// ====================================================================== // \title PassiveTelemetryComponentAc.cpp // \author Generated by fpp-to-cpp // \brief cpp file for PassiveTelemetry component base class // ====================================================================== #include #include "Fw/Types/Assert.hpp" #if FW_ENABLE_TEXT_LOGGING #include "Fw/Types/String.hpp" #endif #include "base/PassiveTelemetryComponentAc.hpp" // ---------------------------------------------------------------------- // Component initialization // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: init(FwEnumStoreType instance) { // Initialize base class Fw::PassiveComponentBase::init(instance); // Connect input port cmdIn for ( FwIndexType port = 0; port < static_cast(this->getNum_cmdIn_InputPorts()); port++ ) { this->m_cmdIn_InputPort[port].init(); this->m_cmdIn_InputPort[port].addCallComp( this, m_p_cmdIn_in ); this->m_cmdIn_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_cmdIn_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_cmdIn_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port noArgsGuarded for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsGuarded_InputPorts()); port++ ) { this->m_noArgsGuarded_InputPort[port].init(); this->m_noArgsGuarded_InputPort[port].addCallComp( this, m_p_noArgsGuarded_in ); this->m_noArgsGuarded_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsGuarded_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsGuarded_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port noArgsReturnGuarded for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsReturnGuarded_InputPorts()); port++ ) { this->m_noArgsReturnGuarded_InputPort[port].init(); this->m_noArgsReturnGuarded_InputPort[port].addCallComp( this, m_p_noArgsReturnGuarded_in ); this->m_noArgsReturnGuarded_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsReturnGuarded_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsReturnGuarded_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port noArgsReturnSync for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsReturnSync_InputPorts()); port++ ) { this->m_noArgsReturnSync_InputPort[port].init(); this->m_noArgsReturnSync_InputPort[port].addCallComp( this, m_p_noArgsReturnSync_in ); this->m_noArgsReturnSync_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsReturnSync_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsReturnSync_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port noArgsSync for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsSync_InputPorts()); port++ ) { this->m_noArgsSync_InputPort[port].init(); this->m_noArgsSync_InputPort[port].addCallComp( this, m_p_noArgsSync_in ); this->m_noArgsSync_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsSync_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsSync_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port typedGuarded for ( FwIndexType port = 0; port < static_cast(this->getNum_typedGuarded_InputPorts()); port++ ) { this->m_typedGuarded_InputPort[port].init(); this->m_typedGuarded_InputPort[port].addCallComp( this, m_p_typedGuarded_in ); this->m_typedGuarded_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedGuarded_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedGuarded_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port typedReturnGuarded for ( FwIndexType port = 0; port < static_cast(this->getNum_typedReturnGuarded_InputPorts()); port++ ) { this->m_typedReturnGuarded_InputPort[port].init(); this->m_typedReturnGuarded_InputPort[port].addCallComp( this, m_p_typedReturnGuarded_in ); this->m_typedReturnGuarded_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedReturnGuarded_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedReturnGuarded_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port typedReturnSync for ( FwIndexType port = 0; port < static_cast(this->getNum_typedReturnSync_InputPorts()); port++ ) { this->m_typedReturnSync_InputPort[port].init(); this->m_typedReturnSync_InputPort[port].addCallComp( this, m_p_typedReturnSync_in ); this->m_typedReturnSync_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedReturnSync_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedReturnSync_InputPort[port].setObjName(portName.toChar()); #endif } // Connect input port typedSync for ( FwIndexType port = 0; port < static_cast(this->getNum_typedSync_InputPorts()); port++ ) { this->m_typedSync_InputPort[port].init(); this->m_typedSync_InputPort[port].addCallComp( this, m_p_typedSync_in ); this->m_typedSync_InputPort[port].setPortNum(port); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedSync_InputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedSync_InputPort[port].setObjName(portName.toChar()); #endif } // Connect output port cmdRegOut for ( FwIndexType port = 0; port < static_cast(this->getNum_cmdRegOut_OutputPorts()); port++ ) { this->m_cmdRegOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_cmdRegOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_cmdRegOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port cmdResponseOut for ( FwIndexType port = 0; port < static_cast(this->getNum_cmdResponseOut_OutputPorts()); port++ ) { this->m_cmdResponseOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_cmdResponseOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_cmdResponseOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port eventOut for ( FwIndexType port = 0; port < static_cast(this->getNum_eventOut_OutputPorts()); port++ ) { this->m_eventOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_eventOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_eventOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port prmGetOut for ( FwIndexType port = 0; port < static_cast(this->getNum_prmGetOut_OutputPorts()); port++ ) { this->m_prmGetOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_prmGetOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_prmGetOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port prmSetOut for ( FwIndexType port = 0; port < static_cast(this->getNum_prmSetOut_OutputPorts()); port++ ) { this->m_prmSetOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_prmSetOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_prmSetOut_OutputPort[port].setObjName(portName.toChar()); #endif } #if FW_ENABLE_TEXT_LOGGING == 1 // Connect output port textEventOut for ( FwIndexType port = 0; port < static_cast(this->getNum_textEventOut_OutputPorts()); port++ ) { this->m_textEventOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_textEventOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_textEventOut_OutputPort[port].setObjName(portName.toChar()); #endif } #endif // Connect output port timeGetOut for ( FwIndexType port = 0; port < static_cast(this->getNum_timeGetOut_OutputPorts()); port++ ) { this->m_timeGetOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_timeGetOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_timeGetOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port tlmOut for ( FwIndexType port = 0; port < static_cast(this->getNum_tlmOut_OutputPorts()); port++ ) { this->m_tlmOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_tlmOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_tlmOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port noArgsOut for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsOut_OutputPorts()); port++ ) { this->m_noArgsOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port noArgsReturnOut for ( FwIndexType port = 0; port < static_cast(this->getNum_noArgsReturnOut_OutputPorts()); port++ ) { this->m_noArgsReturnOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_noArgsReturnOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_noArgsReturnOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port typedOut for ( FwIndexType port = 0; port < static_cast(this->getNum_typedOut_OutputPorts()); port++ ) { this->m_typedOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedOut_OutputPort[port].setObjName(portName.toChar()); #endif } // Connect output port typedReturnOut for ( FwIndexType port = 0; port < static_cast(this->getNum_typedReturnOut_OutputPorts()); port++ ) { this->m_typedReturnOut_OutputPort[port].init(); #if FW_OBJECT_NAMES == 1 Fw::ObjectName portName; portName.format( "%s_typedReturnOut_OutputPort[%" PRI_PlatformIntType "]", this->m_objName.toChar(), port ); this->m_typedReturnOut_OutputPort[port].setObjName(portName.toChar()); #endif } } // ---------------------------------------------------------------------- // Getters for special input ports // ---------------------------------------------------------------------- Fw::InputCmdPort* PassiveTelemetryComponentBase :: get_cmdIn_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_cmdIn_InputPorts(), static_cast(portNum) ); return &this->m_cmdIn_InputPort[portNum]; } // ---------------------------------------------------------------------- // Getters for typed input ports // ---------------------------------------------------------------------- Ports::InputNoArgsPort* PassiveTelemetryComponentBase :: get_noArgsGuarded_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsGuarded_InputPorts(), static_cast(portNum) ); return &this->m_noArgsGuarded_InputPort[portNum]; } Ports::InputNoArgsReturnPort* PassiveTelemetryComponentBase :: get_noArgsReturnGuarded_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsReturnGuarded_InputPorts(), static_cast(portNum) ); return &this->m_noArgsReturnGuarded_InputPort[portNum]; } Ports::InputNoArgsReturnPort* PassiveTelemetryComponentBase :: get_noArgsReturnSync_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsReturnSync_InputPorts(), static_cast(portNum) ); return &this->m_noArgsReturnSync_InputPort[portNum]; } Ports::InputNoArgsPort* PassiveTelemetryComponentBase :: get_noArgsSync_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsSync_InputPorts(), static_cast(portNum) ); return &this->m_noArgsSync_InputPort[portNum]; } Ports::InputTypedPort* PassiveTelemetryComponentBase :: get_typedGuarded_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedGuarded_InputPorts(), static_cast(portNum) ); return &this->m_typedGuarded_InputPort[portNum]; } Ports::InputTypedReturnPort* PassiveTelemetryComponentBase :: get_typedReturnGuarded_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedReturnGuarded_InputPorts(), static_cast(portNum) ); return &this->m_typedReturnGuarded_InputPort[portNum]; } Ports::InputTypedReturnPort* PassiveTelemetryComponentBase :: get_typedReturnSync_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedReturnSync_InputPorts(), static_cast(portNum) ); return &this->m_typedReturnSync_InputPort[portNum]; } Ports::InputTypedPort* PassiveTelemetryComponentBase :: get_typedSync_InputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedSync_InputPorts(), static_cast(portNum) ); return &this->m_typedSync_InputPort[portNum]; } // ---------------------------------------------------------------------- // Connect input ports to special output ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: set_cmdRegOut_OutputPort( FwIndexType portNum, Fw::InputCmdRegPort* port ) { FW_ASSERT( portNum < this->getNum_cmdRegOut_OutputPorts(), static_cast(portNum) ); this->m_cmdRegOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_cmdResponseOut_OutputPort( FwIndexType portNum, Fw::InputCmdResponsePort* port ) { FW_ASSERT( portNum < this->getNum_cmdResponseOut_OutputPorts(), static_cast(portNum) ); this->m_cmdResponseOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_eventOut_OutputPort( FwIndexType portNum, Fw::InputLogPort* port ) { FW_ASSERT( portNum < this->getNum_eventOut_OutputPorts(), static_cast(portNum) ); this->m_eventOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_prmGetOut_OutputPort( FwIndexType portNum, Fw::InputPrmGetPort* port ) { FW_ASSERT( portNum < this->getNum_prmGetOut_OutputPorts(), static_cast(portNum) ); this->m_prmGetOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_prmSetOut_OutputPort( FwIndexType portNum, Fw::InputPrmSetPort* port ) { FW_ASSERT( portNum < this->getNum_prmSetOut_OutputPorts(), static_cast(portNum) ); this->m_prmSetOut_OutputPort[portNum].addCallPort(port); } #if FW_ENABLE_TEXT_LOGGING == 1 void PassiveTelemetryComponentBase :: set_textEventOut_OutputPort( FwIndexType portNum, Fw::InputLogTextPort* port ) { FW_ASSERT( portNum < this->getNum_textEventOut_OutputPorts(), static_cast(portNum) ); this->m_textEventOut_OutputPort[portNum].addCallPort(port); } #endif void PassiveTelemetryComponentBase :: set_timeGetOut_OutputPort( FwIndexType portNum, Fw::InputTimePort* port ) { FW_ASSERT( portNum < this->getNum_timeGetOut_OutputPorts(), static_cast(portNum) ); this->m_timeGetOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_tlmOut_OutputPort( FwIndexType portNum, Fw::InputTlmPort* port ) { FW_ASSERT( portNum < this->getNum_tlmOut_OutputPorts(), static_cast(portNum) ); this->m_tlmOut_OutputPort[portNum].addCallPort(port); } // ---------------------------------------------------------------------- // Connect typed input ports to typed output ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: set_noArgsOut_OutputPort( FwIndexType portNum, Ports::InputNoArgsPort* port ) { FW_ASSERT( portNum < this->getNum_noArgsOut_OutputPorts(), static_cast(portNum) ); this->m_noArgsOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_noArgsReturnOut_OutputPort( FwIndexType portNum, Ports::InputNoArgsReturnPort* port ) { FW_ASSERT( portNum < this->getNum_noArgsReturnOut_OutputPorts(), static_cast(portNum) ); this->m_noArgsReturnOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_typedOut_OutputPort( FwIndexType portNum, Ports::InputTypedPort* port ) { FW_ASSERT( portNum < this->getNum_typedOut_OutputPorts(), static_cast(portNum) ); this->m_typedOut_OutputPort[portNum].addCallPort(port); } void PassiveTelemetryComponentBase :: set_typedReturnOut_OutputPort( FwIndexType portNum, Ports::InputTypedReturnPort* port ) { FW_ASSERT( portNum < this->getNum_typedReturnOut_OutputPorts(), static_cast(portNum) ); this->m_typedReturnOut_OutputPort[portNum].addCallPort(port); } #if FW_PORT_SERIALIZATION // ---------------------------------------------------------------------- // Connect serial input ports to special output ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: set_cmdRegOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_cmdRegOut_OutputPorts(), static_cast(portNum) ); this->m_cmdRegOut_OutputPort[portNum].registerSerialPort(port); } void PassiveTelemetryComponentBase :: set_cmdResponseOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_cmdResponseOut_OutputPorts(), static_cast(portNum) ); this->m_cmdResponseOut_OutputPort[portNum].registerSerialPort(port); } void PassiveTelemetryComponentBase :: set_eventOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_eventOut_OutputPorts(), static_cast(portNum) ); this->m_eventOut_OutputPort[portNum].registerSerialPort(port); } void PassiveTelemetryComponentBase :: set_prmSetOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_prmSetOut_OutputPorts(), static_cast(portNum) ); this->m_prmSetOut_OutputPort[portNum].registerSerialPort(port); } #if FW_ENABLE_TEXT_LOGGING == 1 void PassiveTelemetryComponentBase :: set_textEventOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_textEventOut_OutputPorts(), static_cast(portNum) ); this->m_textEventOut_OutputPort[portNum].registerSerialPort(port); } #endif void PassiveTelemetryComponentBase :: set_timeGetOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_timeGetOut_OutputPorts(), static_cast(portNum) ); this->m_timeGetOut_OutputPort[portNum].registerSerialPort(port); } void PassiveTelemetryComponentBase :: set_tlmOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_tlmOut_OutputPorts(), static_cast(portNum) ); this->m_tlmOut_OutputPort[portNum].registerSerialPort(port); } #endif #if FW_PORT_SERIALIZATION // ---------------------------------------------------------------------- // Connect serial input ports to typed output ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: set_noArgsOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_noArgsOut_OutputPorts(), static_cast(portNum) ); this->m_noArgsOut_OutputPort[portNum].registerSerialPort(port); } void PassiveTelemetryComponentBase :: set_typedOut_OutputPort( FwIndexType portNum, Fw::InputSerializePort* port ) { FW_ASSERT( portNum < this->getNum_typedOut_OutputPorts(), static_cast(portNum) ); this->m_typedOut_OutputPort[portNum].registerSerialPort(port); } #endif // ---------------------------------------------------------------------- // Component construction and destruction // ---------------------------------------------------------------------- PassiveTelemetryComponentBase :: PassiveTelemetryComponentBase(const char* compName) : Fw::PassiveComponentBase(compName) { // Write telemetry channel ChannelU32OnChange this->m_first_update_ChannelU32OnChange = true; this->m_last_ChannelU32OnChange = 0; // Write telemetry channel ChannelEnumOnChange this->m_first_update_ChannelEnumOnChange = true; } PassiveTelemetryComponentBase :: ~PassiveTelemetryComponentBase() { } // ---------------------------------------------------------------------- // Getters for numbers of special input ports // ---------------------------------------------------------------------- FwIndexType PassiveTelemetryComponentBase :: getNum_cmdIn_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_cmdIn_InputPort)); } // ---------------------------------------------------------------------- // Getters for numbers of typed input ports // ---------------------------------------------------------------------- FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsGuarded_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsGuarded_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsReturnGuarded_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsReturnGuarded_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsReturnSync_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsReturnSync_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsSync_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsSync_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedGuarded_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedGuarded_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedReturnGuarded_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedReturnGuarded_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedReturnSync_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedReturnSync_InputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedSync_InputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedSync_InputPort)); } // ---------------------------------------------------------------------- // Getters for numbers of special output ports // ---------------------------------------------------------------------- FwIndexType PassiveTelemetryComponentBase :: getNum_cmdRegOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_cmdRegOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_cmdResponseOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_cmdResponseOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_eventOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_eventOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_prmGetOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_prmGetOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_prmSetOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_prmSetOut_OutputPort)); } #if FW_ENABLE_TEXT_LOGGING == 1 FwIndexType PassiveTelemetryComponentBase :: getNum_textEventOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_textEventOut_OutputPort)); } #endif