esp-idf/docs/en/api-reference/storage/index.rst

82 lines
4.1 KiB
ReStructuredText
Raw Normal View History

Storage API
***********
:link_to_translation:`zh_CN:[中文]`
2023-10-13 15:55:41 -04:00
This section contains reference of the high-level storage APIs. They are based on low-level drivers such as SPI flash, SD/MMC.
2023-10-13 15:55:41 -04:00
- :doc:`Partitions API <partition>` allow block based access to SPI flash according to the :doc:`/api-guides/partition-tables`.
- :doc:`Non-Volatile Storage library (NVS) <nvs_flash>` implements a fault-tolerant wear-levelled key-value storage in SPI NOR flash.
- :doc:`Virtual File System (VFS) <vfs>` library provides an interface for registration of file system drivers. SPIFFS, FAT and various other file system libraries are based on the VFS.
2023-10-13 15:55:41 -04:00
- :doc:`SPIFFS <spiffs>` is a wear-levelled file system optimized for SPI NOR flash, well suited for small partition sizes and low throughput
- :doc:`FAT <fatfs>` is a standard file system which can be used in SPI flash or on SD/MMC cards
- :doc:`Wear Levelling <wear-levelling>` library implements a flash translation layer (FTL) suitable for SPI NOR flash. It is used as a container for FAT partitions in flash.
For information about storage security, please refer to :doc:`Storage Security <storage-security>`.
.. note::
2023-10-13 15:55:41 -04:00
It is suggested to use high-level APIs (``esp_partition`` or file system) instead of low-level driver APIs to access the SPI NOR flash.
2023-10-13 15:55:41 -04:00
Due to the restriction of NOR flash and ESP hardware, accessing the main flash will affect the performance of the whole system. See :doc:`/api-reference/peripherals/spi_flash/index` to learn more about the limitations.
.. toctree::
:maxdepth: 1
fatfs
fatfsgen
mass_mfg.rst
nvs_flash
nvs_encryption
nvs_partition_gen.rst
nvs_partition_parse.rst
sdmmc
partition
spiffs
vfs
wear-levelling
storage-security.rst
.. list-table:: Code Examples for Storage API
:widths: 25 75
:header-rows: 0
* - **Code Example**
- **Description**
* - :doc:`fatfs`
-
* - :example:`wear_leveling <storage/wear_levelling>`
- Demonstrates using FATFS over wear leveling on internal flash.
* - :example:`ext_flash_fatfs <storage/ext_flash_fatfs>`
- Demonstrates using FATFS over wear leveling on external flash.
* - :example:`fatfsgen <storage/fatfsgen>`
- Demonstrates the capabilities of Python-based tooling for FATFS images available on host computers.
* - :doc:`nvs_flash`
-
* - :example:`nvs_rw_blob <storage/nvs_rw_blob>`
- Shows the use of the C-style API to read and write blob data types in NVS flash.
* - :example:`nvs_rw_value <storage/nvs_rw_value>`
- Shows the use of the C-style API to read and write integer data types in NVS flash.
* - :example:`nvs_rw_value_cxx <storage/nvs_rw_value_cxx>`
- Shows the use of the C++-style API to read and write integer data types in NVS flash.
* - :example:`nvsgen <storage/nvsgen>`
- Demonstrates how to use the Python-based NVS image generation tool to create an NVS partition image from the contents of a CSV file.
* - :doc:`spiffs`
-
* - :example:`spiffs <storage/spiffs>`
- Shows the use of the SPIFFS API to initialize the filesystem and work with files using POSIX functions.
* - :example:`spiffsgen <storage/spiffsgen>`
- Demonstrates the capabilities of Python-based tooling for SPIFFS images available on host computers.
* - :doc:`partition`
-
* - :example:`partition_api <storage/partition_api>`
- Provides an overview of API functions to look up particular partitions, perform basic I/O operations, and use partitions via CPU memory mapping.
* - :example:`parttool <storage/parttool>`
- Demonstrates the capabilities of Python-based tooling for partition images available on host computers.
* - :doc:`vfs`
-
* - :example:`littlefs <storage/littlefs>`
- Shows the use of the LittleFS component to initialize the filesystem and work with a file using POSIX functions.
* - :example:`semihost_vfs <storage/semihost_vfs>`
- Demonstrates the use of the VFS API to let an ESP-based device access a file on a JTAG-connected host using POSIX functions.