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199 lines
9.4 KiB
ReStructuredText
199 lines
9.4 KiB
ReStructuredText
.. highlight:: c
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Error Handling
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==============
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:link_to_translation:`zh_CN:[中文]`
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Overview
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--------
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Identifying and handling run-time errors is important for developing robust applications. There can be multiple kinds of run-time errors:
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- Recoverable errors:
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- Errors indicated by functions through return values (error codes)
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- C++ exceptions, thrown using ``throw`` keyword
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- Unrecoverable (fatal) errors:
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- Failed assertions (using ``assert`` macro and equivalent methods, see :ref:`assertions`) and ``abort()`` calls.
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- CPU exceptions: access to protected regions of memory, illegal instruction, etc.
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- System level checks: watchdog timeout, cache access error, stack overflow, stack smashing, heap corruption, etc.
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This guide explains ESP-IDF error handling mechanisms related to recoverable errors, and provides some common error handling patterns.
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For instructions on diagnosing unrecoverable errors, see :doc:`Fatal Errors <fatal-errors>`.
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Error Codes
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-----------
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The majority of ESP-IDF-specific functions use :cpp:type:`esp_err_t` type to return error codes. :cpp:type:`esp_err_t` is a signed integer type. Success (no error) is indicated with ``ESP_OK`` code, which is defined as zero.
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Various ESP-IDF header files define possible error codes using preprocessor defines. Usually these defines start with ``ESP_ERR_`` prefix. Common error codes for generic failures (out of memory, timeout, invalid argument, etc.) are defined in ``esp_err.h`` file. Various components in ESP-IDF may define additional error codes for specific situations.
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For the complete list of error codes, see :doc:`Error Code Reference <../api-reference/error-codes>`.
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Converting Error Codes to Error Messages
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----------------------------------------
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For each error code defined in ESP-IDF components, :cpp:type:`esp_err_t` value can be converted to an error code name using :cpp:func:`esp_err_to_name` or :cpp:func:`esp_err_to_name_r` functions. For example, passing ``0x101`` to :cpp:func:`esp_err_to_name` will return "ESP_ERR_NO_MEM" string. Such strings can be used in log output to make it easier to understand which error has happened.
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Additionally, :cpp:func:`esp_err_to_name_r` function will attempt to interpret the error code as a `standard POSIX error code <https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/errno.h.html>`_, if no matching ``ESP_ERR_`` value is found. This is done using ``strerror_r`` function. POSIX error codes (such as ``ENOENT``, ``ENOMEM``) are defined in ``errno.h`` and are typically obtained from ``errno`` variable. In ESP-IDF this variable is thread-local: multiple FreeRTOS tasks have their own copies of ``errno``. Functions which set ``errno`` only modify its value for the task they run in.
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This feature is enabled by default, but can be disabled to reduce application binary size. See :ref:`CONFIG_ESP_ERR_TO_NAME_LOOKUP`. When this feature is disabled, :cpp:func:`esp_err_to_name` and :cpp:func:`esp_err_to_name_r` are still defined and can be called. In this case, :cpp:func:`esp_err_to_name` will return ``UNKNOWN ERROR``, and :cpp:func:`esp_err_to_name_r` will return ``Unknown error 0xXXXX(YYYYY)``, where ``0xXXXX`` and ``YYYYY`` are the hexadecimal and decimal representations of the error code, respectively.
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.. _esp-error-check-macro:
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``ESP_ERROR_CHECK`` Macro
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-------------------------
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:c:macro:`ESP_ERROR_CHECK` macro serves similar purpose as ``assert``, except that it checks :cpp:type:`esp_err_t` value rather than a ``bool`` condition. If the argument of :c:macro:`ESP_ERROR_CHECK` is not equal :c:macro:`ESP_OK`, then an error message is printed on the console, and ``abort()`` is called.
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Error message will typically look like this::
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ESP_ERROR_CHECK failed: esp_err_t 0x107 (ESP_ERR_TIMEOUT) at 0x400d1fdf
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file: "/Users/user/esp/example/main/main.c" line 20
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func: app_main
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expression: sdmmc_card_init(host, &card)
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Backtrace: 0x40086e7c:0x3ffb4ff0 0x40087328:0x3ffb5010 0x400d1fdf:0x3ffb5030 0x400d0816:0x3ffb5050
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.. note:: If :doc:`ESP-IDF monitor <tools/idf-monitor>` is used, addresses in the backtrace will be converted to file names and line numbers.
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- The first line mentions the error code as a hexadecimal value, and the identifier used for this error in source code. The latter depends on :ref:`CONFIG_ESP_ERR_TO_NAME_LOOKUP` option being set. Address in the program where error has occurred is printed as well.
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- Subsequent lines show the location in the program where :c:macro:`ESP_ERROR_CHECK` macro was called, and the expression which was passed to the macro as an argument.
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- Finally, backtrace is printed. This is part of panic handler output common to all fatal errors. See :doc:`Fatal Errors <fatal-errors>` for more information about the backtrace.
