52c19875a4
With warnings of need to close files, sockets, etc.
117 lines
5.4 KiB
ReStructuredText
117 lines
5.4 KiB
ReStructuredText
General information about the ESP8266 port
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==========================================
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ESP8266 is a popular WiFi-enabled System-on-Chip (SoC) by Espressif Systems.
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Multitude of boards
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-------------------
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There are a multitude of modules and boards from different sources which carry
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the ESP8266 chip. MicroPython tries to provide a generic port which would run on
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as many boards/modules as possible, but there may be limitations. Adafruit
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Feather HUZZAH board is taken as a reference board for the port (for example,
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testing is performed on it). If you have another board, please make sure you
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have datasheet, schematics and other reference materials for your board
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handy to look up various aspects of your board functioning.
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To make a generic ESP8266 port and support as many boards as possible,
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following design and implementation decision were made:
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* GPIO pin numbering is based on ESP8266 chip numbering, not some "logical"
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numbering of a particular board. Please have the manual/pin diagram of your board
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at hand to find correspondence between your board pins and actual ESP8266 pins.
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We also encourage users of various boards to share this mapping via MicroPython
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forum, with the idea to collect community-maintained reference materials
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eventually.
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* All pins which make sense to support, are supported by MicroPython
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(for example, pins which are used to connect SPI flash
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are not exposed, as they're unlikely useful for anything else, and
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operating on them will lead to board lock-up). However, any particular
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board may expose only subset of pins. Consult your board reference manual.
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* Some boards may lack external pins/internal connectivity to support
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ESP8266 deepsleep mode.
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Technical specifications and SoC datasheets
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-------------------------------------------
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The datasheets and other reference material for ESP8266 chip are available
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from the vendor site: http://bbs.espressif.com/viewtopic.php?f=67&t=225 .
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They are the primary reference for the chip technical specifications, capabilities,
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operating modes, internal functioning, etc.
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For your convenience, some of technical specifications are provided below:
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* Architecture: Xtensa lx106
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* CPU frequency: 80MHz overclockable to 160MHz
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* Total RAM available: 96KB (part of it reserved for system)
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* BootROM: 64KB
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* Internal FlashROM: None
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* External FlashROM: code and data, via SPI Flash. Normal sizes 512KB-4MB.
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* GPIO: 16 + 1 (GPIOs are multiplexed with other functions, including
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external FlashROM, UART, deep sleep wake-up, etc.)
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* UART: One RX/TX UART (no hardware handshaking), one TX-only UART.
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* SPI: 2 SPI interfaces (one used for FlashROM).
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* I2C: No native external I2C (bitbang implementation available on any pins).
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* I2S: 1.
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* Programming: using BootROM bootloader from UART. Due to external FlashROM
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and always-available BootROM bootloader, ESP8266 is not brickable.
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Scarcity of runtime resources
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-----------------------------
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ESP8266 has very modest resources (first of all, RAM memory). So, please
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avoid allocating too big container objects (lists, dictionaries) and
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buffers. There is also no full-fledged OS to keep track of resources
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and automatically clean them up, so that's the task of a user/user
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application: please be sure to close open files, sockets, etc. as soon
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as possible after use.
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Boot process
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------------
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On boot, MicroPython EPS8266 port executes ``_boot.py`` script from internal
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frozen modules. It mounts filesystem in FlashROM, or if it's not available,
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performs first-time setup of the module and creates the filesystem. This
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part of the boot process is considered fixed, and not available for customization
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for end users (even if you build from source, please refrain from changes to
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it; customization of early boot process is available only to advanced users
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and developers, who can diagnose themselves any issues arising from
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modifying the standard process).
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Once the filesystem is mounted, ``boot.py`` is executed from it. The standard
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version of this file is created during first-time module set up and has
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commands to start a WebREPL daemon (disabled by default, configurable
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with ``webrepl_setup`` module), etc. This
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file is customizable by end users (for example, you may want to set some
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parameters or add other services which should be run on
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a module start-up). But keep in mind that incorrect modifications to boot.py
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may still lead to boot loops or lock ups, requiring to reflash a module
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from scratch. (In particular, it's recommended that you use either
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``webrepl_setup`` module or manual editing to configure WebREPL, but not
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both).
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As a final step of boot procedure, ``main.py`` is executed from filesystem,
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if exists. This file is a hook to start up a user application each time
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on boot (instead of going to REPL). For small test applications, you may
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name them directly as ``main.py``, and upload to module, but instead it's
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recommended to keep your application(s) in separate files, and have just
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the following in ``main.py``::
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import my_app
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my_app.main()
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This will allow to keep the structure of your application clear, as well as
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allow to install multiple applications on a board, and switch among them.
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Real-time clock
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---------------
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Due to limitations of the ESP8266 chip the internal real-time clock (RTC)
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will overflow every 7:45h. If a long-term working RTC time is required then
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``time()`` or ``localtime()`` must be called at least once within 7 hours.
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MicroPython will then handle the overflow.
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