/* 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. */
+/***
+ *** Options
+ ***/
+int gras_opt_trp_nomoredata_on_close=0;
+
#include "xbt/ex.h"
-#include "xbt/host.h"
+#include "xbt/peer.h"
#include "portable.h"
#include "gras/Transport/transport_private.h"
+#include "gras/Msg/msg_interface.h"
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(gras_trp,gras,"Conveying bytes over the network");
XBT_LOG_NEW_SUBCATEGORY(gras_trp_meas,gras_trp,"Conveying bytes over the network without formating for perf measurements");
xbt_ex_t e;
gras_trp_plugin_t plug = xbt_new0(s_gras_trp_plugin_t, 1);
-
+
DEBUG1("Create plugin %s",name);
plug->name=xbt_strdup(name);
#ifdef HAVE_WINSOCK2_H
/* initialize the windows mechanism */
- {
+ {
WORD wVersionRequested;
WSADATA wsaData;
-
+
wVersionRequested = MAKEWORD( 2, 0 );
xbt_assert0(WSAStartup( wVersionRequested, &wsaData ) == 0,
"Cannot find a usable WinSock DLL");
-
+
/* Confirm that the WinSock DLL supports 2.0.*/
/* Note that if the DLL supports versions greater */
/* than 2.0 in addition to 2.0, it will still return */
/* 2.0 in wVersion since that is the version we */
/* requested. */
-
+
xbt_assert0(LOBYTE( wsaData.wVersion ) == 2 &&
HIBYTE( wsaData.wVersion ) == 0,
"Cannot find a usable WinSock DLL");
INFO0("Found and initialized winsock");
}
#endif
-
+
/* Add plugins */
gras_trp_plugin_new("file",gras_trp_file_setup);
gras_trp_plugin_new("sg",gras_trp_sg_setup);
gras_trp_plugin_new("tcp", gras_trp_tcp_setup);
}
-
+
_gras_trp_started++;
}
void
gras_trp_exit(void){
- xbt_dynar_t sockets = ((gras_trp_procdata_t) gras_libdata_by_id(gras_trp_libdata_id))->sockets;
- gras_socket_t sock_iter;
- int cursor;
-
+ DEBUG1("gras_trp value %d",_gras_trp_started);
if (_gras_trp_started == 0) {
return;
}
-
+
if ( --_gras_trp_started == 0 ) {
#ifdef HAVE_WINSOCK_H
if ( WSACleanup() == SOCKET_ERROR ) {
}
#endif
- /* Close all the sockets */
- xbt_dynar_foreach(sockets,cursor,sock_iter) {
- VERB1("Closing the socket %p left open on exit. Maybe a socket leak?",
- sock_iter);
- gras_socket_close(sock_iter);
- }
-
/* Delete the plugins */
xbt_dict_free(&_gras_trp_plugins);
}
gras_socket_t sock=xbt_new0(s_gras_socket_t,1);
- DEBUG1("Create a new socket (%p)", (void*)sock);
+ VERB1("Create a new socket (%p)", (void*)sock);
sock->plugin = NULL;
sock->outgoing = incoming ? 0:1;
sock->accepting = incoming ? 1:0;
sock->meas = 0;
- sock->recv_ok = 1;
+ sock->recvd = 0;
+ sock->valid = 1;
+ sock->moredata = 0;
sock->sd = -1;
sock->port = -1;
sock->data = NULL;
sock->bufdata = NULL;
-
+
*dst = sock;
- xbt_dynar_push(((gras_trp_procdata_t)
- gras_libdata_by_id(gras_trp_libdata_id))->sockets,dst);
XBT_OUT;
}
-
+
/**
* @brief Opens a server socket and makes it ready to be listened to.
* @param port: port on which you want to listen
* @param buf_size: size of the buffer (in byte) on the socket (for TCP sockets only). If 0, a sain default is used (32k, but may change)
* @param measurement: whether this socket is meant to convey measurement (if you don't know, use 0 to exchange regular messages)
- *
- * In real life, you'll get a TCP socket.
+ *
+ * In real life, you'll get a TCP socket.
