I am trying to hunt down retain leaks in an open-source project to support I2C based trackpads (https://github.com/kprinssu/VoodooI2CHID).
The reason why I believe that there are retain leaks is because when I attempt to unload the kernel extension via the following commands:
sudo kextunload -verbose 6 VoodooI2CHID.kext
I get the following output:
Kext user-space log filter changed from 0xff2 to 0xfff.
Kext kernel-space log filter changed from 0xff2 to 0xfff.
Kext library architecture set to x86_64.
Requesting unload of com.alexandred.VoodooI2CHID (with termnation of IOServices).
(kernel) User-space log flags changed from 0x0 to 0xfff.
(kernel) Received 'Unload' request from user space.
(kernel) Rescheduling scan for unused kexts in 60 seconds.
(kernel) Can't unload kext com.alexandred.VoodooI2CHID; classes have instances:
(kernel) Kext com.alexandred.VoodooI2CHID class VoodooI2CPrecisionTouchpadHIDEventDriver has 1 instance.
(kernel) Kext com.alexandred.VoodooI2CHID class VoodooI2CMultitouchHIDEventDriver has 1 instance.
Kernel error handling kext request - (libkern/kext) kext is in use or retained (cannot unload).
Failed to unload com.alexandred.VoodooI2CHID - (libkern/kext) kext is in use or retained (cannot unload).
I came across pmdj's excellent answer on tracking down retain leaks (Can't Unload Kernel Extension; Classes Have Instances). I verfied that my situation is the second case via ioreg (classes are being terminated but are not properly freed). Additionally, I used pmdj's hint by overiding taggedRelease and taggedRetain (https://stackoverflow.com/a/13471512/48660) to print the stack trace of the function calls.
Here's where I run into problems, I cannot use atos
to convert the hex addresses back into human readable symbols. I use the follow command to generate the symbols:
atos -arch x86_x64 -o VoodooI2C.kext/Contents/MacOS/VoodooI2C -l 0xffffff7f8432b000 0xffffff804588dfa0
The load address parameter is retrieved from kextstat
and I expect the -l
argument should handle the slide arithmetic.
atos
should return a valid symbol but all I get is the hex address back. In the above example, I get 0xffffff804588dfa0
as the output. Can anybody point out what I exactly I am missing?