mirror of
https://github.com/curl/curl.git
synced 2024-11-27 05:50:21 +08:00
411 lines
10 KiB
C
411 lines
10 KiB
C
/*****************************************************************************
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* _ _ ____ _
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* Project ___| | | | _ \| |
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* / __| | | | |_) | |
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* | (__| |_| | _ <| |___
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* \___|\___/|_| \_\_____|
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*
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* $Id$
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*
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* Connect N connections. Z are idle, and X are active. Transfer as fast as
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* possible.
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*
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* Output detailed timing information.
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*
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* Uses libevent.
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*
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*/
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/* The maximum number of simultanoues connections/transfers we support */
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#define NCONNECTIONS 50000
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#include <stdio.h>
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#include <string.h>
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#include <stdlib.h>
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#include <sys/time.h>
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#include <time.h>
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#include <unistd.h>
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#include <sys/poll.h>
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#include <curl/curl.h>
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#include <event.h> /* for libevent */
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#ifndef FALSE
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#define FALSE 0
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#endif
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#ifndef TRUE
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#define TRUE 1
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#endif
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#define MICROSEC 1000000 /* number of microseconds in one second */
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/* The maximum time (in microseconds) we run the test */
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#define RUN_FOR_THIS_LONG (5*MICROSEC)
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/* Number of loops (seconds) we allow the total download amount and alive
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connections to remain the same until we bail out. Set this slightly higher
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when using asynch supported libcurl. */
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#define IDLE_TIME 10
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struct globalinfo {
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size_t dlcounter;
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};
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struct connection {
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CURL *e;
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int id; /* just a counter for easy browsing */
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char *url;
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size_t dlcounter;
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struct globalinfo *global;
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char error[CURL_ERROR_SIZE];
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};
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/* this is the struct associated with each file descriptor libcurl tells us
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it is dealing with */
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struct fdinfo {
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/* create a link list of fdinfo structs */
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struct fdinfo *next;
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struct fdinfo *prev;
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curl_socket_t sockfd;
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CURL *easy;
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int action; /* as set by libcurl */
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long timeout; /* as set by libcurl */
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struct event ev; /* */
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int evset; /* true if the 'ev' struct has been used in a event_set() call */
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CURLM *multi; /* pointer to the multi handle */
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int *running_handles; /* pointer to the running_handles counter */
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};
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static struct fdinfo *allsocks;
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static int running_handles;
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/* we have the timerevent global so that when the final socket-based event is
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done, we can remove the timerevent as well */
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static struct event timerevent;
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static void update_timeout(CURLM *multi_handle);
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/* called from libevent on action on a particular socket ("event") */
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static void eventcallback(int fd, short type, void *userp)
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{
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struct fdinfo *fdp = (struct fdinfo *)userp;
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CURLMcode rc;
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fprintf(stderr, "EVENT callback type %d\n", type);
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/* tell libcurl to deal with the transfer associated with this socket */
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do {
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rc = curl_multi_socket(fdp->multi, fd, fdp->running_handles);
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} while (rc == CURLM_CALL_MULTI_PERFORM);
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if(rc) {
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fprintf(stderr, "curl_multi_socket() returned %d\n", (int)rc);
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}
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fprintf(stderr, "running_handles: %d\n", *fdp->running_handles);
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if(!*fdp->running_handles) {
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/* last transfer is complete, kill pending timeout */
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fprintf(stderr, "last transfer done, kill timeout\n");
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if(evtimer_pending(&timerevent, NULL))
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evtimer_del(&timerevent);
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}
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else
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update_timeout(fdp->multi);
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}
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/* called from libevent when our timer event expires */
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static void timercallback(int fd, short type, void *userp)
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{
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(void)fd; /* not used for this */
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(void)type; /* ignored in here */
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CURLM *multi_handle = (CURLM *)userp;
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int running_handles;
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CURLMcode rc;
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fprintf(stderr, "EVENT timeout\n");
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/* tell libcurl to deal with the transfer associated with this socket */
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do {
