diff --git a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.cpp b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.cpp index db64fcb..f4985f7 100644 --- a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.cpp +++ b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.cpp @@ -8,15 +8,17 @@ bool ESPMegaDisplay::recieveSerialCommand(bool process) { bool dataRecieved = false; - // Read the serial buffer if available - if (xSemaphoreTake(this->serialMutex, DISPLAY_MUTEX_TAKE_TIMEOUT) == pdFALSE) - { - ESP_LOGI("ESPMegaDisplay", "Failed to take serial mutex"); - return false; - } + while (displayAdapter->available()) { + // Read the serial buffer if available + if (xSemaphoreTake(this->serialMutex, DISPLAY_MUTEX_TAKE_TIMEOUT) == pdFALSE) + { + ESP_LOGI("ESPMegaDisplay", "Failed to take serial mutex"); + return false; + } rx_buffer[rx_buffer_index] = displayAdapter->read(); + xSemaphoreGive(this->serialMutex); rx_buffer_index++; // Check for overflow if (rx_buffer_index >= 256) @@ -27,7 +29,6 @@ bool ESPMegaDisplay::recieveSerialCommand(bool process) this->processSerialCommand(); dataRecieved = true; } - xSemaphoreGive(this->serialMutex); return dataRecieved; } @@ -605,10 +606,17 @@ void ESPMegaDisplay::unregisterPayloadCallback(uint16_t handle) /** * @brief Takes the serial mutex. + * + * @note only neccessary if you are using the display adapter directly, otherwise the mutex is taken by the helper functions. */ -void ESPMegaDisplay::takeSerialMutex() +bool ESPMegaDisplay::takeSerialMutex() { - xSemaphoreTake(this->serialMutex, DISPLAY_MUTEX_TAKE_TIMEOUT); + if (xSemaphoreTake(this->serialMutex, DISPLAY_MUTEX_TAKE_TIMEOUT) == pdFALSE) + { + ESP_LOGI("ESPMegaDisplay", "Failed to take serial mutex"); + return false; + } + return true; } /** @@ -616,6 +624,7 @@ void ESPMegaDisplay::takeSerialMutex() */ void ESPMegaDisplay::giveSerialMutex() { + ESP_LOGD("ESPMegaDisplay", "Giving serial mutex"); xSemaphoreGive(this->serialMutex); } diff --git a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.hpp b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.hpp index 737a145..0cb341a 100644 --- a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.hpp +++ b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplay.hpp @@ -35,14 +35,14 @@ class ESPMegaDisplay void unregisterPageChangeCallback(uint16_t handle); uint16_t registerPayloadCallback(std::function callback); void unregisterPayloadCallback(uint16_t handle); - void takeSerialMutex(); + bool takeSerialMutex(); void giveSerialMutex(); + SemaphoreHandle_t serialMutex; bool beginUpdate(size_t size); bool writeUpdate(uint8_t* data, size_t size); void endUpdate(); protected: size_t otaBytesWritten; - SemaphoreHandle_t serialMutex; uint8_t currentPage; uint8_t rx_buffer_index; char rx_buffer[256]; diff --git a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplayOTA.cpp b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplayOTA.cpp index f625866..4403a14 100644 --- a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplayOTA.cpp +++ b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/ESPMegaDisplayOTA.cpp @@ -56,19 +56,26 @@ void ESPMegaDisplayOTA::otaUpdateWriteHandler(AsyncWebServerRequest *request, Js // - size: the size of the update in bytes // - data: the data to write + Serial.println("OTA Update Write Handler Begin"); + Serial.println("Parsing JSON"); //Parse the JSON object JsonObject content = json.as(); - // Check if the size and data fields are present - if(!content.containsKey("size") || !content.containsKey("data")) - request->send(500, "application/json", "{\"status\": \"error\", \"message\": \"The size or data field is missing\"}"); - return; + // // Check if the size and data fields are present + // Serial.println("Checking if size and data fields are present"); + // if(!content.containsKey("size") || !content.containsKey("data")) + // Serial.println("Size or data field is missing"); + // request->send(500, "application/json", "{\"status\": \"error\", \"message\": \"The size or data field is missing\"}"); + // return; + // Serial.println("Size and data fields are present, getting size"); // Get the size field size_t size = content["size"].as(); + Serial.printf("Size: %d\n", size); if(size>4096) { // If the size is greater than 4096 