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NanoVNA_v1_comms.cpp
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NanoVNA_v1_comms.cpp
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#pragma hdrstop
#include "NanoVNA_v1_comms.h"
#include "CommsUnit.h"
#include "DataUnit.h"
#include "Unit1.h"
#include "SettingsUnit.h"
#include "VNAUsartUnit.h"
#include "BatteryVoltageUnit.h"
#pragma package(smart_init)
#ifdef _DEBUG
//#define SHOW_CMD_START_END
#endif
#define SCAN_MASK_OUT_FREQ (1u << 0)
#define SCAN_MASK_OUT_DATA0 (1u << 1)
#define SCAN_MASK_OUT_DATA1 (1u << 2)
#define SCAN_MASK_NO_CALIBRATION (1u << 3)
#define SCAN_MASK_BINARY (1u << 7)
#define COMMAND_PROMPT "ch>"
CNanoVNA1Comms nanovna1_comms;
CNanoVNA1Comms::CNanoVNA1Comms()
{
m_capture_bm = NULL;
m_pause_comms = false;
m_get_screen_capture = false;
m_mode = MODE_NONE;
m_rx_block.type = SERIAL_STATE_IDLE;
}
CNanoVNA1Comms::~CNanoVNA1Comms()
{
if (m_capture_bm)
delete m_capture_bm;
m_capture_bm = NULL;
}
String __fastcall CNanoVNA1Comms::getSerialStateString(t_serial_state state)
{
String s;
switch (state)
{
case SERIAL_STATE_IDLE: s = "idle"; break;
case SERIAL_STATE_HELP: s = "help"; break;
case SERIAL_STATE_VERSION: s = "version"; break;
case SERIAL_STATE_INFO: s = "info"; break;
case SERIAL_STATE_MARKER: s = "marker"; break;
case SERIAL_STATE_SWEEP: s = "sweep"; break;
case SERIAL_STATE_STAT: s = "stat"; break;
case SERIAL_STATE_TIME: s = "time"; break;
case SERIAL_STATE_VBAT: s = "vbat"; break;
case SERIAL_STATE_VBAT_OFFSET: s = "vbat_offset"; break;
case SERIAL_STATE_INTEGRATOR: s = "integrator"; break;
case SERIAL_STATE_BANDWIDTH: s = "bandwidth"; break;
case SERIAL_STATE_THRESHOLD: s = "threshold"; break;
case SERIAL_STATE_EDELAY: s = "edelay"; break;
case SERIAL_STATE_DEVICE_ID: s = "deviceid"; break;
case SERIAL_STATE_CAL: s = "cal"; break;
case SERIAL_STATE_POWER: s = "power"; break;
case SERIAL_STATE_USART: s = "uart"; break;
case SERIAL_STATE_USART_CFG: s = "uart_cfg"; break;
case SERIAL_STATE_CLEARCONFIG: s = "clearconfig"; break;
case SERIAL_STATE_SAVECONFIG: s = "saveconfig"; break;
case SERIAL_STATE_SCAN: s = "scan"; break;
case SERIAL_STATE_SCAN_BIN: s = "scan_bin"; break;
case SERIAL_STATE_SCANRAW: s = "scanraw"; break;
case SERIAL_STATE_PAUSE: s = "pause"; break;
case SERIAL_STATE_RESUME: s = "resume"; break;
case SERIAL_STATE_RESET: s = "reset"; break;
case SERIAL_STATE_DATA0: s = "data 0"; break;
case SERIAL_STATE_DATA1: s = "data 1"; break;
case SERIAL_STATE_DATA2: s = "data 2"; break;
case SERIAL_STATE_DATA3: s = "data 3"; break;
case SERIAL_STATE_DATA4: s = "data 4"; break;
case SERIAL_STATE_DATA5: s = "data 5"; break;
case SERIAL_STATE_DATA6: s = "data 6"; break;
case SERIAL_STATE_DATA7: s = "data 7"; break;
case SERIAL_STATE_FREQDATA: s = "freq_data"; break;
case SERIAL_STATE_FREQDATA_BIN: s = "freq_data_bin"; break;
case SERIAL_STATE_FREQDATA_RAW: s = "freq_data_raw"; break;
case SERIAL_STATE_SCREEN_CAPTURE: s = "screen_capture"; break;
