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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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ad7b4e8022
cxllib_handle_fault() is called by an external driver when it needs to
have the host resolve page faults for a buffer. The buffer can cover
several pages and VMAs. The function iterates over all the pages used
by the buffer, based on the page size of the VMA.
To ensure some stability while processing the faults, the thread T1
grabs the mm->mmap_sem semaphore with read access (R1). However, when
processing a page fault for a single page, one of the underlying
functions, copro_handle_mm_fault(), also grabs the same semaphore with
read access (R2). So the thread T1 takes the semaphore twice.
If another thread T2 tries to access the semaphore in write mode W1
(say, because it wants to allocate memory and calls 'brk'), then that
thread T2 will have to wait because there's a reader (R1). If the
thread T1 is processing a new page at that time, it won't get an
automatic grant at R2, because there's now a writer thread
waiting (T2). And we have a deadlock.
The timeline is:
1. thread T1 owns the semaphore with read access R1
2. thread T2 requests write access W1 and waits
3. thread T1 requests read access R2 and waits
The fix is for the thread T1 to release the semaphore R1 once it got
the information it needs from the current VMA. The address space/VMAs
could evolve while T1 iterates over the full buffer, but in the
unlikely case where T1 misses a page, the external driver will raise a
new page fault when retrying the memory access.
Fixes:
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.. | ||
api.c | ||
base.c | ||
context.c | ||
cxl.h | ||
cxllib.c | ||
debugfs.c | ||
fault.c | ||
file.c | ||
flash.c | ||
guest.c | ||
hcalls.c | ||
hcalls.h | ||
irq.c | ||
Kconfig | ||
main.c | ||
Makefile | ||
native.c | ||
of.c | ||
pci.c | ||
phb.c | ||
sysfs.c | ||
trace.c | ||
trace.h | ||
vphb.c |