netsurf/content/fetch.c

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/*
* Copyright 2006,2007 Daniel Silverstone <dsilvers@digital-scurf.org>
* Copyright 2007 James Bursa <bursa@users.sourceforge.net>
* Copyright 2003 Phil Mellor <monkeyson@users.sourceforge.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* NetSurf is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* \file
* Implementation of fetching of data from a URL.
*
* The implementation is the fetch factory and the generic operations
* around the fetcher specific methods.
*
* Active fetches are held in the circular linked list ::fetch_ring. There may
* be at most nsoption max_fetchers_per_host active requests per Host: header.
* There may be at most nsoption max_fetchers active requests overall. Inactive
* fetches are stored in the ::queue_ring waiting for use.
*/
#include <stdlib.h>
#include <assert.h>
#include <errno.h>
#include <stdbool.h>
#include <string.h>
#include <strings.h>
#include <time.h>
#include <libwapcaplet/libwapcaplet.h>
#include "utils/config.h"
#include "utils/corestrings.h"
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#include "utils/nsoption.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/nsurl.h"
#include "utils/ring.h"
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#include "netsurf/misc.h"
#include "desktop/gui_internal.h"
#include "content/fetch.h"
#include "content/fetchers.h"
#include "content/fetchers/resource.h"
#include "content/fetchers/about.h"
#include "content/fetchers/curl.h"
#include "content/fetchers/data.h"
#include "content/fetchers/file.h"
#include "javascript/fetcher.h"
#include "content/urldb.h"
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/** The maximum number of fetchers that can be added */
#define MAX_FETCHERS 10
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/** The time in ms between polling the fetchers.
*
* \todo The schedule timeout should be profiled to see if there is a
* better value or even if it needs to be dynamic.
*/
#define SCHEDULE_TIME 10
/** The fdset timeout in ms */
#define FDSET_TIMEOUT 1000
/**
* Information about a fetcher for a given scheme.
*/
typedef struct scheme_fetcher_s {
lwc_string *scheme; /**< The scheme. */
struct fetcher_operation_table ops; /**< The fetchers operations. */
int refcount; /**< When zero the fetcher is no longer in use. */
} scheme_fetcher;
static scheme_fetcher fetchers[MAX_FETCHERS];
/** Information for a single fetch. */
struct fetch {
fetch_callback callback;/**< Callback function. */
nsurl *url; /**< URL. */
nsurl *referer; /**< Referer URL. */
bool send_referer; /**< Valid to send the referer */
bool verifiable; /**< Transaction is verifiable */
void *p; /**< Private data for callback. */
lwc_string *host; /**< Host part of URL, interned */
long http_code; /**< HTTP response code, or 0. */
int fetcherd; /**< Fetcher descriptor for this fetch */
void *fetcher_handle; /**< The handle for the fetcher. */
bool fetch_is_active; /**< This fetch is active. */
fetch_msg_type last_msg;/**< The last message sent for this fetch */
struct fetch *r_prev; /**< Previous active fetch in ::fetch_ring. */
struct fetch *r_next; /**< Next active fetch in ::fetch_ring. */
};
static struct fetch *fetch_ring = NULL; /**< Ring of active fetches. */
static struct fetch *queue_ring = NULL; /**< Ring of queued fetches */
/******************************************************************************
* fetch internals *
******************************************************************************/
static inline void fetch_ref_fetcher(int fetcherd)
{
fetchers[fetcherd].refcount++;
}
static inline void fetch_unref_fetcher(int fetcherd)
{
fetchers[fetcherd].refcount--;
if (fetchers[fetcherd].refcount == 0) {
fetchers[fetcherd].ops.finalise(fetchers[fetcherd].scheme);
lwc_string_unref(fetchers[fetcherd].scheme);
}
}
/**
* Find a suitable fetcher for a scheme.
