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实现串口监控功能,重构 ComKit::Work 方法以支持指定端口

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This commit is contained in:
JIe 2024-11-07 17:35:02 +08:00
parent cea5209222
commit 7316c326d0
7 changed files with 365 additions and 312 deletions
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2
include/ComKit.h
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@ -38,7 +38,7 @@ class ComKit {
static std::vector<ComStruct> *GetAllComPortNames();
static void Start(std::string, std::string);
static void End();
static void Work();
static void Work(const std::string& port_name);
static bool ChangeComPortNumber(const std::string &oldPortName,
const std::string &newPortName);
static std::vector<std::string> watchingComPort;

28
include/ComWatch.h Normal file
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@ -0,0 +1,28 @@
#ifndef COMWATCH_H
#include "serial.h"
#include "spdlog/spdlog.h"
#include <functional>
#include <string>
#include <mutex>
#include <thread>
enum class SIGNAL_TYPE{
REMOVE_,
ADD_,
};
class SerialWatch {
private:
std::function<void(const std::string&, SIGNAL_TYPE type)> callback;
std::jthread work_thread;
std::stop_source s;
std::mutex m;
public:
SerialWatch() = default;
~SerialWatch();
void set_callback(std::function<void(const std::string&, SIGNAL_TYPE type)> func);
void work();
};
#endif // !COMWATCH_H

518
include/serial.h
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@ -22,300 +22,298 @@ namespace ranges = std::ranges;
namespace views = std::views;
namespace serial {
template <typename... Types> struct _StrongType {};
template <typename... Types> struct _StrongType {};
template <typename T> struct _StrongType<T> {
using Type = T;
};
template <typename T> struct _StrongType<T> {
using Type = T;
};
template <typename Ta, typename Tb> struct _StrongType<Ta, Tb> {
using Type = decltype(true ? std::declval<Ta>() : std::declval<Tb>());
};
template <typename Ta, typename Tb> struct _StrongType<Ta, Tb> {
using Type = decltype(true ? std::declval<Ta>() : std::declval<Tb>());
};
template <typename T, typename... Types> struct _StrongType<T, Types...> {
using Type =
typename _StrongType<T, typename _StrongType<Types...>::Type>::Type;
};
template <typename T, typename... Types> struct _StrongType<T, Types...> {
using Type =
typename _StrongType<T, typename _StrongType<Types...>::Type>::Type;
};
template <typename... Types>
using _strongType_t = typename _StrongType<Types...>::Type;
template <typename... Types>
using _strongType_t = typename _StrongType<Types...>::Type;
template <typename... Args> struct _IsCastable {};
template <typename... Args> struct _IsCastable {};
template <typename T> struct _IsCastable<T> {
static constexpr bool value = true;
using Type = T;
};
template <typename T> struct _IsCastable<T> {
static constexpr bool value = true;
using Type = T;
};
template <typename T, typename U> struct _IsCastable<T, U> {
using __TRUE = char;
using __FALSE = struct {
char _[2];
};
static consteval __TRUE __TEST(U);
static consteval __FALSE __TEST(...);
static constexpr bool value =
sizeof(__TEST(std::declval<T>())) == sizeof(__TRUE);
using Type = std::conditional_t<value, U, void>;
};
template <typename T, typename U> struct _IsCastable<T, U> {
using __TRUE = char;
using __FALSE = struct {
char _[2];
};
static consteval __TRUE __TEST(U);
static consteval __FALSE __TEST(...);
static constexpr bool value =
sizeof(__TEST(std::declval<T>())) == sizeof(__TRUE);
using Type = std::conditional_t<value, U, void>;
};
