/* messaging - Function related to messaging (code shared between RL and SG)*/
-/* Authors: Martin Quinson */
-/* Copyright (C) 2003 the OURAGAN project. */
+/* Copyright (c) 2003, 2004 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. */
+ * under the terms of the license (GNU LGPL) which comes with this package. */
-#include "Msg/msg_private.h"
+#include "xbt/ex.h"
+#include "xbt/ex_interface.h"
+#include "gras/Msg/msg_private.h"
+#include "gras/Virtu/virtu_interface.h"
+#include "gras/DataDesc/datadesc_interface.h"
+#include "gras/Transport/transport_interface.h" /* gras_select */
+#include "portable.h" /* execinfo when available to propagate exceptions */
-GRAS_LOG_NEW_DEFAULT_SUBCATEGORY(msg,GRAS);
+#ifndef MIN
+#define MIN(a,b) ((a) < (b) ? (a) : (b))
+#endif
-gras_set_t *_gras_msgtype_set = NULL;
-static char GRAS_header[6];
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(gras_msg,gras,"High level messaging");
+
+xbt_set_t _gras_msgtype_set = NULL;
static char *make_namev(const char *name, short int ver);
+char _GRAS_header[6];
+const char *e_gras_msg_kind_names[e_gras_msg_kind_count]=
+ {"UNKNOWN","ONEWAY","RPC call","RPC answer","RPC error"};
-/**
- * gras_msg_init:
- *
+/*
+ * Creating procdata for this module
+ */
+static void *gras_msg_procdata_new() {
+ gras_msg_procdata_t res = xbt_new(s_gras_msg_procdata_t,1);
+
+ res->name = xbt_strdup("gras_msg");
+ res->name_len = 0;
+ res->msg_queue = xbt_dynar_new(sizeof(s_gras_msg_t), NULL);
+ res->cbl_list = xbt_dynar_new(sizeof(gras_cblist_t *),gras_cbl_free);
+ res->timers = xbt_dynar_new(sizeof(s_gras_timer_t), NULL);
+
+ return (void*)res;
+}
+
+/*
+ * Freeing procdata for this module
+ */
+static void gras_msg_procdata_free(void *data) {
+ gras_msg_procdata_t res = (gras_msg_procdata_t)data;
+
+ xbt_dynar_free(&( res->msg_queue ));
+ xbt_dynar_free(&( res->cbl_list ));
+ xbt_dynar_free(&( res->timers ));
+
+ free(res->name);
+ free(res);
+}
+
+/*
+ * Module registration
+ */
+int gras_msg_libdata_id;
+void gras_msg_register() {
+ gras_msg_libdata_id = gras_procdata_add("gras_msg",gras_msg_procdata_new, gras_msg_procdata_free);
+}
+
+/*
* Initialize this submodule.
*/
void gras_msg_init(void) {
- gras_error_t errcode;
-
/* only initialize once */
if (_gras_msgtype_set != NULL)
return;
VERB0("Initializing Msg");
- TRYFAIL(gras_set_new(&_gras_msgtype_set));
+ _gras_msgtype_set = xbt_set_new();
- memcpy(GRAS_header,"GRAS", 4);
- GRAS_header[4]=GRAS_PROTOCOL_VERSION;
- GRAS_header[5]=(char)GRAS_THISARCH;
+ memcpy(_GRAS_header,"GRAS", 4);
+ _GRAS_header[4]=GRAS_PROTOCOL_VERSION;
+ _GRAS_header[5]=(char)GRAS_THISARCH;
}
-/**
- * gras_msg_exit:
- *
+/*
* Finalize the msg module
- **/
+ */
void
gras_msg_exit(void) {
VERB0("Exiting Msg");
- gras_set_free(&_gras_msgtype_set);
- _gras_msgtype_set = NULL;
+ xbt_set_free(&_gras_msgtype_set);
}
-/**
- * gras_msgtype_free:
- *
+/*
* Reclamed memory
*/
void gras_msgtype_free(void *t) {
- gras_msgtype_t *msgtype=(gras_msgtype_t *)t;
+ gras_msgtype_t msgtype=(gras_msgtype_t)t;
if (msgtype) {
free(msgtype->name);
free(msgtype);
if (!ver)
return (char *)name;
- namev = malloc(strlen(name)+2+3+1);
+ namev = (char*)xbt_malloc(strlen(name)+2+3+1);
- if (namev) {
+ if (namev)
sprintf(namev,"%s_v%d",name,ver);
- }
+
return namev;
}
-/**
- * gras_msgtype_declare:
- * @name: name as it should be used for logging messages (must be uniq)
- * @payload: datadescription of the payload
- *
- * Registers a message to the GRAS mecanism.
