sven
/
libicsneo
mirror of https://github.com/intrepidcs/libicsneo.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity

Device: Add bootloader information & getChipVersions()

pull/76/merge
Yasser Yassine 2025-10-10 01:21:45 +00:00 committed by Kyle Schwarz
parent 99a2ca4f0d
commit 0bd733bc5d
44 changed files with 1270 additions and 132 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

65
device/device.cpp
View File

@ -207,6 +207,71 @@ bool Device::refreshComponentVersions() {
return false;
}
std::vector<VersionReport> Device::getChipVersions(bool refreshComponents) {
if(refreshComponents) {
refreshComponentVersions();
}
std::vector<VersionReport> chipVersions;
if (supportsComponentVersions()) {
const auto& compVersions = getComponentVersions();
auto disectVersion = [](uint32_t dotVersion) {
std::array<uint8_t, 4> result = {0,0,0,0};
size_t i = 0;
if(dotVersion & 0xFF000000ul) {
result[i++] = (uint8_t)((dotVersion & 0xFF000000ul) >> 24);
result[i++] = (uint8_t)((dotVersion & 0x00FF0000ul) >> 16);
} else if(dotVersion & 0x00FF0000ul) {
result[i++] = (uint8_t)((dotVersion & 0x00FF0000ul) >> 16);
}
result[i++] = (uint8_t)((dotVersion & 0x0000FF00ul) >> 8);
result[i] = (uint8_t)((dotVersion & 0x000000FFul) >> 0);
return result;
};
for(const auto& chipInfo : getChipInfo()) {
for(const auto& component : compVersions) {
if(component.identifier == (uint32_t)chipInfo.id) {
chipVersions.emplace_back();
auto& version = chipVersions.back();
auto disectedVersion = disectVersion(component.dotVersion);
version.id = chipInfo.id;
version.name = chipInfo.name;
version.major = disectedVersion[0];
version.minor = disectedVersion[1];
version.maintenance = disectedVersion[2];
version.build = disectedVersion[3];
}
}
}
} else {
const auto& appVersions = getVersions();
for(const auto& chipInfo : getChipInfo()) {
if(!chipInfo.defaultEnabled) {
continue;
}
if(appVersions.size() <= chipInfo.versionIndex) {
continue;
}
const auto& appVer = appVersions[chipInfo.versionIndex];
if(!appVer) {
continue;
}
chipVersions.emplace_back();
auto& version = chipVersions.back();
version.id = chipInfo.id;
version.name = chipInfo.name;
version.major = appVer->major;
version.minor = appVer->minor;
version.maintenance = 0;
version.build = 0;
}
}
return chipVersions;
}
bool Device::open(OpenFlags flags, OpenStatusHandler handler) {
if(!com) {
report(APIEvent::Type::Unknown, APIEvent::Severity::Error);

117
include/icsneo/device/bootloaderpipeline.h 100644
View File

@ -0,0 +1,117 @@
#ifndef __BOOTLOADER_PIPELINE_H_
#define __BOOTLOADER_PIPELINE_H_
#ifdef __cplusplus
#include "icsneo/device/chipid.h"
#include <vector>
#include <memory>
#include <variant>
#include <utility>
namespace icsneo {
enum class BootloaderCommunication {
RAD,
RED,
REDCore,
RADGalaxy2Peripheral,
RADMultiChip,
Application,
Invalid
};
struct BootloaderPhase {
enum class Type {
Flash,
Finalize,
Reconnect,
EnterBootloader,
Wait
};
virtual Type getType() const = 0;
virtual ~BootloaderPhase() = default;
};
struct ReconnectPhase : public BootloaderPhase {
Type getType() const override {
return Type::Reconnect;
}
ReconnectPhase() = default;
};
struct FinalizePhase : public BootloaderPhase {
Type getType() const override {
return Type::Finalize;
}
ChipID chip;
BootloaderCommunication comm;
FinalizePhase(ChipID chip, BootloaderCommunication comm) : chip(chip), comm(comm) {}
};
struct WaitPhase : public BootloaderPhase {
Type getType() const override {
return Type::Wait;
}
std::chrono::milliseconds timeout;
WaitPhase(std::chrono::milliseconds timeout) : timeout(timeout) {}
};
struct EnterBootloaderPhase : public BootloaderPhase {
Type getType() const override {
return Type::EnterBootloader;
}
};
struct FlashPhase : public BootloaderPhase {
Type getType() const override {
return Type::Flash;
}
ChipID chip;
BootloaderCommunication comm;
bool authenticate = true;
bool encrypt = true;
bool checkOutOfDate = true;
FlashPhase(ChipID chip, BootloaderCommunication comm, bool authenticate = true, bool encrypt = true, bool checkOutOfDate = true)
: chip(chip), comm(comm), authenticate(authenticate), encrypt(encrypt), checkOutOfDate(checkOutOfDate) {}
};
enum class BootloaderSetting {
UpdateAll
};
struct BootloaderPipeline {
std::vector<std::shared_ptr<BootloaderPhase>> phases;
std::unordered_map<BootloaderSetting, std::variant<int, bool>> settings;
template<typename Phase, typename... Args>
BootloaderPipeline& add(Args... args) {
phases.emplace_back(std::make_shared<Phase>(std::forward<Args>(args)...));
return *this;
}
BootloaderPipeline& addSetting(BootloaderSetting type, const std::variant<int, bool>& setting) {
settings.insert({type, setting});
return *this;
}
operator bool() const {
return !phases.empty();
}
};
}
#endif // __cplusplus
#endif

