require "thread"
require "monitor"
module ActiveSupport
module Concurrency
# A share/exclusive lock, otherwise known as a read/write lock.
#
# https://en.wikipedia.org/wiki/Readers%E2%80%93writer_lock
class ShareLock
include MonitorMixin
# We track Thread objects, instead of just using counters, because
# we need exclusive locks to be reentrant, and we need to be able
# to upgrade share locks to exclusive.
def raw_state # :nodoc:
synchronize do
threads = @sleeping.keys | @sharing.keys | @waiting.keys
threads |= [@exclusive_thread] if @exclusive_thread
data = {}
threads.each do |thread|
purpose, compatible = @waiting[thread]
data[thread] = {
thread: thread,
sharing: @sharing[thread],
exclusive: @exclusive_thread == thread,
purpose: purpose,
compatible: compatible,
waiting: !!@waiting[thread],
sleeper: @sleeping[thread],
}
end
# NB: Yields while holding our *internal* synchronize lock,
# which is supposed to be used only for a few instructions at
# a time. This allows the caller to inspect additional state
# without things changing out from underneath, but would have
# disastrous effects upon normal operation. Fortunately, this
# method is only intended to be called when things have
# already gone wrong.
yield data
end
end
def initialize
super()
@cv = new_cond
@sharing = Hash.new(0)
@waiting = {}
@sleeping = {}
@exclusive_thread = nil
@exclusive_depth = 0
end
# Returns false if +no_wait+ is set and the lock is not
# immediately available. Otherwise, returns true after the lock
# has been acquired.
#
# +purpose+ and +compatible+ work together; while this thread is
# waiting for the exclusive lock, it will yield its share (if any)
# to any other attempt whose +purpose+ appears in this attempt's
# +compatible+ list. This allows a "loose" upgrade, which, being
# less strict, prevents some classes of deadlocks.
#
# For many resources, loose upgrades are sufficient: if a thread
# is awaiting a lock, it is not running any other code. With
# +purpose+ matching, it is possible to yield only to other
# threads whose activity will not interfere.
def start_exclusive(purpose: nil, compatible: [], no_wait: false)
synchronize do
unless @exclusive_thread == Thread.current
if busy_for_exclusive?(purpose)
return false if no_wait
yield_shares(purpose: purpose, compatible: compatible, block_share: true) do
wait_for(:start_exclusive) { busy_for_exclusive?(purpose) }
end
end
@exclusive_thread = Thread.current
end
@exclusive_depth += 1
true
end
end
# Relinquish the exclusive lock. Must only be called by the thread
# that called start_exclusive (and currently holds the lock).
def stop_exclusive(compatible: [])
synchronize do
raise "invalid unlock" if @exclusive_thread != Thread.current
@exclusive_depth -= 1
if @exclusive_depth == 0
@exclusive_thread = nil
if eligible_waiters?(compatible)
yield_shares(compatible: compatible, block_share: true) do
wait_for(:stop_exclusive) { @exclusive_thread || eligible_waiters?(compatible) }
end
end
@cv.broadcast
end
end
end
def start_sharing
synchronize do
if @sharing[Thread.current] > 0 || @exclusive_thread == Thread.current
# We already hold a lock; nothing to wait for
elsif @waiting[Thread.current]
# We're nested inside a +yield_shares+ call: we'll resume as
# soon as there isn't an exclusive lock in our way
wait_for(:start_sharing) { @exclusive_thread }
else
# This is an initial / outermost share call: any outstanding
# requests for an exclusive lock get to go first
wait_for(:start_sharing) { busy_for_sharing?(false) }
end
@sharing[Thread.current] += 1
end
end
def stop_sharing
synchronize do
if @sharing[Thread.current] > 1
@sharing[Thread.current] -= 1
else
@sharing.delete Thread.current
@cv.broadcast
end
end
end
# Execute the supplied block while holding the Exclusive lock. If
# +no_wait+ is set and the lock is not immediately available,
# returns +nil+ without yielding. Otherwise, returns the result of
# the block.
#
# See +start_exclusive+ for other options.
def exclusive(purpose: nil, compatible: [], after_compatible: [], no_wait: false)
if start_exclusive(purpose: purpose, compatible: compatible, no_wait: no_wait)
begin
yield
ensure
stop_exclusive(compatible: after_compatible)
end
end
end
# Execute the supplied block while holding the Share lock.
def sharing
start_sharing
begin
yield
ensure
stop_sharing
end
end
# Temporarily give up all held Share locks while executing the
# supplied block, allowing any +compatible+ exclusive lock request
# to proceed.
def yield_shares(purpose: nil, compatible: [], block_share: false)
loose_shares = previous_wait = nil
synchronize do
if loose_shares = @sharing.delete(Thread.current)
if previous_wait = @waiting[Thread.current]
purpose = nil unless purpose == previous_wait[0]
compatible &= previous_wait[1]
end
compatible |= [false] unless block_share
@waiting[Thread.current] = [purpose, compatible]
end
@cv.broadcast
end
begin
yield
ensure
synchronize do
wait_for(:yield_shares) { @exclusive_thread && @exclusive_thread != Thread.current }
if previous_wait
@waiting[Thread.current] = previous_wait
else
@waiting.delete Thread.current
end
@sharing[Thread.current] = loose_shares if loose_shares
end
end
end
private
# Must be called within synchronize
def busy_for_exclusive?(purpose)
busy_for_sharing?(purpose) ||
@sharing.size > (@sharing[Thread.current] > 0 ? 1 : 0)
end
def busy_for_sharing?(purpose)
(@exclusive_thread && @exclusive_thread != Thread.current) ||
@waiting.any? { |t, (_, c)| t != Thread.current && !c.include?(purpose) }
end
def eligible_waiters?(compatible)
@waiting.any? { |t, (p, _)| compatible.include?(p) && @waiting.all? { |t2, (_, c2)| t == t2 || c2.include?(p) } }
end
def wait_for(method)
@sleeping[Thread.current] = method
@cv.wait_while { yield }
ensure
@sleeping.delete Thread.current
end
end
end
end