case SERIAL_STATE_SCREEN_FILL: s = "fill"; break;
case SERIAL_STATE_SCREEN_BULK: s = "bulk"; break;
case SERIAL_STATE_SD_LIST: s = "sd_list"; break;
case SERIAL_STATE_SD_READFILE: s = "sd_readfile"; break;
case SERIAL_STATE_MODE: s = "mode"; break;
default: s = "unknown"; break;
}
return s;
}
void __fastcall CNanoVNA1Comms::reset()
{
m_tx_command = "";
m_tx_commands.resize(0);
m_rx_string = "";
m_pause_comms = false;
m_poll_ms = DEFAULT_POLL_V1_MS;
m_state_timeout_ms = DEFAULT_STATE_TIME_OUT_V1_MS;
m_link_timeout_ms = DEFAULT_LINK_TIME_OUT_V1_MS;
m_mode = MODE_INIT1;
m_poll_timer.mark();
resetRx();
}
void __fastcall CNanoVNA1Comms::resetRx()
{
m_rx_string = "";
m_rx_block.type = SERIAL_STATE_IDLE;
m_rx_block.lines.resize(0);
m_rx_block.bin_data.resize(0);
m_rx_block.bin_data_index = 0;
m_rx_block.timer.mark();
}
void __fastcall CNanoVNA1Comms::setMode(const t_mode mode)
{
// const t_mode prev_mode = m_mode;
m_mode = mode;
// if (mode != prev_mode)
// {
// m_retries = 0;
// if (prev_mode > MODE_IDLE && prev_mode != MODE_POLL && mode == MODE_IDLE)
// {
// m_mode = MODE_POLL;
// poll();
// }
// }
}
void __fastcall CNanoVNA1Comms::pauseComms(bool pause)
{
const bool was_paused = m_pause_comms;
m_pause_comms = pause;
// reset the link timer so as not to immediately timeout the link when it gets unpaused
if (Form1)
{
Form1->m_comms.rx_timer.mark();
Form1->m_comms.link_timer.mark();
}
if (pause)
return;
// un-paused
if (!was_paused)
return;
// was paused, but no more
// do stuff that wasn't being done whilst we were paused
poll();
if (m_mode != MODE_SCAN)
return;
if (data_unit.m_vna_data.cmd_pause)
addSerialTxCommand("pause");
requestScan();
}
int __fastcall CNanoVNA1Comms::serialCommandsSize()
{
return (m_tx_command.IsEmpty()) ? (int)m_tx_commands.size() : 1 + (int)m_tx_commands.size();
}
void __fastcall CNanoVNA1Comms::insertSerialTxCommand(String s, const int command_ends)
{
s = s.Trim();
// remove any trailing "\r\n"
while (s.Length() >= 2)
{
const int i = s.Pos("\r\n");
if (i < (s.Length() - 2))
break;
s = s.SubString(i, s.Length() - 2).Trim();
}
if (s.IsEmpty())
return;
switch (command_ends)
{
case 0: s += "\r\n"; break;
case 1: s += "\n\r"; break;
case 2: s += "\n"; break;
case 3: s += "\r"; break;
}
// insert the command at as the first to next be sent
m_tx_commands.insert(m_tx_commands.begin() + 0, s);
}
void __fastcall CNanoVNA1Comms::addSerialTxCommand(String s, const int command_ends)
{
s = s.Trim();
// remove any trailing "\r\n"
while (s.Length() >= 2)
{
const int i = s.Pos("\r\n");
if (i < (s.Length() - 2))
break;
s = s.SubString(i, s.Length() - 2).Trim();
}
// if (s.IsEmpty())
// return;
switch (command_ends)
{
case 0: s += "\r\n"; break;
case 1: s += "\n\r"; break;
case 2: s += "\n"; break;
case 3: s += "\r"; break;
}
m_tx_commands.push_back(s);
}
void __fastcall CNanoVNA1Comms::sendOutputPowerCommand(int power)
{
if (!data_unit.m_vna_data.cmd_power)
return;