template <typename T, typename... Args> struct _IsCastable<T, Args...> {
static constexpr bool value =
_IsCastable<T, typename _IsCastable<Args...>::Type>::value;
using Type =
std::conditional_t<value, typename _IsCastable<Args...>::Type, void>;
};
template <typename T, typename... Args> struct _IsCastable<T, Args...> {
static constexpr bool value =
_IsCastable<T, typename _IsCastable<Args...>::Type>::value;
using Type =
std::conditional_t<value, typename _IsCastable<Args...>::Type, void>;
};
template <typename T>
concept _SupportString = requires {
_IsCastable<T, const char*, char*, std::string, std::string_view>::value;
};
template <_SupportString T> [[maybe_unused]] std::string _to_string(T&& str) {
if constexpr (std::is_same_v<std::decay_t<T>, std::string>) {
return str;
}
else if constexpr (std::is_same_v<std::decay_t<T>, std::string_view>) {
return std::move(std::string(str.data()));
}
else if constexpr (std::is_same_v<std::decay_t<T>, const char*>) {
return std::string(str);
}
}
template <typename T>
concept _SupportString = requires {
_IsCastable<T, const char *, char *, std::string, std::string_view>::value;
};
template <_SupportString T> [[maybe_unused]] std::string _to_string(T &&str) {
if constexpr (std::is_same_v<std::decay_t<T>, std::string>) {
return str;
} else if constexpr (std::is_same_v<std::decay_t<T>, std::string_view>) {
return std::move(std::string(str.data()));
} else if constexpr (std::is_same_v<std::decay_t<T>, const char *>) {
return std::string(str);
}
}
static std::vector<std::string> GetUsbPorts() {
static std::vector<std::string> GetUsbPorts() {
#if defined(_WIN32) || defined(_WIN64)
std::vector<std::string> portArray;
std::string comname;
std::string showname;
ranges::for_each(views::iota(1, 256), [&](int i) {
std::format_to(std::back_inserter(comname), "\\\\.\\COM{}", i);
std::format_to(std::back_inserter(showname), "COM{}", i);
const HANDLE m_handle = ::CreateFileA(
comname.c_str(), static_cast<DWORD>(GENERIC_WRITE) | GENERIC_READ,
0U, nullptr, OPEN_EXISTING, 0U, nullptr);
if (m_handle != INVALID_HANDLE_VALUE) {
portArray.push_back(showname);
CloseHandle(m_handle);
}
comname.clear();
showname.clear();
});
return portArray;
std::vector<std::string> portArray;
std::string comname;
std::string showname;
ranges::for_each(views::iota(1, 256), [&](int i) {
std::format_to(std::back_inserter(comname), "\\\\.\\COM{}", i);
std::format_to(std::back_inserter(showname), "COM{}", i);
const HANDLE m_handle = ::CreateFileA(
comname.c_str(), static_cast<DWORD>(GENERIC_WRITE) | GENERIC_READ,
0U, nullptr, OPEN_EXISTING, 0U, nullptr);
if (m_handle != INVALID_HANDLE_VALUE) {
portArray.emplace_back(showname);
CloseHandle(m_handle);
} else if(GetLastError() == ERROR_ACCESS_DENIED){
portArray.emplace_back(showname);
}
comname.clear();
showname.clear();
});
return portArray;
#elif defined(__linux__)
#endif
}
}
enum class [[maybe_unused]] SerialErrorCode {
SUCCESS,
TIMEOUT,
SETTIMEOUTERROR,
WRITEINGERROR,
READINGERROR,
};
enum class [[maybe_unused]] SerialErrorCode {
SUCCESS,
TIMEOUT,
SETTIMEOUTERROR,
WRITEINGERROR,
READINGERROR,
};
enum SerialDataBits {
DATABIT_5 = 0,
DATABIT_6,
DATABIT_7,
DATABIT_8,
DATABIT_16,
};
enum SerialStopBits {
STOPBIT_1 = 0,
STOPBIT_1_5,
STOPBIT_2,
};
enum SerialParity {
SERIAL_PARITY_NONE = 0,
SERIAL_PARITY_EVEN,
SERIAL_PARITY_ODD,
SERIAL_PARITY_MARK,
SERIAL_PARITY_SPACE,
};
enum SerialDataBits {
DATABIT_5 = 0,
DATABIT_6,
DATABIT_7,
DATABIT_8,
DATABIT_16,
};
enum SerialStopBits {
STOPBIT_1 = 0,
STOPBIT_1_5,
STOPBIT_2,
};
enum SerialParity {
SERIAL_PARITY_NONE = 0,
