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Accessing Micro Python on the IoT NodeIntroduction | ||||||||
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For IoT we need in addition: MQTTfx ( http://www.jensd.de/apps/mqttfx/1.7.0 ) and mosquitto (install with apt) ... and I probably missed quite a few | ||||||||
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> > | For Windows usersThe installation of the tools is similar as for Ubuntu. You must install realterm as terminal emulator instead of minicom and you must install Python for Windows. Please install the stable version (3.7.3 at the time of writing). Then install the Python modules using pip (pip install PyQt5 ...) PyQt5, pyserial, pyflakes, sip, qscintilla, esptool, pyparsing, pyinstaller, thonny, thonny-esp With these you should be able to run uPyCraft and thonny. There is a Windows binary in the uPyCraft repository in the directory dist, which you may want to try, When running uPyCraft for the first time, you must run it in administrator mode. Then click on "workspace" to define the directory where your micropython programs will be located. Once this is done, you may quit and re-run uPyCraft as normal user. To edit your micropython files you may use idle, which can be started with idle.bat located in your Python_installation_dir\lib\idlelib. Create a shortcut to easily access the the command. | |||||||
Installing uPyCraft and burning micropython into the WeMos D1 mini flashTo install uPyCraft, clone it with git: | ||||||||
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cd uPyCraft-Qt5 | ||||||||
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< < | ./uPyCraft.py | |||||||
> > | ./uPyCraft.py (you may also want try the binary uPyCraft found in the dist directory) | |||||||
It should ask you if you want the examples to be installed to which you answer "yes" |
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Accessing Micro Python on the IoT NodeIntroduction | ||||||||
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sudo pip3 install package name. I had to install the following packages: | ||||||||
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< < | PyQt5, pyserial, pyflakes, sip, qscintilla, esptool, pyparsing, pyinstaller, thonny | |||||||
> > | PyQt5, pyserial, pyflakes, sip, qscintilla, esptool, pyparsing, pyinstaller, thonny, thonny-esp | |||||||
In addition I needed to install python3-tk with apt to have access to tkinter in Python. | ||||||||
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To install uPyCraft, clone it with git: | ||||||||
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< < | git clone https://github.com/uraich/uPyCraft-Qt5.git_ | |||||||
> > | git clone https://github.com/uraich/uPyCraft-Qt5.git | |||||||
cd uPyCraft-Qt5 |
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Accessing Micro Python on the IoT NodeIntroduction | ||||||||
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When trying to install the Linux binary I got problems with library version incompatibilities on zlib but even when solving this problem the program did not work as expected (the Windows version worked fine). uPyCraft is a Python program whose source is available on github. In fact I found 2 versions: | ||||||||
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< < | ||||||||
> > | ||||||||
Even tough I managed to run the program and the main window came up on the screen, most of the functions gave problems. The Qt5 version even more than the Qt4 version. Finally I decided to modify the QT5 version of the program myself and to try correct the errors one be one until the program could be used for the AFNOG workshop. Since the original documentation is also obsolete I re-wrote it for my new version. For a description on how to use the program please refer to the github Wiki pages.
Getting the tools to work starting from a freshly installed Ubuntu | ||||||||
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These can easily be installed with apt. To get the basic configuration ready for minicom, start it with sudo minicom -s. Use /dev/ttyUSB0 as serial port and set it to 115200 baud. Save this configuration as default. | ||||||||
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sudo pip3 install package name. I had to install the following packages: | ||||||||
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< < | PyQt5, pyserial, pyflakes, sip, qscintilla, esptool, thonny | |||||||
> > | PyQt5, pyserial, pyflakes, sip, qscintilla, esptool, pyparsing, pyinstaller, thonny | |||||||
In addition I needed to install python3-tk with apt to have access to tkinter in Python. | ||||||||
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< < | Here is the complete list of additional modules I installed with apt: | |||||||
> > | Here is the list of additional modules I installed with apt: | |||||||
emacs, vlc,audacity, gimp, git, subversion,mercurial,build-essentials, qtcreator, qt5-default, qt5-doc, qt5-doc-html, qtbase5-doc-html, qtbase5-examples | ||||||||
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< < | qt4-dev-tools, qt4-doc, qt4-qt-config, qt4-demos, qt4-designer, libqwt5-qt4 libqwt5-qt4-dev | |||||||
> > | qt4-dev-tools, qt4-doc, qt4-qt-config, qt4-demos, qt4-designer, libqwt5-qt4 libqwt5-qt4-dev, esptool | |||||||
skype for linux, apache2, gdebi, mysql-server php-mysql | ||||||||
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For IoT we need in addition: MQTTfx ( http://www.jensd.de/apps/mqttfx/1.7.0 ) and mosquitto (install with apt) ... and I probably missed quite a few | ||||||||
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> > | Installing uPyCraft and burning micropython into the WeMos D1 mini flash | |||||||
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< < | Accessing micro Python over WiFi | |||||||
> > | To install uPyCraft, clone it with git:
git clone https://github.com/uraich/uPyCraft-Qt5.git_
cd uPyCraft-Qt5
./uPyCraft.py
It should ask you if you want the examples to be installed to which you answer "yes"
If it comes up as expected, please check that the hidden directory ~/.uPyCraft is created in your home directory. If all is well, exit uPyCraft again.
