Re: [PATCH 00/40] Memory allocation profiling

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



Hello,

On Wed, May 03, 2023 at 02:07:26PM -0400, Johannes Weiner wrote:
...
> > * Because tracking starts when the script starts running, it doesn't know
> >   anything which has happened upto that point, so you gotta pay attention to
> >   handling e.g. handling frees which don't match allocs. It's kinda annoying
> >   but not a huge problem usually. There are ways to build in BPF progs into
> >   the kernel and load it early but I haven't experiemnted with it yet
> >   personally.
> 
> Yeah, early loading is definitely important, especially before module
> loading etc.
> 
> One common usecase is that we see a machine in the wild with a high
> amount of kernel memory disappearing somewhere that isn't voluntarily
> reported in vmstat/meminfo. Reproducing it isn't always
> practical. Something that records early and always (with acceptable
> runtime overhead) would be the holy grail.
> 
> Matching allocs to frees is doable using the pfn as the key for pages,
> and virtual addresses for slab objects.
> 
> The biggest issue I had when I tried with bpf was losing updates to
> the map. IIRC there is some trylocking going on to avoid deadlocks
> from nested contexts (alloc interrupted, interrupt frees). It doesn't
> sound like an unsolvable problem, though.

(cc'ing Alexei and Andrii)

This is the same thing that I hit with sched_ext. BPF plugged it for
struct_ops but I wonder whether it can be done for specific maps / progs -
ie. just declare that a given map or prog is not to be accessed from NMI and
bypass the trylock deadlock avoidance mechanism. But, yeah, this should be
addressed from BPF side.

> Another minor thing was the stack trace map exploding on a basically
> infinite number of unique interrupt stacks. This could probably also
> be solved by extending the trace extraction API to cut the frames off
> at the context switch boundary.
> 
> Taking a step back though, given the multitude of allocation sites in
> the kernel, it's a bit odd that the only accounting we do is the tiny
> fraction of voluntary vmstat/meminfo reporting. We try to cover the
> biggest consumers with this of course, but it's always going to be
> incomplete and is maintenance overhead too. There are on average
> several gigabytes in unknown memory (total - known vmstats) on our
> machines. It's difficult to detect regressions easily. And it's per
> definition the unexpected cornercases that are the trickiest to track
> down. So it might be doable with BPF, but it does feel like the kernel
> should do a better job of tracking out of the box and without
> requiring too much plumbing and somewhat fragile kernel allocation API
> tracking and probing from userspace.

Yeah, easy / default visibility argument does make sense to me.

Thanks.

-- 
tejun



[Index of Archives]     [Linux ARM Kernel]     [Linux ARM]     [Linux Omap]     [Fedora ARM]     [IETF Annouce]     [Security]     [Bugtraq]     [Linux OMAP]     [Linux MIPS]     [eCos]     [Asterisk Internet PBX]     [Linux API]     [Monitors]

  Powered by Linux