139
include/icsneo/device/chipid.h 100644
View File

@ -0,0 +1,139 @@
#ifndef __CHIP_ID_H_
#define __CHIP_ID_H_
#ifdef __cplusplus
#include <cstdint>
namespace icsneo {
enum class ChipID : uint8_t {
neoVIFIRE_MCHIP = 0,
neoVIFIRE_LCHIP = 1,
neoVIFIRE_UCHIP = 2,
neoVIFIRE_JCHIP = 3,
ValueCAN3_MCHIP = 4,
neoVIECU_MPIC = 6,
neoVIIEVB_MPIC = 7,
neoVIPENDANT_MPIC = 8,
neoVIFIRE_VNET_MCHIP = 9,
neoVIFIRE_VNET_LCHIP = 10,
neoVIPLASMA_Core = 11,
neoVIPLASMA_HID = 12,
neoVIANALOG_MPIC = 13,
neoVIPLASMA_ANALOG_Core = 14,
neoVIPLASMA_FlexRay_Core = 15,
neoVIPLASMA_Core_1_12 = 16,
neoVIFIRE_Slave_VNET_MCHIP = 17,
neoVIFIRE_Slave_VNET_LCHIP = 18,
neoVIION_Core = 19,
neoVIION_HID = 20,
neoVIION_Core_Loader = 21,
neoVIION_HID_Loader = 22,
neoVIION_FPGA_BIT = 23,
neoVIFIRE_VNET_EP_MCHIP = 24,
neoVIFIRE_VNET_EP_LCHIP = 25,
neoVIAnalogOut_MCHIP = 26,
neoVIMOST25_MCHIP = 27,
neoVIMOST50_MCHIP = 28,
neoVIMOST150_MCHIP = 29,
ValueCAN4_4_MCHIP = 30,
ValueCAN4_4_SCHIP = 31,
cmProbe_ZYNQ = 33,
EEVB_STM32 = 34,
neoVIFIRE_Slave_VNET_EP_MCHIP = 35,
neoVIFIRE_Slave_VNET_EP_LCHIP = 36,
RADStar_MCHIP = 37,
ValueCANrf_MCHIP = 38,
neoVIFIRE2_MCHIP = 39,
neoVIFIRE2_CCHIP = 40,
neoVIFIRE2_Core = 41,
neoVIFIRE2_BLECHIP = 42,
neoVIFIRE2_ZYNQ = 43, // FIRE2 MVNET Z - Zynq
neoVIFIRE2_SECURITYCHIP = 44,
RADGalaxy_ZYNQ = 45,
neoVIFIRE2_VNET_MCHIP = 46,
neoVIFIRE2_Slave_VNET_A_MCHIP = 47,
neoVIFIRE2_Slave_VNET_A_CCHIP = 48,
neoVIFIRE2_VNET_CCHIP = 49,
neoVIFIRE2_VNET_Core = 50,
RADStar2_ZYNQ = 51,
VividCAN_MCHIP = 52,
neoOBD2SIM_MCHIP = 53,
neoVIFIRE2_VNETZ_MCHIP = 54,
neoVIFIRE2_VNETZ_ZYNQ = 55,
neoVIFIRE2_Slave_VNETZ_A_MCHIP = 56,
neoVIFIRE2_Slave_VNETZ_A_ZYNQ = 57,
VividCAN_EXT_FLASH = 58,
VividCAN_NRF52 = 59,
cmProbe_ZYNQ_Unused = 60, // Double defined
neoOBD2PRO_MCHIP = 61,
ValueCAN4_1_MCHIP = 62,
ValueCAN4_2_MCHIP = 63,
ValueCAN4_4_2EL_Core = 64,
neoOBD2PRO_SCHIP = 65,
ValueCAN4_2EL_MCHIP = 67,
neoECUAVBTSN_MCHIP = 68,
neoOBD2PRO_Core = 69,
RADSupermoon_ZYNQ = 70,
RADMoon2_ZYNQ = 71,
VividCANPRO_MCHIP = 72,
VividCANPRO_EXT_FLASH = 73,
RADPluto_MCHIP = 74,
RADMars_ZYNQ = 75,
neoECU12_MCHIP = 76,
RADIOCANHUB_MCHIP = 77,
FlexRay_VNETZ_ZCHIP = 78,
neoOBD2_LCBADGE_MCHIP = 79,
neoOBD2_LCBADGE_SCHIP = 80,
RADMoonDuo_MCHIP = 81,
neoVIFIRE3_ZCHIP = 82,
FlexRay_VNETZ_FCHIP = 83,
RADJupiter_MCHIP = 84,
ValueCAN4Industrial_MCHIP = 85,
EtherBADGE_MCHIP = 86,
RADMars_3_ZYNQ = 87,
RADGigastar_USBZ_ZYNQ = 88,
RADGigastar_ZYNQ = 89,
RAD4G_MCHIP = 90,
neoVIFIRE3_SCHIP = 91,
RADEpsilon_MCHIP = 92,
RADA2B_ZCHIP = 93,
neoOBD2Dev_MCHIP = 94,
neoOBD2Dev_SCHIP = 95,
neoOBD2SIMDoIP_MCHIP = 96,
SFPModule_MCHIP = 97,
RADEpsilonT_MCHIP = 98,
RADEpsilonExpress_MCHIP = 99,
RADProxima_MCHIP = 100,
NewDevice57_ZCHIP = 101,
RAD_GALAXY_2_ZMPCHIP_ID = 102,
NewDevice59_MCHIP = 103,
RADMoon2_Z7010_ZYNQ = 104,
neoVIFIRE2_CORE_SG4 = 105,
RADBMS_MCHIP = 106,
RADMoon2_ZL_MCHIP = 107,
RADGigastar_USBZ_Z7010_ZYNQ = 108,
neoVIFIRE3_LINUX = 109,
RADGigastar_USBZ_Z7007S_ZYNQ = 110,
VEM_01_8DW_ZCHIP = 111,
RADGalaxy_FFG_Zynq = 112,
RADMoon3_MCHIP = 113,
RADComet_ZYNQ = 114,
VEM_02_FR_ZCHIP = 115,
RADA2B_REVB_ZCHIP = 116,
RADGigastar_FFG_ZYNQ = 117,
VEM_02_FR_FCHIP = 118,
Connect_ZCHIP = 121,
RADGALAXY2_SYSMON_CHIP = 123,
RADCOMET3_ZCHIP = 125,
Connect_LINUX = 126,
RADGigastar2_ZYNQ = 131,
Invalid = 255
};
}
#endif // __cplusplus
#endif

