/* ================ idCameraDef::getActiveSegmentInfo ================ */ void idCameraDef::getActiveSegmentInfo(int segment, idVec3 &origin, idVec3 &direction, float *fov) { #if 0 if (!cameraSpline.validTime()) { buildCamera(); } double d = (double)segment / numSegments(); getCameraInfo(d * totalTime * 1000, origin, direction, fov); #endif /* if (!cameraSpline.validTime()) { buildCamera(); } origin = *cameraSpline.getSegmentPoint(segment); idVec3 temp; int numTargets = getTargetSpline()->controlPoints.Num(); int count = cameraSpline.splineTime.Num(); if (numTargets == 0) { // follow the path if (cameraSpline.getActiveSegment() < count - 1) { temp = *cameraSpline.splinePoints[cameraSpline.getActiveSegment()+1]; } } else if (numTargets == 1) { temp = *getTargetSpline()->controlPoints[0]; } else { temp = *getTargetSpline()->getSegmentPoint(segment); } temp -= origin; temp.Normalize(); direction = temp; */ }
status_t BnCameraService::onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { switch(code) { case GET_NUMBER_OF_CAMERAS: { CHECK_INTERFACE(ICameraService, data, reply); reply->writeInt32(getNumberOfCameras()); return NO_ERROR; } break; case GET_CAMERA_INFO: { CHECK_INTERFACE(ICameraService, data, reply); CameraInfo cameraInfo; memset(&cameraInfo, 0, sizeof(cameraInfo)); status_t result = getCameraInfo(data.readInt32(), &cameraInfo); reply->writeInt32(cameraInfo.facing); reply->writeInt32(cameraInfo.orientation); reply->writeInt32(result); return NO_ERROR; } break; case CONNECT: { CHECK_INTERFACE(ICameraService, data, reply); sp<ICameraClient> cameraClient = interface_cast<ICameraClient>(data.readStrongBinder()); sp<ICamera> camera = connect(cameraClient, data.readInt32()); reply->writeStrongBinder(camera->asBinder()); return NO_ERROR; } break; default: return BBinder::onTransact(code, data, reply, flags); } }
// The cgame module is making a system call qintptr CLWS_CgameSystemCalls( qintptr* args ) { switch ( args[ 0 ] ) { case WSCG_PRINT: common->Printf( "%s", ( char* )VMA( 1 ) ); return 0; case WSCG_ERROR: common->Error( "%s", ( char* )VMA( 1 ) ); return 0; case WSCG_MILLISECONDS: return Sys_Milliseconds(); case WSCG_CVAR_REGISTER: Cvar_Register( ( vmCvar_t* )VMA( 1 ), ( char* )VMA( 2 ), ( char* )VMA( 3 ), args[ 4 ] ); return 0; case WSCG_CVAR_UPDATE: Cvar_Update( ( vmCvar_t* )VMA( 1 ) ); return 0; case WSCG_CVAR_SET: Cvar_Set( ( char* )VMA( 1 ), ( char* )VMA( 2 ) ); return 0; case WSCG_CVAR_VARIABLESTRINGBUFFER: Cvar_VariableStringBuffer( ( char* )VMA( 1 ), ( char* )VMA( 2 ), args[ 3 ] ); return 0; case WSCG_ARGC: return Cmd_Argc(); case WSCG_ARGV: Cmd_ArgvBuffer( args[ 1 ], ( char* )VMA( 2 ), args[ 3 ] ); return 0; case WSCG_ARGS: Cmd_ArgsBuffer( ( char* )VMA( 1 ), args[ 2 ] ); return 0; case WSCG_FS_FOPENFILE: return FS_FOpenFileByMode( ( char* )VMA( 1 ), ( fileHandle_t* )VMA( 2 ), ( fsMode_t )args[ 3 ] ); case WSCG_FS_READ: FS_Read( VMA( 1 ), args[ 2 ], args[ 3 ] ); return 0; case WSCG_FS_WRITE: return FS_Write( VMA( 1 ), args[ 2 ], args[ 3 ] ); case WSCG_FS_FCLOSEFILE: FS_FCloseFile( args[ 1 ] ); return 0; case WSCG_SENDCONSOLECOMMAND: Cbuf_AddText( ( char* )VMA( 1 ) ); return 0; case WSCG_ADDCOMMAND: CLT3_AddCgameCommand( ( char* )VMA( 1 ) ); return 0; case WSCG_REMOVECOMMAND: Cmd_RemoveCommand( ( char* )VMA( 1 ) ); return 0; case WSCG_SENDCLIENTCOMMAND: CL_AddReliableCommand( ( char* )VMA( 1 ) ); return 0; case WSCG_UPDATESCREEN: SCR_UpdateScreen(); return 0; case WSCG_CM_LOADMAP: CLT3_CM_LoadMap( ( char* )VMA( 1 ) ); return 0; case WSCG_CM_NUMINLINEMODELS: return CM_NumInlineModels(); case WSCG_CM_INLINEMODEL: return CM_InlineModel( args[ 1 ] ); case WSCG_CM_TEMPBOXMODEL: return CM_TempBoxModel( ( float* )VMA( 1 ), ( float* )VMA( 2 ), false ); case WSCG_CM_TEMPCAPSULEMODEL: return CM_TempBoxModel( ( float* )VMA( 1 ), ( float* )VMA( 2 ), true ); case WSCG_CM_POINTCONTENTS: return CM_PointContentsQ3( ( float* )VMA( 1 ), args[ 2 ] ); case WSCG_CM_TRANSFORMEDPOINTCONTENTS: return CM_TransformedPointContentsQ3( ( float* )VMA( 1 ), args[ 2 ], ( float* )VMA( 3 ), ( float* )VMA( 4 ) ); case WSCG_CM_BOXTRACE: CM_BoxTraceQ3( ( q3trace_t* )VMA( 1 ), ( float* )VMA( 2 ), ( float* )VMA( 3 ), ( float* )VMA( 4 ), ( float* )VMA( 5 ), args[ 6 ], args[ 7 ], false ); return 0; case WSCG_CM_TRANSFORMEDBOXTRACE: CM_TransformedBoxTraceQ3( ( q3trace_t* )VMA( 1 ), ( float* )VMA( 2 ), ( float* )VMA( 3 ), ( float* )VMA( 4 ), ( float* )VMA( 5 ), args[ 6 ], args[ 7 ], ( float* )VMA( 8 ), ( float* )VMA( 9 ), false ); return 0; case WSCG_CM_CAPSULETRACE: CM_BoxTraceQ3( ( q3trace_t* )VMA( 1 ), ( float* )VMA( 2 ), ( float* )VMA( 3 ), ( float* )VMA( 4 ), ( float* )VMA( 5 ), args[ 6 ], args[ 7 ], true ); return 0; case WSCG_CM_TRANSFORMEDCAPSULETRACE: CM_TransformedBoxTraceQ3( ( q3trace_t* )VMA( 1 ), ( float* )VMA( 