- */
-gras_error_t
-gras_msgtype_declare(const char *name,
- gras_datadesc_type_t *payload) {
- return gras_msgtype_declare_v(name, 0, payload);
-}
+/* Internal function doing the crude work of registering messages */
+void
+gras_msgtype_declare_ext(const char *name,
+ short int version,
+ e_gras_msg_kind_t kind,
+ gras_datadesc_type_t payload_request,
+ gras_datadesc_type_t payload_answer) {
-/**
- * gras_msgtype_declare_v:
- * @name: name as it should be used for logging messages (must be uniq)
- * @version: something like versionning symbol
- * @payload: datadescription of the payload
- *
- * Registers a message to the GRAS mecanism. Use this version instead of
- * gras_msgtype_declare when you change the semantic or syntax of a message and
- * want your programs to be able to deal with both versions. Internally, each
- * will be handled as an independent message type, so you can register
- * differents for each of them.
- */
-gras_error_t
-gras_msgtype_declare_v(const char *name,
- short int version,
- gras_datadesc_type_t *payload) {
-
- gras_error_t errcode;
- gras_msgtype_t *msgtype;
+ gras_msgtype_t msgtype=NULL;
char *namev=make_namev(name,version);
+ volatile int found = 0;
+ xbt_ex_t e;
- if (!namev)
- RAISE_MALLOC;
-
- errcode = gras_set_get_by_name(_gras_msgtype_set,
- namev,(gras_set_elm_t**)&msgtype);
+ TRY {
+ msgtype = (gras_msgtype_t)xbt_set_get_by_name(_gras_msgtype_set,namev);
+ found = 1;
+ } CATCH(e) {
+ if (e.category != not_found_error)
+ RETHROW;
+ xbt_ex_free(e);
+ }
- if (errcode == no_error) {
- VERB2("Re-register version %d of message '%s' (same payload, ignored).",
+ if (found) {
+ VERB2("Re-register version %d of message '%s' (same kind & payload, ignored).",
version, name);
- gras_assert3(!gras_datadesc_type_cmp(msgtype->ctn_type, payload),
+ xbt_assert3(msgtype->kind == kind,
+ "Message %s re-registered as a %s (it was known as a %s)",
+ namev,e_gras_msg_kind_names[kind],e_gras_msg_kind_names[msgtype->kind]);
+ xbt_assert3(!gras_datadesc_type_cmp(msgtype->ctn_type, payload_request),
"Message %s re-registred with another payload (%s was %s)",
- namev,gras_datadesc_get_name(payload),
+ namev,gras_datadesc_get_name(payload_request),
gras_datadesc_get_name(msgtype->ctn_type));
- } else if (errcode == mismatch_error) {
- INFO3("Register version %d of message '%s' (payload: %s).",
- version, name, gras_datadesc_get_name(payload));
- } else {
- return errcode; /* Was expecting for mismatch_error */
+
+ xbt_assert3(!gras_datadesc_type_cmp(msgtype->answer_type, payload_answer),
+ "Message %s re-registred with another answer payload (%s was %s)",
+ namev,gras_datadesc_get_name(payload_answer),
+ gras_datadesc_get_name(msgtype->answer_type));
+
+ return ; /* do really ignore it */
+
}
- /* create type anyway so that the old type gets removed from here, and
- hopefully free'd when ref counter gets 0 */
- if (! (msgtype = malloc(sizeof(gras_msgtype_t))) )
- RAISE_MALLOC;
+ VERB4("Register version %d of message '%s' "
+ "(payload: %s; answer payload: %s).",
+ version, name, gras_datadesc_get_name(payload_request),
+ gras_datadesc_get_name(payload_answer));
+ msgtype = xbt_new(s_gras_msgtype_t,1);
msgtype->name = (namev == name ? strdup(name) : namev);
msgtype->name_len = strlen(namev);
msgtype->version = version;
- msgtype->ctn_type = payload;
- gras_datadesc_addref(payload);
+ msgtype->kind = kind;
+ msgtype->ctn_type = payload_request;
+ msgtype->answer_type = payload_answer;
- TRY(gras_set_add(_gras_msgtype_set, (gras_set_elm_t*)msgtype,
- &gras_msgtype_free));
-
- return no_error;
+ xbt_set_add(_gras_msgtype_set, (xbt_set_elm_t)msgtype,
+ &gras_msgtype_free);
}
-/**
- * gras_msgtype_by_name:
+
+/** @brief declare a new message type of the given name. It only accepts the given datadesc as payload
*
- * Retrieve a datatype description from its name
+ * @param name: name as it should be used for logging messages (must be uniq)
+ * @param payload: datadescription of the payload
*/
-gras_error_t
-gras_msgtype_by_name (const char *name,
- gras_msgtype_t **dst) {
- return gras_msgtype_by_namev(name,0,dst);
+void gras_msgtype_declare(const char *name,
+ gras_datadesc_type_t payload) {
+ gras_msgtype_declare_ext(name, 0, e_gras_msg_kind_oneway, payload, NULL);
