lkml.org 
[lkml]   [2018]   [Dec]   [6]   [last100]   RSS Feed
Views: [wrap][no wrap]   [headers]  [forward] 
 
Messages in this thread
/
From
SubjectRe: [PATCH 1/2] vmalloc: New flag for flush before releasing pages
Date
On Thu, 2018-12-06 at 11:19 -0800, Andy Lutomirski wrote:
> On Thu, Dec 6, 2018 at 11:01 AM Tycho Andersen <tycho@tycho.ws> wrote:
> >
> > On Thu, Dec 06, 2018 at 10:53:50AM -0800, Andy Lutomirski wrote:
> > > > If we are going to unmap the linear alias, why not do it at vmalloc()
> > > > time rather than vfree() time?
> > >
> > > That’s not totally nuts. Do we ever have code that expects __va() to
> > > work on module data? Perhaps crypto code trying to encrypt static
> > > data because our APIs don’t understand virtual addresses. I guess if
> > > highmem is ever used for modules, then we should be fine.
> > >
> > > RO instead of not present might be safer. But I do like the idea of
> > > renaming Rick's flag to something like VM_XPFO or VM_NO_DIRECT_MAP and
> > > making it do all of this.
> >
> > Yeah, doing it for everything automatically seemed like it was/is
> > going to be a lot of work to debug all the corner cases where things
> > expect memory to be mapped but don't explicitly say it. And in
> > particular, the XPFO series only does it for user memory, whereas an
> > additional flag like this would work for extra paranoid allocations
> > of kernel memory too.
> >
>
> I just read the code, and I looks like vmalloc() is already using
> highmem (__GFP_HIGH) if available, so, on big x86_32 systems, for
> example, we already don't have modules in the direct map.
>
> So I say we go for it. This should be quite simple to implement --
> the pageattr code already has almost all the needed logic on x86. The
> only arch support we should need is a pair of functions to remove a
> vmalloc address range from the address map (if it was present in the
> first place) and a function to put it back. On x86, this should only
> be a few lines of code.
>
> What do you all think? This should solve most of the problems we have.
>
> If we really wanted to optimize this, we'd make it so that
> module_alloc() allocates memory the normal way, then, later on, we
> call some function that, all at once, removes the memory from the
> direct map and applies the right permissions to the vmalloc alias (or
> just makes the vmalloc alias not-present so we can add permissions
> later without flushing), and flushes the TLB. And we arrange for
> vunmap to zap the vmalloc range, then put the memory back into the
> direct map, then free the pages back to the page allocator, with the
> flush in the appropriate place.
>
> I don't see why the page allocator needs to know about any of this.
> It's already okay with the permissions being changed out from under it
> on x86, and it seems fine. Rick, do you want to give some variant of
> this a try?
Hi,

Sorry, I've been having email troubles today.

I found some cases where vmap with PAGE_KERNEL_RO happens, which would not set
NP/RO in the directmap, so it would be sort of inconsistent whether the
directmap of vmalloc range allocations were readable or not. I couldn't see any
places where it would cause problems today though.

I was ready to assume that all TLBs don't cache NP, because I don't know how
usages where a page fault is used to load something could work without lots of
flushes. If that's the case, then all archs with directmap permissions could
share a single vmalloc special permission flush implementation that works like
Andy described originally. It could be controlled with an
ARCH_HAS_DIRECT_MAP_PERMS. We would just need something like set_pages_np and
set_pages_rw on any archs with directmap permissions. So seems simpler to me
(and what I have been doing) unless I'm missing the problem.

If you all think so I can indeed take a shot at it, I just don't see what the
problem was with the original solution, that seems less likely to break
anything.

Thanks,

Rick
\
 
 \ /
  Last update: 2018-12-06 21:20    [W:0.068 / U:6.168 seconds]
©2003-2018 Jasper Spaans|hosted at Digital Ocean and TransIP|Read the blog|Advertise on this site