bytes, return an error request->send(500, "application/json", "{\"status\": \"error\", \"message\": \"The size of the update is too big\"}"); return; } + Serial.println("Getting data field"); // Get the data field JsonArray data = content["data"].as(); if(this->updateProgress+size>this->updateSize) { @@ -76,17 +83,21 @@ void ESPMegaDisplayOTA::otaUpdateWriteHandler(AsyncWebServerRequest *request, Js request->send(500, "application/json", "{\"status\": \"error\", \"message\": \"The update chunk is too big\"}"); return; } + Serial.println("Converting JsonArray to uint8_t*"); // Convert JsonArray to uint8_t* uint8_t data_array[4096]; for(size_t i=0; i(); } + Serial.println("Writing data to display"); // Write the data to the display display->writeUpdate(data_array, size); + request->send(200, "application/json", "{\"status\": \"success\"}"); } void ESPMegaDisplayOTA::otaUpdateEndHandler(AsyncWebServerRequest *request, JsonVariant &json) { this->webServer->checkAuthentication(request); display->endUpdate(); + request->send(200, "application/json", "{\"status\": \"success\"}"); } void ESPMegaDisplayOTA::displayWebPageHandler(AsyncWebServerRequest *request) { diff --git a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/InternalDisplay.cpp b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/InternalDisplay.cpp index e00c834..bb10653 100644 --- a/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/InternalDisplay.cpp +++ b/ESPMegaPRO-OS-SDK/lib/ESPMegaPRO/InternalDisplay.cpp @@ -2,9 +2,9 @@ /** * @brief Initialize the Internal Display - * + * * @note You should not call this function directly, instead use ESPMegaIoT::enableInternalDisplay() - * + * * @param iot The ESPMegaIoT object * @param getRtcTime A function that returns the current time */ @@ -20,9 +20,11 @@ void InternalDisplay::begin(ESPMegaIoT *iot, std::function getRtcTi auto bindedTouchCallback = std::bind(&InternalDisplay::handleTouch, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3); this->registerTouchCallback(bindedTouchCallback); // Initialize the display + if(!this->takeSerialMutex()) return; this->displayAdapter->begin(115200); this->displayAdapter->setTimeout(100); this->displayAdapter->flush(); + this->giveSerialMutex(); this->reset(); delay(500); this->jumpToPage(1); @@ -30,7 +32,7 @@ void InternalDisplay::begin(ESPMegaIoT *iot, std::function getRtcTi /** * @brief The main loop of the Internal Display - * + * * @note You should not call this function directly, instead use ESPMega::loop() */ void InternalDisplay::loop() @@ -56,7 +58,7 @@ void InternalDisplay::loop() /** * @brief Update the display in response to a change in the input state - * + * * @param pin The pin that changed * @param state The new state of the pin */ @@ -72,7 +74,7 @@ void InternalDisplay::handleInputStateChange(uint8_t pin, bool state) /** * @brief Update the display in response to a change in the PWM state - * + * * @param pin The pin that changed * @param state The new state of the pin * @param value The new value of the pin @@ -83,10 +85,11 @@ void InternalDisplay::handlePwmStateChange(uint8_t pin, bool state, uint16_t val // then update the respective output component if (this->outputCard == nullptr) return; - if(this->currentPage == INTERNAL_DISPLAY_OUTPUT_PAGE) { - // Update the output state - this->setOutputBar(pin, value); - this->setOutputStateColor(pin, state); + if (this->currentPage == INTERNAL_DISPLAY_OUTPUT_PAGE) + { + // Update the output state + this->setOutputBar(pin, value); + this->setOutputStateColor(pin, state); } // Refresh the PWM Adjustment page if the current page is the PWM Adjustment page and the pin is the same else if (this->currentPage == INTERNAL_DISPLAY_PWM_ADJUSTMENT_PAGE && this->pmwAdjustmentPin == pin) @@ -97,7 +100,7 @@ void InternalDisplay::handlePwmStateChange(uint8_t pin, bool state, uint16_t val /** * @brief Update the display in response to page change - * + * * @param page The new page */ void InternalDisplay::handlePageChange(uint8_t page) @@ -122,46 +125,51 @@ void InternalDisplay::saveNetworkConfig() IPAddress ip; // 000.000.000.000, 16 characters, 3 dots, 3 characters per octet, 1 null terminator char ip_buffer[30]; - if(!this->getStringToBuffer("ip_set.txt", ip_buffer, 30)) + if (!this->getStringToBuffer("ip_set.txt", ip_buffer, 