*/
gras_socket_t
gras_socket_server_ext(unsigned short port,
-
+
unsigned long int buf_size,
int measurement) {
-
+
xbt_ex_t e;
gras_trp_plugin_t trp;
gras_socket_t sock;
TRY {
trp->socket_server(trp, sock);
DEBUG3("in=%c out=%c accept=%c",
- sock->incoming?'y':'n',
+ sock->incoming?'y':'n',
sock->outgoing?'y':'n',
sock->accepting?'y':'n');
} CATCH(e) {
- int cursor;
- gras_socket_t sock_iter;
- xbt_dynar_t socks = ((gras_trp_procdata_t) gras_libdata_by_id(gras_trp_libdata_id))->sockets;
- xbt_dynar_foreach(socks, cursor, sock_iter) {
- if (sock_iter==sock)
- xbt_dynar_cursor_rm(socks,&cursor);
- }
+
free(sock);
RETHROW;
}
if (!measurement)
((gras_trp_procdata_t) gras_libdata_by_id(gras_trp_libdata_id))->myport = port;
+ xbt_dynar_push(((gras_trp_procdata_t)
+ gras_libdata_by_id(gras_trp_libdata_id))->sockets,&sock);
+
+ gras_msg_listener_awake();
return sock;
}
/**
* @brief Opens a server socket on any port in the given range
- *
+ *
* @param minport: first port we will try
* @param maxport: last port we will try
* @param buf_size: size of the buffer (in byte) on the socket (for TCP sockets only). If 0, a sain default is used (32k, but may change)
* @param measurement: whether this socket is meant to convey measurement (if you don't know, use 0 to exchange regular messages)
- *
+ *
* If none of the provided ports works, raises the exception got when trying the last possibility
- */
+ */
gras_socket_t
gras_socket_server_range(unsigned short minport, unsigned short maxport,
unsigned long int buf_size, int measurement) {
-
+
int port;
gras_socket_t res=NULL;
xbt_ex_t e;
-
+
for (port=minport; port<maxport;port ++) {
TRY {
res=gras_socket_server_ext(port,buf_size,measurement);
}
THROW_IMPOSSIBLE;
}
-
+
/**
* @brief Opens a client socket to a remote host.
* @param host: who you want to connect to
* @param port: where you want to connect to on this host
* @param buf_size: size of the buffer (in bytes) on the socket (for TCP sockets only). If 0, a sain default is used (32k, but may change)
* @param measurement: whether this socket is meant to convey measurement (if you don't know, use 0 to exchange regular messages)
- *
- * In real life, you'll get a TCP socket.
+ *
+ * In real life, you'll get a TCP socket.
*/
gras_socket_t
gras_socket_client_ext(const char *host,
unsigned short port,
-
+
unsigned long int buf_size,
int measurement) {
-
+
xbt_ex_t e;
gras_trp_plugin_t trp;
gras_socket_t sock;
TRY {
(*trp->socket_client)(trp, sock);
DEBUG3("in=%c out=%c accept=%c",
- sock->incoming?'y':'n',
+ sock->incoming?'y':'n',
sock->outgoing?'y':'n',
sock->accepting?'y':'n');
} CATCH(e) {
- free(sock);
- RETHROW;
+ free(sock);
+ RETHROW;
}
-
+ xbt_dynar_push(((gras_trp_procdata_t)
+ gras_libdata_by_id(gras_trp_libdata_id))->sockets,&sock);
+ gras_msg_listener_awake();
return sock;
}
/**
- * gras_socket_server:
+ * @brief Opens a server socket and make it ready to be listened to.
*
- * Opens a server socket and make it ready to be listened to.
* In real life, you'll get a TCP socket.
*/
gras_socket_t
/** @brief Opens a client socket to a remote host specified as '\a host:\a port' */
gras_socket_t
gras_socket_client_from_string(const char *host) {
- xbt_host_t h = xbt_host_from_string(host);
- gras_socket_t res = gras_socket_client_ext(h->name,h->port,0,0);
- xbt_host_free(h);
+ xbt_peer_t p = xbt_peer_from_string(host);
+ gras_socket_t res = gras_socket_client_ext(p->name,p->port,0,0);
+ xbt_peer_free(p);
return res;
}
/** \brief Close socket */
void gras_socket_close(gras_socket_t sock) {
xbt_dynar_t sockets = ((gras_trp_procdata_t) gras_libdata_by_id(gras_trp_libdata_id))->sockets;
- gras_socket_t sock_iter;
- int cursor;
+ gras_socket_t sock_iter = NULL;
+ unsigned int cursor;
XBT_IN;
+ VERB1("Close %p",sock);
+ if (sock == _gras_lastly_selected_socket) {
+ xbt_assert0(!gras_opt_trp_nomoredata_on_close || !sock->moredata,
+ "Closing a socket having more data in buffer while the nomoredata_on_close option is activated");
+
+ if (sock->moredata)
+ CRITICAL0("Closing a socket having more data in buffer. Option nomoredata_on_close disabled, so continuing.");