*/
static int get_fetcher_for_scheme(lwc_string *scheme)
{
int fetcherd;
bool match;
for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
if ((fetchers[fetcherd].refcount > 0) &&
(lwc_string_isequal(fetchers[fetcherd].scheme,
scheme, &match) == lwc_error_ok) &&
(match == true)) {
return fetcherd;
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}
}
return -1;
}
/**
* Dispatch a single job
*/
static bool fetch_dispatch_job(struct fetch *fetch)
{
RING_REMOVE(queue_ring, fetch);
NSLOG(fetch, DEBUG,
"Attempting to start fetch %p, fetcher %p, url %s", fetch,
fetch->fetcher_handle,
nsurl_access(fetch->url));
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if (!fetchers[fetch->fetcherd].ops.start(fetch->fetcher_handle)) {
RING_INSERT(queue_ring, fetch); /* Put it back on the end of the queue */
return false;
} else {
RING_INSERT(fetch_ring, fetch);
fetch->fetch_is_active = true;
return true;
}
}
/**
* Choose and dispatch a single job. Return false if we failed to dispatch
* anything.
*
* We don't check the overall dispatch size here because we're not called unless
* there is room in the fetch queue for us.
*/
static bool fetch_choose_and_dispatch(void)
{
bool same_host;
struct fetch *queueitem;
queueitem = queue_ring;
do {
/* We can dispatch the selected item if there is room in the
* fetch ring
*/
int countbyhost;
RING_COUNTBYLWCHOST(struct fetch, fetch_ring, countbyhost,
queueitem->host);
if (countbyhost < nsoption_int(max_fetchers_per_host)) {
/* We can dispatch this item in theory */
return fetch_dispatch_job(queueitem);
}
/* skip over other items with the same host */
same_host = true;
while (same_host == true && queueitem->r_next != queue_ring) {
if (lwc_string_isequal(queueitem->host,
queueitem->r_next->host, &same_host) ==
lwc_error_ok && same_host == true) {
queueitem = queueitem->r_next;
}
}
queueitem = queueitem->r_next;
} while (queueitem != queue_ring);
return false;
}
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static void dump_rings(void)
{
struct fetch *q;
struct fetch *f;
q = queue_ring;
if (q) {
do {
NSLOG(fetch, DEBUG, "queue_ring: %s",
nsurl_access(q->url));
q = q->r_next;
} while (q != queue_ring);
}
f = fetch_ring;
if (f) {
do {
NSLOG(fetch, DEBUG, "fetch_ring: %s",
nsurl_access(f->url));
f = f->r_next;
} while (f != fetch_ring);
}
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}
/**
* Dispatch as many jobs as we have room to dispatch.
*
* @return true if there are active fetchers that require polling else false.
*/
static bool fetch_dispatch_jobs(void)
{
int all_active;
int all_queued;
RING_GETSIZE(struct fetch, queue_ring, all_queued);
RING_GETSIZE(struct fetch, fetch_ring, all_active);
NSLOG(fetch, DEBUG,
"queue_ring %i, fetch_ring %i",
all_queued,
all_active);
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dump_rings();
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while ((all_queued != 0) &&
(all_active < nsoption_int(max_fetchers)) &&
fetch_choose_and_dispatch()) {
all_queued--;
all_active++;
NSLOG(fetch, DEBUG,
"%d queued, %d fetching",
all_queued,
all_active);
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}
NSLOG(fetch, DEBUG, "Fetch ring is now %d elements.", all_active);
NSLOG(fetch, DEBUG, "Queue ring is now %d elements.", all_queued);
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return (all_active > 0);
}
static void fetcher_poll(void *unused)
{
int fetcherd;
if (fetch_dispatch_jobs()) {
NSLOG(fetch, DEBUG, "Polling fetchers");
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for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
if (fetchers[fetcherd].refcount > 0) {
/* fetcher present */
fetchers[fetcherd].ops.poll(fetchers[fetcherd].scheme);
}
}
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/* schedule active fetchers to run again in 10ms */
guit->misc->schedule(SCHEDULE_TIME, fetcher_poll, NULL);
}
}
/******************************************************************************
* Public API *
******************************************************************************/
/* exported interface documented in content/fetch.h */
nserror fetcher_init(void)
{
nserror ret;
#ifdef WITH_CURL
ret = fetch_curl_register();
if (ret != NSERROR_OK) {
return ret;
}
#endif
ret = fetch_data_register();
if (ret != NSERROR_OK) {
return ret;
}
ret = fetch_file_register();
if (ret != NSERROR_OK) {
return ret;
}
ret = fetch_resource_register();
if (ret != NSERROR_OK) {
return ret;
}
ret = fetch_about_register();
if (ret != NSERROR_OK) {
return ret;
}
ret = fetch_javascript_register();
return ret;
}
/* exported interface documented in content/fetchers.h */
void fetcher_quit(void)
{
int fetcherd; /* fetcher index */
for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
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if (fetchers[fetcherd].refcount > 1) {
/* fetcher still has reference at quit. This
* should not happen as the fetch should have
* been aborted in llcache shutdown.
