-/* $Id$ */
-
/* messaging - Function related to messaging code specific to SG */
-/* Copyright (c) 2003-2005 Martin Quinson. All rights reserved. */
+/* Copyright (c) 2005, 2006, 2007, 2008, 2009, 2010. The SimGrid Team.
+ * 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. */
#include "gras/DataDesc/datadesc_interface.h"
#include "gras/Transport/transport_interface.h" /* gras_trp_chunk_send/recv */
-#include "gras/Transport/transport_private.h" /* sock->data */
-
-/** \brief Send the data pointed by \a payload as a message of type
- * \a msgtype to the peer \a sock */
-void
-gras_msg_send(gras_socket_t sock,
- gras_msgtype_t msgtype,
- void *payload) {
-
- m_task_t task=NULL;
- gras_trp_sg_sock_data_t *sock_data = (gras_trp_sg_sock_data_t *)sock->data;
- gras_msg_t msg;
- int whole_payload_size=0; /* msg->payload_size is used to memcpy the payload.
- This is used to report the load onto the simulator. It also counts the size of pointed stuff */
-
- xbt_assert1(!gras_socket_is_meas(sock),
- "Asked to send a message on the measurement socket %p", sock);
+#include "gras/Transport/transport_private.h" /* sock->data */
- msg=xbt_new0(s_gras_msg_t,1);
- msg->type=msgtype;
+XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(gras_msg);
-
- msg->payload_size=gras_datadesc_size(msgtype->ctn_type);
- msg->payload=xbt_malloc(gras_datadesc_size(msgtype->ctn_type));
- if (msgtype->ctn_type)
- whole_payload_size = gras_datadesc_copy(msgtype->ctn_type,payload,msg->payload);
+typedef void *gras_trp_bufdata_;
- task=MSG_task_create(msgtype->name,0,
- ((double)msg->payload_size)/(1024.0*1024.0),msg);
-
- if (MSG_task_put(task, sock_data->to_host,sock_data->to_chan) != MSG_OK)
- THROW0(system_error,0,"Problem during the MSG_task_put");
-
-}
-/*
- * receive the next message on the given socket.
- */
-void
-gras_msg_recv(gras_socket_t sock,
- gras_msgtype_t *msgtype,
- void **payload,
- int *payload_size) {
-
- m_task_t task=NULL;
+gras_msg_t gras_msg_recv_any(void)
+{
+ gras_trp_procdata_t trp_proc =
+ (gras_trp_procdata_t) gras_libdata_by_name("gras_trp");
gras_msg_t msg;
- gras_trp_procdata_t pd=(gras_trp_procdata_t)gras_libdata_by_name("gras_trp");
-
- xbt_assert1(!gras_socket_is_meas(sock),
- "Asked to receive a message on the measurement socket %p", sock);
+ /* Build a dynar of all communications I could get something from */
+ xbt_dynar_t comms = xbt_dynar_new(sizeof(smx_comm_t), NULL);
+ unsigned int cursor = 0;
+ int got = 0;
+ smx_comm_t comm = NULL;
+ gras_socket_t sock = NULL;
+ gras_trp_sg_sock_data_t sock_data;
+ xbt_dynar_foreach(trp_proc->sockets, cursor, sock) {
+ sock_data = (gras_trp_sg_sock_data_t) sock->data;
+
+
+ DEBUG5
+ ("Consider socket %p (data:%p; Here rdv: %p; Remote rdv: %p; Comm %p) to get a message",
+ sock, sock_data,
+ (sock_data->server ==
+ SIMIX_process_self())? sock_data->
+ rdv_server : sock_data->rdv_client,
+ (sock_data->server ==
+ SIMIX_process_self())? sock_data->
+ rdv_client : sock_data->rdv_server, sock_data->comm_recv);
+
+
+ /* If the following assert fails in some valid conditions, we need to
+ * change the code downward looking for the socket again.
+ *
+ * For now it relies on the facts (A) that sockets and comms are aligned
+ * (B) every sockets has a posted irecv in comms
+ *
+ * This is not trivial because we need that alignment to hold after the waitany(), so
+ * after other processes get scheduled.
+ *
+ * I cannot think of conditions where they get desynchronized (A violated) as long as
+ * 1) only the listener calls that function
+ * 2) Nobody but the listener removes sockets from that set (in main listener loop)
+ * 3) New sockets are added at the end, and signified ASAP to the listener (by awaking him)
+ * The throw bellow ensures that B is never violated without failing out loudly.
+ *
+ * We cannot search by comparing the comm object pointer that object got
+ * freed by the waiting process (down in smx_network, in
+ * comm_wait_for_completion or comm_cleanup). So, actually, we could
+ * use that pointer since that's a dangling pointer, but no one changes it.
+ * I still feel unconfortable with using dangling pointers, even if that would
+ * let the code work even if A and/or B are violated, provided that
+ * (C) the new irecv is never posted before we return from waitany to that function.
