Bug #18487
closedKernel#binding behaves differently depending on implementation language of items on the stack
Description
Recently I discovered that one could use Kernel#binding
to capture the
environment of a frame that is not directly below the stack frame for
Kernel#binding
. I've known that C extensions have this privilege for a
while, but didn't realize that it was also possible using only the core
library. This is a powerful primitive that allows for some funky programs:
def lookup(hash, key)
hash[key]
hash
end
p lookup(
Hash.new(&(
Kernel.instance_method(:send).method(:bind_call).to_proc >>
->(binding) { binding.local_variable_set(:hash, :action_at_a_distance!) }
)
),
:binding
) # => :action_at_a_distance!
There might be ways to compose core library procs such that it's less contrived
and more useful, but I couldn't figure out a way to do it. Maybe there is a
way to make a "local variable set" proc that takes only a name-value pair and
no block?
What's the big deal?¶
This behavior makes the implementation language of methods part of the API
surface for Kernel#binding
. In other words, merely changing a Ruby method to
be a C method can be a breaking change for the purposes of Kernel#binding
,
even if the method behaves the same in all other observable ways. I feel that
whether a method is native or not should be an implementation detail and should
not impact Kernel#binding
.
This is a problem for Ruby implementations that want to implement many core
methods in Ruby, because they risk breaking compatibility with CRuby.
TruffleRuby has this problem as I alluded to earlier, and CRuby
risks making unintentional breaking changes as more methods change to become
Ruby methods in the core library.
Leaking less details¶
I think a straight forward way to fix this issue is by making it so that
Kernel#binding
only ever looks at the stack frame directly below it. If the
frame below is a not a Ruby frame, it can return an empty binding. I haven't
done the leg work of figuring out how hard this would be to implement in CRuby,
though. This new behavior allows observing the identity of native frames, which
is new.
Does the more restrictive behavior help YJIT?¶
Maybe. It's hard to tell without building out more optimizations that are
related to local variables. YJIT currently doesn't do much in that area. If I
had to guess I wouuld say the more restrictive semantics at least open up the
possibility of some deoptimization strategies that are more memory efficient.
What do you think?¶
This is not a huge issue, but it might be nice to start thinking about for the
next release. If a lot of people actually rely on the current behavior we can
provide a migration plan. Since it might take years to land, I would like to
solicit feedback now.
Updated by mame (Yusuke Endoh) almost 3 years ago
Interesting. I created a simpler version.
class Magic
define_singleton_method :modify_caller_env!, method(:binding).to_proc >> ->(bndg) { bndg.local_variable_set(:my_var, 42) }
end
my_var = 1
Magic.modify_caller_env!
p my_var #=> 42
I have no strong opinion, but your solution "Kernel#binding only ever looks at the stack frame directly below it" looks reasonable to me.
BTW, as you may know, there is a relatively popular gem called binding_of_caller to extract a Binding object from caller frames. YJIT optimization might be still difficult even after Kernel#binding was changed.
Updated by jeremyevans0 (Jeremy Evans) almost 3 years ago
I submitted a pull request to make Kernel#binding
only look up a single frame, which fixes the issue: https://github.com/ruby/ruby/pull/5476. Not sure if all the semantics in the pull request are desired (i.e. eval
and receiver
raise RuntimeError
for bindings for non-Ruby frames), so this is probably worth discussing at the next developer meeting.
Updated by Eregon (Benoit Daloze) almost 3 years ago
Nice find!
Agreed this should be fixed, and Kernel#binding
should never provide access to anything but its direct caller method's frame (whether that's defined in Ruby, C or anything).
In other words Kernel#binding
should provide access to the local variables immediately around the call to Kernel#binding
.
The current behavior in CRuby is effectively breaking encapsulation, even though I'd think it never intended that.
Updated by alanwu (Alan Wu) almost 3 years ago
To simplify the semantics and implementation, we could make Kernel#binding
raise when the direct caller is not Ruby. I think it's reasonable given that
the Binding class was designed for Ruby and doesn't necessarily make sense for
other languages.
Updated by matz (Yukihiro Matsumoto) almost 3 years ago
Okay, binding
should raise an exception when called from a C defined method.
Matz.
Updated by Eregon (Benoit Daloze) almost 3 years ago
FWIW TruffleRuby currently raises one of these 2 errors when trying to call a Ruby method which needs a direct Ruby frame above:
Cannot call Ruby method which needs a Ruby caller frame directly in a foreign language (RuntimeError)
or
Foo#bar needs the caller frame but it was not passed (cannot be called directly from a foreign language) (RuntimeError)
That can happen for C extension but also for any other language calling Ruby methods (e.g. JS/Python/etc).
Updated by jeremyevans0 (Jeremy Evans) almost 3 years ago
matz (Yukihiro Matsumoto) wrote in #note-6:
Okay,
binding
should raise an exception when called from a C defined method.
I've submitted a pull request for this: https://github.com/ruby/ruby/pull/5567
It's trickier than I expected, and took some trial and error to get right. I also found that some tests were implicitly relying on the previous behavior. One case was related to tracing, as set_trace_func yields bindings. I modified the logic there so that cases where generating the binding would raise an exception, we yield nil as the binding (this was already done in some cases, so I don't think there should be significant backwards compatibility issues).
Updated by jeremyevans (Jeremy Evans) almost 3 years ago
- Status changed from Open to Closed
Applied in changeset git|343ea9967e4a6b279eed6bd8e81ad0bdc747f254.
Raise RuntimeError if Kernel#binding is called from a non-Ruby frame
Check whether the current or previous frame is a Ruby frame in
call_trace_func before attempting to create a binding for the frame.
Fixes [Bug #18487]
Co-authored-by: Alan Wu XrXr@users.noreply.github.com
Updated by jeremyevans0 (Jeremy Evans) over 2 years ago
- Status changed from Closed to Open
Updated by jeremyevans0 (Jeremy Evans) over 2 years ago
The previous commit failed with VM assertion error when compiling with -DRUBY_DEBUG=1 -DRGENGC_CHECK_MODE=2
. I've found the issue was due to TracePoint/set_trace_func creating bindings for ifuncs. I've submitted a pull request to fix that by not creating bindings for ifuncs, only for iseqs: https://github.com/ruby/ruby/pull/5767
Updated by jeremyevans (Jeremy Evans) over 2 years ago
- Status changed from Open to Closed
Applied in changeset git|0b091fdac6ceb33b7379ceddc9a49a79d0e158b2.
Raise RuntimeError if Kernel#binding is called from a non-Ruby frame
Check whether the current or previous frame is a Ruby frame in
call_trace_func and rb_tracearg_binding before attempting to
create a binding for the frame.
Fixes [Bug #18487]
Co-authored-by: Alan Wu XrXr@users.noreply.github.com
Updated by Eregon (Benoit Daloze) over 2 years ago
- Related to Bug #18780: Incorrect binding receiver for C API rb_eval_string() added