On 11/25/2015 04:45 PM, Emilio López wrote:
Hi everyone, This patch introduces a new ioctl, USBDEVFS_DROP_PRIVILEGES, to voluntarily forgo the ability to issue ioctls which may interfere with other users of the USB device. This feature allows a privileged process (in the case of Chrome OS, permission_broker) to open a USB device node and then drop a number of capabilities that are considered "privileged".
We had the same idea in Tizen but for now we didn't have time to implement it.
These privileges
include the ability to reset the device if there are other users (most notably a kernel driver) or to disconnect a kernel driver from the device. The file descriptor can then be passed to an unprivileged process.
And how about switching configuration? This can be also harmful even if the are no other users for any interface in this configuration. (Just imagine the situation in which only second config contains an HID function and when app switch configuration it is activated without user knowing about this;))
This is useful for granting a process access to a device with multiple functions. It won't be able to use its access to one function to disrupt or take over control of another function.
I run through your code and as far as I understand above is not exactly true. Your patch allows only to prevent userspace from accessing interfaces which has kernel drivers, there is no way to stop an application from taking control over all free interfaces.
Let's say that your device has 3 interfaces. First of them has a kernel driver but second and third doesn't. You have 2 apps. One should communicate using second interface and another one third. But first app is malicious and it claims all free interfaces of received device (your patch doesn't prevent this). And when second app starts it is unable to do anything with the device because all interfaces are taken. How would you like to handle this?
Moreover I'm not convinced to this patch as it hardcodes the *policy* in kernel code. Generally our approach (with passing fd from broker to unprivileged process) was similar but we found out that if we would like to do this correctly there is much more things to filter than in this patch. We had two main ideas:
- implement some LSM hooks in ioctls() but this leads to a lot of additional callbacks in lsm ops struct which even now is very big. But as a benefit we would get a very flexible policy consistent with other system policies
- split single usb device node into multiple files which could represent single endpoins only for io and separate control file for privileged but it's quite a lot of work and I don't know if any one is going to accept such a change
Best regards, -- Krzysztof Opasiak Samsung R&D Institute Poland Samsung Electronics -- To unsubscribe from this list: send the line "unsubscribe linux-api" in the body of a message to majord...@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html