#include "xbt/ex.h"
#include "xbt/ex_interface.h"
+#include "xbt/socket.h"
#include "gras/Msg/msg_private.h"
#include "gras/Virtu/virtu_interface.h"
void
gras_msg_wait_ext_(double timeout,
gras_msgtype_t msgt_want,
- gras_socket_t expe_want,
+ xbt_socket_t expe_want,
gras_msg_filter_t filter,
void *filter_ctx, gras_msg_t msg_got)
{
(gras_msg_procdata_t) gras_libdata_by_id(gras_msg_libdata_id);
unsigned int cpt;
- xbt_assert0(msg_got, "msg_got is an output parameter");
+ xbt_assert(msg_got, "msg_got is an output parameter");
start = gras_os_time();
XBT_VERB("Waiting for message '%s' for %fs",
xbt_dynar_foreach(pd->msg_waitqueue, cpt, msg) {
if ((!msgt_want || (msg.type->code == msgt_want->code))
- && (!expe_want || (!strcmp(gras_socket_peer_name(msg.expe),
- gras_socket_peer_name(expe_want))))
+ && (!expe_want || (!strcmp(xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_name(expe_want))))
&& (!filter || filter(&msg, filter_ctx))) {
memcpy(msg_got, &msg, sizeof(s_gras_msg_t));
xbt_dynar_foreach(pd->msg_queue, cpt, msg) {
if ((!msgt_want || (msg.type->code == msgt_want->code))
- && (!expe_want || (!strcmp(gras_socket_peer_name(msg.expe),
- gras_socket_peer_name(expe_want))))
+ && (!expe_want || (!strcmp(xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_name(expe_want))))
&& (!filter || filter(&msg, filter_ctx))) {
memcpy(msg_got, &msg, sizeof(s_gras_msg_t));
XBT_DEBUG("Got a message from the socket");
if ((!msgt_want || (msg.type->code == msgt_want->code))
- && (!expe_want || (!strcmp(gras_socket_peer_name(msg.expe),
- gras_socket_peer_name(expe_want))))
+ && (!expe_want || (!strcmp(xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_name(expe_want))))
&& (!filter || filter(&msg, filter_ctx))) {
memcpy(msg_got, &msg, sizeof(s_gras_msg_t));
now = gras_os_time();
if (now - start + 0.001 > timeout) {
- THROW1(timeout_error, now - start + 0.001 - timeout,
+ THROWF(timeout_error, now - start + 0.001 - timeout,
"Timeout while waiting for msg '%s'",
msgt_want ? msgt_want->name : "(any)");
}
*
* @param timeout: How long should we wait for this message.
* @param msgt_want: type of awaited msg
- * @param[out] expeditor: where to create a socket to answer the incomming message
- * @param[out] payload: where to write the payload of the incomming message
+ * @param[out] expeditor: where to create a socket to answer the incoming message
+ * @param[out] payload: where to write the payload of the incoming message
* @return the error code (or no_error).
*
* Every message of another type received before the one waited will be queued
void
gras_msg_wait_(double timeout,
gras_msgtype_t msgt_want,
- gras_socket_t * expeditor, void *payload)
+ xbt_socket_t * expeditor, void *payload)
{
s_gras_msg_t msg;
gras_msg_wait_ext_(timeout, msgt_want, NULL, NULL, NULL, &msg);
if (msgt_want->ctn_type) {
- xbt_assert1(payload,
+ xbt_assert(payload,
"Message type '%s' convey a payload that you must accept",
msgt_want->name);
} else {
- xbt_assert1(!payload,
+ xbt_assert(!payload,
"No payload was declared for message type '%s' (don't expect one)",
msgt_want->name);
}
* @param msgt_want: a dynar containing all accepted message type
* @param[out] ctx: the context of received message (in case it's a RPC call we want to answer to)
* @param[out] msgt_got: indice in the dynar of the type of the received message
- * @param[out] payload: where to write the payload of the incomming message
+ * @param[out] payload: where to write the payload of the incoming message
* @return the error code (or no_error).
*
* Every message of a type not in the accepted list received before the one
&gras_msg_wait_or_filter, (void *) msgt_want, &msg);
if (msg.type->ctn_type) {
- xbt_assert1(payload,
+ xbt_assert(payload,
"Message type '%s' convey a payload you must accept",
msg.type->name);
}
/** \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 gras_msg_send_(xbt_socket_t sock, gras_msgtype_t msgtype,
void *payload)
{
if (msgtype->ctn_type) {
- xbt_assert1(payload,
+ xbt_assert(payload,
"Message type '%s' convey a payload you must provide",
msgtype->name);
} else {
- xbt_assert1(!payload,
+ xbt_assert(!payload,
"No payload was declared for message type '%s'",
msgtype->name);
}
}
CATCH(e) {
if (e.category != timeout_error)
- RETHROW0("Error while waiting for messages: %s");
+ RETHROWF("Error while waiting for messages: %s");
xbt_ex_free(e);
}
/* Epsilon to avoid numerical stability issues were the waited interval is so small that the global clock cannot notice the increment */
} while (period - now + begin > 0);
}
-/** @brief Handle an incomming message or timer (or wait up to \a timeOut seconds)
+/** @brief Handle an incoming message or timer (or wait up to \a timeOut seconds)
*
* @param timeOut: How long to wait for incoming messages (in seconds)
* @return the error code (or no_error).
*
* @sa gras_msg_handleall().