59
include/icsneo/device/chipinfo.h 100644
View File

@ -0,0 +1,59 @@
#ifndef __CHIP_INFO_H_
#define __CHIP_INFO_H_
#ifdef __cplusplus
#include "icsneo/device/chipid.h"
#include <vector>
namespace icsneo {
enum class FirmwareType {
IEF,
Zip
};
struct ChipInfo {
/**
* The default enabled field is for devices which can't deduce the specific ChipID of a device
* until entering the bootloader.
*
* If defaultEnabled is set to true, the bootloader and version retrieval functions assume that
* the chip is enabled, so it will perform version deduction based on the default enabled chip. If
* defaultEnabled is set to false, then this chip info may or may not apply to this device
*
* Example: RADA2B RevA and RevB chips
*
* Sometimes we can't deduce whether we have a RevA or RevB chip before entering the bootloader if the
* device does not support component versions. These chips track the same version, so we assume that the
* chip is RevA (RevA defaultEnabled=true, RevB defaultEnabled=false) and check during the bootloader
* if this chip is RevA or RevB.
*/
ChipID id;
bool defaultEnabled = false;
const char* name = nullptr; // Chip user displayable name
const char* iefName = nullptr; // IEF name for a single segment chip (example RADA2B ZCHIP)
size_t versionIndex = 0; // Main and Secondary version index
FirmwareType fwType; // Firmwaare storagae type
std::vector<const char*> iefSegments; // IEF names for a multi segment chip (example RADGalaxy2 ZCHIP)
ChipInfo() = default;
ChipInfo(ChipID id, bool defaultEnabled, const char* name, const char* iefName, size_t versionIndex, FirmwareType fwType)
: id(id), defaultEnabled(defaultEnabled), name(name), iefName(iefName), versionIndex(versionIndex), fwType(fwType) {}
ChipInfo(ChipID id, bool defaultEnabled, const char* name, const char* iefName, const std::vector<const char*>& iefSegments, size_t versionIndex, FirmwareType fwType)
: id(id), defaultEnabled(defaultEnabled), name(name), iefName(iefName), versionIndex(versionIndex), fwType(fwType), iefSegments(iefSegments) {}
bool isMultiIEF() const {
return !iefSegments.empty();
}
};
}
#endif // __cplusplus
#endif

79
include/icsneo/device/device.h
View File

@ -24,6 +24,9 @@
#include "icsneo/device/deviceversion.h"
#include "icsneo/device/founddevice.h"
#include "icsneo/device/coremini.h"
#include "icsneo/device/bootloaderpipeline.h"
#include "icsneo/device/chipinfo.h"
#include "icsneo/device/versionreport.h"
#include "icsneo/disk/diskreaddriver.h"
#include "icsneo/disk/diskwritedriver.h"
#include "icsneo/disk/nulldiskdriver.h"
@ -86,6 +89,77 @@ class Device {
public:
virtual ~Device();
enum class ProductID : uint8_t {
neoVIRED = 0,
neoVIFIRE = 1,
ValueCAN3 = 2,
VividCANPro = 3, // Previously neoVI Yellow
neoECU = 4,
IEVB = 5,
Pendant = 6,
neoAnalog = 7,
neoECU12 = 8,
neoVIPLASMA = 10,
neoVIION = 11,
ValueCAN4_2EL_4 = 12,
cmProbe = 14,
EEVB = 15,
RADStar = 16,
ValueCANrf = 17,
neoVIFIRE2 = 18,
RADGalaxy = 19,
RADStar2 = 20,
VividCAN = 21,
neoOBD2Sim = 22,
neoOBD2Pro = 23,
ValueCAN4_1_2 = 24,
neoECUAVBTSN = 25,
RADSupermoon = 26,
RADMoon2 = 27,
RADPluto = 28,
RADMars = 29,
RADIOCANHUB = 30,
neoOBD2LCBadge = 31,
RADMoonDuo = 32,
neoVIFIRE3 = 33,
RADJupiter = 34,
ValueCAN4Industrial = 35,
RADGigastar = 36,
VividCANProUnused = 37, // The VividCAN Pro was double allocated
EtherBADGE = 38,
RADEpsilon = 39,
RADA2B = 40,
SFPModule = 41,
RADGalaxy2 = 47,
RADMoon3 = 49,
RADComet = 50,
Connect = 51,
RADComet3 = 54,
RADMoonT1S = 56,
RADGigastar2 = 57
};
virtual ProductID getProductID() const = 0;
/**
* Returns information for all potential chips, note some chips
* might not apply to a specific device depending on different
* hardware versions
*/
virtual const std::vector<ChipInfo>& getChipInfo() const {
static std::vector<ChipInfo> placeHolder;
return placeHolder; // TODO: Make pure virtual maybe?
}
/**
* Returns bootloader instructions
*/
virtual BootloaderPipeline getBootloader() {
return {};
}
bool hasBootloader() { return !!getBootloader(); }
static std::string SerialNumToString(uint32_t serial);
static uint32_t SerialStringToNum(const std::string& serial);
static bool SerialStringIsNumeric(const std::string& serial);
@ -586,11 +660,14 @@ public:
bool refreshComponentVersions();
/**
* For use by extensions only. A more stable API will be provided in the future.
* For use by extensions only.
*/
const std::vector<std::optional<DeviceAppVersion>>& getVersions() const { return versions; }
const std::vector<ComponentVersion>& getComponentVersions() const { return componentVersions; }
virtual std::vector<VersionReport> getChipVersions(bool refreshComponents = true);
/**
* Some alternate communication protocols do not support DFU
*/