2 ), ( float* )VMA( 3 ), ( float* )VMA( 4 ), ( float* )VMA( 5 ), args[ 6 ], args[ 7 ], ( float* )VMA( 8 ), ( float* )VMA( 9 ), true ); return 0; case WSCG_CM_MARKFRAGMENTS: return R_MarkFragmentsWolf( args[ 1 ], ( const vec3_t* )VMA( 2 ), ( float* )VMA( 3 ), args[ 4 ], ( float* )VMA( 5 ), args[ 6 ], ( markFragment_t* )VMA( 7 ) ); case WSCG_S_STARTSOUND: S_StartSound( ( float* )VMA( 1 ), args[ 2 ], args[ 3 ], args[ 4 ], 0.5 ); return 0; case WSCG_S_STARTSOUNDEX: S_StartSoundEx( ( float* )VMA( 1 ), args[ 2 ], args[ 3 ], args[ 4 ], args[ 5 ], 127 ); return 0; case WSCG_S_STARTLOCALSOUND: S_StartLocalSound( args[ 1 ], args[ 2 ], 127 ); return 0; case WSCG_S_CLEARLOOPINGSOUNDS: CLWS_ClearLoopingSounds( args[ 1 ] ); return 0; case WSCG_S_ADDLOOPINGSOUND: // FIXME MrE: handling of looping sounds changed S_AddLoopingSound( args[ 1 ], ( float* )VMA( 2 ), ( float* )VMA( 3 ), args[ 4 ], args[ 5 ], args[ 6 ], 0 ); return 0; case WSCG_S_STOPSTREAMINGSOUND: S_StopEntStreamingSound( args[ 1 ] ); return 0; case WSCG_S_STOPLOOPINGSOUND: // RF, not functional anymore, since we reverted to old looping code return 0; case WSCG_S_UPDATEENTITYPOSITION: S_UpdateEntityPosition( args[ 1 ], ( float* )VMA( 2 ) ); return 0; case WSCG_S_GETVOICEAMPLITUDE: return S_GetVoiceAmplitude( args[ 1 ] ); case WSCG_S_RESPATIALIZE: S_Respatialize( args[ 1 ], ( float* )VMA( 2 ), ( vec3_t* )VMA( 3 ), args[ 4 ] ); return 0; case WSCG_S_REGISTERSOUND: return S_RegisterSound( ( char* )VMA( 1 ) ); case WSCG_S_STARTBACKGROUNDTRACK: S_StartBackgroundTrack( ( char* )VMA( 1 ), ( char* )VMA( 2 ), args[ 3 ] ); //----(SA) added fadeup time return 0; case WSCG_S_FADESTREAMINGSOUND: S_FadeStreamingSound( VMF( 1 ), args[ 2 ], args[ 3 ] ); //----(SA) added music/all-streaming options return 0; case WSCG_S_STARTSTREAMINGSOUND: S_StartStreamingSound( ( char* )VMA( 1 ), ( char* )VMA( 2 ), args[ 3 ], args[ 4 ], args[ 5 ] ); return 0; case WSCG_S_FADEALLSOUNDS: S_FadeAllSounds( VMF( 1 ), args[ 2 ], false ); //----(SA) added return 0; case WSCG_R_LOADWORLDMAP: R_LoadWorld( ( char* )VMA( 1 ) ); return 0; case WSCG_R_REGISTERMODEL: return R_RegisterModel( ( char* )VMA( 1 ) ); case WSCG_R_REGISTERSKIN: return R_RegisterSkin( ( char* )VMA( 1 ) ); case WSCG_R_GETSKINMODEL: return R_GetSkinModel( args[ 1 ], ( char* )VMA( 2 ), ( char* )VMA( 3 ) ); case WSCG_R_GETMODELSHADER: return R_GetShaderFromModel( args[ 1 ], args[ 2 ], args[ 3 ] ); case WSCG_R_REGISTERSHADER: return R_RegisterShader( ( char* )VMA( 1 ) ); case WSCG_R_REGISTERFONT: R_RegisterFont( ( char* )VMA( 1 ), args[ 2 ], ( fontInfo_t* )VMA( 3 ) ); case WSCG_R_REGISTERSHADERNOMIP: return R_RegisterShaderNoMip( ( char* )VMA( 1 ) ); case WSCG_R_CLEARSCENE: R_ClearScene(); return 0; case WSCG_R_ADDREFENTITYTOSCENE: CLWS_AddRefEntityToScene( ( wsrefEntity_t* )VMA( 1 ) ); return 0; case WSCG_R_ADDPOLYTOSCENE: R_AddPolyToScene( args[ 1 ], args[ 2 ], ( polyVert_t* )VMA( 3 ), 1 ); return 0; case WSCG_R_ADDPOLYSTOSCENE: R_AddPolyToScene( args[ 1 ], args[ 2 ], ( polyVert_t* )VMA( 3 ), args[ 4 ] ); return 0; case WSCG_RB_ZOMBIEFXADDNEWHIT: return 0; case WSCG_R_ADDLIGHTTOSCENE: R_AddLightToScene( ( float* )VMA( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), args[ 6 ] ); return 0; case WSCG_R_ADDCORONATOSCENE: R_AddCoronaToScene( ( float* )VMA( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), args[ 6 ], args[ 7 ] ); return 0; case WSCG_R_SETFOG: R_SetFog( args[ 1 ], args[ 2 ], args[ 3 ], VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ) ); return 0; case WSCG_R_RENDERSCENE: CLWS_RenderScene( ( wsrefdef_t* )VMA( 1 ) ); return 0; case WSCG_R_SETCOLOR: R_SetColor( ( float* )VMA( 1 ) ); return 0; case WSCG_R_DRAWSTRETCHPIC: R_StretchPic( VMF( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ), VMF( 8 ), args[ 9 ] ); return 0; case WSCG_R_DRAWSTRETCHPIC_GRADIENT: R_StretchPicGradient( VMF( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ), VMF( 8 ), args[ 9 ], ( float* )VMA( 10 ), args[ 11 ] ); return 0; case WSCG_R_MODELBOUNDS: R_ModelBounds( args[ 1 ], ( float* )VMA( 2 ), ( float* )VMA( 3 ) ); return 0; case WSCG_R_LERPTAG: return CLWS_LerpTag( ( orientation_t* )VMA( 1 ), ( wsrefEntity_t* )VMA( 2 ), ( char* )VMA( 3 ), args[ 4 ] ); case WSCG_GETGLCONFIG: CLWS_GetGlconfig( ( wsglconfig_t* )VMA( 1 ) ); return 0; case WSCG_GETGAMESTATE: CLWS_GetGameState( ( wsgameState_t* )VMA( 1 ) ); return 0; case WSCG_GETCURRENTSNAPSHOTNUMBER: CLWS_GetCurrentSnapshotNumber( ( int* )VMA( 1 ), ( int* )VMA( 2 ) ); return 0; case WSCG_GETSNAPSHOT: return CLWS_GetSnapshot( args[ 1 ], ( wssnapshot_t* )VMA( 2 ) ); case WSCG_GETSERVERCOMMAND: return CLT3_GetServerCommand( args[ 1 ] ); case WSCG_GETCURRENTCMDNUMBER: return CLT3_GetCurrentCmdNumber(); case WSCG_GETUSERCMD: return CLWS_GetUserCmd( args[ 1 ], ( wsusercmd_t* )VMA( 2 ) ); case WSCG_SETUSERCMDVALUE: CLWS_SetUserCmdValue( args[ 1 ], args[ 2 ], VMF( 3 ), args[ 4 ] ); //----(SA) modified // NERVE - SMF - added fourth arg [cld] return 0; case WSCG_MEMORY_REMAINING: return 0x4000000; case WSCG_KEY_ISDOWN: return Key_IsDown( args[ 1 ] ); case WSCG_KEY_GETCATCHER: return Key_GetCatcher(); case WSCG_KEY_SETCATCHER: KeyQ3_SetCatcher( args[ 1 ] ); return 0; case WSCG_KEY_GETKEY: return Key_GetKey( ( char* )VMA( 1 ) ); case WSCG_MEMSET: return ( qintptr )memset( VMA( 1 ), args[ 2 ], args[ 3 ] ); case WSCG_MEMCPY: return ( qintptr )memcpy( VMA( 1 ), VMA( 2 ), args[ 3 ] ); case WSCG_STRNCPY: String::NCpy( ( char* )VMA( 1 ), ( char* )VMA( 2 ), args[ 3 ] ); return args[ 1 ]; case WSCG_SIN: return FloatAsInt( sin( VMF( 1 ) ) ); case WSCG_COS: return FloatAsInt( cos( VMF( 1 ) ) ); case WSCG_ATAN2: return FloatAsInt( atan2( VMF( 1 ), VMF( 2 ) ) ); case WSCG_SQRT: return FloatAsInt( sqrt( VMF( 1 ) ) ); case WSCG_FLOOR: return FloatAsInt( floor( VMF( 1 ) ) ); case WSCG_CEIL: return FloatAsInt( ceil( VMF( 1 ) ) ); case WSCG_ACOS: return FloatAsInt( idMath::ACos( VMF( 1 ) ) ); case WSCG_PC_ADD_GLOBAL_DEFINE: return PC_AddGlobalDefine( ( char* )VMA( 1 ) ); case WSCG_PC_LOAD_SOURCE: return PC_LoadSourceHandle( ( char* )VMA( 1 ) ); case WSCG_PC_FREE_SOURCE: return PC_FreeSourceHandle( args[ 1 ] ); case WSCG_PC_READ_TOKEN: return PC_ReadTokenHandleQ3( args[ 1 ], ( q3pc_token_t* )VMA( 2 ) ); case WSCG_PC_SOURCE_FILE_AND_LINE: return PC_SourceFileAndLine( args[ 1 ], ( char* )VMA( 2 ), ( int* )VMA( 3 ) ); case WSCG_S_STOPBACKGROUNDTRACK: S_StopBackgroundTrack(); return 0; case WSCG_REAL_TIME: return Com_RealTime( ( qtime_t* )VMA( 1 ) ); case WSCG_SNAPVECTOR: Sys_SnapVector( ( float* )VMA( 1 ) ); return 0; case WSCG_SENDMOVESPEEDSTOGAME: SVWS_SendMoveSpeedsToGame( args[ 1 ], ( char* )VMA( 2 ) ); return 0; case WSCG_CIN_PLAYCINEMATIC: return CIN_PlayCinematicStretched( ( char* )VMA( 1 ), args[ 2 ], args[ 3 ], args[ 4 ], args[ 5 ], args[ 6 ] ); case WSCG_CIN_STOPCINEMATIC: return CIN_StopCinematic( args[ 1 ] ); case WSCG_CIN_RUNCINEMATIC: return CIN_RunCinematic( args[ 1 ] ); case WSCG_CIN_DRAWCINEMATIC: CIN_DrawCinematic( args[ 1 ] ); return 0; case WSCG_CIN_SETEXTENTS: CIN_SetExtents( args[ 1 ], args[ 2 ], args[ 3 ], args[ 4 ], args[ 5 ] ); return 0; case WSCG_R_REMAP_SHADER: R_RemapShader( ( char* )VMA( 1 ), ( char* )VMA( 2 ), ( char* )VMA( 3 ) ); return 0; case WSCG_TESTPRINTINT: common->Printf( "%s%i\n", ( char* )VMA( 1 ), static_cast<int>( args[ 2 ] ) ); return 0; case WSCG_TESTPRINTFLOAT: common->Printf( "%s%f\n", ( char* )VMA( 1 ), VMF( 2 ) ); return 0; case WSCG_LOADCAMERA: return loadCamera( args[ 1 ], ( char* )VMA( 2 ) ); case WSCG_STARTCAMERA: CLWS_StartCamera( args[ 1 ], args[ 2 ] ); return 0; case WSCG_STOPCAMERA: CLWS_StopCamera( args[ 1 ] ); return 0; case WSCG_GETCAMERAINFO: return getCameraInfo( args[ 1 ], args[ 2 ], ( float* )VMA( 3 ), ( float* )VMA( 4 ), ( float* )VMA( 5 ) ); case WSCG_GET_ENTITY_TOKEN: return R_GetEntityToken( ( char* )VMA( 1 ), args[ 2 ] ); case WSCG_INGAME_POPUP: CLWS_InGamePopup( ( char* )VMA( 1 ) ); return 0; case WSCG_INGAME_CLOSEPOPUP: UIT3_KeyEvent( K_ESCAPE, true ); return 0; case WSCG_LIMBOCHAT: CLT3_AddToLimboChat( ( char* )VMA( 1 ) ); return 0; case WSCG_GETMODELINFO: return SVWS_GetModelInfo( args[ 1 ], ( char* )VMA( 2 ), ( animModelInfo_t** )VMA( 3 ) ); default: common->Error( "Bad cgame system trap: %i", static_cast<int>( args[ 0 ] ) ); } return 0; }
/* ==================== CL_CgameSystemCalls The cgame module is making a system call ==================== */ intptr_t CL_CgameSystemCalls( intptr_t *args ) { switch ( args[0] ) { case CG_PRINT: Com_Printf( "%s", (const char*)VMA(1) ); return 0; case CG_ERROR: Com_Error( ERR_DROP, "%s", (const char*)VMA(1) ); return 0; case CG_MILLISECONDS: return Sys_Milliseconds(); case CG_CVAR_REGISTER: Cvar_Register( VMA( 1 ), VMA( 2 ), VMA( 3 ), args[4] ); return 0; case CG_CVAR_UPDATE: Cvar_Update( VMA( 1 ) ); return 0; case CG_CVAR_SET: Cvar_SetSafe( VMA(1), VMA(2) ); return 0; case CG_CVAR_VARIABLESTRINGBUFFER: Cvar_VariableStringBuffer( VMA( 1 ), VMA( 2 ), args[3] ); return 0; case CG_ARGC: return Cmd_Argc(); case CG_ARGV: Cmd_ArgvBuffer( args[1], VMA( 2 ), args[3] ); return 0; case CG_ARGS: Cmd_ArgsBuffer( VMA( 1 ), args[2] ); return 0; case CG_FS_FOPENFILE: return FS_FOpenFileByMode( VMA( 1 ), VMA( 2 ), args[3] ); case CG_FS_READ: FS_Read( VMA( 1 ), args[2], args[3] ); return 0; case CG_FS_WRITE: return FS_Write( VMA( 1 ), args[2], args[3] ); case CG_FS_FCLOSEFILE: FS_FCloseFile( args[1] ); return 0; case CG_SENDCONSOLECOMMAND: Cbuf_AddText( VMA( 1 ) ); return 0; case CG_ADDCOMMAND: CL_AddCgameCommand( VMA( 1 ) ); return 0; case CG_REMOVECOMMAND: Cmd_RemoveCommandSafe( VMA(1) ); return 