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Message-ID: <20170510051341.GA17835@kroah.com>
Date: Wed, 10 May 2017 07:13:41 +0200
From: Greg Kroah-Hartman <gregkh@...uxfoundation.org>
To: Darren Hart <dvhart@...radead.org>
Cc: Linus Torvalds <torvalds@...ux-foundation.org>,
Mario Limonciello <mario_limonciello@...l.com>,
Pali Rohár <pali.rohar@...il.com>,
Andy Shevchenko <andriy.shevchenko@...ux.intel.com>,
Rafael Wysocki <rjw@...ysocki.net>,
Andy Lutomirski <luto@...capital.net>,
LKML <linux-kernel@...r.kernel.org>,
platform-driver-x86@...r.kernel.org
Subject: Re: WMI and Kernel:User interface
On Tue, May 09, 2017 at 04:16:39PM -0700, Darren Hart wrote:
> Linus and Greg,
>
> We are in the process of redesigning the Windows Management Instrumentation
> (WMI) [1] system in the kernel. WMI is the Microsoft implementation of Web-Based
> Enterprise Management (WBEM). We are looking to provide WMI access to userspace,
> while allowing the kernel to filter requests that conflict with its own usage.
> We'd like your take on how this approach relates to our commitment to not break
> userspace.
>
> For this discussion, we are specifically referring to ACPI PNP0C14 WMI
> devices, consisting of a GUID and a set of methods and events, as well as a
> precompiled intermediate description of the methods and arguments (MOF). Exposed
> to userspace, these methods provide for BIOS interaction and are used for system
> management as well as LEDs, hot keys, radio switches, etc. There is vendor
> interest in achieving feature parity with Windows by exposing WMI methods to
> userspace for system management.
>
> While it appears WMI intended to be accessed from userspace, we have
> made use of it in the kernel to support various laptop features by connecting
> the WMI methods to other subsystems, notably input, leds, and rfkill [2]. The
> challenge is continuing to use WMI for these platform features, while allowing
> userspace to use it for system management tasks. Unfortunately, the WMI methods
> are not guaranteed to be split up along granular functional lines, and we will
> certainly face situations where the same GUID::METHOD_ID will be needed for a
> kernel feature (say LED support) as well as a system management task.
>
> To address this, I have proposed [3] that exporting WMI be opt-in, only done at
> the request of and in collaboration with a vendor, with the kernel platform
> driver given the opportunity to filter requests. This filtering would need to be
> at the method and argument inspection level, such as checking for specific bits
> in the input buffer, and rejecting the request if they conflict with an in
> kernel usage (that's worst case, in some cases just GUID or method ID could be
> sufficient).
>
> Because the kernel and the platform drivers are under continual development, and
> new systems appear regularly, we will encounter necessary changes to the
> platform driver WMI request filters. These changes could be considered a change
> to the kernel provided WMI interface to userspace. For example, we could
> regularly accept a call to $GUID::$METHOD_ID with bit 4 of the buffer set, and
> later deny the call when we determine it interferes with kernel usage.
>
> In your view, is it acceptable to provide a chardev interface, for example,
> exposing WMI methods to userspace, with the understanding that the kernel may
> choose to filter certain requests which conflict with its own use? And that this
> filtering may change as new features are added to the platform drivers?
So, for example, if a new driver for a "brightness key" were added to
the kernel, all of a sudden the "raw" access to the wmi data through the
chardev would filtered away by the kernel and not seen by userspace?
Why would you want to do that? What's wrong with providing "raw" access
through a chardev, and the current in-kernel access as well at the same
time?
I don't really understand what would "break" over time here.
thanks,
greg k-h
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