const int value = (power < 0) ? 255 : power;
String s;
s.printf(L"power %d", value);
addSerialTxCommand(s);
}
void __fastcall CNanoVNA1Comms::sendBandwidthCommand()
{
if (!data_unit.m_vna_data.cmd_bandwidth)
return;
String s;
if (data_unit.m_vna_data.adc_Hz <= 0 || data_unit.m_vna_data.audio_samples_count <= 0 || data_unit.m_vna_data.bandwidth_Hz <= 0)
return;
int Hz = data_unit.m_bandwidth_Hz;
if (Hz > data_unit.m_vna_data.max_bandwidth_Hz) Hz = data_unit.m_vna_data.max_bandwidth_Hz;
else
if (Hz < 10) Hz = 10;
int divider = (data_unit.m_vna_data.adc_Hz / data_unit.m_vna_data.audio_samples_count) / (Hz + 1);
// int divider = (BW_HZ / Hz) - 1;
if (divider < 0)
divider = 0;
s.printf(L"bandwidth %d", divider);
// s.printf(L"bandwidth %d Hz", data_unit.m_bandwidth_Hz);
addSerialTxCommand(s);
// addSerialTxCommand("bandwidth");
}
bool __fastcall CNanoVNA1Comms::requestCapture()
{ // request a screen capture from the VNA
if (!m_get_screen_capture || m_rx_block.type != SERIAL_STATE_IDLE)
return false;
m_get_screen_capture = false;
if (!data_unit.m_vna_data.cmd_capture)
return false;
addSerialTxCommand("capture");
return true;
}
void __fastcall CNanoVNA1Comms::setCW(int64_t Hz, int power)
{
String s;
// if (m_poll_timer.millisecs(false) >= m_poll_ms)
// poll();
s.printf(L"scan %lld %lld", Hz, Hz);
addSerialTxCommand(s);
if (data_unit.m_vna_data.cmd_power)
{
const int value = (power < 0) ? 255 : power;
s.printf(L"power %d", value);
addSerialTxCommand(s);
}
}
void __fastcall CNanoVNA1Comms::requestScan()
{
// const int segments = data_unit.m_segments;
const int segment = data_unit.m_segment;
// const int points_per_segment = data_unit.m_points_per_segment;
const int num_points = data_unit.m_points;
const int segments = (data_unit.m_vna_data.type != UNIT_TYPE_TINYSA) ? data_unit.m_segments : 1;
// clear the incoming buffer
if (segment <= 0)
data_unit.m_point_incoming.resize(0);
if (segments <= 0)
return;
const uint32_t seg_span = data_unit.m_freq_span_Hz / segments;
const uint32_t seg_start = data_unit.m_freq_start_Hz + (seg_span * data_unit.m_segment);
const uint32_t seg_stop = seg_start + seg_span;
if (m_poll_timer.millisecs(false) >= m_poll_ms)
poll();
if (data_unit.m_vna_data.type == UNIT_TYPE_JANVNA_V2)
{
}
else
if (data_unit.m_vna_data.type == UNIT_TYPE_TINYSA)
{ // TinySA
uint16_t mask = 0x07;
String s;
if (data_unit.m_vna_data.cmd_scanraw)
s.printf(L"scanraw %u %u %d", seg_start, seg_stop, data_unit.m_points);
else
s.printf(L"scan %u %u %d %u", seg_start, seg_stop, data_unit.m_points, mask);
addSerialTxCommand(s);
}
else
{ // NanoVNA
uint16_t mask = 0;
#if 0
// only request S11 data if the graph is using S11 data
if (settings.timeAverageLevel > 0 || GraphTypeComboBox1->Text.LowerCase().Pos("s11") > 0 || GraphTypeComboBox2->Text.LowerCase().Pos("s11") > 0)
mask |= SCAN_MASK_OUT_DATA0;
#else
mask |= SCAN_MASK_OUT_DATA0;
#endif
#if 0
// only request S21 data if the graph is using S21 data