}
-/**
- * gras_msgtype_by_namev:
- *
- * Retrieve a datatype description from its name and version
- */
-gras_error_t
-gras_msgtype_by_namev(const char *name,
- short int version,
- gras_msgtype_t **dst) {
- gras_error_t errcode;
- char *namev = make_namev(name,version);
- errcode = gras_set_get_by_name(_gras_msgtype_set, namev,
- (gras_set_elm_t**)dst);
- if (name != namev)
- free(namev);
- return errcode;
-}
-
-/**
- * gras_msg_send:
+/** @brief declare a new versionned message type of the given name and payload
*
- * Send the given message on the given socket
+ * @param name: name as it should be used for logging messages (must be uniq)
+ * @param version: something like versionning symbol
+ * @param payload: datadescription of the payload
+ *
+ * Registers a message to the GRAS mechanism. Use this version instead of
+ * gras_msgtype_declare when you change the semantic or syntax of a message and
+ * want your programs to be able to deal with both versions. Internally, each
+ * will be handled as an independent message type, so you can register
+ * differents for each of them.
*/
-gras_error_t
-gras_msg_send(gras_socket_t *sock,
- gras_msgtype_t *msgtype,
- void *payload) {
-
- gras_error_t errcode;
- static gras_datadesc_type_t *string_type=NULL;
- if (!string_type) {
- string_type = gras_datadesc_by_name("string");
- gras_assert(string_type);
- }
-
- DEBUG3("send '%s' to %s:%d", msgtype->name,
- gras_socket_peer_name(sock),gras_socket_peer_port(sock));
- TRY(gras_trp_chunk_send(sock, GRAS_header, 6));
-
- TRY(gras_datadesc_send(sock, string_type, &msgtype->name));
- TRY(gras_datadesc_send(sock, msgtype->ctn_type, payload));
+void
+gras_msgtype_declare_v(const char *name,
+ short int version,
+ gras_datadesc_type_t payload) {
+
+ gras_msgtype_declare_ext(name, version,
+ e_gras_msg_kind_oneway, payload, NULL);
+}
- return no_error;
+/** @brief retrieve an existing message type from its name. */
+gras_msgtype_t gras_msgtype_by_name (const char *name) {
+ return gras_msgtype_by_namev(name,0);
}
-/**
- * gras_msg_recv:
- *
- * receive the next message on the given socket.
- */
-gras_error_t
-gras_msg_recv(gras_socket_t *sock,
- gras_msgtype_t **msgtype,
- void **payload,
- int *payload_size) {
-
- gras_error_t errcode;
- static gras_datadesc_type_t *string_type=NULL;
- char header[6];
- int cpt;
- int r_arch;
- char *msg_name=NULL;
- if (!string_type) {
- string_type=gras_datadesc_by_name("string");
- gras_assert(string_type);
+/** @brief retrieve an existing message type from its name and version. */
+gras_msgtype_t gras_msgtype_by_namev(const char *name,
+ short int version) {
+ gras_msgtype_t res = NULL;
+ char *namev = make_namev(name,version);
+ xbt_ex_t e;
+
+ TRY {
+ res = (gras_msgtype_t)xbt_set_get_by_name(_gras_msgtype_set, namev);
+ } CATCH(e) {
+ xbt_ex_free(e);
+ THROW1(not_found_error,0,"No registred message of that name: %s",name);
}
+ if (name != namev)
+ free(namev);
- TRY(gras_trp_chunk_recv(sock, header, 6));
- for (cpt=0; cpt<4; cpt++)
- if (header[cpt] != GRAS_header[cpt])
- RAISE0(mismatch_error,"Incoming bytes do not look like a GRAS message");
- if (header[4] != GRAS_header[4])
- RAISE2(mismatch_error,"GRAS protocol mismatch (got %d, use %d)",
- (int)header[4], (int)GRAS_header[4]);
- r_arch = (int)header[5];
- DEBUG2("Handle an incoming message using protocol %d (remote is %s)",
- (int)header[4],gras_datadesc_arch_name(r_arch));
-
- TRY(gras_datadesc_recv(sock, string_type, r_arch, &msg_name));
- TRY(gras_set_get_by_name(_gras_msgtype_set,
- msg_name,(gras_set_elm_t**)msgtype));
- free(msg_name);
-
- *payload_size=gras_datadesc_size((*msgtype)->ctn_type);
- gras_assert2(*payload_size > 0,
- "%s %s",
- "Dynamic array as payload is forbided for now (FIXME?).",
- "Reference to dynamic array is allowed.");
- *payload = malloc(*payload_size);
- TRY(gras_datadesc_recv(sock, (*msgtype)->ctn_type, r_arch, *payload));
-
- return no_error;
+ return res;
+}
+/** @brief retrieve an existing message type from its name and version. */
+gras_msgtype_t gras_msgtype_by_id(int id) {
+ return (gras_msgtype_t)xbt_set_get_by_id(_gras_msgtype_set, id);
}
-/**
- * gras_msg_wait:
- * @timeout: How long should we wait for this message.
