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sven:master
sven:liveDataSetValue
sven:icsneo_api
sven:ks-refactor-docs
sven:136-add-android-support
sven:add-device-sharing
sven:v0.3.0-dev
sven:checksum-failure-logging
sven:pcap
sven:1.2.2
sven:1.2.1
sven:1.2.0
sven:1.1.0
sven:1.0.0
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sven:v0.1.2
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compare: sven:0fdd55851c4d3e6ee7187603acd63367e9f19436
Branches Tags
sven:master
sven:liveDataSetValue
sven:icsneo_api
sven:ks-refactor-docs
sven:136-add-android-support
sven:add-device-sharing
sven:v0.3.0-dev
sven:checksum-failure-logging
sven:pcap
sven:1.2.2
sven:1.2.1
sven:1.2.0
sven:1.1.0
sven:1.0.0
sven:v0.2.0
sven:v0.1.2

7 Commits
8f3ad69754 ... 0fdd55851c

Author SHA1 Message Date
Francesco Valla 0fdd55851c
Merge 31d4a750d8 into 68ebb6dae4 2026-01-22 11:10:51 +00:00
Max Brombach 68ebb6dae4 Device: Add EnterApplicationPhases step 2026-01-20 14:25:29 -05:00
Jonathan Schwartz 8cb62c2cae Device: Carry bootloader version for potential compatibility checks 2026-01-12 17:45:10 -05:00
Kyle Schwarz d74051f57e Driver: Servd: Refactor to TCP 2026-01-12 13:03:55 -05:00
Thomas Stoddard 530a99d264 Add T1S PLCA and related settings support for Fire3T1S, RadComet3, RadGigaStar2, and RadMoonT1S devices 2026-01-09 18:16:10 +00:00
Thomas Stoddard 5ee450353b Bindings: Python: Add T1S members 2026-01-07 23:32:20 -05:00
Thomas Stoddard 516bca682c EthernetMessage: Add T1S symbol support 2026-01-07 16:34:34 -05:00
22 changed files with 1057 additions and 362 deletions
Show Stats Expand all files Collapse all files

11
bindings/python/icsneopy/communication/message/ethernetmessage.cpp
View File

@ -18,6 +18,17 @@ void init_ethernetmessage(pybind11::module_& m) {
.def_readwrite("fcs", &EthernetMessage::fcs)
.def_readwrite("frameTooShort", &EthernetMessage::frameTooShort)
.def_readwrite("noPadding", &EthernetMessage::noPadding)
.def_readwrite("fcsVerified", &EthernetMessage::fcsVerified)
.def_readwrite("txAborted", &EthernetMessage::txAborted)
.def_readwrite("crcError", &EthernetMessage::crcError)
.def_readwrite("isT1S", &EthernetMessage::isT1S)
.def_readwrite("isT1SSymbol", &EthernetMessage::isT1SSymbol)
.def_readwrite("isT1SBurst", &EthernetMessage::isT1SBurst)
.def_readwrite("txCollision", &EthernetMessage::txCollision)
.def_readwrite("isT1SWake", &EthernetMessage::isT1SWake)
.def_readwrite("t1sNodeId", &EthernetMessage::t1sNodeId)
.def_readwrite("t1sBurstCount", &EthernetMessage::t1sBurstCount)
.def_readwrite("t1sSymbolType", &EthernetMessage::t1sSymbolType)
.def("get_destination_mac", &EthernetMessage::getDestinationMAC, pybind11::return_value_policy::reference)
.def("get_source_mac", &EthernetMessage::getSourceMAC, pybind11::return_value_policy::reference)
.def("get_ether_type", &EthernetMessage::getEtherType);

2
bindings/python/icsneopy/device/chipid.cpp
View File

@ -111,7 +111,7 @@ void init_chipid(pybind11::module_& m) {
.value("RAD_GALAXY_2_ZMPCHIP_ID", ChipID::RAD_GALAXY_2_ZMPCHIP_ID)
.value("NewDevice59_MCHIP", ChipID::NewDevice59_MCHIP)
.value("RADMoon2_Z7010_ZYNQ", ChipID::RADMoon2_Z7010_ZYNQ)
.value("neoVIFIRE2_CORE_SG4", ChipID::neoVIFIRE2_CORE_SG4)
.value("neoVIFIRE2_Core_SG4", ChipID::neoVIFIRE2_Core_SG4)
.value("RADBMS_MCHIP", ChipID::RADBMS_MCHIP)
.value("RADMoon2_ZL_MCHIP", ChipID::RADMoon2_ZL_MCHIP)
.value("RADGigastar_USBZ_Z7010_ZYNQ", ChipID::RADGigastar_USBZ_Z7010_ZYNQ)

14
bindings/python/icsneopy/device/idevicesettings.cpp
View File

@ -71,6 +71,20 @@ void init_idevicesettings(pybind11::module_& m) {
.def("set_phy_mode", &IDeviceSettings::setPhyMode, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_phy_speed", &IDeviceSettings::setPhySpeed, pybind11::call_guard<pybind11::gil_scoped_release>())
// 10BASE-T1S methods
.def("is_t1s_plca_enabled", &IDeviceSettings::isT1SPLCAEnabledFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_plca", &IDeviceSettings::setT1SPLCAFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("get_t1s_local_id", &IDeviceSettings::getT1SLocalIDFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_local_id", &IDeviceSettings::setT1SLocalIDFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("get_t1s_max_nodes", &IDeviceSettings::getT1SMaxNodesFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_max_nodes", &IDeviceSettings::setT1SMaxNodesFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("get_t1s_tx_opp_timer", &IDeviceSettings::getT1STxOppTimerFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_tx_opp_timer", &IDeviceSettings::setT1STxOppTimerFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("get_t1s_max_burst", &IDeviceSettings::getT1SMaxBurstFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_max_burst", &IDeviceSettings::setT1SMaxBurstFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("get_t1s_burst_timer", &IDeviceSettings::getT1SBurstTimerFor, pybind11::call_guard<pybind11::gil_scoped_release>())
.def("set_t1s_burst_timer", &IDeviceSettings::setT1SBurstTimerFor, pybind11::call_guard<pybind11::gil_scoped_release>())
// Status properties
.def_readonly("disabled", &IDeviceSettings::disabled)
.def_readonly("readonly", &IDeviceSettings::readonly);

