Re: [PATCH 0/5] mm/kasan: advanced check

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On Fri, Nov 17, 2017 at 11:56:21PM +0100, Dmitry Vyukov wrote:
> On Fri, Nov 17, 2017 at 11:30 PM, Wengang Wang <wen.gang.wang@xxxxxxxxxx> wrote:
> > Kasan advanced check, I'm going to add this feature.
> > Currently Kasan provide the detection of use-after-free and out-of-bounds
> > problems. It is not able to find the overwrite-on-allocated-memory issue.
> > We sometimes hit this kind of issue: We have a messed up structure
> > (usually dynamially allocated), some of the fields in the structure were
> > overwritten with unreasaonable values. And kernel may panic due to those
> > overeritten values. We know those fields were overwritten somehow, but we
> > have no easy way to find out which path did the overwritten. The advanced
> > check wants to help in this scenario.
> >
> > The idea is to define the memory owner. When write accesses come from
> > non-owner, error should be reported. Normally the write accesses on a given
> > structure happen in only several or a dozen of functions if the structure
> > is not that complicated. We call those functions "allowed functions".
> > The work of defining the owner and binding memory to owner is expected to
> > be done by the memory consumer. In the above case, memory consume register
> > the owner as the functions which have write accesses to the structure then
> > bind all the structures to the owner. Then kasan will do the "owner check"
> > after the basic checks.
> >
> > As implementation, kasan provides a API to it's user to register their
> > allowed functions. The API returns a token to users.  At run time, users
> > bind the memory ranges they are interested in to the check they registered.
> > Kasan then checks the bound memory ranges with the allowed functions.
> >
> >
> > Signed-off-by: Wengang Wang <wen.gang.wang@xxxxxxxxxx>

Hello, Wengang.

Nice idea. I also think that we need this kind of debugging tool. It's very
hard to detect overwritten bugs.

In fact, I made a quite similar tool, valid access checker (A.K.A.
vchecker). See the following link.

https://github.com/JoonsooKim/linux/tree/vchecker-master-v0.3-next-20170106

Vchecker has some advanced features compared to yours.

1. Target object can be choosen at runtime by debugfs. It doesn't
require re-compile to register the target object.

2. It has another feature that checks the value stored in the object.
Usually, invalid writer stores odd value into the object and vchecker
can detect this case.

3. It has a callstack checker (memory owner checker in yours). It
checks all the callstack rather than just the caller. It's important
since invalid writer could call the parent function of owner function
and it would not be catched by checking just the caller.

4. The callstack checker is more automated. vchecker collects the valid
callstack by running the system.


FYI, I attach some commit descriptions of the vchecker.

    vchecker: store/report callstack of value writer
    
    The purpose of the value checker is finding invalid user writing
    invalid value at the moment that the value is written. However, there is
    a missing infrastructure that passes writing value to the checker
    since we temporarilly piggyback on the KASAN. So, we cannot easily
    detect this case in time.
    
    However, by following way, we can emulate similar effect.
    
    1. Store callstack when memory is written.
    2. If check is failed in next access, report previous write-access
    callstack
    
    It will caught offending user properly.
    
    
    Following output "Call trace: Invalid writer" part is the result
    of this patch. We find the invalid value at workfn+0x71 but report
    writer at workfn+0x61.
    
