#pragma once #include #include #ifdef USE_ESP32 #include #endif #include "esphome/core/automation.h" #include "esphome/core/component.h" #include "esphome/core/defines.h" #include "esphome/core/helpers.h" #include "esphome/core/log.h" #ifdef USE_ESPHOME_TASK_LOG_BUFFER #include "task_log_buffer.h" #endif #ifdef USE_ARDUINO #if defined(USE_ESP8266) || defined(USE_ESP32) #include #endif // USE_ESP8266 || USE_ESP32 #ifdef USE_RP2040 #include #include #endif // USE_RP2040 #endif // USE_ARDUINO #ifdef USE_ESP_IDF #include #endif // USE_ESP_IDF namespace esphome { namespace logger { // Color and letter constants for log levels static const char *const LOG_LEVEL_COLORS[] = { "", // NONE ESPHOME_LOG_BOLD(ESPHOME_LOG_COLOR_RED), // ERROR ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_YELLOW), // WARNING ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_GREEN), // INFO ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_MAGENTA), // CONFIG ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_CYAN), // DEBUG ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_GRAY), // VERBOSE ESPHOME_LOG_COLOR(ESPHOME_LOG_COLOR_WHITE), // VERY_VERBOSE }; static const char *const LOG_LEVEL_LETTERS[] = { "", // NONE "E", // ERROR "W", // WARNING "I", // INFO "C", // CONFIG "D", // DEBUG "V", // VERBOSE "VV", // VERY_VERBOSE }; #if defined(USE_ESP32) || defined(USE_ESP8266) || defined(USE_RP2040) || defined(USE_LIBRETINY) /** Enum for logging UART selection * * Advanced configuration (pin selection, etc) is not supported. */ enum UARTSelection { #ifdef USE_LIBRETINY UART_SELECTION_DEFAULT = 0, UART_SELECTION_UART0, #else UART_SELECTION_UART0 = 0, #endif UART_SELECTION_UART1, #if defined(USE_LIBRETINY) || defined(USE_ESP32_VARIANT_ESP32) UART_SELECTION_UART2, #endif #ifdef USE_LOGGER_USB_CDC UART_SELECTION_USB_CDC, #endif #ifdef USE_LOGGER_USB_SERIAL_JTAG UART_SELECTION_USB_SERIAL_JTAG, #endif #ifdef USE_ESP8266 UART_SELECTION_UART0_SWAP, #endif // USE_ESP8266 }; #endif // USE_ESP32 || USE_ESP8266 || USE_RP2040 || USE_LIBRETINY /** * @brief Logger component for all ESPHome logging. * * This class implements a multi-platform logging system with protection against recursion. * * Recursion Protection Strategy: * - On ESP32: Uses task-specific recursion guards * * Main task: Uses a dedicated boolean member variable for efficiency * * Other tasks: Uses pthread TLS with a dynamically allocated key for task-specific state * - On other platforms: Uses a simple global recursion guard * * We use pthread TLS via pthread_key_create to create a unique key for storing * task-specific recursion state, which: * 1. Efficiently handles multiple tasks without locks or mutexes * 2. Works with ESP-IDF's pthread implementation that uses a linked list for TLS variables * 3. Avoids the limitations of the fixed FreeRTOS task local storage slots */ class Logger : public Component { public: explicit Logger(uint32_t baud_rate, size_t tx_buffer_size); #ifdef USE_ESPHOME_TASK_LOG_BUFFER void init_log_buffer(size_t total_buffer_size); #endif #if defined(USE_LOGGER_USB_CDC) || defined(USE_ESP32) void loop() override; #endif /// Manually set the baud rate for serial, set to 0 to disable. void set_baud_rate(uint32_t baud_rate); uint32_t get_baud_rate() const { return baud_rate_; } #ifdef USE_ARDUINO Stream *get_hw_serial() const { return hw_serial_; } #endif #ifdef USE_ESP_IDF uart_port_t get_uart_num() const { return uart_num_; } #endif #ifdef USE_ESP32 void create_pthread_key() { pthread_key_create(&log_recursion_key_, nullptr); } #endif #if defined(USE_ESP32) || defined(USE_ESP8266) || defined(USE_RP2040) || defined(USE_LIBRETINY) void set_uart_selection(UARTSelection uart_selection) { uart_ = uart_selection; } /// Get the UART used by the logger. UARTSelection get_uart() const; #endif /// Set the default log level for this logger. void set_log_level(int level); /// Set the log