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elinks/src/session/task.c

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/** Sessions task management
* @file */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "elinks.h"
#include "bfu/menu.h"
#include "bfu/dialog.h"
#include "cache/cache.h"
#include "dialogs/menu.h"
#include "dialogs/status.h"
#include "document/document.h"
#include "document/html/parser.h"
#include "document/refresh.h"
#include "document/view.h"
#include "intl/gettext/libintl.h"
#include "main/event.h"
#include "main/timer.h"
#include "network/connection.h"
#include "osdep/newwin.h"
#include "protocol/protocol.h"
#include "protocol/uri.h"
#include "terminal/terminal.h"
#include "terminal/window.h"
#include "session/download.h"
#include "session/location.h"
#include "session/session.h"
#include "session/task.h"
#include "viewer/text/view.h"
static void loading_callback(struct download *, struct session *);
static void
free_task(struct session *ses)
{
assertm(ses->task.type, "Session has no task");
if_assert_failed return;
if (ses->loading_uri) {
done_uri(ses->loading_uri);
ses->loading_uri = NULL;
}
ses->task.type = TASK_NONE;
}
void
abort_preloading(struct session *ses, int interrupt)
{
if (!ses->task.type) return;
cancel_download(&ses->loading, interrupt);
free_task(ses);
}
struct task {
struct session *ses;
struct uri *uri;
enum cache_mode cache_mode;
struct session_task session_task;
};
static void
ses_load(struct session *ses, struct uri *uri, unsigned char *target_frame,
struct location *target_location, enum cache_mode cache_mode,
enum task_type task_type)
{
ses->loading.callback = (download_callback_T *) loading_callback;
ses->loading.data = ses;
ses->loading_uri = uri;
ses->task.type = task_type;
ses->task.target.frame = target_frame;
ses->task.target.location = target_location;
load_uri(ses->loading_uri, ses->referrer, &ses->loading,
PRI_MAIN, cache_mode, -1);
}
static void
post_yes(void *task_)
{
struct task *task = task_;
abort_preloading(task->ses, 0);
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/* XXX: Make the session inherit the URI. */
ses_load(task->ses, task->uri, task->session_task.target.frame,
task->session_task.target.location, task->cache_mode,
task->session_task.type);
}
static void
post_no(void *task_)
{
struct task *task = task_;
reload(task->ses, CACHE_MODE_NORMAL);
done_uri(task->uri);
}
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/** Check if the URI is obfuscated (bug 382). The problem is said to occur when
* a URI designed to pass access a specific location with a supplied username,
* contains misleading chars prior to the @ symbol.
*
* An attacker can exploit this issue by supplying a malicious URI pointing to
* a page designed to mimic that of a trusted site, and tricking a victim who
* follows a link into believing they are actually at the trusted location.
*
* Only the user ID (and not also the password) is checked because only the
* user ID is displayed in the status bar. */
static int
check_malicious_uri(struct uri *uri)
{
unsigned char *user, *pos;
int warn = 0;
assert(uri->user && uri->userlen);
user = pos = memacpy(uri->user, uri->userlen);
if (!user) return 0;
decode_uri_for_display(user);
while (*pos) {
int length, trailing_dots;
for (length = 0; pos[length] != '\0'; length++)
if (!(isalnum(pos[length]) || pos[length] == '.'))
break;
/* Wind back so that the TLD part is checked correctly. */
for (trailing_dots = 0; trailing_dots < length; trailing_dots++)
if (!length || pos[length - trailing_dots - 1] != '.')
break;
/* Not perfect, but I am clueless as how to do better. Besides
* I don't really think it is an issue for ELinks. --jonas */
if (end_with_known_tld(pos, length - trailing_dots) != -1) {
warn = 1;
break;
}
pos += length;
while (*pos && (!isalnum(*pos) || *pos == '.'))
