*
* @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
* @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
} 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).
volatile unsigned int cpt2 = cpt;
if (!ran_ok) {
XBT_DEBUG
- ("Use the callback #%u (@%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)) {
/* cb handled the message */
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,
xbt_socket_peer_name(msg.expe),