The driver core handles different stages of running the driver. You may consider a driver code as a set of callbacks, such as
->remove(), and so on. For details you can check
struct platform_driver or
struct pci_driver definition.
So, how can you communicate between the callbacks?
Right, you have at least two ways:
- introduce global variable in the module [usually BAD idea]
- specify something in the parameters of callback, in your case
struct device or its children (
struct pci_dev for example).
Thus, we have a pointer to a private member which can be used as a container of useful information that should be passed through callbacks.
Why we need that? Most of the drivers request some resources and save pointers to them somewhere at
probe stage. To avoid a leak of the resources you have to free them at the
remove stage. That's how it used.
As pointed out by allsey87, another useful pattern is to pass a current state of the device across callbacks. One of the real example is power management callbacks (
Interestingly the author of the Linux Misc Device: general protection fault at
misc_deregister() on driver with private data allocation question tried to use driver data of the miscelleneous device (which is available via the
this_device member of
struct miscdevice). However, as we may see, the misc device framework uses that field for its own needs and user must not intervene that. The correct approach in such cases is to embed the
struct miscdevice into your custom structure and use
container_of() approach (remembering that Linux kernel is written in OOP paradigm). Example:
https://elixir.bootlin.com/linux/v6.5-rc3/source/lib/test_kmod.c#L121 (definition), https://elixir.bootlin.com/linux/v6.5-rc3/source/lib/test_kmod.c#L153 (getter).