SERIAL_PARITY_EVEN,
SERIAL_PARITY_ODD,
SERIAL_PARITY_MARK,
SERIAL_PARITY_SPACE,
};
class Serial {
private:
serialib ser;
const char* endChar = "\r\n";
std::function<void(const std::string&)> logCallBack;
bool removeEcho = true; // 剔除回显
class Serial {
private:
serialib ser;
const char *endChar = "\r\n";
std::function<void(const std::string &)> logCallBack;
bool removeEcho = true; // 剔除回显
public:
Serial() = default;
~Serial() { CloseDevice(); }
Serial(const Serial& other) = delete;
Serial(Serial&& other) = delete;
Serial& operator=(const Serial& other) = delete;
Serial& operator=(Serial&& other) = delete;
public:
Serial() = default;
~Serial() { CloseDevice(); }
Serial(const Serial &other) = delete;
Serial(Serial &&other) = delete;
Serial &operator=(const Serial &other) = delete;
Serial &operator=(Serial &&other) = delete;
auto SetRemoveEcho(bool remove) { removeEcho = remove; }
auto SetDtr(bool flag) { return flag ? ser.setDTR() : ser.clearDTR(); }
auto SetRts(bool flag) { return flag ? ser.setRTS() : ser.clearRTS(); }
auto SetRemoveEcho(bool remove) { removeEcho = remove; }
auto SetDtr(bool flag) { return flag ? ser.setDTR() : ser.clearDTR(); }
auto SetRts(bool flag) { return flag ? ser.setRTS() : ser.clearRTS(); }
static std::string GetTimeNow() {
auto now = std::chrono::system_clock::now();
auto now_c = std::chrono::system_clock::to_time_t(now);
char buffer[32];
auto _ = ctime_s(buffer, 32, &now_c);
return buffer;
}
static std::string GetTimeNow() {
auto now = std::chrono::system_clock::now();
auto now_c = std::chrono::system_clock::to_time_t(now);
char buffer[32];
auto _ = ctime_s(buffer, 32, &now_c);
return buffer;
}
bool IsOpen() { return ser.isDeviceOpen(); }
bool IsOpen() { return ser.isDeviceOpen(); }
template <_SupportString T>
bool OpenDevice(T portName, unsigned int bauds = 115200, int delayTime = 0,
SerialDataBits dataBits = SerialDataBits::DATABIT_8,
SerialStopBits stopBits = SerialStopBits::STOPBIT_1,
SerialParity parity = SerialParity::SERIAL_PARITY_NONE) {
template <_SupportString T>
bool OpenDevice(T portName, unsigned int bauds = 115200, int delayTime = 0,
SerialDataBits dataBits = SerialDataBits::DATABIT_8,
SerialStopBits stopBits = SerialStopBits::STOPBIT_1,
SerialParity parity = SerialParity::SERIAL_PARITY_NONE) {
#if defined(_WIN32) || defined(__WIN64)
std::string reallyPortName;
std::format_to(std::back_inserter(reallyPortName), "\\\\.\\{}",
portName);
std::string reallyPortName;
std::format_to(std::back_inserter(reallyPortName), "\\\\.\\{}",
portName);
#elif defined(__linux__)
std::string reallyPortName = std::string(portName);
std::string reallyPortName = std::string(portName);
#endif
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
if (ser.isDeviceOpen())
ser.closeDevice();
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
if (ser.isDeviceOpen())
ser.closeDevice();
int code = ser.openDevice(reallyPortName.c_str(), bauds,
static_cast<::SerialDataBits>(dataBits),
static_cast<::SerialParity>(parity),
static_cast<::SerialStopBits>(stopBits));
if (code == 1) {
return true;
}
else {
return false;
}
}
int code = ser.openDevice(reallyPortName.c_str(), bauds,
static_cast<::SerialDataBits>(dataBits),
static_cast<::SerialParity>(parity),
static_cast<::SerialStopBits>(stopBits));
if (code == 1) {
return true;
} else {
return false;
}
}
void Log(const std::string& log) const {
if (logCallBack) {
auto msg = GetTimeNow() + " " + log;
logCallBack(msg);
}
}
void Log(const std::string &log) const {
if (logCallBack) {
auto msg = GetTimeNow() + " " + log;