pos++;
}
mem_free(user);
return warn;
}
void
ses_goto(struct session *ses, struct uri *uri, unsigned char *target_frame,
struct location *target_location, enum cache_mode cache_mode,
enum task_type task_type, int redir)
{
Here is a framework that detects cases where a PO file assigns the same accelerator key to multiple buttons in a dialog box or to multiple items in a menu. ELinks already has some support for this but it requires the translator to run ELinks and manually scan through all menus and dialogs. The attached changes make it possible to quickly detect and list any conflicts, including ones that can only occur on operating systems or configurations that the translator is not currently using. The changes have no immediate effect on the elinks executable or the MO files. PO files become larger, however. The scheme works like this: - Like before, accelerator keys in translatable strings are tagged with the tilde (~) character. - Whenever a C source file defines an accelerator key, it must assign one or more named "contexts" to it. The translations in the PO files inherit these contexts. If multiple strings use the same accelerator (case insensitive) in the same context, that's a conflict and can be detected automatically. - The contexts are defined with "gettext_accelerator_context" comments in source files. These comments delimit regions where all translatable strings containing tildes are given the same contexts. There must be one special comment at the top of the region; it lists the contexts assigned to that region. The region automatically ends at the end of the function (found with regexp /^\}/), but it can also be closed explicitly with another special comment. The comments are formatted like this: /* [gettext_accelerator_context(foo, bar, baz)] begins a region that uses the contexts "foo", "bar", and "baz". The comma is the delimiter; whitespace is optional. [gettext_accelerator_context()] ends the region. */ The scripts don't currently check whether this syntax occurs inside or outside comments. - The names of contexts consist of C identifiers delimited with periods. I typically used the name of a function that sets up a dialog, or the name of an array where the items of a menu are listed. There is a special feature for static functions: if the name begins with a period, then the period will be replaced with the name of the source file and a colon. - If a menu is programmatically generated from multiple parts, of which some are never used together, so that it is safe to use the same accelerators in them, then it is necessary to define multiple contexts for the same menu. link_menu() in src/viewer/text/link.c is the most complex example of this. - During make update-po: - A Perl script (po/gather-accelerator-contexts.pl) reads po/elinks.pot, scans the source files listed in it for "gettext_accelerator_context" comments, and rewrites po/elinks.pot with "accelerator_context" comments that indicate the contexts of each msgid: the union of all contexts of all of its uses in the source files. It also removes any "gettext_accelerator_context" comments that xgettext --add-comments has copied to elinks.pot. - If po/gather-accelerator-contexts.pl does not find any contexts for some use of an msgid that seems to contain an accelerator (because it contains a tilde), it warns. If the tilde refers to e.g. "~/.elinks" and does not actually mark an accelerator, the warning can be silenced by specifying the special context "IGNORE", which the script otherwise ignores. - msgmerge copies the "accelerator_context" comments from po/elinks.pot to po/*.po. Translators do not edit those comments. - During make check-po: - Another Perl script (po/check-accelerator-contexts.pl) reads po/*.po and keeps track of which accelerators have been bound in each context. It warns about any conflicts it finds. This script does not access the C source files; thus it does not matter if the line numbers in "#:" lines are out of date. This implementation is not perfect and I am not proposing to add it to the main source tree at this time. Specifically: - It introduces compile-time dependencies on Perl and Locale::PO. There should be a configure-time or compile-time check so that the new features are skipped if the prerequisites are missing. - When the scripts include msgstr strings in warnings, they should transcode them from the charset of the PO file to the one specified by the user's locale. - It is not adequately documented (well, except perhaps here). - po/check-accelerator-contexts.pl reports the same conflict multiple times if it occurs in multiple contexts. - The warning messages should include line numbers, so that users of Emacs could conveniently edit the conflicting part of the PO file. This is not feasible with the current version of Locale::PO. - Locale::PO does not understand #~ lines and spews warnings about them. There is an ugly hack to hide these warnings. - Jonas Fonseca suggested the script could propose accelerators that are still available. This has not been implemented. There are three files attached: - po/gather-accelerator-contexts.pl: Augments elinks.pot with context information. - po/check-accelerator-contexts.pl: Checks conflicts. - accelerator-contexts.diff: Makes po/Makefile run the scripts, and adds special comments to source files.
