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base: DashyFox:todo-ReworkStateMachine
Branches Tags
DashyFox:main DashyFox:neuroFix-stateMashine DashyFox:vanilla-server DashyFox:todo-ReworkStateMachine
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compare: DashyFox:neuroFix-stateMashine
Branches Tags
DashyFox:neuroFix-stateMashine DashyFox:vanilla-server DashyFox:main DashyFox:todo-ReworkStateMachine

6 Commits
todo-Rewor ... neuroFix-s

Author SHA1 Message Date
DashyFox
09d6afe5eb neuro fix 2024-12-11 17:50:16 +03:00
DashyFox
231b43d8bd tmp fix 2024-12-11 14:42:13 +03:00
DashyFox
a4d01ea360 fix state 2024-12-11 13:45:56 +03:00
DashyFox
a9f75262a5 debug 2024-12-09 17:24:34 +03:00
DashyFox
a78990110d upd 2024-12-09 16:03:47 +03:00
DashyFox
9934fda584 vanilla 2024-12-09 15:36:16 +03:00
3 changed files with 222 additions and 352 deletions
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178
src/EthernetOverride/Server.cpp
View File

@ -9,106 +9,120 @@ void EthernetMaketServer::setServerHandler(std::function<void(EthernetMaketClien
void EthernetMaketServer::resetServerHandler() void EthernetMaketServer::resetServerHandler()
{ {
serverHandler = [](EthernetMaketClient &sclient) {}; serverHandler = [](EthernetMaketClient sclient) {};
} }
EthernetMaketClient EthernetMaketServer::available(int sock) // EthernetMaketClient EthernetMaketServer::available(int sock)
{ // {
accept(sock); // accept(sock);
EthernetClient client(sock); // EthernetClient client(sock);
if (EthernetClass::_server_port[sock] == _port && // if (EthernetClass::_server_port[sock] == _port &&
(client.status() == SnSR::ESTABLISHED || // (client.status() == SnSR::ESTABLISHED ||
client.status() == SnSR::CLOSE_WAIT)) // client.status() == SnSR::CLOSE_WAIT))
{ // {
if (client.available()) // if (client.available())
{ // {
return std::move(EthernetMaketClient(client)); // return std::move(EthernetMaketClient(client));
} // }
} // }
return std::move(EthernetMaketClient(MAX_SOCK_NUM)); // return std::move(EthernetMaketClient(MAX_SOCK_NUM));
} // }
void EthernetMaketServer::accept(int sock) // void EthernetMaketServer::accept(int sock)
{ // {
int listening = 0; // int listening = 0;
EthernetClient client(sock); // EthernetClient client(sock);
if (EthernetClass::_server_port[sock] == _port) // if (EthernetClass::_server_port[sock] == _port)
{ // {
if (client.status() == SnSR::LISTEN) // if (client.status() == SnSR::LISTEN)
{ // {
listening = 1; // listening = 1;
} // }
else if (client.status() == SnSR::CLOSE_WAIT && !client.available()) // else if (client.status() == SnSR::CLOSE_WAIT && !client.available())
{ // {
Serial.println("HARD STOP"); // Serial.println("HARD STOP");
client.stop(); // client.stop();
} // }
} // }
if (!listening) // if (!listening)
{ // {
begin(); // // begin();
// begin(sock); // added // begin(sock); // added
} // }
} // }
void EthernetMaketServer::begin(int sock) // void EthernetMaketServer::begin(int sock)
{ // {
EthernetClient client(sock); // EthernetClient client(sock);
if (client.status() == SnSR::CLOSED) // if (client.status() == SnSR::CLOSED)
{ // {
socket(sock, SnMR::TCP, _port, 0); // socket(sock, SnMR::TCP, _port, 0);
listen(sock); // listen(sock);
EthernetClass::_server_port[sock] = _port; // EthernetClass::_server_port[sock] = _port;
serverSocket = sock; // serverSocket = sock;
return; // return;
} // }