25
communication/packet/ethernetpacket.cpp
View File

@ -1,5 +1,5 @@
#include "icsneo/communication/packet/ethernetpacket.h"
#include <algorithm> // for std::copy
#include <algorithm>
#include <iostream>
using namespace icsneo;
@ -10,16 +10,17 @@ std::shared_ptr<EthernetMessage> HardwareEthernetPacket::DecodeToMessage(const s
// Make sure we have enough to read the packet length first
if(bytestream.size() < sizeof(HardwareEthernetPacket))
return nullptr;
// packet->Length will also encompass the two uint16_t's at the end of the struct, make sure that at least they are here
if(packet->Length < 4)
return nullptr;
const size_t fcsSize = packet->header.FCS_AVAIL ? 4 : 0;
// Ensure Length is sufficient for FCS extraction to avoid invalid iterator arithmetic
if(packet->Length < fcsSize)
return nullptr;
const size_t bytestreamExpectedSize = sizeof(HardwareEthernetPacket) + packet->Length;
const size_t bytestreamActualSize = bytestream.size();
if(bytestreamActualSize < bytestreamExpectedSize)
return nullptr;
auto messagePtr = std::make_shared<EthernetMessage>();
EthernetMessage& message = *messagePtr;
// Standard Ethernet fields
message.transmitted = packet->eid.TXMSG;
if(message.transmitted)
message.description = packet->stats;
@ -27,12 +28,28 @@ std::shared_ptr<EthernetMessage> HardwareEthernetPacket::DecodeToMessage(const s
if(message.preemptionEnabled)
message.preemptionFlags = (uint8_t)((rawWords[0] & 0x03F8) >> 4);
message.frameTooShort = packet->header.RUNT_FRAME;
message.noPadding = !packet->header.ENABLE_PADDING;
message.fcsVerified = packet->header.FCS_VERIFIED;
message.txAborted = packet->eid.TXAborted;
message.crcError = packet->header.CRC_ERROR;
if(message.frameTooShort)
message.error = true;
// This timestamp is raw off the device (in timestampResolution increments)
// Decoder will fix as it has information about the timestampResolution increments
message.timestamp = packet->timestamp.TS;
// Check if this is a T1S packet and populate T1S-specific fields
message.isT1S = packet->header.T1S_ETHERNET;
if(message.isT1S) {
message.isT1SSymbol = packet->eid.T1S_SYMBOL;
message.isT1SBurst = packet->eid.T1S_BURST;
message.txCollision = packet->t1s_status.TXCollision;
message.isT1SWake = packet->t1s_status.T1SWake;
message.t1sNodeId = packet->t1s_node.T1S_NODE_ID;
message.t1sBurstCount = packet->t1s_node.T1S_BURST_COUNT;
}
const std::vector<uint8_t>::const_iterator databegin = bytestream.begin() + sizeof(HardwareEthernetPacket);
const std::vector<uint8_t>::const_iterator dataend = databegin + packet->Length - fcsSize;
message.data.insert(message.data.begin(), databegin, dataend);

20
include/icsneo/communication/message/ethernetmessage.h
View File

@ -4,17 +4,17 @@
#ifdef __cplusplus
#include "icsneo/communication/message/message.h"
// Used for MACAddress.toString() only
#include <string>
#include <vector>
#include <sstream>
#include <iomanip>
#include <cstring>
namespace icsneo {
struct MACAddress {
uint8_t data[6];
// Helpers
std::string toString() const {
std::stringstream ss;
for(size_t i = 0; i < 6; i++) {
@ -33,11 +33,25 @@ struct MACAddress {
class EthernetMessage : public Frame {
public:
// Standard Ethernet fields
bool preemptionEnabled = false;
uint8_t preemptionFlags = 0;
std::optional<uint32_t> fcs;
bool frameTooShort = false;
bool noPadding = false;
bool fcsVerified = false;
bool txAborted = false;
bool crcError = false;
bool isT1S = false;
bool isT1SSymbol = false;
bool isT1SBurst = false;
bool txCollision = false;
bool isT1SWake = false;
uint8_t t1sNodeId = 0;
uint8_t t1sBurstCount = 0;
uint8_t t1sSymbolType = 0;
// Accessors
const MACAddress& getDestinationMAC() const { return *(const MACAddress*)(data.data() + 0); }

2
include/icsneo/device/chipid.h
View File

@ -110,7 +110,7 @@ enum class ChipID : uint8_t {
RAD_GALAXY_2_ZMPCHIP_ID = 102,
NewDevice59_MCHIP = 103,
RADMoon2_Z7010_ZYNQ = 104,
neoVIFIRE2_CORE_SG4 = 105,
neoVIFIRE2_Core_SG4 = 105,
RADBMS_MCHIP = 106,
RADMoon2_ZL_MCHIP = 107,
RADGigastar_USBZ_Z7010_ZYNQ = 108,