- * @id: id of awaited msg
- * @Returns: the error code (or no_error).
+/** \brief Waits for a message to come in over a given socket.
*
- * Waits for a message to come in over a given socket.
+ * @param timeout: How long should we wait for this message.
+ * @param msgt_want: type of awaited msg (or NULL if I'm enclined to accept any message)
+ * @param expe_want: awaited expeditot (match on hostname, not port; NULL if not relevant)
+ * @param filter: function returning true or false when passed a payload. Messages for which it returns false are not selected. (NULL if not relevant)
+ * @param filter_ctx: context passed as second argument of the filter (a pattern to match?)
+ * @param[out] msg_got: where to write the message we got
*
* Every message of another type received before the one waited will be queued
- * and used by subsequent call to this function or MsgHandle().
+ * and used by subsequent call to this function or gras_msg_handle().
*/
-gras_error_t
-gras_msg_wait(double timeout,
- gras_msgtype_t *msgt_want,
- gras_socket_t **expeditor,
- void *payload) {
-
- gras_msgtype_t *msgt_got;
- void *payload_got;
- int payload_size_got;
- gras_error_t errcode;
+
+void
+gras_msg_wait_ext(double timeout,
+
+ gras_msgtype_t msgt_want,
+ gras_socket_t expe_want,
+ gras_msg_filter_t filter,
+ void *filter_ctx,
+
+ gras_msg_t msg_got) {
+
+ s_gras_msg_t msg;
double start, now;
- gras_procdata_t *pd=gras_procdata_get();
+ gras_msg_procdata_t pd=(gras_msg_procdata_t)gras_libdata_by_id(gras_msg_libdata_id);
int cpt;
- gras_msg_t msg;
-
- *expeditor = NULL;
- payload_got = NULL;
- VERB1("Waiting for message %s",msgt_want->name);
+ xbt_assert0(msg_got,"msg_got is an output parameter");
+
+ start = gras_os_time();
+ VERB1("Waiting for message '%s'",msgt_want?msgt_want->name:"(any)");
- start = now = gras_os_time();
+ 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))))
+ && (!filter || filter(&msg,filter_ctx))) {
- gras_dynar_foreach(pd->msg_queue,cpt,msg){
- if (msg.type->code == msgt_want->code) {
- *expeditor = msg.expeditor;
- memcpy(payload, msg.payload, msg.payload_size);
- free(msg.payload);
- gras_dynar_cursor_rm(pd->msg_queue, &cpt);
+ memcpy(msg_got,&msg,sizeof(s_gras_msg_t));
+ xbt_dynar_cursor_rm(pd->msg_queue, &cpt);
VERB0("The waited message was queued");
- return no_error;
+ return;
}
}
while (1) {
- TRY(gras_trp_select(timeout - now + start, expeditor));
- TRY(gras_msg_recv(*expeditor, &msgt_got, &payload_got, &payload_size_got));
- if (msgt_got->code == msgt_want->code) {
- memcpy(payload, payload_got, payload_size_got);
- free(payload_got);
- VERB0("Got waited message");
- return no_error;
+ int need_restart;
+ xbt_ex_t e;
+
+ restart_receive: /* Goto here when the receive of a message failed */
+ need_restart=0;
+ now=gras_os_time();
+ memset(&msg,sizeof(msg),0);
+
+ TRY {
+ msg.expe = gras_trp_select(timeout ? timeout - now + start : 0);
+ gras_msg_recv(msg.expe, &msg);
+ } CATCH(e) {
