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312 lines
9.7 KiB
C
312 lines
9.7 KiB
C
/*=============================================================================
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curlMulti
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===============================================================================
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This is an extension to Curl's CURLM object. The extensions are:
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1) It has a lock so multiple threads can use it simultaneously.
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2) Its "select" file descriptor vectors are self-contained. CURLM
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requires the user to maintain them separately.
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=============================================================================*/
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#include "xmlrpc_config.h"
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#include <stdlib.h>
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#if !MSVCRT
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#include <sys/select.h>
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#endif
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#include <curl/curl.h>
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#include <curl/types.h>
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#include <curl/easy.h>
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#include <curl/multi.h>
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#include "mallocvar.h"
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#include "xmlrpc-c/util.h"
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#include "xmlrpc-c/string_int.h"
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#include "curlversion.h"
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#include "lock.h"
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#include "lock_pthread.h"
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#include "curlmulti.h"
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static void
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interpretCurlMultiError(const char ** const descriptionP,
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CURLMcode const code) {
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#if HAVE_CURL_STRERROR
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*descriptionP = strdup(curl_multi_strerror(code));
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#else
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xmlrpc_asprintf(descriptionP, "Curl error code (CURLMcode) %d", code);
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#endif
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}
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struct curlMulti {
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CURLM * curlMultiP;
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lock * lockP;
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/* Hold this lock while accessing or using *curlMultiP. You're
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using the multi manager whenever you're calling a Curl
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library multi manager function.
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*/
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/* The following file descriptor sets are an integral part of the
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CURLM object; Our curlMulti_fdset() routine binds them to the
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CURLM object, and said object expects us to use them in a very
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specific way, including doing a select() on them. It is very,
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very messy.
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*/
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fd_set readFdSet;
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fd_set writeFdSet;
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fd_set exceptFdSet;
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};
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curlMulti *
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curlMulti_create(void) {
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curlMulti * retval;
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curlMulti * curlMultiP;
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MALLOCVAR(curlMultiP);
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if (curlMultiP == NULL)
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retval = NULL;
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else {
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curlMultiP->lockP = curlLock_create_pthread();
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if (curlMultiP->lockP == NULL)
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retval = NULL;
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else {
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curlMultiP->curlMultiP = curl_multi_init();
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if (curlMultiP->curlMultiP == NULL)
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retval = NULL;
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else
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retval = curlMultiP;
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if (retval == NULL)
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curlMultiP->lockP->destroy(curlMultiP->lockP);
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}
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if (retval == NULL)
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free(curlMultiP);
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}
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return retval;
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}
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void
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curlMulti_destroy(curlMulti * const curlMultiP) {
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curl_multi_cleanup(curlMultiP->curlMultiP);
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curlMultiP->lockP->destroy(curlMultiP->lockP);
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free(curlMultiP);
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}
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void
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curlMulti_perform(xmlrpc_env * const envP,
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curlMulti * const curlMultiP,
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bool * const immediateWorkToDoP,
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int * const runningHandlesP) {
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/*----------------------------------------------------------------------------
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Do whatever work is ready to be done under the control of multi
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manager 'curlMultiP'. E.g. if HTTP response data has recently arrived
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from the network, process it as an HTTP response.
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Iff this results in some work being finished from our point of view,
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return *immediateWorkToDoP. (Caller can query the multi manager for
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messages and find out what it is).
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Return as *runningHandlesP the number of Curl easy handles under the
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multi manager's control that are still running -- yet to finish.
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-----------------------------------------------------------------------------*/
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CURLMcode rc;
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curlMultiP->lockP->acquire(curlMultiP->lockP);
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rc = curl_multi_perform(curlMultiP->curlMultiP, runningHandlesP);
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curlMultiP->lockP->release(curlMultiP->lockP);
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if (rc == CURLM_CALL_MULTI_PERFORM) {
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*immediateWorkToDoP = true;
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} else {
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*immediateWorkToDoP = false;
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if (rc != CURLM_OK) {
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const char * reason;
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interpretCurlMultiError(&reason, rc);
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xmlrpc_faultf(envP, "Impossible failure of curl_multi_perform(): "
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"%s", reason);
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xmlrpc_strfree(reason);
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}
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}
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}
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void
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curlMulti_addHandle(xmlrpc_env * const envP,
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curlMulti * const curlMultiP,
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CURL * const curlSessionP) {
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CURLMcode rc;
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curlMultiP->lockP->acquire(curlMultiP->lockP);
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rc = curl_multi_add_handle(curlMultiP->curlMultiP, curlSessionP);
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curlMultiP->lockP->release(curlMultiP->lockP);
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if (rc != CURLM_OK) {
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const char * reason;
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interpretCurlMultiError(&reason, rc);
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xmlrpc_faultf(envP, "Could not add Curl session to the "
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"curl multi manager. curl_multi_add_handle() "
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"failed: %s", reason);
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xmlrpc_strfree(reason);
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}
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}
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void
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curlMulti_removeHandle(curlMulti * const curlMultiP,
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CURL * const curlSessionP) {
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curlMultiP->lockP->acquire(curlMultiP->lockP);
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curl_multi_remove_handle(curlMultiP->curlMultiP, curlSessionP);
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curlMultiP->lockP->release(curlMultiP->lockP);
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}
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void
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curlMulti_getMessage(curlMulti * const curlMultiP,
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bool * const endOfMessagesP,
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CURLMsg * const curlMsgP) {
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/*----------------------------------------------------------------------------
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Get the next message from the queue of things the Curl multi manager
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wants to say to us.
