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115 lines
6.6 KiB
ReStructuredText
115 lines
6.6 KiB
ReStructuredText
App Image Format
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================
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An application image consists of the following structures:
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1. The :cpp:type:`esp_image_header_t` structure describes the mode of SPI flash and the count of memory segments.
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2. The :cpp:type:`esp_image_segment_header_t` structure describes each segment, its length, and its location in {IDF_TARGET_NAME}'s memory, followed by the data with a length of ``data_len``. The data offset for each segment in the image is calculated in the following way:
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* offset for 0 Segment = sizeof(:cpp:type:`esp_image_header_t`) + sizeof(:cpp:type:`esp_image_segment_header_t`).
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* offset for 1 Segment = offset for 0 Segment + length of 0 Segment + sizeof(:cpp:type:`esp_image_segment_header_t`).
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* offset for 2 Segment = offset for 1 Segment + length of 1 Segment + sizeof(:cpp:type:`esp_image_segment_header_t`).
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* ...
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The count of each segment is defined in the ``segment_count`` field that is stored in :cpp:type:`esp_image_header_t`. The count cannot be more than :cpp:type:`ESP_IMAGE_MAX_SEGMENTS`.
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To get the list of your image segments, please run the following command:
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::
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esptool.py --chip {IDF_TARGET_PATH_NAME} image_info build/app.bin
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::
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esptool.py v2.3.1
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Image version: 1
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Entry point: 40080ea4
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13 segments
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Segment 1: len 0x13ce0 load 0x3f400020 file_offs 0x00000018 SOC_DROM
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Segment 2: len 0x00000 load 0x3ff80000 file_offs 0x00013d00 SOC_RTC_DRAM
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Segment 3: len 0x00000 load 0x3ff80000 file_offs 0x00013d08 SOC_RTC_DRAM
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Segment 4: len 0x028e0 load 0x3ffb0000 file_offs 0x00013d10 DRAM
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Segment 5: len 0x00000 load 0x3ffb28e0 file_offs 0x000165f8 DRAM
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Segment 6: len 0x00400 load 0x40080000 file_offs 0x00016600 SOC_IRAM
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Segment 7: len 0x09600 load 0x40080400 file_offs 0x00016a08 SOC_IRAM
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Segment 8: len 0x62e4c load 0x400d0018 file_offs 0x00020010 SOC_IROM
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Segment 9: len 0x06cec load 0x40089a00 file_offs 0x00082e64 SOC_IROM
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Segment 10: len 0x00000 load 0x400c0000 file_offs 0x00089b58 SOC_RTC_IRAM
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Segment 11: len 0x00004 load 0x50000000 file_offs 0x00089b60 SOC_RTC_DATA
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Segment 12: len 0x00000 load 0x50000004 file_offs 0x00089b6c SOC_RTC_DATA
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Segment 13: len 0x00000 load 0x50000004 file_offs 0x00089b74 SOC_RTC_DATA
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Checksum: e8 (valid)Validation Hash: 407089ca0eae2bbf83b4120979d3354b1c938a49cb7a0c997f240474ef2ec76b (valid)
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You can also see the information on segments in the IDF logs while your application is booting:
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::
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I (443) esp_image: segment 0: paddr=0x00020020 vaddr=0x3f400020 size=0x13ce0 ( 81120) map
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I (489) esp_image: segment 1: paddr=0x00033d08 vaddr=0x3ff80000 size=0x00000 ( 0) load
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I (530) esp_image: segment 2: paddr=0x00033d10 vaddr=0x3ff80000 size=0x00000 ( 0) load
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I (571) esp_image: segment 3: paddr=0x00033d18 vaddr=0x3ffb0000 size=0x028e0 ( 10464) load
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I (612) esp_image: segment 4: paddr=0x00036600 vaddr=0x3ffb28e0 size=0x00000 ( 0) load
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I (654) esp_image: segment 5: paddr=0x00036608 vaddr=0x40080000 size=0x00400 ( 1024) load
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I (695) esp_image: segment 6: paddr=0x00036a10 vaddr=0x40080400 size=0x09600 ( 38400) load
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I (737) esp_image: segment 7: paddr=0x00040018 vaddr=0x400d0018 size=0x62e4c (405068) map
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I (847) esp_image: segment 8: paddr=0x000a2e6c vaddr=0x40089a00 size=0x06cec ( 27884) load
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I (888) esp_image: segment 9: paddr=0x000a9b60 vaddr=0x400c0000 size=0x00000 ( 0) load
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I (929) esp_image: segment 10: paddr=0x000a9b68 vaddr=0x50000000 size=0x00004 ( 4) load
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I (971) esp_image: segment 11: paddr=0x000a9b74 vaddr=0x50000004 size=0x00000 ( 0) load
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I (1012) esp_image: segment 12: paddr=0x000a9b7c vaddr=0x50000004 size=0x00000 ( 0) load
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.. only:: esp32
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For more details on the type of memory segments and their address ranges, see *{IDF_TARGET_NAME} Technical Reference Manual* > *System and Memory* > *Embedded Memory* [`PDF <{IDF_TARGET_TRM_EN_URL}#sysmem>`__].
