2013-06-25 15:19:32 -04:00
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require 'thread'
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class Pry
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2013-06-26 14:34:57 -04:00
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# There is one InputLock per input (such as STDIN) as two REPLs on the same
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# input makes things delirious. InputLock serializes accesses to the input so
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# that threads to not conflict with each other. The latest thread to request
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# ownership of the input wins.
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2013-06-25 15:19:32 -04:00
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class InputLock
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class Interrupt < Exception; end
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2013-06-26 14:50:41 -04:00
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class << self
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attr_accessor :input_locks
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attr_accessor :global_lock
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end
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self.input_locks = {}
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self.global_lock = Mutex.new
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def self.for(input)
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# XXX This method leaks memory, as we never unregister an input once we
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# are done with it. Fortunately, the leak is tiny (or so we hope). In
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# usual scenarios, we would leak the StringIO that is passed to be
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# evaluated from the command line.
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global_lock.synchronize do
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input_locks[input] ||= Pry::InputLock.new
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2013-06-25 15:19:32 -04:00
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end
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end
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def initialize
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@mutex = Mutex.new
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@cond = ConditionVariable.new
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@owners = []
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@interruptible = false
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end
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# Adds ourselves to the ownership list. The last one in the list may access
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# the input through interruptible_region().
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2013-06-26 15:05:57 -04:00
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def __with_ownership(&block)
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@mutex.synchronize do
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# Three cases:
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# 1) There are no owners, in this case we are good to go.
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# 2) The current owner of the input is not reading the input (it might
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# just be evaluating some ruby that the user typed).
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# The current owner will figure out that it cannot go back to reading
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# the input since we are adding ourselves to the @owners list, which
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# in turns makes us the current owner.
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# 3) The owner of the input is in the interruptible region, reading from
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# the input. It's safe to send an Interrupt exception to interrupt
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# the owner. It will then proceed like in case 2).
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2013-06-26 15:27:49 -04:00
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# We wait until the owner sets the interruptible flag back
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# to false, meaning that he's out of the interruptible region.
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# Note that the owner may receive multiple interrupts since, but that
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# should be okay (and trying to avoid it is futile anyway).
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while @interruptible
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@owners.last.raise Interrupt
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@cond.wait(@mutex)
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end
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@owners << Thread.current
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end
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block.call
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ensure
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@mutex.synchronize do
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# We are releasing any desire to have the input ownership by removing
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# ourselves from the list.
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@owners.delete(Thread.current)
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# We need to wake up the thread at the end of the @owners list, but
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# sadly Ruby doesn't allow us to choose which one we wake up, so we wake
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# them all up.
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@cond.broadcast
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end
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end
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2013-06-26 15:05:57 -04:00
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def with_ownership(&block)
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# If we are in a nested with_ownership() call (nested pry context), we do nothing.
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nested = @mutex.synchronize { @owners.include?(Thread.current) }
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nested ? block.call : __with_ownership(&block)
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end
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2013-06-26 15:27:49 -04:00
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def enter_interruptible_region
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@mutex.synchronize do
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# We patiently wait until we are the owner. This may happen as another
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# thread calls with_ownership() because of a binding.pry happening in
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# another thread.
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@cond.wait(@mutex) until @owners.last == Thread.current
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# We are the legitimate owner of the input. We mark ourselves as
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# interruptible, so other threads can send us an Interrupt exception
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# while we are blocking from reading the input.
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@interruptible = true
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end
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end
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def leave_interruptible_region
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@mutex.synchronize do
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# We check if we are still the owner, because we could have received an
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# Interrupt right after the following @cond.broadcast, making us retry.
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@interruptible = false if @owners.last == Thread.current
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@cond.broadcast
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end
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rescue Interrupt
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# We need to guard against a spurious interrupt delivered while we are
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# trying to acquire the lock (the rescue block is no longer in our scope).
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retry
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end
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def interruptible_region(&block)
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enter_interruptible_region
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2013-06-26 15:03:47 -04:00
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# XXX Note that there is a chance that we get the interrupt right after
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# the readline call succeeded, but we'll never know, and we will retry the
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# call, discarding that piece of input.
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2013-06-25 15:19:32 -04:00
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block.call
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rescue Interrupt
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2013-06-26 15:27:49 -04:00
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# We were asked to back off. The one requesting the interrupt will be
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# waiting on the conditional for the interruptible flag to change to false.
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# Note that there can be some inefficiency, as we could immediately
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# succeed in enter_interruptible_region(), even before the one requesting
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# the ownership has the chance to register itself as an owner.
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2013-06-26 16:39:37 -04:00
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# To mitigate the issue, we sleep a little bit.
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2013-06-26 15:27:49 -04:00
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leave_interruptible_region
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2013-06-26 16:39:37 -04:00
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sleep 0.01
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2013-06-25 15:19:32 -04:00
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retry
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ensure
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leave_interruptible_region
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2013-06-25 15:19:32 -04:00
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end
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end
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end
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