*
* This appears to be normal behaviour if a
* curl operation is still in progress at exit
* as the abort waits for curl to complete.
*
* We could make the user wait for curl to
* complete but we are exiting anyway so thats
* unhelpful. Instead we just log it and force
* the reference count to allow the fetcher to
* be stopped.
*/
NSLOG(fetch, INFO,
"Fetcher for scheme %s still has %d active users at quit.",
lwc_string_data(fetchers[fetcherd].scheme),
fetchers[fetcherd].refcount);
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fetchers[fetcherd].refcount = 1;
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}
if (fetchers[fetcherd].refcount == 1) {
fetch_unref_fetcher(fetcherd);
}
}
}
/* exported interface documented in content/fetchers.h */
nserror
fetcher_add(lwc_string *scheme, const struct fetcher_operation_table *ops)
{
int fetcherd;
/* find unused fetcher descriptor */
for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
if (fetchers[fetcherd].refcount == 0) {
break;
}
}
if (fetcherd == MAX_FETCHERS) {
return NSERROR_INIT_FAILED;
}
if (!ops->initialise(scheme)) {
return NSERROR_INIT_FAILED;
}
fetchers[fetcherd].scheme = scheme;
fetchers[fetcherd].ops = *ops;
fetch_ref_fetcher(fetcherd);
return NSERROR_OK;
}
/* exported interface documented in content/fetch.h */
nserror
fetch_fdset(fd_set *read_fd_set,
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fd_set *write_fd_set,
fd_set *except_fd_set,
int *maxfd_out)
{
int maxfd = -1;
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int fetcherd; /* fetcher index */
if (!fetch_dispatch_jobs()) {
NSLOG(fetch, DEBUG, "No jobs");
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*maxfd_out = -1;
return NSERROR_OK;
}
NSLOG(fetch, DEBUG, "Polling fetchers");
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for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
if (fetchers[fetcherd].refcount > 0) {
/* fetcher present */
fetchers[fetcherd].ops.poll(fetchers[fetcherd].scheme);
}
}
FD_ZERO(read_fd_set);
FD_ZERO(write_fd_set);
FD_ZERO(except_fd_set);
for (fetcherd = 0; fetcherd < MAX_FETCHERS; fetcherd++) {
if ((fetchers[fetcherd].refcount > 0) &&
(fetchers[fetcherd].ops.fdset != NULL)) {
/* fetcher present */
int fetcher_maxfd;
fetcher_maxfd = fetchers[fetcherd].ops.fdset(
fetchers[fetcherd].scheme, read_fd_set,
write_fd_set, except_fd_set);
if (fetcher_maxfd > maxfd)
maxfd = fetcher_maxfd;
}
}
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if (maxfd >= 0) {
/* change the scheduled poll to happen is a 1000ms as
* we assume fetching an fdset means the fetchers will
* be run by the client waking up on data available on
* the fd and re-calling fetcher_fdset() if this does
* not happen the fetch polling will continue as
* usual.