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.. only:: esp32s2
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For more details on the type of memory segments and their address ranges, see *{IDF_TARGET_NAME} Technical Reference Manual* > *System and Memory* > *Internal Memory* [`PDF <{IDF_TARGET_TRM_EN_URL}#sysmem>`__].
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3. The image has a single checksum byte after the last segment. This byte is written on a sixteen byte padded boundary, so the application image might need padding.
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4. If the ``hash_appended`` field from :cpp:type:`esp_image_header_t` is set then a SHA256 checksum will be appended. The value of SHA256 is calculated on the range from first byte and up to this field. The length of this field is 32 bytes.
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5. If the options :ref:`CONFIG_SECURE_SIGNED_APPS_SCHEME` is set to ECDSA then the application image will have additional 68 bytes for an ECDSA signature, which includes:
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* version word (4 bytes),
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* signature data (64 bytes).
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Application Description
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-----------------------
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The ``DROM`` segment starts with the :cpp:type:`esp_app_desc_t` structure which carries specific fields describing the application:
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* ``secure_version`` - see :doc:`Anti-rollback</api-reference/system/ota>`.
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* ``version`` - see :doc:`App version</api-reference/system/system>`. ``*``
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* ``project_name`` is filled from ``PROJECT_NAME``. ``*``
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* ``time`` and ``date`` - compile time and date.
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* ``idf_ver`` - version of ESP-IDF. ``*``
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* ``app_elf_sha256`` - contains sha256 for the elf application file.
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``*`` - The maximum length is 32 characters, including null-termination character. For example, if the length of ``PROJECT_NAME`` exceeds 32 characters, the excess characters will be disregarded.
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This structure is useful for identification of images uploaded OTA because it has a fixed offset = sizeof(:cpp:type:`esp_image_header_t`) + sizeof(:cpp:type:`esp_image_segment_header_t`). As soon as a device receives the first fragment containing this structure, it has all the information to determine whether the update should be continued or not.
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Adding a Custom Structure to an Application
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-------------------------------------------
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Customer also has the opportunity to have similar structure with a fixed offset relative to the beginning of the image.
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The following pattern can be used to add a custom structure to your image:
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::
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const __attribute__((section(".rodata_custom_desc"))) esp_custom_app_desc_t custom_app_desc = { ... }
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Offset for custom structure is sizeof(:cpp:type:`esp_image_header_t`) + sizeof(:cpp:type:`esp_image_segment_header_t`) + sizeof(:cpp:type:`esp_app_desc_t`).
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To guarantee that the custom structure is located in the image even if it is not used, you need to add:
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* For Make: add ``COMPONENT_ADD_LDFLAGS += -u custom_app_desc`` into ``component.mk``
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* For Cmake: add ``target_link_libraries(${COMPONENT_TARGET} "-u custom_app_desc")`` into ``CMakeLists.txt``
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API Reference
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-------------
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.. include-build-file:: inc/esp_app_format.inc
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