9
include/icsneo/device/device.h
View File

@ -162,6 +162,14 @@ public:
bool hasBootloader() { return !!getBootloader(); }
virtual bool supportsSwVersionValidate() const {
return true;
}
void setBootloaderVersion(const HardwareInfo::Version& version) {
bootloaderVersion = version;
}
static std::string SerialNumToString(uint32_t serial);
static uint32_t SerialStringToNum(const std::string& serial);
static bool SerialStringIsNumeric(const std::string& serial);
@ -982,6 +990,7 @@ protected:
LEDState ledState;
void updateLEDState();
std::optional<HardwareInfo::Version> bootloaderVersion = std::nullopt;
private:
neodevice_t data;

68
include/icsneo/device/idevicesettings.h
View File

@ -940,6 +940,74 @@ public:
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual std::optional<bool> isT1SPLCAEnabledFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1SPLCAFor(Network net, bool enable) {
(void)net; (void)enable;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return false;
}
virtual std::optional<uint8_t> getT1SLocalIDFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1SLocalIDFor(Network net, uint8_t id) {
(void)net; (void)id;
return false;
}
virtual std::optional<uint8_t> getT1SMaxNodesFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1SMaxNodesFor(Network net, uint8_t nodes) {
(void)net; (void)nodes;
return false;
}
virtual std::optional<uint8_t> getT1STxOppTimerFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1STxOppTimerFor(Network net, uint8_t timer) {
(void)net; (void)timer;
return false;
}
virtual std::optional<uint8_t> getT1SMaxBurstFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1SMaxBurstFor(Network net, uint8_t burst) {
(void)net; (void)burst;
return false;
}
virtual std::optional<uint8_t> getT1SBurstTimerFor(Network net) const {
(void)net;
report(APIEvent::Type::SettingNotAvaiableDevice, APIEvent::Severity::EventWarning);
return std::nullopt;
}
virtual bool setT1SBurstTimerFor(Network net, uint8_t timer) {
(void)net; (void)timer;
return false;
}
const void* getRawStructurePointer() const { return settingsInDeviceRAM.data(); }
void* getMutableRawStructurePointer() { return settings.data(); }
template<typename T> const T* getStructurePointer() const { return reinterpret_cast<const T*>(getRawStructurePointer()); }

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

@ -98,13 +98,15 @@ public:
}
CoreChipVariant getCoreChipVariant() {
const auto& hardwareInfo = getHardwareInfo(std::chrono::milliseconds(1000));
if(!hardwareInfo) {
chipVariant = CoreChipVariant::Invalid;
return chipVariant;
if(!bootloaderVersion.has_value()) {
const auto& hardwareInfo = getHardwareInfo(std::chrono::milliseconds(1000));
if(!hardwareInfo) {
chipVariant = CoreChipVariant::Invalid;
return chipVariant;
}
setBootloaderVersion(hardwareInfo->bootloaderVersion);
}
const auto& bootloaderVersion = hardwareInfo->bootloaderVersion;
if(bootloaderVersion.major >= CORE_SG4_BL_MAJOR_VERSION_CUTOFF) {
if(bootloaderVersion->major >= CORE_SG4_BL_MAJOR_VERSION_CUTOFF) {
chipVariant = CoreChipVariant::Core_SG4;
} else {
chipVariant = CoreChipVariant::Core;
@ -122,7 +124,7 @@ public:
static std::vector<ChipInfo> chipsSG4 = {
{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_SG4, true, "Core", "fire2_core_sg4", 2, FirmwareType::IEF}
{ChipID::neoVIFIRE2_Core_SG4, true, "Core", "fire2_core_sg4", 2, FirmwareType::IEF}
};
if(chipVariant == CoreChipVariant::Core_SG4) {
@ -137,7 +139,7 @@ public:
pipeline.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::neoVIFIRE2_MCHIP, BootloaderCommunication::RED);
if(chipVariant == CoreChipVariant::Core_SG4) {
pipeline.add<FlashPhase>(ChipID::neoVIFIRE2_CORE_SG4, BootloaderCommunication::REDCore, false, false);
pipeline.add<FlashPhase>(ChipID::neoVIFIRE2_Core_SG4, BootloaderCommunication::REDCore, false, false);
} else {
pipeline.add<FlashPhase>(ChipID::neoVIFIRE2_Core, BootloaderCommunication::REDCore, false, false);
}
@ -147,6 +149,10 @@ public:
return pipeline;
}
bool supportsSwVersionValidate() const override {
return bootloaderVersion.has_value() && (bootloaderVersion->major > 4 || (bootloaderVersion->major == 4 && bootloaderVersion->minor >= 3));
}
std::vector<VersionReport> getChipVersions(bool refreshComponents = true) override {
if(chipVariant == CoreChipVariant::Invalid) {
getCoreChipVariant();

147
include/icsneo/device/tree/neovifire3t1slin/neovifire3t1slinsettings.h
View File