FwIndexType PassiveTelemetryComponentBase :: getNum_timeGetOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_timeGetOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_tlmOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_tlmOut_OutputPort)); } // ---------------------------------------------------------------------- // Getters for numbers of typed output ports // ---------------------------------------------------------------------- FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_noArgsReturnOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_noArgsReturnOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedOut_OutputPort)); } FwIndexType PassiveTelemetryComponentBase :: getNum_typedReturnOut_OutputPorts() const { return static_cast(FW_NUM_ARRAY_ELEMENTS(this->m_typedReturnOut_OutputPort)); } // ---------------------------------------------------------------------- // Connection status queries for special output ports // ---------------------------------------------------------------------- bool PassiveTelemetryComponentBase :: isConnected_cmdRegOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_cmdRegOut_OutputPorts(), static_cast(portNum) ); return this->m_cmdRegOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_cmdResponseOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_cmdResponseOut_OutputPorts(), static_cast(portNum) ); return this->m_cmdResponseOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_eventOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_eventOut_OutputPorts(), static_cast(portNum) ); return this->m_eventOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_prmGetOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_prmGetOut_OutputPorts(), static_cast(portNum) ); return this->m_prmGetOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_prmSetOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_prmSetOut_OutputPorts(), static_cast(portNum) ); return this->m_prmSetOut_OutputPort[portNum].isConnected(); } #if FW_ENABLE_TEXT_LOGGING == 1 bool PassiveTelemetryComponentBase :: isConnected_textEventOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_textEventOut_OutputPorts(), static_cast(portNum) ); return this->m_textEventOut_OutputPort[portNum].isConnected(); } #endif bool PassiveTelemetryComponentBase :: isConnected_timeGetOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_timeGetOut_OutputPorts(), static_cast(portNum) ); return this->m_timeGetOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_tlmOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_tlmOut_OutputPorts(), static_cast(portNum) ); return this->m_tlmOut_OutputPort[portNum].isConnected(); } // ---------------------------------------------------------------------- // Connection status queries for typed output ports // ---------------------------------------------------------------------- bool PassiveTelemetryComponentBase :: isConnected_noArgsOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsOut_OutputPorts(), static_cast(portNum) ); return this->m_noArgsOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_noArgsReturnOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsReturnOut_OutputPorts(), static_cast(portNum) ); return this->m_noArgsReturnOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_typedOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedOut_OutputPorts(), static_cast(portNum) ); return this->m_typedOut_OutputPort[portNum].isConnected(); } bool PassiveTelemetryComponentBase :: isConnected_typedReturnOut_OutputPort(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_typedReturnOut_OutputPorts(), static_cast(portNum) ); return this->m_typedReturnOut_OutputPort[portNum].isConnected(); } // ---------------------------------------------------------------------- // Port handler base-class functions for typed input ports // // Call these functions directly to bypass the corresponding ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: noArgsGuarded_handlerBase(FwIndexType portNum) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_noArgsGuarded_InputPorts(), static_cast(portNum) ); // Lock guard mutex before calling this->lock(); // Call handler function this->noArgsGuarded_handler(portNum); // Unlock guard mutex this->unLock(); } U32 PassiveTelemetryComponentBase :: noArgsReturnGuarded_handlerBase(FwIndexType portNum) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_noArgsReturnGuarded_InputPorts(), static_cast(portNum) ); U32 retVal; // Lock guard mutex before calling this->lock(); // Call handler function retVal = this->noArgsReturnGuarded_handler(portNum); // Unlock guard mutex this->unLock(); return retVal; } U32 PassiveTelemetryComponentBase :: noArgsReturnSync_handlerBase(FwIndexType portNum) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_noArgsReturnSync_InputPorts(), static_cast(portNum) ); U32 retVal; // Call handler function retVal = this->noArgsReturnSync_handler(portNum); return retVal; } void PassiveTelemetryComponentBase :: noArgsSync_handlerBase(FwIndexType portNum) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_noArgsSync_InputPorts(), static_cast(portNum) ); // Call handler function this->noArgsSync_handler(portNum); } void PassiveTelemetryComponentBase :: typedGuarded_handlerBase( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedPortStrings::StringSize80& str1, const E& e, const A& a, const S& s ) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_typedGuarded_InputPorts(), static_cast(portNum) ); // Lock guard mutex before calling this->lock(); // Call handler function this->typedGuarded_handler( portNum, u32, f32, b, str1, e, a, s ); // Unlock guard mutex this->unLock(); } F32 PassiveTelemetryComponentBase :: typedReturnGuarded_handlerBase( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedReturnPortStrings::StringSize80& str2, const E& e, const A& a, const S& s ) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_typedReturnGuarded_InputPorts(), static_cast(portNum) ); F32 retVal; // Lock guard mutex before calling this->lock(); // Call handler function retVal = this->typedReturnGuarded_handler( portNum, u32, f32, b, str2, e, a, s ); // Unlock guard mutex this->unLock(); return retVal; } F32 PassiveTelemetryComponentBase :: typedReturnSync_handlerBase( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedReturnPortStrings::StringSize80& str2, const E& e, const A& a, const S& s ) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_typedReturnSync_InputPorts(), static_cast(portNum) ); F32 retVal; // Call handler function retVal = this->typedReturnSync_handler( portNum, u32, f32, b, str2, e, a, s ); return retVal; } void PassiveTelemetryComponentBase :: typedSync_handlerBase( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedPortStrings::StringSize80& str1, const E& e, const A& a, const S& s ) { // Make sure port number is valid FW_ASSERT( portNum < this->getNum_typedSync_InputPorts(), static_cast(portNum) ); // Call handler function this->typedSync_handler( portNum, u32, f32, b, str1, e, a, s ); } // ---------------------------------------------------------------------- // Invocation functions for typed output ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: noArgsOut_out(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsOut_OutputPorts(), static_cast(portNum) ); this->m_noArgsOut_OutputPort[portNum].invoke(); } U32 PassiveTelemetryComponentBase :: noArgsReturnOut_out(FwIndexType portNum) { FW_ASSERT( portNum < this->getNum_noArgsReturnOut_OutputPorts(), static_cast(portNum) ); return this->m_noArgsReturnOut_OutputPort[portNum].invoke(); } void PassiveTelemetryComponentBase :: typedOut_out( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedPortStrings::StringSize80& str1, const E& e, const A& a, const S& s ) { FW_ASSERT( portNum < this->getNum_typedOut_OutputPorts(), static_cast(portNum) ); this->m_typedOut_OutputPort[portNum].invoke( u32, f32, b, str1, e, a, s ); } F32 PassiveTelemetryComponentBase :: typedReturnOut_out( FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedReturnPortStrings::StringSize80& str2, const E& e, const A& a, const S& s ) { FW_ASSERT( portNum < this->getNum_typedReturnOut_OutputPorts(), static_cast(portNum) ); return this->m_typedReturnOut_OutputPort[portNum].invoke( u32, f32, b, str2, e, a, s ); } // ---------------------------------------------------------------------- // Telemetry write functions // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: tlmWrite_ChannelU32Format( U32 arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELU32FORMAT; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelF32Format( F32 arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELF32FORMAT; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelStringFormat( const Fw::StringBase& arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = arg.serialize(_tlmBuff, FW_MIN(FW_TLM_STRING_MAX_SIZE, 80)); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELSTRINGFORMAT; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelEnum( const E& arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELENUM; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelArrayFreq( const A& arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELARRAYFREQ; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelStructFreq( const S& arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELSTRUCTFREQ; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelU32Limits( U32 arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELU32LIMITS; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelF32Limits( F32 arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELF32LIMITS; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelF64( F64 arg, Fw::Time _tlmTime ) { if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELF64; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelU32OnChange( U32 