+ if (e.category == system_error &&
+ !strncmp("Socket closed by remote side",e.msg,
+ strlen("Socket closed by remote side"))) {
+ xbt_ex_free(e);
+ need_restart=1;
+ } else {
+ RETHROW;
+ }
+ }
+ if (need_restart)
+ goto restart_receive;
+
+ DEBUG0("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))))
+ && (!filter || filter(&msg,filter_ctx))) {
+
+ memcpy(msg_got,&msg,sizeof(s_gras_msg_t));
+ DEBUG0("Message matches expectations. Use it.");
+ return;
}
+ DEBUG0("Message does not match expectations. Queue it.");
/* not expected msg type. Queue it for later */
- msg.expeditor = *expeditor;
- msg.type = msgt_got;
- msg.payload = payload;
- msg.payload_size = payload_size_got;
- TRY(gras_dynar_push(pd->msg_queue,&msg));
+ xbt_dynar_push(pd->msg_queue,&msg);
now=gras_os_time();
- if (now - start + 0.001 < timeout) {
- RAISE1(timeout_error,"Timeout while waiting for msg %s",msgt_want->name);
+ if (now - start + 0.001 > timeout) {
+ THROW1(timeout_error, now-start+0.001-timeout,
+ "Timeout while waiting for msg '%s'",
+ msgt_want?msgt_want->name:"(any)");
}
}
- RAISE_IMPOSSIBLE;
+ THROW_IMPOSSIBLE;
+}
+/** \brief Waits for a message to come in over a given socket.
+ *
+ * @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
+ * @return the error code (or no_error).
+ *
+ * Every message of another type received before the one waited will be queued
+ * and used by subsequent call to this function or gras_msg_handle().
+ */
+void
+gras_msg_wait(double timeout,
+ gras_msgtype_t msgt_want,
+ gras_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,
+ "Message type '%s' convey a payload you must accept",
+ msgt_want->name);
+ } else {
+ xbt_assert1(!payload,
+ "No payload was declared for message type '%s'",
+ msgt_want->name);
+ }
+
+ if (payload) {
+ memcpy(payload,msg.payl,msg.payl_size);
+ free(msg.payl);
+ }
+
+ if (expeditor)
+ *expeditor = msg.expe;
}
-/**
- * gras_msg_handle:
- * @timeOut: How long to wait for incoming messages
- * @Returns: the error code (or no_error).
+static int gras_msg_wait_or_filter(gras_msg_t msg, void *ctx) {
+ xbt_dynar_t dyn=(xbt_dynar_t)ctx;
+ int res = xbt_dynar_member(dyn,msg->type);
+ if (res)
+ VERB1("Got matching message (type=%s)",msg->type->name);
+ else
+ VERB0("Got message not matching our expectations");
+ return res;
+}
+/** \brief Waits for a message to come in over a given socket.
+ *
+ * @param timeout: How long should we wait for this message.
+ * @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
+ * @return the error code (or no_error).
+ *
+ * Every message of a type not in the accepted list received before the one
+ * waited will be queued and used by subsequent call to this function or
+ * gras_msg_handle().
*
- * Waits up to #timeOut# seconds to see if a message comes in; if so, calls the
- * registered listener for that message (see RegisterCallback()).
+ * If you are interested in the context, pass the address of a s_gras_msg_cb_ctx_t variable.