if (settings.timeAverageLevel > 0 || GraphTypeComboBox1->Text.LowerCase().Pos("s21") > 0 || GraphTypeComboBox2->Text.LowerCase().Pos("s21") > 0)
mask |= SCAN_MASK_OUT_DATA1;
#else
mask |= SCAN_MASK_OUT_DATA1;
#endif
if (settings.calibrationSelection != CAL_SELECT_VNA)
mask |= SCAN_MASK_NO_CALIBRATION; // don't use the VNA's own calibration
//mask |= SCAN_MASK_BINARY;
#if 0
// only request the frequency data on the first scan
if (data_unit.m_total_frames <= 0)
#endif
mask |= SCAN_MASK_OUT_FREQ;
String s;
s.printf(L"%u %u %d %u", seg_start, seg_stop, data_unit.m_points_per_segment, mask);
// s = "scan " + s;
s = (data_unit.m_vna_data.cmd_scan_bin ? "scan_bin " : "scan ") + s;
addSerialTxCommand(s);
}
}
void __fastcall CNanoVNA1Comms::sendTxCommand()
{
if (m_tx_command.IsEmpty())
return;
if (!Form1)
{
m_tx_command = "";
m_tx_commands.resize(0);
return;
}
if (Form1->m_comms.serial.connected)
{ // send the new command through the serial link
Form1->pushCommMessage("tx: " + m_tx_command);
if (Form1->m_comms.serial.TxBytes(AnsiString(m_tx_command).c_str()) <= 0)
{ // failed
Form1->pushCommMessage("tx: error .. " + m_tx_command);
//Form1->m_comms.serial.Disconnect();
//::PostMessage(Form1->Handle, WM_DISCONNECT, 0, 0);
return;
}
Form1->m_comms.rx_timer.mark();
}
#ifdef TCPIPH
if (Form1->m_comms.tcpip.connected)
{ // send the new command through the tcpip link
Form1->pushCommMessage("tx: " + m_tx_command);
if (m_comms.tcpip.TxBytes(AnsiString(m_tx_command).c_str()) <= 0)
{ // failed
Form1->pushCommMessage("tx: " + String("error ") + m_comms.tcpip.lastErrorStr + " .. " + m_tx_command);
//m_comms.tcpip.Disconnect();
//::PostMessage(Form1->Handle, WM_DISCONNECT, 0, 0);
return;
}
Form1->m_comms.rx_timer.mark();
}
#else
if (Form1->m_comms.tcpip)
{
try
{
if (Form1->m_comms.tcpip->Connected())
{ // send the new command through the tcpip link
Form1->pushCommMessage("tx: " + m_tx_command);
Form1->m_comms.tcpip->IOHandler->Write(m_tx_command);
Form1->m_comms.rx_timer.mark();
}
}
catch (Exception &exception)
{
//Application->ShowException(&exception);
Form1->pushCommMessage("tx: tcpip error " + exception.ToString());
}
}
#endif
}
void __fastcall CNanoVNA1Comms::processTxCommands()
{
if (!m_tx_command.IsEmpty())
return; // still waiting for a reply from the previous command
while (!m_tx_commands.empty())
{
// fetch the next queued command
m_tx_command = m_tx_commands.front();
// remove it from the tx queue
m_tx_commands.erase(m_tx_commands.begin() + 0);
if (!m_tx_command.IsEmpty())
break;
}
if (m_tx_command.IsEmpty())
return; // nothing to send
sendTxCommand();
}
void __fastcall CNanoVNA1Comms::poll()
{
m_poll_timer.mark();
switch (m_mode)
{
case MODE_INIT1: // we first just want to see the response to a CR/LF
addSerialTxCommand("");
break;
case MODE_INIT2:
addSerialTxCommand("help");
addSerialTxCommand("version");
addSerialTxCommand("info");
break;
case MODE_INIT3:
if (data_unit.m_vna_data.cmd_deviceid)
addSerialTxCommand("deviceid");
if (data_unit.m_vna_data.cmd_edelay)
