netsurf/content/fetchcache.c

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/*
* This file is part of NetSurf, http://netsurf.sourceforge.net/
* Licensed under the GNU General Public License,
* http://www.opensource.org/licenses/gpl-license
* Copyright 2005 James Bursa <bursa@users.sourceforge.net>
*/
/** \file
* High-level fetching, caching and conversion (implementation).
*
* The implementation checks the cache for the requested URL. If it is not
* present, a content is created and a fetch is initiated. As the status of the
* fetch changes and data is received, the content is updated appropriately.
*/
#define _GNU_SOURCE /* for strndup */
#include <assert.h>
#include <string.h>
#include <sys/types.h>
#include <regex.h>
#include <time.h>
#include "netsurf/utils/config.h"
#include "netsurf/content/content.h"
#include "netsurf/content/fetchcache.h"
#include "netsurf/content/fetch.h"
#include "netsurf/content/url_store.h"
#include "netsurf/utils/log.h"
#include "netsurf/utils/messages.h"
#include "netsurf/utils/talloc.h"
#include "netsurf/utils/url.h"
#include "netsurf/utils/utils.h"
static char error_page[1000];
static regex_t re_content_type;
static void fetchcache_callback(fetch_msg msg, void *p, const void *data,
unsigned long size);
static char *fetchcache_parse_type(const char *s, char **params[]);
static void fetchcache_error_page(struct content *c, const char *error);
static void fetchcache_cache_update(struct content *c,
const struct cache_data *data);
static void fetchcache_notmodified(struct content *c, const void *data);
/**
* Retrieve a URL or prepare to fetch, convert, and cache it.
*
* The caller must supply a callback function which is called when anything
* interesting happens to the content which is returned. See content.h.
*
* \param url address to fetch
* \param callback function to call when anything interesting happens to
* the new content
* \param p1 user parameter for callback (may be a pointer or integer)
* \param p2 user parameter for callback (may be a pointer or integer)
* \param width available space
* \param height available space
* \param no_error_pages if an error occurs, send CONTENT_MSG_ERROR instead
* of generating an error page
* \param post_urlenc url encoded post data, or 0 if none
* \param post_multipart multipart post data, or 0 if none
* \param cookies send and accept cookies
* \param download download, rather than render content
* \return a new content, or 0 on memory exhaustion
*
* On success, call fetchcache_go() to start work on the new content.
*/
struct content * fetchcache(const char *url,
void (*callback)(content_msg msg, struct content *c,
intptr_t p1, intptr_t p2, union content_msg_data data),
intptr_t p1, intptr_t p2,
int width, int height,
bool no_error_pages,
char *post_urlenc,
struct form_successful_control *post_multipart,
bool cookies,
bool download)
{
struct content *c;
char *url1;
char *hash, *query;
char *etag = 0;
time_t date = 0;
if ((url1 = strdup(url)) == NULL)
return NULL;
/* strip fragment identifier */
if ((hash = strchr(url1, '#')) != NULL)
*hash = 0;
/* look for query; we don't cache URLs with a query segment */
query = strchr(url1, '?');
LOG(("url %s", url1));
if (!post_urlenc && !post_multipart && !download && !query) {
if ((c = content_get(url1)) != NULL) {
struct cache_data *cd = c->cache_data;
int current_age, freshness_lifetime;
/* Calculate staleness of cached content as per
* RFC 2616 13.2.3/13.2.4 */
current_age = max(0, (cd->res_time - cd->date));
current_age = max(current_age,
(cd->age == INVALID_AGE) ? 0
: cd->age);
current_age += cd->res_time - cd->req_time +
time(0) - cd->res_time;
freshness_lifetime =
(cd->max_age != INVALID_AGE) ? cd->max_age :
(cd->expires != 0) ? cd->expires - cd->date :
(cd->last_modified != 0) ?
(time(0) - cd->last_modified) / 10 :
0;
if (freshness_lifetime > current_age ||
cd->date == 0) {
/* Ok, either a fresh content or we're
* currently fetching the selected content
* (therefore it must be fresh) */
free(url1);
if (!content_add_user(c, callback, p1, p2))
return NULL;
else
return c;
}
/* Ok. We have a cache entry, but it appears stale.