logCallBack(msg);
}
}
void
SetLogCallBack(const std::function<void(const std::string&)>& callBack) {
logCallBack = callBack;
}
void CloseDevice() {
if (!ser.isDeviceOpen())
return;
ser.closeDevice();
}
void
SetLogCallBack(const std::function<void(const std::string &)> &callBack) {
logCallBack = callBack;
}
void CloseDevice() {
if (!ser.isDeviceOpen())
return;
ser.closeDevice();
}
template <_SupportString T>
std::expected<std::string, SerialErrorCode>
DelayGetResponse(int delayTime, T command, int timeout = 50) {
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
return GetAtResponse(command, timeout);
}
template <_SupportString T>
std::expected<std::string, SerialErrorCode>
DelayGetResponse(int delayTime, T command, int timeout = 50) {
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
return GetAtResponse(command, timeout);
}
template <int repeatTime = 5, int delayTime = 200, int timeout = 200,
_SupportString T, _SupportString... Args>
bool GetAtUntilRepeat(T command, Args... args) {
std::stringstream ss;
int i = 0;
while (i++ < repeatTime) {
ss.str("");
ss << "Count: " << i << "\n";
Log(ss.str());
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
if (GetAtUntil<timeout>(command, args...))
return true;
}
return false;
}
template <int repeatTime = 5, int delayTime = 200, int timeout = 200,
_SupportString T, _SupportString... Args>
bool GetAtUntilRepeat(T command, Args... args) {
std::stringstream ss;
int i = 0;
while (i++ < repeatTime) {
ss.str("");
ss << "Count: " << i << "\n";
Log(ss.str());
std::this_thread::sleep_for(std::chrono::milliseconds(delayTime));
if (GetAtUntil<timeout>(command, args...))
return true;
}
return false;
}
template <_SupportString T>
std::expected<std::string, SerialErrorCode>
GetAtResponse(T command, int timeout = 50) {
ser.flushReceiver();
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send: " + reallyCommand);
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
std::memset(buffer.get(), 0, availableSize);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
template <_SupportString T>
std::expected<std::string, SerialErrorCode>
GetAtResponse(T command, int timeout = 50) {
ser.flushReceiver();
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send: " + reallyCommand);
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
std::memset(buffer.get(), 0, availableSize);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
if (size > 0) {
buffer[size] = '\0';
std::string response = std::string(buffer.get());
Log("Receive: " + response);
if (removeEcho)
response.replace(0, reallyCommand.length(), "");
return response;
}
return std::unexpected(SerialErrorCode::TIMEOUT);
}
if (size > 0) {
buffer[size] = '\0';
std::string response = std::string(buffer.get());
Log("Receive: " + response);
if (removeEcho)
response.replace(0, reallyCommand.length(), "");
return response;
}
return std::unexpected(SerialErrorCode::TIMEOUT);
}
template <_SupportString T>
auto GetAtResponseRepeat(T command, int timeout = 200, int repeatTime = 1)
-> void {
for (int i = 0; i <= repeatTime; i++) {
auto _ = GetAtResponse(command, timeout);
}
}
template <_SupportString T>
auto GetAtResponseRepeat(T command, int timeout = 200, int repeatTime = 1)
-> void {
for (int i = 0; i <= repeatTime; i++) {
auto _ = GetAtResponse(command, timeout);
}
}
template <int timeout = 200, _SupportString T, _SupportString... Args>
bool GetAtUntil(T command, Args... expect) {
auto endTime = std::chrono::system_clock::now() +
std::chrono::milliseconds(timeout);
ser.flushReceiver();
std::string resp;
