On Mon, Sep 9, 2024 at 6:13 AM Jann Horn <jannh@xxxxxxxxxx> wrote: > > On Fri, Sep 6, 2024 at 7:12 AM Andrii Nakryiko <andrii@xxxxxxxxxx> wrote: > > Given filp_cachep is already marked SLAB_TYPESAFE_BY_RCU, we can safely > > access vma->vm_file->f_inode field locklessly under just rcu_read_lock() > > No, not every file is SLAB_TYPESAFE_BY_RCU - see for example > ovl_mmap(), which uses backing_file_mmap(), which does > vma_set_file(vma, file) where "file" comes from ovl_mmap()'s > "realfile", which comes from file->private_data, which is set in > ovl_open() to the return value of ovl_open_realfile(), which comes > from backing_file_open(), which allocates a file with > alloc_empty_backing_file(), which uses a normal kzalloc() without any > RCU stuff, with this comment: > > * This is only for kernel internal use, and the allocate file must not be > * installed into file tables or such. > > And when a backing_file is freed, you can see on the path > __fput() -> file_free() > that files with FMODE_BACKING are directly freed with kfree(), no RCU delay. Good catch on FMODE_BACKING, I didn't realize there is this exception, thanks! I think the way forward would be to detect that the backing file is in FMODE_BACKING and fall back to mmap_lock-protected code path. I guess I have the question to Liam and Suren, do you think it would be ok to add another bool after `bool detached` in struct vm_area_struct (guarded by CONFIG_PER_VMA_LOCK), or should we try to add an extra bit into vm_flags_t? The latter would work without CONFIG_PER_VMA_LOCK, but I don't know what's acceptable with mm folks. This flag can be set in vma_set_file() when swapping backing file and wherever else vma->vm_file might be set/updated (I need to audit the code). > > So the RCU-ness of "struct file" is an implementation detail of the > VFS, and you can't rely on it for ->vm_file unless you get the VFS to > change how backing file lifetimes work, which might slow down some > other workload, or you find a way to figure out whether you're dealing > with a backing file without actually accessing the file. > > > +static struct uprobe *find_active_uprobe_speculative(unsigned long bp_vaddr) > > +{ > > + const vm_flags_t flags = VM_HUGETLB | VM_MAYEXEC | VM_MAYSHARE; > > + struct mm_struct *mm = current->mm; > > + struct uprobe *uprobe; > > + struct vm_area_struct *vma; > > + struct file *vm_file; > > + struct inode *vm_inode; > > + unsigned long vm_pgoff, vm_start; > > + int seq; > > + loff_t offset; > > + > > + if (!mmap_lock_speculation_start(mm, &seq)) > > + return NULL; > > + > > + rcu_read_lock(); > > + > > + vma = vma_lookup(mm, bp_vaddr); > > + if (!vma) > > + goto bail; > > + > > + vm_file = data_race(vma->vm_file); > > A plain "data_race()" says "I'm fine with this load tearing", but > you're relying on this load not tearing (since you access the vm_file > pointer below). > You're also relying on the "struct file" that vma->vm_file points to > being populated at this point, which means you need CONSUME semantics > here, which READ_ONCE() will give you, and something like RELEASE > semantics on any pairing store that populates vma->vm_file, which > means they'd all have to become something like smp_store_release()). vma->vm_file should be set in VMA before it is installed and is never modified afterwards, isn't that the case? So maybe no extra barrier are needed and READ_ONCE() would be enough. > > You might want to instead add another recheck of the sequence count > (which would involve at least a read memory barrier after the > preceding patch is fixed) after loading the ->vm_file pointer to > ensure that no one was concurrently changing the ->vm_file pointer > before you do memory accesses through it. > > > + if (!vm_file || (vma->vm_flags & flags) != VM_MAYEXEC) > > + goto bail; > > missing data_race() annotation on the vma->vm_flags access ack > > > + vm_inode = data_race(vm_file->f_inode); > > As noted above, this doesn't work because you can't rely on having RCU > lifetime for the file. One *very* ugly hack you could do, if you think > this code is so performance-sensitive that you're willing to do fairly > atrocious things here, would be to do a "yes I am intentionally doing > a UAF read and I know the address might not even be mapped at this > point, it's fine, trust me" pattern, where you use > copy_from_kernel_nofault(), kind of like in prepend_copy() in > fs/d_path.c, and then immediately recheck the sequence count before > doing *anything* with this vm_inode pointer you just loaded. > > yeah, let's leave it as a very unfortunate plan B and try to solve it a bit cleaner. > > > + vm_pgoff = data_race(vma->vm_pgoff); > > + vm_start = data_race(vma->vm_start); > > + > > + offset = (loff_t)(vm_pgoff << PAGE_SHIFT) + (bp_vaddr - vm_start); > > + uprobe = find_uprobe_rcu(vm_inode, offset); > > + if (!uprobe) > > + goto bail; > > + > > + /* now double check that nothing about MM changed */ > > + if (!mmap_lock_speculation_end(mm, seq)) > > + goto bail; > > + > > + rcu_read_unlock(); > > + > > + /* happy case, we speculated successfully */ > > + return uprobe; > > +bail: > > + rcu_read_unlock(); > > + return NULL; > > +}