/* mq.c Inbound message queues gSOAP XML Web services tools Copyright (C) 2000-2013, Robert van Engelen, Genivia Inc., All Rights Reserved. This part of the software is released under ONE of the following licenses: GPL, or the gSOAP public license, or Genivia's license for commercial use. -------------------------------------------------------------------------------- gSOAP public license. The contents of this file are subject to the gSOAP Public License Version 1.3 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.cs.fsu.edu/~engelen/soaplicense.html Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. The Initial Developer of the Original Code is Robert A. van Engelen. Copyright (C) 2000-2013, Robert van Engelen, Genivia Inc., All Rights Reserved. -------------------------------------------------------------------------------- GPL license. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Author contact information: engelen@genivia.com / engelen@acm.org This program is released under the GPL with the additional exemption that compiling, linking, and/or using OpenSSL is allowed. -------------------------------------------------------------------------------- A commercial use license is available from Genivia, Inc., contact@genivia.com -------------------------------------------------------------------------------- */ /** @mainpage - @ref mq_0 documents the inbound message queue plugin. */ /** @page mq_0 The mq plugin for inbound message queueing and message replay The inbound message queueing plugin can be used to queue messages that should not be discarded with the WS-RM protocol's NoDiscard behavior. Messages that are out of sequence as per WS-RM protocol and should be handled by one thread (or a thread pool) should be queued for later replay and service operation invocation. If an unlimited number of threads is available, the simplest WS-RM protocol NoDiscard behavior is implemented by starting a thread for each inbound message and letting the thread block with the soap_wsrm_check_and_wait() or soap_wsrm_check_send_empty_response_and_wait() calls. However, that approach is not efficient with HTTP keep-alive because the next messages on the keep-alive socket will be blocked from being processes. This plugin is designed to process messages on an HTTP keep-alive socket even when operations block. @section mq_1 Server-Side Queueing of One-Way Messages Queueing one-way messages for internal replay is implemented with the message queueing plugin as follows, by queueing inbound messages received on a single socket and then replaying them all in sequence as received from the socket: @code #include "mq.h" struct soap *soap = soap_new1(SOAP_IO_KEEPALIVE); soap_register_plugin(soap, soap_mq); ... // port bind etc ... while (soap_valid_socket(soap_accept(soap))) { // queue all messages on this socket (socket is HTTP keep alive) // for each message received, we send HTTP 202 Accepted struct ms_queue *queue = soap_mq_queue(soap); struct ms_msg *msg; while (soap_mq_get(soap, queue)) soap_send_empty_response(soap, 202); // 202 Accept // we now internally replay all messages to invoke services // services are assumed to NOT send a response message back // i.e. one-way operations for (msg = soap_mq_begin(queue); msg; msg = soap_mq_next(msg)) soap_serve(&msg->soap); // delete all queued messages, also calls these on each queued msg state: // soap_destroy(&msg->soap); // soap_end(&msg->soap); // soap_done(&msg->soap); soap_mq_del(queue, NULL); // delete the queue (allocated in current context) soap_destroy(soap); soap_end(soap); } @endcode Alternatively, it is also possible to call soap_mq_del(queue, msg) after soap_serve(&msg->soap) to immediately delete the message after processing (calling soap_mq_next(msg) next in the loop is still valid). @section mq_2 WS-RM Server-Side Message Queueing for NoDiscard Behavior with Callback Services When messages are controlled by the WS-ReliableMessaging protocol, we can keep the WS-RM messages in a queue that were received out of order until the order is restored and queued messages can be dispatched. This WS-RM behavior is desirable with WS-RM NoDiscard. To implement this approach, we use an inbound message queue for each socket accepted and processed by a thread. @code #include "wsaapi.h" #include "wsrmapi.h" #include "mq.h" #include "threads.h" struct soap *soap = soap_new1(SOAP_IO_KEEPALIVE); soap_register_plugin(soap, soap_wsa); soap_register_plugin(soap, soap_wsrm); soap_register_plugin(soap, soap_mq); ... // port bind etc ... while (soap_valid_socket(soap_accept(soap))) { THREAD_TYPE tid; struct soap *tsoap = soap_copy(soap); if (!tsoap) { soap_closesock(soap); continue; } THREAD_CREATE(&tid, (void*(*)(void*))process_request, (void*)tsoap); } void *process_request(void *tsoap) { struct soap *soap = (struct soap*)tsoap; struct ms_queue *queue = soap_mq_queue(soap); struct ms_msg *msg; struct soap ctx; while ((msg = soap_mq_get(soap, queue)) != NULL) { // parse the message headers, if NoDiscard then keep message in queue to retry later // copy the context, since we want to preserve the original to retry later soap_copy_context(&ctx, &msg->soap); if (soap_begin_serve(&ctx)) { soap_send_fault(&ctx); // send fault, close socket soap_mq_del(queue, msg); // delete message from queue } else if (!ctx.header || !ctx.header->wsrm__Sequence) { // this is not a WS-RM message, so serve immediately soap_serve(&msg->soap); // service operations soap_mq_del(queue, msg); // delete message from queue } else if (!soap_wsrm_check(&ctx)) { // check is OK, process this WS-RM message now soap_serve(&msg->soap); // service operations SHOULD NOT call soap_wsrm_check() soap_mq_del(queue, msg); // delete message from queue } else if (ctx.error != SOAP_STOP) { // check failed, not a WS-RM message or other WS-RM error soap_send_fault(&ctx); // send fault, close socket soap_mq_del(queue, msg); // delete message from queue } soap_destroy(&ctx); soap_end(&ctx); soap_done(&ctx); } // as long as the queue is not empty and WS-RM sequence(s) not terminated, keep trying while ((msg = soap_mq_begin(queue)) != NULL) { // process queued WS-RM messages for (; msg != NULL; msg = soap_mq_next(msg)) { // try next message in queue soap_copy_context(&ctx, &msg->soap); if (!soap_begin_serve(&ctx) && !soap_wsrm_check(&ctx)) { // check is OK, process message soap_serve(&msg->soap); soap_mq_del(queue, msg); } else if (ctx.error != SOAP_STOP) soap_mq_del(queue, msg); soap_destroy(&ctx); soap_end(&ctx); soap_done(&ctx); } sleep(1); // sleep some before around we go again } return NULL; } @endcode In the first loop that runs over the messages received on the same keep-alive socket, the messages will be processed and services dispatched immediately for non-WS-RM messages and when the WS-RM check succeeds. This check is done in the server dispatch loop as shown, which means that WS-RM-based service operations SHOULD NOT call soap_wsrm_check() again. WS-RM messages that cannot be processed yet since they are out of the sequence order will remain in the queue. The second loop over the queued messages will retry to dispatch service operations according to the WS-RM message order as required by WS-RM NoDiscard sequence behavior. The loop will run until the queue is empty or when the WS-RM sequences are closed/terminated. */ #include "mq.h" #ifdef __cplusplus extern "C" { #endif const char soap_mq_id[] = SOAP_MQ_ID; /******************************************************************************\ * * Static protos * \******************************************************************************/ static int soap_mq_init(struct soap *soap, struct soap_mq_data *data); static void soap_mq_delete(struct soap *soap, struct soap_plugin *p); static size_t soap_mq_recv(struct soap *soap, char *buf, size_t len); static int soap_mq_serveloop(struct soap *soap); static void soap_mq_set(struct soap_mq_msg *msg); /******************************************************************************\ * * Plugin registry functions * \******************************************************************************/ /** plugin registry function, invoked by soap_register_plugin */ SOAP_FMAC1 int SOAP_FMAC2 soap_mq(struct soap *soap, struct soap_plugin *p, void *arg) { (void)soap; (void)arg; p->id = soap_mq_id; /* create local plugin data */ p->data = (void*)SOAP_MALLOC(soap, sizeof(struct soap_mq_data)); /* register the destructor */ p->fdelete = soap_mq_delete; /* if OK then initialize */ if (p->data) { if (soap_mq_init(soap, (struct soap_mq_data*)p->data)) { SOAP_FREE(soap, p->data); /* error: could not init */ return SOAP_EOM; /* return error */ } } return SOAP_OK; } /******************************************************************************/ /* used by plugin registry function */ static int soap_mq_init(struct soap *soap, struct soap_mq_data *data) { (void)soap; data->buf = NULL; data->len = 0; return SOAP_OK; } /******************************************************************************/ static void soap_mq_delete(struct soap *soap, struct soap_plugin *p) { /* free allocated plugin data. If fcopy() is not set, then this function is not called for all copies of the plugin created with soap_copy(). In this example, the fcopy() callback is omitted and the plugin data is shared by the soap copies created with soap_copy() */ (void)soap; SOAP_FREE(soap, p->data); } /******************************************************************************\ * * Callbacks registered by plugin * \******************************************************************************/ static size_t soap_mq_recv(struct soap *soap, char *buf, size_t len) { struct soap_mq_data *data = (struct soap_mq_data*)soap_lookup_plugin(soap, soap_mq_id); if (!data) { soap->error = SOAP_PLUGIN_ERROR; return 0; } if (data->len < len) { len = data->len; data->len = 0; } soap_memcpy(buf, len, data->buf, len); data->buf += len; return len; } /******************************************************************************/ static int soap_mq_serveloop(struct soap *soap) { return soap->error = SOAP_STOP; } /******************************************************************************\ * * Queue Operations * \******************************************************************************/ /** @fn struct soap_mq_queue *soap_mq_queue(struct soap *soap) @brief Create a new queue structure allocated in the current context. Will be deallocated with soap_end(soap). Use soap_mq_get() to receive a message from the current socket to add to the queue. @param soap current context @return pointer to the queue structure */ SOAP_FMAC1 struct soap_mq_queue * SOAP_FMAC2 soap_mq_queue(struct soap *soap) { struct soap_mq_queue *mq = (struct soap_mq_queue*)soap_malloc(soap, sizeof(struct soap_mq_queue)); if (mq) mq->head = mq->tail = NULL; return mq; } /******************************************************************************/ /** @fn struct soap_mq_msg *soap_mq_get(struct soap *soap, struct soap_mq_queue *mq) @brief Receive message from socket and queue it at the end of the queue. @param soap current context @param mq pointer to the message queue structure created by soap_mq_queue() @return pointer to the message received and queued, or NULL */ SOAP_FMAC1 struct soap_mq_msg * SOAP_FMAC2 soap_mq_get(struct soap *soap, struct soap_mq_queue *mq) { struct soap_mq_msg *msg; if (soap_begin_recv(soap)) return NULL; msg = (struct soap_mq_msg*)soap_malloc(soap, sizeof(struct soap_mq_msg)); if (!msg) { soap->error = SOAP_EOM; return NULL; } msg->next = NULL; soap_copy_context(&msg->soap, soap); msg->buf = soap_get_http_body(soap, &msg->len); soap_end_recv(soap); if (!msg->buf) return NULL; soap_mq_set(msg); if (!mq->head) mq->head = mq->tail = msg; else mq->tail = mq->tail->next = msg; return msg; } /******************************************************************************/ /** @fn struct soap_mq_msg *soap_mq_begin(struct soap_mq_queue *mq) @brief Get first message in queue. Use msg->soap to invoke service from the queued message, as in soap_serve(&msg->soap). @param mq pointer to the message queue structure created by soap_mq_queue() @return pointer to first message in the queue, or NULL */ SOAP_FMAC1 struct soap_mq_msg * SOAP_FMAC2 soap_mq_begin(struct soap_mq_queue *mq) { struct soap_mq_msg *msg = mq->head; if (msg) soap_mq_set(msg); return msg; } /******************************************************************************/ /** @fn struct soap_mq_msg *soap_mq_next(struct soap_mq_msg *msg) @brief Get next message in queue. Use msg->soap to invoke service from the queued message, as in soap_serve(&msg->soap). @param msg pointer to current message in the queue @return pointer to next message in the queue, or NULL */ SOAP_FMAC1 struct soap_mq_msg * SOAP_FMAC2 soap_mq_next(struct soap_mq_msg *msg) { if (msg) msg = msg->next; if (msg) soap_mq_set(msg); return msg; } /******************************************************************************/ /** @fn void soap_mq_del(struct soap_mq_queue *mq, struct soap_mq_msg *msg) @brief Delete message from queue, e.g. after processing it. Delete entire queue when msg==NULL. Note: structures will be deallocated with deallocation with soap_end(). @param mq pointer to the queue structure @param msg pointer to a message in the queue, when NULL delete entire queue */ SOAP_FMAC1 void SOAP_FMAC2 soap_mq_del(struct soap_mq_queue *mq, struct soap_mq_msg *msg) { if (mq) { struct soap_mq_msg *p = mq->head; if (msg) { if (p == msg) mq->head = msg->next; else { while (p && p->next != msg) p = p->next; if (p) { p->next = msg->next; if (mq->tail == msg) mq->tail = p; } } soap_destroy(&msg->soap); soap_end(&msg->soap); soap_done(&msg->soap); } else { while (p) { soap_destroy(&p->soap); soap_end(&p->soap); soap_done(&p->soap); p = p->next; } mq->head = mq->tail = NULL; } } } /******************************************************************************/ static void soap_mq_set(struct soap_mq_msg *msg) { struct soap_mq_data *data = (struct soap_mq_data*)soap_lookup_plugin(&msg->soap, soap_mq_id); if (data) { data->buf = msg->buf; data->len = msg->len; soap_clr_imode(&msg->soap, SOAP_IO_CHUNK | SOAP_ENC_ZLIB | SOAP_ENC_SSL); msg->soap.frecv = soap_mq_recv; msg->soap.fserveloop = soap_mq_serveloop; } } /******************************************************************************/ #ifdef __cplusplus } #endif