*/
/** @note adjusting the schedule time is only done for
* curl currently. This is because as it is assumed to
* be the only fetcher that can possibly have fd to
* select on. All the other fetchers continue to need
* polling frequently.
*/
guit->misc->schedule(FDSET_TIMEOUT, fetcher_poll, NULL);
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}
*maxfd_out = maxfd;
return NSERROR_OK;
}
/* exported interface documented in content/fetch.h */
nserror
fetch_start(nsurl *url,
nsurl *referer,
fetch_callback callback,
void *p,
bool only_2xx,
const char *post_urlenc,
const struct fetch_multipart_data *post_multipart,
bool verifiable,
bool downgrade_tls,
const char *headers[],
struct fetch **fetch_out)
{
struct fetch *fetch;
lwc_string *scheme;
bool match;
fetch = calloc(1, sizeof (*fetch));
if (fetch == NULL) {
return NSERROR_NOMEM;
}
/* The URL we're fetching must have a scheme */
scheme = nsurl_get_component(url, NSURL_SCHEME);
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assert(scheme != NULL);
/* try and obtain a fetcher for this scheme */
fetch->fetcherd = get_fetcher_for_scheme(scheme);
if (fetch->fetcherd == -1) {
lwc_string_unref(scheme);
free(fetch);
return NSERROR_NO_FETCH_HANDLER;
}
NSLOG(fetch, DEBUG, "fetch %p, url '%s'", fetch, nsurl_access(url));
/* construct a new fetch structure */
fetch->callback = callback;
fetch->url = nsurl_ref(url);
fetch->verifiable = verifiable;
fetch->p = p;
fetch->host = nsurl_get_component(url, NSURL_HOST);
if (referer != NULL) {
lwc_string *ref_scheme;
fetch->referer = nsurl_ref(referer);
ref_scheme = nsurl_get_component(referer, NSURL_SCHEME);
/* Not a problem if referer has no scheme */
/* Determine whether to send the Referer header */
if (nsoption_bool(send_referer) && ref_scheme != NULL) {
/* User permits us to send the header
* Only send it if:
* 1) The fetch and referer schemes match
* or 2) The fetch is https and the referer is http
*
* This ensures that referer information is only sent
* across schemes in the special case of an https
* request from a page served over http. The inverse
* (https -> http) should not send the referer (15.1.3)
*/
bool match1;
bool match2;
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if (lwc_string_isequal(scheme, ref_scheme,
&match) != lwc_error_ok) {
match = false;
}
if (lwc_string_isequal(scheme, corestring_lwc_https,
&match1) != lwc_error_ok) {
match1 = false;
}
if (lwc_string_isequal(ref_scheme, corestring_lwc_http,
&match2) != lwc_error_ok) {
match2= false;
}
if (match == true || (match1 == true && match2 == true))
fetch->send_referer = true;
}
if (ref_scheme != NULL)
lwc_string_unref(ref_scheme);
}
/* these aren't needed past here */
lwc_string_unref(scheme);
/* try and set up the fetch */
fetch->fetcher_handle = fetchers[fetch->fetcherd].ops.setup(fetch, url,
only_2xx, downgrade_tls,
post_urlenc, post_multipart,
headers);
if (fetch->fetcher_handle == NULL) {
if (fetch->host != NULL)
lwc_string_unref(fetch->host);
if (fetch->url != NULL)
nsurl_unref(fetch->url);
if (fetch->referer != NULL)
nsurl_unref(fetch->referer);
free(fetch);
/** \todo The fetchers setup should return nserror and that be
* passed back rather than assuming a bad url
*/
return NSERROR_BAD_URL;
}
/* Rah, got it, so ref the fetcher. */
fetch_ref_fetcher(fetch->fetcherd);
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/* Dump new fetch in the queue. */
RING_INSERT(queue_ring, fetch);
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/* Ask the queue to run. */
