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Diffstat (limited to 'Utilities/cmcurl/multi.c')
| -rw-r--r-- | Utilities/cmcurl/multi.c | 1988 |
1 files changed, 1988 insertions, 0 deletions
diff --git a/Utilities/cmcurl/multi.c b/Utilities/cmcurl/multi.c new file mode 100644 index 000000000..b501f296f --- /dev/null +++ b/Utilities/cmcurl/multi.c @@ -0,0 +1,1988 @@ +/*************************************************************************** + * _ _ ____ _ + * Project ___| | | | _ \| | + * / __| | | | |_) | | + * | (__| |_| | _ <| |___ + * \___|\___/|_| \_\_____| + * + * Copyright (C) 1998 - 2007, Daniel Stenberg, <daniel@haxx.se>, et al. + * + * This software is licensed as described in the file COPYING, which + * you should have received as part of this distribution. The terms + * are also available at http://curl.haxx.se/docs/copyright.html. + * + * You may opt to use, copy, modify, merge, publish, distribute and/or sell + * copies of the Software, and permit persons to whom the Software is + * furnished to do so, under the terms of the COPYING file. + * + * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY + * KIND, either express or implied. + * + * $Id$ + ***************************************************************************/ + +#include "setup.h" +#include <stdlib.h> +#include <string.h> + +#ifdef HAVE_SYS_TYPES_H +#include <sys/types.h> +#endif +#ifdef HAVE_SYS_SOCKET_H +#include <sys/socket.h> +#endif +#ifdef HAVE_UNISTD_H +#include <unistd.h> +#endif + +#include <curl/curl.h> + +#include "urldata.h" +#include "transfer.h" +#include "url.h" +#include "connect.h" +#include "progress.h" +#include "memory.h" +#include "easyif.h" +#include "multiif.h" +#include "sendf.h" +#include "timeval.h" + +/* The last #include file should be: */ +#include "memdebug.h" + +struct Curl_message { + /* the 'CURLMsg' is the part that is visible to the external user */ + struct CURLMsg extmsg; + struct Curl_message *next; +}; + +typedef enum { + CURLM_STATE_INIT, /* start in this state */ + CURLM_STATE_CONNECT, /* resolve/connect has been sent off */ + CURLM_STATE_WAITRESOLVE, /* awaiting the resolve to finalize */ + CURLM_STATE_WAITCONNECT, /* awaiting the connect to finalize */ + CURLM_STATE_PROTOCONNECT, /* completing the protocol-specific connect + phase */ + CURLM_STATE_WAITDO, /* wait for our turn to send the request */ + CURLM_STATE_DO, /* start send off the request (part 1) */ + CURLM_STATE_DOING, /* sending off the request (part 1) */ + CURLM_STATE_DO_MORE, /* send off the request (part 2) */ + CURLM_STATE_DO_DONE, /* done sending off request */ + CURLM_STATE_WAITPERFORM, /* wait for our turn to read the response */ + CURLM_STATE_PERFORM, /* transfer data */ + CURLM_STATE_TOOFAST, /* wait because limit-rate exceeded */ + CURLM_STATE_DONE, /* post data transfer operation */ + CURLM_STATE_COMPLETED, /* operation complete */ + CURLM_STATE_CANCELLED, /* cancelled */ + + CURLM_STATE_LAST /* not a true state, never use this */ +} CURLMstate; + +/* we support N sockets per easy handle. Set the corresponding bit to what + action we should wait for */ +#define MAX_SOCKSPEREASYHANDLE 5 +#define GETSOCK_READABLE (0x00ff) +#define GETSOCK_WRITABLE (0xff00) + +struct closure { + struct closure *next; /* a simple one-way list of structs */ + struct SessionHandle *easy_handle; +}; + +struct Curl_one_easy { + /* first, two fields for the linked list of these */ + struct Curl_one_easy *next; + struct Curl_one_easy *prev; + + struct SessionHandle *easy_handle; /* the easy handle for this unit */ + struct connectdata *easy_conn; /* the "unit's" connection */ + + CURLMstate state; /* the handle's state */ + CURLcode result; /* previous result */ + + struct Curl_message *msg; /* A pointer to one single posted message. + Cleanup should be done on this pointer NOT on + the linked list in Curl_multi. This message + will be deleted when this handle is removed + from the multi-handle */ + int msg_num; /* number of messages left in 'msg' to return */ + + /* Array with the plain socket numbers this handle takes care of, in no + particular order. Note that all sockets are added to the sockhash, where + the state etc are also kept. This array is mostly used to detect when a + socket is to be removed from the hash. See singlesocket(). */ + curl_socket_t sockets[MAX_SOCKSPEREASYHANDLE]; + int numsocks; +}; + +#define CURL_MULTI_HANDLE 0x000bab1e + +#define GOOD_MULTI_HANDLE(x) \ + ((x)&&(((struct Curl_multi *)x)->type == CURL_MULTI_HANDLE)) +#define GOOD_EASY_HANDLE(x) \ + (((struct SessionHandle *)x)->magic == CURLEASY_MAGIC_NUMBER) + +/* This is the struct known as CURLM on the outside */ +struct Curl_multi { + /* First a simple identifier to easier detect if a user mix up + this multi handle with an easy handle. Set this to CURL_MULTI_HANDLE. */ + long type; + + /* We have a linked list with easy handles */ + struct Curl_one_easy easy; + + int num_easy; /* amount of entries in the linked list above. */ + int num_msgs; /* amount of messages in the easy handles */ + int num_alive; /* amount of easy handles that are added but have not yet + reached COMPLETE state */ + + /* callback function and user data pointer for the *socket() API */ + curl_socket_callback socket_cb; + void *socket_userp; + + /* Hostname cache */ + struct curl_hash *hostcache; + + /* timetree points to the splay-tree of time nodes to figure out expire + times of all currently set timers */ + struct Curl_tree *timetree; + + /* 'sockhash' is the lookup hash for socket descriptor => easy handles (note + the pluralis form, there can be more than one easy handle waiting on the + same actual socket) */ + struct curl_hash *sockhash; + + /* Whether pipelining is enabled for this multi handle */ + bool pipelining_enabled; + + /* shared connection cache */ + struct conncache *connc; + + /* list of easy handles kept around for doing nice connection closures */ + struct closure *closure; + + /* timer callback and user data pointer for the *socket() API */ + curl_multi_timer_callback timer_cb; + void *timer_userp; + time_t timer_lastcall; /* the fixed time for the timeout for the previous + callback */ +}; + +static bool multi_conn_using(struct Curl_multi *multi, + struct SessionHandle *data); +static void singlesocket(struct Curl_multi *multi, + struct Curl_one_easy *easy); +static void add_closure(struct Curl_multi *multi, + struct SessionHandle *data); +static int update_timer(struct Curl_multi *multi); + +#ifdef CURLDEBUG +static const char *statename[]={ + "INIT", + "CONNECT", + "WAITRESOLVE", + "WAITCONNECT", + "PROTOCONNECT", + "WAITDO", + "DO", + "DOING", + "DO_MORE", + "DO_DONE", + "WAITPERFORM", + "PERFORM", + "TOOFAST", + "DONE", + "COMPLETED", + "CANCELLED" +}; + +void curl_multi_dump(CURLM *multi_handle); +#endif + +/* always use this function to change state, to make debugging easier */ +static void multistate(struct Curl_one_easy *easy, CURLMstate state) +{ +#ifdef CURLDEBUG + long index = -1; +#endif + CURLMstate oldstate = easy->state; + + if(oldstate == state) + /* don't bother when the new state is the same as the old state */ + return; + + easy->state = state; + +#ifdef CURLDEBUG + if(easy->state > CURLM_STATE_CONNECT && + easy->state < CURLM_STATE_COMPLETED) + index = easy->easy_conn->connectindex; + + infof(easy->easy_handle, + "STATE: %s => %s handle %p; (connection #%ld) \n", + statename[oldstate], statename[easy->state], + (char *)easy, index); +#endif + if(state == CURLM_STATE_COMPLETED) + /* changing to COMPLETED means there's one less easy handle 'alive' */ + easy->easy_handle->multi->num_alive--; +} + +/* + * We add one of these structs to the sockhash for a particular socket + */ + +struct Curl_sh_entry { + struct SessionHandle *easy; + time_t timestamp; + long inuse; + int action; /* what action READ/WRITE this socket waits for */ + curl_socket_t socket; /* mainly to ease debugging */ + void *socketp; /* settable by users with curl_multi_assign() */ +}; +/* bits for 'action' having no bits means this socket is not expecting any + action */ +#define SH_READ 1 +#define SH_WRITE 2 + +/* make sure this socket is present in the hash for this handle */ +static struct Curl_sh_entry *sh_addentry(struct curl_hash *sh, + curl_socket_t s, + struct SessionHandle *data) +{ + struct Curl_sh_entry *there = + Curl_hash_pick(sh, (char *)&s, sizeof(curl_socket_t)); + struct Curl_sh_entry *check; + + if(there) + /* it is present, return fine */ + return there; + + /* not present, add it */ + check = calloc(sizeof(struct Curl_sh_entry), 1); + if(!check) + return NULL; /* major failure */ + check->easy = data; + check->socket = s; + + /* make/add new hash entry */ + if(NULL == Curl_hash_add(sh, (char *)&s, sizeof(curl_socket_t), check)) { + free(check); + return NULL; /* major failure */ + } + + return check; /* things are good in sockhash land */ +} + + +/* delete the given socket + handle from the hash */ +static void sh_delentry(struct curl_hash *sh, curl_socket_t s) +{ + struct Curl_sh_entry *there = + Curl_hash_pick(sh, (char *)&s, sizeof(curl_socket_t)); + + if(there) { + /* this socket is in the hash */ + /* We remove the hash entry. (This'll end up in a call to + sh_freeentry().) */ + Curl_hash_delete(sh, (char *)&s, sizeof(curl_socket_t)); + } +} + +/* + * free a sockhash entry + */ +static void sh_freeentry(void *freethis) +{ + struct Curl_sh_entry *p = (struct Curl_sh_entry *) freethis; + + free(p); +} + +/* + * sh_init() creates a new socket hash and returns the handle for it. + * + * Quote from README.multi_socket: + * + * "Some tests at 7000 and 9000 connections showed that the socket hash lookup + * is somewhat of a bottle neck. Its current implementation may be a bit too + * limiting. It simply has a fixed-size array, and on each entry in the array + * it has a linked list with entries. So the hash only checks which list to + * scan through. The code I had used so for used a list with merely 7 slots + * (as that is what the DNS hash uses) but with 7000 connections that would + * make an average of 1000 nodes in each list to run through. I upped that to + * 97 slots (I believe a prime is suitable) and noticed a significant speed + * increase. I need to reconsider the hash implementation or use a rather + * large default value like this. At 9000 connections I was still below 10us + * per call." + * + */ +static struct curl_hash *sh_init(void) +{ + return Curl_hash_alloc(97, sh_freeentry); +} + +CURLM *curl_multi_init(void) +{ + struct Curl_multi *multi = (void *)calloc(sizeof(struct Curl_multi), 1); + + if(!multi) + return NULL; + + multi->type = CURL_MULTI_HANDLE; + + multi->hostcache = Curl_mk_dnscache(); + if(!multi->hostcache) { + /* failure, free mem and bail out */ + free(multi); + return NULL; + } + + multi->sockhash = sh_init(); + if(!multi->sockhash) { + /* failure, free mem and bail out */ + Curl_hash_destroy(multi->hostcache); + free(multi); + return NULL; + } + + multi->connc = Curl_mk_connc(CONNCACHE_MULTI, -1); + if(!multi->connc) { + Curl_hash_destroy(multi->hostcache); + free(multi); + return NULL; + } + + return (CURLM *) multi; +} + +CURLMcode curl_multi_add_handle(CURLM *multi_handle, + CURL *easy_handle) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + struct closure *cl; + struct closure *prev=NULL; + + /* First, make some basic checks that the CURLM handle is a good handle */ + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + /* Verify that we got a somewhat good easy handle too */ + if(!GOOD_EASY_HANDLE(easy_handle)) + return CURLM_BAD_EASY_HANDLE; + + /* Prevent users to add the same handle more than once! */ + if(((struct SessionHandle *)easy_handle)->multi) + /* possibly we should create a new unique error code for this condition */ + return CURLM_BAD_EASY_HANDLE; + + /* Now, time to add an easy handle to the multi stack */ + easy = (struct Curl_one_easy *)calloc(sizeof(struct Curl_one_easy), 1); + if(!easy) + return CURLM_OUT_OF_MEMORY; + + cl = multi->closure; + while(cl) { + struct closure *next = cl->next; + if(cl->easy_handle == (struct SessionHandle *)easy_handle) { + /* remove this handle from the closure list */ + free(cl); + if(prev) + prev->next = next; + else + multi->closure = next; + break; /* no need to continue since this handle can only be present once + in the list */ + } + cl = next; + } + + /* set the easy handle */ + easy->easy_handle = easy_handle; + multistate(easy, CURLM_STATE_INIT); + + /* for multi interface connections, we share DNS cache automatically if the + easy handle's one is currently private. */ + if (easy->easy_handle->dns.hostcache && + (easy->easy_handle->dns.hostcachetype == HCACHE_PRIVATE)) { + Curl_hash_destroy(easy->easy_handle->dns.hostcache); + easy->easy_handle->dns.hostcache = NULL; + easy->easy_handle->dns.hostcachetype = HCACHE_NONE; + } + + if (!easy->easy_handle->dns.hostcache || + (easy->easy_handle->dns.hostcachetype == HCACHE_NONE)) { + easy->easy_handle->dns.hostcache = multi->hostcache; + easy->easy_handle->dns.hostcachetype = HCACHE_MULTI; + } + + if(easy->easy_handle->state.connc) { + if(easy->easy_handle->state.connc->type == CONNCACHE_PRIVATE) { + /* kill old private version */ + Curl_rm_connc(easy->easy_handle->state.connc); + /* point out our shared one instead */ + easy->easy_handle->state.connc = multi->connc; + } + /* else it is already using multi? */ + } + else + /* point out our shared one */ + easy->easy_handle->state.connc = multi->connc; + + /* Make sure the type is setup correctly */ + easy->easy_handle->state.connc->type = CONNCACHE_MULTI; + + /* We add this new entry first in the list. We make our 'next' point to the + previous next and our 'prev' point back to the 'first' struct */ + easy->next = multi->easy.next; + easy->prev = &multi->easy; + + /* make 'easy' the first node in the chain */ + multi->easy.next = easy; + + /* if there was a next node, make sure its 'prev' pointer links back to + the new node */ + if(easy->next) + easy->next->prev = easy; + + Curl_easy_addmulti(easy_handle, multi_handle); + + /* make the SessionHandle struct refer back to this struct */ + easy->easy_handle->set.one_easy = easy; + + /* increase the node-counter */ + multi->num_easy++; + + if((multi->num_easy * 4) > multi->connc->num) { + /* We want the connection cache to have plenty room. Before we supported + the shared cache every single easy handle had 5 