In a project I am involved in we have the following hardware setup:
Linux PC ------> "Router" +----> "Device A" | +----> "Device B"
Linux PC is a standard X86 PC.
"Router" is a piece of hardware we developed that is connected to other pieces of hardware in our system. In this example "Device A". The "Router" is connected to the Linux PC using USB.
"Device A" and "Device B" are pieces of hardware in the system. They are connected to the "Router" hardware via some communication channel (unimportant in this case).
My task is to write a Linux device driver for "Device A" (and later other devices as well).
I have already constructed a general purpose USB driver that talks to "Router" and this works fine. My plan was to have a driver stack that would look like this:
+----------+----------+ | dev_A.ko | dev_B.ko | +----------+----------+ | router.ko | +---------------------+ | Linux USB driver | +---------------------+
That is: The device drivers communicate with their hardware using the "router.ko" kernel module which in turn is built on the standard Linux USB driver core.
My problem is that to the Linux PC, there is only one physical device: The "Router" hardware connected via USB, which means the device drivers become some sort of virtual devices.
I could compile teh device drivers and the Router device driver into one big kernel module, but it does not seem like the best solution.
Also, since "Device A" has previously been connected directly to a Linux PC there already exists a driver for it with a well defined userspace-interface which must be kept since there are already applications in production that need to speak to it.
My question more or less boils down to this:
Given the hardware scenario above, how would you structure the Linux kernel modules?
router
is a USB hub. Can you make your Router look like a hub and device A and device B look like USB devices connected to the hub?router
can for various reasons not be made to look like a USB-hub. Actually, I might not even be able to control the USB functionality on therouter
hardware at all. It could be replaced by, say a USB-to-serial chip at any time (exposing USB-serial to the linux host, and serial port to therouter
device).