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rc = curl_multi_socket(multi_handle, CURL_SOCKET_TIMEOUT,
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&running_handles);
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} while (rc == CURLM_CALL_MULTI_PERFORM);
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if(running_handles)
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/* Get the current timeout value from libcurl and set a new timeout */
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update_timeout(multi_handle);
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}
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static void remsock(struct fdinfo *f)
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{
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if(!f)
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/* did not find socket to remove! */
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return;
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if(f->evset)
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event_del(&f->ev);
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if(f->prev)
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f->prev->next = f->next;
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if(f->next)
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f->next->prev = f->prev;
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else
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/* this was the last entry */
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allsocks = NULL;
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}
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static void setsock(struct fdinfo *fdp, curl_socket_t s, CURL *easy,
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int action)
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{
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fdp->sockfd = s;
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fdp->action = action;
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fdp->easy = easy;
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if(fdp->evset)
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/* first remove the existing event if the old setup was used */
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event_del(&fdp->ev);
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/* now use and add the current socket setup to libevent. The EV_PERSIST is
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the key here as otherwise libevent will automatically remove the event
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when it occurs the first time */
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event_set(&fdp->ev, fdp->sockfd,
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(action&CURL_POLL_IN?EV_READ:0)|
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(action&CURL_POLL_OUT?EV_WRITE:0)| EV_PERSIST,
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eventcallback, fdp);
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fdp->evset=1;
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fprintf(stderr, "event_add() for fd %d\n", s);
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/* We don't use any socket-specific timeout but intead we use a single
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global one. This is (mostly) because libcurl doesn't expose any
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particular socket- based timeout value. */
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event_add(&fdp->ev, NULL);
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}
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static void addsock(curl_socket_t s, CURL *easy, int action, CURLM *multi)
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{
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struct fdinfo *fdp = calloc(sizeof(struct fdinfo), 1);
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fdp->multi = multi;
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fdp->running_handles = &running_handles;
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setsock(fdp, s, easy, action);
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if(allsocks) {
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fdp->next = allsocks;
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allsocks->prev = fdp;
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/* now set allsocks to point to the new struct */
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allsocks = fdp;
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}
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else
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allsocks = fdp;
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/* Set this association in libcurl */
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curl_multi_assign(multi, s, fdp);
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}
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/* on port 8999 we run a fork enabled sws that supports 'idle' and 'stream' */
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#define PORT "8999"
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#define HOST "127.0.0.1"
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#define URL_IDLE "http://" HOST ":" PORT "/1000"
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#if 1
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#define URL_ACTIVE "http://" HOST ":" PORT "/1001"
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#else
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#define URL_ACTIVE "http://localhost/"
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#endif
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static int socket_callback(CURL *easy, /* easy handle */
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curl_socket_t s, /* socket */
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int what, /* see above */
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void *cbp, /* callback pointer */
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void *socketp) /* socket pointer */
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{
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struct fdinfo *fdp = (struct fdinfo *)socketp;
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char *whatstr[]={
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"none",
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"IN",
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"OUT",
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"INOUT",
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"REMOVE"};
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fprintf(stderr, "socket %d easy %p what %s\n", s, easy,
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whatstr[what]);
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if(what == CURL_POLL_REMOVE)
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remsock(fdp);
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else {
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if(!fdp) {
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/* not previously known, add it and set association */
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printf("Add info for socket %d %s%s\n", s,
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what&CURL_POLL_IN?"READ":"",
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what&CURL_POLL_OUT?"WRITE":"" );
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addsock(s, easy, what, cbp);
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}
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else {
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/* we already know about it, just change action/timeout */
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printf("Changing info for socket %d from %d to %d\n",
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s, fdp->action, what);
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setsock(fdp, s, easy, what);
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}
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}
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return 0; /* return code meaning? */
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}
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static size_t
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writecallback(void *ptr, size_t size, size_t nmemb, void *data)
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{
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size_t realsize = size * nmemb;
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struct connection *c = (struct connection *)data;
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(void)ptr;