*/
-void gras_msg_handle(double timeOut)
+void gras_msg_handle(volatile double timeOut)
{
double untiltimer;
unsigned int cpt;
- int volatile ran_ok;
+ volatile int ran_ok;
s_gras_msg_t msg;
gras_msg_cb_t cb;
s_gras_msg_cb_ctx_t ctx;
- int timerexpected, timeouted;
+ volatile int timerexpected, timeouted;
xbt_ex_t e;
XBT_VERB("Handling message within the next %.2fs", timeOut);
/* get a message (from the queue or from the net) */
timeouted = 0;
- if (xbt_dynar_length(pd->msg_queue)) {
+ if (!xbt_dynar_is_empty(pd->msg_queue)) {
XBT_DEBUG("Get a message from the queue");
xbt_dynar_shift(pd->msg_queue, &msg);
} else {
/* we served a timer, we're done */
return;
} else {
- xbt_assert1(untiltimer > 0, "Negative timer (%f). I'm 'puzzeled'",
+ xbt_assert(untiltimer > 0, "Negative timer (%f). I'm 'puzzeled'",
untiltimer);
XBT_WARN
("No timer elapsed, in contrary to expectations (next in %f sec)",
untiltimer);
- THROW1(timeout_error, 0,
+ THROWF(timeout_error, 0,
"No timer elapsed, in contrary to expectations (next in %f sec)",
untiltimer);
}
} else {
/* select timeouted, and no timer elapsed. Nothing to do */
- THROW1(timeout_error, 0, "No new message or timer (delay was %f)",
+ THROWF(timeout_error, 0, "No new message or timer (delay was %f)",
timeOut);
}
XBT_INFO
("No callback for message '%s' (type:%s) from %s:%d. Queue it for later gras_msg_wait() use.",
msg.type->name, e_gras_msg_kind_names[msg.kind],
- gras_socket_peer_name(msg.expe), gras_socket_peer_port(msg.expe));
+ xbt_socket_peer_name(msg.expe), xbt_socket_peer_port(msg.expe));
xbt_dynar_push(pd->msg_waitqueue, &msg);
return; /* FIXME: maybe we should call ourselves again until the end of the timer or a proper msg is got */
}
ran_ok = 0;
TRY {
xbt_dynar_foreach(list->cbs, cpt, cb) {
+ volatile unsigned int cpt2 = cpt;
if (!ran_ok) {
XBT_DEBUG
- ("Use the callback #%d (@%p) for incomming msg '%s' (payload_size=%d)",
+ ("Use the callback #%u (@%p) for incoming msg '%s' (payload_size=%d)",
cpt + 1, cb, msg.type->name, msg.payl_size);
- if (!(*cb) (&ctx, msg.payl)) {
+ if (!cb(&ctx, msg.payl)) {
/* cb handled the message */
free(msg.payl);
ran_ok = 1;
}
}
+ cpt = cpt2;
}
}
CATCH(e) {
e.host = (char *) gras_os_myname();
xbt_ex_setup_backtrace(&e);
}
- XBT_INFO
+ XBT_VERB
("Propagate %s exception ('%s') from '%s' RPC cb back to %s:%d",
(e.remote ? "remote" : "local"), e.msg, msg.type->name,
- gras_socket_peer_name(msg.expe),
- gras_socket_peer_port(msg.expe));
+ xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_port(msg.expe));
if (XBT_LOG_ISENABLED(gras_msg, xbt_log_priority_verbose))
xbt_ex_display(&e);
gras_msg_send_ext(msg.expe, e_gras_msg_kind_rpcerror,
ctx.answer_due = 0;
ran_ok = 1;
} else {
- RETHROW4
- ("Callback #%d (@%p) to message '%s' (payload size: %d) raised an exception: %s",
+ RETHROWF
+ ("Callback #%u (@%p) to message '%s' (payload size: %d) raised an exception: %s",
cpt + 1, cb, msg.type->name, msg.payl_size);
}
}
- xbt_assert1(!ctx.answer_due,
+ xbt_assert(!ctx.answer_due,
"Bug in user code: RPC callback to message '%s' didn't call gras_msg_rpcreturn",
msg.type->name);
if (ctx.answer_due)
"AND IN SIMGRID (process wasn't killed by an assert)",
msg.type->name);
if (!ran_ok)
- THROW1(mismatch_error, 0,
+ THROWF(mismatch_error, 0,
"Message '%s' refused by all registered callbacks (maybe your callback misses a 'return 0' at the end)",
msg.type->name);
- /* FIXME: gras_datadesc_free not implemented => leaking the payload */
+ /* FIXME: xbt_datadesc_free not implemented => leaking the payload */
break;
case e_gras_msg_kind_rpcanswer:
XBT_INFO("Unexpected RPC answer discarded (type: %s; from:%s:%d)",
- msg.type->name, gras_socket_peer_name(msg.expe),
- gras_socket_peer_port(msg.expe));
+ msg.type->name, xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_port(msg.expe));
XBT_WARN
- ("FIXME: gras_datadesc_free not implemented => leaking the payload");
+ ("FIXME: xbt_datadesc_free not implemented => leaking the payload");
return;
case e_gras_msg_kind_rpcerror:
XBT_INFO("Unexpected RPC error discarded (type: %s; from:%s:%d)",
- msg.type->name, gras_socket_peer_name(msg.expe),
- gras_socket_peer_port(msg.expe));
+ msg.type->name, xbt_socket_peer_name(msg.expe),
+ xbt_socket_peer_port(msg.expe));
XBT_WARN
- ("FIXME: gras_datadesc_free not implemented => leaking the payload");
+ ("FIXME: xbt_datadesc_free not implemented => leaking the payload");
return;
default:
- THROW1(unknown_error, 0,
- "Cannot handle messages of kind %d yet", msg.type->kind);
+ THROWF(unknown_error, 0,
+ "Cannot handle messages of kind %d yet", (int)msg.type->kind);
}
}