if (fetch_dispatch_jobs()) {
NSLOG(fetch, DEBUG, "scheduling poll");
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/* schedule active fetchers to run again in 10ms */
guit->misc->schedule(10, fetcher_poll, NULL);
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}
*fetch_out = fetch;
return NSERROR_OK;
}
/* exported interface documented in content/fetch.h */
void fetch_abort(struct fetch *f)
{
assert(f);
f->last_msg = FETCH__INTERNAL_ABORTED;
NSLOG(fetch, DEBUG,
"fetch %p, fetcher %p, url '%s'", f, f->fetcher_handle,
nsurl_access(f->url));
fetchers[f->fetcherd].ops.abort(f->fetcher_handle);
}
/* exported interface documented in content/fetch.h */
void fetch_free(struct fetch *f)
{
if (f->last_msg < FETCH_MIN_FINISHED_MSG) {
/* We didn't finish, so tell our user that an error occurred */
fetch_msg msg;
msg.type = FETCH_ERROR;
msg.data.error = "FetchFailedToFinish";
NSLOG(fetch, CRITICAL,
"During the fetch of %s, the fetcher did not finish.",
nsurl_access(f->url));
fetch_send_callback(&msg, f);
}
NSLOG(fetch, DEBUG,
"Freeing fetch %p, fetcher %p",
f,
f->fetcher_handle);
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fetchers[f->fetcherd].ops.free(f->fetcher_handle);
fetch_unref_fetcher(f->fetcherd);
nsurl_unref(f->url);
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if (f->referer != NULL) {
nsurl_unref(f->referer);
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}
if (f->host != NULL) {
lwc_string_unref(f->host);
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}
free(f);
}
/* exported interface documented in content/fetch.h */
bool fetch_can_fetch(const nsurl *url)
{
lwc_string *scheme = nsurl_get_component(url, NSURL_SCHEME);
int fetcherd;
fetcherd = get_fetcher_for_scheme(scheme);
lwc_string_unref(scheme);
if (fetcherd == -1) {
return false;
}
return fetchers[fetcherd].ops.acceptable(url);
}
/* exported interface documented in content/fetch.h */
void fetch_change_callback(struct fetch *fetch,
fetch_callback callback,
void *p)
{
assert(fetch);
fetch->callback = callback;
fetch->p = p;
}
/* exported interface documented in content/fetch.h */
long fetch_http_code(struct fetch *fetch)
{
return fetch->http_code;
}
/* exported interface documented in content/fetch.h */
struct fetch_multipart_data *
fetch_multipart_data_clone(const struct fetch_multipart_data *list)
{
struct fetch_multipart_data *clone, *last = NULL;
struct fetch_multipart_data *result = NULL;
for (; list != NULL; list = list->next) {
clone = malloc(sizeof(struct fetch_multipart_data));
if (clone == NULL) {
if (result != NULL)
fetch_multipart_data_destroy(result);
return NULL;
}
clone->file = list->file;
clone->name = strdup(list->name);
if (clone->name == NULL) {
free(clone);
if (result != NULL)
fetch_multipart_data_destroy(result);
return NULL;
}
clone->value = strdup(list->value);
if (clone->value == NULL) {
free(clone->name);
free(clone);
if (result != NULL)
fetch_multipart_data_destroy(result);
return NULL;
}
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if (clone->file) {
clone->rawfile = strdup(list->rawfile);
if (clone->rawfile == NULL) {
free(clone->value);
free(clone->name);
free(clone);
if (result != NULL)
fetch_multipart_data_destroy(result);
return NULL;
}
} else {
clone->rawfile = NULL;
}
clone->next = NULL;
if (result == NULL)
result = clone;
else
last->next = clone;
last = clone;
}
return result;
}
/* exported interface documented in content/fetch.h */
const char *
fetch_multipart_data_find(const struct fetch_multipart_data *list,
