/****************************************************************************
NAME
deviceManagerStoreDefaultAttributes
DESCRIPTION
Stores the default attributes against a given device in PS.
RETURNS
void
*/
void deviceManagerStoreDefaultAttributes(const bdaddr* dev_addr, bool is_subwoofer)
{
sink_attributes attributes;
#ifdef ENABLE_SUBWOOFER
if (is_subwoofer)
{
/* Setup and store attributes for the subwoofer device */
sink_attributes attributes;
deviceManagerGetDefaultAttributes(&attributes, TRUE);
deviceManagerStoreAttributes(&attributes, dev_addr);
return;
}
#endif
deviceManagerGetDefaultAttributes(&attributes, FALSE);
DEV_DEBUG(("DEV: StoreDefaultAttribs - profiles %d, hfp_vol %d, a2dp_vol %d\n", attributes.profiles, attributes.hfp.volume,attributes.a2dp.volume));
deviceManagerStoreAttributes(&attributes, dev_addr);
}
/****************************************************************************
NAME
deviceManagerDelayedUpdateAttributes
DESCRIPTION
Store attributes contained in EVENT_UPDATE_ATTRIBUTES_T in PS
RETURNS
void
*/
void deviceManagerDelayedUpdateAttributes(EVENT_UPDATE_ATTRIBUTES_T* update)
{
sink_attributes attributes;
sink_attributes new_attributes;
/* zero settings */
memset(&new_attributes,0,sizeof(sink_attributes));
/* Get attributes from PS */
deviceManagerGetDefaultAttributes(&attributes, FALSE);
deviceManagerGetAttributes(&attributes, &update->bd_addr);
if(update->attributes.profiles == sink_hfp)
{
/* Update with current attribute values */
new_attributes = attributes;
new_attributes.profiles |= sink_hfp;
new_attributes.hfp.volume = update->attributes.hfp.volume;
}
else if(update->attributes.profiles == sink_a2dp)
{
/* Update with current attribute values */
new_attributes = attributes;
new_attributes.profiles |= sink_a2dp;
new_attributes.a2dp.volume = update->attributes.a2dp.volume;
new_attributes.a2dp.clock_mismatch = update->attributes.a2dp.clock_mismatch;
}
#ifdef ENABLE_SUBWOOFER
else if(update->attributes.profiles == sink_swat)
{
new_attributes.sub.sub_trim = update->attributes.sub.sub_trim;
new_attributes.profiles = sink_swat;
}
#endif
DEV_DEBUG(("DEV: UpdateAttributesOld - profiles %d, hfp_vol %d, a2dp_vol %d, clock_mismatch %d\n", attributes.profiles, attributes.hfp.volume,
attributes.a2dp.volume, attributes.a2dp.clock_mismatch));
DEV_DEBUG(("DEV: UpdateAttributesNew - profiles %d, hfp_vol %d, a2dp_vol %d, clock_mismatch %d\n", new_attributes.profiles, new_attributes.hfp.volume,
new_attributes.a2dp.volume, new_attributes.a2dp.clock_mismatch));
/* Write updated attributes to PS */
if(!deviceManagerCompareAttributes(&attributes, &new_attributes))
deviceManagerStoreAttributes(&new_attributes, &update->bd_addr);
}
/****************************************************************************
NAME
sinkHandleSlcConnectCfm
DESCRIPTION
Confirmation that the SLC has been established (or not).
RETURNS
void
*/
bool sinkHandleSlcConnectCfm( const HFP_SLC_CONNECT_CFM_T *cfm )
{
sink_attributes attributes;
bool lResult = FALSE;
#ifdef ENABLE_PEER
inquiry_result_t* connecting_device = inquiryGetConnectingDevice();
#endif
deviceManagerGetDefaultAttributes(&attributes, FALSE);
(void)deviceManagerGetAttributes(&attributes, &cfm->bd_addr);
/* cancel any link loss reminders */
MessageCancelAll(&theSink.task , EventSysLinkLoss );
/* Check the status of the SLC attempt */
if (cfm->status == hfp_connect_success)
{
SLC_DEBUG(("SLC: ConnCfm - Success\n")) ;
lResult = TRUE ;
/* update the profile volume level */
theSink.profile_data[PROFILE_INDEX(cfm->priority)].audio.gSMVolumeLevel = attributes.hfp.volume;
/* Handle new connection setup */
slcConnectionComplete(cfm->priority, cfm->sink, (bdaddr *)&cfm->bd_addr);
/* Handle common setup for new SLC/link loss */
slcConnectionSetup(cfm->priority, cfm->sink, (bdaddr *)&cfm->bd_addr);
/* Record the position of the device in the PDL - prevents reconnection later */
theSink.profile_data[PROFILE_INDEX(cfm->priority)].status.list_id = deviceManagerSetPriority((bdaddr *)&cfm->bd_addr);
#ifdef ENABLE_PEER
/* If RSSI pairing, check inquiry results for A2DP support */
if (theSink.inquiry.action == rssi_pairing)
{