@ -257,6 +257,153 @@ public:
}
}
std::optional<bool> isT1SPLCAEnabledFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional<bool>((t1s->flags & ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA) != 0);
}
bool setT1SPLCAFor(Network net, bool enable) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
if(enable)
t1s->flags |= ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
else
t1s->flags &= ~ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
return true;
}
std::optional<uint8_t> getT1SLocalIDFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->local_id);
}
bool setT1SLocalIDFor(Network net, uint8_t id) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->local_id = id;
return true;
}
std::optional<uint8_t> getT1SMaxNodesFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_num_nodes);
}
bool setT1SMaxNodesFor(Network net, uint8_t nodes) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_num_nodes = nodes;
return true;
}
std::optional<uint8_t> getT1STxOppTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->to_timer);
}
bool setT1STxOppTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->to_timer = timer;
return true;
}
std::optional<uint8_t> getT1SMaxBurstFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_burst_count);
}
bool setT1SMaxBurstFor(Network net, uint8_t burst) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_burst_count = burst;
return true;
}
std::optional<uint8_t> getT1SBurstTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->burst_timer);
}
bool setT1SBurstTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->burst_timer = timer;
return true;
}
private:
const ETHERNET10T1S_SETTINGS* getT1SSettingsFor(Network net) const {
auto cfg = getStructurePointer<neovifire3t1slin_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01: return &(cfg->t1s1);
case Network::NetID::AE_02: return &(cfg->t1s2);
case Network::NetID::AE_03: return &(cfg->t1s3);
case Network::NetID::AE_04: return &(cfg->t1s4);
case Network::NetID::AE_05: return &(cfg->t1s5);
case Network::NetID::AE_06: return &(cfg->t1s6);
case Network::NetID::AE_07: return &(cfg->t1s7);
case Network::NetID::AE_08: return &(cfg->t1s8);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
ETHERNET10T1S_SETTINGS* getMutableT1SSettingsFor(Network net) {
auto cfg = getMutableStructurePointer<neovifire3t1slin_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01: return &(cfg->t1s1);
case Network::NetID::AE_02: return &(cfg->t1s2);
case Network::NetID::AE_03: return &(cfg->t1s3);
case Network::NetID::AE_04: return &(cfg->t1s4);
case Network::NetID::AE_05: return &(cfg->t1s5);
case Network::NetID::AE_06: return &(cfg->t1s6);
case Network::NetID::AE_07: return &(cfg->t1s7);
case Network::NetID::AE_08: return &(cfg->t1s8);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
protected:
ICSNEO_UNALIGNED(const uint64_t*) getTerminationEnables() const override {
auto cfg = getStructurePointer<neovifire3t1slin_settings_t>();

2
include/icsneo/device/tree/rada2b/rada2b.h
View File

@ -58,7 +58,7 @@ public:
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADA2B_ZCHIP, BootloaderCommunication::RAD)
// .add<ReconnectPhase>()
.add<EnterApplicationPhase>(ChipID::RADA2B_ZCHIP)
.add<WaitPhase>(std::chrono::milliseconds(3000));
}
protected:

1
include/icsneo/device/tree/radcomet/radcometbase.h
View File

@ -45,6 +45,7 @@ public:
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADComet_ZYNQ, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RADComet_ZYNQ)
.add<WaitPhase>(std::chrono::milliseconds(3000))
.add<ReconnectPhase>();
}

1
include/icsneo/device/tree/radcomet3/radcomet3.h
View File

@ -69,6 +69,7 @@ public:
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADCOMET3_ZCHIP, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RADCOMET3_ZCHIP)
.add<WaitPhase>(std::chrono::milliseconds(5000))
.add<ReconnectPhase>();
}

143
include/icsneo/device/tree/radcomet3/radcomet3settings.h
View File

@ -113,6 +113,149 @@ public:
return nullptr;
}
}
std::optional<bool> isT1SPLCAEnabledFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional<bool>((t1s->flags & ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA) != 0);
}
bool setT1SPLCAFor(Network net, bool enable) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
if(enable)
t1s->flags |= ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
else
t1s->flags &= ~ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
return true;
}
std::optional<uint8_t> getT1SLocalIDFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->local_id);
}
bool setT1SLocalIDFor(Network net, uint8_t id) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->local_id = id;
return true;
}
std::optional<uint8_t> getT1SMaxNodesFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_num_nodes);
}
bool setT1SMaxNodesFor(Network net, uint8_t nodes) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_num_nodes = nodes;
return true;
}
std::optional<uint8_t> getT1STxOppTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->to_timer);
}
bool setT1STxOppTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->to_timer = timer;
return true;
}
std::optional<uint8_t> getT1SMaxBurstFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_burst_count);
}
bool setT1SMaxBurstFor(Network net, uint8_t burst) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_burst_count = burst;
return true;
}
std::optional<uint8_t> getT1SBurstTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->burst_timer);
}
bool setT1SBurstTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->burst_timer = timer;
return true;
}
private:
const ETHERNET10T1S_SETTINGS* getT1SSettingsFor(Network net) const {
auto cfg = getStructurePointer<radcomet3_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_02: return &(cfg->t1s1);
case Network::NetID::AE_03: return &(cfg->t1s2);
case Network::NetID::AE_04: return &(cfg->t1s3);
case Network::NetID::AE_05: return &(cfg->t1s4);
case Network::NetID::AE_06: return &(cfg->t1s5);
case Network::NetID::AE_07: return &(cfg->t1s6);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
ETHERNET10T1S_SETTINGS* getMutableT1SSettingsFor(Network net) {
auto cfg = getMutableStructurePointer<radcomet3_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_02: return &(cfg->t1s1);
case Network::NetID::AE_03: return &(cfg->t1s2);
case Network::NetID::AE_04: return &(cfg->t1s3);
case Network::NetID::AE_05: return &(cfg->t1s4);
case Network::NetID::AE_06: return &(cfg->t1s5);
case Network::NetID::AE_07: return &(cfg->t1s6);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
};
}

1
include/icsneo/device/tree/radgalaxy/radgalaxy.h
View File

@ -80,6 +80,7 @@ public:
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RADGalaxy_ZYNQ, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RADGalaxy_ZYNQ)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}