0; case CG_SENDCLIENTCOMMAND: CL_AddReliableCommand(VMA(1), qfalse); return 0; case CG_UPDATESCREEN: // this is used during lengthy level loading, so pump message loop // Com_EventLoop(); // FIXME: if a server restarts here, BAD THINGS HAPPEN! // We can't call Com_EventLoop here, a restart will crash and this _does_ happen // if there is a map change while we are downloading at pk3. // ZOID SCR_UpdateScreen(); return 0; case CG_CM_LOADMAP: CL_CM_LoadMap( VMA( 1 ) ); return 0; case CG_CM_NUMINLINEMODELS: return CM_NumInlineModels(); case CG_CM_INLINEMODEL: return CM_InlineModel( args[1] ); case CG_CM_TEMPBOXMODEL: return CM_TempBoxModel( VMA( 1 ), VMA( 2 ), qfalse ); case CG_CM_TEMPCAPSULEMODEL: return CM_TempBoxModel( VMA( 1 ), VMA( 2 ), qtrue ); case CG_CM_POINTCONTENTS: return CM_PointContents( VMA( 1 ), args[2] ); case CG_CM_TRANSFORMEDPOINTCONTENTS: return CM_TransformedPointContents( VMA( 1 ), args[2], VMA( 3 ), VMA( 4 ) ); case CG_CM_BOXTRACE: CM_BoxTrace( VMA( 1 ), VMA( 2 ), VMA( 3 ), VMA( 4 ), VMA( 5 ), args[6], args[7], /*int capsule*/ qfalse ); return 0; case CG_CM_TRANSFORMEDBOXTRACE: CM_TransformedBoxTrace( VMA( 1 ), VMA( 2 ), VMA( 3 ), VMA( 4 ), VMA( 5 ), args[6], args[7], VMA( 8 ), VMA( 9 ), /*int capsule*/ qfalse ); return 0; case CG_CM_CAPSULETRACE: CM_BoxTrace( VMA( 1 ), VMA( 2 ), VMA( 3 ), VMA( 4 ), VMA( 5 ), args[6], args[7], /*int capsule*/ qtrue ); return 0; case CG_CM_TRANSFORMEDCAPSULETRACE: CM_TransformedBoxTrace( VMA( 1 ), VMA( 2 ), VMA( 3 ), VMA( 4 ), VMA( 5 ), args[6], args[7], VMA( 8 ), VMA( 9 ), /*int capsule*/ qtrue ); return 0; case CG_CM_MARKFRAGMENTS: return re.MarkFragments( args[1], VMA( 2 ), VMA( 3 ), args[4], VMA( 5 ), args[6], VMA( 7 ) ); case CG_S_STARTSOUND: S_StartSound( VMA( 1 ), args[2], args[3], args[4] ); return 0; //----(SA) added case CG_S_STARTSOUNDEX: S_StartSoundEx( VMA( 1 ), args[2], args[3], args[4], args[5] ); return 0; //----(SA) end case CG_S_STARTLOCALSOUND: S_StartLocalSound( args[1], args[2] ); return 0; case CG_S_CLEARLOOPINGSOUNDS: S_ClearLoopingSounds( args[1] ); // (SA) modified so no_pvs sounds can function return 0; case CG_S_ADDLOOPINGSOUND: // FIXME MrE: handling of looping sounds changed S_AddLoopingSound( args[1], VMA( 2 ), VMA( 3 ), args[4], args[5], args[6] ); return 0; case CG_S_ADDREALLOOPINGSOUND: S_AddLoopingSound( args[1], VMA( 2 ), VMA( 3 ), args[4], args[5], args[6] ); //S_AddRealLoopingSound( args[1], VMA(2), VMA(3), args[4], args[5] ); return 0; case CG_S_STOPLOOPINGSOUND: // RF, not functional anymore, since we reverted to old looping code //S_StopLoopingSound( args[1] ); return 0; case CG_S_UPDATEENTITYPOSITION: S_UpdateEntityPosition( args[1], VMA( 2 ) ); return 0; // Ridah, talking animations case CG_S_GETVOICEAMPLITUDE: return S_GetVoiceAmplitude( args[1] ); // done. case CG_S_RESPATIALIZE: S_Respatialize( args[1], VMA( 2 ), VMA( 3 ), args[4] ); return 0; case CG_S_REGISTERSOUND: return S_RegisterSound( VMA( 1 ), qfalse ); case CG_S_STARTBACKGROUNDTRACK: S_StartBackgroundTrack( VMA( 1 ), VMA( 2 ) ); return 0; case CG_S_STARTSTREAMINGSOUND: S_StartStreamingSound( VMA( 1 ), VMA( 2 ), args[3], args[4], args[5] ); return 0; case CG_R_LOADWORLDMAP: re.LoadWorld( VMA( 1 ) ); return 0; case CG_R_REGISTERMODEL: return re.RegisterModel( VMA( 1 ) ); case CG_R_REGISTERSKIN: return re.RegisterSkin( VMA( 1 ) ); //----(SA) added case CG_R_GETSKINMODEL: return re.GetSkinModel( args[1], VMA( 2 ), VMA( 3 ) ); case CG_R_GETMODELSHADER: return re.GetShaderFromModel( args[1], args[2], args[3] ); //----(SA) end case CG_R_REGISTERSHADER: return re.RegisterShader( VMA( 1 ) ); case CG_R_REGISTERFONT: re.RegisterFont( VMA( 1 ), args[2], VMA( 3 ) ); return 0; case CG_R_REGISTERSHADERNOMIP: return re.RegisterShaderNoMip( VMA( 1 ) ); case CG_R_CLEARSCENE: re.ClearScene(); return 0; case CG_R_ADDREFENTITYTOSCENE: re.AddRefEntityToScene( VMA( 1 ) ); return 0; case CG_R_ADDPOLYTOSCENE: re.AddPolyToScene( args[1], args[2], VMA( 3 ) ); return 0; // Ridah case CG_R_ADDPOLYSTOSCENE: re.AddPolysToScene( args[1], args[2], VMA( 3 ), args[4] ); return 0; // done. // case CG_R_LIGHTFORPOINT: // return re.LightForPoint( VMA(1), VMA(2), VMA(3), VMA(4) ); case CG_R_ADDLIGHTTOSCENE: re.AddLightToScene( VMA( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), args[6] ); return 0; // case CG_R_ADDADDITIVELIGHTTOSCENE: // re.AddAdditiveLightToScene( VMA(1), VMF(2), VMF(3), VMF(4), VMF(5) ); // return 0; case CG_R_ADDCORONATOSCENE: re.AddCoronaToScene( VMA( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), args[6], args[7] ); return 0; case CG_R_SETFOG: re.SetFog( args[1], args[2], args[3], VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ) ); return 0; case CG_R_RENDERSCENE: re.RenderScene( VMA( 1 ) ); return 0; case CG_R_SETCOLOR: re.SetColor( VMA( 1 ) ); return 0; case CG_R_DRAWSTRETCHPIC: re.DrawStretchPic( VMF( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ), VMF( 8 ), args[9] ); return 0; case CG_R_DRAWROTATEDPIC: re.DrawRotatedPic( VMF( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ), VMF( 8 ), args[9], VMF( 10 ) ); return 0; case CG_R_DRAWSTRETCHPIC_GRADIENT: re.DrawStretchPicGradient( VMF( 1 ), VMF( 2 ), VMF( 3 ), VMF( 4 ), VMF( 5 ), VMF( 6 ), VMF( 7 ), VMF( 8 ), args[9], VMA( 10 ), args[11] ); return 0; case CG_R_MODELBOUNDS: re.ModelBounds( args[1], VMA( 2 ), VMA( 3 ) ); return 0; case CG_R_LERPTAG: return re.LerpTag( VMA( 1 ), VMA( 2 ), VMA( 3 ), args[4] ); case CG_GETGLCONFIG: CL_GetGlconfig( VMA( 1 ) ); return 0; case CG_GETGAMESTATE: CL_GetGameState( VMA( 1 ) ); return 0; case CG_GETCURRENTSNAPSHOTNUMBER: CL_GetCurrentSnapshotNumber( VMA( 1 ), VMA( 2 ) ); return 0; case CG_GETSNAPSHOT: return CL_GetSnapshot( args[1], VMA( 2 ) ); case CG_GETSERVERCOMMAND: return CL_GetServerCommand( args[1] ); case CG_GETCURRENTCMDNUMBER: return CL_GetCurrentCmdNumber(); case CG_GETUSERCMD: return CL_GetUserCmd( args[1], VMA( 2 ) ); case CG_SETUSERCMDVALUE: CL_SetUserCmdValue( args[1], args[2], VMF( 3 ), args[4], args[5] ); return 0; case CG_SETCLIENTLERPORIGIN: CL_SetClientLerpOrigin( VMF( 1 ), VMF( 2 ), VMF( 3 ) ); return 0; case CG_MEMORY_REMAINING: return Hunk_MemoryRemaining(); case CG_KEY_ISDOWN: return Key_IsDown( args[1] ); case CG_KEY_GETCATCHER: return Key_GetCatcher(); case CG_KEY_SETCATCHER: // Don't allow the cgame module to close the console Key_SetCatcher( args[1] | ( Key_GetCatcher( ) & KEYCATCH_CONSOLE ) ); return 0; case CG_KEY_GETKEY: return Key_GetKey( VMA( 1 ) ); case CG_MEMSET: Com_Memset( VMA(1), args[2], args[3] ); return args[1]; case CG_MEMCPY: Com_Memcpy( VMA(1), VMA(2), args[3] ); return args[1]; case CG_STRNCPY: strncpy( VMA(1), VMA(2), args[3] ); return args[1]; case CG_SIN: return FloatAsInt( sin( VMF( 1 ) ) ); case CG_COS: return FloatAsInt( cos( VMF( 1 ) ) ); case CG_ATAN2: return FloatAsInt( atan2( VMF( 1 ), VMF( 2 ) ) ); case CG_SQRT: return FloatAsInt( sqrt( VMF( 1 ) ) ); case CG_FLOOR: return FloatAsInt( floor( VMF( 1 ) ) ); case CG_CEIL: return FloatAsInt( ceil( VMF( 1 ) ) ); case CG_ACOS: return FloatAsInt( Q_acos( VMF( 1 ) ) ); case CG_PC_ADD_GLOBAL_DEFINE: return botlib_export->PC_AddGlobalDefine( VMA( 1 ) ); case CG_PC_LOAD_SOURCE: return botlib_export->PC_LoadSourceHandle( VMA( 1 ) ); case CG_PC_FREE_SOURCE: return botlib_export->PC_FreeSourceHandle( args[1] ); case CG_PC_READ_TOKEN: return botlib_export->PC_ReadTokenHandle( args[1], VMA( 2 ) ); case CG_PC_SOURCE_FILE_AND_LINE: return botlib_export->PC_SourceFileAndLine( args[1], VMA( 2 ), VMA( 3 ) ); case CG_S_STOPBACKGROUNDTRACK: S_StopBackgroundTrack(); return 0; case CG_REAL_TIME: return Com_RealTime( VMA( 1 ) ); case CG_SNAPVECTOR: Q_SnapVector(VMA(1)); return 0; case CG_SENDMOVESPEEDSTOGAME: SV_SendMoveSpeedsToGame( args[1], VMA( 2 ) ); return 0; case CG_CIN_PLAYCINEMATIC: return CIN_PlayCinematic( VMA( 1 ), args[2], args[3], args[4], args[5], args[6] ); case CG_CIN_STOPCINEMATIC: return CIN_StopCinematic( args[1] ); case CG_CIN_RUNCINEMATIC: return CIN_RunCinematic( args[1] ); case CG_CIN_DRAWCINEMATIC: CIN_DrawCinematic( args[1] ); return 0; case CG_CIN_SETEXTENTS: CIN_SetExtents( args[1], args[2], args[3], args[4], args[5] ); return 0; case CG_R_REMAP_SHADER: re.RemapShader( VMA( 1 ), VMA( 2 ), VMA( 3 ) ); return 0; case CG_TESTPRINTINT: // Com_Printf( "%s%i\n", (const char*)VMA( 1 ), args[2] ); return 0; case CG_TESTPRINTFLOAT: // Com_Printf( "%s%f\n", (const char*)VMA( 1 ), VMF( 2 ) ); return 0; case CG_LOADCAMERA: return loadCamera( args[1], VMA( 2 ) ); case CG_STARTCAMERA: startCamera( args[1], args[2] ); return 0; case CG_GETCAMERAINFO: return getCameraInfo( args[1], args[2], VMA( 3 ), VMA( 4 ), VMA( 5 ) ); case CG_GET_ENTITY_TOKEN: return re.GetEntityToken( VMA( 1 ), args[2] ); case CG_INGAME_POPUP: if ( clc.state == CA_ACTIVE && !clc.demoplaying ) { // NERVE - SMF if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_PICKTEAM" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_PICKTEAM ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_PICKPLAYER" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_PICKPLAYER ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_QUICKMESSAGE" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_QUICKMESSAGE ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_QUICKMESSAGEALT" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_QUICKMESSAGEALT ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_LIMBO" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_LIMBO ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_AUTOUPDATE" ) ) { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_WM_AUTOUPDATE ); } // -NERVE - SMF else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "hbook1" ) ) { //----(SA) VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_BOOK1 ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "hbook2" ) ) { //----(SA) VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_BOOK2 ); } else if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "hbook3" ) ) { //----(SA) VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_BOOK3 ); } else { VM_Call( uivm, UI_SET_ACTIVE_MENU, UIMENU_CLIPBOARD ); } } return 0; // NERVE - SMF case CG_INGAME_CLOSEPOPUP: // if popup menu is up, then close it if ( VMA( 1 ) && !Q_stricmp( VMA( 1 ), "UIMENU_WM_LIMBO" ) ) { if ( VM_Call( uivm, UI_GET_ACTIVE_MENU ) == UIMENU_WM_LIMBO ) { VM_Call( uivm, UI_KEY_EVENT, K_ESCAPE, qtrue ); VM_Call( uivm, UI_KEY_EVENT, K_ESCAPE, qtrue ); } } return 0; case CG_LIMBOCHAT: if ( VMA( 1 ) ) { CL_AddToLimboChat( VMA( 1 ) ); } return 0; case CG_KEY_GETBINDINGBUF: Key_GetBindingBuf( args[1], VMA( 2 ), args[3] ); return 0; case CG_KEY_SETBINDING: Key_SetBinding( args[1], VMA( 2 ) ); return 0; case CG_KEY_KEYNUMTOSTRINGBUF: Key_KeynumToStringBuf( args[1], VMA( 2 ), args[3] ); return 0; case CG_TRANSLATE_STRING: CL_TranslateString( VMA( 1 ), VMA( 2 ) ); return 0; // - NERVE - SMF default: Com_Error( ERR_DROP, "Bad cgame system trap: %ld", (long int) args[0] ); } return 0; }
status_t BnCameraDeviceUser::onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { switch(code) { case DISCONNECT: { ALOGV("DISCONNECT"); CHECK_INTERFACE(ICameraDeviceUser, data, reply); disconnect(); reply->writeNoException(); return NO_ERROR; } break; case SUBMIT_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); // arg0 = request sp<CaptureRequest> request; if (data.readInt32() != 0) { request = new CaptureRequest(); request->readFromParcel(const_cast<Parcel*>(&data)); } // arg1 = streaming (bool) bool repeating = data.readInt32(); // return code: requestId (int32) reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(submitRequest(request, repeating, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case SUBMIT_REQUEST_LIST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); List<sp<CaptureRequest> > requestList; int requestListSize = data.readInt32(); for (int i = 0; i < requestListSize; i++) { if (data.readInt32() != 0) { sp<CaptureRequest> request = new CaptureRequest(); if (request->readFromParcel(const_cast<Parcel*>(&data)) != OK) { return BAD_VALUE; } requestList.push_back(request); } else { sp<CaptureRequest> request = 0; requestList.push_back(request); ALOGE("A request is missing. Sending in null request."); } } bool repeating = data.readInt32(); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(submitRequestList(requestList, repeating, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case CANCEL_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int requestId = data.readInt32(); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(cancelRequest(requestId, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case DELETE_STREAM: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int streamId = data.readInt32(); reply->writeNoException(); reply->writeInt32(deleteStream(streamId)); return NO_ERROR; } break; case CREATE_STREAM: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int width, height, format; width = data.readInt32(); ALOGV("%s: CREATE_STREAM: width = %d", __FUNCTION__, width); height = data.readInt32(); ALOGV("%s: CREATE_STREAM: height = %d", __FUNCTION__, height); format = data.readInt32(); ALOGV("%s: CREATE_STREAM: format = %d", __FUNCTION__, format); sp<IGraphicBufferProducer> bp; if (data.readInt32() != 0) { String16 name = readMaybeEmptyString16(data); bp = interface_cast<IGraphicBufferProducer>( data.readStrongBinder()); ALOGV("%s: CREATE_STREAM: bp = %p, name = %s", __FUNCTION__, bp.get(), String8(name).string()); } else { ALOGV("%s: CREATE_STREAM: bp = unset, name = unset", __FUNCTION__); } status_t ret; ret = createStream(width, height, format, bp); reply->writeNoException(); ALOGV("%s: CREATE_STREAM: write noException", __FUNCTION__); reply->writeInt32(ret); ALOGV("%s: CREATE_STREAM: write ret = %d", __FUNCTION__, ret); return NO_ERROR; } break; case CREATE_DEFAULT_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int templateId = data.readInt32(); CameraMetadata request; status_t ret; ret = createDefaultRequest(templateId, &request); reply->writeNoException(); reply->writeInt32(ret); // out-variables are after exception and return value reply->writeInt32(1); // to mark presence of metadata object request.writeToParcel(const_cast<Parcel*>(reply)); return NO_ERROR; } break; case GET_CAMERA_INFO: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); CameraMetadata