addSerialTxCommand("edelay");
if (data_unit.m_vna_data.cmd_vbat_offset)
addSerialTxCommand("vbat_offset");
if (data_unit.m_vna_data.cmd_vbat)
addSerialTxCommand("vbat");
if (data_unit.m_vna_data.cmd_usart_cfg)
addSerialTxCommand("usart_cfg");
if (data_unit.m_vna_data.cmd_threshold)
addSerialTxCommand("threshold");
if (data_unit.m_vna_data.cmd_marker)
addSerialTxCommand("marker");
if (data_unit.m_vna_data.cmd_bandwidth)
addSerialTxCommand("bandwidth");
if (data_unit.m_vna_data.cmd_power)
addSerialTxCommand("power");
if (data_unit.m_vna_data.cmd_sweep)
addSerialTxCommand("sweep");
if (data_unit.m_vna_data.cmd_mode)
addSerialTxCommand("mode");
m_mode = MODE_IDLE;
// if (Form1)
// {
// Form1->ScanOnceSpeedButton->Enabled = true;
// Form1->ScanSpeedButton->Enabled = true;
// }
break;
default:
m_mode = MODE_IDLE;
case MODE_IDLE:
if (m_pause_comms)
break;
if (data_unit.m_vna_data.cmd_usart_cfg && data_unit.m_vna_data.usart_speed <= 0)
addSerialTxCommand("usart_cfg");
if (data_unit.m_vna_data.cmd_deviceid && data_unit.m_vna_data.deviceid < 0)
addSerialTxCommand("deviceid");
if (data_unit.m_vna_data.cmd_vbat_offset && data_unit.m_vna_data.vbat_offset_mv <= 0)
addSerialTxCommand("vbat_offset");
if (data_unit.m_vna_data.cmd_vbat)
addSerialTxCommand("vbat");
if (data_unit.m_vna_data.cmd_marker)
addSerialTxCommand("marker");
if (data_unit.m_vna_data.cmd_sweep)
addSerialTxCommand("sweep");
if (data_unit.m_vna_data.type != UNIT_TYPE_TINYSA)
{
if (data_unit.m_vna_data.cmd_threshold && data_unit.m_vna_data.freq_threshold_Hz <= 0)
addSerialTxCommand("threshold");
//if (data_unit.m_vna_data.cmd_cal)
// addSerialTxCommand("cal");
if (data_unit.m_vna_data.cmd_bandwidth && data_unit.m_vna_data.bandwidth_Hz <= 0)
addSerialTxCommand("bandwidth");
}
else
{
if (data_unit.m_vna_data.cmd_mode)
addSerialTxCommand("mode");
}
break;
case MODE_SINGLE_SCAN:
case MODE_SCAN:
case MODE_GENERATOR:
if (m_pause_comms)
break;
if (data_unit.m_vna_data.cmd_vbat)
addSerialTxCommand("vbat");
break;
}
}
void __fastcall CNanoVNA1Comms::extractVersionInfo(String s)
{
int i;
// Version: 1.0.25 [p:101, IF:12k, ADC:192k, Lcd:320x240]
s = s.Trim().LowerCase();
data_unit.m_vna_data.dislord = (s.Pos("dislord") > 0) ? true : false; // https://github.com/DiSlord/NanoVNA
data_unit.m_vna_data.oneofeleven = (s.Pos("oneofeleven") > 0) ? true : false; // https://github.com/OneOfEleven/NanoVNA
i = s.Pos('[');
if (i <= 0)
return;
s = s.SubString(i + 1, s.Length()).Trim();
i = s.Pos(']');
if (i <= 0)
return;
s = s.SubString(1, i - 1).Trim();
std::vector <String> params;
common.parseString(s, ",", params);
for (unsigned int k = 0; k < params.size(); k++)
{
String s1;
String s2;
s1 = params[k];
if (s1.Pos("p:") == 1)
{
s1 = s1.SubString(3, s1.Length()).Trim();
if (s1.IsEmpty())
continue;
if (!TryStrToInt(s1, i) || i < 51)
continue;
data_unit.m_vna_data.max_points = i;
continue;
}
if (s1.Pos("if:") == 1)
{
s1 = s1.SubString(4, s1.Length()).Trim();
if (s1.IsEmpty())