// Serial.println(F("EthernetMaketServer::begin() FAIL")); // // Serial.println(F("EthernetMaketServer::begin() FAIL"));
} // }
void EthernetMaketServer::begin()
{
for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
EthernetClient client(sock);
if (client.status() == SnSR::CLOSED) {
socket(sock, SnMR::TCP, _port, 0);
listen(sock);
EthernetClass::_server_port[sock] = _port;
serverSocket = sock;
break;
}
}
// Serial.println(F("EthernetMaketServer::begin() FAIL"));
}
// void EthernetMaketServer::begin()
// {
// for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
// EthernetClient client(sock);
// if (client.status() == SnSR::CLOSED) {
// socket(sock, SnMR::TCP, _port, 0);
// listen(sock);
// EthernetClass::_server_port[sock] = _port;
// serverSocket = sock;
// break;
// }
// }
// // Serial.println(F("EthernetMaketServer::begin() FAIL"));
// }
uint8_t buf[256];
void EthernetMaketServer::tick() void EthernetMaketServer::tick()
{ {
// for (int sock = 0; sock < MAX_SOCK_NUM; sock++) // for (int sock = 0; sock < MAX_SOCK_NUM; sock++)
{ {
sclient = available(serverSocket); EthernetClient sclient = available(/* serverSocket */);
if (sclient.connected() && sclient.available() > 0) size_t dataSize;
if (sclient.connected() && (dataSize = sclient.available()) > 0)
{ {
sclient.activityUpdate(); // Serial.println("Receive!");
serverHandler(sclient);
// memset(buf,0x00,sizeof(buf));
// sclient.read(buf, sizeof(buf));
// Serial.print("Received data: ");
// for (int i = 0; i < dataSize; i++)
// {
// Serial.print(buf[i], HEX);
// Serial.print(" ");
// }
// Serial.println("\n");
// sclient.activityUpdate();
serverHandler(EthernetMaketClient(sclient));
} }
if (!wasConnected && sclient.connected()) // if (!wasConnected && sclient.connected())
{ // {
wasConnected = true; // wasConnected = true;
Serial.println("Client connected"); // Serial.println("Client connected");
} // }
if (wasConnected && !sclient.connected()) // if (wasConnected && !sclient.connected())
{ // {
wasConnected = false; // wasConnected = false;
sclient.stop(); // sclient.stop();
// begin(serverSocket); // // begin(serverSocket);
Serial.println("Client disconnected"); // Serial.println("Client disconnected");
} // }
// // Закрытие соединения по таймеру неактивности // // Закрытие соединения по таймеру неактивности
// if (sclient.connected() && (millis() - lastActivityTime > timeout)) // if (sclient.connected() && (millis() - lastActivityTime > timeout))
// { // {
@ -117,5 +131,5 @@ void EthernetMaketServer::tick()
// // begin(serverSocket); // // begin(serverSocket);
// } // }
} }
sclient.tick_(); // sclient.tick_();
} }

14
src/EthernetOverride/Server.h
View File

@ -8,22 +8,22 @@ class EthernetMaketClient;
class EthernetMaketServer : public EthernetServer class EthernetMaketServer : public EthernetServer
{ {
private: private:
EthernetClient available(); // EthernetClient available();
void accept(int sock); // void accept(int sock);
std::function<void(EthernetMaketClient&)> serverHandler = [](EthernetMaketClient &sclient) {}; std::function<void(EthernetMaketClient)> serverHandler = [](EthernetMaketClient sclient) {};
SOCKET serverSocket = MAX_SOCK_NUM; SOCKET serverSocket = MAX_SOCK_NUM;
bool wasConnected; bool wasConnected;
EthernetMaketClient sclient; // EthernetMaketClient sclient;
public: public:
using EthernetServer::EthernetServer; using EthernetServer::EthernetServer;
