567 lines
19 KiB
Scheme
567 lines
19 KiB
Scheme
;;; Unix waitt & process objects for scsh
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;;; Copyright (c) 1993, 1994, 1995 by Olin Shivers.
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;;; This is a GC'd abstraction for Unix process id's.
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; ;; The problem with Unix pids is (a) they clutter up the kernel
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;;; process table until you wait(2) them, and (b) you can only
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;;; wait(2) them once. Scsh's process objects are similar, but
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;;; allow the storage to be allocated in the scsh address space,
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;;; and out of the kernel process table, and they can be waited on
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;;; multiple times.
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;;; Process objects
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(define-record proc ; A process object
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pid ; Proc's pid.
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(finished? #f) ; Running, stopped, done
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(status (make-placeholder)) ; The cached exit status of the process
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(zombie #t) ; Misnomer. Whether or not the process has
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; (not) been waited on.
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;; Make proc objects print like #{proc 2318}.
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((disclose p) (list "proc" (proc:pid p) (proc:finished? p))))
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;; Unfortunately there is no way to specify the name of the constructor-
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;; function in Olins define-record macro, so I had to do this...
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(define (make-procobj pid)
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(let ((procobj (make-proc pid)))
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(add-finalizer! procobj procobj-finalizer)
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procobj))
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;; Weak pointer tables. Much more efficient than populations.
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;; Maps pids to processes. Unexited processes are strong pointers, exited
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;; procs are weak pointers (to allow gc'ing).
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;;
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;; JMG: why ever unexited processes were strong pointer, this won't work
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;; with (autoreap-policy 'late), since then gc waits for the strong pointer
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;; until it wait(2)s and the strong pointer waits for wait(2) which is
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;; nothing but a deadlock
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(define process-table (make-integer-table))
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(make-reinitializer (lambda ()
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(set! process-table (make-integer-table))))
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(define process-table-lock (make-lock))
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(define (process-table-ref n)
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(with-lock process-table-lock
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(lambda ()
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(weak-table-ref process-table n))))
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(define (process-table-set! n val)
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(with-lock process-table-lock
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(lambda ()
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(weak-table-set! process-table n val))))
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(define (process-table-delete-procobj! procobj)
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(with-lock process-table-lock
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(lambda ()
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(if (eq? (weak-table-ref process-table (proc:pid procobj))
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procobj)
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(weak-table-set! process-table (proc:pid procobj) #f)))))
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(define (maybe-pid->proc pid)
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(process-table-ref pid))
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(define (pid->proc pid . maybe-probe?)
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(let ((probe? (:optional maybe-probe? #f)))
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(or (maybe-pid->proc pid)
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(case probe?
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((#f) (error "Pid has no corresponding process object" pid))
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((create) (new-child-proc pid))
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(else #f)))))
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;;; Coerce pids and procs to procs.
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(define (->proc proc/pid)
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(cond ((proc? proc/pid) proc/pid)
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((and (integer? proc/pid) (>= proc/pid 0))
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(pid->proc proc/pid 'create))
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(else (error "Illegal parameter" ->proc proc/pid))))
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;;; Is X a pid or a proc?
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(define (pid/proc? x) (or (proc? x) (and (integer? x) (>= x 0))))
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;;; Process reaping
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; "Reaping" a process means using wait(2) to move its exit status from the
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;;; kernel's process table into scsh, thus cleaning up the kernel's process
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;;; table and saving the value in a gc'd data structure, where it can be
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;;; referenced multiple times.
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;;;
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;;; - Stopped processes are never reaped, only dead ones. (May change -df)
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;;;
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;;; - Stopped process status codes are never cached in proc objects,
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;;; only status codes for dead processes. So you can wait for a
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;;; dead process multiple times, but only once per process-stop.
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;;; (May change -df)
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;;;
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;;; - Unfortunately, reaping a process loses the information specifying its
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;;; process group, so if a process is reaped into scsh, it cannot be
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;;; waited for by WAIT-PROCESS-GROUP. Notice that only dead processes are
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;;; reaped, not suspended ones. Programs almost never use WAIT-PROCESS-GROUP
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;;; to wait for dead processes, so this is not likely to be a problem. If
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;;; it is, turn autoreaping off with (autoreap-policy #f).
