mongoose/examples/stm32/nucleo-f746zg-freertos-mip/README.md

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# MIP webserver over FreeRTOS on NUCLEO-F746ZG
This firmware uses MIP, an experimental TCP/IP stack of the Mongoose Network Library, running as a FreeRTOS task.
It implements the following:
- Minimal elementary web server, as simple as possible
- No dependencies: no HAL, no CMSIS
- Hand-written [mcu.h](mcu.h) header based on the [datasheet](https://www.st.com/resource/en/reference_manual/rm0385-stm32f75xxx-and-stm32f74xxx-advanced-armbased-32bit-mcus-stmicroelectronics.pdf)
- Interrupt-driven [Ethernet driver](../../../drivers/driver_stm32.c)
- Blue LED blinky, based on another FreeRTOS task
- Debug log on UART3 (st-link)
## Requirements
- [GNU make](http://mongoose.ws/tutorials/tools/#gnu-make)
- [ARM GCC](http://mongoose.ws/tutorials/tools/#arm-gcc)
- [stlink](http://mongoose.ws/tutorials/tools/#stlink) for flashing
The links above will send you to tutorials on how to install each of those tools in your workstation for Linux, Mac, and Windows.
You'll also need _git_ so the Makefile can clone the FreeRTOS-Kernel repository. We assume you have it since you got to get this repository somehow. If you don't, and don't want to install it, just get the proper [FreeRTOS-Kernel](https://github.com/FreeRTOS/FreeRTOS-Kernel) version (see the Makefile) from its repository, as you did with the Mongoose repository.
## Usage
Plugin your Nucleo board into USB, and attach an Ethernet cable.
To build and flash:
```sh
$ make clean flash
```
To see debug log, use any serial monitor program like `picocom` at 115200 bps and configure it to insert carriage returns after line feeds:
```sh
$ picocom /dev/ttyACM0 -i -b 115200 --imap=lfcrlf
```
There is also a [detailed tutorial on this example](http://mongoose.ws/tutorials/stm32/nucleo-f746zg-freertos-mip/)
For more details and benchmark data on MIP, check the [baremetal example](../nucleo-f746zg-baremetal/)