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.. _esp-error-check-without-abort-macro:
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``ESP_ERROR_CHECK_WITHOUT_ABORT`` Macro
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---------------------------------------
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:c:macro:`ESP_ERROR_CHECK_WITHOUT_ABORT` macro serves similar purpose as ``ESP_ERROR_CHECK``, except that it will not call ``abort()``.
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.. _esp-return-on-error-macro:
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``ESP_RETURN_ON_ERROR`` Macro
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-----------------------------
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:c:macro:`ESP_RETURN_ON_ERROR` macro checks the error code, if the error code is not equal :c:macro:`ESP_OK`, it prints the message and returns.
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.. _esp-goto-on-error-macro:
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``ESP_GOTO_ON_ERROR`` Macro
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---------------------------
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:c:macro:`ESP_GOTO_ON_ERROR` macro checks the error code, if the error code is not equal :c:macro:`ESP_OK`, it prints the message, sets the local variable `ret` to the code, and then exits by jumping to `goto_tag`.
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.. _esp-return-on-false-macro:
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``ESP_RETURN_ON_FALSE`` Macro
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-----------------------------
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:c:macro:`ESP_RETURN_ON_FALSE` macro checks the condition, if the condition is not equal `true`, it prints the message and returns with the supplied `err_code`.
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.. _esp-goto-on-false-macro:
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``ESP_GOTO_ON_FALSE`` Macro
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---------------------------
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:c:macro:`ESP_GOTO_ON_FALSE` macro checks the condition, if the condition is not equal `true`, it prints the message, sets the local variable `ret` to the supplied `err_code`, and then exits by jumping to `goto_tag`.
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.. _check_macros_examples:
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``CHECK MACROS Examples``
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-------------------------
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Some examples::
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static const char* TAG = "Test";
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esp_err_t test_func(void)
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{
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esp_err_t ret = ESP_OK;
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ESP_ERROR_CHECK(x); // err message printed if `x` is not `ESP_OK`, and then `abort()`.
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ESP_ERROR_CHECK_WITHOUT_ABORT(x); // err message printed if `x` is not `ESP_OK`, without `abort()`.
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ESP_RETURN_ON_ERROR(x, TAG, "fail reason 1"); // err message printed if `x` is not `ESP_OK`, and then function returns with code `x`.
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ESP_GOTO_ON_ERROR(x, err, TAG, "fail reason 2"); // err message printed if `x` is not `ESP_OK`, `ret` is set to `x`, and then jumps to `err`.
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ESP_RETURN_ON_FALSE(a, err_code, TAG, "fail reason 3"); // err message printed if `a` is not `true`, and then function returns with code `err_code`.
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ESP_GOTO_ON_FALSE(a, err_code, err, TAG, "fail reason 4"); // err message printed if `a` is not `true`, `ret` is set to `err_code`, and then jumps to `err`.
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err:
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// clean up
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return ret;
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}
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.. note::
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If the option :ref:`CONFIG_COMPILER_OPTIMIZATION_CHECKS_SILENT` in Kconfig is enabled, the err message will be discarded, while the other action works as is.
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The ``ESP_RETURN_XX`` and ``ESP_GOTO_xx`` macros cannot be called from ISR. While there are ``xx_ISR`` versions for each of them, e.g., `ESP_RETURN_ON_ERROR_ISR`, these macros could be used in ISR.
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Error Handling Patterns
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-----------------------
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1. Attempt to recover. Depending on the situation, we may try the following methods:
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- retry the call after some time;
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- attempt to de-initialize the driver and re-initialize it again;
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- fix the error condition using an out-of-band mechanism (e.g reset an external peripheral which is not responding).
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Example::
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esp_err_t err;
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do {
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err = sdio_slave_send_queue(addr, len, arg, timeout);
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// keep retrying while the sending queue is full
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} while (err == ESP_ERR_TIMEOUT);
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if (err != ESP_OK) {
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// handle other errors
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}
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2. Propagate the error to the caller. In some middleware components this means that a function must exit with the same error code, making sure any resource allocations are rolled back.
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Example::
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sdmmc_card_t* card = calloc(1, sizeof(sdmmc_card_t));
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if (card == NULL) {
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return ESP_ERR_NO_MEM;
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}
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esp_err_t err = sdmmc_card_init(host, &card);
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if (err != ESP_OK) {
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// Clean up
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free(card);
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// Propagate the error to the upper layer (e.g., to notify the user).
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// Alternatively, application can define and return custom error code.
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return err;
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}
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3. Convert into unrecoverable error, for example using ``ESP_ERROR_CHECK``. See `ESP_ERROR_CHECK macro`_ section for details.
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Terminating the application in case of an error is usually undesirable behavior for middleware components, but is sometimes acceptable at application level.
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Many ESP-IDF examples use ``ESP_ERROR_CHECK`` to handle errors from various APIs. This is not the best practice for applications, and is done to make example code more concise.
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Example::
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ESP_ERROR_CHECK(spi_bus_initialize(host, bus_config, dma_chan));
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C++ Exceptions
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--------------
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See :ref:`cplusplus_exceptions`.
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