+ _gras_lastly_selected_socket=NULL;
+ }
+
/* FIXME: Issue an event when the socket is closed */
+ DEBUG1("sockets pointer before %p",sockets);
if (sock) {
- xbt_dynar_foreach(sockets,cursor,sock_iter) {
- if (sock == sock_iter) {
- xbt_dynar_cursor_rm(sockets,&cursor);
- if (sock->plugin->socket_close)
- (* sock->plugin->socket_close)(sock);
-
- /* free the memory */
- if (sock->peer_name)
- free(sock->peer_name);
- free(sock);
- XBT_OUT;
- return;
- }
+ /* FIXME: Cannot get the dynar mutex, because it can be already locked */
+// _xbt_dynar_foreach(sockets,cursor,sock_iter) {
+ for (cursor=0; cursor< xbt_dynar_length(sockets); cursor++) {
+ _xbt_dynar_cursor_get(sockets,&cursor,&sock_iter);
+ if (sock == sock_iter) {
+ DEBUG2("remove sock cursor %d dize %lu\n",cursor,xbt_dynar_length(sockets));
+ xbt_dynar_cursor_rm(sockets,&cursor);
+ if (sock->plugin->socket_close)
+ (* sock->plugin->socket_close)(sock);
+
+ /* free the memory */
+ if (sock->peer_name)
+ free(sock->peer_name);
+ free(sock);
+ XBT_OUT;
+ return;
+ }
}
WARN1("Ignoring request to free an unknown socket (%p). Execution stack:",sock);
- xbt_backtrace_display();
+ xbt_backtrace_display_current();
}
XBT_OUT;
}
return sock->meas;
}
-/** \brief Send a chunk of (random) data over a measurement socket
+/** \brief Send a chunk of (random) data over a measurement socket
*
* @param peer measurement socket to use for the experiment
* @param timeout timeout (in seconds)
- * @param exp_size total amount of data to send (in bytes).
* @param msg_size size of each chunk sent over the socket (in bytes).
+ * @param msg_amount how many of these packets you want to send.
+ *
+ * Calls to gras_socket_meas_send() and gras_socket_meas_recv() on
+ * each side of the socket should be paired.
*
- * Calls to gras_socket_meas_send() and gras_socket_meas_recv() on
- * each side of the socket should be paired.
- *
* The exchanged data is zeroed to make sure it's initialized, but
- * there is no way to control what is sent (ie, you cannot use these
+ * there is no way to control what is sent (ie, you cannot use these
* functions to exchange data out of band).
+ *
+ * @warning: in SimGrid version 3.1 and previous, the numerical arguments
+ * were the total amount of data to send and the msg_size. This
+ * was changed for the fool wanting to send more than MAXINT
+ * bytes in a fat pipe.
*/
-void gras_socket_meas_send(gras_socket_t peer,
+void gras_socket_meas_send(gras_socket_t peer,
unsigned int timeout,
- unsigned long int exp_size,
- unsigned long int msg_size) {
+ unsigned long int msg_size,
+ unsigned long int msg_amount) {
char *chunk=NULL;
- unsigned long int exp_sofar;
-
+ unsigned long int sent_sofar;
+
XBT_IN;
- if (gras_if_RL())
+ if (gras_if_RL())
chunk=xbt_malloc0(msg_size);
xbt_assert0(peer->meas,"Asked to send measurement data on a regular socket");
xbt_assert0(peer->outgoing,"Socket not suited for data send (was created with gras_socket_server(), not gras_socket_client())");
- for (exp_sofar=0; exp_sofar < exp_size; exp_sofar += msg_size) {
- CDEBUG5(gras_trp_meas,"Sent %lu of %lu (msg_size=%ld) to %s:%d",
- exp_sofar,exp_size,msg_size,
+ for (sent_sofar=0; sent_sofar < msg_amount; sent_sofar++) {
+ CDEBUG5(gras_trp_meas,"Sent %lu msgs of %lu (size of each: %ld) to %s:%d",
+ sent_sofar,msg_amount,msg_size,
gras_socket_peer_name(peer), gras_socket_peer_port(peer));
(*peer->plugin->raw_send)(peer,chunk,msg_size);
}
- CDEBUG5(gras_trp_meas,"Sent %lu of %lu (msg_size=%ld) to %s:%d",
- exp_sofar,exp_size,msg_size,
+ CDEBUG5(gras_trp_meas,"Sent %lu msgs of %lu (size of each: %ld) to %s:%d",
+ sent_sofar,msg_amount,msg_size,
gras_socket_peer_name(peer), gras_socket_peer_port(peer));
-
- if (gras_if_RL())
+
+ if (gras_if_RL())
free(chunk);
XBT_OUT;
}
-/** \brief Receive a chunk of data over a measurement socket
+/** \brief Receive a chunk of data over a measurement socket
+ *
+ * Calls to gras_socket_meas_send() and gras_socket_meas_recv() on
+ * each side of the socket should be paired.