4
include/icsneo/device/tree/etherbadge/etherbadge.h
View File

@ -26,6 +26,10 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::EtherBADGE;
}
protected:
EtherBADGE(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<EtherBADGESettings>(makeDriver);

4
include/icsneo/device/tree/neoobd2pro/neoobd2pro.h
View File

@ -22,6 +22,10 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::neoOBD2Pro;
}
private:
NeoOBD2PRO(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize(makeDriver);

3
include/icsneo/device/tree/neoobd2sim/neoobd2sim.h
View File

@ -22,6 +22,9 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::neoOBD2Sim;
}
private:
NeoOBD2SIM(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize(makeDriver);

22
include/icsneo/device/tree/neoviconnect/neoviconnect.h
View File

@ -34,6 +34,28 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::Connect;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::Connect_ZCHIP, true, "ZCHIP", "neovi_connect_zchip_ief", 0, FirmwareType::IEF},
{ChipID::Connect_LINUX, true, "Linux Flash", "neovi_connect_lnx_flash_ief", 1, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::Connect_ZCHIP, BootloaderCommunication::Application, true, false, false)
.add<FlashPhase>(ChipID::Connect_LINUX, BootloaderCommunication::Application, false, false, false)
.add<FinalizePhase>(ChipID::Connect_ZCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::Connect_LINUX, BootloaderCommunication::Application)
.add<ReconnectPhase>()
.addSetting(BootloaderSetting::UpdateAll, true);
}
protected:
NeoVIConnect(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIConnectSettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

3
include/icsneo/device/tree/neovifire/neovifire.h
View File

@ -57,6 +57,9 @@ public:
return true;
}
ProductID getProductID() const override {
return ProductID::neoVIFIRE;
}
private:
NeoVIFIRE(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIFIRESettings>(makeDriver);

22
include/icsneo/device/tree/neovifire2/neovifire2.h
View File

@ -87,6 +87,28 @@ public:
};
}
ProductID getProductID() const override {
return ProductID::neoVIFIRE2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::neoVIFIRE2_MCHIP, true, "MCHIP", "fire2_mchip_ief", 0, FirmwareType::IEF},
{ChipID::neoVIFIRE2_ZYNQ, true, "ZCHIP", "fire2_zchip_ief", 1, FirmwareType::IEF},
{ChipID::neoVIFIRE2_Core, true, "Core", "fire2_core", 2, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::neoVIFIRE2_MCHIP, BootloaderCommunication::RED)
.add<FlashPhase>(ChipID::neoVIFIRE2_ZYNQ, BootloaderCommunication::RED, false, true)
.add<FlashPhase>(ChipID::neoVIFIRE2_Core, BootloaderCommunication::REDCore, false, false)
.add<ReconnectPhase>();
}
protected:
NeoVIFIRE2(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIFIRE2Settings, Disk::NeoMemoryDiskDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

28
include/icsneo/device/tree/neovifire3/neovifire3.h
View File

@ -50,6 +50,34 @@ public:
return supportedNetworks;
}
size_t getEthernetActivationLineCount() const override { return 2; }
ProductID getProductID() const override {
return ProductID::neoVIFIRE3;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> 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<FlashPhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application, true, false)
.add<FlashPhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application, false, true)
.add<FlashPhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application, false, false, false)
.add<FlashPhase>(ChipID::VEM_01_8DW_ZCHIP, BootloaderCommunication::Application, false, false)
.add<FinalizePhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::VEM_01_8DW_ZCHIP, BootloaderCommunication::Application)
.add<ReconnectPhase>()
.addSetting(BootloaderSetting::UpdateAll, true);
}
protected:
NeoVIFIRE3(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIFIRE3Settings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

30
include/icsneo/device/tree/neovifire3flexray/neovifire3flexray.h
View File

@ -53,6 +53,36 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::neoVIFIRE3;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> 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_02_FR_ZCHIP, true, "VEM-02-Z", "vem_02_fr_zchip_ief", 3, FirmwareType::IEF},
{ChipID::VEM_02_FR_FCHIP, true, "VEM-02-F", "vem_02_fr_fchip_ief", 4, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application, true, false)
.add<FlashPhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application, false, true)
.add<FlashPhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application, false, false, false)
.add<FlashPhase>(ChipID::VEM_02_FR_FCHIP, BootloaderCommunication::Application, false, false)
.add<FlashPhase>(ChipID::VEM_02_FR_ZCHIP, BootloaderCommunication::Application, false, false)
.add<FinalizePhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::VEM_02_FR_FCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::VEM_02_FR_ZCHIP, BootloaderCommunication::Application)
.add<ReconnectPhase>()
.addSetting(BootloaderSetting::UpdateAll, true);
}
protected:
NeoVIFIRE3FlexRay(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIFIRE3FlexRaySettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