* Therefore, validate it. */
if (cd->last_modified)
date = cd->last_modified;
else
date = c->cache_data->date;
etag = c->cache_data->etag;
}
}
c = content_create(url1);
free(url1);
if (!c)
return NULL;
/* Fill in cache validation fields (if present) */
if (date)
c->cache_data->date = date;
if (etag) {
c->cache_data->etag = talloc_strdup(c, etag);
if (!c->cache_data->etag)
return NULL;
}
if (!content_add_user(c, callback, p1, p2)) {
return NULL;
}
if (!post_urlenc && !post_multipart && !download && !query)
c->fresh = true;
c->width = width;
c->height = height;
c->no_error_pages = no_error_pages;
c->download = download;
return c;
}
/**
* Start fetching and converting a content.
*
* \param content content to fetch, as returned by fetchcache()
* \param referer referring URL, or 0
* \param callback function to call when anything interesting happens to
* the new content
* \param p1 user parameter for callback
* \param p2 user parameter for callback
* \param width available space
* \param height available space
* \param post_urlenc url encoded post data, or 0 if none
* \param post_multipart multipart post data, or 0 if none
* \param cookies send and accept cookies
*
* Errors will be sent back through the callback.
*/
void fetchcache_go(struct content *content, char *referer,
void (*callback)(content_msg msg, struct content *c,
intptr_t p1, intptr_t p2, union content_msg_data data),
intptr_t p1, intptr_t p2,
int width, int height,
char *post_urlenc,
struct form_successful_control *post_multipart,
bool cookies)
{
char error_message[500];
union content_msg_data msg_data;
LOG(("url %s, status %s", content->url,
content_status_name[content->status]));
if (content->status == CONTENT_STATUS_TYPE_UNKNOWN && content->fetch) {
/* fetching, but not yet received any response:
* no action required */
} else if (content->status == CONTENT_STATUS_TYPE_UNKNOWN) {
/* brand new content: start fetch */
char **headers;
int i = 0;
char *etag = content->cache_data->etag;
time_t date = content->cache_data->date;
content->cache_data->etag = 0;
content->cache_data->date = 0;
headers = malloc(3 * sizeof(char *));
if (!headers) {
talloc_free(etag);
msg_data.error = messages_get("NoMemory");
callback(CONTENT_MSG_ERROR, content, p1, p2,
msg_data);
return;
}
if (etag) {
headers[i] = malloc(15 + strlen(etag) + 1);
if (!headers[i]) {
free(headers);
talloc_free(etag);
msg_data.error = messages_get("NoMemory");
callback(CONTENT_MSG_ERROR, content, p1, p2,
msg_data);
return;
}
sprintf(headers[i++], "If-None-Match: %s", etag);
talloc_free(etag);
}
if (date) {
headers[i] = malloc(19 + 29 + 1);
if (!headers[i]) {
while (--i >= 0) {
free(headers[i]);
}
free(headers);
msg_data.error = messages_get("NoMemory");
callback(CONTENT_MSG_ERROR, content, p1, p2,
msg_data);
return;
}
sprintf(headers[i++], "If-Modified-Since: %s",
rfc1123_date(date));
}
headers[i] = 0;
content->fetch = fetch_start(content->url, referer,
fetchcache_callback, content,
content->no_error_pages,
post_urlenc, post_multipart, cookies,
headers);
for (i = 0; headers[i]; i++)
free(headers[i]);
free(headers);
if (!content->fetch) {
LOG(("warning: fetch_start failed"));
snprintf(error_message, sizeof error_message,
messages_get("InvalidURL"),
content->url);
if (content->no_error_pages) {
content->status = CONTENT_STATUS_ERROR;
msg_data.error = error_message;
content_broadcast(content, CONTENT_MSG_ERROR,
msg_data);
} else {
fetchcache_error_page(content, error_message);
}
}
/* in these remaining cases, we have to 'catch up' with the content's
* status, ie. send the same messages as if the content was
* gradually getting to the current status from TYPE_UNKNOWN */
} else if (content->status == CONTENT_STATUS_LOADING) {
callback(CONTENT_MSG_LOADING, content, p1, p2, msg_data);
} else if (content->status == CONTENT_STATUS_READY) {
callback(CONTENT_MSG_LOADING, content, p1, p2, msg_data);
if (content_find_user(content, callback, p1, p2))
callback(CONTENT_MSG_READY, content, p1, p2, msg_data);
} else if (content->status == CONTENT_STATUS_DONE) {
callback(CONTENT_MSG_LOADING, content, p1, p2, msg_data);
if (content->available_width != width)
content_reformat(content, width, height);
if (content_find_user(content, callback, p1, p2))
callback(CONTENT_MSG_READY, content, p1, p2, msg_data);
if (content_find_user(content, callback, p1, p2))
callback(CONTENT_MSG_DONE, content, p1, p2, msg_data);
} else if (content->status == CONTENT_STATUS_ERROR) {
/* shouldn't usually occur */
msg_data.error = messages_get("MiscError");
callback(CONTENT_MSG_ERROR, content, p1, p2, msg_data);
}
}
/**
* Callback function for fetch.