*
- * Calls to gras_socket_meas_send() and gras_socket_meas_recv() on
- * each side of the socket should be paired.
+ * @warning: in SimGrid version 3.1 and previous, the numerical arguments
+ * were the total amount of data to send and the msg_size. This
+ * was changed for the fool wanting to send more than MAXINT
+ * bytes in a fat pipe.
*/
-void gras_socket_meas_recv(gras_socket_t peer,
+void gras_socket_meas_recv(gras_socket_t peer,
unsigned int timeout,
- unsigned long int exp_size,
- unsigned long int msg_size){
-
+ unsigned long int msg_size,
+ unsigned long int msg_amount){
+
char *chunk=NULL;
- unsigned long int exp_sofar;
+ unsigned long int got_sofar;
XBT_IN;
- if (gras_if_RL())
+ if (gras_if_RL())
chunk = xbt_malloc(msg_size);
xbt_assert0(peer->meas,
"Asked to receive measurement data on a regular socket");
xbt_assert0(peer->incoming,"Socket not suited for data receive");
- for (exp_sofar=0; exp_sofar < exp_size; exp_sofar += msg_size) {
- CDEBUG5(gras_trp_meas,"Recvd %ld of %lu (msg_size=%ld) from %s:%d",
- exp_sofar,exp_size,msg_size,
+ for (got_sofar=0; got_sofar < msg_amount; got_sofar ++) {
+ CDEBUG5(gras_trp_meas,"Recvd %ld msgs of %lu (size of each: %ld) from %s:%d",
+ got_sofar,msg_amount,msg_size,
gras_socket_peer_name(peer), gras_socket_peer_port(peer));
(peer->plugin->raw_recv)(peer,chunk,msg_size);
}
- CDEBUG5(gras_trp_meas,"Recvd %ld of %lu (msg_size=%ld) from %s:%d",
- exp_sofar,exp_size,msg_size,
+ CDEBUG5(gras_trp_meas,"Recvd %ld msgs of %lu (size of each: %ld) from %s:%d",
+ got_sofar,msg_amount,msg_size,
gras_socket_peer_name(peer), gras_socket_peer_port(peer));
- if (gras_if_RL())
+ if (gras_if_RL())
free(chunk);
XBT_OUT;
}
/**
- * \brief Something similar to the good old accept system call.
+ * \brief Something similar to the good old accept system call.
*
* Make sure that there is someone speaking to the provided server socket.
- * In RL, it does an accept(2) and return the result as last argument.
+ * In RL, it does an accept(2) and return the result as last argument.
* In SG, as accepts are useless, it returns the provided argument as result.
* You should thus test whether (peer != accepted) before closing both of them.
*
- * You should only call this on measurement sockets. It is automatically
- * done for regular sockets, but you usually want more control about
+ * You should only call this on measurement sockets. It is automatically
+ * done for regular sockets, but you usually want more control about
* what's going on with measurement sockets.
*/
gras_socket_t gras_socket_meas_accept(gras_socket_t peer){
CDEBUG1(gras_trp_meas,"meas_accepted onto %d",res->sd);
return res;
-}
+}
/*
* Creating procdata for this module
*/
-static void *gras_trp_procdata_new() {
+static void *gras_trp_procdata_new(void) {
gras_trp_procdata_t res = xbt_new(s_gras_trp_procdata_t,1);
-
+
res->name = xbt_strdup("gras_trp");
res->name_len = 0;
- res->sockets = xbt_dynar_new(sizeof(gras_socket_t*), NULL);
+ res->sockets = xbt_dynar_new_sync(sizeof(gras_socket_t*), NULL);
res->myport = 0;
-
+
return (void*)res;
}
* Freeing procdata for this module
*/
static void gras_trp_procdata_free(void *data) {
- gras_trp_procdata_t res = (gras_trp_procdata_t)data;
-
- xbt_dynar_free(&( res->sockets ));
- free(res->name);
- free(res);
+ gras_trp_procdata_t res = (gras_trp_procdata_t)data;
+
+ xbt_dynar_free(&( res->sockets ));
+ free(res->name);
+ free(res);
+}
+
+void gras_trp_socketset_dump(const char *name) {
+ gras_trp_procdata_t procdata =
+ (gras_trp_procdata_t)gras_libdata_by_id(gras_trp_libdata_id);
+
+ unsigned int it;
+ gras_socket_t s;
+
+ INFO1("** Dump the socket set %s",name);
+ xbt_dynar_foreach(procdata->sockets, it, s) {
+ INFO4(" %p -> %s:%d %s",
+ s,gras_socket_peer_name(s),gras_socket_peer_port(s),
+ s->valid?"(valid)":"(peer dead)");
+ }
+ INFO1("** End of socket set %s",name);
}
/*