arg, Fw::Time _tlmTime ) { // Check to see if it is the first time if (not this->m_first_update_ChannelU32OnChange) { // Check to see if value has changed. If not, don't write it. if (arg == this->m_last_ChannelU32OnChange) { return; } else { this->m_last_ChannelU32OnChange = arg; } } else { this->m_first_update_ChannelU32OnChange = false; this->m_last_ChannelU32OnChange = arg; } if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELU32ONCHANGE; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } void PassiveTelemetryComponentBase :: tlmWrite_ChannelEnumOnChange( const E& arg, Fw::Time _tlmTime ) { // Check to see if it is the first time if (not this->m_first_update_ChannelEnumOnChange) { // Check to see if value has changed. If not, don't write it. if (arg == this->m_last_ChannelEnumOnChange) { return; } else { this->m_last_ChannelEnumOnChange = arg; } } else { this->m_first_update_ChannelEnumOnChange = false; this->m_last_ChannelEnumOnChange = arg; } if (this->m_tlmOut_OutputPort[0].isConnected()) { if ( this->m_timeGetOut_OutputPort[0].isConnected() && (_tlmTime == Fw::ZERO_TIME) ) { this->m_timeGetOut_OutputPort[0].invoke(_tlmTime); } Fw::TlmBuffer _tlmBuff; Fw::SerializeStatus _stat = _tlmBuff.serialize(arg); FW_ASSERT( _stat == Fw::FW_SERIALIZE_OK, static_cast(_stat) ); FwChanIdType _id; _id = this->getIdBase() + CHANNELID_CHANNELENUMONCHANGE; this->m_tlmOut_OutputPort[0].invoke( _id, _tlmTime, _tlmBuff ); } } // ---------------------------------------------------------------------- // Time // ---------------------------------------------------------------------- Fw::Time PassiveTelemetryComponentBase :: getTime() { if (this->m_timeGetOut_OutputPort[0].isConnected()) { Fw::Time _time; this->m_timeGetOut_OutputPort[0].invoke(_time); return _time; } else { return Fw::Time(TB_NONE, 0, 0); } } // ---------------------------------------------------------------------- // Mutex operations for guarded ports // // You can override these operations to provide more sophisticated // synchronization // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: lock() { this->m_guardedPortMutex.lock(); } void PassiveTelemetryComponentBase :: unLock() { this->m_guardedPortMutex.unLock(); } // ---------------------------------------------------------------------- // Calls for messages received on special input ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: m_p_cmdIn_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum, FwOpcodeType opCode, U32 cmdSeq, Fw::CmdArgBuffer& args ) { FW_ASSERT(callComp); const U32 idBase = callComp->getIdBase(); FW_ASSERT(opCode >= idBase, static_cast(opCode), static_cast(idBase)); } // ---------------------------------------------------------------------- // Calls for messages received on typed input ports // ---------------------------------------------------------------------- void PassiveTelemetryComponentBase :: m_p_noArgsGuarded_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); compPtr->noArgsGuarded_handlerBase(portNum); } U32 PassiveTelemetryComponentBase :: m_p_noArgsReturnGuarded_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); return compPtr->noArgsReturnGuarded_handlerBase(portNum); } U32 PassiveTelemetryComponentBase :: m_p_noArgsReturnSync_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); return compPtr->noArgsReturnSync_handlerBase(portNum); } void PassiveTelemetryComponentBase :: m_p_noArgsSync_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); compPtr->noArgsSync_handlerBase(portNum); } void PassiveTelemetryComponentBase :: m_p_typedGuarded_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedPortStrings::StringSize80& str1, const E& e, const A& a, const S& s ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); compPtr->typedGuarded_handlerBase( portNum, u32, f32, b, str1, e, a, s ); } F32 PassiveTelemetryComponentBase :: m_p_typedReturnGuarded_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedReturnPortStrings::StringSize80& str2, const E& e, const A& a, const S& s ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); return compPtr->typedReturnGuarded_handlerBase( portNum, u32, f32, b, str2, e, a, s ); } F32 PassiveTelemetryComponentBase :: m_p_typedReturnSync_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedReturnPortStrings::StringSize80& str2, const E& e, const A& a, const S& s ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); return compPtr->typedReturnSync_handlerBase( portNum, u32, f32, b, str2, e, a, s ); } void PassiveTelemetryComponentBase :: m_p_typedSync_in( Fw::PassiveComponentBase* callComp, FwIndexType portNum, U32 u32, F32 f32, bool b, const Ports::TypedPortStrings::StringSize80& str1, const E& e, const A& a, const S& s ) { FW_ASSERT(callComp); PassiveTelemetryComponentBase* compPtr = static_cast(callComp); compPtr->typedSync_handlerBase( portNum, u32, f32, b, str1, e, a, s ); }