def sfork(command)
pipe_me_in, pipe_peer_out = IO.pipe
pipe_peer_in, pipe_me_out = IO.pipe
pid = nil
pid_mutex = Mutex.new
pid_cv = ConditionVariable.new
Thread.start do
ProcessController.block_output_synchronize do
STDOUT.flush
ProcessController.each_active_object do |pc|
for jobs in pc.active_jobs
jobs.flush
end
end
pid = fork {
Thread.list.each do |th|
th.kill unless Thread.current == th
end
STDIN.reopen(pipe_peer_in)
STDOUT.reopen(pipe_peer_out)
ObjectSpace.each_object(IO) do |io|
if ![STDIN, STDOUT, STDERR].include?(io)
io.close unless io.closed?
end
end
yield
}
end
pid_cv.signal
pipe_peer_in.close
pipe_peer_out.close
command.notify "job(%name:##{pid}) start", @shell.debug?
begin
_pid = nil
command.notify("job(%id) start to waiting finish.", @shell.debug?)
_pid = Process.waitpid(pid, nil)
rescue Errno::ECHILD
command.notify "warn: job(%id) was done already waitpid."
_pid = true
ensure
command.notify("Job(%id): Wait to finish when Process finished.", @shell.debug?)
if USING_AT_EXIT_WHEN_PROCESS_EXIT or _pid
else
command.notify("notice: Process finishing...",
"wait for Job[%id] to finish.",
"You can use Shell#transact or Shell#check_point for more safe execution.")
redo
end
@job_monitor.synchronize do
terminate_job(command)
@job_condition.signal
command.notify "job(%id) finish.", @shell.debug?
end
end
end
pid_mutex.synchronize do
while !pid
pid_cv.wait(pid_mutex)
end
end
return pid, pipe_me_in, pipe_me_out
end