3
include/icsneo/device/tree/neovifire3t1slin/neovifire3t1slin.h
View File

@ -59,6 +59,9 @@ public:
bool supportsTC10() const override { return true; }
ProductID getProductID() const override {
return ProductID::neoVIFIRE3;
}
protected:
NeoVIFIRE3T1SLIN(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIFIRE3T1SLINSettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

24
include/icsneo/device/tree/neovired2/neovired2.h
View File

@ -37,6 +37,30 @@ public:
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::neoVIFIRE3;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> 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}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application, true, false)
.add<FlashPhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application, false, true)
.add<FlashPhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application, false, false, false)
.add<FinalizePhase>(ChipID::neoVIFIRE3_ZCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_SCHIP, BootloaderCommunication::Application)
.add<FinalizePhase>(ChipID::neoVIFIRE3_LINUX, BootloaderCommunication::Application)
.add<ReconnectPhase>()
.addSetting(BootloaderSetting::UpdateAll, true);
}
protected:
NeoVIRED2(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<NeoVIRED2Settings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

3
include/icsneo/device/tree/plasion/neoviion.h
View File

@ -15,6 +15,9 @@ public:
// USB PID is 0x0901, standard driver is DXX
ICSNEO_FINDABLE_DEVICE(NeoVIION, DeviceType::ION, "40");
ProductID getProductID() const override {
return ProductID::neoVIION;
}
private:
NeoVIION(neodevice_t neodevice, const driver_factory_t& makeDriver) : Plasion(neodevice) {
initialize<NullSettings, Disk::PlasionDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

3
include/icsneo/device/tree/plasion/neoviplasma.h
View File

@ -13,6 +13,9 @@ public:
// USB PID is 0x0801, standard driver is DXX
ICSNEO_FINDABLE_DEVICE(NeoVIPLASMA, DeviceType::PLASMA, "30");
ProductID getProductID() const override {
return ProductID::neoVIPLASMA;
}
private:
NeoVIPLASMA(neodevice_t neodevice, const driver_factory_t& makeDriver) : Plasion(neodevice) {
initialize<NullSettings, Disk::PlasionDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

21
include/icsneo/device/tree/rada2b/rada2b.h
View File

@ -42,11 +42,32 @@ public:
size_t getEthernetActivationLineCount() const override { return 1; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADA2B;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADA2B_ZCHIP, true, "ZCHIP", "RADA2B_SW_bin", 0, FirmwareType::Zip},
{ChipID::RADA2B_REVB_ZCHIP, false, "ZCHIP", "RADA2B_REVB_SW_bin", 0, FirmwareType::Zip}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADA2B_ZCHIP, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADA2B(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADA2BSettings, Disk::NeoMemoryDiskDriver, Disk::NeoMemoryDiskDriver>(makeDriver);
}
void setupPacketizer(Packetizer& packetizer) override {
Device::setupPacketizer(packetizer);
packetizer.disableChecksum = true;

19
include/icsneo/device/tree/radcomet/radcometbase.h
View File

@ -30,6 +30,25 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADComet;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADComet_ZYNQ, true, "ZCHIP", "RADComet_SW_bin", 0, FirmwareType::Zip},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADComet_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
using Device::Device;

19
include/icsneo/device/tree/radcomet3/radcomet3.h
View File

@ -54,6 +54,25 @@ public:
bool supportsTC10() const override { return true; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADComet3;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADCOMET3_ZCHIP, true, "ZCHIP", "RADComet3_SW_bin", 0, FirmwareType::Zip},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADCOMET3_ZCHIP, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADComet3(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADComet3Settings>(makeDriver);

18
include/icsneo/device/tree/radepsilon/radepsilon.h
View File

@ -29,6 +29,24 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADEpsilon;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADEpsilon_MCHIP, true, "MCHIP", "epsilon_mchip_ief", 0, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADEpsilon_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>();
}
protected:
RADEpsilon(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADEpsilonSettings, Disk::NeoMemoryDiskDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

21
include/icsneo/device/tree/radepsilonxl/radepsilonxl.h
View File

@ -28,6 +28,23 @@ public:
bool supportsComponentVersions() const override { return true; }
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADEpsilon;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADProxima_MCHIP, true, "MCHIP", "epsilon_mchip_ief", 0, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADProxima_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>();
}
protected:
RADEpsilonXL(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
@ -58,6 +75,10 @@ protected:
bool supportsEraseMemory() const override {
return true;
}
size_t getDiskCount() const override {
return 1;
}
};
}; // namespace icsneo

20
include/icsneo/device/tree/radgalaxy/radgalaxy.h
View File

@ -63,6 +63,26 @@ public:
size_t getEthernetActivationLineCount() const override { return 1; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADGalaxy;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADGalaxy_ZYNQ, true, "ZCHIP", "RADGalaxy_SG2_SW_bin", 0, FirmwareType::Zip},
{ChipID::RADGalaxy_FFG_Zynq, false, "ZCHIP", "RADGalaxy_SG2_FFG_SW_bin", 0, FirmwareType::Zip}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADGalaxy_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADGalaxy(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADGalaxySettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

22
include/icsneo/device/tree/radgalaxy2/radgalaxy2.h
View File

@ -67,6 +67,28 @@ public:
bool supportsTC10() const override { return true; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADGalaxy2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RAD_GALAXY_2_ZMPCHIP_ID, true, "ZCHIP", "RADGalaxy2_SW_bin_p1", {"RADGalaxy2_SW_bin_p1", "RADGalaxy2_SW_bin_p2"}, 0, FirmwareType::Zip},
{ChipID::RADGALAXY2_SYSMON_CHIP, true, "MCHIP", "galaxy2_sysmon_ief", 1, FirmwareType::IEF}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RAD_GALAXY_2_ZMPCHIP_ID, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<FlashPhase>(ChipID::RADGALAXY2_SYSMON_CHIP, BootloaderCommunication::RADGalaxy2Peripheral)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADGalaxy2(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADGalaxy2Settings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