3
include/icsneo/device/tree/radgalaxy2/radgalaxy2.h
View File

@ -87,9 +87,10 @@ public:
return BootloaderPipeline()
.add<EnterBootloaderPhase>()
.add<FlashPhase>(ChipID::RAD_GALAXY_2_ZMPCHIP_ID, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RAD_GALAXY_2_ZMPCHIP_ID)
.add<ReconnectPhase>()
.add<FlashPhase>(ChipID::RADGALAXY2_SYSMON_CHIP, BootloaderCommunication::RADGalaxy2Peripheral)
.add<EnterApplicationPhase>(ChipID::RAD_GALAXY_2_ZMPCHIP_ID)
.add<EnterApplicationPhase>(ChipID::RADGALAXY2_SYSMON_CHIP)
.add<ReconnectPhase>()
.add<WaitPhase>(std::chrono::milliseconds(3000));
}

2
include/icsneo/device/tree/radgigastar/radgigastar.h
View File

@ -93,11 +93,13 @@ public:
if(com->driver->isEthernet()) {
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar_ZYNQ, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RADGigastar_ZYNQ)
.add<WaitPhase>(std::chrono::milliseconds(3000))
.add<ReconnectPhase>();
}
return BootloaderPipeline()
.add<FlashPhase>(ChipID::RADGigastar_USBZ_ZYNQ, BootloaderCommunication::RAD)
.add<EnterApplicationPhase>(ChipID::RADGigastar_USBZ_ZYNQ)
.add<WaitPhase>(std::chrono::milliseconds(3000))
.add<ReconnectPhase>();
}

147
include/icsneo/device/tree/radgigastar2/radgigastar2settings.h
View File

@ -249,6 +249,153 @@ namespace icsneo
}
}
std::optional<bool> isT1SPLCAEnabledFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional<bool>((t1s->flags & ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA) != 0);
}
bool setT1SPLCAFor(Network net, bool enable) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
if(enable)
t1s->flags |= ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
else
t1s->flags &= ~ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
return true;
}
std::optional<uint8_t> getT1SLocalIDFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->local_id);
}
bool setT1SLocalIDFor(Network net, uint8_t id) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->local_id = id;
return true;
}
std::optional<uint8_t> getT1SMaxNodesFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_num_nodes);
}
bool setT1SMaxNodesFor(Network net, uint8_t nodes) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_num_nodes = nodes;
return true;
}
std::optional<uint8_t> getT1STxOppTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->to_timer);
}
bool setT1STxOppTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->to_timer = timer;
return true;
}
std::optional<uint8_t> getT1SMaxBurstFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_burst_count);
}
bool setT1SMaxBurstFor(Network net, uint8_t burst) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_burst_count = burst;
return true;
}
std::optional<uint8_t> getT1SBurstTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->burst_timer);
}
bool setT1SBurstTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->burst_timer = timer;
return true;
}
private:
const ETHERNET10T1S_SETTINGS* getT1SSettingsFor(Network net) const {
auto cfg = getStructurePointer<radgigastar2_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_03: return &(cfg->t1s1);
case Network::NetID::AE_04: return &(cfg->t1s2);
case Network::NetID::AE_05: return &(cfg->t1s3);
case Network::NetID::AE_06: return &(cfg->t1s4);
case Network::NetID::AE_07: return &(cfg->t1s5);
case Network::NetID::AE_08: return &(cfg->t1s6);
case Network::NetID::AE_09: return &(cfg->t1s7);
case Network::NetID::AE_10: return &(cfg->t1s8);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
ETHERNET10T1S_SETTINGS* getMutableT1SSettingsFor(Network net) {
auto cfg = getMutableStructurePointer<radgigastar2_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_03: return &(cfg->t1s1);
case Network::NetID::AE_04: return &(cfg->t1s2);
case Network::NetID::AE_05: return &(cfg->t1s3);
case Network::NetID::AE_06: return &(cfg->t1s4);
case Network::NetID::AE_07: return &(cfg->t1s5);
case Network::NetID::AE_08: return &(cfg->t1s6);
case Network::NetID::AE_09: return &(cfg->t1s7);
case Network::NetID::AE_10: return &(cfg->t1s8);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
protected:
ICSNEO_UNALIGNED(const uint64_t *)
getTerminationEnables() const override