EthernetMaketClient available(int sock); // EthernetMaketClient available(int sock);
void setServerHandler(std::function<void(EthernetMaketClient)> handler); void setServerHandler(std::function<void(EthernetMaketClient)> handler);
void resetServerHandler(); void resetServerHandler();
void begin() override; // void begin() override;
void begin(int sock); // void begin(int sock);
void tick(); void tick();
}; };

358
src/EthernetOverride/TCP.cpp
View File

@ -2,286 +2,165 @@
#include "utility/w5500.h" #include "utility/w5500.h"
#include "utility/socket.h" #include "utility/socket.h"
////////////////////////////////////////////////////////////////
EthernetMaketClient::EthernetMaketClient() { EthernetMaketClient::EthernetMaketClient() {
_sock = MAX_SOCK_NUM; _sock = MAX_SOCK_NUM;
// Serial.print("SOCK ?? "); Serial.println(_sock);
} }
EthernetMaketClient::EthernetMaketClient(uint8_t sock) { EthernetMaketClient::EthernetMaketClient(uint8_t sock) {
_sock = sock; _sock = sock;
} }
EthernetMaketClient::EthernetMaketClient(EthernetClient &client) { EthernetMaketClient::EthernetMaketClient(EthernetClient &client) {
_sock = client.getSocketNumber(); _sock = client.getSocketNumber();
} }
void EthernetMaketClient::tick() EthernetMaketClient& EthernetMaketClient::operator=(const EthernetMaketClient& other) {
{ if (this == &other) {
forEach( return *this; // Защита от самоприсваивания
[](EthernetMaketClient& obj) {
obj.tick_();
}
);
} }
//////////////////////////////////////////////////////////////// this->lastActivityTime = other.lastActivityTime;
this->startConnectionTime = other.startConnectionTime;
this->stopStartTime = other.stopStartTime;
this->isNonBlocking = other.isNonBlocking;
this->connectStatus = other.connectStatus;
this->dstIP = other.dstIP;
this->dstPort = other.dstPort;
this->dataPtr = other.dataPtr;
this->dataSize = other.dataSize;
this->onSendSuccess = other.onSendSuccess;
this->_sock = other._sock;
const_cast<EthernetMaketClient&>(other).connectStatus = CONNECT_IDLE;
return *this;
}
ConnectionStatusSimple EthernetMaketClient::connectNonBlock(IPAddress ip, uint16_t port) { ConnectionStatusSimple EthernetMaketClient::connectNonBlock(IPAddress ip, uint16_t port) {
dstIP = ip; dstIP = ip;
dstPort = port; dstPort = port;
// if(connectStatus == CONNECT_IDLE){
// connectStatus = CONNECT_START;
// }
if (_sock != MAX_SOCK_NUM) { if (_sock != MAX_SOCK_NUM) {
uint8_t status_ = status(); uint8_t status_ = status();
switch (status_) { switch (status_) {
case SnSR::CLOSED:
Serial.println(F("connectNonBlock(): CONNECT_FAIL (CLOSED)"));
_sock = MAX_SOCK_NUM;
return CONNECT_FAIL;
break;
case SnSR::ESTABLISHED: case SnSR::ESTABLISHED:
Serial.println(F("connectNonBlock(): CONNECT_SUCCESS (ESTABLISHED)")); connectStatus = CONNECT_SUCCESS;
return CONNECT_SUCCESS; return CONNECT_SUCCESS;
case SnSR::CLOSED:
case SnSR::CLOSE_WAIT:
close(); // Освобождаем сокет перед попыткой нового подключения
break; break;
default: default:
// Serial.println(F("connectNonBlock(): CONNECT_CONNECTING (Default)"));
return CONNECT_CONNECTING; return CONNECT_CONNECTING;
break;
} }
} }
for (int i = 0; i < MAX_SOCK_NUM; i++) { for (int i = 0; i < MAX_SOCK_NUM; i++) {
uint8_t s = w5500.readSnSR(i); uint8_t s = w5500.readSnSR(i);
if (s == SnSR::CLOSED || s == SnSR::FIN_WAIT || s == SnSR::CLOSE_WAIT) { if (s == SnSR::CLOSED || s == SnSR::CLOSE_WAIT) {
_sock = i; _sock = i;