continue;
const char units = s1[s1.Length()];
s1 = s1.SubString(1, s1.Length() - 1).Trim();
if (!TryStrToInt(s1, i) || i <= 0)
continue;
if (units == 'k')
i *= 1000;
else
if (units == 'm')
i *= 1000000;
data_unit.m_vna_data.if_Hz = i;
continue;
}
if (s1.Pos("adc:") == 1)
{
s1 = s1.SubString(5, s1.Length()).Trim();
if (s1.IsEmpty())
continue;
const char units = s1[s1.Length()];
s1 = s1.SubString(1, s1.Length() - 1).Trim();
if (!TryStrToInt(s1, i) || i <= 0)
continue;
if (units == 'k')
i *= 1000;
else
if (units == 'm')
i *= 1000000;
data_unit.m_vna_data.adc_Hz = i;
if (data_unit.m_vna_data.adc_Hz > 0 && data_unit.m_vna_data.audio_samples_count > 0)
data_unit.m_vna_data.max_bandwidth_Hz = data_unit.m_vna_data.adc_Hz / data_unit.m_vna_data.audio_samples_count;
continue;
}
if (s1.Pos("lcd:") == 1)
{
int j;
s1 = s1.SubString(5, s1.Length()).Trim();
if (s1.IsEmpty())
continue;
i = s1.Pos('x');
if (i <= 0)
continue;
s2 = s1.SubString(1, i - 1).Trim();
s1 = s1.SubString(i + 1, s1.Length()).Trim();
if (!TryStrToInt(s2, i) || !TryStrToInt(s1, j) || i <= 0 || j <= 0)
continue;
data_unit.m_vna_data.lcd_width = i;
data_unit.m_vna_data.lcd_height = j;
continue;
}
}
}
void __fastcall CNanoVNA1Comms::extractInfoCommand()
{
data_unit.m_vna_data.type = UNIT_TYPE_NONE;
data_unit.m_vna_data.dislord = false;
data_unit.m_vna_data.oneofeleven = false;
data_unit.m_vna_data.info = m_rx_block.lines;
data_unit.m_vna_data.lcd_width = 0;
data_unit.m_vna_data.lcd_height = 0;
data_unit.m_vna_data.max_points = 0;
data_unit.m_vna_data.max_bandwidth_Hz = 0;
data_unit.m_vna_data.if_Hz = 0;
data_unit.m_vna_data.adc_Hz = 0;
data_unit.m_vna_data.audio_samples_count = 0;
// original version ..
// Kernel: 4.0.0
// Compiler: GCC 8.3.1 20190703 (release) [gcc-8-branch revision 273027]
// Architecture: ARMv6-M
// Core Variant: Cortex-M0
// Port Info: Preemption through NMI
// Platform: STM32F072xB Entry Level Medium Density devices
// Board: NanoVNA-H
// Build time: Jan 18 2020 - 23:46:28
// dislord version ..
// Board: NanoVNA
// 2016-2020 Copyright @edy555
// Licensed under GPL. See: https://github.com/ttrftech/NanoVNA
// Version: 0.9.3.4 beta FAT16/FAT32- SD Card, by DiSlord
// Build Time: Jun 20 2020 - 17:08:40
// Kernel: 4.0.0
// Compiler: GCC 9.2.1 20191025 (release) [ARM/arm-9-branch revision 277599]
// Architecture: ARMv6-M Core Variant: Cortex-M0
// Port Info: Preemption through NMI
// Platform: STM32F072xB Entry Level Medium Density devices
// Board: NanoVNA
// 2019-2020 Copyright @DiSlord (based on @edy555 source)
// Licensed under GPL. See: https://github.com/DiSlord/NanoVNA-D
// Version: 1.0.25 [p:101, IF:12k, ADC:192k, Lcd:320x240]
// Build Time: Sep 2 2020 - 12:38:59
// Kernel: 4.0.0
// Compiler: GCC 9.2.1 20191025 (release) [ARM/arm-9-branch revision 277599]
// Architecture: ARMv6-M Core Variant: Cortex-M0
// Port Info: Preemption through NMI
// Platform: STM32F072xB Entry Level Medium Density devices
// tinySA info reply ..