163
include/icsneo/device/tree/radmoont1s/radmoont1ssettings.h
View File

@ -47,6 +47,169 @@ static_assert(sizeof(radmoont1s_settings_t) == 160, "RADMoonT1S settings size mi
class RADMoonT1SSettings : public IDeviceSettings {
public:
RADMoonT1SSettings(std::shared_ptr<Communication> com) : IDeviceSettings(com, sizeof(radmoont1s_settings_t)) {}
std::optional<bool> isT1SPLCAEnabledFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional<bool>((t1s->flags & ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA) != 0);
}
bool setT1SPLCAFor(Network net, bool enable) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
if(enable)
t1s->flags |= ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
else
t1s->flags &= ~ETHERNET10T1S_SETTINGS_FLAG_ENABLE_PLCA;
return true;
}
std::optional<uint8_t> getT1SLocalIDFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->local_id);
}
bool setT1SLocalIDFor(Network net, uint8_t id) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->local_id = id;
return true;
}
std::optional<uint8_t> getT1SMaxNodesFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_num_nodes);
}
bool setT1SMaxNodesFor(Network net, uint8_t nodes) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_num_nodes = nodes;
return true;
}
std::optional<uint8_t> getT1STxOppTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->to_timer);
}
bool setT1STxOppTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->to_timer = timer;
return true;
}
std::optional<uint8_t> getT1SMaxBurstFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->max_burst_count);
}
bool setT1SMaxBurstFor(Network net, uint8_t burst) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->max_burst_count = burst;
return true;
}
std::optional<uint8_t> getT1SBurstTimerFor(Network net) const override {
const ETHERNET10T1S_SETTINGS* t1s = getT1SSettingsFor(net);
if(t1s == nullptr)
return std::nullopt;
return std::make_optional(t1s->burst_timer);
}
bool setT1SBurstTimerFor(Network net, uint8_t timer) override {
ETHERNET10T1S_SETTINGS* t1s = getMutableT1SSettingsFor(net);
if(t1s == nullptr)
return false;
t1s->burst_timer = timer;
return true;
}
private:
const ETHERNET10T1S_SETTINGS* getT1SSettingsFor(Network net) const {
auto cfg = getStructurePointer<radmoont1s_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01:
return &(cfg->t1s);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
ETHERNET10T1S_SETTINGS* getMutableT1SSettingsFor(Network net) {
auto cfg = getMutableStructurePointer<radmoont1s_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01:
return &(cfg->t1s);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
const ETHERNET10T1S_SETTINGS_EXT* getT1SSettingsExtFor(Network net) const {
auto cfg = getStructurePointer<radmoont1s_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01:
return &(cfg->t1sExt);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
ETHERNET10T1S_SETTINGS_EXT* getMutableT1SSettingsExtFor(Network net) {
auto cfg = getMutableStructurePointer<radmoont1s_settings_t>();
if(cfg == nullptr)
return nullptr;
switch(net.getNetID()) {
case Network::NetID::AE_01:
return &(cfg->t1sExt);
default:
report(APIEvent::Type::ParameterOutOfRange, APIEvent::Severity::Error);
return nullptr;
}
}
};
}

11
include/icsneo/platform/servd.h
View File

@ -18,27 +18,24 @@ class Servd : public Driver {
public:
static void Find(std::vector<FoundDevice>& foundDevices);
static bool Enabled();
Servd(const device_eventhandler_t& err, neodevice_t& forDevice, const std::unordered_set<std::string>& availableDrivers);
Servd(const device_eventhandler_t& err, neodevice_t& forDevice, const Address& address);
~Servd() override;
bool open() override;
bool isOpen() override;
bool close() override;
bool faa(const std::string& key, int32_t inc, int32_t& orig);
bool enableCommunication(bool enable, bool& sendMsg) override;
driver_finder_t getFinder() override { return Servd::Find; }
private:
void alive();
void read(Address&& address);
void write(Address&& address);
void read();
void write();
neodevice_t& device;
std::thread aliveThread; // makes sure the client and server are healthy
std::thread writeThread;
std::thread readThread;
Socket messageSocket;
bool opened = false;
bool comEnabled = false;
std::string driver;
std::unique_ptr<Socket> dataSocket;
};
}

21
include/icsneo/platform/socket.h
View File

@ -73,11 +73,12 @@ public:
using SocketHandleType = int;
#endif
Socket() {
template<class... Args>
Socket(Args&&... args) {
#ifdef _WIN32
static WSA wsa;
#endif
mFD = socket(AF_INET, SOCK_DGRAM, 0);
mFD = socket(std::forward<Args>(args)...);
}
~Socket() {
@ -102,6 +103,10 @@ public:
#endif
}
bool connect(const Address& to) {
return ::connect(mFD, (sockaddr*)&to.sockaddr(), sizeof(sockaddr_in)) != -1;
}
bool bind(const Address& at) {
return ::bind(mFD, (sockaddr*)&at.sockaddr(), sizeof(sockaddr_in)) != -1;
}
@ -141,6 +146,14 @@ public:
return true;
}
bool send(const void* buffer, size_t size) {
auto sent = ::send(mFD, (const char*)buffer, (int)size, 0);
if(sent == -1) {
return false;
}
return (size_t)sent == size;
}
bool recvfrom(void* buffer, size_t& size, Address& from) {
sockaddr_in addr;
socklen_t addLen = sizeof(addr);
@ -163,8 +176,8 @@ public:
}
template<typename REQ, typename RES>
bool transceive(const Address& to, REQ&& request, RES&& response, const std::chrono::milliseconds& timeout) {
if(!sendto(request.data(), request.size(), to)) {
bool transceive(REQ&& request, RES&& response, const std::chrono::milliseconds& timeout) {
if(!send(request.data(), request.size())) {
return false;
}
bool hasData;

