#ifndef __RADSUPERMOON_H_ #define __RADSUPERMOON_H_ #ifdef __cplusplus #include "icsneo/device/device.h" #include "icsneo/device/devicetype.h" #include "icsneo/device/tree/radsupermoon/radsupermoonsettings.h" namespace icsneo { class RADSupermoon : public Device { public: // Serial numbers start with SM // USB PID is 0x1201, standard driver is FTDI3 ICSNEO_FINDABLE_DEVICE(RADSupermoon, DeviceType::RADSupermoon, "SM"); enum class SKU { Standard, APM1000ET, // Keysight Branding }; static const std::vector& GetSupportedNetworks() { static std::vector supportedNetworks = { Network::NetID::ETHERNET_01, Network::NetID::AE_01, Network::NetID::MDIO_01, Network::NetID::MDIO_02, }; return supportedNetworks; } SKU getSKU() const { switch(getSerial().back()) { case 'A': return SKU::APM1000ET; default: return SKU::Standard; } } std::string getProductName() const override { switch(getSKU()) { case SKU::Standard: break; case SKU::APM1000ET: return "Keysight APM1000ET"; } return Device::getProductName(); } bool getEthPhyRegControlSupported() const override { return true; } protected: RADSupermoon(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) { initialize(makeDriver); } void setupPacketizer(Packetizer& packetizer) override { Device::setupPacketizer(packetizer); packetizer.disableChecksum = true; packetizer.align16bit = false; } virtual void setupEncoder(Encoder& encoder) override { Device::setupEncoder(encoder); encoder.supportEthPhy = true; } void setupDecoder(Decoder& decoder) override { Device::setupDecoder(decoder); decoder.timestampResolution = 10; // Timestamps are in 10ns increments instead of the usual 25ns } void setupSupportedRXNetworks(std::vector& rxNetworks) override { for(auto& netid : GetSupportedNetworks()) rxNetworks.emplace_back(netid); } // The supported TX networks are the same as the supported RX networks for this device void setupSupportedTXNetworks(std::vector& txNetworks) override { setupSupportedRXNetworks(txNetworks); } bool requiresVehiclePower() const override { return false; } std::optional getCoreminiStartAddressFlash() const override { return 512*4; } std::optional getCoreminiStartAddressSD() const override { return 0; } }; } #endif // __cplusplus #endif