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JanVNA2_comms.h
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JanVNA2_comms.h
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#ifndef JanVNA2_commsH
#define JanVNA2_commsH
//#include <thread>
//#include <mutex>
#include <vector>
#include "types.h"
#include "CriticalSection.h"
#include "HighResolutionTick.h"
#include "libusb.h"
// *******************************
#define JANV2A_VID 0x0483
#define JANV2A_PID 0x564e
#define JANV2B_VID 0x0483
#define JANV2B_PID 0x4121
// *******************************
#pragma pack(push, 1)
#pragma pack(pop)
struct t_vna_list
{
uint16_t vid;
uint16_t pid;
String manufacturer;
String product;
String serial_number;
String speed;
String dev_class;
};
// *******************************
typedef void __fastcall (__closure *janvna2_threadProcess)();
class CJanVNA2EventsThread : public TThread
{
private:
CJanVNA2EventsThread **m_object; // points to address where out object pointer is located
protected:
void __fastcall Execute()
{
while (!Terminated)
{
//this->Sleep(0);
this->Sleep(1);
if (m_process)
m_process();
}
ReturnValue = 0;
}
public:
__fastcall CJanVNA2EventsThread(janvna2_threadProcess process, const bool start, CJanVNA2EventsThread **object) :
TThread(!start)
{
m_process = process;
m_object = object;
FreeOnTerminate = true;
Priority = tpNormal; // tpIdle tpLowest tpNormal tpHighest tpTimeCritical
}
virtual __fastcall ~CJanVNA2EventsThread()
{
m_process = NULL;
// if (m_object != NULL)
// m_object = NULL;
}
volatile janvna2_threadProcess m_process;
bool __fastcall terminated()
{
return this->CheckTerminated();
}
};
class CJanVNA2Thread : public TThread
{
private:
CJanVNA2Thread **m_object; // points to address where out object pointer is located
protected:
void __fastcall Execute()
{
while (!this->Terminated)
{
this->Sleep(10);
if (m_process)
m_process();
}
ReturnValue = 0;
}
public:
__fastcall CJanVNA2Thread(janvna2_threadProcess process, const bool start, CJanVNA2Thread **object) :
TThread(!start)
{
m_process = process;
m_object = object;
FreeOnTerminate = true;
Priority = tpNormal; // tpIdle tpLowest tpNormal tpHighest tpTimeCritical
// Priority = tpIdle; // tpIdle tpLowest tpNormal tpHighest tpTimeCritical
}
virtual __fastcall ~CJanVNA2Thread()
{
m_process = NULL;
// if (m_object != NULL)
// m_object = NULL;
}
volatile janvna2_threadProcess m_process;
bool __fastcall terminated()
{
return this->CheckTerminated();
}
};
// *******************************
typedef int __fastcall (__closure *t_usb_in_data_callback)(TObject *sender, std::vector <uint8_t> &buffer, const int size);
class CUSBRx
{
private:
libusb_context *m_ctx;
libusb_device_handle *m_handle;
HANDLE m_event;
t_usb_in_data_callback m_on_data_callback;
libusb_transfer *m_transfer;
std::vector <uint8_t> m_transfer_buffer;
std::vector <uint8_t> m_data_buffer;
int m_data_buffer_wr;
void __fastcall addTransferData(libusb_transfer *transfer);
void __fastcall processCallback(libusb_transfer *transfer);
static void callback(libusb_transfer *transfer)
{
if (transfer)
{
CUSBRx *object = reinterpret_cast < CUSBRx *>(transfer->user_data);
if (object)
object->processCallback(transfer);
}
}
public:
CUSBRx(libusb_context *ctx, libusb_device_handle *handle, const uint8_t end_point, const int buffer_size, t_usb_in_data_callback on_data_cb);
~CUSBRx();
__property t_usb_in_data_callback onData = {read = m_on_data_callback, write = m_on_data_callback};
};
// *******************************
class CJanVNA2_comms
{
#pragma pack(push, 1)
// When changing/adding/removing variables from these structs also adjust the decode/encode functions in Protocol.cpp
// General packet format:
// 1. 1 byte header
// 2. 2 byte overall packet length (with header and checksum)
// 3. packet type
// 4. packet payload
// 5. 4 byte CRC32 (with header)
struct t_janvna2_header
{
uint8_t magic;
uint16_t total_length;
uint8_t packet_type;
};
struct t_janvna2_datapoint
{
float real_S11, imag_S11;
float real_S21, imag_S21;
float real_S12, imag_S12;
float real_S22, imag_S22;
uint64_t Hz;
uint16_t pointNum;
};