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;;; (This never worked right, and it might be wiped out completely -fd)
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;;;
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;;; - Reaping can be encouraged by calling (REAP-ZOMBIES).
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;;; (autoreap-policy [new-policy])
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;;; Watch this area
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;;; I'm really tired of opening everything (i.e. events) in scsh-level-0
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;;; this is here until someone (Olin !!!) cleans up the scsh modules
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(define next-sigevent (structure-ref sigevents next-sigevent))
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(define most-recent-sigevent (structure-ref sigevents most-recent-sigevent))
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(define *autoreap-policy* #f) ; Not exported from this module.
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(define (autoreap-policy . maybe-policy)
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(let ((old-policy *autoreap-policy*))
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(if (pair? maybe-policy)
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(let ((new-policy (car maybe-policy)))
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(cond ((pair? (cdr maybe-policy))
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(error "Too many args to autoreap-policy" maybe-policy))
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((not (memq new-policy '(early late #f)))
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(error "Illegal autoreap policy." new-policy))
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(else (set! *autoreap-policy* new-policy)
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(cond ((eq? new-policy 'early)
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(set-sigchld-handler! early-sigchld-handler)
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(set-post/gc-handler! reap-need-reaping))
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((eq? new-policy 'late)
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(set-sigchld-handler! late-sigchld-handler)
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(set-post/gc-handler! reap-need-reaping))
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(else
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(set-sigchld-handler! noauto-sigchld-handler)
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(set-post/gc-handler!
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(lambda ()
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#f))))))))
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old-policy))
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;;; we don't register the post/gc-handler until the first police change
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;;; --- this made sense, but why?
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(define *post/gc-handler*
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(lambda () (error "*post/gc-handler* was not defined")))
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(define (really-set-post/gc-handler! handler)
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(set! *post/gc-handler* handler))
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(define (start-set-post/gc-handler! handler)
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(set! set-post/gc-handler! really-set-post/gc-handler!)
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(set-post/gc-handler! handler)
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(spawn (lambda ()
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(let lp ((event (most-recent-sigevent)))
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(let ((next-event (next-sigevent event interrupt/post-gc)))
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(*post/gc-handler*)
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(lp next-event))))
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'*post/gc-handler*-thread))
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(define set-post/gc-handler! start-set-post/gc-handler!)
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(define (*sigchld-handler*) (early-sigchld-handler))
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(define (set-sigchld-handler! handler)
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(set! *sigchld-handler* handler))
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(define (with-autoreaping thunk)
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(set! *autoreap-policy* 'early)
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(run-as-long-as
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(lambda ()
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(let lp ((event (most-recent-sigevent)))
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(let ((next-event (next-sigevent event interrupt/chld)))
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(*sigchld-handler*)
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(lp next-event))))
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thunk
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(structure-ref threads-internal spawn-on-root)
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'auto-reaping))
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;;; This list contains pids whose proc-obj were gc'd before they died
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;;; We try to reap them after every gc and maybe on every SIGCHLD
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(define need-reaping '())
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(define need-reaping-lock (make-lock))
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(define (need-reaping-add! pid)
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(obtain-lock need-reaping-lock)
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(set! need-reaping (cons pid need-reaping))
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(release-lock need-reaping-lock))
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(define (need-reaping-remove! pid)
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(obtain-lock need-reaping-lock)
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(set! need-reaping (delete pid need-reaping))
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(release-lock need-reaping-lock))
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(define (reap-need-reaping)
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(obtain-lock need-reaping-lock)
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(set! need-reaping (filter (lambda (pid) (not (reap-pid pid))) need-reaping))
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(release-lock need-reaping-lock))
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;;; reap this special pid
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;;; return status or #f
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(define (reap-pid pid)
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(with-lock
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wait-lock
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(lambda ()
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(let ((status (atomic-wait pid wait/poll)))
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(if status
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(waited-by-reap pid status))
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status))))
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;;; Handler for SIGCHLD according policy
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(define (late-sigchld-handler) #f)
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(define (early-sigchld-handler)
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(reap-zombies))
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(define (noauto-sigchld-handler) #f)
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;;; Finalizer for procobjs
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;;;
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(define (procobj-finalizer procobj)
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(process-table-delete-procobj! procobj)
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(if (not (proc:finished? procobj))
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(need-reaping-add! (proc:pid procobj))))
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;;; (reap-zombies) => bool
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;;; Move any zombies from the kernel process table into scsh.