*/
-gras_error_t
-gras_msg_handle(double timeOut) {
-
- gras_error_t errcode;
- int cpt;
+void gras_msg_wait_or(double timeout,
+ xbt_dynar_t msgt_want,
+ gras_msg_cb_ctx_t *ctx,
+ int *msgt_got,
+ void *payload) {
+ s_gras_msg_t msg;
+
+ VERB1("Wait %f seconds for several message types",timeout);
+ gras_msg_wait_ext(timeout,
+ NULL, NULL,
+ &gras_msg_wait_or_filter, (void*)msgt_want,
+ &msg);
+
+ if (msg.type->ctn_type) {
+ xbt_assert1(payload,
+ "Message type '%s' convey a payload you must accept",
+ msg.type->name);
+ } /* don't check the other side since some of the types may have a payload */
+
+ if (payload && msg.type->ctn_type) {
+ memcpy(payload,msg.payl,msg.payl_size);
+ free(msg.payl);
+ }
+
+ if (ctx)
+ *ctx=gras_msg_cb_ctx_new(msg.expe,msg.type,msg.ID,60);
+
+ if (msgt_got)
+ *msgt_got = xbt_dynar_search(msgt_want,msg.type);
+}
- gras_msg_t msg;
- gras_socket_t *expeditor;
- void *payload=NULL;
- int payload_size;
- gras_msgtype_t *msgtype;
- gras_procdata_t*pd=gras_procdata_get();
- gras_cblist_t *list;
- gras_cb_t cb;
+/** \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) {
+
+ if (msgtype->ctn_type) {
+ xbt_assert1(payload,
+ "Message type '%s' convey a payload you must provide",
+ msgtype->name);
+ } else {
+ xbt_assert1(!payload,
+ "No payload was declared for message type '%s'",
+ msgtype->name);
+ }
+
+ DEBUG2("Send a oneway message of type '%s'. Payload=%p",
+ msgtype->name,payload);
+ gras_msg_send_ext(sock, e_gras_msg_kind_oneway,0, msgtype, payload);
+ VERB2("Sent a oneway message of type '%s'. Payload=%p",
+ msgtype->name,payload);
+}
+
+/** @brief Handle all messages arriving within the given period
+ *
+ * @param period: How long to wait for incoming messages (in seconds)
+ *
+ * Messages are dealed with just like gras_msg_handle() would do. The
+ * difference is that gras_msg_handle() handles at most one message (or wait up
+ * to timeout second when no message arrives) while this function handles any
+ * amount of messages, and lasts the given period in any case.
+ */
+void
+gras_msg_handleall(double period) {
+ xbt_ex_t e;
+ double begin=gras_os_time();
+ double now;
+
+ do {
+ now=gras_os_time();
+ TRY{
+ if (period - now + begin > 0)
+ gras_msg_handle(period - now + begin);
+ } CATCH(e) {
+ if (e.category != timeout_error)
+ RETHROW0("Error while waiting for messages: %s");
+ xbt_ex_free(e);
+ }
+ } while (now - begin < period);
+}
+
+/** @brief Handle an incomming 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).
+ *
+ * Messages are passed to the callbacks. See also gras_msg_handleall().
+ */
+void
+gras_msg_handle(double timeOut) {
+
+ double untiltimer;
+
+ int cpt, ran_ok;
+ s_gras_msg_t msg;
+ gras_msg_procdata_t pd=(gras_msg_procdata_t)gras_libdata_by_id(gras_msg_libdata_id);
+ gras_cblist_t *list=NULL;
+ gras_msg_cb_t cb;
+ s_gras_msg_cb_ctx_t ctx;
+
+ int timerexpected, timeouted;
+ xbt_ex_t e;
VERB1("Handling message within the next %.2fs",timeOut);
+ untiltimer = gras_msg_timer_handle();
+ DEBUG1("Next timer in %f sec", untiltimer);
+ if (untiltimer == 0.0) {
+ /* A timer was already elapsed and handled */
+ return;
+ }
+ if (untiltimer != -1.0) {
+ timerexpected = 1;
+ timeOut = MIN(timeOut, untiltimer);
+ } else {
+ timerexpected = 0;
+ }
+
/* get a message (from the queue or from the net) */
- if (gras_dynar_length(pd->msg_queue)) {
- gras_dynar_shift(pd->msg_queue,&msg);
- expeditor = msg.expeditor;
- msgtype = msg.type;
- payload = msg.payload;
-
+ timeouted = 0;
+ if (xbt_dynar_length(pd->msg_queue)) {
+ DEBUG0("Get a message from the queue");
+ xbt_dynar_shift(pd->msg_queue,&msg);
} else {
- TRY(gras_trp_select(timeOut, &expeditor));
- TRY(gras_msg_recv(expeditor, &msgtype, &payload, &payload_size));
+ TRY {
+ msg.expe = gras_trp_select(timeOut);
+ } CATCH(e) {
+ if (e.category != timeout_error)
+ RETHROW;
+ xbt_ex_free(e);
+ timeouted = 1;
+ }
+
+ if (!timeouted) {
+ TRY {
+ /* FIXME: if not the right kind, queue it and recall ourself or goto >:-) */
+ gras_msg_recv(msg.expe, &msg);
+ DEBUG1("Received a msg from the socket kind:%s",