info; status_t ret; ret = getCameraInfo(&info); reply->writeNoException(); reply->writeInt32(ret); // out-variables are after exception and return value reply->writeInt32(1); // to mark presence of metadata object info.writeToParcel(reply); return NO_ERROR; } break; case WAIT_UNTIL_IDLE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); reply->writeInt32(waitUntilIdle()); return NO_ERROR; } break; case FLUSH: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(flush(&lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } case BEGIN_CONFIGURE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); reply->writeInt32(beginConfigure()); return NO_ERROR; } break; case END_CONFIGURE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); reply->writeInt32(endConfigure()); return NO_ERROR; } break; default: return BBinder::onTransact(code, data, reply, flags); } }
status_t BnCameraDeviceUser::onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { switch(code) { case DISCONNECT: { ALOGV("DISCONNECT"); CHECK_INTERFACE(ICameraDeviceUser, data, reply); disconnect(); reply->writeNoException(); return NO_ERROR; } break; case SUBMIT_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); // arg0 = request sp<CaptureRequest> request; if (data.readInt32() != 0) { request = new CaptureRequest(); request->readFromParcel(const_cast<Parcel*>(&data)); } // arg1 = streaming (bool) bool repeating = data.readInt32(); // return code: requestId (int32) reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(submitRequest(request, repeating, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case SUBMIT_REQUEST_LIST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); List<sp<CaptureRequest> > requestList; int requestListSize = data.readInt32(); for (int i = 0; i < requestListSize; i++) { if (data.readInt32() != 0) { sp<CaptureRequest> request = new CaptureRequest(); if (request->readFromParcel(const_cast<Parcel*>(&data)) != OK) { return BAD_VALUE; } requestList.push_back(request); } else { sp<CaptureRequest> request = 0; requestList.push_back(request); ALOGE("A request is missing. Sending in null request."); } } bool repeating = data.readInt32(); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(submitRequestList(requestList, repeating, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case CANCEL_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int requestId = data.readInt32(); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(cancelRequest(requestId, &lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } break; case DELETE_STREAM: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int streamId = data.readInt32(); reply->writeNoException(); reply->writeInt32(deleteStream(streamId)); return NO_ERROR; } break; case CREATE_STREAM: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); status_t ret = BAD_VALUE; if (data.readInt32() != 0) { OutputConfiguration outputConfiguration(data); ret = createStream(outputConfiguration); } else { ALOGE("%s: cannot take an empty OutputConfiguration", __FUNCTION__); } reply->writeNoException(); ALOGV("%s: CREATE_STREAM: write noException", __FUNCTION__); reply->writeInt32(ret); ALOGV("%s: CREATE_STREAM: write ret = %d", __FUNCTION__, ret); return NO_ERROR; } break; case CREATE_INPUT_STREAM: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int width, height, format; width = data.readInt32(); height = data.readInt32(); format = data.readInt32(); status_t ret = createInputStream(width, height, format); reply->writeNoException(); reply->writeInt32(ret); return NO_ERROR; } break; case GET_INPUT_SURFACE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); sp<IGraphicBufferProducer> bp; status_t ret = getInputBufferProducer(&bp); sp<IBinder> b(IInterface::asBinder(ret == OK ? bp : NULL)); reply->writeNoException(); reply->writeInt32(ret); reply->writeInt32(1); reply->writeString16(String16("camera input")); // name of surface reply->writeStrongBinder(b); return NO_ERROR; } break; case CREATE_DEFAULT_REQUEST: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int templateId = data.readInt32(); CameraMetadata request; status_t ret; ret = createDefaultRequest(templateId, &request); reply->writeNoException(); reply->writeInt32(ret); // out-variables are after exception and return value reply->writeInt32(1); // to mark presence of metadata object request.writeToParcel(const_cast<Parcel*>(reply)); return NO_ERROR; } break; case GET_CAMERA_INFO: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); CameraMetadata info; status_t ret; ret = getCameraInfo(&info); reply->writeNoException(); reply->writeInt32(ret); // out-variables are after exception and return value reply->writeInt32(1); // to mark presence of metadata object info.writeToParcel(reply); return