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;;; Return true if no more outstanding children; #f if some still live.
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(define (reap-zombies)
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(let lp ()
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(obtain-lock wait-lock)
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(receive (pid status)
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(%wait-any (bitwise-ior wait/poll wait/stopped-children))
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(if (and pid (not (status:stop-sig status)))
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(begin (waited-by-reap pid status)
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(release-lock wait-lock)
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; (format (current-error-port)
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; "Reaping ~d[~d]~%" pid status)
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(lp))
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(begin
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(release-lock wait-lock)
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status)))))
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(define (new-child-proc pid)
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(let ((proc (make-procobj pid)))
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(process-table-set! pid proc)
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proc))
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;;; (WAIT proc/pid [flags])
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; (wait proc/pid [flags]) => status or #f
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;;;
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;;; FLAGS (default 0) is the exclusive or of the following:
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;;; wait/poll
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;;; Return #f immediately if there are no
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;;; unwaited children available.
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;;; wait/stopped-children
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;;; Report on suspended children as well.
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;;;
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;;; If the process hasn't terminated (or suspended, if wait/stopped
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;;; is set) and wait/poll is set, return #f.
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;;; (I'm working on the flags -df)
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;;; JMG: We have to be careful about wait/poll and autoreap-policy:
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;;; If it was 'late at anytime, we may missed the exit of pid/proc
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;;; So we cannot just block and hope reap-zombies will give us the status
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;;; With this lock, we ensure that only one thread may call
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;;; really-wait for a given pid and manipulates the associated process object
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(define wait-lock (make-lock))
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(define (wait pid/proc . maybe-flags)
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(let* ((flags (:optional maybe-flags 0))
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(proc (->proc pid/proc))
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(win (lambda (status)
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(waited-by-wait proc status)
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status)))
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;; save the event before we check for finished
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(let ((pre-event (most-recent-sigevent)))
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(with-lock
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wait-lock
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(lambda ()
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(cond ((atomic-wait proc (bitwise-ior flags wait/poll)) => win)
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((zero? (bitwise-and flags wait/poll))
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;; we have to block and hence use the event system
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(let lp ((pre-event pre-event))
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(cond ((atomic-wait proc (bitwise-ior flags wait/poll))
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=> win)
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(else
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(release-lock wait-lock)
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(let ((next-event (next-sigevent pre-event interrupt/chld)))
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(obtain-lock wait-lock)
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(lp next-event))))))
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(else #f)))))))
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;;; -> process-object proc status/#f
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(define (atomic-wait proc flags)
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(cond ((proc:finished? proc)
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(placeholder-value (proc:status proc)))
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(else (really-wait (proc:pid proc) (bitwise-ior flags wait/poll)))))
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;;; This one is used, to wait on a positive pid
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;;; We NEVER do a blocking wait syscall
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(define (really-wait pid flags)
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(if (zero? (bitwise-and flags wait/poll))
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(error "really-wait without wait/poll"))
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(if (< pid 1)
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(error "really-wait on nonpos pid" pid))
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(receive (return_pid status)
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(%wait-pid pid flags)
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(cond ((zero? return_pid) #f) ; failed wait/poll
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((= pid return_pid) status) ; made it
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(else (error "mismatch in really-wait"
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return_pid pid)))))
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;;; All you have to do, if pid was reaped
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;;; proc_obj is maybe no longer alive
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(define (waited-by-reap pid status)
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(cond ((maybe-pid->proc pid) =>
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(lambda (proc)
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(obituary proc status)
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(push-reaped-proc proc)
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))))
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;;; All you have to do, if a wait on proc was successful
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(define (waited-by-wait proc status)
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(if (not (status:stop-sig status))
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(begin
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(obituary proc status)
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(mark-proc-waited! proc))))
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;;; we know from somewhere that proc is dead
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(define (obituary proc status)
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(if (not (proc? proc))
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(error "obituary: proc was not a procobj" proc))
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(need-reaping-remove! (proc:pid proc)) ; in case it started during 'late
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(placeholder-set! (proc:status proc) status)
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(set-proc:finished? proc #t))
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;;; (wait-any [flags]) => [proc status]
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; [#f #f] => non-blocking, none ready.