Serial.print("SOCK <- "); Serial.println(_sock);
break; break;
//todo if (s == SnSR::LISTEN){ выполнить приём и занять на время отправки сокет прослушивания }
} }
} }
if (_sock == MAX_SOCK_NUM) { if (_sock == MAX_SOCK_NUM) {
Serial.println(F("connectNonBlock(): CONNECT_FAIL (No available socket)")); connectStatus = CONNECT_FAIL;
return CONNECT_FAIL; return CONNECT_FAIL;
} }
Serial.print("sock: ");
Serial.println(_sock);
_srcport++; _srcport++;
if (_srcport == 0) _srcport = 1024; if (_srcport == 0) _srcport = 1024;
socket(_sock, SnMR::TCP, _srcport, 0); socket(_sock, SnMR::TCP, _srcport, 0);
if (!::connect(_sock, rawIPAddress(ip), port)) { if (!::connect(_sock, rawIPAddress(ip), port)) {
Serial.println(F("connectNonBlock(): CONNECT_FAIL (Connect failed)"));
_sock = MAX_SOCK_NUM; _sock = MAX_SOCK_NUM;
connectStatus = CONNECT_FAIL;
return CONNECT_FAIL; return CONNECT_FAIL;
} }
Serial.println(F("connectNonBlock(): CONNECT_CONNECTING (Connection initiated)")); connectStatus = CONNECT_CONNECTING;
return CONNECT_CONNECTING; return CONNECT_CONNECTING;
} }
void EthernetMaketClient::tick_() {
if (_sock == MAX_SOCK_NUM) {
connectStatus = CONNECT_IDLE;
return;
}
bool EthernetMaketClient::canWriteIntoConnection(size_t size) const { uint8_t s = w5500.readSnSR(_sock);
return connectStatus == CONNECT_CONNECTED /* && w5500.getTXFreeSize(_sock) >= size */;
switch (s) {
case SnSR::CLOSED:
connectStatus = (connectStatus == CONNECT_CONNECTING) ? CONNECT_FAIL : CONNECT_STOP_WAITING;
close();
break;
case SnSR::ESTABLISHED:
if (connectStatus != CONNECT_CONNECTED) {
connectStatus = CONNECT_SUCCESS;
}
break;
case SnSR::CLOSE_WAIT:
connectStatus = CONNECT_STOP_START;
disconnect();
break;
case SnSR::FIN_WAIT:
case SnSR::CLOSING:
case SnSR::TIME_WAIT:
case SnSR::LAST_ACK:
close();
connectStatus = CONNECT_STOP_WAITING;
break;
default:
break;
}
// Проверка активности и таймаутов
if (connectStatus == CONNECT_CONNECTED) {
if (millis() - lastActivityTime > timeout) {
connectStatus = CONNECT_STOP_START;
disconnect();
}
} else if (connectStatus == CONNECT_CONNECTING) {
if (millis() - startConnectionTime >= connectionTimeout) {
connectStatus = CONNECT_FAIL;
close();
}
}
} }
void EthernetMaketClient::disconnect() { void EthernetMaketClient::disconnect() {
if (_sock == MAX_SOCK_NUM) if (_sock != MAX_SOCK_NUM) {
return;
::disconnect(_sock); ::disconnect(_sock);
} }
}
void EthernetMaketClient::close() { void EthernetMaketClient::close() {
if (_sock == MAX_SOCK_NUM) if (_sock != MAX_SOCK_NUM) {
return;
::close(_sock); ::close(_sock);
_sock = MAX_SOCK_NUM; _sock = MAX_SOCK_NUM;
} }
void EthernetMaketClient::tick_(){
if(_sock != MAX_SOCK_NUM && connectStatus!=CONNECT_CONNECTED && connectStatus!=CONNECT_STOP_WAITING&&connectStatus!=CONNECT_CONNECTING){
Serial.print("tick_() sock = "); Serial.println(_sock);
} }
//todo [] Пересмотреть стейт машину перевести на нативные статусы void EthernetMaketClient::startConnection(IPAddress ip, uint16_t port, bool nonBlock) {
switch (connectStatus) dstIP = ip;
{ dstPort = port;
case CONNECT_START: isNonBlocking = nonBlock;
Serial.println("CONNECT_START"); connectStatus = CONNECT_START;
startConnectionTime = millis(); startConnectionTime = millis();
connectStatus = CONNECT_CONNECTING;
close();
Serial.println("CONNECT_CONNECTING...");
{
for (int i = 0; i < MAX_SOCK_NUM; i++) {
uint8_t s = w5500.readSnSR(i);
String state = "";