+ e_gras_msg_kind_names[msg.kind]);
+
+ } CATCH(e) {
+ RETHROW4("Error while receiving a message on select()ed socket %p to [%s]%s:%d: %s",
+ msg.expe,
+ gras_socket_peer_proc(msg.expe),gras_socket_peer_name(msg.expe),
+ gras_socket_peer_port(msg.expe));
+ }
+ }
}
-
- /* handle it */
- gras_dynar_foreach(pd->cbl_list,cpt,list) {
- if (list->id == msgtype->code) {
+
+ if (timeouted) {
+ if (timerexpected) {
+
+ /* A timer elapsed before the arrival of any message even if we select()ed a bit */
+ untiltimer = gras_msg_timer_handle();
+ if (untiltimer == 0.0) {
+ /* we served a timer, we're done */
+ return;
+ } else {
+ xbt_assert1(untiltimer>0, "Negative timer (%f). I'm 'puzzeled'", untiltimer);
+ WARN1("No timer elapsed, in contrary to expectations (next in %f sec)",
+ untiltimer);
+ THROW1(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)",
+ timeOut);
+ }
+
+ }
+
+ /* A message was already there or arrived in the meanwhile. handle it */
+ xbt_dynar_foreach(pd->cbl_list,cpt,list) {
+ if (list->id == msg.type->code) {
break;
} else {
list=NULL;
}
}
if (!list) {
- INFO1("No callback for the incomming '%s' message. Discarded.",
- msgtype->name);
+ INFO3("No callback for the incomming '%s' message (from %s:%d). Discarded.",
+ msg.type->name,
+ gras_socket_peer_name(msg.expe),gras_socket_peer_port(msg.expe));
WARN0("FIXME: gras_datadesc_free not implemented => leaking the payload");
- return no_error;
+ return;
}
- gras_dynar_foreach(list->cbs,cpt,cb) {
- INFO3("Invoque the callback #%d (@%p) for incomming msg %s",
- cpt+1,cb,msgtype->name);
- if ((*cb)(expeditor,payload)) {
- /* cb handled the message */
- free(payload);
- return no_error;
+ ctx.expeditor = msg.expe;
+ ctx.ID = msg.ID;
+ ctx.msgtype = msg.type;
+
+ switch (msg.kind) {
+ case e_gras_msg_kind_oneway:
+ case e_gras_msg_kind_rpccall:
+ ran_ok=0;
+ TRY {
+ xbt_dynar_foreach(list->cbs,cpt,cb) {
+ if (!ran_ok) {
+ DEBUG4("Use the callback #%d (@%p) for incomming msg %s (payload_size=%d)",
+ cpt+1,cb,msg.type->name,msg.payl_size);
+ if ((*cb)(&ctx,msg.payl)) {
+ /* cb handled the message */
+ free(msg.payl);
+ ran_ok = 1;
+ }
+ }
+ }
+ } CATCH(e) {
+ free(msg.payl);
+ if (msg.type->kind == e_gras_msg_kind_rpccall) {
+ /* The callback raised an exception, propagate it on the network */
+ if (!e.remote) { /* the exception is born on this machine */
+ e.host = (char*)gras_os_myname();
+ xbt_ex_setup_backtrace(&e);
+ }
+ VERB5("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));
+ gras_msg_send_ext(msg.expe, e_gras_msg_kind_rpcerror,
+ msg.ID, msg.type, &e);
+ xbt_ex_free(e);
+ ran_ok=1;
+ } else {
+ RETHROW0("Callback raised an exception: %s");
+ }
}
+ if (!ran_ok)
+ THROW1(mismatch_error,0,
+ "Message '%s' refused by all registered callbacks", msg.type->name);
+ /* FIXME: gras_datadesc_free not implemented => leaking the payload */
+ break;
+
+
+ case e_gras_msg_kind_rpcanswer:
+ INFO1("Unexpected RPC answer discarded (type: %s)", msg.type->name);
+ WARN0("FIXME: gras_datadesc_free not implemented => leaking the payload");
+ return;
+
+ case e_gras_msg_kind_rpcerror:
+ INFO1("Unexpected RPC error discarded (type: %s)", msg.type->name);
+ WARN0("FIXME: gras_datadesc_free not implemented => leaking the payload");
+ return;
+
+ default:
+ THROW1(unknown_error,0,
+ "Cannot handle messages of kind %d yet",msg.type->kind);
}
- INFO1("Message '%s' refused by all registered callbacks", msgtype->name);
- WARN0("FIXME: gras_datadesc_free not implemented => leaking the payload");
- return mismatch_error;
}
void
gras_cbl_free(void *data){
gras_cblist_t *list=*(void**)data;
if (list) {
- gras_dynar_free(list->cbs);
+ xbt_dynar_free(&( list->cbs ));
free(list);
}
}
-gras_error_t
-gras_cb_register(gras_msgtype_t *msgtype,
- gras_cb_t cb) {
- gras_error_t errcode;
- gras_procdata_t *pd=gras_procdata_get();
+/** \brief Bind the given callback to the given message type
+ *
+ * Several callbacks can be attached to a given message type. The lastly added one will get the message first, and
+ * if it returns false, the message will be passed to the second one.
