable.
* @param sourceID Pointer to ID, which will be manipulated.
* @param desiredStaticID Not 0 for static IDs and 0 for dynamic IDs.
* Usually the static IDs are in interval [1 , DYNAMIC_ID_BOUNDARY]. Default is 0.
* @param preferedStaticIDBoundary A limit for a given dynamic ID. Default is DYNAMIC_ID_BOUNDARY.
* @return TRUE on successfully changed ID.
*/
bool increaseID(int16_t * resultID, int16_t * sourceID,
int16_t const desiredStaticID, int16_t const preferedStaticIDBoundary );
template <class TPrintObject> static void print (const TPrintObject & t, std::ostream & output)
{
std::string description;
t.getDescription( description );
output << description;
}
template <typename TPrintMapKey,class TPrintMapObject> static void printMap (const std::unordered_map<TPrintMapKey, TPrintMapObject> & t, std::ostream & output)
{
typename std::unordered_map<TPrintMapKey, TPrintMapObject>::const_iterator iter = t.begin();
for(; iter!=t.end(); iter++)
CAmMappedData::print(iter->second, output);
}
} CAmMappedData;
/*
* Helper methods.
*/
am_timeSync_t calculateMainConnectionDelay(const am_mainConnectionID_t mainConnectionID) const; //!< calculates a new main connection delay
int16_t calculateDelayForRoute(const std::vector<am_connectionID_t>& listConnectionID);
bool insertSinkDB(const am_Sink_s & sinkData, am_sinkID_t & sinkID);
bool insertCrossfaderDB(const am_Crossfader_s & crossfaderData, am_crossfaderID_t & crossfaderID);
bool insertGatewayDB(const am_Gateway_s & gatewayData, am_gatewayID_t & gatewayID);
bool insertSourceDB(const am_Source_s & sourceData, am_sourceID_t & sourceID);
bool insertSinkClassDB(const am_SinkClass_s & sinkClass, am_sinkClass_t & sinkClassID);
bool insertSourceClassDB(am_sourceClass_t & sourceClassID, const am_SourceClass_s & sourceClass);
CAmDatabaseObserver *mpDatabaseObserver; //!< pointer to the Observer
ListConnectionFormat mListConnectionFormat; //!< list of connection formats
CAmMappedData mMappedData; //!< Internal structure encapsulating all the maps used in this class
};
}
#endif /* MAPHANDLER_H_ */
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