| .. | ||
| .gitignore | ||
| btstack_config.h | ||
| main.c | ||
| Makefile | ||
| README.md | ||
BTstack Port for Windows Systems with DA14585 Controller connected via Serial Port
This port allows to use the DA14585 connected via Serial Port with BTstack running on a Win32 host system.
It first downloads the hci_585.hex firmware from the 6.0.8.509 SDK, before BTstack starts up.
Please note that it does not detect if the firmware has already been downloaded, so you need to reset the DA14585 before starting an example.
For production use, the HCI firmware could be flashed into the OTP and the firmware download could be skipped.
Tested with the official DA14585 Dev Kit Basic on OS X and Windows 10.
Toolchain
The port requires a Unix-like toolchain. We successfully used mingw-w64 to compile and run the examples. mingw64-w64 is based on MinGW, which '...provides a complete Open Source programming tool set which is suitable for the development of native MS-Windows applications, and which do not depend on any 3rd-party C-Runtime DLLs.'
We've used the Msys2 package available from the downloads page on Windows 10, 64-bit and use the MSYS2 MinGW 64-bit start menu item to compile 64-bit binaries.
In the MSYS2 shell, you can install everything with pacman:
$ pacman -S git
$ pacman -S make
$ pacman -S mingw-w64-x86_64-toolchain
$ pacman -S python
$ pacman -S winpty
Compilation
With mingw64-w64 installed, just go to the port/windows-winusb directory and run make
$ cd btstack/port/windows-winusb
$ make
Note: When compiling with msys2-32 bit and/or the 32-bit toolchain, compilation fails
as conio.h seems to be mission. Please use msys2-64 bit with the 64-bit toolchain for now.
Console Output
When running the examples in the MSYS2 shell, the console input (via btstack_stdin_support) doesn't work. It works in the older MSYS and also the regular CMD.exe environment. Another option is to install WinPTY and then start the example via WinPTY like this:
$ winpty ./spp_and_le_counter.exe