*
* This is called when the status of a fetch changes.
*/
void fetchcache_callback(fetch_msg msg, void *p, const void *data,
unsigned long size)
{
bool res;
struct content *c = p;
content_type type;
char *mime_type, *url;
char **params;
unsigned int i;
union content_msg_data msg_data;
url_func_result result;
switch (msg) {
case FETCH_TYPE:
c->total_size = size;
mime_type = fetchcache_parse_type(data, &params);
if (!mime_type) {
msg_data.error = messages_get("NoMemory");
content_broadcast(c, CONTENT_MSG_ERROR,
msg_data);
fetch_abort(c->fetch);
c->fetch = 0;
return;
}
type = content_lookup(mime_type);
res = content_set_type(c,
c->download ? CONTENT_OTHER : type,
mime_type, params);
free(mime_type);
for (i = 0; params[i]; i++)
free(params[i]);
free(params);
if (!res) {
fetch_abort(c->fetch);
c->fetch = 0;
}
break;
case FETCH_PROGRESS:
if (size)
content_set_status(c,
messages_get("RecPercent"),
data, (unsigned int)size);
else
content_set_status(c,
messages_get("Received"),
data);
content_broadcast(c, CONTENT_MSG_STATUS, msg_data);
break;
case FETCH_DATA:
if (!content_process_data(c, data, size)) {
fetch_abort(c->fetch);
c->fetch = 0;
}
break;
case FETCH_FINISHED:
fetchcache_cache_update(c,
(const struct cache_data *)data);
c->fetch = 0;
content_set_status(c, messages_get("Converting"),
c->source_size);
content_broadcast(c, CONTENT_MSG_STATUS, msg_data);
content_convert(c, c->width, c->height);
break;
case FETCH_ERROR:
LOG(("FETCH_ERROR, '%s'", (const char *)data));
c->fetch = 0;
if (c->no_error_pages) {
c->status = CONTENT_STATUS_ERROR;
msg_data.error = data;
content_broadcast(c, CONTENT_MSG_ERROR,
msg_data);
} else {
content_reset(c);
fetchcache_error_page(c, data);
}
break;
case FETCH_REDIRECT:
c->fetch = 0;
/* redirect URLs must be absolute by HTTP/1.1, but many sites send
* relative ones: treat them as relative to requested URL */
result = url_join(data, c->url, &url);
/* set the status to ERROR so that the content is
* destroyed in content_clean() */
c->status = CONTENT_STATUS_ERROR;
if (result == URL_FUNC_OK) {
/* check that we're not attempting to
* redirect to the same URL */
if (strcasecmp(c->url, url) == 0) {
msg_data.error =
messages_get("BadRedirect");
content_broadcast(c,
CONTENT_MSG_ERROR, msg_data);
}
else {
msg_data.redirect = url;
content_broadcast(c,
CONTENT_MSG_REDIRECT,
msg_data);
}
free(url);
} else {
msg_data.error = messages_get("BadRedirect");
content_broadcast(c, CONTENT_MSG_ERROR, msg_data);
}
break;
case FETCH_NOTMODIFIED:
fetchcache_notmodified(c, data);
break;
#ifdef WITH_AUTH
case FETCH_AUTH:
/* data -> string containing the Realm */
LOG(("FETCH_AUTH, '%s'", (const char *)data));
c->fetch = 0;
msg_data.auth_realm = data;
content_broadcast(c, CONTENT_MSG_AUTH, msg_data);
/* set the status to ERROR so that the content is
* destroyed in content_clean() */
c->status = CONTENT_STATUS_ERROR;
break;
#endif
#ifdef WITH_SSL
case FETCH_CERT_ERR:
c->fetch = 0;
/* set the status to ERROR so that the content is
* destroyed in content_clean() */
c->status = CONTENT_STATUS_ERROR;
msg_data.ssl.certs = data;
msg_data.ssl.num = size;
content_broadcast(c, CONTENT_MSG_SSL, msg_data);
break;
#endif
default:
assert(0);
}
}
/**
* Initialise the fetchcache module.