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/* [gettext_accelerator_context(ses_goto)] */
struct task *task;
int referrer_incomplete = 0;
int malicious_uri = 0;
int confirm_submit = uri->form && get_opt_bool("document.browse.forms"
".confirm_submit");
unsigned char *m1 = NULL, *message = NULL;
if (ses->doc_view
&& ses->doc_view->document
&& ses->doc_view->document->refresh) {
kill_document_refresh(ses->doc_view->document->refresh);
}
assertm(!ses->loading_uri, "Buggy URI reference counting");
/* Reset the redirect counter if this is not a redirect. */
if (!redir) {
ses->redirect_cnt = 0;
}
/* Figure out whether to confirm submit or not */
/* Only confirm submit if we are posting form data or a misleading URI
* was detected. */
/* Note uri->post might be empty here but we are still supposely
* posting form data so this should be more correct. */
if (uri->user && uri->userlen
&& get_opt_bool("document.browse.links.warn_malicious")
&& check_malicious_uri(uri)) {
malicious_uri = 1;
confirm_submit = 1;
} else if (uri->form) {
/* First check if the referring URI was incomplete. It
* indicates that the posted form data might be incomplete too.
* See bug 460. */
if (ses->referrer) {
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struct cache_entry *cached;
cached = find_in_cache(ses->referrer);
referrer_incomplete = (cached && cached->incomplete);
}
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if (referrer_incomplete) {
confirm_submit = 1;
} else if (get_validated_cache_entry(uri, cache_mode)) {
confirm_submit = 0;
}
}
if (!confirm_submit) {
ses_load(ses, get_uri_reference(uri), target_frame,
target_location, cache_mode, task_type);
return;
}
task = mem_alloc(sizeof(*task));
if (!task) return;
task->ses = ses;
task->uri = get_uri_reference(uri);
task->cache_mode = cache_mode;
task->session_task.type = task_type;
task->session_task.target.frame = target_frame;
task->session_task.target.location = target_location;
if (malicious_uri) {
unsigned char *host = memacpy(uri->host, uri->hostlen);
unsigned char *user = memacpy(uri->user, uri->userlen);
unsigned char *uristring = get_uri_string(uri, URI_PUBLIC);
message = msg_text(ses->tab->term,
N_("The URL you are about to follow might be maliciously "
"crafted in order to confuse you. By following the URL "
"you will be connecting to host \"%s\" as user \"%s\".\n\n"
"Do you want to go to URL %s?"), host, user, uristring);
mem_free_if(host);
mem_free_if(user);
mem_free_if(uristring);
} else if (redir) {
m1 = N_("Do you want to follow the redirect and post form data "
"to URL %s?");
} else if (referrer_incomplete) {
m1 = N_("The form data you are about to post might be incomplete.\n"
"Do you want to post to URL %s?");
} else if (task_type == TASK_FORWARD) {
m1 = N_("Do you want to post form data to URL %s?");
} else {
m1 = N_("Do you want to repost form data to URL %s?");
}
if (!message && m1) {
unsigned char *uristring = get_uri_string(uri, URI_PUBLIC);
message = msg_text(ses->tab->term, m1, uristring);
mem_free_if(uristring);
}
msg_box(ses->tab->term, getml(task, (void *) NULL), MSGBOX_FREE_TEXT,
N_("Warning"), ALIGN_CENTER,
message,
task, 2,
MSG_BOX_BUTTON(N_("~Yes"), post_yes, B_ENTER),
MSG_BOX_BUTTON(N_("~No"), post_no, B_ESC));
}
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/** If @a loaded_in_frame is set, this was called just to indicate a move inside
* a frameset, and we basically just reset the appropriate frame's view_state in
* that case. When clicking on a link inside a frame, the frame URI is somehow
* updated and added to the files-to-load queue, then ses_forward() is called
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* with @a loaded_in_frame unset, duplicating the whole frameset's location,
