[PATCH v4 05/15] mm: introduce execmem_alloc() and execmem_free()
Mike Rapoport
rppt at kernel.org
Thu Apr 18 10:52:39 PDT 2024
On Thu, Apr 18, 2024 at 09:13:27AM -0700, Song Liu wrote:
> On Thu, Apr 18, 2024 at 8:37 AM Mike Rapoport <rppt at kernel.org> wrote:
> > > >
> > > > I'm looking at execmem_types more as definition of the consumers, maybe I
> > > > should have named the enum execmem_consumer at the first place.
> > >
> > > I think looking at execmem_type from consumers' point of view adds
> > > unnecessary complexity. IIUC, for most (if not all) archs, ftrace, kprobe,
> > > and bpf (and maybe also module text) all have the same requirements.
> > > Did I miss something?
> >
> > It's enough to have one architecture with different constrains for kprobes
> > and bpf to warrant a type for each.
>
> AFAICT, some of these constraints can be changed without too much work.
But why?
I honestly don't understand what are you trying to optimize here. A few
lines of initialization in execmem_info?
What is the advantage in forcing architectures to have imposed limits on
kprobes or bpf allocations?
> > Where do you see unnecessary complexity?
> >
> > > IOW, we have
> > >
> > > enum execmem_type {
> > > EXECMEM_DEFAULT,
> > > EXECMEM_TEXT,
> > > EXECMEM_KPROBES = EXECMEM_TEXT,
> > > EXECMEM_FTRACE = EXECMEM_TEXT,
> > > EXECMEM_BPF = EXECMEM_TEXT, /* we may end up without
> > > _KPROBE, _FTRACE, _BPF */
> > > EXECMEM_DATA, /* rw */
> > > EXECMEM_RO_DATA,
> > > EXECMEM_RO_AFTER_INIT,
> > > EXECMEM_TYPE_MAX,
> > > };
> > >
> > > Does this make sense?
> >
> > How do you suggest to deal with e.g. riscv that has separate address spaces
> > for modules, kprobes and bpf?
>
> IIUC, modules and bpf use the same address space on riscv
Not exactly, bpf is a subset of modules on riscv.
> while kprobes use vmalloc address.
The whole point of using the entire vmalloc for kprobes is to avoid
pollution of limited modules space.
> Thanks,
> Song
--
Sincerely yours,
Mike.
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