*/
void fetchcache_init(void)
{
regcomp_wrapper(&re_content_type,
"^([-0-9a-zA-Z_.]+/[-0-9a-zA-Z_.+]+)[ \t]*"
"(;[ \t]*([-0-9a-zA-Z_.]+)="
"([-0-9a-zA-Z_.]+|\"([^\"]|[\\].)*\")[ \t]*)*$",
REG_EXTENDED);
}
/**
* Parse a Content-Type header.
*
* \param s a Content-Type header
* \param params updated to point to an array of strings, ordered attribute,
* value, attribute, ..., 0
* \return a new string containing the MIME-type, or 0 on memory exhaustion
*/
#define MAX_ATTRS 10
char *fetchcache_parse_type(const char *s, char **params[])
{
char *type = 0;
unsigned int i;
int r;
regmatch_t pmatch[2 + MAX_ATTRS * 3];
*params = malloc((MAX_ATTRS * 2 + 2) * sizeof (*params)[0]);
if (!*params)
goto no_memory;
for (i = 0; i != MAX_ATTRS * 2 + 2; i++)
(*params)[i] = 0;
r = regexec(&re_content_type, s, 2 + MAX_ATTRS * 3, pmatch, 0);
if (r) {
LOG(("failed to parse content-type '%s'", s));
/* The mime type must be first, so only copy up to the
* first semicolon in the string. This allows us to have
* a better attempt at handling pages sent with broken
* Content-Type headers. Obviously, any truly broken
* Content-Type headers will be unaffected by this heuristic
*/
char *semi = strchr(s, ';');
if (semi)
type = strndup(s, semi - s);
else
type = strdup(s);
if (!type)
goto no_memory;
return type;
}
type = strndup(s + pmatch[1].rm_so, pmatch[1].rm_eo - pmatch[1].rm_so);
if (!type) {
free(*params);
return 0;
}
/* parameters */
for (i = 0; i != MAX_ATTRS && pmatch[2 + 3 * i].rm_so != -1; i++) {
(*params)[2 * i] = strndup(s + pmatch[2 + 3 * i + 1].rm_so,
pmatch[2 + 3 * i + 1].rm_eo -
pmatch[2 + 3 * i + 1].rm_so);
(*params)[2 * i + 1] = strndup(s + pmatch[2 + 3 * i + 2].rm_so,
pmatch[2 + 3 * i + 2].rm_eo -
pmatch[2 + 3 * i + 2].rm_so);
if (!(*params)[2 * i] || !(*params)[2 * i + 1])
goto no_memory;
}
(*params)[2 * i] = 0;
return type;
no_memory:
for (i = 0; i != MAX_ATTRS * 2 + 2; i++)
free((*params)[i]);
free(*params);
free(type);
return 0;
}
/**
* Generate an error page.
