mikroBUS is a standard specification by MikroElektronika that can be freely used by anyone following the guidelines. It includes SPI, I2C, UART, PWM, ADC, reset, interrupt, and power (3.3V and 5V) connections to common embedded peripherals.
This page is meant to foster discussion within the embedded Linux community on usage of mikroBUS compatible add-on boards, adding mikroBUS sockets to embedded Linux systems, and ways to improve both Linux support for mikroBUS and the mikroBUS standard.
- 1 Usage of mikroBUS compatible add-on boards today
- 2 Implementation of a mikroBUS socket on an embedded Linux system
- 3 Improving Linux support for mikroBUS
- 4 Improving the mikroBUS standard for better Linux support
- 5 Comparisons to other popular embedded add-on form-factors
- 6 Definitions
Usage of mikroBUS compatible add-on boards today
Device tree overlays loaded at boot time
Today, there is no mainline solution for enabling mikroBUS add-on boards at run-time, so they must all be configured at boot-time with device-tree.
Instructions for PocketBeagle: https://github.com/beagleboard/pocketbeagle/wiki/Click-boards%E2%84%A2
There are some out-of-tree mechanisms for loading device-tree overlay fragments. TODO: Need reference to DTBO configfs patch. This patch doesn't apply after 4.14 and is not likely to be accepted in mainline. Mainline doesn't want arbitrary device-tree fragments, but there is a chance that this could be considered a "development-only" patch if this is rebased. The solution would allow run-time loading, but would not be automatic and requires authoring of overlay fragments specific to every add-on board, every Linux platform and every mikroBUS socket.
Using Greybus simulator to enable software hotplug support
This requires running the Greybus simulator, gbsim.
This also requires additional platform data and this is the main thing I need to explain.
Implementation of a mikroBUS socket on an embedded Linux system
Improving Linux support for mikroBUS
Motivation for supporting software hotplug
Creation of a mikroBUS bus driver in the Linux kernel
Improving the mikroBUS standard for better Linux support
Proposal #1: Use Greybus Manifest binaries
- Module vendor specified separately from driver usage
- Possibility of using existing driver names for invocation
Proposal #2: Use simple string identifiers
- Requires table to be kept in kernel
- Fix-ups would be very direct and not "fix-ups" at all, since no driver specific information would be encoded
Specifics on power function
The direction and accommodations related to the power pins aren't as specific in the mikroBus standard as with Feather.
Comparisons to other popular embedded add-on form-factors
The purpose of this page is to advance the development of mikroBUS support in Linux. Some distractions may be introduced to either illustrate the effort cannot be sufficiently limited in scope to tackle or that focus should be elsewhere. I'm not assuming these would be introduced with any ill-will, they are just natural concerns that need to be addressed up-front.
|mikroBUS||1.0" x 1.125"/1.6"/2.25"||Example|
|Feather/Wing||0.9" x 2.0"||De-facto standard based on implementation pin-out. Could benefit from some of the efforts for mikroBUS support, but not as cleanly defined with a limited and focused scope. Not as easy to make an impact on the majority of existing designs.|
|Arduino/Shield||XxY||Too irregular to make useful as an embedded system bus.|
|BeagleBone/Cape||XxY||Far too flexible for a standard outside of the Beagle ecosystem.|
Why should mikroBUS be a bus in the kernel even if these other interfaces aren't?
Why aren't we opening pandora's box by adding this as a bus in the kernel?
- Platform data
- Device driver
- Bus driver
- Device tree