* then later the file-to-load callback calls it for the particular frame with
* @a loaded_in_frame set. */
struct view_state *
ses_forward(struct session *ses, int loaded_in_frame)
{
struct location *loc = NULL;
struct view_state *vs;
if (!loaded_in_frame) {
free_files(ses);
mem_free_set(&ses->search_word, NULL);
}
x:
if (!loaded_in_frame) {
loc = mem_calloc(1, sizeof(*loc));
if (!loc) return NULL;
copy_struct(&loc->download, &ses->loading);
}
if (ses->task.target.frame && *ses->task.target.frame) {
struct frame *frame;
assertm(have_location(ses), "no location yet");
if_assert_failed return NULL;
if (!loaded_in_frame) {
copy_location(loc, cur_loc(ses));
add_to_history(&ses->history, loc);
}
frame = ses_find_frame(ses, ses->task.target.frame);
if (!frame) {
if (!loaded_in_frame) {
del_from_history(&ses->history, loc);
destroy_location(loc);
}
ses->task.target.frame = NULL;
goto x;
}
vs = &frame->vs;
if (!loaded_in_frame) {
destroy_vs(vs, 1);
init_vs(vs, ses->loading_uri, vs->plain);
} else {
done_uri(vs->uri);
vs->uri = get_uri_reference(ses->loading_uri);
if (vs->doc_view) {
/* vs->doc_view itself will get detached in
* render_document_frames(), but that's too
* late for us. */
vs->doc_view->vs = NULL;
vs->doc_view = NULL;
}
#ifdef CONFIG_ECMASCRIPT
vs->ecmascript_fragile = 1;
#endif
}
} else {
assert(loc);
if_assert_failed return NULL;
init_list(loc->frames);
vs = &loc->vs;
init_vs(vs, ses->loading_uri, vs->plain);
add_to_history(&ses->history, loc);
}
ses->status.visited = 0;
/* This is another "branch" in the browsing, so throw away the current
* unhistory, we are venturing in another direction! */
if (ses->task.type == TASK_FORWARD)
clean_unhistory(&ses->history);
return vs;
}
static void
ses_imgmap(struct session *ses)
{
struct cache_entry *cached = find_in_cache(ses->loading_uri);
struct document_view *doc_view = current_frame(ses);
struct fragment *fragment;
struct memory_list *ml;
struct menu_item *menu;
if (!cached) {
INTERNAL("can't find cache entry");
return;
}
fragment = get_cache_fragment(cached);
if (!fragment) return;
if (!doc_view || !doc_view->document) return;
if (get_image_map(cached->head, fragment->data,
fragment->data + fragment->length,
&menu, &ml, ses->loading_uri,
&doc_view->document->options,
ses->task.target.frame,
get_opt_codepage_tree(ses->tab->term->spec, "charset"),
get_opt_codepage("document.codepage.assume"),
get_opt_bool("document.codepage.force_assumed")))
return;
add_empty_window(ses->tab->term, (void (*)(void *)) freeml, ml);
do_menu(ses->tab->term, menu, ses, 0);
}
enum do_move {
DO_MOVE_ABORT,
DO_MOVE_DISPLAY,
DO_MOVE_DONE
};
static enum do_move
do_redirect(struct session *ses, struct download **download_p, struct cache_entry *cached)
{
enum task_type task = ses->task.type;
if (task == TASK_HISTORY && !have_location(ses))
return DO_MOVE_DISPLAY;
assertm(compare_uri(cached->uri, ses->loading_uri, URI_BASE),
"Redirecting using bad base URI");
if (cached->redirect->protocol == PROTOCOL_UNKNOWN)
return DO_MOVE_ABORT;
abort_loading(ses, 0);
if (have_location(ses))
*download_p = &cur_loc(ses)->download;
else
*download_p = NULL;
set_session_referrer(ses, cached->uri);
switch (task) {
case TASK_NONE:
break;
case TASK_FORWARD:
{
protocol_external_handler_T *fn;
struct uri *uri = cached->redirect;
fn = get_protocol_external_handler(ses->tab->term, uri);
if (fn) {
fn(ses, uri);
*download_p = NULL;
return DO_MOVE_ABORT;
}
}
/* Fall through. */
case TASK_IMGMAP:
ses_goto(ses, cached->redirect, ses->task.target.frame, NULL,
CACHE_MODE_NORMAL, task, 1);
return DO_MOVE_DONE;
case TASK_HISTORY:
ses_goto(ses, cached->redirect, NULL, ses->task.target.location,