*
* \param c empty content to generate the page in
* \param error message to display
*/
void fetchcache_error_page(struct content *c, const char *error)
{
const char *params[] = { 0 };
int length;
if ((length = snprintf(error_page, sizeof(error_page),
messages_get("ErrorPage"), error)) < 0)
length = 0;
if (!content_set_type(c, CONTENT_HTML, "text/html", params))
return;
if (!content_process_data(c, error_page, length))
return;
content_convert(c, c->width, c->height);
}
/**
* Update a content's cache info
*
* \param The content
* \param Cache data
*/
void fetchcache_cache_update(struct content *c,
const struct cache_data *data)
{
assert(c && data);
c->cache_data->req_time = data->req_time;
c->cache_data->res_time = data->res_time;
if (data->date != 0)
c->cache_data->date = data->date;
else
c->cache_data->date = time(0);
if (data->expires != 0)
c->cache_data->expires = data->expires;
if (data->age != INVALID_AGE)
c->cache_data->age = data->age;
if (data->max_age != INVALID_AGE)
c->cache_data->max_age = data->max_age;
if (data->no_cache)
c->fresh = false;
if (data->etag) {
talloc_free(c->cache_data->etag);
c->cache_data->etag = talloc_strdup(c, data->etag);
}
if (data->last_modified)
c->cache_data->last_modified = data->last_modified;
}
/**
* Not modified callback handler
*/
void fetchcache_notmodified(struct content *c, const void *data)
{
struct content *fb;
union content_msg_data msg_data;
assert(c && data);
assert(c->status == CONTENT_STATUS_TYPE_UNKNOWN);
/* Look for cached content */
fb = content_get_ready(c->url);
if (fb) {
/* Found it */
intptr_t p1, p2;
void (*callback)(content_msg msg,
struct content *c, intptr_t p1,
intptr_t p2,
union content_msg_data data);
/* Now notify all users that we're changing content */
while (c->user_list->next) {
p1 = c->user_list->next->p1;
p2 = c->user_list->next->p2;
callback = c->user_list->next->callback;
if (!content_add_user(fb, callback, p1, p2)) {
c->type = CONTENT_UNKNOWN;
c->status = CONTENT_STATUS_ERROR;
msg_data.error = messages_get("NoMemory");
content_broadcast(c, CONTENT_MSG_ERROR,
msg_data);
return;
}
content_remove_user(c, callback, p1, p2);
callback(CONTENT_MSG_NEWPTR, fb, p1, p2, msg_data);
/* and catch user up with fallback's state */
if (fb->status == CONTENT_STATUS_LOADING) {
callback(CONTENT_MSG_LOADING,
fb, p1, p2, msg_data);
} else if (fb->status == CONTENT_STATUS_READY) {
callback(CONTENT_MSG_LOADING,
fb, p1, p2, msg_data);
if (content_find_user(fb, callback, p1, p2))
callback(CONTENT_MSG_READY,
fb, p1, p2, msg_data);
} else if (fb->status == CONTENT_STATUS_DONE) {
callback(CONTENT_MSG_LOADING,
fb, p1, p2, msg_data);
if (content_find_user(fb, callback, p1, p2))
callback(CONTENT_MSG_READY,
fb, p1, p2, msg_data);
if (content_find_user(fb, callback, p1, p2))
callback(CONTENT_MSG_DONE,
fb, p1, p2, msg_data);
} else if (fb->status == CONTENT_STATUS_ERROR) {
/* shouldn't usually occur */
msg_data.error = messages_get("MiscError");
callback(CONTENT_MSG_ERROR, fb, p1, p2,
msg_data);
}
}
/* mark content invalid */
c->fetch = 0;
c->status = CONTENT_STATUS_ERROR;
/* and update fallback's cache control data */
fetchcache_cache_update(fb,
(const struct cache_data *)data);
}
else {
/* No cached content, so unconditionally refetch */
struct content_user *u;
fetch_abort(c->fetch);
c->fetch = 0;
c->cache_data->date = 0;
talloc_free(c->cache_data->etag);
c->cache_data->etag = 0;
for (u = c->user_list->next; u; u = u->next) {
fetchcache_go(c, 0, u->callback, u->p1, u->p2,
c->width, c->height, 0, 0, false);
}
}
}
#ifdef TEST
#include <unistd.h>
void callback(fetchcache_msg msg, struct content *c, void *p, char *error)
{
switch (msg) {
case FETCHCACHE_OK:
LOG(("FETCHCACHE_OK, url '%s'", p));
break;
case FETCHCACHE_BADTYPE:
LOG(("FETCHCACHE_BADTYPE, url '%s'", p));
break;
case FETCHCACHE_ERROR:
LOG(("FETCHCACHE_ERROR, url '%s', error '%s'", p, error));
break;
default:
assert(0);
}
}
char *test[] = {"http://www.google.co.uk/", "http://www.ox.ac.uk/", "blah://blah/"};
int main(void)
{
int i;
cache_init();
fetch_init();
for (i = 0; i != sizeof(test) / sizeof(test[0]); i++)
fetchcache(test[i], 0, callback, test[i], 800, 0);
for (i = 0; i != 5; i++) {
fetch_poll();
sleep(1);
}
for (i = 0; i != sizeof(test) / sizeof(test[0]); i++)
fetchcache(test[i], 0, callback, test[i], 800, 0);
for (i = 0; i != 20; i++) {
fetch_poll();
sleep(1);
}
return 0;
}
#endif