micropython/cc3200
danicampora e1dfc44178 cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
..
FreeRTOS cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
boards cc3200: Rename GPIO module to Pin. 2015-02-09 20:01:54 +01:00
bootmgr cc3200: Rename GPIO module to Pin. 2015-02-09 20:01:54 +01:00
fatfs/src cc3200: Add I2C module. Only master mode is currently supported. 2015-02-13 17:54:04 +01:00
ftp
hal cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
misc cc3200: Add I2C module. Only master mode is currently supported. 2015-02-13 17:54:04 +01:00
mods cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
simplelink
telnet stmhal: Make pybstdio usable by other ports, and use it. 2015-02-13 15:04:53 +00:00
util
CC3200.ccxml
Makefile
README.md
application.lds cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
application.mk cc3200: Disable FreeRTOS asserts. Optimize more files if BTYPE=debug. 2015-02-20 16:40:06 +01:00
appsign.sh
main.c
mpconfigport.h cc3200: Add I2C module. Only master mode is currently supported. 2015-02-13 17:54:04 +01:00
mptask.c cc3200: Add I2C module. Only master mode is currently supported. 2015-02-13 17:54:04 +01:00
mptask.h
qstrdefsport.h cc3200: Add I2C module. Only master mode is currently supported. 2015-02-13 17:54:04 +01:00
serverstask.c
serverstask.h

README.md

Build Instructions for the CC3200

Currently the CC3200 port of Micro Python builds under Linux and OSX and not under Windows.

The tool chain required for the build can be found at https://launchpad.net/gcc-arm-embedded.

In order to download the image to the CC3200 you will need the CCS_Uniflash tool from TI, which at this moment is only available for Windows, so, you need Linux/OSX to build and Windows to flash the image.

To build an image suitable for debugging:

In order to debug the port specific code, optimizations need to be disabled on the port file (check the Makefile for specific details). You can use CCS from TI. Use the CC3200.ccxml file supplied with this distribution for the debuuger configuration.

make BTARGET=application BTYPE=debug

To build an image suitable to be flashed to the device:

make BTARGET=application BTYPE=release

Building the bootloader

make BTARGET=bootloader BTYPE=release

Flashing the CC3200

  • Make sure the SOP2 jumper is in position.
  • Open CCS_Uniflash and connect to the board (by default on port 22).
  • Format the serial flash (select 1MB size in case of the CC3200-LAUNCHXL, leave the rest unchecked).
  • Mark the following files for erasing: /cert/ca.pem, /cert/client.pm, /cert/private.key and /tmp/pac.bin.
  • Add a new file with the name of /sys/factimg.bin, and select the correct URL to point to cc3200\build<BOARD_NAME>\MCUIMG.BIN.
  • Click "Program" to apply all changes.
  • Flash the latest service pack (servicepack_1.0.0.1.2.bin) using the "Service Pack Update" button.
  • Close CCS_Uniflash, remove the SOP2 jumper and reset the board.

Playing with MicroPython and the CC3200:

Once the software is running, you have two options to access the MicroPython REPL:

  • Through the UART. Connect to PORT 22, baud rate = 115200, parity = none, stop bits = 1
  • Through telnet.
    • Connect to the network created by the board (as boots up in AP mode), ssid = "micropy-wlan", key = "micropython"
      • You can also reinitialize the WLAN in station mode and connect to another AP, or in AP mode but with a different ssid and/or key.
    • Use your favourite telnet client with the following settings: host = 192.168.1.1, port = 23.
    • Log in with user = "micro" and password = "python"

The board has a small file system of 64K located in the serial flash connected to the CC3200. SD cards are also supported, but since the CC3200 LaunchXL doesn't come with an SD card socket installed, you will need to add one yourself. Any SD card breakout board will do, as long as you connect it as described here: http://processors.wiki.ti.com/index.php/CC32xx_SDHost_FatFS

Uploading scripts:

To upload your MicroPython scripts to the FTP server, open your FTP client of choice and connect to: ftp://192.168.1.1, user = "micro", password = "python"

I have tested the FTP server with FileZilla, FireFTP, FireFox, IE and Chrome, other clients should work as well, but I am not 100% sure of it.

Upgrading the firmware Over The Air:

OTA software updates can be performed through the FTP server. After building a new MCUIMG.BIN in release mode, upload it to: /SFLASH/SYS/MCUIMG.BIN it will take around 8s (The TI simplelink file system is quite slow because every file is mirrored for safety). You won't see the file being stored inside /SFLASH/SYS/ because it's actually saved bypassing FatFS, but rest assured that the file was successfully transferred, and it has been signed with a MD5 checksum to verify its integrity. Now, reset the MCU by pressing the switch on the board, or by typing:

import pyb
pyb.hard_reset()

Note regarding FileZilla:

Do not use the quick connect button, instead, open the site manager and create a new configuration. In the "General" tab make sure that encryption is set to: "Only use plain FTP (insecure)". In the Transfer Settings tab limit the max number of connections to one, otherwise FileZilla will try to open a second command connection when retrieving and saving files, and for simplicity and to reduce code size, only one command and one data connections are possible.