micropython/esp8266
Damien George f9ecd484bb esp8266: Change to use new generic VFS sub-system.
The VFS sub-system supports mounting of an arbitrary number of devices
(limited only by available RAM).  The internal flash is now mounted at
"/flash".
2017-01-27 17:21:45 +11:00
..
modules esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
scripts esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
Makefile esp8266: Switch to use OO version of FatFs library. 2017-01-27 13:19:11 +11:00
README.md esp8266: Update docs for esptool 1.2.1/SDK 2.0 (--flash_size=detect). 2016-11-08 04:52:07 +03:00
axtls_helpers.c esp8266/axtls_helpers: Remove abort_(), now in lib/embed/. 2016-07-30 00:36:28 +03:00
eagle.rom.addr.v6.ld esp8266/eagle.rom.addr.v6.ld: Add Enable_QMode symbol from SDK 2.0.0. 2016-08-01 00:01:49 +03:00
esp8266.ld esp8266: Factor out common linker code to esp8266_common.ld. 2017-01-25 09:49:55 +11:00
esp8266_512k.ld esp8266: Factor out common linker code to esp8266_common.ld. 2017-01-25 09:49:55 +11:00
esp8266_common.ld esp8266: Switch to use OO version of FatFs library. 2017-01-27 13:19:11 +11:00
esp8266_ota.ld esp8266: Factor out common linker code to esp8266_common.ld. 2017-01-25 09:49:55 +11:00
esp_init_data.c esp8266/etshal.h: Add prototypes for SPIRead/SPIWrite/SPIEraseSector. 2016-11-02 02:16:20 +03:00
esp_mphal.c lib/interrupt_char: Factor out typical Ctrl+C handling from esp8266 port. 2016-09-29 10:15:38 -07:00
esp_mphal.h extmod/machine_spi: Provide reusable software SPI class. 2016-12-08 13:47:01 +11:00
espapa102.c esp8266: Make APA102 driver inclusion configurable. 2016-08-01 00:03:55 +03:00
espapa102.h esp8266: Add APA102 serial individually controllable LEDs support. 2016-05-19 22:29:11 +03:00
espneopixel.c esp8266/espneopixel.c: Solve glitching LED issues with cpu at 80MHz. 2016-11-07 17:13:49 +11:00
espneopixel.h esp8266: Add esp.neopixel_write function to bit-bang WS2812 data. 2016-03-26 10:55:21 +02:00
esponewire.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
esponewire.h esp8266: Separate 1-wire timing funcs from Python module to save iRAM. 2016-04-14 12:44:26 +01:00
esppwm.c esp8266/esppwm.c: Fix IRQ handler prototype. 2016-03-26 00:34:28 +02:00
esppwm.h esp8266: Add PWM support. 2016-03-26 00:32:37 +02:00
ets_alt_task.c esp8266: Extend system microsecond counter to 64-bits; use in ticks_ms. 2016-09-20 14:28:17 +10:00
ets_alt_task.h esp8266: Extend system microsecond counter to 64-bits; use in ticks_ms. 2016-09-20 14:28:17 +10:00
etshal.h esp8266/etshal.h: Adjust size of MD5_CTX structure. 2016-11-02 02:16:35 +03:00
fatfs_port.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
gccollect.c esp8266: When doing GC be sure to trace the memory holding native code. 2016-12-20 11:20:01 +11:00
gccollect.h esp8266: When doing GC be sure to trace the memory holding native code. 2016-12-20 11:20:01 +11:00
gchelper.s esp8266: New port of Micro Python to ESP8266 wifi module. 2014-11-27 20:30:33 +00:00
help.c esp8266: Convert to use builtin help function. 2017-01-22 11:56:16 +11:00
hspi.c esp8266/hspi: Enable duplex operation of hardware SPI 2016-08-25 21:24:22 +03:00
hspi.h esp8266/modpybhspi: Add a HSPI module for hardware SPI support 2016-08-19 21:19:59 +03:00
hspi_register.h esp8266/modpybhspi: Add a HSPI module for hardware SPI support 2016-08-19 21:19:59 +03:00
intr.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
lexerstr32.c py/lexer: Make lexer use an mp_reader as its source. 2016-11-16 18:35:01 +11:00
machine_adc.c all: Consistently update signatures of .make_new and .call methods. 2017-01-04 16:10:42 +03:00
machine_hspi.c esp8266: Refactor to use extmod implementation of software SPI class. 2016-12-08 14:41:58 +11:00
machine_pin.c all: Consistently update signatures of .make_new and .call methods. 2017-01-04 16:10:42 +03:00
machine_pwm.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
machine_rtc.c all: Consistently update signatures of .make_new and .call methods. 2017-01-04 16:10:42 +03:00
machine_uart.c all: Remove readall() method, which is equivalent to read() w/o args. 2016-11-14 00:24:22 +03:00
machine_wdt.c all: Consistently update signatures of .make_new and .call methods. 2017-01-04 16:10:42 +03:00
main.c esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
makeimg.py esp8266/makeimg.py: Append md5 hash to the generated binary. 2016-08-04 00:21:05 +03:00
modesp.c esp8266/modesp: Fix a typo, print -> printf. 2017-01-03 17:10:13 +11:00
modmachine.c all: Consistently update signatures of .make_new and .call methods. 2017-01-04 16:10:42 +03:00
modmachine.h esp8266: Refactor to use extmod implementation of software SPI class. 2016-12-08 14:41:58 +11:00
modnetwork.c esp8266/modnetwork.c: Expose configuration for station DHCP hostname. 2016-11-09 00:33:13 +03:00
modonewire.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
modpyb.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
moduos.c esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
modutime.c esp8266: Rename "machine" module implementation to use contemporary naming. 2016-11-06 01:30:19 +03:00
mpconfigport.h esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
mpconfigport_512k.h esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
qstrdefsport.h esp8266: Change to use new generic VFS sub-system. 2017-01-27 17:21:45 +11:00
strtoll.c esp8266: Change bignum from mpz to longlong; move some rodata to iram. 2014-11-28 14:58:25 +00:00
uart.c lib/interrupt_char: Factor out typical Ctrl+C handling from esp8266 port. 2016-09-29 10:15:38 -07:00
uart.h esp8266/modpybuart: Fix UART parity setting. 2016-07-27 21:05:45 +03:00
uart_register.h esp8266: New port of Micro Python to ESP8266 wifi module. 2014-11-27 20:30:33 +00:00
user_config.h esp8266: New port of Micro Python to ESP8266 wifi module. 2014-11-27 20:30:33 +00:00
xtirq.h esp8266/xtirq: Add xtirq.h for controlling xtensa irqs. 2016-05-26 15:47:47 +01:00