CACHE_MODE_NORMAL, TASK_RELOAD, 1);
return DO_MOVE_DONE;
case TASK_RELOAD:
ses_goto(ses, cached->redirect, NULL, NULL,
ses->reloadlevel, TASK_RELOAD, 1);
return DO_MOVE_DONE;
}
return DO_MOVE_DISPLAY;
}
static enum do_move
do_move(struct session *ses, struct download **download_p)
{
struct cache_entry *cached;
assert(download_p && *download_p);
assertm(ses->loading_uri != NULL, "no ses->loading_uri");
if_assert_failed return DO_MOVE_ABORT;
if (ses->loading_uri->protocol == PROTOCOL_UNKNOWN)
return DO_MOVE_ABORT;
/* Handling image map needs to scan the source of the loaded document
* so all of it has to be available. */
if (ses->task.type == TASK_IMGMAP && is_in_progress_state((*download_p)->state))
return DO_MOVE_ABORT;
cached = (*download_p)->cached;
if (!cached) return DO_MOVE_ABORT;
if (cached->redirect && ses->redirect_cnt++ < MAX_REDIRECTS) {
enum do_move d = do_redirect(ses, download_p, cached);
if (d != DO_MOVE_DISPLAY) return d;
}
kill_timer(&ses->display_timer);
switch (ses->task.type) {
case TASK_NONE:
break;
case TASK_FORWARD:
if (setup_download_handler(ses, &ses->loading, cached, 0)) {
free_task(ses);
reload(ses, CACHE_MODE_NORMAL);
return DO_MOVE_DONE;
}
break;
case TASK_IMGMAP:
ses_imgmap(ses);
break;
case TASK_HISTORY:
ses_history_move(ses);
break;
case TASK_RELOAD:
ses->task.target.location = cur_loc(ses)->prev;
ses_history_move(ses);
ses_forward(ses, 0);
break;
}
if (is_in_progress_state((*download_p)->state)) {
if (have_location(ses))
*download_p = &cur_loc(ses)->download;
move_download(&ses->loading, *download_p, PRI_MAIN);
} else if (have_location(ses)) {
cur_loc(ses)->download.state = ses->loading.state;
}
free_task(ses);
return DO_MOVE_DISPLAY;
}
static void
loading_callback(struct download *download, struct session *ses)
{
enum do_move d;
assertm(ses->task.type, "loading_callback: no ses->task");
if_assert_failed return;
d = do_move(ses, &download);
if (!download) return;
if (d == DO_MOVE_DONE) goto end;
if (d == DO_MOVE_DISPLAY) {
download->callback = (download_callback_T *) doc_loading_callback;
display_timer(ses);
}
if (is_in_result_state(download->state)) {
if (ses->task.type) free_task(ses);
if (d == DO_MOVE_DISPLAY) doc_loading_callback(download, ses);
}
if (is_in_result_state(download->state)
&& !is_in_state(download->state, S_OK)) {
print_error_dialog(ses, download->state,
download->conn ? download->conn->uri : NULL,
download->pri);
if (d == DO_MOVE_ABORT) reload(ses, CACHE_MODE_NORMAL);
}
end:
check_questions_queue(ses);
print_screen_status(ses);
}
static void
do_follow_url(struct session *ses, struct uri *uri, unsigned char *target,
enum task_type task, enum cache_mode cache_mode, int do_referrer)
{
struct uri *referrer = NULL;
protocol_external_handler_T *external_handler;
if (!uri) {
print_error_dialog(ses, connection_state(S_BAD_URL), uri, PRI_CANCEL);
return;
}
external_handler = get_protocol_external_handler(ses->tab->term, uri);
if (external_handler) {
external_handler(ses, uri);
return;
}
if (do_referrer) {
struct document_view *doc_view = current_frame(ses);
if (doc_view && doc_view->document)
referrer = doc_view->document->uri;
}
if (target && !strcmp(target, "_blank")) {
int mode = get_opt_int("document.browse.links.target_blank");
if (mode == 3
&& !get_cmd_opt_bool("anonymous")
&& can_open_in_new(ses->tab->term)
&& !get_cmd_opt_bool("no-connect")
&& !get_cmd_opt_bool("no-home")) {
enum term_env_type env = ses->tab->term->environment;
open_uri_in_new_window(ses, uri, referrer, env,
cache_mode, task);
return;
}
if (mode > 0) {
struct session *new_ses;
new_ses = init_session(ses, ses->tab->term, uri, (mode == 2));
if (new_ses) ses = new_ses;
}
}
ses->reloadlevel = cache_mode;
