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d56b83f662
Original commit message from CVS: 2005-11-17 Andy Wingo <wingo@pobox.com> * check/Makefile.am (check_PROGRAMS): * check/net/gstnetclientclock.c: Add a most minimal test for the net client clock. More to come later. * gst/net/gstnet.h: * gst/net/Makefile.am: Add netclientclock. * gst/net/gstnetclientclock.h: * gst/net/gstnetclientclock.c: New files, implement an untested GstClock that takes its time from a network time provider. Implements the algorithm in network-clock.scm. * tests/network-clock.scm (*window-size*): Rename from *queue-length*. * tests/network-clock.scm (network-time): * tests/network-clock-utils.scm (q-push): Update callers.
205 lines
7.3 KiB
Scheme
Executable file
205 lines
7.3 KiB
Scheme
Executable file
#!/bin/bash
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# -*- scheme -*-
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exec guile --debug -l $0 -e main -- "$@"
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!#
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;; GStreamer
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;; Copyright (C) 2005 Andy Wingo <wingo at pobox.com>
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;; This program is free software; you can redistribute it and/or
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;; modify it under the terms of the GNU General Public License as
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;; published by the Free Software Foundation; either version 2 of
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;; the License, or (at your option) any later version.
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;;
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;; This program is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;;
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;; You should have received a copy of the GNU General Public License
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;; along with this program; if not, contact:
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;;
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;; Free Software Foundation Voice: +1-617-542-5942
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;; 59 Temple Place - Suite 330 Fax: +1-617-542-2652
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;; Boston, MA 02111-1307, USA gnu@gnu.org
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;;; Commentary:
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;;
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;; Network clock simulator.
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;;
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;; Simulates the attempts of one clock to synchronize with another over
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;; the network. Packets are sent out with a local timestamp, and come
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;; back with the remote time added on to the packet. The remote time is
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;; assumed to have been observed at the local time in between sending
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;; the query and receiving the reply.
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;;
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;; The local clock will attempt to adjust its rate and offset by fitting
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;; a line to the last N datapoints on hand, by default 32. A better fit,
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;; as measured by the correlation coefficient, will result in a longer
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;; time before the next query. Bad fits or a not-yet-full set of data
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;; will result in many queries in quick succession.
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;;
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;; The rate and offset are set directly to the slope and intercept from
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;; the linear regression. This results in discontinuities in the local
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;; time. As clock times must be monotonically increasing, a jump down in
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;; time will result instead in time standing still for a while. Smoothly
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;; varying the rate such that no discontinuities are present has not
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;; been investigated.
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;;
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;; Implementation-wise, this simulator processes events and calculates
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;; times discretely. Times are represented as streams, also known as
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;; lazy lists. This is an almost-pure functional simulator. The thing to
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;; remember while reading is that stream-cons does not evaluate its
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;; second argument, rather deferring that calculation until stream-cdr
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;; is called. In that way all times are actually infinite series.
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;;
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;; Usage: See network-clock.scm --help.