Connect the WeMos D1 mini to the PC and make sure that /dev/ttyUSB0 comes up in the /dev directory.
Restart uPyCraft
Tools -> BurnFirmware
board: select esp8266
erase_flash: select yes
Keep uPyCraft ticked.
Say ok.
This will hopefully flash micropython, downloaded from my github repository
For the esp32 change the burn_addr to 0x1000
Accessing micropython over WiFi | |||||||
Unfortunately uPyCraft relies on the serial connection between the PC on which it runs and micro Python on the IoT node. When taking the ESP01 off its "programmer" this serial connection will be cut and uPyCraft, in its current state, cannot be used any longer. It is however possible to enable webrepl on the micro Python node, allowing access to the REPL loop through a websocket interface. |
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Accessing Micro Python on the IoT NodeIntroduction | ||||||||
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tkdiff,meld | ||||||||
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> > | For IoT we need in addition: MQTTfx ( http://www.jensd.de/apps/mqttfx/1.7.0 ) and mosquitto (install with apt) | |||||||
... and I probably missed quite a few
Accessing micro Python over WiFi |
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Accessing Micro Python on the IoT NodeIntroduction | ||||||||
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Even tough I managed to run the program and the main window came up on the screen, most of the functions gave problems. The Qt5 version even more than the Qt4 version. Finally I decided to modify the QT5 version of the program myself and to try correct the errors one be one until the program could be used for the AFNOG workshop. Since the original documentation is also obsolete I re-wrote it for my new version. For a description on how to use the program please refer to the github Wiki pages. | ||||||||
Changed: | ||||||||
< < | Accessing micro Python over WiFi | |||||||
> > | Getting the tools to work starting from a freshly installed UbuntuQuite a few packages must be installed on Ubuntu before you can use the tools needed. The terminal emulators I installed where
Accessing micro Python over WiFi | |||||||
Unfortunately uPyCraft relies on the serial connection between the PC on which it runs and micro Python on the IoT node. When taking the ESP01 off its "programmer" this serial connection will be cut and uPyCraft, in its current state, cannot be used any longer. It is however possible to enable webrepl on the micro Python node, allowing access to the REPL loop through a websocket interface. | ||||||||
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and follow the instructions. | ||||||||
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< < | Then install the webrepl client on your PC. Start the browser and enter the URL file://directory_of_webrepl/webrepl.html. In the window coming up enter the websocket server consisting of ws://IP_of_your_IoT_node:8266, where 8266 is the port number. After entering the password you defined during the webrepl_setup step you should get connected to the REPL loop of your micro Python IoT node. For more information please consult the micro Python tutorial. | |||||||
> > | Then install the webrepl client on your PC. Start the browser and enter the URL file://directory_of_webrepl/webrepl.html. In the window coming up enter the websocket server consisting of ws://IP_of_your_IoT_node:8266, where 8266 is the port number. After entering the password you defined during the webrepl_setup step you should get connected to the REPL loop of your micro Python IoT node. For more information please consult the micro Python tutorial. | |||||||
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> > |
Accessing Micro Python on the IoT NodeIntroductionOnce micro Python is running on the node we must be able to upload Python programs on the node and execute them there. In case of processor board with a micro-USB connector it is easy to connect to the micro Python REPL loop through a simple serial interface and a terminal emulator like minicom. In addition you can use ampy to up - and download files. A standard editor like emacs or a specify Python editor like idle can be used to edit the Python code. More comfortable though is the use of an IDE like uPyCraft which has editing, up and download features, library functions and a collection of examples built in. uPyCraft can be found as binaries for Windows, Mac and Linux. When trying to install the Linux binary I got problems with library version incompatibilities on zlib but even when solving this problem the program did not work as expected (the Windows version worked fine). uPyCraft is a Python program whose source is available on github. In fact I found 2 versions: Even tough I managed to run the program and the main window came up on the screen, most of the functions gave problems. The Qt5 version even more than the Qt4 version. Finally I decided to modify the QT5 version of the program myself and to try correct the errors one be one until the program could be used for the AFNOG workshop. Since the original documentation is also obsolete I re-wrote it for my new version. For a description on how to use the program please refer to the github Wiki pages.Accessing micro Python over WiFiUnfortunately uPyCraft relies on the serial connection between the PC on which it runs and micro Python on the IoT node. When taking the ESP01 off its "programmer" this serial connection will be cut and uPyCraft, in its current state, cannot be used any longer. It is however possible to enable webrepl on the micro Python node, allowing access to the REPL loop through a websocket interface. In order for this to work we first must enable the webrepl server: Connect the node to the programmer to get access through the serial interface and type import webrepl-setup and follow the instructions. Then install the webrepl client on your PC. Start the browser and enter the URL file://directory_of_webrepl/webrepl.html. In the window coming up enter the websocket server consisting of ws://IP_of_your_IoT_node:8266, where 8266 is the port number. After entering the password you defined during the webrepl_setup step you should get connected to the REPL loop of your micro Python IoT node. For more information please consult the micro Python tutorial. As you can see, There are also buttons available to transfer files from and to the IoT node. -- Uli Raich - 2019-03-01Comments
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