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send : " + reallyCommand);
while (std::chrono::system_clock::now() < endTime) {
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
buffer[size] = '\0';
auto str = std::string(buffer.get());
if (size > 0){
Log("Receive: " + str);
resp += str;
}
if (((str.find(expect) != std::string::npos) && ...)) {
return true;
}
}
return false;
}
template <int timeout = 200, _SupportString T, _SupportString... Args>
bool GetAtUntil(T command, Args... expect) {
auto endTime = std::chrono::system_clock::now() +
std::chrono::milliseconds(timeout);
ser.flushReceiver();
std::string resp;
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send : " + reallyCommand);
while (std::chrono::system_clock::now() < endTime) {
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
buffer[size] = '\0';
auto str = std::string(buffer.get());
if (size > 0) {
Log("Receive: " + str);
resp += str;
}
if (((str.find(expect) != std::string::npos) && ...)) {
return true;
}
}
return false;
}
template <int timeout = 200, _SupportString T, _SupportString... Args>
std::string GetAtUntilAndReturn(T command, Args... expect)
{
auto endTime = std::chrono::system_clock::now() +
std::chrono::milliseconds(timeout);
ser.flushReceiver();
std::string resp = "";
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send : " + reallyCommand);
while (std::chrono::system_clock::now() < endTime) {
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
buffer[size] = '\0';
auto str = std::string(buffer.get());
resp += str;
if (size > 0)
Log("Receive: " + str);
if (((resp.find(expect) != std::string::npos) && ...)) {
return resp;
}
}
return resp;
}
};
template <int timeout = 200, _SupportString T, _SupportString... Args>
std::string GetAtUntilAndReturn(T command, Args... expect) {
auto endTime = std::chrono::system_clock::now() +
std::chrono::milliseconds(timeout);
ser.flushReceiver();
std::string resp = "";
std::string reallyCommand = std::string(command) + endChar;
ser.writeString(reallyCommand.c_str());
Log("Send : " + reallyCommand);
while (std::chrono::system_clock::now() < endTime) {
std::this_thread::sleep_for(10ms);
auto availableSize = ser.available();
auto buffer = std::make_unique<char[]>(availableSize + 1);
auto size = ser.readBytes(buffer.get(), availableSize, timeout);
buffer[size] = '\0';
auto str = std::string(buffer.get());
resp += str;
if (size > 0)
Log("Receive: " + str);
if (((resp.find(expect) != std::string::npos) && ...)) {
return resp;
}
}
return resp;
}
};
} // namespace serial
#endif // SERIAL_H

37
src/ComKit.cc
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@ -136,32 +136,21 @@ void ComKit::Start(std::string watchingPort, std::string input_commands) {
commands = std::move(Split(input_commands));
isWorking = true;
}
void ComKit::Work() {
void ComKit::Work(const std::string &port_name) {
if (isWorking) {
std::thread([]() {
std::lock_guard<std::mutex> lock(m);
auto currentPortStructures = GetAllComPortNames();
std::vector<std::string> currentPorts;
for (auto s : *currentPortStructures) {
currentPorts.emplace_back(s.comPortName);
}
for (auto &port : watchingComPort) {
if (std::find(currentPorts.begin(), currentPorts.end(), port) !=
currentPorts.end()) {
spdlog::info(
std::format("Start Work With Port [{}]", port));
device.OpenDevice(port);
for (auto &command : commands) {
spdlog::info(std::format("Send Command: {}", command));
std::this_thread::sleep_for(50ms);
auto resp = device.GetAtUntilAndReturn(command, "OK");
spdlog::info(std::format("resp: {}", resp));
FlushLog();
