///////////////////////////////////////////////////////////////////// // // // file: autoGen_PoEClass_CCA.h // // // ///////////////////////////////////////////////////////////////////// // // // Copyright (c) 2026 Acroname Inc. - All Rights Reserved // // // // This file is part of the BrainStem release. See the license.txt // // file included with this package or go to // // https://acroname.com/software/brainstem-development-kit // // for full license details. // ///////////////////////////////////////////////////////////////////// #ifndef __AUTOGEN_POE_CCA_H__ #define __AUTOGEN_POE_CCA_H__ // This file was auto-generated. Do not modify. #include "CCA_Core.h" #ifdef __GNUC__ #define DEPRECATED(...) __attribute__((deprecated(__VA_ARGS__))) #elif defined(_MSC_VER) #define DEPRECATED(...) __declspec(deprecated(__VA_ARGS__)) #else #define DEPRECATED(...) #pragma message("DEPRECATED is not defined for this compiler") #endif /// \defgroup PoEEntity PoE Entity /// This entity is only available on certain modules, and provides a Power over Ethernet /// control ability. /// #ifdef __cplusplus extern "C" { #endif /// Gets the current enable value of the indicated POE pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: 1 = Enabled; 0 = Disabled; /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairEnabled(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Enables or disables the indicated POE pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// \param enable 1 = Enable port; 0 = Disable port. /// aLIBEXPORT void __stdcall poe_setPairEnabled(unsigned int* id, struct Result* result, const int index, const unsigned char pair, const unsigned char enable); /// Gets the power mode of the device /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The power mode (PD, PSE, Auto, Off). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// aLIBEXPORT void __stdcall poe_getPowerMode(unsigned int* id, struct Result* result, const int index); /// Sets the power mode of the device /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code. /// \param index The index of the entity in question. /// \param value The power mode (PD, PSE, Auto, Off). /// aLIBEXPORT void __stdcall poe_setPowerMode(unsigned int* id, struct Result* result, const int index, const unsigned char value); /// Gets the power state of the device /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The power state (PD, PSE, Off). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// aLIBEXPORT void __stdcall poe_getPowerState(unsigned int* id, struct Result* result, const int index); /// Gets the sourcing class for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The POE class being offered by the device (PSE). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairSourcingClass(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Sets the sourcing class for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// \param value The POE class being offered by the device (PSE). /// aLIBEXPORT void __stdcall poe_setPairSourcingClass(unsigned int* id, struct Result* result, const int index, const unsigned char pair, const unsigned char value); /// Gets the requested class for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The requested POE class by the device (PD). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairRequestedClass(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the discovered class for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The negotiated POE class by the device (PSE/PD). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairDiscoveredClass(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets detected status of the POE connection for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The current detected status of the pairs. /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairDetectionStatus(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the Voltage for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The voltage in microvolts (1 == 1e-6V). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairVoltage(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the Current for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The current in microamps (1 == 1e-6V). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairCurrent(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the Resistance for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The resistance in milliohms (1 == 1e-3Z). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairResistance(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the Capacitance for a given pair /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: The capacitance in nanofarads (1 == 1e-9F). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairCapacitance(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Get the instantaneous power consumption for a given pair /// The equivalent of Voltage x Current /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: Variable to be filled with the pairs power in milli-watts (mW). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairPower(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Gets the total instantaneous power consumption /// The equivalent of Pair1(Voltage x Current) + Pair2(Voltage x Current) /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: Variable to be filled with the total POE power in milli-watts (mW). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// aLIBEXPORT void __stdcall poe_getTotalPower(unsigned int* id, struct Result* result, const int index); /// Gets the accumulated power for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: Variable to be filled with the total accumulated POE power in milli-watts /// (mW). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// aLIBEXPORT void __stdcall poe_getPairAccumulatedPower(unsigned int* id, struct Result* result, const int index, const unsigned char pair); /// Sets the accumulated power for a given pair. /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code. /// \param index The index of the entity in question. /// \param pair Selects PoE pair to access /// - 0 = Pair 1/2 /// - 1 = Pair 3/4 /// \param power The power accumulator value to be set in milli-watts (mW). /// aLIBEXPORT void __stdcall poe_setPairAccumulatedPower(unsigned int* id, struct Result* result, const int index, const unsigned char pair, const int power); /// Gets the total Accumulated Power /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// \li value: Variable to be filled with the total accumulated POE power in milli-watts /// (mW). /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code and the requested value if successful. /// \param index The index of the entity in question. /// aLIBEXPORT void __stdcall poe_getTotalAccumulatedPower(unsigned int* id, struct Result* result, const int index); /// Sets the total accumulated power /// /// The result parameter will output the following fields: /// \li error: \ref EntityReturnValues common entity return value /// /// \param id ID assigned through "module_createStem" /// \param result Output object containing result code. /// \param index The index of the entity in question. /// \param power The power accumulator value to be set in milli-watts (mW). /// aLIBEXPORT void __stdcall poe_setTotalAccumulatedPower(unsigned int* id, struct Result* result, const int index, const int power); #ifdef __cplusplus } #endif #endif // __AUTOGEN_POE_CCA_H__