30)) { return; } // Validate the ip address - if (!ip.fromString(ip_buffer)) { + if (!ip.fromString(ip_buffer)) + { return; } - + // Save the netmask IPAddress netmask; - if (!this->getStringToBuffer("netmask_set.txt", ip_buffer, 30)) { + if (!this->getStringToBuffer("netmask_set.txt", ip_buffer, 30)) + { return; } // Validate the netmask - if (!netmask.fromString(ip_buffer)) { + if (!netmask.fromString(ip_buffer)) + { return; } - + // Save the gateway IPAddress gateway; - if (!this->getStringToBuffer("gateway_set.txt", ip_buffer, 30)) { + if (!this->getStringToBuffer("gateway_set.txt", ip_buffer, 30)) + { return; } // Validate the gateway - if (!gateway.fromString(ip_buffer)) { + if (!gateway.fromString(ip_buffer)) + { return; } // Save the dns IPAddress dns; - if(!this->getStringToBuffer("dns_set.txt", ip_buffer, 30)) + if (!this->getStringToBuffer("dns_set.txt", ip_buffer, 30)) return; // Validate the dns if (!dns.fromString(ip_buffer)) return; - + // Save the hostname - if(!this->getStringToBuffer("host_set.txt", this->networkConfig->hostname, 32)) + if (!this->getStringToBuffer("host_set.txt", this->networkConfig->hostname, 32)) return; // Write the ip address, netmask and gateway to the network config @@ -189,39 +197,39 @@ void InternalDisplay::saveMQTTConfig() // user_set -> a text input to set the mqtt username // password_set -> a text input to set the mqtt password // topic_set -> a text input to set the mqtt base topic - + // Send the stop bytes to flush the serial buffer this->sendStopBytes(); // Save the mqtt server - if(!this->getStringToBuffer("mqttsv_set.txt", this->mqttConfig->mqtt_server, 16)) + if (!this->getStringToBuffer("mqttsv_set.txt", this->mqttConfig->mqtt_server, 16)) return; - + // Save the mqtt port this->mqttConfig->mqtt_port = this->getNumber("port_set.val"); - + // Save the mqtt username - if(!this->getStringToBuffer("user_set.txt", this->mqttConfig->mqtt_user, 16)) + if (!this->getStringToBuffer("user_set.txt", this->mqttConfig->mqtt_user, 16)) return; - + // Save the mqtt password - if(!this->getStringToBuffer("password_set.txt", this->mqttConfig->mqtt_password, 16)) + if (!this->getStringToBuffer("password_set.txt", this->mqttConfig->mqtt_password, 16)) return; - + // Save the mqtt base topic - if(!this->getStringToBuffer("topic_set.txt", this->mqttConfig->base_topic, 16)) + if (!this->getStringToBuffer("topic_set.txt", this->mqttConfig->base_topic, 16)) return; - + // Save the mqtt use auth uint8_t use_auth = this->getNumber("use_auth.val"); - this->mqttConfig->mqtt_useauth = use_auth == 1 ? true : false; + this->mqttConfig->mqtt_useauth = use_auth == 1 ? true : false; this->iot->saveMqttConfig(); ESP.restart(); } /** * @brief Update the status icons on the Internal Display's top bar - * + * * @param networkStatus The network status * @param mqttStatus The MQTT status */ @@ -237,8 +245,10 @@ void InternalDisplay::updateStatusIcons(bool networkStatus, bool mqttStatus) void InternalDisplay::updateClock() { rtctime_t time = this->getRtcTime(); + if(!this->takeSerialMutex()) return; this->displayAdapter->printf("time.txt=\"%02d:%02d %s\"", time.hours % 12, time.minutes, time.hours / 12 ? "PM" : "AM"); this->sendStopBytes(); + this->giveSerialMutex(); } /** @@ -251,9 +261,9 @@ void InternalDisplay::refreshPage() /** * @brief Send data to display element on the specified page - * + * * @note The current page must be the specified page - * + * * @param page The page to refresh */ void InternalDisplay::refreshPage(uint8_t page) @@ -317,10 +327,12 @@ void InternalDisplay::refreshDashboard() sprintf(ip_address, "%d.%d.%d.%d", this->networkConfig->ip[0], this->networkConfig->ip[1], this->networkConfig->ip[2], this->networkConfig->ip[3]); this->setString("ip_address.txt", ip_address); // Send the MQTT server and port + if(!this->takeSerialMutex()) return; this->displayAdapter->print("server_address.txt=\""); this->displayAdapter->print(this->mqttConfig->mqtt_server); this->displayAdapter->print("\""); this->sendStopBytes(); + this->giveSerialMutex(); // Send the MQTT connection status this->setString("status_txt.txt", this->iot->mqttConnected() ? MSG_MQTT_CONNECTED : MSG_MQTT_DISCONNECTED); } @@ -353,6 +365,7 @@ void InternalDisplay::refreshOutput() */ void