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Return the message as *curlMsgP.
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Iff there are no messages in the queue, return *endOfMessagesP == true.
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-----------------------------------------------------------------------------*/
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int remainingMsgCount;
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CURLMsg * privateCurlMsgP;
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/* Note that this is a pointer into the multi manager's memory,
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so we have to use it under lock.
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*/
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curlMultiP->lockP->acquire(curlMultiP->lockP);
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privateCurlMsgP = curl_multi_info_read(curlMultiP->curlMultiP,
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&remainingMsgCount);
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if (privateCurlMsgP == NULL)
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*endOfMessagesP = true;
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else {
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*endOfMessagesP = false;
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*curlMsgP = *privateCurlMsgP;
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}
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curlMultiP->lockP->release(curlMultiP->lockP);
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}
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void
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curlMulti_fdset(xmlrpc_env * const envP,
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curlMulti * const curlMultiP,
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fd_set * const readFdSetP,
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fd_set * const writeFdSetP,
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fd_set * const exceptFdSetP,
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int * const maxFdP) {
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/*----------------------------------------------------------------------------
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Set the CURLM object's file descriptor sets to those in the
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curlMulti object, update those file descriptor sets with the
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current needs of the multi manager, and return the resulting values
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of the file descriptor sets.
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This is a bizarre operation, but is necessary because of the nonmodular
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way in which the Curl multi interface works with respect to waiting
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for work with select().
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-----------------------------------------------------------------------------*/
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CURLMcode rc;
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curlMultiP->lockP->acquire(curlMultiP->lockP);
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/* curl_multi_fdset() doesn't _set_ the fdsets. It adds to existing
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ones (so you can easily do a select() on other fds and Curl
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fds at the same time). So we have to clear first:
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*/
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FD_ZERO(&curlMultiP->readFdSet);
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FD_ZERO(&curlMultiP->writeFdSet);
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FD_ZERO(&curlMultiP->exceptFdSet);
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/* WARNING: curl_multi_fdset() doesn't just update the fdsets pointed
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to by its arguments. It makes the CURLM object remember those
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pointers and refer back to them later! In fact, curl_multi_perform
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expects its caller to have done a select() on those masks. No,
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really. The man page even admits it.
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Inspection of the Libcurl code in March 2007 indicates that
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this isn't actually true -- curl_multi_fdset() updates your
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fdset and doesn't remember the pointer at all. I.e. it's just
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what you would expect. The man pages still says it's as
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described above. My guess is that Libcurl was fixed at some
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time and the man page not updated. In any case, we have to
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work with old Libcurl if at all possible, so we still maintain
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these fdsets as if they belong to the CURLM object.
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*/
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rc = curl_multi_fdset(curlMultiP->curlMultiP,
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&curlMultiP->readFdSet,
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&curlMultiP->writeFdSet,
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&curlMultiP->exceptFdSet,
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maxFdP);
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*readFdSetP = curlMultiP->readFdSet;
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*writeFdSetP = curlMultiP->writeFdSet;
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*exceptFdSetP = curlMultiP->exceptFdSet;
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curlMultiP->lockP->release(curlMultiP->lockP);
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if (rc != CURLM_OK) {
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const char * reason;
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interpretCurlMultiError(&reason, rc);
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xmlrpc_faultf(envP, "Impossible failure of curl_multi_fdset(): %s",
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reason);
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xmlrpc_strfree(reason);
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}
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}
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void
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curlMulti_updateFdSet(curlMulti * const curlMultiP,
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fd_set const readFdSet,
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fd_set const writeFdSet,
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fd_set const exceptFdSet) {
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/*----------------------------------------------------------------------------
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curl_multi_perform() expects the file descriptor sets, which were bound
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to the CURLM object via a prior curlMulti_fdset(), to contain the results
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of a recent select(). This subroutine provides you a way to supply those.
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-----------------------------------------------------------------------------*/
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curlMultiP->readFdSet = readFdSet;
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curlMultiP->writeFdSet = writeFdSet;
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curlMultiP->exceptFdSet = exceptFdSet;
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}
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