82
include/icsneo/device/tree/radgigastar/radgigastar.h
View File

@ -24,6 +24,88 @@ public:
bool supportsTC10() const override { return true; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADGigastar;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADGigastar_ZYNQ, true, "ZCHIP", "RADGigastar2_T1S_LIN_SW_bin", 1, FirmwareType::Zip},
{ChipID::RADGigastar_FFG_ZYNQ, false, "ZCHIP", "RADGigastar_FFG_SW_bin", 1, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_ZYNQ, true, "USB ZCHIP", "RADGigastar_USBz_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7010_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7010_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7007S_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7007s_SW_bin", 2, FirmwareType::Zip},
};
return chips;
}
BootloaderPipeline getBootloader() override {
if(supportsComponentVersions()) {
auto chipVersions = getChipVersions();
auto mainVersion = std::find_if(chipVersions.begin(), chipVersions.end(), [](const auto& ver) { return ver.name == "ZCHIP"; });
if(mainVersion != chipVersions.end()) {
static constexpr uint8_t NewBootloaderMajor = 0;
static constexpr uint8_t NewBootloaderMinor = 0;
if(
mainVersion->major > NewBootloaderMajor ||
(mainVersion->major == NewBootloaderMajor && mainVersion->minor > NewBootloaderMinor)
) {
BootloaderPipeline pipeline;
for(const auto& version : chipVersions) {
pipeline.add<FlashPhase>(version.id, BootloaderCommunication::RADMultiChip);
}
pipeline.add<ReconnectPhase>();
pipeline.add<WaitPhase>(std::chrono::milliseconds(3000));
return pipeline;
}
}
}
// If we've reached this point, then we use the legacy flashing
if(com->driver->isEthernet()) {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar_USBZ_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
std::vector<VersionReport> getChipVersions(bool refreshComponents = true) override {
if(refreshComponents) {
refreshComponentVersions();
}
if(supportsComponentVersions()) {
return Device::getChipVersions(false);
}
static constexpr size_t MainPeriphIndex = 1;
static constexpr size_t USBPeriphIndex = 2;
std::vector<VersionReport> chipVersions;
auto& appVersions = getVersions();
if(appVersions.size() < 3 && !appVersions.empty()) {
if(appVersions[0]) {
chipVersions.push_back({ChipID::RADGigastar_ZYNQ, "ZCHIP", appVersions[0]->major, appVersions[0]->minor, 0, 0});
}
} else {
if(MainPeriphIndex < appVersions.size()) {
if(appVersions[MainPeriphIndex]) {
chipVersions.push_back({ChipID::RADGigastar_ZYNQ, "ZCHIP", appVersions[MainPeriphIndex]->major, appVersions[MainPeriphIndex]->minor, 0, 0});
}
}
if(USBPeriphIndex < appVersions.size()) {
if(appVersions[USBPeriphIndex]) {
chipVersions.push_back({ChipID::RADGigastar_USBZ_ZYNQ, "USB ZCHIP", appVersions[USBPeriphIndex]->major, appVersions[USBPeriphIndex]->minor, 0, 0});
}
}
}
return chipVersions;
}
protected:
RADGigastar(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADGigastarSettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