184
platform/servd.cpp
View File

@ -6,7 +6,7 @@
using namespace icsneo;
#define SERVD_VERSION 1
#define SERVD_VERSION 2
static const Address SERVD_ADDRESS = Address("127.0.0.1", 26741);
static const std::string SERVD_VERSION_STR = std::to_string(SERVD_VERSION);
@ -41,20 +41,17 @@ std::vector<std::string> split(const std::string_view& str, char delim = ' ') {
}
void Servd::Find(std::vector<FoundDevice>& found) {
Socket socket;
Socket socket(AF_INET, SOCK_DGRAM, 0);
socket.connect(SERVD_ADDRESS);
if(!socket.set_nonblocking()) {
EventManager::GetInstance().add(APIEvent::Type::ServdNonblockError, APIEvent::Severity::Error);
return;
}
if(!socket.bind(Address("127.0.0.1", 0))) {
EventManager::GetInstance().add(APIEvent::Type::ServdBindError, APIEvent::Severity::Error);
return;
}
std::string response;
response.resize(512);
const std::string version_request = SERVD_VERSION_STR + " version";
if(!socket.transceive(SERVD_ADDRESS, version_request, response, std::chrono::milliseconds(5000))) {
if(!socket.transceive(version_request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdTransceiveError, APIEvent::Severity::Error);
return;
}
@ -66,46 +63,39 @@ void Servd::Find(std::vector<FoundDevice>& found) {
response.resize(512);
const std::string find_request = SERVD_VERSION_STR + " find";
if(!socket.transceive(SERVD_ADDRESS, find_request, response, std::chrono::milliseconds(5000))) {
if(!socket.transceive(find_request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdTransceiveError, APIEvent::Severity::Error);
return;
}
const auto lines = split(response, '\n');
for(auto&& line : lines) {
const auto cols = split(line, ' ');
if(cols.size() < 2) {
if(cols.size() < 3) {
EventManager::GetInstance().add(APIEvent::Type::ServdInvalidResponseError, APIEvent::Severity::Error);
continue;
}
const auto& serial = cols[0];
std::unordered_set<std::string> drivers;
for (size_t i = 1; i < cols.size(); ++i) {
drivers.emplace(cols[i]);
const auto& ip = cols[1];
uint16_t port = 0;
try {
port = static_cast<uint16_t>(std::stoi(cols[2]));
} catch (const std::exception&) {
EventManager::GetInstance().add(APIEvent::Type::ServdInvalidResponseError, APIEvent::Severity::Error);
continue;
}
Address address(ip.c_str(), port);
auto& newFound = found.emplace_back();
std::copy(serial.begin(), serial.end(), newFound.serial);
newFound.makeDriver = [=](device_eventhandler_t err, neodevice_t& forDevice) {
return std::make_unique<Servd>(err, forDevice, drivers);
return std::make_unique<Servd>(err, forDevice, address);
};
}
}
Servd::Servd(const device_eventhandler_t& err, neodevice_t& forDevice, const std::unordered_set<std::string>& availableDrivers) :
Driver(err), device(forDevice) {
Servd::Servd(const device_eventhandler_t& err, neodevice_t& forDevice, const Address& address) :
Driver(err), device(forDevice), messageSocket(AF_INET, SOCK_DGRAM, 0) {
messageSocket.connect(address);
messageSocket.set_nonblocking();
messageSocket.bind(Address("127.0.0.1", 0));
if(availableDrivers.count("dxx")) {
driver = "dxx"; // prefer USB over Ethernet
} else if(availableDrivers.count("cab")) {
driver = "cab"; // prefer CAB over TCP
} else if(availableDrivers.count("tcp")) {
driver = "tcp";
} else if(availableDrivers.count("vcp")) {
driver = "vcp";
} else {
// just take the first driver
driver = *availableDrivers.begin();
}
}
Servd::~Servd() {
@ -113,21 +103,31 @@ Servd::~Servd() {
}
bool Servd::open() {
const std::string request = SERVD_VERSION_STR + " open " + std::string(device.serial) + " " + driver;
const std::string request = SERVD_VERSION_STR + " open";
std::string response;
response.resize(512);
if(!messageSocket.transceive(SERVD_ADDRESS, request, response, std::chrono::milliseconds(5000))) {
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdTransceiveError, APIEvent::Severity::Error);
return false;
}
const auto tokens = split(response);
if(tokens.size() != 4) {
if(tokens.size() != 2) {
EventManager::GetInstance().add(APIEvent::Type::ServdInvalidResponseError, APIEvent::Severity::Error);
return false;
}
aliveThread = std::thread(&Servd::alive, this);
readThread = std::thread(&Servd::read, this, Address{tokens[2].c_str(), (uint16_t)std::stol(tokens[3].c_str())});
writeThread = std::thread(&Servd::write, this, Address{tokens[0].c_str(), (uint16_t)std::stol(tokens[1].c_str())});
dataSocket = std::make_unique<Socket>(AF_INET, SOCK_STREAM, 0);
const auto& ip = tokens[0];
uint16_t port = 0;
try {
port = static_cast<uint16_t>(std::stoi(tokens[1]));
} catch (const std::exception&) {
EventManager::GetInstance().add(APIEvent::Type::ServdInvalidResponseError, APIEvent::Severity::Error);
return false;
}
Address address(ip.c_str(), port);
dataSocket->connect(address);
readThread = std::thread(&Servd::read, this);
writeThread = std::thread(&Servd::write, this);
opened = true;
return true;
}
@ -138,9 +138,6 @@ bool Servd::isOpen() {
bool Servd::close() {
setIsClosing(true);
if(aliveThread.joinable()) {
aliveThread.join();
}
if(readThread.joinable()) {
readThread.join();
}
@ -148,8 +145,16 @@ bool Servd::close() {
writeThread.join();
}
if(isOpen()) {
const std::string request = SERVD_VERSION_STR + " close " + std::string(device.serial);
messageSocket.sendto(request.data(), request.size(), SERVD_ADDRESS);
Address localAddress;
dataSocket->address(localAddress);
const std::string request = SERVD_VERSION_STR + " close " + localAddress.ip() + " " + std::to_string(localAddress.port());
std::string response;
response.resize(1);
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdTransceiveError, APIEvent::Severity::Error);
return false;
}
dataSocket.reset();
}
opened = false;
setIsClosing(false);
@ -159,13 +164,13 @@ bool Servd::close() {