level of the specified tag. void set_log_level(const std::string &tag, int log_level); int get_log_level() { return this->current_level_; } // ========== INTERNAL METHODS ========== // (In most use cases you won't need these) /// Set up this component. void pre_setup(); void dump_config() override; inline int level_for(const char *tag); /// Register a callback that will be called for every log message sent void add_on_log_callback(std::function &&callback); // add a listener for log level changes void add_listener(std::function &&callback) { this->level_callback_.add(std::move(callback)); } float get_setup_priority() const override; void log_vprintf_(int level, const char *tag, int line, const char *format, va_list args); // NOLINT #ifdef USE_STORE_LOG_STR_IN_FLASH void log_vprintf_(int level, const char *tag, int line, const __FlashStringHelper *format, va_list args); // NOLINT #endif protected: void call_log_callbacks_(int level, const char *tag, const char *msg); void write_msg_(const char *msg); // Format a log message with printf-style arguments and write it to a buffer with header, footer, and null terminator // It's the caller's responsibility to initialize buffer_at (typically to 0) inline void HOT format_log_to_buffer_with_terminator_(int level, const char *tag, int line, const char *format, va_list args, char *buffer, int *buffer_at, int buffer_size) { #if defined(USE_ESP32) || defined(USE_LIBRETINY) this->write_header_to_buffer_(level, tag, line, this->get_thread_name_(), buffer, buffer_at, buffer_size); #else this->write_header_to_buffer_(level, tag, line, nullptr, buffer, buffer_at, buffer_size); #endif this->format_body_to_buffer_(buffer, buffer_at, buffer_size, format, args); this->write_footer_to_buffer_(buffer, buffer_at, buffer_size); // Always ensure the buffer has a null terminator, even if we need to // overwrite the last character of the actual content if (*buffer_at >= buffer_size) { buffer[buffer_size - 1] = '\0'; // Truncate and ensure null termination } else { buffer[*buffer_at] = '\0'; // Normal case, append null terminator } } // Helper to format and send a log message to both console and callbacks inline void HOT log_message_to_buffer_and_send_(int level, const char *tag, int line, const char *format, va_list args) { // Format to tx_buffer and prepare for output this->tx_buffer_at_ = 0; // Initialize buffer position this->format_log_to_buffer_with_terminator_(level, tag, line, format, args, this->tx_buffer_, &this->tx_buffer_at_, this->tx_buffer_size_); if (this->baud_rate_ > 0) { this->write_msg_(this->tx_buffer_); // If logging is enabled, write to console } this->call_log_callbacks_(level, tag, this->tx_buffer_); } // Write the body of the log message to the buffer inline void write_body_to_buffer_(const char *value, size_t length, char *buffer, int *buffer_at, int buffer_size) { // Calculate available space const int available = buffer_size - *buffer_at; if (available <= 0) return; // Determine copy length (minimum of remaining capacity and string length) const size_t copy_len = (length < static_cast(available)) ? length : available; // Copy the data if (copy_len > 0) { memcpy(buffer + *buffer_at, value, copy_len); *buffer_at += copy_len; } } // Format string to explicit buffer with varargs inline void printf_to_buffer_(char *buffer, int *buffer_at, int buffer_size, const char *format, ...) { va_list arg; va_start(arg, format); this->format_body_to_buffer_(buffer, buffer_at, buffer_size, format, arg); va_end(arg); } #ifndef USE_HOST const char *get_uart_selection_(); #endif uint32_t baud_rate_; char *tx_buffer_{nullptr}; int tx_buffer_at_{0}; int tx_buffer_size_{0}; #if defined(USE_ESP32) || defined(USE_ESP8266) || defined(USE_RP2040) UARTSelection uart_{UART_SELECTION_UART0}; #endif #ifdef USE_LIBRETINY UARTSelection uart_{UART_SELECTION_DEFAULT}; #endif #ifdef USE_ARDUINO Stream *hw_serial_{nullptr}; #endif #ifdef USE_ESP_IDF uart_port_t uart_num_; #endif std::map log_levels_{}; CallbackManager log_callback_{}; int current_level_{ESPHOME_LOG_LEVEL_VERY_VERBOSE}; #ifdef USE_ESPHOME_TASK_LOG_BUFFER std::unique_ptr log_buffer_; // Will be initialized with init_log_buffer #endif #ifdef USE_ESP32 // Task-specific recursion guards: // - Main task uses a dedicated member variable for efficiency // - Other tasks use pthread TLS with a dynamically created key via pthread_key_create bool main_task_recursion_guard_{false}; pthread_key_t log_recursion_key_; #else bool global_recursion_guard_{false}; // Simple global recursion guard for single-task platforms #endif CallbackManager level_callback_{}; #if defined(USE_ESP32) || defined(USE_LIBRETINY) void *main_task_ = nullptr; // Only used for thread name identification const char *HOT get_thread_name_() { TaskHandle_t current_task = xTaskGetCurrentTaskHandle(); if (current_task == main_task_) { return nullptr; // Main task } else { #if defined(USE_ESP32) return pcTaskGetName(current_task); #elif defined(USE_LIBRETINY) return pcTaskGetTaskName(current_task); #endif } } #endif #ifdef USE_ESP32 inline bool HOT check_and_set_task_log_recursion_(bool is_main_task) { if (is_main_task) { const bool was_recursive = main_task_recursion_guard_; main_task_recursion_guard_ = true; return was_recursive; } intptr_t current = (intptr_t) pthread_getspecific(log_recursion_key_); if (current != 0) return true; pthread_setspecific(log_recursion_key_, (void *) 1); return false; } inline void HOT reset_task_log_recursion_(bool is_main_task) { if (is_main_task) { main_task_recursion_guard_ = false; return; } pthread_setspecific(log_recursion_key_, (void *) 0); } #endif inline void HOT write_header_to_buffer_(int level, const char *tag, int line, const char *thread_name, char *buffer, int *buffer_at, int buffer_size) { // Format header if (level < 0) level = 0; if (level > 7) level = 7; const char *color = esphome::logger::LOG_LEVEL_COLORS[level]; const char *letter = esphome::logger::LOG_LEVEL_LETTERS[level]; #if defined(USE_ESP32) || defined(USE_LIBRETINY) if (thread_name != nullptr) { // Non-main task with thread name this->printf_to_buffer_(buffer, buffer_at, buffer_size, "%s[%s][%s:%03u]%s[%s]%s: ", color, letter, tag, line, ESPHOME_LOG_BOLD(ESPHOME_LOG_COLOR_RED), thread_name, color); return; } #endif // Main task or non ESP32/LibreTiny platform this->printf_to_buffer_(buffer, buffer_at, buffer_size, "%s[%s][%s:%03u]: ", color, letter, tag, line); } inline void HOT format_body_to_buffer_(char *buffer, int *buffer_at, int buffer_size, const char *format, va_list args) { // Get remaining capacity in the buffer const int remaining = buffer_size - *buffer_at; if (remaining <= 0) return; const int ret = vsnprintf(buffer + *buffer_at, remaining, format, args); if (ret < 0) { return; // Encoding error, do not increment buffer_at } // Update buffer_at with the formatted length (handle truncation) int formatted_len = (ret >= remaining) ? remaining : ret; *buffer_at += formatted_len; // Remove all trailing newlines right after formatting while (*buffer_at > 0 && buffer[*buffer_at - 1] == '\n') { (*buffer_at)--; } } inline void HOT write_footer_to_buffer_(char *buffer, int *buffer_at, int buffer_size) { static const int RESET_COLOR_LEN = strlen(ESPHOME_LOG_RESET_COLOR); this->write_body_to_buffer_(ESPHOME_LOG_RESET_COLOR, RESET_COLOR_LEN, buffer, buffer_at, buffer_size); } }; extern Logger *global_logger; // NOLINT(cppcoreguidelines-avoid-non-const-global-variables) class LoggerMessageTrigger : public Trigger { public: explicit LoggerMessageTrigger(Logger *parent, int level) { this->level_ = level; parent->add_on_log_callback([this](int level, const char *tag, const char *message) { if (level <= this->level_) { this->trigger(level, tag, message); } }); } protected: int level_; }; } // namespace logger } // namespace esphome