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;;; [#f #t] => no more.
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(define (wait-any . maybe-flags)
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(let ((flags (:optional maybe-flags 0)))
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(if (zero? (bitwise-and flags wait/poll))
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(begin
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(receive (pid status)
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;; before we maybe block via placeholder-value
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;; do a really-wait-any for the ones, missed by 'late
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(really-wait-any (bitwise-ior flags wait/poll))
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(if (not pid)
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(let ((win (get-reaped-proc!)))
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(values win (placeholder-value (proc:status win))))
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(values pid status))))
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;; The rest of this is quite crude and can be safely ignored. -df
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;; JMG: wait-any is crude and so its implementation
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;; It got even worse, now that we have this fu*$#%g 'late
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(if (maybe-obtain-lock reaped-proc-pop-lock)
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(if (eq? reaped-proc-head reaped-proc-tail)
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;;; due to 'late we cannot be sure, that they all have been
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;;; reaped
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(begin
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(release-lock reaped-proc-pop-lock)
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(really-wait-any flags))
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(let* ((retnode (placeholder-value reaped-proc-head))
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(retval (weak-pointer-ref (reaped-proc:proc retnode))))
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(set! reaped-proc-head (reaped-proc:next retnode))
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(release-lock reaped-proc-pop-lock)
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(if retval
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(values retval (placeholder-value (proc:status retval)))
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(values #f #f))))
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(values #f #f)))))
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(define (really-wait-any flags)
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(if (zero? (bitwise-and flags wait/poll))
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(error "real-wait-any without wait/poll" flags))
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(with-lock
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wait-lock
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(lambda ()
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(receive (pid status)
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(%wait-any flags)
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(if pid
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(let ((proc (new-child-proc pid)))
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(waited-by-wait proc status)
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(values proc status))
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(values #f #f))))))
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;;; (wait-process-group [proc-group flags]) => [proc status]
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; [#f #f] => non-blocking, none ready.
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;;; [#f #t] => no more.
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;;;
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;;;
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;;; If you are doing process-group waits, you do *not* want to use
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;;; early autoreaping, since the reaper loses process-group information.
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;;; (I'm working on it -df)
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(define (wait-process-group . args)
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(let-optionals args ((proc-group 0) (flags 0))
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(let ((proc-group (cond ((integer? proc-group) proc-group)
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((proc? proc-group) (proc:pid proc-group))
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(else (error "Illegal argument" wait-process-group
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proc-group))))
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(win (lambda (pid status)
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(let ((proc (pid->proc pid 'create)))
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(if proc (waited-by-wait proc status))
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(values proc status)))))
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;; save the event before we check for finished
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(let ((pre-event (most-recent-sigevent)))
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(receive (pid status)
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(%wait-process-group proc-group (bitwise-ior flags wait/poll))
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(cond (pid
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(win pid status))
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((zero? (bitwise-and flags wait/poll))
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;; we have to block and hence use the event system
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(let lp ((pre-event pre-event))
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(receive (pid status)
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(%wait-process-group proc-group (bitwise-ior flags wait/poll))
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(if pid
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(win pid status)
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(lp (next-sigevent pre-event interrupt/chld))))))
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(else
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(values #f status))))))))
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;;; (%wait-any flags) (%wait-pid pid flags) (%wait-process-group pgrp flags)
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Direct interfaces to waitpid(2) call. As opposed to %wait-pid this
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;;; waits on any child (using -1) and gets along if no child is alive
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;;; at all (i.e. catches errno/child).
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;;; [#f #f] means no processes ready on a non-blocking wait.
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;;; [#f #t] means no waitable process on wait-any.
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(define (%wait-any flags)
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(with-errno-handler
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((errno packet)
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((errno/child)
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(values #f #t)))
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(receive (pid status)
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(%wait-pid -1 flags)
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(if (zero? pid)
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(values #f #f) ; None ready.
