Every so often I happen to be involved in designing electronics equipment that's supposed to run reliably remotely in inaccessible locations,without any ability for "remote hands" to perform things like power-cycling or the like. I'm talking about really remote locations, possible with no but limited back-haul, and a very high cost of ever sending somebody there for remote maintenance.
Given that a lot of computer peripherals (chips, modules, ...) use USB these days, this is often some kind of an embedded ARM (rarely x86) SoM or SBC, which is hooked up to a custom board that contains a USB hub chip as well as a line of peripherals.
One of the most important lectures I've learned from experience is: Never trust reset signals / lines, always include power-switching capability. There are many chips and electronics modules available on the market that have either no RESET, or even might claim to have a hardware RESET line which you later (painfully) discover just to be a GPIO polled by software which can get stuck, and hence no way to really hard-reset the given component.
In the case of a USB-attached device (even though the USB might only exist on a circuit board between two ICs), this is typically rather easy: The USB hub is generally capable of switching the power of its downstream ports. Many cheap USB hubs don't implement this at all, or implement only ganged switching, but if you carefully select your USB hub (or in the case of a custom PCB), you can make sure that the given USB hub supports individual port power switching.
Now the next step is how to actually use this from your (embedded) Linux system. It turns out to be harder than expected. After all, we're talking about a standard feature that's present in the USB specifications since USB 1.x in the late 1990ies. So the expectation is that it should be straight-forward to do with any decent operating system.
I don't know how it's on other operating systems, but on Linux I couldn't really find a proper way how to do this in a clean way. For more details, please read my post to the linux-usb mailing list.
Why am I running into this now? Is it such a strange idea? I mean, power-cycling a device should be the most simple and straight-forward thing to do in order to recover from any kind of "stuck state" or other related issue. Logical enabling/disabling of the port, resetting the USB device via USB protocol, etc. are all just "soft" forms of a reset which at best help with USB related issues, but not with any other part of a USB device.
And in the case of e.g. an USB-attached cellular modem, we're actually talking about a multi-processor system with multiple built-in micro-controllers, at least one DSP, an ARM core that might run another Linux itself (to implement the USB gadget), ... - certainly enough complex software that you would want to be able to power-cycle it...
I'm curious what the response of the Linux USB gurus is.
from Hacker News https://ift.tt/3kJidiL
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