switch (s) {
case 0x00: state = "CLOSED"; break;
case 0x13: state = "INIT"; break;
case 0x14: state = "LISTEN"; break;
case 0x15: state = "SYNSENT"; break;
case 0x16: state = "SYNRECV"; break;
case 0x17: state = "ESTABLISHED"; break;
case 0x18: state = "FIN_WAIT"; break;
case 0x1A: state = "CLOSING"; break;
case 0x1B: state = "TIME_WAIT"; break;
case 0x1C: state = "CLOSE_WAIT"; break;
case 0x1D: state = "LAST_ACK"; break;
case 0x22: state = "UDP"; break;
case 0x32: state = "IPRAW"; break;
case 0x42: state = "MACRAW"; break;
case 0x5F: state = "PPPOE"; break;
default: state = "UNKNOWN"; break;
}
Serial.print("SOCK <- ");
Serial.print(i);
Serial.print(" State: ");
Serial.println(state);
}
}
break;
case CONNECT_CONNECTING:
if (millis() - startConnectionTime >= connectionTimeout)
{
connectStatus = CONNECT_FAIL;
break;
}
break;
case CONNECT_FAIL:
Serial.println("CONNECT_FAIL");
Serial.print("Failed to connect to server in ");
Serial.println(isNonBlocking ? "non-blocking mode" : "blocking mode");
Serial.println("\n");
connectStatus = CONNECT_STOP_START;
break;
case CONNECT_SUCCESS:
Serial.println("CONNECT_SUCCESS");
Serial.print("Connected to server in ");
Serial.println(isNonBlocking ? "non-blocking mode" : "blocking mode");
lastActivityTime = millis();
connectStatus = CONNECT_CONNECTED;
lastActivityTime = millis(); // Обновляем время последней активности
break;
case CONNECT_CONNECTED:
//! Передача пакетов
dataWrite();
//! Передача завершена
if (!connected())
{
Serial.println("Client disconnected");
connectStatus = CONNECT_STOP_START;
}
// Закрытие соединения по таймеру неактивности
if (connected() && (millis() - lastActivityTime > timeout))
{
Serial.println("Connection closed due to inactivity");
connectStatus = CONNECT_STOP_START;
}
break;
case CONNECT_STOP_START:
Serial.println("CONNECT_STOP_START");
dstIP = IPAddress(0,0,0,0);
dstPort = 0;
disconnect();
stopStartTime = millis();
connectStatus = CONNECT_STOP_WAITING;
Serial.println("CONNECT_STOP_WAITING");
break;
case CONNECT_STOP_WAITING:
if (millis() - stopStartTime >= stopTimeout) {
close(); // Окончательное закрытие сокета после таймаута
connectStatus = CONNECT_IDLE;
} else {
// Проверяем состояние сокета для завершения разрыва
uint8_t status_ = status();
if (status_ == SnSR::CLOSED || status_ == SnSR::CLOSE_WAIT) {
close(); // Закрываем при достижении состояния
connectStatus = CONNECT_IDLE;
}
}
if(connectStatus == CONNECT_IDLE) {
Serial.println("CONNECT_IDLE\n\n");
}
break;
case CONNECT_IDLE:
// if(dataSize){
// connectStatus = CONNECT_START;
// }
break;
default:
break;
}
//********************************************************
switch (connectStatus)
{
case CONNECT_START:
case CONNECT_CONNECTING:
if (isNonBlocking)
{
connectStatus = connectNonBlock(dstIP, dstPort);
}
else
{
connectStatus = (ConnectionStatusSimple)connect(dstIP, dstPort);
}
break;
default:
break;
}
//********************************************************
// //? [*] Проверка наличия доступных данных от сервера
// //? проверяется во вне
// if (available() > 0)
// {
// }
// //? -------------------------------------------------
} }
bool EthernetMaketClient::dataWrite() { bool EthernetMaketClient::dataWrite() {
bool ret = false; if (!canWriteIntoConnection(dataSize)) return false;
if(dataSize) {
lastActivityTime = millis();
if (write(dataPtr, dataSize)) { if (write(dataPtr, dataSize)) {
clearData(); clearData();