NO_ERROR; } break; case WAIT_UNTIL_IDLE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); reply->writeInt32(waitUntilIdle()); return NO_ERROR; } break; case FLUSH: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); int64_t lastFrameNumber = -1; reply->writeInt32(flush(&lastFrameNumber)); reply->writeInt32(1); reply->writeInt64(lastFrameNumber); return NO_ERROR; } case BEGIN_CONFIGURE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); reply->writeNoException(); reply->writeInt32(beginConfigure()); return NO_ERROR; } break; case END_CONFIGURE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); bool isConstrainedHighSpeed = data.readInt32(); reply->writeNoException(); reply->writeInt32(endConfigure(isConstrainedHighSpeed)); return NO_ERROR; } break; case PREPARE: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int streamId = data.readInt32(); reply->writeNoException(); reply->writeInt32(prepare(streamId)); return NO_ERROR; } break; case TEAR_DOWN: { CHECK_INTERFACE(ICameraDeviceUser, data, reply); int streamId = data.readInt32(); reply->writeNoException(); reply->writeInt32(tearDown(streamId)); return NO_ERROR; } break; default: return BBinder::onTransact(code, data, reply, flags); } }
status_t BnCameraService::onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) { switch(code) { case GET_NUMBER_OF_CAMERAS: { CHECK_INTERFACE(ICameraService, data, reply); reply->writeNoException(); reply->writeInt32(getNumberOfCameras()); return NO_ERROR; } break; case GET_CAMERA_INFO: { CHECK_INTERFACE(ICameraService, data, reply); CameraInfo cameraInfo = CameraInfo(); memset(&cameraInfo, 0, sizeof(cameraInfo)); status_t result = getCameraInfo(data.readInt32(), &cameraInfo); reply->writeNoException(); reply->writeInt32(result); // Fake a parcelable object here reply->writeInt32(1); // means the parcelable is included reply->writeInt32(cameraInfo.facing); reply->writeInt32(cameraInfo.orientation); return NO_ERROR; } break; case GET_CAMERA_CHARACTERISTICS: { CHECK_INTERFACE(ICameraService, data, reply); CameraMetadata info; status_t result = getCameraCharacteristics(data.readInt32(), &info); reply->writeNoException(); reply->writeInt32(result); // out-variables are after exception and return value reply->writeInt32(1); // means the parcelable is included info.writeToParcel(reply); return NO_ERROR; } break; case CONNECT: { CHECK_INTERFACE(ICameraService, data, reply); sp<ICameraClient> cameraClient = interface_cast<ICameraClient>(data.readStrongBinder()); int32_t cameraId = data.readInt32(); const String16 clientName = data.readString16(); int32_t clientUid = data.readInt32(); sp<ICamera> camera; status_t status = connect(cameraClient, cameraId, clientName, clientUid, /*out*/ camera); reply->writeNoException(); reply->writeInt32(status); if (camera != NULL) { reply->writeInt32(1); reply->writeStrongBinder(camera->asBinder()); } else { reply->writeInt32(0); } return NO_ERROR; } break; case CONNECT_PRO: { CHECK_INTERFACE(ICameraService, data, reply); sp<IProCameraCallbacks> cameraClient = interface_cast<IProCameraCallbacks>(data.readStrongBinder()); int32_t cameraId = data.readInt32(); const String16 clientName = data.readString16(); int32_t clientUid = data.readInt32(); sp<IProCameraUser> camera; status_t status = connectPro(cameraClient, cameraId, clientName, clientUid, /*out*/ camera); reply->writeNoException(); reply->writeInt32(status); if (camera != NULL) { reply->writeInt32(1); reply->writeStrongBinder(camera->asBinder()); } else { reply->writeInt32(0); } return NO_ERROR; } break; case CONNECT_DEVICE: { CHECK_INTERFACE(ICameraService, data, reply); sp<ICameraDeviceCallbacks> cameraClient = interface_cast<ICameraDeviceCallbacks>(data.readStrongBinder()); int32_t cameraId = data.readInt32(); const String16 clientName = data.readString16(); int32_t clientUid = data.readInt32(); sp<ICameraDeviceUser> camera; status_t status = connectDevice(cameraClient, cameraId, clientName, clientUid, /*out*/ camera); reply->writeNoException(); reply->writeInt32(status); if (camera != NULL) { reply->writeInt32(1); reply->writeStrongBinder(camera->asBinder()); } else { reply->writeInt32(0); } return NO_ERROR; } break; case ADD_LISTENER: { CHECK_INTERFACE(ICameraService, data, reply); sp<ICameraServiceListener> listener = interface_cast<ICameraServiceListener>(data.readStrongBinder()); reply->writeNoException(); reply->writeInt32(addListener(listener)); return NO_ERROR; } break; case REMOVE_LISTENER: { CHECK_INTERFACE(ICameraService, data, reply); sp<ICameraServiceListener> listener = interface_cast<ICameraServiceListener>(data.readStrongBinder()); reply->writeNoException(); reply->writeInt32(removeListener(listener)); return NO_ERROR; } break; default: return BBinder::onTransact(code, data, reply, flags); } }