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(values pid status)))))
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(define (%wait-process-group pgrp flags)
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(if (zero? (bitwise-and flags wait/poll))
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(error "really-wait without wait/poll"))
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(with-errno-handler
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((errno packet)
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((errno/child)
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(values #f #t)))
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(receive (pid status)
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(%wait-pid (- pgrp) flags)
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(if (zero? pid)
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(values #f #f) ; None ready.
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(values pid status)))))
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;;; Reaped process table
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; We keep track of procs that have been reaped but not yet waited on by
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;;; the user's code. These proces are eligible for return by WAIT-ANY.
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;;; We keep track of these so that WAIT-ANY will hand them out exactly once.
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;;; What this code needs is traditional condition variables.
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;;; This is (so far) reliable in the following ways:
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;;; 1. No process will be returned twice by wait-any, ever. Even two different
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;;; wait-anys.
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;;; 2. Being un-reaped will not prevent garbage collection.
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;;; (actually, there seems to be a problem with this -df)
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;;; 3. If a process is waited on, or is gc'ed, wait-any will do the Right
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|
;;; Thing.
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;;; And UNreliable in the following ways:
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|
;;; 1. If a wait and a wait-any are blocking simultaneously, the wait will
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|
;;; always return the object. However, whether the wait-any will or not
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|
;;; is based on racing semaphores.
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|
;;; 2. While processes can still be garbage collected, the nodes on the
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|
;;; wait-any list will not, and if the program never wait-any's, the queue
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|
;;; will snake around, eating up memory like pac-man with the munchies.
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|
;;; 3. The process may be garbage collected before wait-any gets to it, and
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|
;;; that's just tough.
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|
|
|
;;; -df
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|
(define-record reaped-proc
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|
proc
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|
(next (make-placeholder))
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|
prev)
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|
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(define reaped-proc-tail (make-reaped-proc (make-weak-pointer #f) 'head))
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(define reaped-proc-head reaped-proc-tail)
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|
(define reaped-proc-push-lock (make-lock))
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(define reaped-proc-pop-lock (make-lock)) ;;; Zippy sez: pop lock!
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|
|
|
(define (push-reaped-proc proc)
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(obtain-lock reaped-proc-push-lock)
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|
(let ((push-me (make-reaped-proc (make-weak-pointer proc) reaped-proc-tail)))
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|
(placeholder-set! (reaped-proc:next reaped-proc-tail) push-me)
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|
(add-finalizer! proc (make-reaped-proc-finalizer push-me))
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|
(set! reaped-proc-tail push-me))
|
|
(release-lock reaped-proc-push-lock))
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|
|
|
(define (make-reaped-proc-finalizer push-me)
|
|
(lambda ignore
|
|
(remove-reaped-proc push-me)))
|
|
|
|
(define (remove-reaped-proc reaped-proc)
|
|
(spawn (lambda () ;This is blocking, so should run by itself
|
|
(set-reaped-proc:prev
|
|
(placeholder-value (reaped-proc:next reaped-proc))
|
|
(reaped-proc:prev reaped-proc))
|
|
(set-reaped-proc:next
|
|
(reaped-proc:prev reaped-proc)
|
|
(reaped-proc:next reaped-proc)))
|
|
"reaped-proc-removing-thread"))
|
|
|
|
(define (pop-reaped-proc)
|
|
(obtain-lock reaped-proc-pop-lock) ;;; pop lock pop lock pop lock!
|
|
(let ((pop-me (placeholder-value (reaped-proc:next reaped-proc-head))))
|
|
(set! reaped-proc-head pop-me)
|
|
(release-lock reaped-proc-pop-lock)
|
|
(weak-pointer-ref (reaped-proc:proc pop-me))))
|
|
|
|
|
|
|
|
;;; Pop one off the list.
|
|
(define (get-reaped-proc!)
|
|
(let loop ((try (pop-reaped-proc)))
|
|
(if (and try (proc:zombie try))
|
|
try
|
|
(loop (pop-reaped-proc)))))
|
|
|
|
;;; PROC no longer eligible to be in the list. Delete it.
|
|
(define (mark-proc-waited! proc)
|
|
(set-proc:zombie proc #f))
|