entries in their cache + by default. */ + CURLcode res = Curl_ch_connc(easy_handle, multi->connc, + multi->connc->num*4); + if(res != CURLE_OK) + /* TODO: we need to do some cleaning up here! */ + return CURLM_OUT_OF_MEMORY; + } + + /* increase the alive-counter */ + multi->num_alive++; + + update_timer(multi); + return CURLM_OK; +} + +#if 0 +/* Debug-function, used like this: + * + * Curl_hash_print(multi->sockhash, debug_print_sock_hash); + * + * Enable the hash print function first by editing hash.c + */ +static void debug_print_sock_hash(void *p) +{ + struct Curl_sh_entry *sh = (struct Curl_sh_entry *)p; + + fprintf(stderr, " [easy %p/magic %x/socket %d]", + (void *)sh->easy, sh->easy->magic, sh->socket); +} +#endif + +CURLMcode curl_multi_remove_handle(CURLM *multi_handle, + CURL *curl_handle) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + + /* First, make some basic checks that the CURLM handle is a good handle */ + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + /* Verify that we got a somewhat good easy handle too */ + if(!GOOD_EASY_HANDLE(curl_handle)) + return CURLM_BAD_EASY_HANDLE; + + /* scan through the list and remove the 'curl_handle' */ + easy = multi->easy.next; + while(easy) { + if(easy->easy_handle == (struct SessionHandle *)curl_handle) + break; + easy=easy->next; + } + + if(easy) { + bool premature = (bool)(easy->state != CURLM_STATE_COMPLETED); + + /* If the 'state' is not INIT or COMPLETED, we might need to do something + nice to put the easy_handle in a good known state when this returns. */ + if(premature) + /* this handle is "alive" so we need to count down the total number of + alive connections when this is removed */ + multi->num_alive--; + + if (easy->easy_handle->state.is_in_pipeline && + easy->state > CURLM_STATE_DO) { + /* If the handle is in a pipeline and has finished sending off its + request, we need to remember the fact that we want to remove this + handle but do the actual removal at a later time */ + easy->easy_handle->state.cancelled = TRUE; + return CURLM_OK; + } + + /* The timer must be shut down before easy->multi is set to NULL, + else the timenode will remain in the splay tree after + curl_easy_cleanup is called. */ + Curl_expire(easy->easy_handle, 0); + + if(easy->easy_handle->dns.hostcachetype == HCACHE_MULTI) { + /* clear out the usage of the shared DNS cache */ + easy->easy_handle->dns.hostcache = NULL; + easy->easy_handle->dns.hostcachetype = HCACHE_NONE; + } + + /* if we have a connection we must call Curl_done() here so that we + don't leave a half-baked one around */ + if(easy->easy_conn) { + /* Set up the association right */ + easy->easy_conn->data = easy->easy_handle; + + /* Curl_done() clears the conn->data field to lose the association + between the easy handle and the connection */ + Curl_done(&easy->easy_conn, easy->result, premature); + + if(easy->easy_conn) + /* the connection is still alive, set back the association to enable + the check below to trigger TRUE */ + easy->easy_conn->data = easy->easy_handle; + } + + /* If this easy_handle was the last one in charge for one or more + connections a the shared connection cache, we might need to keep this + handle around until either A) the connection is closed and killed + properly, or B) another easy_handle uses the connection. + + The reason why we need to have a easy_handle associated with a live + connection is simply that some connections will need a handle to get + closed down properly. Currently, the only connections that need to keep + a easy_handle handle around are using FTP(S). Such connections have + the PROT_CLOSEACTION bit set. + + Thus, we need to check for all connections in the shared cache that + points to this handle and are using PROT_CLOSEACTION. If there's any, + we need to add this handle to the list of "easy handles kept around for + nice connection closures". + */ + if(multi_conn_using(multi, easy->easy_handle)) { + /* There's at least one connection using this handle so we must keep + this handle around. We also keep the connection cache pointer + pointing to the shared one since that will be used on close as + well. */ + easy->easy_handle->state.shared_conn = multi; + + /* this handle is still being used by a shared connection cache and + thus we leave it around for now */ + add_closure(multi, easy->easy_handle); + } + + if(easy->easy_handle->state.connc->type == CONNCACHE_MULTI) { + /* if this was using the shared connection cache we clear the pointer + to that since we're not part of that handle anymore */ + easy->easy_handle->state.connc = NULL; + + /* and modify the connectindex since this handle can't point to the + connection cache anymore */ + if(easy->easy_conn) + easy->easy_conn->connectindex = -1; + } + + /* change state without using multistate(), only to make singlesocket() do + what we want */ + easy->state = CURLM_STATE_COMPLETED; + singlesocket(multi, easy); /* to let the application know what sockets + that vanish with this handle */ + + Curl_easy_addmulti(easy->easy_handle, NULL); /* clear the association + to this multi handle */ + + /* make the previous node point to our next */ + if(easy->prev) + easy->prev->next = easy->next; + /* make our next point to our previous node */ + if(easy->next) + easy->next->prev = easy->prev; + + easy->easy_handle->set.one_easy = NULL; /* detached */ + + /* NOTE NOTE NOTE + We do not touch the easy handle here! */ + if (easy->msg) + free(easy->msg); + free(easy); + + multi->num_easy--; /* one less to care about now */ + + update_timer(multi); + return CURLM_OK; + } + else + return CURLM_BAD_EASY_HANDLE; /* twasn't found */ +} + +bool Curl_multi_canPipeline(struct Curl_multi* multi) +{ + return multi->pipelining_enabled; +} + +static int waitconnect_getsock(struct connectdata *conn, + curl_socket_t *sock, + int numsocks) +{ + if(!numsocks) + return GETSOCK_BLANK; + + sock[0] = conn->sock[FIRSTSOCKET]; + return GETSOCK_WRITESOCK(0); +} + +static int domore_getsock(struct connectdata *conn, + curl_socket_t *sock, + int numsocks) +{ + if(!numsocks) + return GETSOCK_BLANK; + + /* When in DO_MORE state, we could be either waiting for us + to connect to a remote site, or we could wait for that site + to connect to us. It makes a difference in the way: if we + connect to the site we wait for the socket to become writable, if + the site connects to us we wait for it to become readable */ + sock[0] = conn->sock[SECONDARYSOCKET]; + + return GETSOCK_WRITESOCK(0); +} + +/* returns bitmapped flags for this handle and its sockets */ +static int multi_getsock(struct Curl_one_easy *easy, + curl_socket_t *socks, /* points to numsocks number + of sockets */ + int numsocks) +{ + if (easy->easy_handle->state.pipe_broke) { + return 0; + } + + if (easy->state > CURLM_STATE_CONNECT && + easy->state < CURLM_STATE_COMPLETED) { + /* Set up ownership correctly */ + easy->easy_conn->data = easy->easy_handle; + } + + switch(easy->state) { + case CURLM_STATE_TOOFAST: /* returns 0, so will not select. */ + default: + /* this will get called with CURLM_STATE_COMPLETED when a handle is + removed */ + return 0; + + case CURLM_STATE_WAITRESOLVE: + return Curl_resolv_getsock(easy->easy_conn, socks, numsocks); + + case