131
include/icsneo/device/tree/radgigastar2/radgigastar2.h
View File

@ -12,9 +12,14 @@
namespace icsneo
{
class RADGigastar2 : public Device
{
public:
class RADGigastar2 : public Device {
public:
enum class FirmwareVariant {
T1Sx6_CANx1_LINx16,
T1Sx8_CANx4_LINx6,
Invalid
};
// Serial numbers start with GT
// USB PID is 0x1210, standard driver is DXX
// Ethernet MAC allocation is 0x22, standard driver is Raw
@ -84,7 +89,123 @@ namespace icsneo
bool supportsTC10() const override { return true; }
bool supportsGPTP() const override { return true; }
protected:
ProductID getProductID() const override {
return ProductID::RADGigastar2;
}
FirmwareVariant variantToFlash = FirmwareVariant::Invalid;
void setVariantToFlash(FirmwareVariant variant) {
variantToFlash = variant;
}
FirmwareVariant getCurrentVariant() {
if(supportsComponentVersions()) {
const auto& components = getComponentVersions();
for(const auto& component : components) {
if(!component.valid) {
continue;
}
if(component.identifier == static_cast<uint32_t>(ChipID::RADGigastar2_ZYNQ)) {
auto res = static_cast<FirmwareVariant>(std::clamp<uint8_t>(component.componentInfo, 0, 2));
if(variantToFlash == FirmwareVariant::Invalid) {
variantToFlash = res; // Set the variantToFlash if it hasn't been set yet, we always flash the same firmware variant as the current if it is unspecified
}
return res;
}
}
}
return FirmwareVariant::Invalid;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> linChips = {
{ChipID::RADGigastar2_ZYNQ, true, "ZCHIP", "RADGigastar2_T1S_LIN_SW_bin", 1, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_ZYNQ, true, "USB ZCHIP", "RADGigastar_USBz_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7010_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7010_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7007S_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7007s_SW_bin", 2, FirmwareType::Zip},
};
static std::vector<ChipInfo> t1sChips = {
{ChipID::RADGigastar2_ZYNQ, true, "ZCHIP", "RADGigastar2_T1S_CAN_SW_bin", 1, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_ZYNQ, true, "USB ZCHIP", "RADGigastar_USBz_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7010_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7010_SW_bin", 2, FirmwareType::Zip},
{ChipID::RADGigastar_USBZ_Z7007S_ZYNQ, false, "USB ZCHIP", "RADGigastar_USBz_Z7007s_SW_bin", 2, FirmwareType::Zip},
};
if(variantToFlash == FirmwareVariant::T1Sx8_CANx4_LINx6) {
return t1sChips;
}
return linChips; // Assume linChips even if variantToFlash is invalid
}
BootloaderPipeline getBootloader() override {
if(supportsComponentVersions()) {
auto chipVersions = getChipVersions();
auto mainVersion = std::find_if(chipVersions.begin(), chipVersions.end(), [](const auto& ver) { return ver.name == "ZCHIP"; });
if(mainVersion != chipVersions.end()) {
static constexpr uint8_t NewBootloaderMajor = 0;
static constexpr uint8_t NewBootloaderMinor = 0;
if(
mainVersion->major > NewBootloaderMajor ||
(mainVersion->major == NewBootloaderMajor && mainVersion->minor > NewBootloaderMinor)
) {
BootloaderPipeline pipeline;
for(const auto& version : chipVersions) {
pipeline.add<FlashPhase>(version.id, BootloaderCommunication::RADMultiChip);
}
pipeline.add<ReconnectPhase>();
pipeline.add<WaitPhase>(std::chrono::milliseconds(3000));
return pipeline;
}
}
}
// If we've reached this point, then we use the legacy flashing
if(com->driver->isEthernet()) {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar2_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar_USBZ_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
std::vector<VersionReport> getChipVersions(bool refreshComponents = true) override {
if(refreshComponents) {
refreshComponentVersions();
}
if(supportsComponentVersions()) {
return Device::getChipVersions(false);
}
static constexpr size_t MainPeriphIndex = 1;
static constexpr size_t USBPeriphIndex = 2;
std::vector<VersionReport> chipVersions;
auto& appVersions = getVersions();
if(appVersions.size() < 3 && !appVersions.empty()) {
if(appVersions[0]) {
chipVersions.push_back({ChipID::RADGigastar2_ZYNQ, "ZCHIP", appVersions[0]->major, appVersions[0]->minor, 0, 0});
}
} else {
if(MainPeriphIndex < appVersions.size()) {
if(appVersions[MainPeriphIndex]) {
chipVersions.push_back({ChipID::RADGigastar2_ZYNQ, "ZCHIP", appVersions[MainPeriphIndex]->major, appVersions[MainPeriphIndex]->minor, 0, 0});
}
}
if(USBPeriphIndex < appVersions.size()) {
if(appVersions[USBPeriphIndex]) {
chipVersions.push_back({ChipID::RADGigastar_USBZ_ZYNQ, "USB ZCHIP", appVersions[USBPeriphIndex]->major, appVersions[USBPeriphIndex]->minor, 0, 0});
}
}
}
return chipVersions;
}
protected:
RADGigastar2(neodevice_t neodevice, const driver_factory_t &makeDriver) : Device(neodevice)
{
initialize<RADGigastar2Settings>(makeDriver);
@ -142,7 +263,7 @@ namespace icsneo
{
return 1;
}
};
};
}

4
include/icsneo/device/tree/radjupiter/radjupiter.h
View File

@ -29,6 +29,10 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADJupiter;
}
protected:
RADJupiter(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADJupiterSettings>(makeDriver);

3
include/icsneo/device/tree/radmars/radmars.h
View File

@ -21,6 +21,9 @@ public:
size_t getEthernetActivationLineCount() const override { return 1; }
bool supportsGPTP() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADMars;
}
protected:
RADMars(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADMarsSettings, Disk::ExtExtractorDiskReadDriver, Disk::NeoMemoryDiskDriver>(makeDriver);

20
include/icsneo/device/tree/radmoon2/radmoon2.h
View File

@ -16,6 +16,26 @@ public:
uint8_t getPhyAddrOrPort() const override { return 6; };
ProductID getProductID() const override {
return ProductID::RADMoon2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADMoon2_ZYNQ, true, "ZCHIP", "RADMoon2_SW_bin", 0, FirmwareType::Zip},
{ChipID::RADMoon2_Z7010_ZYNQ, false, "ZCHIP", "RADMoon2_Z7010_SW_bin", 0, FirmwareType::Zip}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADMoon2_ZYNQ, BootloaderCommunication::RAD)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADMoon2(neodevice_t neodevice, const driver_factory_t& makeDriver) : RADMoon2Base(neodevice) {
initialize<RADMoon2Settings>(makeDriver);

17
include/icsneo/device/tree/radmoon2/radmoon2zl.h
View File

@ -18,6 +18,23 @@ public:
bool supportsTC10() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADMoon2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADMoon2_ZL_MCHIP, true, "MCHIP", "radmoon2_zl_mchip_ief", 0, FirmwareType::IEF}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADMoon2_ZL_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>();
}
protected:
RADMoon2ZL(neodevice_t neodevice, const driver_factory_t& makeDriver) : RADMoon2Base(neodevice) {
initialize<RADMoon2Settings>(makeDriver);

18
include/icsneo/device/tree/radmoon3/radmoon3.h
View File

@ -30,6 +30,24 @@ public:
bool supportsTC10() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADMoon3;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::RADMoon3_MCHIP, true, "MCHIP", "radmoon3_mchip_ief", 0, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADMoon3_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
RADMoon3(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADMoon3Settings>(makeDriver);