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;;
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;;; Code:
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(use-modules (ice-9 popen))
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(load "network-clock-utils.scm")
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(define (time->samples t)
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(iround (* t *sample-frequency*)))
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(define (schedule-event events e time)
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(let lp ((response-time (time->samples time))
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(stream events))
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(if (zero? response-time)
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(if (not (stream-car stream))
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(stream-cons e (stream-cdr stream))
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(stream-cons (stream-car stream) (lp 0 (stream-cdr stream))))
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(stream-cons (stream-car stream) (lp (1- response-time) (stream-cdr stream))))))
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(define (schedule-send-time-query events time)
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(schedule-event events (list 'send-time-query) time))
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(define (schedule-time-query events l)
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(schedule-event events (list 'time-query l)
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(+ *send-delay* (random *send-jitter*))))
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(define (schedule-time-response events l r)
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(schedule-event events (list 'time-response l r)
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(+ *recv-delay* (random *recv-jitter*))))
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(define (network-time remote-time local-time events m b x y t)
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(let ((r (stream-car remote-time))
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(l (stream-car local-time))
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(event (stream-car events))
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(events (stream-cdr events)))
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(define (next events m b x y t)
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(stream-cons
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(+ (* m l) b)
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(network-time
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(stream-cdr remote-time) (stream-cdr local-time) events m b x y t)))
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(case (and=> event car)
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((send-time-query)
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(cond
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((< (random 1.0) *packet-loss*)
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(debug "; dropped time query: ~a\n" l)
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(print-event 'packet-lost l (+ (* m l) b))
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(next events m b x y (time->samples *timeout*)))
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(else
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(debug "; sending time query: ~a\n" l)
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(print-event 'packet-sent l (+ (* m l) b))
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(next (schedule-time-query events l) m b x y (time->samples *timeout*)))))
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((time-query)
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(debug "; time query received, replying with ~a\n" r)
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(next (schedule-time-response events (cadr event) r) m b x y (and t (1- t))))
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((time-response)
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(let ((x (q-push x (avg (cadr event) l)))
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(y (q-push y (caddr event))))
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(call-with-values
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(lambda () (least-squares (q-head x) (q-head y)))
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(lambda (m b r-squared)
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(define (next-time)
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(max
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(if (< (length (q-head x)) *window-size*)
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0
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(/ 1 (- 1 (min r-squared 0.99999)) 1000))
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0.10))
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(debug "; new slope and offset: ~a ~a (~a)\n" m b r-squared)
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(print-event 'packet-observed (avg (cadr event) l) (caddr event))
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(print-event 'packet-received l (+ (* m l) b))
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(next (schedule-send-time-query events (next-time)) m b x y #f)))))
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(else
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(cond
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((not t)
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;; not waiting for a response
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(next events m b x y t))
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((<= t 0)
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;; we timed out
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(next (schedule-send-time-query events 0.0) m b x y 0))
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(else
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(next events m b x y (1- t))))))))
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(define (run-simulation remote-speed local-speed)
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(let ((absolute-time (arithmetic-series 0.0 (/ 1.0 *sample-frequency*)))
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(event-stream (stream-of #f)))
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(let ((remote-time (scale-stream absolute-time remote-speed))
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(local-time (scale-stream absolute-time local-speed)))
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(values
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absolute-time
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remote-time
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local-time
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(network-time
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remote-time
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local-time
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(schedule-send-time-query event-stream 0.0)
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1.0
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(stream-car local-time)
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(make-q (list (stream-car local-time)))
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(make-q (list (stream-car remote-time)))
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#f)))))
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(define (print-simulation)
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(display "Absolute time; Remote time; Local time; Network time\n")
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(call-with-values
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(lambda () (run-simulation *remote-rate* *local-rate*))
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(lambda streams
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(apply
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stream-while
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(lambda (a r l n) (<= a *total-time*))
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(lambda (a r l n) (format #t "~a ~a ~a ~a\n" a r l n))
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streams))))
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(define (plot-simulation)
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(let ((port (open-output-pipe "./plot-data Network Clock Simulation")))
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(with-output-to-port port
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print-simulation)
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(close-pipe port)))
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(define-parameter *sample-frequency* 40)
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(define-parameter *send-delay* 0.1)
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(define-parameter *recv-delay* 0.1)
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(define-parameter *packet-loss* 0.01)
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(define-parameter *send-jitter* 0.1)
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(define-parameter *recv-jitter* 0.1)
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(define-parameter *window-size* 32)
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(define-parameter *local-rate* 1.0)
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(define-parameter *remote-rate* 1.1)
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(define-parameter *total-time* 5.0)
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(define-parameter *timeout* 1.0)
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(define-parameter *debug* #f)
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(define-parameter *with-graph* #t)
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(define (main args)
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(parse-parameter-arguments (cdr args))
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(if *with-graph*
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(plot-simulation)
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(print-simulation))
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(quit))
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