bool Servd::enableCommunication(bool enable, bool& sendMsg) {
const std::string serialString(device.serial);
{
const std::string request = SERVD_VERSION_STR + " lock " + serialString + " com 1000";
const std::string request = SERVD_VERSION_STR + " lock com 1000";
std::string response;
response.resize(1);
bool locked = false;
const auto timeout = std::chrono::steady_clock::now() + std::chrono::seconds(1);
do {
if(!messageSocket.transceive(SERVD_ADDRESS, request, response, std::chrono::milliseconds(5000))) {
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
return false;
}
locked = response == "1" ? true : false;
@ -181,10 +186,10 @@ bool Servd::enableCommunication(bool enable, bool& sendMsg) {
}
uint64_t com = 0;
{
const std::string request = SERVD_VERSION_STR + " load " + serialString + " com";
const std::string request = SERVD_VERSION_STR + " load com";
std::string response;
response.resize(20);
if(!messageSocket.transceive(SERVD_ADDRESS, request, response, std::chrono::milliseconds(5000))) {
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdTransceiveError, APIEvent::Severity::Error);
return false;
}
@ -202,16 +207,20 @@ bool Servd::enableCommunication(bool enable, bool& sendMsg) {
}
if(comEnabled != enable) {
com += enable ? 1 : -1;
const std::string request = SERVD_VERSION_STR + " store " + serialString + " com " + std::to_string(com);
if(!messageSocket.sendto(request.data(), request.size(), SERVD_ADDRESS)) {
const std::string request = SERVD_VERSION_STR + " store com " + std::to_string(com);
std::string response;
response.resize(1);
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdSendError, APIEvent::Severity::Error);
return false;
}
}
comEnabled = enable;
{
const std::string request = SERVD_VERSION_STR + " unlock " + serialString + " com";
if(!messageSocket.sendto(request.data(), request.size(), SERVD_ADDRESS)) {
const std::string request = SERVD_VERSION_STR + " unlock com";
std::string response;
response.resize(1);
if(!messageSocket.transceive(request, response, std::chrono::milliseconds(5000))) {
EventManager::GetInstance().add(APIEvent::Type::ServdSendError, APIEvent::Severity::Error);
return false;
}
@ -219,78 +228,11 @@ bool Servd::enableCommunication(bool enable, bool& sendMsg) {
return true;
}
void Servd::alive() {
Socket socket;
socket.set_nonblocking();
socket.bind(Address("127.0.0.1", 0));
const std::string statusRequest = SERVD_VERSION_STR + " status " + std::string(device.serial);
std::string statusResponse;
statusResponse.resize(8);
while(!isDisconnected() && !isClosing()) {
if(!socket.sendto(statusRequest.data(), statusRequest.size(), {"127.0.0.1", 26741})) {
EventManager::GetInstance().add(APIEvent::Type::ServdSendError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
bool hasData;
if(!socket.poll(std::chrono::milliseconds(2000), hasData)) {
EventManager::GetInstance().add(APIEvent::Type::ServdPollError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
if(!hasData) {
EventManager::GetInstance().add(APIEvent::Type::ServdNoDataError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
size_t statusResponseSize = statusResponse.size();
if(!socket.recv(statusResponse.data(), statusResponseSize)) {
EventManager::GetInstance().add(APIEvent::Type::ServdRecvError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
statusResponse.resize(statusResponseSize);
if(statusRequest == "closed") {
EventManager::GetInstance().add(APIEvent::Type::DeviceDisconnected, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
if(statusResponse != "open") {
EventManager::GetInstance().add(APIEvent::Type::ServdInvalidResponseError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
std::this_thread::sleep_for(std::chrono::milliseconds(1000));
}
}
void Servd::read(Address&& address) {
Socket socket;
socket.set_nonblocking();
socket.set_reuse(true);
#ifdef _WIN32
if(!socket.bind(Address("127.0.0.1", address.port()))) {
EventManager::GetInstance().add(APIEvent::Type::ServdBindError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
#else
if(!socket.bind(Address(address.ip().c_str(), address.port()))) {
EventManager::GetInstance().add(APIEvent::Type::ServdBindError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
#endif
if(!socket.join_multicast("127.0.0.1", address.ip())) {
EventManager::GetInstance().add(APIEvent::Type::ServdJoinMulticastError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
}
std::vector<uint8_t> buf(65535);
void Servd::read() {
std::vector<uint8_t> buf(2 * 1024 * 1024);
while(!isDisconnected() && !isClosing()) {
bool hasData;
if(!socket.poll(std::chrono::milliseconds(100), hasData)) {
if(!dataSocket->poll(std::chrono::milliseconds(100), hasData)) {
EventManager::GetInstance().add(APIEvent::Type::ServdPollError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
@ -299,7 +241,7 @@ void Servd::read(Address&& address) {
continue;
}
size_t bufSize = buf.size();
if(!socket.recv(buf.data(), bufSize)) {
if(!dataSocket->recv(buf.data(), bufSize)) {
EventManager::GetInstance().add(APIEvent::Type::ServdRecvError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;
@ -308,16 +250,14 @@ void Servd::read(Address&& address) {
}
}
void Servd::write(Address&& address) {
Socket socket;
socket.bind(Address("127.0.0.1", 0));
void Servd::write() {
WriteOperation writeOp;
while(!isDisconnected() && !isClosing()) {
if(!writeQueue.wait_dequeue_timed(writeOp, std::chrono::milliseconds(100))) {
continue;
}
if(!isClosing()) {
if(!socket.sendto(writeOp.bytes.data(), writeOp.bytes.size(), address)) {
if(!dataSocket->send(writeOp.bytes.data(), writeOp.bytes.size())) {
EventManager::GetInstance().add(APIEvent::Type::ServdSendError, APIEvent::Severity::Error);
setIsDisconnected(true);
return;