}
device.CloseDevice();
if (ranges::find(watchingComPort, port_name) != watchingComPort.end())
std::thread([&port_name]() {
spdlog::info(std::format("start working with [{}]", port_name));
device.OpenDevice(port_name);
for (auto &command : commands) {
spdlog::info(std::format("Send Command: {}", command));
std::this_thread::sleep_for(50ms);
auto resp = device.GetAtUntilAndReturn(command, "OK");
spdlog::info(std::format("resp: {}", resp));
FlushLog();
}
}
}).detach();
device.CloseDevice();
}).detach();
}
}

45
src/ComWatch.cc Normal file
View File

@ -0,0 +1,45 @@
#include "ComWatch.h"
#include <algorithm>
#include <chrono>
#include <ranges>
namespace ranges = std::ranges;
namespace views = std::ranges::views;
using namespace std::literals::chrono_literals;
SerialWatch::~SerialWatch() {
s.request_stop();
if (work_thread.joinable()) {
work_thread.join();
}
}
void SerialWatch::set_callback(
std::function<void(const std::string&, SIGNAL_TYPE type)> func) {
this->callback = func;
}
void SerialWatch::work() {
this->work_thread = std::jthread(
[this](std::stop_token token) {
std::vector<std::string> pre_ports;
while (!token.stop_requested()) {
auto curr_ports = serial::GetUsbPorts();
for (auto &&port : pre_ports) {
if (ranges::find(curr_ports, port) == curr_ports.end()) {
std::lock_guard<std::mutex> lock(m);
if (callback)
callback(port, SIGNAL_TYPE::REMOVE_);
}
}
for (auto &&port : curr_ports) {
if (ranges::find(pre_ports, port) == pre_ports.end()) {
std::lock_guard<std::mutex> lock(m);
if (callback)
callback(port, SIGNAL_TYPE::ADD_);
}
}
pre_ports = std::move(curr_ports);
std::this_thread::sleep_for(500ms);
}
},
s.get_token());
}

20
src/main.cc
View File

@ -1,4 +1,5 @@
#include "ComKit.h"
#include "ComWatch.h"
#include "imgui_helper.h"
#include "imgui_stdlib.h"
#include "spdlog/sinks/basic_file_sink.h"
@ -67,6 +68,25 @@ int main(int argc, char **) {
filterComName = config.at("ComPorts").as_string();
inputCommands = config.at("Commands").as_string();
}
SerialWatch watcher;
watcher.set_callback([](const std::string &port_name, SIGNAL_TYPE type) {
switch (type) {
case SIGNAL_TYPE::REMOVE_:
spdlog::log(spdlog::level::debug,
std::format("port: [{}] removed", port_name));
ComKit::FlushLog();
ComKit::GetAllComPortNames();
break;
case SIGNAL_TYPE::ADD_:
spdlog::log(spdlog::level::debug,
std::format("port: [{}] add", port_name));
ComKit::FlushLog();
ComKit::GetAllComPortNames();
ComKit::Work(port_name);
break;
}
});
watcher.work();
while (isRunning)
helper.Render(
[&]() {

27
third/imgui/imgui_helper.cpp
View File

@ -90,34 +90,7 @@ LRESULT ImGuiHelper::WndProc(HWND hWnd, UINT msg, WPARAM wParam,
PDEV_BROADCAST_HDR pHdr = reinterpret_cast<PDEV_BROADCAST_HDR>(lParam);
switch (wParam) {
case DBT_DEVICEARRIVAL:
if (pHdr->dbch_devicetype == DBT_DEVTYP_PORT) {
PDEV_BROADCAST_PORT pPort =
reinterpret_cast<PDEV_BROADCAST_PORT>(pHdr);
spdlog::log(spdlog::level::debug,
std::format("port: [{}] add", pPort->dbcp_name));
ComKit::FlushLog();
ComKit::GetAllComPortNames();
ComKit::Work();
} else {
spdlog::log(spdlog::level::debug,
std::format("port: other device [{}] add",
pHdr->dbch_devicetype));
}
break;
case DBT_DEVICEREMOVECOMPLETE:
if (pHdr->dbch_devicetype == DBT_DEVTYP_PORT) {
PDEV_BROADCAST_PORT pPort =
reinterpret_cast<PDEV_BROADCAST_PORT>(pHdr);
spdlog::log(
spdlog::level::debug,
std::format("port: [{}] removed", pPort->dbcp_name));
ComKit::FlushLog();
ComKit::GetAllComPortNames();
} else {
spdlog::log(spdlog::level::debug,
std::format("port: other device [{}] add",
pHdr->dbch_devicetype));
}
break;
}
}