#ifndef __NEOVIFIRE3_H_ #define __NEOVIFIRE3_H_ #include "icsneo/device/device.h" #include "icsneo/device/devicetype.h" #include "icsneo/disk/extextractordiskreaddriver.h" #include "icsneo/disk/neomemorydiskdriver.h" #include "icsneo/device/tree/neovifire3/neovifire3settings.h" namespace icsneo { class NeoVIFIRE3 : public Device { public: // Serial numbers start with ON // Ethernet MAC allocation is 0x0E, standard driver is Raw ICSNEO_FINDABLE_DEVICE(NeoVIFIRE3, DeviceType::FIRE3, "ON"); static const std::vector& GetSupportedNetworks() { static std::vector supportedNetworks = { Network::NetID::DWCAN_01, Network::NetID::DWCAN_08, Network::NetID::DWCAN_02, Network::NetID::DWCAN_03, Network::NetID::DWCAN_04, Network::NetID::DWCAN_05, Network::NetID::DWCAN_06, Network::NetID::DWCAN_07, Network::NetID::DWCAN_09, Network::NetID::DWCAN_10, Network::NetID::DWCAN_11, Network::NetID::DWCAN_12, Network::NetID::DWCAN_13, Network::NetID::DWCAN_14, Network::NetID::DWCAN_15, Network::NetID::DWCAN_16, Network::NetID::ETHERNET_01, Network::NetID::ETHERNET_02, Network::NetID::ETHERNET_03, Network::NetID::LIN_01, Network::NetID::LIN_02, Network::NetID::LIN_03, Network::NetID::LIN_04, Network::NetID::LIN_05, Network::NetID::LIN_06, Network::NetID::LIN_07, Network::NetID::LIN_08, }; return supportedNetworks; } size_t getEthernetActivationLineCount() const override { return 2; } ProductID getProductID() const override { return ProductID::neoVIFIRE3; } const std::vector& getChipInfo() const override { static std::vector chips = { {ChipID::neoVIFIRE3_ZCHIP, true, "ZCHIP", "fire3_zchip_ief", 0, FirmwareType::IEF}, {ChipID::neoVIFIRE3_SCHIP, true, "SCHIP", "fire3_schip_ief", 1, FirmwareType::IEF}, {ChipID::neoVIFIRE3_LINUX, true, "Linux Flash", "fire3_lnx_flash_ief", 2, FirmwareType::IEF}, {ChipID::VEM_01_8DW_ZCHIP, true, "VEM-01-Z", "vem_01_8dw_zchip_ief", 3, FirmwareType::IEF} }; return chips; } BootloaderPipeline getBootloader() override { return BootloaderPipeline() .add(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application, true, false) .add(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application, false, true) .add(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application, false, false, false) .add(ChipID::VEM_01_8DW_ZCHIP, BootloaderCommunication::Application, false, false) .add(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application) .add(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application) .add(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application) .add(ChipID::VEM_01_8DW_ZCHIP, BootloaderCommunication::Application) .add() .addSetting(BootloaderSetting::UpdateAll, true); } protected: NeoVIFIRE3(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) { initialize(makeDriver); } virtual void setupEncoder(Encoder& encoder) override { Device::setupEncoder(encoder); encoder.supportCANFD = true; } void setupPacketizer(Packetizer& packetizer) override { Device::setupPacketizer(packetizer); packetizer.align16bit = true; } 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 supportsWiVI() const override { return true; } bool supportsLiveData() const override { return true; } bool supportsGPTP() const override { return true; } std::optional getCoreminiStartAddressFlash() const override { return std::nullopt; } std::optional getCoreminiStartAddressSD() const override { return 0; } bool supportsEraseMemory() const override { return true; } size_t getDiskCount() const override { return 2; } bool supportsNetworkMutex() const override { return true; } }; } #endif