ret = true;
}
lastActivityTime = millis(); lastActivityTime = millis();
}
if(ret){
onSendSuccess(); onSendSuccess();
} return true;
return ret;
} }
void EthernetMaketClient::clearData(){ return false;
this->dataPtr = nullptr;
this->dataSize = 0;
}
bool EthernetMaketClient::isDataEmpty() const{
return this->dataPtr == nullptr;
} }
void EthernetMaketClient::dataWrite(uint8_t* data, uint16_t dataSize, bool override) { void EthernetMaketClient::dataWrite(uint8_t* data, uint16_t dataSize, bool override) {
@ -289,17 +168,30 @@ void EthernetMaketClient::dataWrite(uint8_t* data, uint16_t dataSize, bool overr
this->dataPtr = data; this->dataPtr = data;
this->dataSize = dataSize; this->dataSize = dataSize;
activityUpdate(); activityUpdate();
Serial.println("Data buffer Saved.");
// if(canWrite(dataSize)){
// dataWrite();
// } else {
// Serial.println("W5500 Buffer is full. Write operation is ignored.");
// }
} else { } else {
Serial.println("Data buffer is not empty. Write operation is ignored."); Serial.println("Data buffer is not empty. Write operation is ignored.");
} }
} }
void EthernetMaketClient::clearData() {
this->dataPtr = nullptr;
this->dataSize = 0;
}
bool EthernetMaketClient::isDataEmpty() const {
return this->dataPtr == nullptr;
}
bool EthernetMaketClient::canWriteIntoConnection(size_t size) const {
return (connectStatus == CONNECT_CONNECTED) && (w5500.getTXFreeSize(_sock) >= size);
}
void EthernetMaketClient::tick() {
forEach([](EthernetMaketClient &client) {
client.tick_();
});
}
void EthernetMaketClient::setOnSendSuccess(const std::function<void()>& callback) { void EthernetMaketClient::setOnSendSuccess(const std::function<void()>& callback) {
onSendSuccess = callback; onSendSuccess = callback;
} }
@ -309,49 +201,13 @@ void EthernetMaketClient::resetOnSendSuccess() {
} }
void EthernetMaketClient::stop() { void EthernetMaketClient::stop() {
// if(connectStatus!=CONNECT_STOP_WAITING)
connectStatus = CONNECT_STOP_START; connectStatus = CONNECT_STOP_START;
} }
void EthernetMaketClient::startConnection(IPAddress ip, uint16_t port, bool nonBlock){
dstIP = ip;
dstPort = port;
isNonBlocking = nonBlock;
connectStatus = CONNECT_START;
};
void EthernetMaketClient::activityUpdate(){
lastActivityTime = millis();
}
EthernetMaketClient& EthernetMaketClient::operator=(const EthernetMaketClient& other) {
if (this == &other) {
return *this; // Защита от самоприсваивания
}
// Копируем все данные
this->lastActivityTime = other.lastActivityTime;
this->startConnectionTime = other.startConnectionTime;
this->stopStartTime = other.stopStartTime;
this->isNonBlocking = other.isNonBlocking;
this->connectStatus = other.connectStatus;
// this->timeout = other.timeout;
// this->connectionTimeout = other.connectionTimeout;
// this->stopTimeout = other.stopTimeout;
this->dstIP = other.dstIP;
this->dstPort = other.dstPort;
this->dataPtr = other.dataPtr;
this->dataSize = other.dataSize;
this->onSendSuccess = other.onSendSuccess;
this->_sock = other._sock;
// Отключаем исполнение старого клиента
const_cast<EthernetMaketClient&>(other).connectStatus = CONNECT_IDLE;
return *this;
}
ConnectionStatusSimple EthernetMaketClient::getConnectionStatus() const { ConnectionStatusSimple EthernetMaketClient::getConnectionStatus() const {
return connectStatus; return connectStatus;
} }
void EthernetMaketClient::activityUpdate() {
lastActivityTime = millis();
}