    [  133.024076] ==================================================================
    [  133.025576] BUG: VCHECKER: invalid access in workfn+0x71/0xc0 at addr ffff8800683dd6c8
    [  133.027196] Read of size 8 by task kworker/1:1/48
    [  133.028020] 0x8 0x10 value
    [  133.028020] 0xffff 4
    [  133.028020] Call trace: Invalid writer
    [  133.028020]
    [  133.028020] [<ffffffff81043b1b>] save_stack_trace+0x1b/0x20
    [  133.028020]
    [  133.028020] [<ffffffff812c0db9>] save_stack+0x39/0x70
    [  133.028020]
    [  133.028020] [<ffffffff812c0fe3>] check_value+0x43/0x80
    [  133.028020]
    [  133.028020] [<ffffffff812c1762>] vchecker_check+0x1c2/0x380
    [  133.028020]
    [  133.028020] [<ffffffff812be49d>] __asan_store8+0x8d/0xc0
    [  133.028020]
    [  133.028020] [<ffffffff815eadd1>] workfn+0x61/0xc0
    [  133.028020]
    [  133.028020] [<ffffffff810be3df>] process_one_work+0x28f/0x680
    [  133.028020]
    [  133.028020] [<ffffffff810bf272>] worker_thread+0xa2/0x870
    [  133.028020]
    [  133.028020] [<ffffffff810c86a5>] kthread+0x195/0x1e0
    [  133.028020]
    [  133.028020] [<ffffffff81b9d3d2>] ret_from_fork+0x22/0x30
    [  133.028020] CPU: 1 PID: 48 Comm: kworker/1:1 Not tainted 4.10.0-rc2-next-20170106+ #1179
    [  133.028020] Hardware name: QEMU Standard PC (i440FX + PIIX, 1996), BIOS Bochs 01/01/2011
    [  133.028020] Workqueue: events workfn
    [  133.028020] Call Trace:
    [  133.028020]  dump_stack+0x4d/0x63
    [  133.028020]  kasan_object_err+0x21/0x80
    [  133.028020]  vchecker_check+0x2af/0x380
    [  133.028020]  ? workfn+0x71/0xc0
    [  133.028020]  ? workfn+0x71/0xc0
    [  133.028020]  __asan_load8+0x87/0xb0
    [  133.028020]  workfn+0x71/0xc0
    [  133.028020]  process_one_work+0x28f/0x680
    [  133.028020]  worker_thread+0xa2/0x870
    [  133.028020]  kthread+0x195/0x1e0
    [  133.028020]  ? put_pwq_unlocked+0xc0/0xc0
    [  133.028020]  ? kthread_park+0xd0/0xd0
    [  133.028020]  ret_from_fork+0x22/0x30
    [  133.028020] Object at ffff8800683dd6c0, in cache vchecker_test size: 24
    [  133.028020] Allocated:
    [  133.028020] PID = 48


    vchecker: Add 'callstack' checker
    
    The callstack checker is to find invalid code paths accessing to a
    certain field in an object.  Currently it only saves all stack traces at
    the given offset.  Reporting will be added in the next patch.
    
    The below example checks callstack of anon_vma:
    
      # cd /sys/kernel/debug/vchecker
      # echo 0 8 > anon_vma/callstack  # offset 0, size 8
      # echo 1 > anon_vma/enable
    
      # cat anon_vma/callstack        # show saved callstacks
      0x0 0x8 callstack
      total: 42
      callstack #0
        anon_vma_fork+0x101/0x280
        copy_process.part.10+0x15ff/0x2a40
        _do_fork+0x155/0x7d0
        SyS_clone+0x19/0x20
        do_syscall_64+0xdf/0x460
        return_from_SYSCALL_64+0x0/0x7a
      ...


    vchecker: Support toggle on/off of callstack check
    
    By default, callstack checker only collects callchains.  When a user
    writes 'on' to the callstack file in debugfs, it checks and reports new
    callstacks.  Writing 'off' to disable it again.
    
      # cd /sys/kernel/debug/vchecker
      # echo 0 8 > anon_vma/callstack
      # echo 1 > anon_vma/enable
    
      ... (do some work to collect enough callstacks) ...
    
      # echo on > anon_vma/callstack
    

The reason I didn't submit the vchecker to mainline is that I didn't find
the case that this tool is useful in real life. Most of the system broken case
can be debugged by other ways. Do you see the real case that this tool is
helpful? If so, I think that vchecker is more appropriate to be upstreamed.
Could you share your opinion?

Thanks.

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