const char *name)
{
while (list != NULL) {
if (strcmp(list->name, name) == 0) {
return list->value;
}
list = list->next;
}
return NULL;
}
/* exported interface documented in content/fetch.h */
void fetch_multipart_data_destroy(struct fetch_multipart_data *list)
{
struct fetch_multipart_data *next;
for (; list != NULL; list = next) {
next = list->next;
free(list->name);
free(list->value);
if (list->file) {
NSLOG(fetch, DEBUG,
"Freeing rawfile: %s", list->rawfile);
free(list->rawfile);
}
free(list);
}
}
/* exported interface documented in content/fetch.h */
nserror
fetch_multipart_data_new_kv(struct fetch_multipart_data **list,
const char *name,
const char *value)
{
struct fetch_multipart_data *newdata;
assert(list);
newdata = calloc(sizeof(*newdata), 1);
if (newdata == NULL) {
return NSERROR_NOMEM;
}
newdata->name = strdup(name);
if (newdata->name == NULL) {
free(newdata);
return NSERROR_NOMEM;
}
newdata->value = strdup(value);
if (newdata->value == NULL) {
free(newdata->name);
free(newdata);
return NSERROR_NOMEM;
}
newdata->next = *list;
*list = newdata;
return NSERROR_OK;
}
/* exported interface documented in content/fetch.h */
void
fetch_send_callback(const fetch_msg *msg, struct fetch *fetch)
{
/* Bump the last_msg to the greatest seen msg */
if (msg->type > fetch->last_msg)
fetch->last_msg = msg->type;
fetch->callback(msg, fetch->p);
}
/* exported interface documented in content/fetch.h */
void fetch_remove_from_queues(struct fetch *fetch)
{
int all_active;
int all_queued;
NSLOG(fetch, DEBUG,
"Fetch %p, fetcher %p can be freed",
fetch,
fetch->fetcher_handle);
/* Go ahead and free the fetch properly now */
if (fetch->fetch_is_active) {
RING_REMOVE(fetch_ring, fetch);
} else {
RING_REMOVE(queue_ring, fetch);
}
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RING_GETSIZE(struct fetch, fetch_ring, all_active);
RING_GETSIZE(struct fetch, queue_ring, all_queued);
NSLOG(fetch, DEBUG, "Fetch ring is now %d elements.", all_active);
NSLOG(fetch, DEBUG, "Queue ring is now %d elements.", all_queued);
}
/* exported interface documented in content/fetch.h */
void fetch_set_http_code(struct fetch *fetch, long http_code)
{
NSLOG(fetch, DEBUG, "Setting HTTP code to %ld", http_code);
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fetch->http_code = http_code;
}
/* exported interface documented in content/fetch.h */
const char *fetch_get_referer_to_send(struct fetch *fetch)
{
if (fetch->send_referer)
return nsurl_access(fetch->referer);
return NULL;
}
/* exported interface documented in content/fetch.h */
void fetch_set_cookie(struct fetch *fetch, const char *data)
{
assert(fetch && data);
/* If the fetch is unverifiable err on the side of caution and
* do not set the cookie */
if (fetch->verifiable) {
/* If the transaction's verifiable, we don't require
* that the request uri and the parent domain match,
* so don't pass in any referer/parent in this case. */
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urldb_set_cookie(data, fetch->url, NULL);
} else if (fetch->referer != NULL) {
/* Permit the cookie to be set if the fetch is unverifiable
* and the fetch URI domain matches the referer. */
/** \todo Long-term, this needs to be replaced with a
* comparison against the origin fetch URI. In the case
* where a nested object requests a fetch, the origin URI
* is the nested object's parent URI, whereas the referer
* for the fetch will be the nested object's URI. */
2012-10-08 23:32:57 +04:00
urldb_set_cookie(data, fetch->url, fetch->referer);
}
}