+ * And so on until one of the callbacks accepts the message.
+ */
+void
+gras_cb_register(gras_msgtype_t msgtype,
+ gras_msg_cb_t cb) {
+ gras_msg_procdata_t pd=(gras_msg_procdata_t)gras_libdata_by_id(gras_msg_libdata_id);
gras_cblist_t *list=NULL;
int cpt;
- DEBUG2("Register %p as callback to %s",cb,msgtype->name);
+ DEBUG2("Register %p as callback to '%s'",cb,msgtype->name);
/* search the list of cb for this message on this host (creating if NULL) */
- gras_dynar_foreach(pd->cbl_list,cpt,list) {
+ xbt_dynar_foreach(pd->cbl_list,cpt,list) {
if (list->id == msgtype->code) {
break;
} else {
}
if (!list) {
/* First cb? Create room */
- list = malloc(sizeof(gras_cblist_t));
- if (!list)
- RAISE_MALLOC;
-
+ list = xbt_new(gras_cblist_t,1);
list->id = msgtype->code;
- TRY(gras_dynar_new(&(list->cbs), sizeof(gras_cb_t), NULL));
- TRY(gras_dynar_push(pd->cbl_list,&list));
+ list->cbs = xbt_dynar_new(sizeof(gras_msg_cb_t), NULL);
+ xbt_dynar_push(pd->cbl_list,&list);
}
/* Insert the new one into the set */
- TRY(gras_dynar_insert_at(list->cbs,0,&cb));
-
- return no_error;
+ xbt_dynar_insert_at(list->cbs,0,&cb);
}
+/** \brief Unbind the given callback from the given message type */
void
-gras_cb_unregister(gras_msgtype_t *msgtype,
- gras_cb_t cb) {
+gras_cb_unregister(gras_msgtype_t msgtype,
+ gras_msg_cb_t cb) {
- gras_procdata_t *pd=gras_procdata_get();
+ gras_msg_procdata_t pd=(gras_msg_procdata_t)gras_libdata_by_id(gras_msg_libdata_id);
gras_cblist_t *list;
- gras_cb_t cb_cpt;
+ gras_msg_cb_t cb_cpt;
int cpt;
int found = 0;
/* search the list of cb for this message on this host */
- gras_dynar_foreach(pd->cbl_list,cpt,list) {
+ xbt_dynar_foreach(pd->cbl_list,cpt,list) {
if (list->id == msgtype->code) {
break;
} else {
/* Remove it from the set */
if (list) {
- gras_dynar_foreach(list->cbs,cpt,cb_cpt) {
+ xbt_dynar_foreach(list->cbs,cpt,cb_cpt) {
if (cb == cb_cpt) {
- gras_dynar_cursor_rm(list->cbs, &cpt);
+ xbt_dynar_cursor_rm(list->cbs, &cpt);
found = 1;
}
}
VERB1("Ignoring removal of unexisting callback to msg id %d",
msgtype->code);
}
+
+/** \brief Retrieve the expeditor of the message */
+gras_socket_t gras_msg_cb_ctx_from(gras_msg_cb_ctx_t ctx) {
+ return ctx->expeditor;
+}
+/* \brief Creates a new message exchange context (user should never have to) */
+gras_msg_cb_ctx_t gras_msg_cb_ctx_new(gras_socket_t expe,
+ gras_msgtype_t msgtype,
+ unsigned long int ID,
+ double timeout) {
+ gras_msg_cb_ctx_t res=xbt_new(s_gras_msg_cb_ctx_t,1);
+ res->expeditor = expe;
+ res->msgtype = msgtype;
+ res->ID = ID;
+ res->timeout = timeout;
+ return res;
+}
+/* \brief Frees a message exchange context
+ *
+ * This function is mainly useful with \ref gras_msg_wait_or, ie seldom.
+ */
+void gras_msg_cb_ctx_free(gras_msg_cb_ctx_t ctx) {
+ free(ctx);
+}