+ *
+ * Another approach, robust to B violation would be to retraverse the socks dynar with
+ * an iterator, incremented only when the socket has a comm. And we've the right socket
+ * when that iterator is equal to "got", the result of waitany. Not needed if B holds.
+ */
+ xbt_assert1(sock_data->comm_recv,
+ "Comm_recv of socket %p is empty; please report that nasty bug",
+ sock);
+ /* End of paranoia */
+
+ VERB3("Copy comm_recv %p rdv:%p (other rdv:%p)",
+ sock_data->comm_recv,
+ (sock_data->server ==
+ SIMIX_process_self())? sock_data->
+ rdv_server : sock_data->rdv_client,
+ (sock_data->server ==
+ SIMIX_process_self())? sock_data->
+ rdv_client : sock_data->rdv_server);
+ xbt_dynar_push(comms, &(sock_data->comm_recv));
+ }
+ VERB1("Wait on %ld 'sockets'", xbt_dynar_length(comms));
+ /* Wait for the end of any of these communications */
+ got = SIMIX_network_waitany(comms);
+
+ /* retrieve the message sent in that communication */
+ xbt_dynar_get_cpy(comms, got, &(comm));
+ msg = SIMIX_communication_get_data(comm);
+ VERB1("Got something. Communication %p's over", comm);
+ SIMIX_communication_destroy(comm);
+
+ /* Reinstall a waiting communication on that rdv */
+ /* Get the sock again
+ * For that, we use the fact that */
+ sock = xbt_dynar_get_as(trp_proc->sockets, got, gras_socket_t);
+/* xbt_dynar_foreach(trp_proc->sockets,cursor,sock) {
+ sock_data = (gras_trp_sg_sock_data_t) sock->data;
+ if (sock_data->comm_recv && sock_data->comm_recv == comm)
+ break;
+ }
+ */
+ sock_data = (gras_trp_sg_sock_data_t) sock->data;
+ sock_data->comm_recv =
+ SIMIX_network_irecv(sock_data->rdv_server != NULL ?
+ //(sock_data->server==SIMIX_process_self())?
+ sock_data->rdv_server
+ : sock_data->rdv_client, NULL, 0);
+
+ return msg;
+}
- if (MSG_task_get(&task, pd->chan) != MSG_OK)
- THROW0(system_error,0,"Error in MSG_task_get()");
- msg = MSG_task_get_data(task);
- *msgtype = gras_msgtype_by_id(msg->type->code);
- *payload = msg->payload;
- *payload_size = msg->payload_size;
+void gras_msg_send_ext(gras_socket_t sock,
+ e_gras_msg_kind_t kind,
+ unsigned long int ID,
+ gras_msgtype_t msgtype, void *payload)
+{
+ int whole_payload_size = 0; /* msg->payload_size is used to memcpy the payload.
+ This is used to report the load onto the simulator. It also counts the size of pointed stuff */
+ gras_msg_t msg; /* message to send */
+ smx_comm_t comm;
+ gras_trp_sg_sock_data_t sock_data = (gras_trp_sg_sock_data_t) sock->data;
+
+ smx_rdv_t target_rdv =
+ (sock_data->server ==
+ SIMIX_process_self())? sock_data->
+ rdv_client : sock_data->rdv_server;
+
+ /*initialize gras message */
+ msg = xbt_new(s_gras_msg_t, 1);
+ sock->refcount++;
+ msg->expe = sock;
+ msg->kind = kind;
+ msg->type = msgtype;
+ msg->ID = ID;
+
+ VERB2("Send msg %s to rdv %p", msgtype->name, target_rdv);
+
+ if (kind == e_gras_msg_kind_rpcerror) {
+ /* error on remote host, careful, payload is an exception */
+ msg->payl_size = gras_datadesc_size(gras_datadesc_by_name("ex_t"));
+ msg->payl = xbt_malloc(msg->payl_size);
+ whole_payload_size =
+ gras_datadesc_memcpy(gras_datadesc_by_name("ex_t"), payload,
+ msg->payl);
+ } else if (kind == e_gras_msg_kind_rpcanswer) {
+ msg->payl_size = gras_datadesc_size(msgtype->answer_type);
+ if (msg->payl_size)
+ msg->payl = xbt_malloc(msg->payl_size);
+ else
+ msg->payl = NULL;
+
+ if (msgtype->answer_type)
+ whole_payload_size = gras_datadesc_memcpy(msgtype->answer_type,
+ payload, msg->payl);
+ } else {
+ msg->payl_size = gras_datadesc_size(msgtype->ctn_type);
+ msg->payl = msg->payl_size ? xbt_malloc(msg->payl_size) : NULL;
+ if (msgtype->ctn_type)
+ whole_payload_size = gras_datadesc_memcpy(msgtype->ctn_type,
+ payload, msg->payl);
+ }
+
+ SIMIX_network_send(target_rdv, whole_payload_size, -1, -1, &msg,
+ sizeof(void *), &comm, msg);
+
+ VERB0("Message sent");
- free(msg);
- if (MSG_task_destroy(task) != MSG_OK)
- THROW0(system_error,0,"Error in MSG_task_destroy()");
}