4
include/icsneo/device/tree/radmoonduo/radmoonduo.h
View File

@ -25,6 +25,10 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADMoonDuo;
}
protected:
RADMoonDuo(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADMoonDuoSettings>(makeDriver);

3
include/icsneo/device/tree/radmoont1s/radmoont1s.h
View File

@ -34,6 +34,9 @@ public:
bool supportsTC10() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADMoonT1S;
}
protected:
RADMoonT1S(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADMoonT1SSettings>(makeDriver);

3
include/icsneo/device/tree/radpluto/radpluto.h
View File

@ -34,6 +34,9 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADPluto;
}
protected:
RADPluto(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADPlutoSettings>(makeDriver);

3
include/icsneo/device/tree/radstar2/radstar2.h
View File

@ -32,6 +32,9 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::RADStar2;
}
protected:
RADStar2(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADStar2Settings>(makeDriver);

3
include/icsneo/device/tree/radsupermoon/radsupermoon.h
View File

@ -50,6 +50,9 @@ public:
bool getEthPhyRegControlSupported() const override { return true; }
ProductID getProductID() const override {
return ProductID::RADSupermoon;
}
protected:
RADSupermoon(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<RADSupermoonSettings>(makeDriver);

3
include/icsneo/device/tree/valuecan3/valuecan3.h
View File

@ -22,6 +22,9 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::ValueCAN3;
}
private:
ValueCAN3(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<ValueCAN3Settings>(makeDriver);

18
include/icsneo/device/tree/valuecan4/valuecan4-1.h
View File

@ -21,6 +21,24 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::ValueCAN4_1_2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::ValueCAN4_1_MCHIP, true, "MCHIP", "vcan41_mchip_ief", 0, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::ValueCAN4_1_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>();
}
protected:
ValueCAN4_1(neodevice_t neodevice, const driver_factory_t& makeDriver) : ValueCAN4(neodevice) {
initialize<ValueCAN4_1Settings>(makeDriver);

19
include/icsneo/device/tree/valuecan4/valuecan4-2.h
View File

@ -46,6 +46,25 @@ public:
return Device::getProductName();
}
ProductID getProductID() const override {
return ProductID::ValueCAN4_1_2;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::ValueCAN4_2_MCHIP, true, "MCHIP", "vcan42_mchip_ief", 0, FirmwareType::IEF},
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::ValueCAN4_2_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:
ValueCAN4_2(neodevice_t neodevice, const driver_factory_t& makeDriver) : ValueCAN4(neodevice) {
initialize<ValueCAN4_2Settings>(makeDriver);

19
include/icsneo/device/tree/valuecan4/valuecan4-2el.h
View File

@ -60,6 +60,25 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::ValueCAN4_2EL_4;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::ValueCAN4_2EL_MCHIP, true, "MCHIP", "vcan44_mchip_ief", 0, FirmwareType::IEF}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::ValueCAN4_2EL_MCHIP, BootloaderCommunication::RED)
.add<ReconnectPhase>();
}
protected:
ValueCAN4_2EL(neodevice_t neodevice, const driver_factory_t& makeDriver) : ValueCAN4(neodevice) {
initialize<ValueCAN4_2ELSettings>(makeDriver);

19
include/icsneo/device/tree/valuecan4/valuecan4-4.h
View File

@ -57,6 +57,25 @@ public:
return Device::getProductName();
}
ProductID getProductID() const override {
return ProductID::ValueCAN4_2EL_4;
}
const std::vector<ChipInfo>& getChipInfo() const override {
static std::vector<ChipInfo> chips = {
{ChipID::ValueCAN4_4_MCHIP, true, "MCHIP", "vcan44_mchip_ief", 0, FirmwareType::IEF},
{ChipID::ValueCAN4_4_SCHIP, true, "SCHIP", "vcan44_schip_ief", 1, FirmwareType::IEF}
};
return chips;
}
BootloaderPipeline getBootloader() override {
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::ValueCAN4_4_MCHIP, BootloaderCommunication::RED)
.add<FlashPhase>(ChipID::ValueCAN4_4_SCHIP, BootloaderCommunication::RED, false, true)
.add<ReconnectPhase>();
}
protected:
ValueCAN4_4(neodevice_t neodevice, const driver_factory_t& makeDriver) : ValueCAN4(neodevice) {
initialize<ValueCAN4_4Settings>(makeDriver);

3
include/icsneo/device/tree/valuecan4/valuecan4industrial.h
View File

@ -27,6 +27,9 @@ public:
return supportedNetworks;
}
ProductID getProductID() const override {
return ProductID::ValueCAN4Industrial;
}
protected:
ValueCAN4Industrial(neodevice_t neodevice, const driver_factory_t& makeDriver) : ValueCAN4(neodevice) {
initialize<ValueCAN4IndustrialSettings>(makeDriver);

4
include/icsneo/device/tree/vividcan/vividcan.h
View File

@ -28,6 +28,10 @@ public:
}
bool isOnlineSupported() const override { return false; }
ProductID getProductID() const override {
return ProductID::VividCAN;
}
protected:
VividCAN(neodevice_t neodevice, const driver_factory_t& makeDriver) : Device(neodevice) {
initialize<VividCANSettings>(makeDriver);

26
include/icsneo/device/versionreport.h 100644
View File

@ -0,0 +1,26 @@
#ifndef __VERSION_REPORT_H_
#define __VERSION_REPORT_H_
#ifdef __cplusplus
#include "icsneo/device/chipid.h"
#include <vector>
#include <string>
namespace icsneo {
struct VersionReport {
ChipID id;
std::string name;
uint8_t major;
uint8_t minor;
uint8_t maintenance;
uint8_t build;
};
}
#endif // __cplusplus
#endif