//
// tinySA v0.3
// 2019-2020 Copyright @Erik Kaashoek
// 2016-2020 Copyright @edy555
// SW licensed under GPL. See: https://github.com/erikkaashoek/tinySA
// Version: tinySA_v1.0-80-gb798ea2
// Build Time: Sep 9 2020 - 16:39:59
// Kernel: 4.0.0
// Compiler: GCC 7.2.1 20170904 (release) [ARM/embedded-7-branch revision 255204]
// Architecture: ARMv6-M Core Variant: Cortex-M0
// Port Info: Preemption through NMI
// Platform: STM32F072xB Entry Level Medium Density devices
// remember the current unit type
const int prev_unit_type = data_unit.m_vna_data.type;
for (unsigned int i = 0; i < m_rx_block.lines.size(); i++)
{
String s = m_rx_block.lines[i].Trim().LowerCase();
// if (s.Pos("board:") <= 0)
// continue;
if (s.Pos("nanovna-h7") > 0 || s.Pos("nanovna-h 7") > 0)
{
data_unit.m_vna_data.type = UNIT_TYPE_NANOVNA_H7;
break;
}
if (s.Pos("nanovna-h4") > 0 || s.Pos("nanovna-h 4") > 0)
{
data_unit.m_vna_data.type = UNIT_TYPE_NANOVNA_H4;
break;
}
if (s.Pos("nanovna") > 0 || s.Pos("nanovna-h") > 0)
{
data_unit.m_vna_data.type = UNIT_TYPE_NANOVNA_H;
break;
}
if (s.Pos("tinysa") > 0)
{
data_unit.m_vna_data.type = UNIT_TYPE_TINYSA;
break;
}
}
// set new unit type
switch (data_unit.m_vna_data.type)
{
case UNIT_TYPE_NONE: data_unit.m_vna_data.name = "NONE-unit-type"; break;
case UNIT_TYPE_UNKNOWN: data_unit.m_vna_data.name = "UNKNOWN-unit-type"; break;
case UNIT_TYPE_NANOVNA_H: data_unit.m_vna_data.name = "NanoVNA-H"; break;
case UNIT_TYPE_NANOVNA_H4: data_unit.m_vna_data.name = "NanoVNA-H4"; break;
case UNIT_TYPE_NANOVNA_H7: data_unit.m_vna_data.name = "NanoVNA-H7"; break;
case UNIT_TYPE_NANOVNA_V2: data_unit.m_vna_data.name = "NanoVNA-V2"; break;
case UNIT_TYPE_JANVNA_V2: data_unit.m_vna_data.name = "JanVNA-V2"; break;
case UNIT_TYPE_TINYSA: data_unit.m_vna_data.name = "tinySA"; break;
default: data_unit.m_vna_data.name = "ERROR-unit-type"; break;
}
for (unsigned int i = 0; i < m_rx_block.lines.size(); i++)
{
const String s = m_rx_block.lines[i].Trim().LowerCase();
if (s.Pos("version:") > 0)
extractVersionInfo(s);
}
switch (data_unit.m_vna_data.type)
{
default:
case UNIT_TYPE_NONE:
case UNIT_TYPE_NANOVNA_H:
if (data_unit.m_vna_data.audio_samples_count <= 0)
{
data_unit.m_vna_data.audio_samples_count = 48;
if (data_unit.m_vna_data.adc_Hz > 0 && data_unit.m_vna_data.audio_samples_count > 0)
data_unit.m_vna_data.max_bandwidth_Hz = data_unit.m_vna_data.adc_Hz / data_unit.m_vna_data.audio_samples_count;
}
if (data_unit.m_vna_data.lcd_width <= 0 && data_unit.m_vna_data.lcd_height <= 0)
{
data_unit.m_vna_data.lcd_width = 320;
data_unit.m_vna_data.lcd_height = 240;
}
if (data_unit.m_vna_data.max_points <= 0)
data_unit.m_vna_data.max_points = 101;
if (data_unit.m_vna_data.max_bandwidth_Hz <= 0)
data_unit.m_vna_data.max_bandwidth_Hz = data_unit.m_vna_data.dislord ? 4000 : 2000;
break;
case UNIT_TYPE_NANOVNA_H4:
if (data_unit.m_vna_data.audio_samples_count <= 0)
{
data_unit.m_vna_data.audio_samples_count = 96;
if (data_unit.m_vna_data.adc_Hz > 0 && data_unit.m_vna_data.audio_samples_count > 0)
data_unit.m_vna_data.max_bandwidth_Hz = data_unit.m_vna_data.adc_Hz / data_unit.m_vna_data.audio_samples_count;
}
if (data_unit.m_vna_data.lcd_width <= 0 && data_unit.m_vna_data.lcd_height <= 0)
{
data_unit.m_vna_data.lcd_width = 480;
data_unit.m_vna_data.lcd_height = 320;
}
if (data_unit.m_vna_data.max_points <= 0)
data_unit.m_vna_data.max_points = 401;