if (ses->task.type == task) {
if (compare_uri(ses->loading_uri, uri, 0)) {
/* We're already loading the URL. */
return;
}
}
abort_loading(ses, 0);
set_session_referrer(ses, referrer);
ses_goto(ses, uri, target, NULL, cache_mode, task, 0);
}
static void
follow_url(struct session *ses, struct uri *uri, unsigned char *target,
enum task_type task, enum cache_mode cache_mode, int referrer)
{
#ifdef CONFIG_SCRIPTING
static int follow_url_event_id = EVENT_NONE;
unsigned char *uristring = uri ? get_uri_string(uri, URI_BASE | URI_FRAGMENT) : NULL;
if (!uristring) {
do_follow_url(ses, uri, target, task, cache_mode, referrer);
return;
}
set_event_id(follow_url_event_id, "follow-url");
trigger_event(follow_url_event_id, &uristring, ses);
if (!uristring || !*uristring) {
mem_free_if(uristring);
return;
}
/* FIXME: Compare if uristring and struri(uri) are equal */
/* FIXME: When uri->post will no longer be an encoded string (but
* hopefully some refcounted object) we will have to assign the post
* data object to the translated URI. */
uri = get_translated_uri(uristring, ses->tab->term->cwd);
mem_free(uristring);
#endif
do_follow_url(ses, uri, target, task, cache_mode, referrer);
#ifdef CONFIG_SCRIPTING
if (uri) done_uri(uri);
#endif
}
void
goto_uri(struct session *ses, struct uri *uri)
{
follow_url(ses, uri, NULL, TASK_FORWARD, CACHE_MODE_NORMAL, 0);
}
void
goto_uri_frame(struct session *ses, struct uri *uri,
unsigned char *target, enum cache_mode cache_mode)
{
follow_url(ses, uri, target, TASK_FORWARD, cache_mode, 1);
}
void
delayed_goto_uri_frame(void *data)
{
struct delayed_open *deo = data;
struct frame *frame;
assert(deo);
frame = ses_find_frame(deo->ses, deo->target);
if (frame)
goto_uri_frame(deo->ses, deo->uri, frame->name, CACHE_MODE_NORMAL);
else {
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goto_uri_frame(deo->ses, deo->uri, NULL, CACHE_MODE_NORMAL);
}
done_uri(deo->uri);
mem_free(deo->target);
mem_free(deo);
}
/* menu_func_T */
void
map_selected(struct terminal *term, void *ld_, void *ses_)
{
struct link_def *ld = ld_;
struct session *ses = ses_;
struct uri *uri = get_uri(ld->link, 0);
goto_uri_frame(ses, uri, ld->target, CACHE_MODE_NORMAL);
if (uri) done_uri(uri);
}
void
goto_url(struct session *ses, unsigned char *url)
{
struct uri *uri = get_uri(url, 0);
goto_uri(ses, uri);
if (uri) done_uri(uri);
}
struct uri *
get_hooked_uri(unsigned char *uristring, struct session *ses, unsigned char *cwd)
{
struct uri *uri;
#if defined(CONFIG_SCRIPTING) || defined(CONFIG_URI_REWRITE)
static int goto_url_event_id = EVENT_NONE;
uristring = stracpy(uristring);
if (!uristring) return NULL;
set_event_id(goto_url_event_id, "goto-url");
trigger_event(goto_url_event_id, &uristring, ses);
if (!uristring) return NULL;
#endif
uri = *uristring ? get_translated_uri(uristring, cwd) : NULL;
#if defined(CONFIG_SCRIPTING) || defined(CONFIG_URI_REWRITE)
mem_free(uristring);
#endif
return uri;
}
void
goto_url_with_hook(struct session *ses, unsigned char *url)
{
unsigned char *cwd = ses->tab->term->cwd;
struct uri *uri;
/* Bail out if passed empty string from goto-url dialog */
if (!*url) return;
uri = get_hooked_uri(url, ses, cwd);
if (!uri) return;
goto_uri(ses, uri);
done_uri(uri);
}
int
goto_url_home(struct session *ses)
{
unsigned char *homepage = get_opt_str("ui.sessions.homepage");
if (!*homepage) homepage = getenv("WWW_HOME");
if (!homepage || !*homepage) homepage = WWW_HOME_URL;
if (!homepage || !*homepage) return 0;
goto_url_with_hook(ses, homepage);
return 1;
}
/* TODO: Should there be goto_imgmap_reload() ? */
void
goto_imgmap(struct session *ses, struct uri *uri, unsigned char *target)
{
follow_url(ses, uri, target, TASK_IMGMAP, CACHE_MODE_NORMAL, 1);
}