InternalDisplay::refreshAC() { + if(!this->takeSerialMutex()) return; this->displayAdapter->print("temp.txt=\""); this->displayAdapter->print(this->climateCard->getTemperature()); this->displayAdapter->print("C\""); @@ -378,8 +391,10 @@ void InternalDisplay::refreshAC() this->displayAdapter->print("mode_cool.pic="); this->displayAdapter->print(this->climateCard->getMode() == AC_MODE_COOL ? PIC_AC_MODE_COOL_ACTIVE : PIC_AC_MODE_COOL_INACTIVE); this->sendStopBytes(); + this->giveSerialMutex(); if (this->climateCard->getSensorType() == AC_SENSOR_TYPE_DHT22) { + if(!this->takeSerialMutex()) return; this->displayAdapter->print("roomtemp.txt=\""); this->displayAdapter->print(this->climateCard->getRoomTemperature()); this->displayAdapter->print("C\""); @@ -388,13 +403,16 @@ void InternalDisplay::refreshAC() this->displayAdapter->print(this->climateCard->getHumidity()); this->displayAdapter->print("%\""); this->sendStopBytes(); + this->giveSerialMutex(); } else if (this->climateCard->getSensorType() == AC_SENSOR_TYPE_DS18B20) { + if(!this->takeSerialMutex()) return; this->displayAdapter->print("roomtemp.txt=\""); this->displayAdapter->print(this->climateCard->getRoomTemperature()); this->displayAdapter->print("C\""); this->sendStopBytes(); + this->giveSerialMutex(); this->setString("roomhumid.txt", "N/A"); } else @@ -406,53 +424,59 @@ void InternalDisplay::refreshAC() /** * @brief Set the PWM status output bar value (Fullness of the bar) - * + * * @param pin The pin of the PWM * @param value The value of the PWM (0 - 4095) */ void InternalDisplay::setOutputBar(uint8_t pin, uint16_t value) { + if(!this->takeSerialMutex()) return; // Write the value to the output bar this->displayAdapter->print("j"); this->displayAdapter->print(pin); this->displayAdapter->print(".val="); this->displayAdapter->print((int)(value * 100 / 4095)); this->sendStopBytes(); + this->giveSerialMutex(); } /** * @brief Set the PWM status output bar color to match the PWM state - * + * * @param pin The pin of the PWM * @param state The state of the PWM */ void InternalDisplay::setOutputStateColor(uint8_t pin, bool state) { + if(!this->takeSerialMutex()) return; this->displayAdapter->print("j"); this->displayAdapter->print(pin); this->displayAdapter->print(".ppic="); this->displayAdapter->print(state ? PIC_PWM_BAR_ON : PIC_PWM_BAR_OFF); this->sendStopBytes(); + this->giveSerialMutex(); } /** * @brief Set Input Marker to match the input state - * + * * @param pin The pin of the input * @param state The state of the input */ void InternalDisplay::setInputMarker(uint8_t pin, bool state) { + if(!this->takeSerialMutex()) return; this->displayAdapter->print("I"); this->displayAdapter->print(pin); this->displayAdapter->print(".val="); this->displayAdapter->print(state ? 1 : 0); this->sendStopBytes(); + this->giveSerialMutex(); } /** * @brief Create a new Internal Display object - * + * * @param displayAdapter The HardwareSerial object that is connected to the display */ InternalDisplay::InternalDisplay(HardwareSerial *displayAdapter) : ESPMegaDisplay(displayAdapter) @@ -467,7 +491,7 @@ InternalDisplay::InternalDisplay(HardwareSerial *displayAdapter) : ESPMegaDispla /** * @brief Set the input card to be be shown on the input page - * + * * @param inputCard The input card object to be shown */ void InternalDisplay::bindInputCard(DigitalInputCard *inputCard) @@ -497,7 +521,7 @@ void InternalDisplay::unbindInputCard() /** * @brief Set the output card to be be shown on the output page - * + * * @param outputCard The output card object to be shown */ void InternalDisplay::bindOutputCard(DigitalOutputCard *outputCard) @@ -525,15 +549,15 @@ void InternalDisplay::unbindOutputCard() /** * @brief Set the climate card to be be shown on the AC page - * + * * This assume that your ClimeateCard has the mode and fan speed names in the following order: * mode: [off, fan_only, cool] * fan_speed: [auto, low, medium, high] - * + * * @param climateCard The climate card object to be shown */ void InternalDisplay::bindClimateCard(ClimateCard *climateCard) -{ +{ // Check if the climate card is already binded // If it is, then unbind it first if (this->climateCard != nullptr) @@ -578,6 +602,7 @@ void InternalDisplay::refreshPWMAdjustment() */ void InternalDisplay::refreshPWMAdjustmentId() { + if(!this->takeSerialMutex()) return; // Send