README.md

MicroPython port to ESP8266

This is an experimental port of MicroPython for the WiFi modules based on Espressif ESP8266 chip.

WARNING: The port is experimental and many APIs are subject to change.

Supported features include:

  • REPL (Python prompt) over UART0.
  • Garbage collector, exceptions.
  • Unicode support.
  • Builtin modules: gc, array, collections, io, struct, sys, esp, network, many more.
  • Arbitrary-precision long integers and 30-bit precision floats.
  • WiFi support.
  • Sockets using modlwip.
  • GPIO and bit-banging I2C, SPI support.
  • 1-Wire and WS2812 (aka Neopixel) protocols support.
  • Internal filesystem using the flash.
  • WebREPL over WiFi from a browser (clients at https://github.com/micropython/webrepl).
  • Modules for HTTP, MQTT, many other formats and protocols via https://github.com/micropython/micropython-lib .

Work-in-progress documentation is available at http://docs.micropython.org/en/latest/esp8266/ .

Build instructions

The tool chain required for the build is the OpenSource ESP SDK, which can be found at https://github.com/pfalcon/esp-open-sdk. Clone this repository and run make in its directory to build and install the SDK locally. Make sure to add toolchain bin directory to your PATH. Read esp-open-sdk's README for additional important information on toolchain setup.

Add the external dependencies to the MicroPython repository checkout:

$ git submodule update --init

See the README in the repository root for more information about external dependencies.

The MicroPython cross-compiler must be built to pre-compile some of the built-in scripts to bytecode. This can be done using:

$ make -C mpy-cross

Then, to build MicroPython for the ESP8266, just run:

$ cd esp8266
$ make axtls
$ make

This will produce binary images in the build/ subdirectory. If you install MicroPython to your module for the first time, or after installing any other firmware, you should erase flash completely:

esptool.py --port /dev/ttyXXX erase_flash

Erase flash also as a troubleshooting measure, if a module doesn't behave as expected.

To flash MicroPython image to your ESP8266, use:

$ make deploy

This will use the esptool.py script to download the images. You must have your ESP module in the bootloader mode, and connected to a serial port on your PC. The default serial port is /dev/ttyACM0, flash mode is qio and flash size is detect (auto-detect based on Flash ID). To specify other values, use, eg (note that flash size is in megabits):

$ make PORT=/dev/ttyUSB0 FLASH_MODE=qio FLASH_SIZE=32m deploy

The image produced is build/firmware-combined.bin, to be flashed at 0x00000.

First start

Serial prompt

You can access the REPL (Python prompt) over UART (the same as used for programming).

  • Baudrate: 115200

WiFi

Initally, the device configures itself as a WiFi access point (AP).

  • ESSID: MicroPython-xxxxxx (xs are replaced with part of the MAC address).
  • Password: micropythoN (note the upper-case N).
  • IP address of the board: 192.168.4.1.
  • DHCP-server is activated.

WebREPL

Python prompt over WiFi, connecting through a browser.

Please follow the instructions there.

More detailed instructions can be found at http://docs.micropython.org/en/latest/esp8266/esp8266/tutorial/intro.html

Troubleshooting

While the port is still in alpha, it's known to be generally stable. If you experience strange bootloops, crashes, lockups, here's a list to check against:

  • You didn't erase flash before programming MicroPython firmware.
  • Firmware can be occasionally flashed incorrectly. Just retry. Recent esptool.py versions have --verify option.
  • Power supply you use doesn't provide enough power for ESP8266 or isn't stable enough.
  • A module/flash may be defective (not unheard of for cheap modules).

Please consult dedicated ESP8266 forums/resources for hardware-related problems.