+++ /dev/null
-/* $Id$ */
-
-/* amok_bandwidth - Bandwidth test facilities */
-
-/* Copyright (c) 2003-2005 Martin Quinson. All rights reserved. */
-
-/* This program is free software; you can redistribute it and/or modify it
- * under the terms of the license (GNU LGPL) which comes with this package. */
-
-#ifndef AMOK_BANDWIDTH_H
-#define AMOK_BANDWIDTH_H
-
-#include "amok/base.h"
-
-/* module handling */
-
-
-/** \addtogroup AMOK_bw
- * \brief Test the bandwidth between two nodes
- *
- * This module allows you to retrieve the bandwidth between to arbitrary hosts
- * and saturating the links leading to them, provided that they run some GRAS
- * process which initialized this module.
- *
- * \htmlonly <h3>Bandwidth measurement</h3>\endhtmlonly
- *
- * Retrieving the bandwidth is usually done by active measurment: one send
- * a packet of known size, time how long it needs to go back and forth,
- * and you get the bandwidth in Kb/s available on the wire.
- *
- * This is not as easy as it first seems to do so in GRAS. The first issue
- * is that GRAS messages can get buffered, or the receiver cannot be
- * waiting for the message when it arrives. This results in extra delays
- * impacting the measurement quality. You thus have to setup a rendez-vous
- * protocol. The second issue is that GRAS message do have an header, so
- * figuring out their size is not trivial. Moreover, they get converted
- * when the sender and receiver processor architecture are different,
- * inducing extra delays. For this, GRAS provide the so-called measurement
- * sockets. On them, you can send raw data which is not converted (see
- * \ref GRAS_sock_meas).
- *
- * Solving all these problems is quite error prone and anoying, so we
- * implemented this in the current module so that you don't have to do it
- * yourself. The API is very simple. Use amok_bw_test() to get the BW
- * between the local host and the specified peer, or amok_bw_request() to
- * get the BW between two remote hosts. The elapsed time, as long as the
- * achieved bandwidth is returned in the last arguments of the functions.
- *
- * All sizes are in bytes. The \a buf_size is the size of the buffer
- * (this is a socket parameter set automatically). The \a exp_size is the
- * amount of data to send during an experiment. \a msg_size is the size
- * of each message sent. These values allow you to study phenomenon such
- * as TCP slow start (which are not correctly modelized by \ref SURF_API,
- * yet). They are mimicked from the NWS API, and default values could be
- * buf_size=32k, msg_size=16k and exp_size=64k. That means that the
- * socket will be prepared to accept 32k in its buffer and then four
- * messages of 16k will be sent (so that the total amount of data equals
- * 64k). Of course, you can use other values if you want to.
- *
- * \htmlonly
- * <center><img align=center src="amok_bw_test.png" alt="amok bandwidth measurement protocol"><br>
- * Fig 1: AMOK bandwidth measurement protocol.</center>
- * <h3>Link saturation</h3>
- * \endhtmlonly
- *
- * You sometimes want to try saturating some link during the network
- * related experiments (at least, we did ;). This also can turn quite
- * untrivial to do, unless you use this great module. You can either ask
- * for the saturation between the current host and a distant one with
- * amok_bw_saturate_begin() or between two distant hosts with
- * amok_bw_saturate_start(). In any case, remember that gras actors
- * (processes) are not interruptible. It means that an actor you
- * instructed to participate to a link saturation experiment will not do
- * anything else until it is to its end (either because the asked duration
- * was done or because someone used amok_bw_saturate_stop() on the emitter
- * end of the experiment).
- *
- * The following figure depicts the used protocol. Note that any
- * handshaking messages internal messages are omitted for sake of
- * simplicity. In this example, the experiment ends before the planned
- * experiment duration is over because one host use the
- * amok_bw_saturate_stop() function, but things are not really different
- * if the experiment stops alone. Also, it is not mandatory that the host
- * calling amok_bw_saturate_stop() is the same than the one which called
- * amok_bw_saturate_start(), despite what is depicted here.
- *
- * \htmlonly
- * <center><img align=center src="amok_bw_sat.png" alt="amok bandwidth saturation protocol"><br>
- * Fig 2: AMOK link saturation protocol.</center>
- * \endhtmlonly
- *
- * @{
- */
-
-void amok_bw_init(void);
-void amok_bw_exit(void);
-
-void amok_bw_test(gras_socket_t peer,
- unsigned long int buf_size,unsigned long int exp_size,unsigned long int msg_size,
- /*OUT*/ double *sec, double *bw);
-
-void amok_bw_request(const char* from_name,unsigned int from_port,
- const char* to_name,unsigned int to_port,
- unsigned long int buf_size,unsigned long int exp_size,unsigned long int msg_size,
- /*OUT*/ double *sec, double*bw);
-
-double * amok_bw_matrix(xbt_dynar_t hosts, /* dynar of xbt_host_t */
- int buf_size_bw, int exp_size_bw, int msg_size_bw);
-
-/* ***************************************************************************
- * Link saturation
- * ***************************************************************************/
-
-
-void amok_bw_saturate_start(const char* from_name,unsigned int from_port,
- const char* to_name,unsigned int to_port,
- unsigned int msg_size, double duration);
-
-void amok_bw_saturate_begin(const char* to_name,unsigned int to_port,
- unsigned int msg_size, double duration,
- /*out*/ double *elapsed, double *bw);
-
-void amok_bw_saturate_stop(const char* from_name,unsigned int from_port,
- /*out*/ unsigned int *time, unsigned int *bw);
-
-/** @} */
-
-#endif /* AMOK_BANDWIDTH_H */