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c->dlcounter += realsize;
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c->global->dlcounter += realsize;
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printf("%02d: %d, total %d\n",
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c->id, c->dlcounter, c->global->dlcounter);
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return realsize;
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}
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struct globalinfo info;
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struct connection *conns;
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int num_total;
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int num_idle;
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int num_active;
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static void update_timeout(CURLM *multi_handle)
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{
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long timeout_ms;
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struct timeval timeout;
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/* Since we need a global timeout to occur after a given time of inactivity,
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we use a single timeout-event. Get the timeout value from libcurl, and
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update it after every call to libcurl. */
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curl_multi_timeout(multi_handle, &timeout_ms);
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/* convert ms to timeval */
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timeout.tv_sec = timeout_ms/1000;
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timeout.tv_usec = (timeout_ms%1000)*1000;
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evtimer_add(&timerevent, &timeout);
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}
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int main(int argc, char **argv)
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{
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CURLM *multi_handle;
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CURLMsg *msg;
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CURLcode code = CURLE_OK;
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int i;
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memset(&info, 0, sizeof(struct globalinfo));
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if(argc < 3) {
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printf("Usage: hiper-event [num idle] [num active]\n");
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return 1;
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}
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num_idle = atoi(argv[1]);
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num_active = atoi(argv[2]);
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num_total = num_idle + num_active;
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conns = calloc(num_total, sizeof(struct connection));
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if(!conns) {
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printf("Out of memory\n");
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return 3;
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}
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if(num_total >= NCONNECTIONS) {
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printf("Too many connections requested, increase NCONNECTIONS!\n");
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return 2;
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}
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event_init(); /* Initalize the event library */
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printf("About to do %d connections\n", num_total);
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/* init the multi stack */
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multi_handle = curl_multi_init();
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/* initialize the timeout event */
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evtimer_set(&timerevent, timercallback, multi_handle);
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for(i=0; i< num_total; i++) {
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CURL *e;
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memset(&conns[i], 0, sizeof(struct connection));
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if(i < num_idle)
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conns[i].url = URL_IDLE;
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else
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conns[i].url = URL_ACTIVE;
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e = curl_easy_init();
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if(!e) {
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printf("curl_easy_init() for handle %d failed, exiting!\n", i);
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return 2;
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}
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conns[i].e = e;
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conns[i].id = i;
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conns[i].global = &info;
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curl_easy_setopt(e, CURLOPT_URL, conns[i].url);
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curl_easy_setopt(e, CURLOPT_WRITEFUNCTION, writecallback);
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curl_easy_setopt(e, CURLOPT_WRITEDATA, &conns[i]);
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curl_easy_setopt(e, CURLOPT_VERBOSE, 0);
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curl_easy_setopt(e, CURLOPT_ERRORBUFFER, conns[i].error);
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curl_easy_setopt(e, CURLOPT_PRIVATE, &conns[i]);
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/* add the easy to the multi */
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if(CURLM_OK != curl_multi_add_handle(multi_handle, e)) {
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printf("curl_multi_add_handle() returned error for %d\n", i);
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return 3;
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}
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}
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curl_multi_setopt(multi_handle, CURLMOPT_SOCKETFUNCTION, socket_callback);
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curl_multi_setopt(multi_handle, CURLMOPT_SOCKETDATA, multi_handle);
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/* we start the action by calling *socket_all() */
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while(CURLM_CALL_MULTI_PERFORM == curl_multi_socket_all(multi_handle,
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&running_handles));
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/* update timeout */
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update_timeout(multi_handle);
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/* event_dispatch() runs the event main loop. It ends when no events are
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left to wait for. */
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event_dispatch();
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{
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/* something made connections fail, extract the reason and tell */
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int msgs_left;
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struct connection *cptr;
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while ((msg = curl_multi_info_read(multi_handle, &msgs_left))) {
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if (msg->msg == CURLMSG_DONE) {
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curl_easy_getinfo(msg->easy_handle, CURLINFO_PRIVATE, &cptr);
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printf("%d => (%d) %s\n",
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cptr->id, msg->data.result, cptr->error);
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}
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}
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}
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curl_multi_cleanup(multi_handle);
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/* cleanup all the easy handles */
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for(i=0; i< num_total; i++)
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curl_easy_cleanup(conns[i].e);
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return code;
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}
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