if ((connecting_device != NULL) && BdaddrIsSame(&connecting_device->bd_addr, &cfm->bd_addr) && (connecting_device->remote_profiles & profile_a2dp))
{
attributes.profiles |= sink_a2dp;
}
}
#endif
/* Make sure we store this device */
attributes.profiles |= sink_hfp;
deviceManagerStoreAttributes(&attributes, &cfm->bd_addr);
/* if rssi pairing check to see if need to cancel rssi pairing or not */
if(theSink.inquiry.action == rssi_pairing)
{
/* if rssi pairing has completed and the device being connected currently doesn't support A2DP, then stop it progressing further */
if(!((theSink.features.PairIfPDLLessThan) && ( ConnectionTrustedDeviceListSize() < theSink.features.PairIfPDLLessThan )))
{
#ifdef ENABLE_PEER
if(!((connecting_device != NULL) && BdaddrIsSame(&connecting_device->bd_addr, &cfm->bd_addr) && (connecting_device->remote_profiles & profile_a2dp)))
#endif
{
inquiryStop();
}
}
}
/* Disable A2dp link loss management if connected on remote device */
if( theSink.a2dp_link_data && (theSink.a2dp_link_data->connected[a2dp_primary]) && BdaddrIsSame(&cfm->bd_addr, &theSink.a2dp_link_data->bd_addr[a2dp_primary]) )
{
A2dpDeviceManageLinkloss(theSink.a2dp_link_data->device_id[a2dp_primary], FALSE);
}
else if( theSink.a2dp_link_data && (theSink.a2dp_link_data->connected[a2dp_secondary]) && BdaddrIsSame(&cfm->bd_addr, &theSink.a2dp_link_data->bd_addr[a2dp_secondary]) )
{
A2dpDeviceManageLinkloss(theSink.a2dp_link_data->device_id[a2dp_secondary], FALSE);
}
/* Auto answer call if ringing - only answer the incoming call if its
on the connecting AG */
if ( (theSink.features.AutoAnswerOnConnect) && (HfpLinkPriorityFromCallState(hfp_call_state_incoming) == cfm->priority) && (stateManagerGetState() < deviceActiveCallSCO) )
{
MessageSend (&theSink.task , EventUsrAnswer , 0 ) ;
SLC_DEBUG(("SLC: AutoAnswer triggered\n")) ;
}
}
else
{
SLC_DEBUG(("SLC: ConnCfm - Fail\n")) ;
/* a connection timeout will arrive here, need to report fail for multipoint
connections also such that a link loss retry will be performed */
if(!stateManagerIsConnected() || theSink.MultipointEnable)
{
/* Update local state to reflect this */
slcConnectFail();
}
}
/* if using multipoint and both devices are connected disable connectable */
if((theSink.MultipointEnable) && (deviceManagerNumConnectedDevs() == MAX_MULTIPOINT_CONNECTIONS))
{
SLC_DEBUG(("SLC: disable Conn \n" ));
MessageCancelAll(&theSink.task, EventSysConnectableTimeout);
#ifdef ENABLE_SUBWOOFER
if(SwatGetSignallingSink(theSink.rundata->subwoofer.dev_id))
{
sinkDisableConnectable();
}
#else
sinkDisableConnectable();
#endif
}
SLC_DEBUG(("SLC: Connect A2DP? En=%d att=%d\n",theSink.features.EnableA2dpStreaming,attributes.profiles)) ;
/* if the AG supports A2DP profile attempt to connect to it if auto reconnect is enabled */
if ((theSink.features.EnableA2dpStreaming) &&
((!cfm->priority)||(cfm->status == hfp_connect_success) || (cfm->status == hfp_connect_sdp_fail) || (cfm->status == hfp_connect_rejected)) &&
((slcDetermineConnectAction() & AR_Rssi)||(attributes.profiles & sink_a2dp)) &&
((slcDetermineConnectAction() & AR_Rssi)||(stateManagerGetState()!=deviceConnDiscoverable)))
{
SLC_DEBUG(("SLC: Connecting A2DP Remote %x\n",gSlcData.gSlcConnectRemote)) ;
/* attempt connection to device supporting A2DP */
theSink.a2dp_link_data->remote_connection = gSlcData.gSlcConnectRemote;
A2dpSignallingConnectRequest((bdaddr *)&cfm->bd_addr);
MessageCancelFirst(&theSink.task, EventSysContinueSlcConnectRequest);
/* if rssi pairing check to see if need to cancel rssi pairing or not */
if(theSink.inquiry.action == rssi_pairing)
{
/* if rssi pairing has completed then stop it progressing further */
if(!((theSink.features.PairIfPDLLessThan)&&( ConnectionTrustedDeviceListSize() < theSink.features.PairIfPDLLessThan )))
{
#ifdef ENABLE_PEER
if(!((connecting_device != NULL) && BdaddrIsSame(&connecting_device->bd_addr, &cfm->bd_addr) && (connecting_device->remote_profiles & profile_a2dp)))
#endif
{
inquiryStop();
}
}
}
}
else
{
/* reset connection via remote ag instead of device flag */
gSlcData.gSlcConnectRemote = FALSE;
}
#ifdef ENABLE_MAPC
mapcMasConnectRequest((bdaddr *)&cfm->bd_addr);
#endif
return lResult ;
}