struct t_janvna2_sweepSettings
{
uint64_t f_start;
uint64_t f_stop;
uint16_t points;
uint32_t if_bandwidth;
int16_t cdbm_excitation; // in 1/100 dbm
uint8_t excitePort1 :1;
uint8_t excitePort2 :1;
uint8_t suppressPeaks :1;
};
struct t_janvna2_referenceSettings
{
uint32_t ExtRefOuputFreq;
uint8_t AutomaticSwitch :1;
uint8_t UseExternalRef :1;
};
struct t_janvna2_generatorSettings
{
uint64_t frequency;
int16_t cdbm_level;
uint8_t activePort;
};
struct t_janvna2_deviceInfo
{
uint16_t ProtocolVersion;
uint8_t FW_major;
uint8_t FW_minor;
uint8_t FW_patch;
char HW_Revision;
uint8_t extRefAvailable :1;
uint8_t extRefInUse :1;
uint8_t FPGA_configured :1;
uint8_t source_locked :1;
uint8_t LO1_locked :1;
uint8_t ADC_overload :1;
uint8_t temp_source;
uint8_t temp_LO1;
uint8_t temp_MCU;
uint64_t limits_minFreq;
uint64_t limits_maxFreq;
uint32_t limits_minIFBW;
uint32_t limits_maxIFBW;
uint16_t limits_maxPoints;
int16_t limits_cdbm_min;
int16_t limits_cdbm_max;
uint32_t limits_minRBW;
uint32_t limits_maxRBW;
};
struct t_janvna2_manualStatus
{
int16_t port1min, port1max;
int16_t port2min, port2max;
int16_t refmin, refmax;
float port1real, port1imag;
float port2real, port2imag;
float refreal, refimag;
uint8_t temp_source;
uint8_t temp_LO;
uint8_t source_locked :1;
uint8_t LO_locked :1;
};
struct t_janvna2_manualControl
{
// Highband Source
uint8_t SourceHighCE :1;
uint8_t SourceHighRFEN :1;
uint8_t SourceHighPower :2;
uint8_t SourceHighLowpass :2;
uint64_t SourceHighFrequency;
// Lowband Source
uint8_t SourceLowEN :1;
uint8_t SourceLowPower :2;
uint32_t SourceLowFrequency;
// Source signal path
uint8_t attenuator :7;
uint8_t SourceHighband :1;
uint8_t AmplifierEN :1;
uint8_t PortSwitch :1;
// LO1
uint8_t LO1CE :1;
uint8_t LO1RFEN :1;
uint64_t LO1Frequency;
// LO2
uint8_t LO2EN :1;
uint32_t LO2Frequency;
// Acquisition
uint8_t Port1EN :1;
uint8_t Port2EN :1;
uint8_t RefEN :1;
uint32_t Samples;
uint8_t WindowType :2;
};
struct t_janvna2_spectrumAnalyzerSettings
{
uint64_t f_start;
uint64_t f_stop;
uint32_t RBW;
uint16_t pointNum;
uint8_t WindowType :2; // 2 bits
uint8_t SignalID :1; // 1 bit
uint8_t Detector :3; // 3 bits
uint8_t UseDFT :1; // 1 bit
};
struct t_janvna2_spectrumAnalyzerResult
{
float port1;
float port2;
uint64_t frequency;
uint16_t pointNum;
};
struct t_janvna2_firmwarePacket
{
uint32_t address;
uint8_t data[256];
};
enum class PacketType : uint8_t
{
None = 0,
Datapoint = 1,
SweepSettings = 2,
Status = 3,
ManualControl = 4,
DeviceInfo = 5,
FirmwarePacket = 6,
Ack = 7,
ClearFlash = 8,
PerformFirmwareUpdate = 9,
Nack = 10,
Reference = 11,
Generator = 12,
SpectrumAnalyzerSettings = 13,
SpectrumAnalyzerResult = 14,
RequestDeviceInfo = 15,
};
struct t_packet_info
{
t_janvna2_header header;
union
{
t_janvna2_datapoint datapoint;
t_janvna2_sweepSettings sweep_settings;
t_janvna2_manualStatus manual_status;
t_janvna2_manualControl manual_control;
t_janvna2_deviceInfo device_info;
t_janvna2_firmwarePacket firmware_packet;
t_janvna2_referenceSettings reference_settings;
t_janvna2_generatorSettings generator_settings;
t_janvna2_spectrumAnalyzerSettings spectrum_analyser_settings;
t_janvna2_spectrumAnalyzerResult spectrum_analyser_result;
} data;
uint32_t crc;
};
/*
const DeviceInfo defaultInfo =
{
.ProtocolVersion = Protocol::Version,
.FW_major = 0,
.FW_minor = 0,
.FW_patch = 0,
.HW_Revision = '0',
.extRefAvailable = 0,
.extRefInUse = 0,
.FPGA_configured = 0,
.source_locked = 0,
.LO1_locked = 0,
.ADC_overload = 0,
.temp_source = 0,
.temp_LO1 = 0,
.temp_MCU = 0,
.limits_minFreq = 0,
.limits_maxFreq = 6000000000,
.limits_minIFBW = 10,
.limits_maxIFBW = 1000000,
.limits_maxPoints = 10000,
.limits_cdbm_min = -10000,
.limits_cdbm_max = 1000,
.limits_minRBW = 1,
.limits_maxRBW = 1000000,
};
protocol::DeviceInfo Device::lastInfo = defaultInfo;
*/
#pragma pack(pop)
struct t_usb_callback
{
CRITICAL_SECTION critical_section;
libusb_transfer *transfer;
std::vector <uint8_t> buffer;
int rx_size;
HANDLE mutex;
};
private:
t_mode m_mode; // current mode of operation .. idle mode, initialisation mode, scanning/sweeping mode etc