the PWM pin this->displayAdapter->print("pwm_id.txt=\"P"); this->displayAdapter->print(pmwAdjustmentPin); @@ -590,10 +615,12 @@ void InternalDisplay::refreshPWMAdjustmentId() */ void InternalDisplay::refreshPWMAdjustmentSlider() { + if(!this->takeSerialMutex()) return; // Send the PWM value this->displayAdapter->print("pwm_value.val="); this->displayAdapter->print(this->outputCard->getValue(this->pmwAdjustmentPin)); this->sendStopBytes(); + this->giveSerialMutex(); } /** @@ -601,16 +628,18 @@ void InternalDisplay::refreshPWMAdjustmentSlider() */ void InternalDisplay::refreshPWMAdjustmentState() { + if(!this->takeSerialMutex()) return; // Send the PWM state this->displayAdapter->print("pwm_state.txt=\""); this->displayAdapter->print(this->outputCard->getState(this->pmwAdjustmentPin) ? MSG_PWM_ADJUSTMENT_STATE_ON : MSG_PWM_ADJUSTMENT_STATE_OFF); this->displayAdapter->print("\""); this->sendStopBytes(); + this->giveSerialMutex(); } /** * @brief Handle the touch event on the display - * + * * @param page The page that the touch event occured * @param component The component that the touch event occured * @param type The type of the touch event @@ -641,7 +670,7 @@ void InternalDisplay::handleTouch(uint8_t page, uint8_t component, uint8_t type) /** * @brief Handle the touch event on the AC page - * + * * @param type The type of the touch event * @param component The component that the touch event occured */ @@ -710,7 +739,7 @@ void InternalDisplay::handleACTouch(uint8_t type, uint8_t component) /** * @brief Handle the touch event on the PWM Adjustment page - * + * * @param type The type of the touch event * @param component The component that the touch event occured */ @@ -757,13 +786,13 @@ void InternalDisplay::handlePWMAdjustmentTouch(uint8_t type, uint8_t component) */ void InternalDisplay::refreshNetworkConfig() { + if(!this->takeSerialMutex()) return; // The network config page have the following components: // ip_set -> a text input to set the ip address // netmask_set -> a text input to set the netmask // gateway_set -> a text input to set the gateway // dns_set -> a text input to set the dns // host_set -> a text input to set the hostname - // Refresh the ip address this->displayAdapter->print("ip_set.txt=\""); this->sendIpToDisplay(this->networkConfig->ip); @@ -789,6 +818,7 @@ void InternalDisplay::refreshNetworkConfig() this->displayAdapter->print(this->networkConfig->hostname); this->displayAdapter->print("\""); this->sendStopBytes(); + this->giveSerialMutex(); } /** @@ -796,6 +826,7 @@ void InternalDisplay::refreshNetworkConfig() */ void InternalDisplay::refreshMQTTConfig() { + if(!this->takeSerialMutex()) return; // The MQTT config page have the following components: // mqttsv_set -> a text input to set the mqtt server // port_set -> a text input to set the mqtt port @@ -832,13 +863,15 @@ void InternalDisplay::refreshMQTTConfig() this->displayAdapter->print("use_auth.val="); this->displayAdapter->print(this->mqttConfig->mqtt_useauth ? 1 : 0); this->sendStopBytes(); + this->giveSerialMutex(); } /** * @brief Write an ip address to the display - * + * * @note This function only writes the ip address to the display, you need to send the prefix and suffix yourself - * + * @warning This function does not take the serial mutex, you need to take it yourself + * * @param ip The ip address to send */ void InternalDisplay::sendIpToDisplay(IPAddress ip) @@ -855,9 +888,9 @@ void InternalDisplay::sendIpToDisplay(IPAddress ip) /** * @brief Handle the AC state change - * + * * @note This function is registered as a callback to the ClimateCard - * + * * @param mode The new mode * @param fan_speed The new fan speed * @param temperature The new temperature @@ -875,12 +908,15 @@ void InternalDisplay::handleACStateChange(uint8_t mode, uint8_t fan_speed, uint8 /** * @brief Set the boot status text - * + * * @param text The text to set */ -void InternalDisplay::setBootStatus(const char *text) { +void InternalDisplay::setBootStatus(const char *text) +{ + if(!this->takeSerialMutex()) return; this->displayAdapter->print("boot_state.txt=\""); this->displayAdapter->print(text); this->displayAdapter->print("\""); this->sendStopBytes(); + this->giveSerialMutex(); } \ No newline at end of file