if (data_unit.m_vna_data.max_bandwidth_Hz <= 0)
data_unit.m_vna_data.max_bandwidth_Hz = 4000;
break;
case UNIT_TYPE_NANOVNA_H7:
if (data_unit.m_vna_data.audio_samples_count <= 0)
{
data_unit.m_vna_data.audio_samples_count = 96;
if (data_unit.m_vna_data.adc_Hz > 0 && data_unit.m_vna_data.audio_samples_count > 0)
data_unit.m_vna_data.max_bandwidth_Hz = data_unit.m_vna_data.adc_Hz / data_unit.m_vna_data.audio_samples_count;
}
if (data_unit.m_vna_data.lcd_width <= 0 && data_unit.m_vna_data.lcd_height <= 0)
{
data_unit.m_vna_data.lcd_width = 480;
data_unit.m_vna_data.lcd_height = 320;
}
if (data_unit.m_vna_data.max_points <= 0)
data_unit.m_vna_data.max_points = 401;
if (data_unit.m_vna_data.max_bandwidth_Hz <= 0)
data_unit.m_vna_data.max_bandwidth_Hz = 4000;
break;
// case UNIT_TYPE_NANOVNA_V2:
// break;
// case UNIT_TYPE_JANVNA_V2:
// break;
case UNIT_TYPE_TINYSA:
data_unit.m_vna_data.lcd_width = 320;
data_unit.m_vna_data.lcd_height = 240;
break;
}
::PostMessage(Form1->Handle, WM_NEW_UNIT_TYPE, 0, 0);
}
void __fastcall CNanoVNA1Comms::extractPower(String s)
{
const int pos = s.Pos("power:");
if (pos <= 0)
return;
s = s.SubString(pos + 6, s.Length()).Trim();
int value = 255;
if (!TryStrToInt(common.localiseDecimalPoint(s), value))
return;
// const int prev_power = data_unit.m_vna_data.power;
data_unit.m_vna_data.power = value;
if (value >= 255)
value = -1;
settings.outputPower = value;
::PostMessage(Form1->Handle, WM_UPDATE_OUTPUT_POWER, value, 0);
}
void __fastcall CNanoVNA1Comms::processRxBlock()
{
const int segments = (data_unit.m_vna_data.type != UNIT_TYPE_TINYSA) ? data_unit.m_segments : 1;
if (m_rx_block.type == SERIAL_STATE_IDLE)
{
if (m_mode == MODE_INIT1)
{
m_mode = MODE_INIT2;
poll();
}
}
else
{
String s = getSerialStateString(m_rx_block.type);
// if (m_rx_block.timer.millisecs(false) < 5000)
{
if (m_rx_block.lines.size() > 0 || m_rx_block.bin_data.size() > 0)
{
// m_poll_timer.mark();
switch (m_rx_block.type)
{
default:
case SERIAL_STATE_IDLE:
if (m_mode == MODE_INIT1)
{
m_mode = MODE_INIT2;
poll();
}
break;
case SERIAL_STATE_HELP:
data_unit.m_vna_data.help = "";
for (unsigned int i = 0; i < m_rx_block.lines.size(); i++)
{
// original version
// Commands: help exit info threads version reset freq offset saveconfig clearconfig data frequencies port stat gain power sample scan sweep test touchcal touchtest pause resume cal save recall trace marker edelay capture vbat transform threshold vbat_offset
// DiSlords new version
// Commands: scan scan_bin data frequencies freq sweep power bandwidth time saveconfig clearconfig touchcal touchtest pause resume cal save recall trace marker edelay capture vbat reset usart_cfg usart vbat_offset transform threshold help info version color
// TinySA
// Commands: version reset freq dac saveconfig clearconfig data frequencies scan scanraw sweep test touchcal touchtest pause resume caloutput save recall trace trigger marker capture vbat vbat_offset help info color if attenuate level sweeptime leveloffset levelchange modulation rbw mode spur load output deviceid selftest correction threads
//std::vector <String> params;
//common.parseString(m_rx_block.lines[i].Trim().LowerCase(), " ", params);
String s2 = m_rx_block.lines[i].Trim().LowerCase();
if (!s2.IsEmpty())
{
if (s2[s2.Length()] == '?')
{ // the unit replied with an error .. try again
insertSerialTxCommand("help");
}
else
{