t_mode m_new_mode; // requested mode
bool m_pause_comms;
bool m_update_sweep_settings;
bool m_update_generator_settings;
std::vector <t_vna_list> m_vna_list;
int m_max_retries;
int m_retries;
int m_ack_timeout_ms;
int m_poll_ms;
bool m_ack;
bool m_nack;
bool m_device_info_ok;
CHighResolutionTick m_rx_data_timer; // time between rx callbacks
CHighResolutionTick m_ack_timer;
CHighResolutionTick m_poll_timer;
CHighResolutionTick m_new_points_timer;
uint32_t m_num_frames;
int m_prev_index;
struct
{
//CCriticalSectionObj cs;
volatile int packet_wr;
volatile int packet_rd;
t_packet_info packet[4096];
} m_rx_packets;
int m_output_power;
t_janvna2_generatorSettings m_own_generator_settings;
t_janvna2_sweepSettings m_own_sweep_settings;
t_janvna2_sweepSettings m_sweep_settings;
t_janvna2_manualStatus m_status;
t_janvna2_manualControl m_manual_control;
t_janvna2_deviceInfo m_device_info;
t_janvna2_firmwarePacket m_firmware_packet;
t_janvna2_referenceSettings m_reference_settings;
t_janvna2_generatorSettings m_generator_settings;
t_janvna2_spectrumAnalyzerSettings m_spectrum_analyzer_settings;
t_janvna2_spectrumAnalyzerResult m_spectrum_analyzer_result;
std::vector <uint8_t> temp_buf;
struct
{
std::vector <uint8_t> buffer;
int index_wr;
} m_data_tx;
TThreadPriority m_events_thread_priority;
CJanVNA2EventsThread *m_events_thread;
CJanVNA2Thread *m_thread;
int __fastcall deviceDetails(const uint16_t vid, const uint16_t pid, const bool show_details);
int __fastcall updateDeviceList();
bool __fastcall startThread();
void __fastcall stopThread(const bool local = false);
String __fastcall packetTypeToStr(const PacketType packet_type);
String __fastcall usbSpeedToStr(const int usb_speed);
String __fastcall usbClassToStr(const uint8_t usb_class);
void __fastcall processRxPacket(const t_packet_info *p_packet);
void __fastcall threadEventsProcess();
void __fastcall threadProcess();
void __fastcall setSweepSettings(const bool update);
void __fastcall setGeneratorSettings(const bool update);
uint32_t __fastcall crc32(uint32_t crc, const void *data, const int len);
// uint16_t DecodeBuffer(uint8_t *buf, uint16_t len, PacketInfo *info);
// uint16_t EncodePacket(const PacketInfo &packet, uint8_t *dest, uint16_t destsize);
bool __fastcall queueTxPacket(const PacketType packet_type, const void *data, const int data_size);
void __fastcall sendRequestDeviceInfo();
void __fastcall sendSweepSettings(const bool idle);
void __fastcall sendGeneratorSettings(const bool enable);
int __fastcall requestPoints(int num_points);
void __fastcall newUnit();
void __fastcall setMode(const t_mode mode);
void __fastcall setPauseComms(bool pause);
bool __fastcall areWeConnected()
{
return (m_device.hdev != NULL) ? true : false;
}
CUSBRx *m_usb_rx_data;
CUSBRx *m_usb_in_log;
int __fastcall usbRxOnDataCallback(TObject *sender, std::vector <uint8_t> &buffer, const int size);
int __fastcall usbRxOnLogCallback(TObject *sender, std::vector <uint8_t> &buffer, const int size);
static void libusb_log_cb(libusb_context *ctx, enum libusb_log_level level, const char *str);
public:
CJanVNA2_comms();
~CJanVNA2_comms();
struct
{
libusb_context *ctx;
libusb_device_handle *hdev;
t_vna_list vna;
} m_device;
int __fastcall openDevice(const uint16_t vid, const uint16_t pid);
void __fastcall closeDevice(const bool local = false);
int __fastcall devicePresent(const uint16_t vid, const uint16_t pid);
int __fastcall getDeviceList(std::vector <t_vna_list> &vna_list);
int __fastcall listDevices();
float __fastcall minOutputPowerdBm();
float __fastcall maxOutputPowerdBm();
void __fastcall setOutputPower(const float dBm);
void __fastcall reset(const bool reset_vna);
__property t_mode mode = {read = m_mode, write = setMode};
__property bool connected = {read = areWeConnected};
__property bool pauseComms = {read = m_pause_comms, write = setPauseComms};
__property bool updateSweepSettings = {read = m_update_sweep_settings, write = setSweepSettings};
__property bool updateGeneratorSettings = {read = m_update_generator_settings, write = setGeneratorSettings};
};
extern CJanVNA2_comms janvna2_comms;
#endif