CURLM_STATE_PROTOCONNECT: + return Curl_protocol_getsock(easy->easy_conn, socks, numsocks); + + case CURLM_STATE_DOING: + return Curl_doing_getsock(easy->easy_conn, socks, numsocks); + + case CURLM_STATE_WAITCONNECT: + return waitconnect_getsock(easy->easy_conn, socks, numsocks); + + case CURLM_STATE_DO_MORE: + return domore_getsock(easy->easy_conn, socks, numsocks); + + case CURLM_STATE_PERFORM: + case CURLM_STATE_WAITPERFORM: + return Curl_single_getsock(easy->easy_conn, socks, numsocks); + } + +} + +CURLMcode curl_multi_fdset(CURLM *multi_handle, + fd_set *read_fd_set, fd_set *write_fd_set, + fd_set *exc_fd_set, int *max_fd) +{ + /* Scan through all the easy handles to get the file descriptors set. + Some easy handles may not have connected to the remote host yet, + and then we must make sure that is done. */ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + int this_max_fd=-1; + curl_socket_t sockbunch[MAX_SOCKSPEREASYHANDLE]; + int bitmap; + int i; + (void)exc_fd_set; /* not used */ + + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + easy=multi->easy.next; + while(easy) { + bitmap = multi_getsock(easy, sockbunch, MAX_SOCKSPEREASYHANDLE); + + for(i=0; i< MAX_SOCKSPEREASYHANDLE; i++) { + curl_socket_t s = CURL_SOCKET_BAD; + + if(bitmap & GETSOCK_READSOCK(i)) { + FD_SET(sockbunch[i], read_fd_set); + s = sockbunch[i]; + } + if(bitmap & GETSOCK_WRITESOCK(i)) { + FD_SET(sockbunch[i], write_fd_set); + s = sockbunch[i]; + } + if(s == CURL_SOCKET_BAD) + /* this socket is unused, break out of loop */ + break; + else { + if((int)s > this_max_fd) + this_max_fd = (int)s; + } + } + + easy = easy->next; /* check next handle */ + } + + *max_fd = this_max_fd; + + return CURLM_OK; +} + +static CURLMcode multi_runsingle(struct Curl_multi *multi, + struct Curl_one_easy *easy) +{ + struct Curl_message *msg = NULL; + bool connected; + bool async; + bool protocol_connect; + bool dophase_done; + bool done; + CURLMcode result = CURLM_OK; + struct Curl_transfer_keeper *k; + + do { + + if(!GOOD_EASY_HANDLE(easy->easy_handle)) + return CURLM_BAD_EASY_HANDLE; + + if (easy->easy_handle->state.pipe_broke) { + infof(easy->easy_handle, "Pipe broke: handle 0x%x, url = %s\n", + easy, easy->easy_handle->reqdata.path); + if(easy->easy_handle->state.is_in_pipeline) { + /* Head back to the CONNECT state */ + multistate(easy, CURLM_STATE_CONNECT); + result = CURLM_CALL_MULTI_PERFORM; + easy->result = CURLE_OK; + } else { + easy->result = CURLE_COULDNT_CONNECT; + multistate(easy, CURLM_STATE_COMPLETED); + } + + easy->easy_handle->state.pipe_broke = FALSE; + easy->easy_conn = NULL; + break; + } + + if (easy->state > CURLM_STATE_CONNECT && + easy->state < CURLM_STATE_COMPLETED) { + /* Make sure we set the connection's current owner */ + easy->easy_conn->data = easy->easy_handle; + } + + if (CURLM_STATE_WAITCONNECT <= easy->state && + easy->state <= CURLM_STATE_DO && + easy->easy_handle->change.url_changed) { + char *gotourl; + Curl_posttransfer(easy->easy_handle); + + easy->result = Curl_done(&easy->easy_conn, CURLE_OK, FALSE); + /* We make sure that the pipe broken flag is reset + because in this case, it isn't an actual break */ + easy->easy_handle->state.pipe_broke = FALSE; + if(CURLE_OK == easy->result) { + gotourl = strdup(easy->easy_handle->change.url); + if(gotourl) { + easy->easy_handle->change.url_changed = FALSE; + easy->result = Curl_follow(easy->easy_handle, gotourl, FALSE); + if(CURLE_OK == easy->result) + multistate(easy, CURLM_STATE_CONNECT); + else + free(gotourl); + } + else { + easy->result = CURLE_OUT_OF_MEMORY; + multistate(easy, CURLM_STATE_COMPLETED); + break; + } + } + } + + easy->easy_handle->change.url_changed = FALSE; + + switch(easy->state) { + case CURLM_STATE_INIT: + /* init this transfer. */ + easy->result=Curl_pretransfer(easy->easy_handle); + + if(CURLE_OK == easy->result) { + /* after init, go CONNECT */ + multistate(easy, CURLM_STATE_CONNECT); + result = CURLM_CALL_MULTI_PERFORM; + + easy->easy_handle->state.used_interface = Curl_if_multi; + } + break; + + case CURLM_STATE_CONNECT: + /* Connect. We get a connection identifier filled in. */ + Curl_pgrsTime(easy->easy_handle, TIMER_STARTSINGLE); + easy->result = Curl_connect(easy->easy_handle, &easy->easy_conn, + &async, &protocol_connect); + + if(CURLE_OK == easy->result) { + /* Add this handle to the send pipeline */ + Curl_addHandleToPipeline(easy->easy_handle, + easy->easy_conn->send_pipe); + + if(async) + /* We're now waiting for an asynchronous name lookup */ + multistate(easy, CURLM_STATE_WAITRESOLVE); + else { + /* after the connect has been sent off, go WAITCONNECT unless the + protocol connect is already done and we can go directly to + WAITDO! */ + result = CURLM_CALL_MULTI_PERFORM; + + if(protocol_connect) { + multistate(easy, CURLM_STATE_WAITDO); + } else { + multistate(easy, CURLM_STATE_WAITCONNECT); + } + } + } + break; + + case CURLM_STATE_WAITRESOLVE: + /* awaiting an asynch name resolve to complete */ + { + struct Curl_dns_entry *dns = NULL; + + /* check if we have the name resolved by now */ + easy->result = Curl_is_resolved(easy->easy_conn, &dns); + + if(dns) { + /* Perform the next step in the connection phase, and then move on + to the WAITCONNECT state */ + easy->result = Curl_async_resolved(easy->easy_conn, + &protocol_connect); + + if(CURLE_OK != easy->result) + /* if Curl_async_resolved() returns failure, the connection struct + is already freed and gone */ + easy->easy_conn = NULL; /* no more connection */ + else { + /* call again please so that we get the next socket setup */ + result = CURLM_CALL_MULTI_PERFORM; + if(protocol_connect) + multistate(easy, CURLM_STATE_DO); + else + multistate(easy, CURLM_STATE_WAITCONNECT); + } + } + + if(CURLE_OK != easy->result) { + /* failure detected */ + Curl_disconnect(easy->easy_conn); /* disconnect properly */ + easy->easy_conn = NULL; /* no more connection */ + break; + } + } + break; + + case CURLM_STATE_WAITCONNECT: + /* awaiting a completion of an asynch connect */ + easy->result = Curl_is_connected(easy->easy_conn, + FIRSTSOCKET, + &connected); + if(connected) + easy->result = Curl_protocol_connect(easy->easy_conn, + &protocol_connect); + + if(CURLE_OK != easy->result) { + /* failure detected */ + Curl_disconnect(easy->easy_conn); /* close the connection */ + easy->easy_conn = NULL; /* no more connection */ + break; + } + + if(connected) { + if(!protocol_connect) { + /* We have a TCP connection, but 'protocol_connect' may be false + and then we continue to 'STATE_PROTOCONNECT'. If protocol + connect is TRUE, we move on to STATE_DO. */ + multistate(easy, CURLM_STATE_PROTOCONNECT); + } + else { + /* after the connect has completed, go WAITDO */ + multistate(easy, CURLM_STATE_WAITDO); + + result = CURLM_CALL_MULTI_PERFORM; + } + } + break; + + case CURLM_STATE_PROTOCONNECT: + /* protocol-specific connect phase */ + easy->result = Curl_protocol_connecting(easy->easy_conn, + &protocol_connect); + if(protocol_connect) { + /* after the connect has completed, go WAITDO */ + multistate(easy, CURLM_STATE_WAITDO); + result = CURLM_CALL_MULTI_PERFORM; + } + else if(easy->result) { + /* failure detected */ + Curl_posttransfer(easy->easy_handle); + Curl_done(&easy->easy_conn, easy->result, FALSE); + Curl_disconnect(easy->easy_conn); /* close the connection */ + easy->easy_conn = NULL; /* no more connection */ + } + break; + + case CURLM_STATE_WAITDO: + /* Wait for our turn to DO when we're pipelining requests */ +#ifdef CURLDEBUG + infof(easy->easy_handle, "Conn %d send pipe %d inuse %d athead %d\n", + easy->easy_conn->connectindex, + easy->easy_conn->send_pipe->size, + easy->easy_conn->writechannel_inuse, + Curl_isHandleAtHead(easy->easy_handle, + easy->easy_conn->send_pipe)); +#endif + if (!easy->easy_conn->writechannel_inuse && + Curl_isHandleAtHead(easy->easy_handle, + easy->easy_conn->send_pipe)) { + /* Grab the channel */ + easy->easy_conn->writechannel_inuse = TRUE; + multistate(easy, CURLM_STATE_DO); + result = CURLM_CALL_MULTI_PERFORM; + } + break; + + case CURLM_STATE_DO: + if(easy->easy_handle->set.connect_only) { + /* keep connection open for application to use the socket */ + easy->easy_conn->bits.close = FALSE; + multistate(easy, CURLM_STATE_DONE); + easy->result = CURLE_OK; + result = CURLM_OK; + } + else { + /* Perform the protocol's DO action */ + easy->result = Curl_do(&easy->easy_conn, + &dophase_done); + + if(CURLE_OK == easy->result) { + + if(!dophase_done) { + /* DO was not completed in one function call, we must continue + DOING... */ + multistate(easy, CURLM_STATE_DOING); + result = CURLM_OK; + } + + /* after DO, go DO_DONE... or DO_MORE */ + else if(easy->easy_conn->bits.do_more) { + /* we're supposed to do more, but we need to sit down, relax + and wait a little while first */ + multistate(easy, CURLM_STATE_DO_MORE); + result = CURLM_OK; + } + else { + /* we're done with the DO, now DO_DONE */ + easy->result = Curl_readwrite_init(easy->easy_conn); + if(CURLE_OK == easy->result) { + multistate(easy, CURLM_STATE_DO_DONE); + result = CURLM_CALL_MULTI_PERFORM; + } + } + } + else { + /* failure detected */ + Curl_posttransfer(easy->easy_handle); + Curl_done(&easy->easy_conn, easy->result, FALSE); + Curl_disconnect(easy->easy_conn); /* close the connection */ + easy->easy_conn = NULL; /* no more connection */ + } + } + break; + + case CURLM_STATE_DOING: + /* we continue DOING until the DO phase is complete */ + easy->result = Curl_protocol_doing(easy->easy_conn, + &dophase_done); + if(CURLE_OK == easy->result) { + if(dophase_done) { + /* after DO, go PERFORM... or DO_MORE */ + if(easy->easy_conn->bits.do_more) { + /* we're supposed to do more, but we need to sit down, relax + and wait a little while first */ + multistate(easy, CURLM_STATE_DO_MORE); + result = CURLM_OK; + } + else { + /* we're done with the DO, now DO_DONE */ + easy->result = Curl_readwrite_init(easy->easy_conn); + if(CURLE_OK == easy->result) { + multistate(easy, CURLM_STATE_DO_DONE); + result = CURLM_CALL_MULTI_PERFORM; + } + } + } /* dophase_done */ + } + else { + /* failure detected */ + Curl_posttransfer(easy->easy_handle); + Curl_done(&easy->easy_conn, easy->result, FALSE); + Curl_disconnect(easy->easy_conn); /* close the connection */ + easy->easy_conn = NULL; /* no more connection */ + } + break; + + case CURLM_STATE_DO_MORE: + /* Ready to do more? */ + easy->result = Curl_is_connected(easy->easy_conn, + SECONDARYSOCKET, + &connected); + if(connected) { + /* + * When we are connected, DO MORE and then go DO_DONE + */ + easy->result = Curl_do_more(easy->easy_conn); + + if(CURLE_OK == easy->result) + easy->result = Curl_readwrite_init(easy->easy_conn); + else + /* Remove ourselves from the send pipeline */ + Curl_removeHandleFromPipeline(easy->easy_handle, + easy->easy_conn->send_pipe); + + if(CURLE_OK == easy->result) { + multistate(easy, CURLM_STATE_DO_DONE); + result = CURLM_CALL_MULTI_PERFORM; + } + } + break; + + case CURLM_STATE_DO_DONE: + /* Remove ourselves from the send pipeline */ + Curl_removeHandleFromPipeline(easy->easy_handle, + easy->easy_conn->send_pipe); + /* Add ourselves to the recv pipeline */ + Curl_addHandleToPipeline(easy->easy_handle, + easy->easy_conn->recv_pipe); + multistate(easy, CURLM_STATE_WAITPERFORM); + result = CURLM_CALL_MULTI_PERFORM; + break; + + case CURLM_STATE_WAITPERFORM: +#ifdef CURLDEBUG + infof(easy->easy_handle, "Conn %d recv pipe %d inuse %d athead %d\n", + easy->easy_conn->connectindex, + easy->easy_conn->recv_pipe->size, + easy->easy_conn->readchannel_inuse, + Curl_isHandleAtHead(easy->easy_handle, + easy->easy_conn->recv_pipe)); +#endif + /* Wait for our turn to PERFORM */ + if (!easy->easy_conn->readchannel_inuse && + Curl_isHandleAtHead(easy->easy_handle, + easy->easy_conn->recv_pipe)) { + /* Grab the channel */ + easy->easy_conn->readchannel_inuse = TRUE; + multistate(easy, CURLM_STATE_PERFORM); + result = CURLM_CALL_MULTI_PERFORM; + } + break; + + case CURLM_STATE_TOOFAST: /* limit-rate exceeded in either direction */ + /* if both rates are within spec, resume transfer */ + Curl_pgrsUpdate(easy->easy_conn); + if ( ( ( easy->easy_handle->set.max_send_speed == 0 ) || + ( easy->easy_handle->progress.ulspeed < + easy->easy_handle->set.max_send_speed ) ) && + ( ( easy->easy_handle->set.max_recv_speed == 0 ) || + ( easy->easy_handle->progress.dlspeed < + easy->easy_handle->set.max_recv_speed ) ) + ) + multistate(easy, CURLM_STATE_PERFORM); + break; + + case CURLM_STATE_PERFORM: + /* check if over speed */ + if ( ( ( easy->easy_handle->set.max_send_speed > 0 ) && + ( easy->easy_handle->progress.ulspeed > + easy->easy_handle->set.max_send_speed ) ) || + ( ( easy->easy_handle->set.max_recv_speed > 0 ) && + ( easy->easy_handle->progress.dlspeed > + easy->easy_handle->set.max_recv_speed ) ) + ) { + /* Transfer is over the speed limit. Change state. TODO: Call + * Curl_expire() with the time left until we're targeted to be below + * the speed limit again. */ + multistate(easy, CURLM_STATE_TOOFAST ); + break; + } + + /* read/write data if it is ready to do so */ + easy->result = Curl_readwrite(easy->easy_conn, &done); + + k = &easy->easy_handle->reqdata.keep; + + if (!(k->keepon & KEEP_READ)) { + /* We're done reading */ + easy->easy_conn->readchannel_inuse = FALSE; + } + + if (!(k->keepon & KEEP_WRITE)) { + /* We're done writing */ + easy->easy_conn->writechannel_inuse = FALSE; + } + + if(easy->result) { + /* The transfer phase returned error, we mark the connection to get + * closed to prevent being re-used. This is becasue we can't + * possibly know if the connection is in a good shape or not now. */ + easy->easy_conn->bits.close = TRUE; + + if(CURL_SOCKET_BAD != easy->easy_conn->sock[SECONDARYSOCKET]) { + /* if we failed anywhere, we must clean up the secondary socket if + it was used */ + sclose(easy->easy_conn->sock[SECONDARYSOCKET]); + easy->easy_conn->sock[SECONDARYSOCKET] = CURL_SOCKET_BAD; + } + Curl_posttransfer(easy->easy_handle); + Curl_done(&easy->easy_conn, easy->result, FALSE); + } + else if(TRUE == done) { + char *newurl; + bool retry = Curl_retry_request(easy->easy_conn, &newurl); + + /* call this even if the readwrite function returned error */ + Curl_posttransfer(easy->easy_handle); + + /* When we follow redirects, must to go back to the CONNECT state */ + if(easy->easy_handle->reqdata.newurl || retry) { + Curl_removeHandleFromPipeline(easy->easy_handle, + easy->easy_conn->recv_pipe); + if(!retry) { + /* if the URL is a follow-location and not just a retried request + then figure out the URL here */ + newurl = easy->easy_handle->reqdata.newurl; + easy->easy_handle->reqdata.newurl = NULL; + } + easy->result = Curl_done(&easy->easy_conn, CURLE_OK, FALSE); + if(easy->result == CURLE_OK) + easy->result = Curl_follow(easy->easy_handle, newurl, retry); + if(CURLE_OK == easy->result) { + multistate(easy, CURLM_STATE_CONNECT); + result = CURLM_CALL_MULTI_PERFORM; + } + else + /* Since we "took it", we are in charge of freeing this on + failure */ + free(newurl); + } + else { + /* after the transfer is done, go DONE */ + multistate(easy, CURLM_STATE_DONE); + result = CURLM_CALL_MULTI_PERFORM; + } + } + + break; + + case CURLM_STATE_DONE: + /* Remove ourselves from the receive pipeline */ + Curl_removeHandleFromPipeline(easy->easy_handle, + easy->easy_conn->recv_pipe); + easy->easy_handle->state.is_in_pipeline = FALSE; + + if (easy->easy_conn->bits.stream_was_rewound) { + /* This request read past its response boundary so we quickly + let the other requests consume those bytes since there is no + guarantee that the socket will become active again */ + result = CURLM_CALL_MULTI_PERFORM; + } + + if (!easy->easy_handle->state.cancelled) { + /* post-transfer command */ + easy->result = Curl_done(&easy->easy_conn, CURLE_OK, FALSE); + + /* after we have DONE what we're supposed to do, go COMPLETED, and + it doesn't matter what the Curl_done() returned! */ + multistate(easy, CURLM_STATE_COMPLETED); + } + + break; + + case CURLM_STATE_COMPLETED: + if (easy->easy_handle->state.cancelled) + /* Go into the CANCELLED state if we were cancelled */ + multistate(easy, CURLM_STATE_CANCELLED); + + /* this is a completed transfer, it is likely to still be connected */ + + /* This node should be delinked from the list now and we should post + an information message that we are complete. */ + break; + + case CURLM_STATE_CANCELLED: + /* Cancelled transfer, wait to be cleaned up */ + break; + + default: + return CURLM_INTERNAL_ERROR; + } + + if(CURLM_STATE_COMPLETED != easy->state) { + if(CURLE_OK != easy->result) { + /* + * If an error was returned, and we aren't in completed state now, + * then we go to completed and consider this transfer aborted. + */ + easy->easy_handle->state.is_in_pipeline = FALSE; + easy->easy_handle->state.pipe_broke = FALSE; + + if(easy->easy_conn) { + /* if this has a connection, unsubscribe from the pipelines */ + easy->easy_conn->writechannel_inuse = FALSE; + easy->easy_conn->readchannel_inuse = FALSE; + } + multistate(easy, CURLM_STATE_COMPLETED); + } + } + + } while (easy->easy_handle->change.url_changed); + + if ((CURLM_STATE_COMPLETED == easy->state) && !easy->msg) { + if(easy->easy_handle->dns.hostcachetype == HCACHE_MULTI) { + /* clear out the usage of the shared DNS cache */ + easy->easy_handle->dns.hostcache = NULL; + easy->easy_handle->dns.hostcachetype = HCACHE_NONE; + } + + /* now add a node to the Curl_message linked list with this info */ + msg = (struct Curl_message *)malloc(sizeof(struct Curl_message)); + + if(!msg) + return CURLM_OUT_OF_MEMORY; + + msg->extmsg.msg = CURLMSG_DONE; + msg->extmsg.easy_handle = easy->easy_handle; + msg->extmsg.data.result = easy->result; + msg->next = NULL; + + easy->msg = msg; + easy->msg_num = 1; /* there is one unread message here */ + + multi->num_msgs++; /* increase message counter */ + } + + return result; +} + + +CURLMcode curl_multi_perform(CURLM *multi_handle, int *running_handles) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + CURLMcode returncode=CURLM_OK; + struct Curl_tree *t; + + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + easy=multi->easy.next; + while(easy) { + CURLMcode result; + + if (easy->easy_handle->state.cancelled && + easy->state == CURLM_STATE_CANCELLED) { + /* Remove cancelled handles once it's safe to do so */ + Curl_multi_rmeasy(multi_handle, easy->easy_handle); + easy->easy_handle = NULL; + easy = easy->next; + continue; + } + + result = multi_runsingle(multi, easy); + if(result) + returncode = result; + + easy = easy->next; /* operate on next handle */ + } + + /* + * Simply remove all expired timers from the splay since handles are dealt + * with unconditionally by this function and curl_multi_timeout() requires + * that already passed/handled expire times are removed from the splay. + */ + do { + struct timeval now = Curl_tvnow(); + int key = now.tv_sec; /* drop the usec part */ + + multi->timetree = Curl_splaygetbest(key, multi->timetree, &t); + if (t) { + struct SessionHandle *d = t->payload; + struct timeval* tv = &d->state.expiretime; + + /* clear the expire times within the handles that we remove from the + splay tree */ + tv->tv_sec = 0; + tv->tv_usec = 0; + } + + } while(t); + + *running_handles = multi->num_alive; + + if ( CURLM_OK == returncode ) + update_timer(multi); + return returncode; +} + +/* This is called when an easy handle is cleanup'ed that is part of a multi + handle */ +void Curl_multi_rmeasy(void *multi_handle, CURL *easy_handle) +{ + curl_multi_remove_handle(multi_handle, easy_handle); +} + + +CURLMcode curl_multi_cleanup(CURLM *multi_handle) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + struct Curl_one_easy *nexteasy; + int i; + struct closure *cl; + struct closure *n; + + if(GOOD_MULTI_HANDLE(multi)) { + multi->type = 0; /* not good anymore */ + Curl_hash_destroy(multi->hostcache); + Curl_hash_destroy(multi->sockhash); + + /* go over all connections that have close actions */ + for(i=0; i< multi->connc->num; i++) { + if(multi->connc->connects[i] && + multi->connc->connects[i]->protocol & PROT_CLOSEACTION) { + Curl_disconnect(multi->connc->connects[i]); + multi->connc->connects[i] = NULL; + } + } + /* now walk through the list of handles we kept around only to be + able to close connections "properly" */ + cl = multi->closure; + while(cl) { + cl->easy_handle->state.shared_conn = NULL; /* no more shared */ + if(cl->easy_handle->state.closed) + /* close handle only if curl_easy_cleanup() already has been called + for this easy handle */ + Curl_close(cl->easy_handle); + n = cl->next; + free(cl); + cl= n; + } + + Curl_rm_connc(multi->connc); + + /* remove all easy handles */ + easy = multi->easy.next; + while(easy) { + nexteasy=easy->next; + if(easy->easy_handle->dns.hostcachetype == HCACHE_MULTI) { + /* clear out the usage of the shared DNS cache */ + easy->easy_handle->dns.hostcache = NULL; + easy->easy_handle->dns.hostcachetype = HCACHE_NONE; + } + + /* Clear the pointer to the connection cache */ + easy->easy_handle->state.connc = NULL; + + Curl_easy_addmulti(easy->easy_handle, NULL); /* clear the association */ + + if (easy->msg) + free(easy->msg); + free(easy); + easy = nexteasy; + } + + free(multi); + + return CURLM_OK; + } + else + return CURLM_BAD_HANDLE; +} + +CURLMsg *curl_multi_info_read(CURLM *multi_handle, int *msgs_in_queue) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + + *msgs_in_queue = 0; /* default to none */ + + if(GOOD_MULTI_HANDLE(multi)) { + struct Curl_one_easy *easy; + + if(!multi->num_msgs) + return NULL; /* no messages left to return */ + + easy=multi->easy.next; + while(easy) { + if(easy->msg_num) { + easy->msg_num--; + break; + } + easy = easy->next; + } + if(!easy) + return NULL; /* this means internal count confusion really */ + + multi->num_msgs--; + *msgs_in_queue = multi->num_msgs; + + return &easy->msg->extmsg; + } + else + return NULL; +} + +/* + * singlesocket() checks what sockets we deal with and their "action state" + * and if we have a different state in any of those sockets from last time we + * call the callback accordingly. + */ +static void singlesocket(struct Curl_multi *multi, + struct Curl_one_easy *easy) +{ + curl_socket_t socks[MAX_SOCKSPEREASYHANDLE]; + int i; + struct Curl_sh_entry *entry; + curl_socket_t s; + int num; + unsigned int curraction; + + memset(&socks, 0, sizeof(socks)); + for(i=0; i< MAX_SOCKSPEREASYHANDLE; i++) + socks[i] = CURL_SOCKET_BAD; + + /* Fill in the 'current' struct with the state as it is now: what sockets to + supervise and for what actions */ + curraction = multi_getsock(easy, socks, MAX_SOCKSPEREASYHANDLE); + + /* We have 0 .. N sockets already and we get to know about the 0 .. M + sockets we should have from now on. Detect the differences, remove no + longer supervised ones and add new ones */ + + /* walk over the sockets we got right now */ + for(i=0; (i< MAX_SOCKSPEREASYHANDLE) && + (curraction & (GETSOCK_READSOCK(i) | GETSOCK_WRITESOCK(i))); + i++) { + int action = CURL_POLL_NONE; + + s = socks[i]; + + /* get it from the hash */ + entry = Curl_hash_pick(multi->sockhash, (char *)&s, sizeof(s)); + + if(curraction & GETSOCK_READSOCK(i)) + action |= CURL_POLL_IN; + if(curraction & GETSOCK_WRITESOCK(i)) + action |= CURL_POLL_OUT; + + if(entry) { + /* yeps, already present so check if it has the same action set */ + if(entry->action == action) + /* same, continue */ + continue; + } + else { + /* this is a socket we didn't have before, add it! */ + entry = sh_addentry(multi->sockhash, s, easy->easy_handle); + if(!entry) + /* fatal */ + return; + } + + multi->socket_cb(easy->easy_handle, + s, + action, + multi->socket_userp, + entry ? entry->socketp : NULL); + + entry->action = action; /* store the current action state */ + } + + num = i; /* number of sockets */ + + /* when we've walked over all the sockets we should have right now, we must + make sure to detect sockets that are removed */ + for(i=0; i< easy->numsocks; i++) { + int j; + s = easy->sockets[i]; + for(j=0; j<num; j++) { + if(s == socks[j]) { + /* this is still supervised */ + s = CURL_SOCKET_BAD; + break; + } + } + if(s != CURL_SOCKET_BAD) { + /* this socket has been removed. Remove it */ + + entry = Curl_hash_pick(multi->sockhash, (char *)&s, sizeof(s)); + if(entry) { + /* just a precaution, this socket really SHOULD be in the hash already + but in case it isn't, we don't have to tell the app to remove it + either since it never got to know about it */ + multi->socket_cb(easy->easy_handle, + s, + CURL_POLL_REMOVE, + multi->socket_userp, + entry ? entry->socketp : NULL); + + sh_delentry(multi->sockhash, s); + } + } + } + + memcpy(easy->sockets, socks, num*sizeof(curl_socket_t)); + easy->numsocks = num; +} + +static CURLMcode multi_socket(struct Curl_multi *multi, + bool checkall, + curl_socket_t s, + int *running_handles) +{ + CURLMcode result = CURLM_OK; + struct SessionHandle *data = NULL; + struct Curl_tree *t; + + if(checkall) { + struct Curl_one_easy *easyp; + /* *perform() deals with running_handles on its own */ + result = curl_multi_perform(multi, running_handles); + + /* walk through each easy handle and do the socket state change magic + and callbacks */ + easyp=multi->easy.next; + while(easyp) { + singlesocket(multi, easyp); + easyp = easyp->next; + } + + /* or should we fall-through and do the timer-based stuff? */ + return result; + } + else if (s != CURL_SOCKET_TIMEOUT) { + + struct Curl_sh_entry *entry = + Curl_hash_pick(multi->sockhash, (char *)&s, sizeof(s)); + + if(!entry) + /* unmatched socket, major problemo! */ + return CURLM_BAD_SOCKET; /* better return code? */ + + data = entry->easy; + + if(data->magic != CURLEASY_MAGIC_NUMBER) + /* bad bad bad bad bad bad bad */ + return CURLM_INTERNAL_ERROR; + + result = multi_runsingle(multi, data->set.one_easy); + + if(result == CURLM_OK) + /* get the socket(s) and check if the state has been changed since + last */ + singlesocket(multi, data->set.one_easy); + + /* Now we fall-through and do the timer-based stuff, since we don't want + to force the user to have to deal with timeouts as long as at least one + connection in fact has traffic. */ + + data = NULL; /* set data to NULL again to avoid calling multi_runsingle() + in case there's no need to */ + } + + /* + * The loop following here will go on as long as there are expire-times left + * to process in the splay and 'data' will be re-assigned for every expired + * handle we deal with. + */ + do { + int key; + struct timeval now; + + /* the first loop lap 'data' can be NULL */ + if(data) { + result = multi_runsingle(multi, data->set.one_easy); + + if(result == CURLM_OK) + /* get the socket(s) and check if the state has been changed since + last */ + singlesocket(multi, data->set.one_easy); + } + + /* Check if there's one (more) expired timer to deal with! This function + extracts a matching node if there is one */ + + now = Curl_tvnow(); + key = now.tv_sec; /* drop the usec part */ + + multi->timetree = Curl_splaygetbest(key, multi->timetree, &t); + if(t) { + /* assign 'data' to be the easy handle we just removed from the splay + tree */ + data = t->payload; + /* clear the expire time within the handle we removed from the + splay tree */ + data->state.expiretime.tv_sec = 0; + data->state.expiretime.tv_usec = 0; + } + + } while(t); + + *running_handles = multi->num_alive; + return result; +} + +CURLMcode curl_multi_setopt(CURLM *multi_handle, + CURLMoption option, ...) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + CURLMcode res = CURLM_OK; + va_list param; + + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + va_start(param, option); + + switch(option) { + case CURLMOPT_SOCKETFUNCTION: + multi->socket_cb = va_arg(param, curl_socket_callback); + break; + case CURLMOPT_SOCKETDATA: + multi->socket_userp = va_arg(param, void *); + break; + case CURLMOPT_PIPELINING: + multi->pipelining_enabled = (bool)(0 != va_arg(param, long)); + break; + case CURLMOPT_TIMERFUNCTION: + multi->timer_cb = va_arg(param, curl_multi_timer_callback); + break; + case CURLMOPT_TIMERDATA: + multi->timer_userp = va_arg(param, void *); + break; + default: + res = CURLM_UNKNOWN_OPTION; + break; + } + va_end(param); + return res; +} + + +CURLMcode curl_multi_socket(CURLM *multi_handle, curl_socket_t s, + int *running_handles) +{ + CURLMcode result = multi_socket((struct Curl_multi *)multi_handle, FALSE, s, + running_handles); + if (CURLM_OK == result) + update_timer((struct Curl_multi *)multi_handle); + return result; +} + +CURLMcode curl_multi_socket_all(CURLM *multi_handle, int *running_handles) + +{ + CURLMcode result = multi_socket((struct Curl_multi *)multi_handle, + TRUE, CURL_SOCKET_BAD, running_handles); + if (CURLM_OK == result) + update_timer((struct Curl_multi *)multi_handle); + return result; +} + +static CURLMcode multi_timeout(struct Curl_multi *multi, + long *timeout_ms) +{ + if(multi->timetree) { + /* we have a tree of expire times */ + struct timeval now = Curl_tvnow(); + + /* splay the lowest to the bottom */ + multi->timetree = Curl_splay(0, multi->timetree); + + /* At least currently, the splay key is a time_t for the expire time */ + *timeout_ms = (multi->timetree->key - now.tv_sec) * 1000 - + now.tv_usec/1000; + if(*timeout_ms < 0) + /* 0 means immediately */ + *timeout_ms = 0; + } + else + *timeout_ms = -1; + + return CURLM_OK; +} + +CURLMcode curl_multi_timeout(CURLM *multi_handle, + long *timeout_ms) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + + /* First, make some basic checks that the CURLM handle is a good handle */ + if(!GOOD_MULTI_HANDLE(multi)) + return CURLM_BAD_HANDLE; + + return multi_timeout(multi, timeout_ms); +} + +/* + * Tell the application it should update its timers, if it subscribes to the + * update timer callback. + */ +static int update_timer(struct Curl_multi *multi) +{ + long timeout_ms; + if (!multi->timer_cb) + return 0; + if ( multi_timeout(multi, &timeout_ms) != CURLM_OK ) + return -1; + if ( timeout_ms < 0 ) + return 0; + + /* When multi_timeout() is done, multi->timetree points to the node with the + * timeout we got the (relative) time-out time for. We can thus easily check + * if this is the same (fixed) time as we got in a previous call and then + * avoid calling the callback again. */ + if(multi->timetree->key == multi->timer_lastcall) + return 0; + + multi->timer_lastcall = multi->timetree->key; + + return multi->timer_cb((CURLM*)multi, timeout_ms, multi->timer_userp); +} + +/* given a number of milliseconds from now to use to set the 'act before + this'-time for the transfer, to be extracted by curl_multi_timeout() */ +void Curl_expire(struct SessionHandle *data, long milli) +{ + struct Curl_multi *multi = data->multi; + struct timeval *nowp = &data->state.expiretime; + int rc; + + /* this is only interesting for multi-interface using libcurl, and only + while there is still a multi interface struct remaining! */ + if(!multi) + return; + + if(!milli) { + /* No timeout, clear the time data. */ + if(nowp->tv_sec) { + /* Since this is an cleared time, we must remove the previous entry from + the splay tree */ + rc = Curl_splayremovebyaddr(multi->timetree, + &data->state.timenode, + &multi->timetree); + if(rc) + infof(data, "Internal error clearing splay node = %d\n", rc); + infof(data, "Expire cleared\n"); + nowp->tv_sec = 0; + nowp->tv_usec = 0; + } + } + else { + struct timeval set; + int rest; + + set = Curl_tvnow(); + set.tv_sec += milli/1000; + set.tv_usec += (milli%1000)*1000; + + rest = (int)(set.tv_usec - 1000000); + if(rest > 0) { + /* bigger than a full microsec */ + set.tv_sec++; + set.tv_usec -= 1000000; + } + + if(nowp->tv_sec) { + /* This means that the struct is added as a node in the splay tree. + Compare if the new time is earlier, and only remove-old/add-new if it + is. */ + long diff = curlx_tvdiff(set, *nowp); + if(diff > 0) + /* the new expire time was later so we don't change this */ + return; + + /* Since this is an updated time, we must remove the previous entry from + the splay tree first and then re-add the new value */ + rc = Curl_splayremovebyaddr(multi->timetree, + &data->state.timenode, + &multi->timetree); + if(rc) + infof(data, "Internal error removing splay node = %d\n", rc); + } + + *nowp = set; +#if 0 + infof(data, "Expire at %ld / %ld (%ldms)\n", + (long)nowp->tv_sec, (long)nowp->tv_usec, milli); +#endif + data->state.timenode.payload = data; + multi->timetree = Curl_splayinsert((int)nowp->tv_sec, + multi->timetree, + &data->state.timenode); + } +#if 0 + Curl_splayprint(multi->timetree, 0, TRUE); +#endif +} + +CURLMcode curl_multi_assign(CURLM *multi_handle, + curl_socket_t s, void *hashp) +{ + struct Curl_sh_entry *there = NULL; + struct Curl_multi *multi = (struct Curl_multi *)multi_handle; + + if(s != CURL_SOCKET_BAD) + there = Curl_hash_pick(multi->sockhash, (char *)&s, sizeof(curl_socket_t)); + + if(!there) + return CURLM_BAD_SOCKET; + + there->socketp = hashp; + + return CURLM_OK; +} + +static bool multi_conn_using(struct Curl_multi *multi, + struct SessionHandle *data) +{ + /* any live CLOSEACTION-connections pointing to the give 'data' ? */ + int i; + + for(i=0; i< multi->connc->num; i++) { + if(multi->connc->connects[i] && + (multi->connc->connects[i]->data == data) && + multi->connc->connects[i]->protocol & PROT_CLOSEACTION) + return TRUE; + } + + return FALSE; +} + +/* Add the given data pointer to the list of 'closure handles' that are kept + around only to be able to close some connections nicely - just make sure + that this handle isn't already added, like for the cases when an easy + handle is removed, added and removed again... */ +static void add_closure(struct Curl_multi *multi, + struct SessionHandle *data) +{ + int i; + struct closure *cl = (struct closure *)calloc(sizeof(struct closure), 1); + struct closure *p=NULL; + struct closure *n; + if(cl) { + cl->easy_handle = data; + cl->next = multi->closure; + multi->closure = cl; + } + + p = multi->closure; + cl = p->next; /* start immediately on the second since the first is the one + we just added and it is _very_ likely to actually exist + used in the cache since that's the whole purpose of adding + it to this list! */ + + /* When adding, scan through all the other currently kept handles and see if + there are any connections still referring to them and kill them if not. */ + while(cl) { + bool inuse = FALSE; + for(i=0; i< multi->connc->num; i++) { + if(multi->connc->connects[i] && + (multi->connc->connects[i]->data == cl->easy_handle)) { + inuse = TRUE; + break; + } + } + + n = cl->next; + + if(!inuse) { + /* cl->easy_handle is now killable */ + infof(data, "Delayed kill of easy handle %p\n", cl->easy_handle); + /* unmark it as not having a connection around that uses it anymore */ + cl->easy_handle->state.shared_conn= NULL; + Curl_close(cl->easy_handle); + if(p) + p->next = n; + else + multi->closure = n; + free(cl); + } + else + p = cl; + + cl = n; + } + +} + +#ifdef CURLDEBUG +void curl_multi_dump(CURLM *multi_handle) +{ + struct Curl_multi *multi=(struct Curl_multi *)multi_handle; + struct Curl_one_easy *easy; + int i; + fprintf(stderr, "* Multi status: %d handles, %d alive\n", + multi->num_easy, multi->num_alive); + for(easy=multi->easy.next; easy; easy = easy->next) { + if(easy->state != CURLM_STATE_COMPLETED) { + /* only display handles that are not completed */ + fprintf(stderr, "handle %p, state %s, %d sockets\n", + (void *)easy->easy_handle, + statename[easy->state], easy->numsocks); + for(i=0; i < easy->numsocks; i++) { + curl_socket_t s = easy->sockets[i]; + struct Curl_sh_entry *entry = + Curl_hash_pick(multi->sockhash, (char *)&s, sizeof(s)); + + fprintf(stderr, "%d ", (int)s); + if(!entry) { + fprintf(stderr, "INTERNAL CONFUSION\n"); + continue; + } + fprintf(stderr, "[%s %s] ", + entry->action&CURL_POLL_IN?"RECVING":"", + entry->action&CURL_POLL_OUT?"SENDING":""); + } + if(easy->numsocks) + fprintf(stderr, "\n"); + } + } +} +#endif |